JPS6257024A - Data base processing unit - Google Patents

Abstract

PURPOSE:To relieve the communication load with a host computer by registering a command generating procedure of a command and the execution control procedure of the command of a DB procrssing itself to a data base DB processing unit. CONSTITUTION:A registration request of the generating procedure and execution control procedure of the command are given from a host computer 101 to the DB processing unit 102. The request is received by a processing request analyzing device 103 via a channel 106 and analyzed to be discriminated that the request is the registration of the generating procedure and execution control procedure of the command. Then the generating procedure and execution control procedure of the command are registered by an execution control procedure registration device 107. It is executed through a command execution device 104 and the result is registered in a data base 105. The processing result is returned to the host computer 101 via the device 103 and the channel 106. Since the DB processing unit applies generation and execution control in this way, the communication load of the host computer is relieved.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a database processing device that can reduce communication load with a host computer.

(Prior Art) Conventionally, in a typical system using a database processing device, the database processing device and the host computer are connected through a communication path such as a communication line or channel, and this communication is transmitted from the host computer to the database processing device. Processing requests called commands are issued via the database processing device, and the database processing device executes the given processing requests in the given order, and returns the processing results to the request source in that order, thereby corrupting the database processing (for example, Oki Electric Research and Development,
Dan [2] Oki Electric Industry Co., Ltd. P, 17-24).

FIG. 3 is a schematic diagram showing an example of the configuration of a conventional database processing device. The database processing device 302 includes a processing request analysis mechanism 303, a command execution mechanism 304, and a database 305, and is interconnected with the host computer 301 through a communication path 306. below,
An overview of the process will be explained. First, a command is issued from the host computer 301 to the database processing device 302 through the communication path 306. This command is inspected by the processing request analysis mechanism 303 such as a noclameter. This command is then sent to command execution mechanism 304. The command execution mechanism 304 executes commands and performs processing on the database. The command processing results are sent to the host computer 30 via the command execution mechanism 304, processing request analysis mechanism 303, and communication path 306.
Returns 1.

(Problem to be Solved by the Invention) However, in conventional database processing devices, commands and their execution procedures are fixed and given in advance, and the commands and their execution procedures for the database processing device are defined by the user. That was impossible. for example,
It is impossible for the database processing device to change the execution order of subsequent commands based on the processing results of a command, incorporate the processing results of a command into subsequent commands, or automatically compensate for command lines and parameters. The host computer must make decisions regarding changing the order of execution of commands and incorporating command processing results into subsequent commands.Also, even if only a portion of the command noyarameta issues a different command, all command noyarameta must be had to be sent to the database processing device. As a result, a large amount of communication is required between the host computer and the database processing device, resulting in a problem that the performance of the entire system is degraded.

The present invention enables a user of a database processing device to register the database processing device's own command generation procedure and command execution control procedure in the database processing device. It is an object of the present invention to provide a database processing device that can eliminate the disadvantage that system performance deteriorates due to communication load with the database.

(Means for Solving the Problems) The present invention provides a command generation procedure and a command generation method in a database processing device that is connected to a computer through a communication path such as a communication line or channel and performs processing according to a processing request given from the computer. an execution control procedure registration means; a command generation unit that reads out these registered procedures, generates a command based on the read procedure, and controls the execution of the generated command; A database processing device characterized by comprising an execution control procedure interpretation means and a command execution means for executing a command.

(Operation) When the database processing device receives a request from the computer to register the command generation procedure and command execution control procedure,
The command generation and execution control procedure registration means registers the command generation procedure and command execution control procedure in the database via the command execution means, and the computer registers the command generation and execution control procedure based on the registered command generation and execution control procedure. When an execution request comes, the command generation and execution control interpretation means reads the corresponding command generation and execution control procedure from the system database via the command execution means, generates a command and controls its execution, and executes the command. This is performed by the command execution means.

