KR20050081656A - Method for saving and managing data and system therefor - Google Patents

Abstract

The present invention relates to a method and system for storing and managing data, and more particularly, to a method for storing and managing data in a predetermined storage device, the method comprising: (a) having different storage capacities depending on the size of data to be stored; Determining a type of a slot to be used for storing the data among a plurality of slot types; And (b) storing the data in a predetermined unit storage area having a slot of the same type as the determined type. .

According to the present invention, it is particularly useful in the case of transmitting a large amount of data such as geographic information to a portable terminal having a low storage capacity by providing an optimal storage method that minimizes waste of storage space, and automatically encrypts the data during the storage process. There are also advantages to be achieved.

Description

Method for saving and managing data and system therefor}

The present invention relates to a method and system for storing and managing data, and more particularly, to a method and system for preventing waste of storage space by varying a storage capacity of a slot used for storing data.

In general, when storing or outputting data in a storage space, a task is performed in units of pages, which are basic input / output units of an operating system, and a page, which is a basis for storing and output, is composed of a plurality of slots.

Conventionally, the storage capacity of a slot used in any one storage device is uniform, and even if the storage capacity of the slot is large enough, it is not necessary to simultaneously store a plurality of data in one slot, thereby causing unnecessary storage space. There was.

In addition, in order to solve the above problem, when the storage capacity of a slot is made very small, there is a disadvantage in that a large number of operations for dividing the data and storing it in each slot are needed to store large data. .

In order to solve the above problems, an object of the present invention is to provide a data storage management method capable of maintaining an optimized physical storage structure by varying the size of a slot used for storing data.

In order to solve the above problem, an object of the present invention is to provide a system for implementing the above method.

In order to achieve the above object, the present invention provides a method for storing and managing data in a predetermined storage device, the method comprising: (a) storing data among a plurality of slot types having different storage capacities depending on the size of data to be stored; Determining a type of slot to be used for; And (b) storing the data in a predetermined unit storage area having a slot of the same type as the determined type.

In step (a), (aa) the slot type having the largest storage capacity among the slot types having the storage capacity smaller than or equal to the size of the data is determined as the slot type to be used for storing the data, and the determined slot among the data. Allocating data to be stored in the slot of the type; (ab) If there is residual data except the allocated data, the slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the residual data is used as the slot type to be used for storing the residual data. Determining, and allocating data to be stored in a slot of a slot type determined to be used for storing the residual data; wherein the remaining data except for the data allocated in the step (ab) exists. Repeating step (ab), and if the size of the data or the remaining data is smaller than the storage capacity of the slot type having the minimum storage capacity among the slot types in steps (a) and (ab) To determine the slot type having a slot type to be used for storing the data or the remaining data Is preferred.

In addition, the step (b) is (ba) when the unit storage area having a slot of the determined slot type is created in the storage device in a state in which the slot can be stored, provided in the unit storage area Storing the data in a slot of the determined slot type; (bb) If the unit storage area is not created in the storage device in step (ba), or if the slot of the determined slot type provided in the unit storage area is not in a storage state, the same as the determined type. And generating a predetermined unit storage area having a slot of a type, and storing the data in a slot of the same type as the determined type included in the generated unit storage area.

In order to achieve the above object, the present invention provides a system for storing and managing data in a predetermined storage device, comprising: storage means including an area for storing data; Slot determining means for determining a type of a slot to be used for storing the data from among a plurality of slot types having different storage capacities according to the size of data to be stored in the storage means; And data storage means for storing the data in a predetermined unit storage area located in the storage means and having a slot of the same type as the type determined by the slot determination means. do.

The slot determining means determines a slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the data as a slot type to be used for storing the data, and selects a slot type of the determined slot type among the data. Allocate data to be stored, and if there is residual data except the allocated data, the slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the residual data is stored in the storage of the residual data. And determining a slot type to be used, and repeatedly allocating data to be stored in a slot of a slot type determined to be used for storing the remaining data, to allocate a slot for the data.

