JPH02253457A - Host computer - Google Patents

Abstract

PURPOSE:To save a resource without stopping the transmission/reception of a message by providing managing tables corresponding to plural queuing buffers, dynamically increasing the area of the queuing buffer when the queuing buffer falls short, and dynamically decreasing it when the unused area of the queuing buffer is generated. CONSTITUTION:A message registration means 4 stores the message transiently into a queuing buffer area 7 in the transmission/reception of the message. A queuing control means 5 having the managing table in every queuing buffer area 7 unit dynamically increases the queuing buffer area 7 when the queuing buffer falls short and dynamically decreases the queuing buffer area 7 when the unused queuing buffer area is generated by controlling a message take-out means 6. Thereby, it is possible to prevent the transmission/reception from being stopped when a large amount of messages stagnate due to the fault of terminal equipment or the malfunction of an on-line job program, and to save the resource of the queuing buffer area 7 generated when a few stagnant messages exist.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention is applied to an online system for an information processing device. The present invention relates to a queuing control system for transmitted and received messages.

〔overview〕

The present invention is capable of managing a queuing buffer area in an online system in which a host computer is connected to a terminal device and other host computers via a line and sends and receives messages, and is capable of handling multiple queuing buffers. By setting up a management table and dynamically increasing the queuing buffer area when there is a shortage of queuing buffers, and dynamically reducing the queuing buffer area when unused queuing buffer areas occur, the system can handle situations even if the amount of messages increases or decreases. This eliminates the need to stop message transmission and reception, and eliminates wasted use of resources related to the queuing buffer area.

[Conventional technology]

Conventionally, queuing control of sent and received messages in online systems has been performed even when messages are accumulated due to a large amount of sent and received messages, or when messages are being sent and received normally and are using a part of the queuing buffer area. Even if there was, it was managed using a fixed queuing buffer area prepared in advance.

[Problem that the invention seeks to solve]

In the conventional online programs mentioned above, the queuing buffer area is determined in advance, so if a large number of messages accumulate due to a terminal failure or malfunction of the online business program, the terminal will be in a traffic state where there is not enough free queuing buffer. The reception of messages from the device or other host computer or the sending of messages from online business programs has stopped, and a large amount of free queuing buffer space occurs when normal online business is being performed. It has the disadvantage of being a waste of resources.

The present invention aims to eliminate these drawbacks, and provides a management method that can stop message transmission and reception and prevent wasteful use of resources, depending on the situation, even if the amount of messages increases or decreases. The purpose is to

[Means for solving problems]

The present invention provides a communication control means for an online system that is connected to a terminal device or another host computer via a line and sends and receives messages, and a plurality of queuing buffer areas that temporarily store messages; A host combination comprising a message registering means for registering a message in this queuing buffer area and a message retrieving means for retrieving a message from the queuing buffer area manages management corresponding to each unit of the queuing buffer area. The table has a queuing control means that increases the capacity of the queuing buffer area when the queuing buffer area is insufficient or reduces the capacity of the queuing buffer area when an unused queuing buffer area occurs according to the management table. It is characterized by:

[Effect]

When a message is sent or received, a message registration means temporarily stores the message in the queuing buffer area, and a queuing control means having a management table for each queuing buffer area controls the message retrieval means and operates when the queuing buffer is insufficient. The queuing buffer area is increased automatically, and the queuing buffer area is dynamically reduced when an unused queuing buffer area occurs.

This eliminates transmission/reception stoppages that occur when a large number of messages are accumulated due to a terminal device failure or malfunction of an online business program, and eliminates the wasted use of resources in the queuing buffer area that occurs when there are few accumulated messages. I can do it.

〔Example〕

Next, embodiments of the present invention will be described based on the drawings.

FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention.

In the embodiment of the present invention, a host computer 10 communicates with the terminal device 1 and other host computers 10' via a line 20.
connected to.

