JP2008083942A - Data backup system via network and computer for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To select a computer which is the most suitable for backup by making an inquiry at a plurality of computers which can backup at a backup point of time. <P>SOLUTION: The transfer origin computer connected through a network to a plurality of transfer destination computers is provided with: a function for making an inquiry to the state of a transfer destination computer; a transfer destination computer selecting function for selecting the transfer destination computer of data; a transfer destination computer state management table for storing an inquiry response; and a transfer destination computer selection condition management table for storing the selection conditions of the transfer destination computer. Prior to backup, an inquiry about the current states of all the transfer destination computers is made by using the inquiry function, and the result is stored in the transfer destination computer state management table, and various selection conditions in the transfer destination computer selection condition management table are decided and evaluated and digitized for every transfer destination computer by using the transfer destination computer selecting function, and the optimal transfer destination computer is selected based on the evaluation numeric value of the transfer destination computer selection condition management table. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a backup system for backing up data stored in a computer to another computer via a network or a computer for the same.

  As a conventional backup system, when backing up data stored in a computer via a network to another computer, if a backup destination computer is determined in advance or there are multiple backup destination computers, priority is given to the operation. Is set.

In addition, as a conventional technology for data backup, in a file backup system that backs up the auxiliary storage device contents of a plurality of client computer systems by consolidating them to a server computer system via a network, network line congestion is prevented and It has been proposed to implement a backup time that is convenient (see, for example, Patent Document 1). Further, as a conventional technology for data backup, it is proposed to determine a highly reliable data processing device as a backup destination among a plurality of data processing devices connected via a network (for example, Patent Document 2). See). According to this, it is disclosed that at least one of reliability, processing capability, and free capacity is selected as a determination factor of a backup destination.
JP 2000-66938 A JP 2006-79389 A

  When backing up data stored in a computer via a network, if the backup destination computer is determined in advance as in the prior art, depending on the status of the backup destination computer (for example, insufficient free space on the HDD) There is a possibility that data cannot be transferred correctly, or that important work of the transfer destination computer is hindered by a data transfer load (for example, transferring a large amount of data over a long period of time).

  Further, according to the above-mentioned Patent Document 1, it is a backup from the client side to the server side, and is a technology that pays attention to network congestion and backup time, and selects an optimal transfer destination computer among a plurality of transfer destination computers. The concept of this viewpoint is not disclosed. According to the above-mentioned Patent Document 2, it is disclosed that any one of reliability, processing capacity, and free capacity is selected, and the selected items are compared between transfer destination processing devices, and the comprehensive selection criteria are taken into consideration. Is missing.

  An object of the present invention is to provide an accurate and quick backup system by making an inquiry to a plurality of computers that can be backed up at the time of backup and selecting a computer optimal for backup.

In order to solve the above problems, the present invention mainly adopts the following configuration.
In a transfer source computer that connects multiple transfer destination computers via a network,
An inquiry function having a function of inquiring the status of a plurality of transfer destination computers and receiving a response; a transfer destination computer selection function having a function of selecting a transfer destination computer of data in the transfer source computer; and the data being transferred to the transfer destination computer A data transfer function having a function of transferring to, a transfer destination computer destination management table for storing the destination address of the transfer destination computer to be inquired, and a transfer destination computer state management table for storing an inquiry response from the inquired transfer destination computer. A transfer destination computer selection condition management table storing selection conditions for the transfer destination computer, and a storage device storing data to be backed up,
Before transferring the data in the transfer source computer to the transfer destination computer, the inquiry function and the transfer destination computer destination management table are used to inquire the current state of all transfer destination computers, and the result of the inquiry is Store it in the destination computer status management table,
Using the transfer destination computer selection function and the transfer destination computer state management table, various selection conditions in the transfer destination computer selection condition management table are judged and evaluated for each transfer destination computer, and are quantified.
An optimum transfer destination computer is selected at the time of backup based on the evaluation numerical value of the transfer destination computer selection condition management table.

  In the transfer source computer, selecting an optimal transfer destination computer by the transfer destination computer selection function is a total evaluation value of all selection conditions including the CPU load of the transfer destination computer, HDD free space, and business processing status. The configuration is determined by Furthermore, in the transfer source computer, the transfer destination computer selection function is configured to set an evaluation value for determining that the transfer destination computer is incompatible with each selection condition.

  According to the present invention, it is possible to accurately and quickly back up data by collecting the state of a transfer destination computer, determining a computer optimal for backup, and performing backup. In addition, the business of the backup destination computer is not hindered.