The data storage means may include the determined slot type provided in the unit storage area when the unit storage area including the slot of the determined slot type is generated in the storage means with the slot capable of storing the slot. The data is stored in a slot of the storage unit, and if the unit storage area is not created in the storage device, or the slot of the determined slot type provided in the unit storage area is not in a storage state, And generating a predetermined unit storage area having a slot of the same type as the determined type and storing the data in a slot of the same type as the determined type included in the generated unit storage area.

The unit storage area may be an area for storing data equal to the basic data input / output unit capacity set by the operating system associated with the storage device.

In addition, the slot preferably includes a data storage area in which the data is stored and a header area including position information of data associated with the data.

Preferably, the storage means includes a basic information storage area including information about a unit storage area having a slot capable of storing data among the unit storage areas created in the storage means.

On the other hand, in order to achieve the above object, the present invention provides a computer readable recording medium having recorded thereon a program for realizing the above method.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram showing the configuration of the present invention.

The system of the present invention comprises a recording means 104, a slot determination means 101, a data storage means 102 and a storage means 103.

The recording means 104 sequentially records the input data in a continuous byte stream. At this time, it is desirable to compress and encrypt the data to be recorded during the recording operation.

The slot determination means 101 receives the recorded data and determines the slot types to be used for storage according to the size of the recorded data among a plurality of slot types each having a different storage capacity.

There are several ways to determine the type of slot to be used for storage, but first select the slot type that has the largest storage capacity among the slot types that have a storage capacity that is less than or equal to the size of the data to be stored (recorded). It is desirable to determine the slot type to be used for storage of the data, to allocate data to be stored in the slot of the determined slot type, and to determine the type of the slot to be used for storage through the same method for the remaining residual data.

At this time, when the size of the data to be stored or the remaining data is smaller than the storage capacity of the slot type slot having the smallest storage capacity, it is preferable that the slot of the slot type having the smallest storage capacity is used for storing data. .

The data storage means 102 stores data in a unit storage area having a slot of a slot type determined by the slot setting means 101, that is, a page. At this time, if the storage space is left in the page having the slot of the determined slot type already created in the storage means 103, the page is not generated separately, but is stored using the slot of the already generated page. If not, a page having a slot of the slot type determined previously is generated separately, and the data is stored in the newly created page.

In the present invention, the storage capacity of the unit storage area, that is, the slots constituting the page, is not uniform and is characterized by various points. 3 illustrates a type of a page composed of slots having various storage capacities.

The capacity of one page may vary depending on what is set in the operating system. However, since 4096 bytes are generally used, an example is illustrated in FIG. 3.

As shown in FIG. 3, each page has a slot having a different storage capacity according to each page type. In FIG. 3, pages 301 and T1 made up of 8 byte slots, pages 302 and T2 made up of 16 byte slots, pages 303 and T3 made up of 32 byte slots, and pages made up of 60 byte slots ( 304, T4), pages 305 and T5 of 128 byte slots, pages 306 and T6 of 247 byte slots, pages 307 and T7 of 502 byte slots, and slots of 1012 byte Although pages 308 and T8, pages 309 and T9 of 2032-byte slots and pages 310 and T10 of 4072-byte slots have been described as examples, pages composed of slots having other storage capacities may also be used. And may include slots having different storage capacities in one page.

In FIG. 3, the size of the slot is not divided in the form of a multiple of 8, but is divided as described above because a space for storing management information for managing pages and slots in a page, that is, a space for a page header is required. .

The page header contains information about the position of the page where the first empty page appears after the page in which the page header is located, if the page is empty, for example, because the content stored on the page is deleted. It is desirable to store information about the number of slots that can be stored without being used in the page.

In addition, each slot should also have a space for storing information for managing data, that is, a space for a slot header, in which the position of the page of the next slot where data associated with the data stored in the slot is stored (page Number) and information about the position (number) of the slot within the page, the size of the data stored in the slot, and the like.

The storage means 103 generates a page according to the operation of the data storage means 102, and stores each data.

The storage means 103 preferably further includes a basic information storage area including information on the unit storage area having a slot capable of storing data among the unit storage areas created in the storage means.

In this basic information storage area, the size of the page (4096 bytes in this embodiment), the size of the page header, the size of the area where the data is actually stored, the size of the header of the slot, and the size of the slots Information on the basic configuration of the pages and slots constituting the storage means such as the number, the size of each slot, the number of pages that can be stored in the storage means 103 are stored.