(Embodiment) FIG. 1 shows an embodiment of a database processing apparatus using the present invention. FIG. 2 is a flow diagram illustrating the processing flow of the database processing device in FIG. 1.

Below, using Figures 1 and 2, a registration request for a command generation procedure and a command execution control procedure, a command execution request based on the command generation procedure and a command execution control procedure, and a database regarding command execution requests. The processing of the processing device will be explained.

(A) Registration of command generation procedure and command execution control procedure (,) A request to register a command generation procedure and execution control procedure is issued from the host computer 101 to the database processing device 102, and this is sent via the communication path 106. The request is accepted by the processing request analysis mechanism 103 which is in a processing request waiting state (step 200).

(b) The processing request is analyzed by the processing request analysis mechanism 103 (step 201). It is determined that the processing request was for registering a command generation procedure and an execution control procedure.

(c) Command generation and execution control procedure registration mechanism 107
The command generation procedure and execution control procedure are registered (step 202). This is done through the command execution mechanism 104, and the above procedure is performed by the database 10.
Registered in 5.

(d) The processing result is returned to the host computer 101 via the processing request analysis mechanism 103 and the communication path 106 (step 203).

(B) Execution of commands based on registered procedures (a)
A command execution request based on a registered command generation and execution control procedure is issued from the host computer 101 to the database processing device 102, and this request is sent to the database processing device 102 through the communication path 106.
The processing request analysis mechanism 10 which is in the processing request waiting state
Uke is taken by 3 (Stella 7'200).

(b) The processing request is analyzed by the processing request analysis mechanism 103 (step 201). It is determined that the processing request was to generate a registered command and execute the command based on the execution control procedure.

(c) Command generation and execution control procedure interpretation mechanism 10g
Finally, command generation and execution control procedures are read from the database (step 2o4).

This reading is performed through the command execution mechanism 104.

(d) Command generation and execution control procedure interpretation mechanism 10g
generates a command and controls its execution based on the procedure read in (c) of ω) above. The command is executed by the command execution mechanism 104 (step 205).

(,) The processing result is returned to the host computer 101 via the processing request analysis mechanism 1o3 and the communication path 106 (Stella 7
'203).

C) Command execution (,) A command execution request is issued from the host computer 101 to the database processing device 102, which is received via the communication path 106 by the processing request analysis mechanism 103 that is in a processing request waiting state ( Stella 7'200).

(b) The processing request is analyzed by the processing request analysis mechanism 103 (step 201). It is determined that the processing request was for command execution.

(c) The command is executed by the command execution mechanism 104 (step 206).

(d) The processing result is sent to the processing request analysis mechanism 1o3, communication
.

The data is returned to the host computer 101 via the path 106 (step 203).

Examples of command generation and execution control procedures include: (,) Combining a series of commands that are always executed into one command
・When executing after closing.

(b) When using a command in which only a portion of the entire command is changed, only the changed portion of the parameters is received from the host computer, and this is used to generate and execute the command.

(c) Is the processing result of the cloak always used in the next command? When used as a parameter, a second command is generated by executing this first command and incorporating the result as a parameter of the second command,
If you do this.

(d) When executing or canceling the execution of the next command based on the execution result of one command.

However, in either case, the host computer and the database processing device must be connected because the host computer is one component of the command and the database processing device generates and controls the execution regardless of execution control. The communication load between the two is reduced.

Hereinafter, the effects of the above-mentioned processing will be explained using the remittance processing in a bank as an example.

It is assumed that a procedure called "remittance" is registered in the database processing device, and that the procedure consists of the following processes (a) to (excellent).

(a)) Issue a randexion start command to the command execution mechanism.

(b) Determine the return code from the command execution mechanism, and if normal, proceed to step (c); if abnormal, notify the host computer that the transaction could not be started and terminate.

(c) Issue a command to the command execution mechanism to subtract the remittance amount from the remittance account.