The host computer 10 includes a communication control means 3 for an online system connected to a line 20 and an online business program 2 for sending and receiving messages, a plurality of queuing buffer areas 7 for temporarily storing messages, and a plurality of queuing buffer areas 7 for storing messages. It has a message registration means 4 for registering messages in the queuing buffer area 7, a message retrieval means 6 for taking out messages from the queuing buffer area 7, and a management table corresponding to each unit of each queuing buffer area 7. Accordingly, a queuing control means 5 is provided which increases the capacity of the queuing buffer area 7 when the queuing buffer area is insufficient or reduces the capacity of the queuing buffer area 7 when an unused queuing buffer area 70 occurs.

The terminal device 1 sends and receives messages to and from the host combination coater 10 via the communication line 20, and the online business program 2 receives input messages from the terminal device 1.
The processing result is transmitted to the terminal device l. Communication control means 3
controls the transmission and reception of messages between the online business program 2 and the terminal device 1. Queuing buffer area 7
holds messages temporarily when an input message is generated from the terminal device 1 and when an output message is generated from the online business program 2. The message registration means 4 registers the transmitted and received messages controlled by the communication control means 3 in the queuing buffer area 7. The message retrieval means 6 retrieves the message from the queuing buffer area 7 and sends it to the communication control means 3. The queuing control means 5 controls the buffer blocks in the queuing buffer area 7 when the message registration means 4 and the message retrieval means 6 are in operation.

FIG. 2(a) is a diagram showing the configuration of the queuing buffer area 7 and the individual management table 210 controlled by the queuing control means 5.

The keying buffer area 7 is made up of a plurality of buffer areas, and one queuing buffer area 7 is made up of a plurality of buffer blocks shown in FIG. and a message storage area 233. The link unit 231 stores the address to the next empty buffer block when the buffer block is empty. That is, the free buffer block groups are linked in a chain state by the linking unit 231 using the address to the next free buffer block. However, this link state is closed in one queuing buffer area 7. The index 232 indicates which individual management table 210 the buffer block corresponds to.

The individual management table 210 shown in FIG. 2(a) corresponds to the queuing buffer area 7 on a 1 to 1 basis, and includes an individual total block number 211 indicating the total number of buffer blocks existing in one queuing buffer area 7, Total number of individual blocks 2
11, the number of individual free blocks 212 indicating the number of unused free buffer blocks, and the address to the first block of the individual free buffer blocks (hereinafter referred to as individual free FIR3).
213 (hereinafter referred to as a pointer to T) and the address to the last block of the individual free buffer Abcock (hereinafter referred to as individual free
214 (referred to as a pointer to the AST).

FIG. 2(C) shows a queuing control table 200, which controls each individual management table 210, and which controls the total number of buffer blocks in the entire queuing buffer area 7 (hereinafter referred to as the total number of blocks) 201. , the total number of unused free buffer blocks in the total number of blocks 201 (hereinafter referred to as the total number of free blocks) 202,
The total number of management tables 203 representing the total number of individual management tables 210 is included.

The operation of registering and retrieving transmitted and received messages in the queuing buffer area 7 in the embodiment of the present invention configured as described above will be described. FIG. 3 is a flowchart showing the processing flow of the queuing control means 5 according to the embodiment of the present invention.

The queuing control means 5 is an online business program 2
At the start of , one queuing buffer area 7 and individual management table 210 are prepared, and the individual management table 21
0 and the queuing control table 200 is initialized.

When the communication control means 3 receives a transmitted/received message from the terminal device 1 or the online business program 2, it requests the message registration means 4 to register the message. The message registration means 4 obtains n free buffer blocks necessary for storing the message via the queuing control means 5 and stores the message therein.

At this time, the queuing control means 5 reduces the number of free blocks in the queuing control table 200 by n. In addition, the number of individual free blocks in the individual management table 210 is also n.
The value of the pointer 213 to the individual free FIR 3T is updated. This operation is repeatedly executed each time the communication control means 3 receives or receives a message.