  A data backup system according to an embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a block diagram showing the overall configuration of a data backup system according to an embodiment of the present invention. FIG. 2 is a diagram showing a table for managing the destination of the transfer destination computer provided in the transfer source computer of the data backup system according to the present embodiment. FIG. 3 is a diagram showing a table for managing the state (for example, CPU load, HDD free space, etc.) of the transfer destination computer provided in the transfer source computer of the data backup system according to this embodiment. FIG. 4 is a view showing a table for managing selection conditions (for example, scores based on the CPU load and the HDD free capacity degree and range) provided in the transfer source computer of the data backup system according to the present embodiment. is there.

  FIG. 5 is a flowchart showing the processing procedure of the inquiry function provided in the transfer source computer of the data backup system according to this embodiment. FIG. 6A is a flowchart 1 showing the processing procedure of the computer selection function provided in the transfer source computer of the data backup system according to the present embodiment. FIG. 6B is a flowchart 2 showing the processing procedure of the computer selection function provided in the transfer source computer of the data backup system according to the present embodiment. FIG. 7 is a flowchart showing the processing procedure of the data transfer function provided in the transfer source computer of the data backup system according to this embodiment. FIG. 8 is a flowchart showing the processing procedure of the computer state response function provided in the transfer destination computer of the data backup system according to the present embodiment. FIG. 9 is a flowchart showing the processing procedure of the data reception function provided in the transfer destination computer of the data backup system according to this embodiment.

  FIG. 1 is the most basic configuration example showing processing for backing up data stored in a computer to another computer via a network to which the present invention is applied. Computer A is a computer (transfer source computer) that stores data that must be transferred to another computer. A computer 1 (1100), a computer 2 (1200),..., A computer N (1300) are computers (transfer destination computers) that must store data when the data is transferred from the computer A. These computers are connected via a network (1400). These computers A, 1, 2,... N and the network constitute a data backup system.

  The computer A (1000) has an inquiry function (1010) having a function of making an inquiry to the computer 1 (1100), a computer 2 (1200),..., A computer N (1300) about the current computer state and receiving a response. A computer selection function (1020) for selecting a data transfer destination computer, a data transfer function (1030) for transferring data to the transfer destination computer, and a transfer destination for storing the destination address of the inquiry destination computer A computer destination management table (1040), a transfer destination computer state management table (1050) for storing an inquiry response from the inquiry destination, and a transfer destination computer selection condition management table (1060) storing selection conditions for the transfer destination computer And a storage device (1070) storing data to be backed up.

  The computer 1 (1100) includes a computer status response function (1110), a data reception function (1120) for receiving and storing data transmitted from the computer A, and a storage device (1120) for storing the received data (1120). 1130). The computer 2 (1200),..., The computer N (1300) has the same configuration.

  FIG. 2 shows a transfer destination computer destination management table (2000) (corresponding to the transfer destination computer destination management table 1040 in FIG. 1) in which the destination of the computer that makes an inquiry request from the computer A (1000) is stored. The table stores a destination address of a computer having a function as a data backup destination. In the configuration diagram of FIG. 1 of the present embodiment, N computers (the address (2010) of the computer 1 (1100), the address (2020) of the computer 2 (1200),..., The address (2030) of the computer N (1300) ) The destination address is stored.

  FIG. 3 is a transfer destination computer state management table (4000) for storing the computer state when an inquiry response from the inquiry destination is received. The table stores the destination address (4101) of the transfer destination computer, the transfer destination computer selection flag (4102), the total score storage area (4103) that is information for selecting the transfer destination computer, and the computer that stores the result of the query response. It consists of detailed information (4104). The table (4000) is empty before the inquiry function (1010) is executed. A result is stored by responding from a computer that is a transfer destination candidate.

  FIG. 4 is a transfer destination computer selection condition management table (5000) for managing conditions for selecting a transfer destination computer from the values stored in the transfer destination computer state management table (4000) of FIG. The table stores determination conditions for each of the CPU load (5010), HDD load (5020), HDD free capacity (5030), HDD error count (5040), communication load (5050), and business processing status (5060). And weights for selecting a transfer destination computer.

  Next, a setting example of determination conditions is shown. The CPU load determination condition assigns a score according to the range of CPU load values. The score is 10 when the CPU load is 0 to 5%, the score is 3 when the CPU load is 5 to 10%, the score is 1 when the CPU load is 10 to 30%, and the transfer destination when the CPU load is 30% or more Is determined to be nonconforming, and -1 is set. The criteria for determining the HDD free space is a score of 10 when the HDD free space is more than 10 times the data capacity to be transferred, and a score when the HDD free space is 5 to 10 times the data capacity to be transferred. 3. If the HDD free space is 2-5 times larger than the data to be transferred, the score is 1. If the HDD free space is smaller than 2 times the data to be transferred, the transfer destination is not suitable. Set to -1.

  The judgment condition of the business processing status (importance of business processing being executed on the computer) is score 10 for business rank C, score 3 for business rank B, and non-conformance to the transfer destination for business rank A. Determine and set to -1. This table is set in advance as a condition for selecting a transfer destination computer. The judgment items and conditions to be set can be customized according to the characteristics of the system to be constructed. Although not shown in FIG. 4, for each “determination value”, “score” for the HDD load indicating the degree of access to the HDD, the number of HDD errors indicating the number of retries, and the communication load indicating the degree of congestion of the communication path. Set.

  Next, the operation of a process for backing up data between computers via a network will be specifically described. First, when data backup is performed by computer A (1000) and another computer (computer 1 (1100), computer 2 (1200),..., Computer N (1300)), the transfer destination is transferred by the inquiry function (1010). In order to make an inquiry to the computer, one computer destination address is acquired from the beginning of the transfer destination computer destination management table (FIG. 2) in the process (6000) of FIG. 5 (here, the address of the computer 1 is stored). ).

  Next, an inquiry request is transmitted to the computer 1 in the process (6010) based on the acquired computer 1 destination address. The computer 1 waits for a response from the computer 1 to the inquiry request (6020). If there is a response from the computer 1, the inquiry information is sent to the computer information (4100) in the transfer destination computer state management table (FIG. 3) in the process (6040). To store. With reference to the transfer destination computer destination management table 1040, if there is a next transfer destination computer destination address, the same processing as described above is similarly performed on the computer destination address.

  If there is no response for a certain time in the transmission of the inquiry request, the number of retries (for example, 3 is fixed) is determined (6030), and if the number of retries has not been transmitted, the inquiry request is transmitted again (6010). When the number of retries has been transmitted, the transfer destination computer destination management table (2000) is referred to. When there is a next transfer destination computer destination address, the above processing is similarly performed on the computer destination address. When all the processes are performed on the transfer destination computer destination management table in the process (6050), the process shown in FIG. 6 is performed as the computer selection process (6060), and the inquiry request process is terminated.

  In the computer 1 (1100) for receiving the inquiry request from the computer A (1000), the message transmitted by the inquiry function (1010) is used as the computer state response function (1110) of the computer 1 (1100). Is received in step (9000). Next, processing (9010) for retrieving the computer state of the computer 1 is performed. Specifically, the CPU load extraction process (9020), the HDD load extraction process (9030), the HDD free capacity extraction process (9040), the HDD error count extraction process (9050), and the communication load extraction process (9050). 9060), and a process status extraction process (9070) is executed. The extracted computer state is transmitted to the computer A as a computer state inquiry response (9080). The computer 2 (1200),..., The computer N (1300) that has received the inquiry performs the same processing as described above.

  Next, as the computer selection function (1020) of the computer A (1000), the CPU load of the transfer destination computer state management table in FIG. 3 and the transfer destination computer selection condition management table (in FIG. The score is calculated from the determination condition of the CPU load (5000) of 5000) (7000). When the CPU load of the transfer destination computer state management table is 20%, the determination method is in the range of 10 to 30% (5013), and the determination result is score 1. When the CPU load in the transfer destination computer state management table is 40%, the CPU load is 30% or more (5014), and a value of −1 indicating non-conformance is stored.

  With the computer selection function (FIG. 6-1) of the computer A (1000), the HDD load of the transfer destination computer state management table in FIG. 3 and the HDD load (5020) of the transfer destination computer selection condition management table (5000) in FIG. The score is calculated from the determination condition (7020). The HDD load may be a table similar to “determination value” and “score” in the CPU load shown in FIG.