(d) Determine the return code from the command execution mechanism, and if normal, proceed to step (,); if abnormal, issue a transaction end command to the command execution mechanism, and the remittance amount could not be deducted from the remittance account. The host computer is notified of this and ends.

(e) Issue a command to the command execution mechanism to add the remittance amount to the remittance destination account.

(f) Determine the return code from the command execution mechanism, and if it is normal, proceed to Step (Excellent); if it is abnormal, issue a transaction abnormal end command to the command execution mechanism, and notify the host that the funds could not be added to the remittance account. Notify the computer and exit.

Excellent) Issues a transaction end command to the command execution mechanism, notifies the host computer that all processing has ended normally, and ends the transaction.

The above step 6 "Remittance" indicates that upon requesting the execution of this step, the remittance source account, remittance account, and remittance amount are received from the host computer, and the processes shown in (a) to Q) are performed. There is.

FIG. 4 is a diagram illustrating the flow of processing between the host computer and the database processing device regarding the procedure of "remittance". However, it is assumed that all commands are processed normally. In FIG. 4, first, the host computer issues a request to the database processing device to execute a "remittance" process to transfer Y yen from account B to account A.The database processing device then performs this "remittance" process, The results are returned to the host computer.

FIG. 5 is a diagram illustrating the flow of processing when similar processing is performed in a conventional system. However, it is assumed that all commands are processed normally. In FIG. 5, all return codes from the command execution mechanism must be returned from the database processing device to the host computer, and all commands for the command execution mechanism must be sent from the host computer to the database processing device.

In this example, communication between the host computer and the database processing device is required eight times in a system using a conventional database processing device as shown in FIG. 5, but as shown in FIG. In a system using a processing device, this is only done twice, making it possible to reduce the communication load between the host computer and the database processing device.

(Effects of the Invention) As described above, according to the present invention, in a system that utilizes a database processing device by interconnecting the database processing device and the host computer via a communication path, communication between the database processing device and the host computer is It is possible to reduce the load and improve the performance of the entire system. Furthermore, since the database processing device can provide each host computer with an optimal interface, it is expected that the load of program development on each host computer can be reduced. Furthermore, it is also possible to implement data abstraction functionality on a database processing device using the present invention.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a database processing device according to an embodiment of the present invention, and FIG. 2 is a diagram 70-- for explaining the operation of FIG.
FIG. 3 is a block diagram of a conventional database processing device, FIG. 4 is an explanatory diagram of the "remittance" process in the present invention, and FIG. 5 is an explanatory diagram of the "remittance" process in the conventional system. 101...Host computer, 1θ2...Database processing device, 103...Processing request analysis mechanism, 104...
- Command execution mechanism, 105... Database, 10
6... Communication path, 102... Command generation, execution control procedure registration mechanism, 108... Command generation, execution control procedure interpretation mechanism. Patent applicant: Oki Electric Industry Co., Ltd.
One picture of Zujaku! Added 1st theory Flowchart for going to B month O. Figure 2. Relation to the 1985 Patent Application No. 196045 2, Title of Invention case Patent application office (1985)
105) 1-7-12-5 Toranomon, Minato-ku, Tokyo.
Column 6 of "Detailed Description of the Invention" in the specification to be amended, content of the amendment as shown in attached sheet 6, content of the amendment (1) The word "database" in the 9th line of page 3 of the specification has been replaced with "database". 305”. (2) In the same book, page 11, line 13, the phrase "transaction termination command" is corrected to read "transaction abnormal termination command."that's all

Claims (1)

[Scope of Claims] In a database processing device that is connected to a computer through a communication path such as a communication line or channel and performs processing according to a processing request given from the computer, a command generation procedure and a command execution control procedure are registered in a database. a command generation and execution control procedure registration means for reading the registered command generation procedure and command execution control procedure, generating a command based on the read procedure, and controlling the execution of the generated command. A database processing device comprising a procedure interpretation means and a command execution means for executing a command.