In addition, the location information of the page which is the first page among the pages with empty storage space because the current page is created but the data is deleted, the location information of the page which has the slot which can be saved by each slot type or page type, new The location information of the last page may be included and stored for reference when generating the page, and the information regarding the watermark or compression may be stored.

4 shows an example in which a page is generated in the storage means 103 by the data storage means 102. As described above, the page type and the page generation are determined according to whether or not the generation of a new page is necessary in the data storage means 102 and the type of the slot to be used for storing data in the slot setting means 101. The order of generation of X does not have any regularity.

2 is a flow chart illustrating a method of the present invention.

If data is input (201), the recording means 104 is to perform a recording operation (202). As described above, the recording operation is a process of recording data, that is, recording the input data into successive byte streams in order to be data to be stored in the storage means 103. At this time, the encryption and compression operations are also performed. desirable.

The slot setting means 101 determines the slot type to be used for storing the data with respect to the data for which the recording operation is completed (203). For example, when the size of the data to be stored is 300 bytes, the slot type to be used for storing data is slot type having a storage capacity of 247 bytes having the largest storage capacity which is less than or equal to 300 bytes in FIG. 3. Is determined.

Next, since the entire data cannot be stored as the slot of the slot type determined above and the remaining data remains (204), the slot type for storing the remaining data is determined (205). Step 205 is also performed in the same manner as step 203, and the steps 204 and 205 are repeatedly performed until the residual data is lost.

At this time, when the size of the remaining remaining data is smaller than the storage capacity of the slot type having the minimum size (8 bytes in FIG. 3), the slot type having the minimum size is determined as the slot type for the remaining data.

If the data to be stored is 300 bytes, the storage capacity of the slot allocated through the above process is 247, 32, 16, and 8 bytes, respectively, and 3 bytes of waste space are generated. However, if all pages have only one slot type of fixed size, the waste space becomes larger. For example, if a slot has a size of 192 bytes, it uses 192 and 192 byte slots, which wastes 84 bytes of storage space.

In the case of a large amount of data, if the slot is too subdivided, too many operations must be performed to divide the data into the respective slots and store the data in each slot, which may cause performance degradation. have.

Since the present invention uses slots having different sizes according to the size of data, the above problem can be prevented. For example, if the size of the data is 8140 bytes, in the present invention, only two 4072-byte slots need to be used. However, in the case of the 192-byte slots, 43 should be used. Therefore, only two operations are necessary to perform 43 operations. Since it should be, it is an important factor of performance degradation.

In this way, the slot type to be used for storing data is determined by the slot setting means 101, and after the data is divided according to the determined slot type, the data storing means 102 is divided into each slot and assigned to each slot type. The stored data in the storage means 103.

The data storage means 102 first determines whether it is necessary to create a new page (206). In the above-mentioned example, since the first slot to be used is a 247-byte slot, a 247-byte slot among the information stored in the basic information storage area 401 is included, and a page having a slot that can be stored among the already created pages Check if it is.

If a T6 type page 306 consisting of 247 byte slots is created and a slot that can be stored exists, 247 bytes of data to be stored are stored in the slot (207). At this time, the header of the slot stores data to be stored next, that is, information including the page number to which the slot to store 32-byte data belongs and the slot number within the page.

When the data is stored in this manner, if the user later reads the data, and has only the address information of the first slot in which the data is located, the data can be divided to read all the information using the header information of each slot stored. do.

If the page 306 composed of 247 byte slots has never been created or data has been stored in all the slots even if they have been created, and thus cannot store 247 byte data unless a new page is generated, the data storage means 102 By referring to the location information about the last page among the information stored in the basic information storage area 401, a new page consisting of 247 byte slots is created after the last page (208), and the data is stored in the slot of the newly created page. (209).

Since the page 306 composed of 247 byte slots in FIG. 3 has 16 slots, 15 slots other than the stored slots are used for storing 247 byte data.

Thus, in the present invention, since data is stored in several slots that are not physically continuous, unlike the prior art, physical continuity of the storage space is not guaranteed when data is stored, and data is read from the outside without the help of the system of the present invention. It has the advantage of generating effects such as encryption, which makes shipping very difficult.

The method of the present invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

As described above, according to the present invention, it is particularly useful when transmitting a large amount of data such as geographic information to a portable terminal having a low storage capacity by providing an optimal storage method for minimizing waste of storage space. Another advantage is that encryption is achieved automatically in the process.

1 is a block diagram showing a configuration of the present invention

2 is a flow chart illustrating a method of the present invention.

3 is a diagram illustrating a type of unit storage area of the present invention.

4 illustrates an example of generating a unit storage area according to the present invention.

Claims (13)

In a method for storing and managing data in a predetermined storage device, (a) determining a type of a slot to be used for storing the data among a plurality of slot types having different storage capacities according to sizes of data to be stored; And (b) storing the data in a predetermined unit storage area having a slot of the same type as the determined type. The method of claim 1, wherein step (a) (aa) A slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the data is determined as a slot type to be used for storing the data, and is stored in the slot of the determined slot type among the data. Allocating data; (ab) If there is residual data except the allocated data, the slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the residual data is used as the slot type to be used for storing the residual data. Determining, and allocating data to be stored in a slot of a slot type determined to be used for storing the residual data. If there is residual data except the data allocated in the step (ab) among the residual data, repeat the step (ab), If the size of the data or the remaining data is smaller than the storage capacity of the slot type having the minimum storage capacity among the slot types in the steps (a) and (ab), the data type or the slot type having the minimum storage capacity is determined. And a slot type to be used for storing residual data. The method of claim 1, wherein step (b) (ba) when the unit storage area including the determined slot type slot is created in the storage device in a state in which the slot can be stored, the unit storage area includes the determined slot type slot provided in the unit storage area. Storing data; (bb) If the unit storage area is not created in the storage device in step (ba), or if the slot of the determined slot type provided in the unit storage area is not in a storage state, the same as the determined type. Generating a predetermined unit storage area having a slot of a type, and storing the data in a slot of the same type as the determined type included in the generated unit storage area; and storing the data. Way. The method of claim 1, The unit storage area is a data storage management method, characterized in that for storing the data as much as the basic data input and output unit capacity set in the operating system associated with the storage device. The method of claim 1, And the slot includes a data storage area in which the data is stored and a header area including location information of data associated with the data. The method of claim 3, And the storage device comprises a basic information storage area including information on a unit storage area having a slot capable of storing data among the unit storage areas created in the storage device. In a system for storing and managing data in a predetermined storage device, Storage means including an area for storing data; Slot determining means for determining a type of a slot to be used for storing the data from among a plurality of slot types having different storage capacities according to the size of data to be stored in the storage means; And And data storage means for storing the data in a predetermined unit storage area located in the storage means and having a slot of the same type as the type determined by the slot determination means. The method of claim 7, wherein the slot determination means is The slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the data is determined as the slot type to be used for storing the data, and the data to be stored in the slot of the determined slot type among the data is allocated. and, If there is residual data except the allocated data, the slot type having the largest storage capacity among the slot types having a storage capacity smaller than or equal to the size of the residual data is determined as the slot type to be used for storing the residual data, And repeatedly allocating data to be stored in a slot of a slot type determined to be used for storing the remaining data, and allocating a slot for the data. The method of claim 7, wherein the data storage means When the unit storage area having the slot of the determined slot type is generated in the storage means in a state where the slot can be stored, the data is stored in the slot of the determined slot type provided in the unit storage area. And if the unit storage area is not created in the storage device or if the slot of the determined slot type provided in the unit storage area is not in a storage state, the slot of the same type as the determined type in the storage means. And a function of generating a predetermined unit storage area including the data storage unit and storing the data in a slot of the same type as the determined type included in the generated unit storage area. The method of claim 7, wherein The unit storage area is a data storage management method, characterized in that for storing the data as much as the basic data input and output unit capacity set in the operating system associated with the storage device. The method of claim 7, wherein And the slot includes a data storage area in which the data is stored and a header area including location information of data associated with the data. The method of claim 9, And the storage means comprises a basic information storage area including information on a unit storage area having a slot capable of storing data among the unit storage areas created in the storage means. A computer-readable recording medium having recorded thereon a program for realizing the method according to any one of claims 1 to 6.