  With the computer selection function (FIG. 6-1) of the computer A (1000), the HDD free capacity of the transfer destination computer state management table of FIG. 3 and the computer condition information from the transfer destination computer selection condition management table (5000) of FIG. The score is calculated from the determination condition (7040) of the free space (5030) of the HDD. The determination method is when the HDD free capacity in the transfer destination computer state management table is 80 GB, and when the capacity of the data to be transferred is 5 GB, the range is more than 10 times (5013) and the determination result is 10. Further, when the HDD free capacity in the transfer destination computer state management table is 8 GB, the HDD capacity is doubled or less (5014), and a value of −1 indicating nonconformity is stored. Similar processing is performed for the HDD error count (5040) and the communication load (5050).

  Further, in the computer selection function (FIG. 6-2) of the computer A (1000), the business processing state of the transfer destination computer state management table of FIG. 3 and the operation from the transfer destination computer selection condition management table (5000) of FIG. A score is calculated from the determination condition of the processing state (5060) (7100). The determination method is a determination result of a score of 10 when the operation processing state of the transfer destination computer state management table is “operation rank C”. Further, when the job processing state of the transfer destination computer state management table is “task rank A”, a value of −1 indicating that the important process is currently being executed by the transfer destination computer and is incompatible is stored.

  If even one determination result in the transfer destination computer state management table stores -1 determined to be nonconforming as a backup destination computer (7010, 7030, 7050, 7070, 7090, 7110), it is transferred unconditionally. -1 is stored in the total score storage area of the pre-computer state management table (Step 7130). As a result, the corresponding transfer destination computer is excluded as a data backup destination. When all the comparison processes are completed, the total score is stored in the score storage area of the transfer destination computer state management table (Step 7120).

The above processing is performed with reference to the transfer destination computer state management table (4000), and the same processing is performed on all stored computer state information. After that, the transfer destination computer status management table having the maximum total score storage area value is regarded as the transfer destination computer again and the transfer destination computer selection flag (4102) is set to 1, and the processing of the computer selection function is terminated. . (Here, computer 1 is assumed to be the transfer destination computer)
Next, in the data transfer function (FIG. 7) of the inquiry computer A (1000), when the transfer destination computer selection flag (4102) in the transfer destination computer state management table is set to 1, the transfer destination computer is determined. It is regarded as a thing (8000), and the computer destination address is acquired from the transfer destination computer state management table (8010). A data transfer communication path is established for the data transfer destination computer (computer 1) (8020). Next, data for backup (1070) is fetched from the storage device of FIG. 1 (8030), and the data is transferred to the data transfer destination computer (computer 1) (8040). When the data transfer is completed, the data transfer communication path is disconnected (8050), and the data transfer function process is terminated.

  Next, in the data reception function (FIG. 9) of the computer 1 (1000), when there is a request for establishing a communication path for data transfer (10000), the communication path is established (10010). Next, the data transfer waits for reception, and the data is stored in the storage device (1130) of FIG. 1 until the data transfer is completed (10020). When the data storage is completed, the data transfer communication path is disconnected (10040), and the data backup operation process is completed.

  As described above, in the data backup system according to the embodiment of the present invention, a computer having data that needs to be backed up inquires all computers that are backup destinations before transferring the data, and sends a plurality of transfers. It is possible to select an optimal backup destination computer from the possible computers at the time of backup. The present embodiment can be applied to a data backup method in a network system.

1 is a block diagram showing an overall configuration of a data backup system according to an embodiment of the present invention. It is a figure which shows the table which manages the destination of the transfer destination computer with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is a figure which shows the table which manages the state (for example, CPU load, HDD free space, etc.) of the transfer destination computer with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is a figure which shows the table which manages the selection conditions (For example, the score based on the extent of CPU load, HDD free capacity, a range, etc.) of the transfer destination computer with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is a flowchart which shows the process sequence of the inquiry function with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is the flowchart 1 which shows the process sequence of the computer selection function with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is a flowchart 2 which shows the process sequence of the computer selection function with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is a flowchart which shows the process sequence of the data transfer function with which the transfer source computer of the data backup system which concerns on this embodiment was equipped. It is a flowchart which shows the process sequence of the response function of a computer state with which the transfer destination computer of the data backup system which concerns on this embodiment was equipped. It is a flowchart which shows the process sequence of the data reception function with which the transfer destination computer of the data backup system which concerns on this embodiment was equipped.

Explanation of symbols

1000 Computer A
1010 Inquiry Function 1020 Computer Selection Function 1030 Data Transfer Function 1040 Transfer Destination Computer Destination Management Table 1050 Transfer Destination Computer Status Management Table 1060 Transfer Destination Computer Selection Condition Management Table 1070, 1130, 1230, 1330 Storage Device 1100 Computer 1
1110, 1210, 1310 Computer status response function 1120, 1220, 1320 Data reception function 1200 Computer 2
1300 Computer N
1400 Network 2000 Destination computer destination management table 2010 Computer 1 destination address 2020 Computer 2 destination address 4000 Transfer destination computer state management table 4100 Computer 1 information 4101 Computer 1 destination address 4102 Computer selection flag 4103 Total score storage area 4104 Detailed computer information 4111 CPU Load 4112 HDD load 4113 HDD free capacity 4114 HDD error count 4115 Communication load 4116 Business processing status 4200 Computer 2 information 5000 Transfer destination computer selection condition management table 5010 CPU load 5011 CPU load within 0 to 5% range 5012 CPU load 5 Within 10% range 5013 CPU load within 10-30% range 5014 CPU load over 30% 5020 HDD load 5030 HDD free capacity 5031 HDD available capacity 10 times or more of transfer data capacity 5032 HDD available capacity 5 to 10 times transfer data capacity 5033 HDD available capacity 2 to 5 times transfer data capacity 5034 Transfer data capacity 5040 HDD error count 5050 Communication load 5060 Business processing status 5061 Business rank C
5062 Business rank B
5063 Business rank A

Claims (6)

In a transfer source computer that connects multiple transfer destination computers via a network,
An inquiry function having a function of inquiring the status of a plurality of transfer destination computers and receiving a response; a transfer destination computer selection function having a function of selecting a transfer destination computer of data in the transfer source computer; and the data being transferred to the transfer destination computer A data transfer function having a function of transferring to, a transfer destination computer destination management table for storing the destination address of the transfer destination computer to be inquired, and a transfer destination computer state management table for storing an inquiry response from the inquired transfer destination computer. A transfer destination computer selection condition management table storing selection conditions for the transfer destination computer, and a storage device storing data to be backed up,
Before transferring the data in the transfer source computer to the transfer destination computer, the inquiry function and the transfer destination computer destination management table are used to inquire the current state of all transfer destination computers, and the result of the inquiry is Store it in the destination computer status management table,
Using the transfer destination computer selection function and the transfer destination computer state management table, various selection conditions in the transfer destination computer selection condition management table are judged and evaluated for each transfer destination computer, and are quantified.
A computer, wherein an optimal transfer destination computer is selected at the time of backup based on an evaluation value of the transfer destination computer selection condition management table. In claim 1,
The selection condition in the transfer destination computer selection condition management table includes a CPU load, HDD free space, and business process status of the transfer destination computer. In claim 1,
The selection of the optimum transfer destination computer by the transfer destination computer selection function is determined by a total evaluation value of all selection conditions including the CPU load, HDD free space, and business processing status of the transfer destination computer. . In claim 1, 2 or 3,
The transfer destination computer selection function sets an evaluation value for determining that the transfer destination computer is incompatible with each selection condition. In claim 4,
A computer characterized in that, when an evaluation value for non-conformity determination exists under any one of the selection conditions, data is not backed up to the corresponding transfer destination computer regardless of the evaluation value of other selection conditions. In a data backup system comprising a transfer source computer that holds data to be backed up, a plurality of transfer destination computers that back up the data, and a network that connects the transfer source computer and the transfer destination computer,
The transfer source computer has an inquiry function having a function of inquiring a status of a plurality of transfer destination computers and receiving a response, a transfer destination computer selection function having a function of selecting a data transfer destination computer in the transfer source computer, A data transfer function having a function of transferring data to the transfer destination computer, a transfer destination computer state management table storing an inquiry response from the inquired transfer destination computer, and a transfer destination storing selection conditions of the transfer destination computer A computer selection condition management table, and
The transfer destination computer includes a response function that responds to the current state of the computer in response to the inquiry, and a data reception function that receives and stores data transmitted from the transfer source computer,
Before transferring the backup data in the transfer source computer to the transfer destination computer, inquire the current state of all transfer destination computers based on the inquiry function of the transfer source computer, and the response of the transfer destination computer Store the current status of the function in the transfer destination computer status management table,
Based on the transfer destination computer selection function and the transfer destination computer state management table, various selection conditions in the transfer destination computer selection condition management table are judged and evaluated for each transfer destination computer and digitized.
A data backup system, wherein an optimum transfer destination computer is selected at the time of backup based on an evaluation value of the transfer destination computer selection condition management table.

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