The queuing control means 5 monitors the total number of free blocks 202 each time a buffer block is acquired, and when a large amount of messages accumulate, the total number of free blocks 202 becomes the number of acquisition requests n.
When the number of buffer blocks becomes less than 1, a new queuing buffer area 7 is secured, a corresponding individual management table 210 is created, and n buffer blocks are acquired from there.

At that time, the queuing control means 5 controls the total number of blocks to be 20.
1 and the total number of free blocks 202 are also updated. That is, the n buffer blocks used for one message are managed so as not to span multiple queuing buffer areas 7, and each time there is a shortage of free buffer blocks, a new queuing buffer area 7 is secured. The action is performed repeatedly.

Conversely, when outputting a message to the terminal device 1 or the online business program 2, the communication control means 3 requests the message retrieval means 6 to retrieve the message. The message retrieval means 6 releases the n buffer blocks from which the messages have been retrieved via the queuing control means 5.

At this time, the queuing control means 5 increases the total number of free blocks 202 in the queuing control table 200 by n.
Further, the individual management table 210 is referred to from the index 232 of each buffer block, and the number of individual free blocks 21 is
2 and the pointer 214 to the individual free LAST are also updated at the same time. This operation is repeatedly executed every time the communication control means 3 outputs a message.

The queuing control means 5 monitors the individual management table 210 every time a buffer block is released. When the total number of individual blocks 211 and the number of individual free blocks 212 become the same, the individual management table 210 and the corresponding queuing buffer area 7 are deleted. At this time, the total number of management tables 203 is decreased, and at the same time, the total number of all blocks 2011 and the total number of free blocks 202 are also decreased by the number of deleted buffer blocks.

In this way, when the accumulated messages are output and the number of free buffer blocks increases, the operation of deleting the queuing buffer area 7 is repeatedly executed.

However, when the total number of management tables 203 is only one remaining, this operation is not executed.

〔Effect of the invention〕

As explained above, according to the present invention, even if a large number of messages accumulate due to a failure of a terminal device or a malfunction of an online business program, a traffic state does not occur, so that message transmission and reception does not stop.
This has the effect of eliminating wasteful use of resources in the queuing buffer area even when online business is being performed normally and there are few messages remaining.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention. FIG. 2(a) is a diagram showing the correspondence between the queuing buffer area and the management table according to the embodiment of the present invention. FIG. 2(6) is a diagram showing the buffer block format of the embodiment of the present invention. FIG. 2(C) is a diagram showing the configuration of a queuing control table according to an embodiment of the present invention. FIG. 3 is a flowchart showing the processing flow of the queuing control means according to the embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Terminal device, 2... Online business program, 3... Communication control means, 4... Message registration means, 5... Queuing control means, 6... Message retrieval means, 7. ...Queueing buffer area, 1
0.10'...Host combination coater, 20...Line, 200...Queueing control table, 201...
・All blocks ah, 202...Total number of free blocks, 2
03...Total number of management tables, 210...Individual management tables, 211...Total number of individual blocks, 212...
Number of individual free blocks, 213...Individual free FIR
3T pointer, 214... Pointer to individual free LAST, 231... Link n, 232... Index, 233... Message storage area. Figure (C) Panzer block acquisition buffer block release (B) Embodiment 3 (b)

Claims (1)

[Claims] 1. Communication control means for an online system that is connected to a terminal device or other host computer via a line and sends and receives messages, and a plurality of queuing buffer areas that temporarily store messages. , a host computer comprising message registration means for registering a message in this queuing buffer area, and message retrieval means for taking out a message from the queuing buffer area, a management table corresponding to each unit of the queuing buffer area; and a queuing control means that increases the capacity of the queuing buffer area when the queuing buffer area is insufficient or reduces the capacity of the queuing buffer area when an unused queuing buffer area occurs according to the management table. A host computer featuring: