JPH0997233A - Load distributing method for on-line information processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To distribute the loads on respective host computers applied to transactions from terminals by making the number of sessions established from the terminals to the host computers equal to each other at the respective host computers concerning an on-line information processing system having plural host computers equipped with equal functions and a communication processor. SOLUTION: A communication processor 4 sums up the current number of sessions established between it and host computers 1-3 for processing the transactions from terminals 5 and 6 for every host computer 1-3 and manages the result by using a host table. When a call is originated from a new terminal, the host computer having the least number of session established at present is selected out of the plural host computers 1-3, and a session for processing the transaction from the terminal originating the call is established between it and this selected host computer.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an online information processing system composed of a plurality of host computers having the same function and a communication processing device, and more particularly to a method for balancing the load of the host computer on transaction processing from terminals. Regarding

[0002]

2. Description of the Related Art A plurality of host computers having the same function and a communication processing device (FNP: Front-end Network Processes)
In a conventional online information processing system composed of a sor) and a call processing device, a call from a terminal is made by designating one of the host computers, and a communication processing device is provided between the designated host computer and the calling terminal. A session was established through the session, and data relating to transaction processing was transmitted and received between the host computer and the terminal through this session. Therefore, there is a problem that the load is concentrated on a specific host computer depending on the user's specification of the host computer from the terminal, and the average response time becomes long.

On the other hand, Japanese Patent Laid-Open No. 2-194747 discloses a communication control for transmitting and receiving communication control information between each computer and an exchange in a communication system having an exchange connecting a plurality of computers having the same function and a terminal group. In addition to providing a device, the address of each computer is managed by the exchange, and in the exchange, the processing capacity allowance of the computer is periodically received from each computer via the communication control device and managed, and the computer from the terminal is addressed. At the time of making a call, a method has been proposed in which the load of the computers is distributed by terminating the call to the computer having the highest processing capacity margin among the plurality of computers.

[0004]

As described above, the conventional online information processing system has a problem that the load is concentrated on a specific host computer depending on the user's designation of the host computer from the terminal.

Further, in order to solve such a problem, when the technique described in JP-A-2-194747 is applied to a host computer and a communication processing device in an online information processing system, each host computer has its own A process of periodically detecting the processing capacity margin and transmitting it to the communication processing device is required in addition to the original transaction process, which causes another problem that the load of each host computer increases due to the load balancing control. In addition, in order to detect the processing capacity margin and transmit it to the communication processing device, it is necessary to create dedicated software for each host computer.

Therefore, an object of the present invention is to disperse the load on each host computer involved in a transaction from a terminal without adding new software to each host computer and without increasing the load on each host computer. It is to provide a load balancing method in an online information processing system capable of performing the above.

[0007]

In order to achieve the above-mentioned object, the present invention comprises a plurality of host computers having the same function and a communication processing device connected to the plurality of host computers via transmission lines. In the online information processing system for processing a transaction from a terminal connected to the communication processing device via another transmission line, the communication processing device is configured to operate with the host computer in order to process the transaction from the terminal. The current number of sessions established for each host computer is aggregated and managed in the host table, and when a call is made from a new terminal, the number of sessions currently established among the plurality of host computers. Select the host computer with the least number of calls and make the call to the selected host computer. And so as to establish a session for handling transactions from end.

Generally, it is considered that the number of sessions of the host computer is substantially proportional to the CPU load of the host computer generated from the transaction input from the session. In the present invention, paying attention to this point, when a call is made from a new terminal, a host computer having the smallest number of sessions at that time is selected in the communication processing device, and the host computer having the smallest number of sessions at the time is selected. Establish a session to process a transaction from the calling terminal. As a result, the number of sessions of each host computer is averaged and the load of each host computer is distributed.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an example of an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing an example of an online information processing system to which the present invention is applied. The online information processing system of this example has three host computers 1, 2 and 3 having equivalent functions, and a communication processing device connected to these host computers 1 to 3 via a communication line 8 such as Ethernet ( FEP) 4 and a large number of terminal devices 5 and 6 are connected to the communication processing device 4 via various communication lines 7. Needless to say, the number of host computers is not limited to three.

A terminal-side online program that establishes a session with the communication processing device 4 on each of the terminals 5 and 6 and transmits / receives data relating to transaction processing to / from the communication processing device 4 through the established session. On the other hand, on each of the host computers 1 to 3, a host that establishes a session with the communication processing device 4 and transmits / receives data related to transaction processing with the communication processing device 4 through the established session. There is a side online program. The communication processing device 4 has a line connection function and a terminal control function for various communication lines like the existing communication processing device, and by averaging the number of sessions with each host computer 1 to 3. A load distribution control function for equalizing the loads on the host computers 1 to 3 is provided.

The operation of this embodiment will be briefly described. First, the terminals 5 and 6 call the communication processing device 4 as a call destination instead of the host computer. In response to this call, the communication processing device 4 establishes a session with the terminals 5 and 6 that made the call. The session established between the communication processing device and the terminal is referred to as a primary session in this specification. Next, the communication processing device 4 includes the host computers 1 to 1.
Check the current number of sessions established between 3 and
A host computer having the smallest number of sessions is selected, and a session is established between the selected host computer and the own communication processing device 4. The session established between this communication processing device and the host computer is called a secondary session in this specification. Then, the communication processing device 4 uses the set of the established primary session and secondary session as one virtual session to transmit and receive data between the call origination terminals 5 and 6 and the selected host computer. Broadcast in a virtual session.

Hereinafter, a more detailed structure and operation of this embodiment will be described centering on the communication processing device 4.

FIG. 2 is a block diagram showing an example of the communication processing device 4. The communication processing device 4 of this example has a session establishing means 42 for establishing a secondary session with the host computers 1 to 3, a session releasing means 43 for releasing the established secondary session, and terminals 5 and 6. Session establishing means 46 for establishing a primary session with
And a session releasing means 47 for releasing the established primary session, and terminals 5, 6 through the primary session.
Data receiving means 48 for receiving the data from the host computer, a reception data buffer 4c for accumulating the data received by the data receiving means 48, and the data accumulated in the reception data buffer 4c for the host computer 1 through the secondary session. 3, a data transmitting means 44 for transmitting data from the host computers 1 to 3 through a secondary session, a reception data buffer 4d for accumulating the data received by the data receiving means 45, A data transmitting means 49 for transmitting the data accumulated in the received data buffer 4d to the terminals 5 and 6 through the primary session, and a host table 4a for holding the number of established secondary sessions for each host computer 1 to 3. , Manages a set of paired primary and secondary sessions See the session table 4b, and the host table 4a and session table 4b, Update, selection of primary session and paired with a host computer to establish a secondary session should be, established 1
The session selection means 41 controls the selection of the secondary session paired with the next session, the selection of the primary session paired with the established secondary session, and the like.

FIG. 3 shows a configuration example of the host table 4a. As shown in the figure, in the host table 4a, the number of secondary sessions currently established with the host computers 1 to 3 corresponding to the identifiers (host identifiers) of the host computers 1 to 3 respectively. (The number of sessions) and are held.

FIG. 4 shows an example of the structure of the session table 4b. As shown in the figure, in the session table 4b, a pair of primary session and secondary session identifiers (primary session identifier, secondary session identifier),
A pair with the identifiers (host identifiers) of the host computers 1 to 3 with which the secondary session is established is held.

FIG. 5 is a relational diagram of each part at the time of establishing a session between the terminal and the host computer, FIG. 6 is a flowchart showing a processing example of the communication processing device 4 at that time, and FIG. 7 is at the time of data transmission from the terminal to the host computer. 8 is a flow chart showing a processing example of the communication processing device 4 at that time, FIG. 9 is a relational diagram of each part when data is transmitted from the host computer to the terminal, and FIG. 10 is a communication processing device at that time. 4 is a flow chart showing a processing example of FIG. 4, FIG. 11 is a relational diagram of each unit at the time of releasing a session between the terminal and the host computer, and FIG. 12 is a flow chart showing a processing example of the communication processing device 4 at that time. Hereinafter, each case will be described separately.

Establishing session between terminal and host computer (see FIGS. 5 and 6) Each terminal (hereinafter referred to as terminal 5) calls the communication processing device 4 when requesting transaction processing from the host computer. . When the communication processing device 4 detects the call from the terminal 5, the session establishing means 46 establishes a primary session with the terminal 5 (S1). Next, the session selection means 41 refers to the host table 4a and selects the host computer with the smallest number of established secondary sessions (S2). For example, host table 4a
3 is the one shown in FIG. 3, the host computers with the smallest number of secondary sessions are the host computers 2 and 3, so either one is selected. now,
It is assumed that the host computer 2 is selected. Next, the session selecting means 41 notifies the session establishing means 42 of the host identifier of the selected host computer 2, and the session establishing means 42 establishes a secondary session with the host computer 2 (S3). .
Then, the session selection means 41 uses the host table 4
The number of secondary sessions corresponding to the host computer 2 that established the secondary session this time in a is incremented by 1 (S4).
Further, unique identifiers in the communication processing device 4 are assigned to the primary session established this time by the session establishing means 46 and the secondary session established this time by the session establishing means 42. A set with the host identifier of the host computer 2 at the session establishment destination is registered in the session table 4b (S5).

○ When data is transmitted from the terminal to the host computer (see FIGS. 7 and 8) From the terminal that has established the primary session with the communication processing device 4 (referred to as terminal 5), the transaction is performed through the primary session. When the data related to the processing (processing request etc.) is transmitted, the communication processing device 4 receives the data from the terminal 5 by the data receiving means 48 and stores it in the received data buffer 4c (S11). Next, the session selecting means 41 searches the session table 4b by the identifier of the primary session from which the data receiving means 48 has received the data, and acquires the identifier of the secondary session corresponding to the primary session (S12). . Then, the obtained identifier of the secondary session is notified to the data transmitting means 44, and the data transmitting means 44 makes the data from the terminal 5 stored in the reception data buffer 4c the target host computer through the secondary session. To (S1
3). In this way, the data transmitted from the terminal 5 is relayed to the target host computer in the communication processing device 4 by using the paired primary session and secondary session.

○ When data is transmitted from the host computer to the terminal (see FIGS. 9 and 10), processing based on the data sent from the terminal is executed and data indicating the processing result etc. is notified to the processing request source terminal. In order to do so, when data is transmitted from the host computer (for example, the host computer 2) through the secondary session, the communication processing device 4 receives the data from the host computer 2 by the data receiving means 45 and receives the received data. The data is stored in the buffer 4d (S21). Next, the session selecting means 41 searches the session table 4b by the identifier of the secondary session from which the data receiving means 45 has received the data, and acquires the identifier of the primary session corresponding to the secondary session (S22). . Then, the data transmitting means 4 uses the acquired identifier of the primary session.
Then, the data transmission means 49 transmits the data from the host computer 2 stored in the received data buffer 4d to the target terminal through the primary session (S23). In this way, the host computer 2
In the communication processing device 4, the data transmitted from is relayed to the target terminal using the paired primary session and secondary session.

Session release between terminal and host computer (see FIGS. 11 and 12) Each terminal (hereinafter referred to as terminal 5) is connected to the communication processing device 4 when releasing a session with the host computer. The communication processing device 4 is requested to release the primary session through the primary session. Communication processor 4
When detecting the release request of the primary session from the terminal 5, the session release means 47 releases the primary session with the terminal 5 (S31). Next, the session selection means 41 searches the session table 4b for the released primary session identifier, and identifies the secondary session identifier corresponding to the primary session and the host computer of the establishment destination (for example, the host computer 2). And the host identifier of) are acquired (S32). Next, the obtained session identifier of the secondary session is notified to the session releasing means 43, and the session releasing means 43 sends the 2
The next session is released (S33). Then, of the number of sessions in the host table 4a, the number of sessions corresponding to the host identifier acquired in step S32 is decremented by 1 (S34), and further, the identifier of the secondary session released from the session table 4b, corresponding to this The set of the primary session identifier and the host identifier to be deleted is deleted (S35).

In the above embodiments, the case where there is one communication processing device has been described, but the present invention is also applicable to an online information processing system in which a plurality of communication processing devices are connected to a plurality of host computers. is there.

[0023]

As described above, the present invention focuses on the fact that the number of sessions of the host computer and the load of the host computer are substantially proportional to each other in the online information processing system, and averages the number of sessions. The load of the host computer is distributed, and the accuracy of load distribution is higher than that in the case of periodically collecting the processing capacity margin of each host computer as in the technique disclosed in Japanese Patent Laid-Open No. 2-194747. However, since it is not necessary for each host computer to periodically detect its own processing capacity margin and send it to the communication processing unit, the load on each host computer may be reduced for load balancing control. , Special software is created in order to increase the processing capacity, detect the processing capacity margin, and send it to the communication processing device. There is no no need. Therefore, the existing online information processing system can be realized with a little modification, and its practical value is very large.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of an online information processing system to which the present invention has been applied.

FIG. 2 is a block diagram illustrating a configuration example of a communication processing device.

FIG. 3 is a diagram showing a configuration example of a host table.

FIG. 4 is a diagram showing a configuration example of a session table.

FIG. 5 is a related diagram of each unit when a session is established between a terminal and a host computer.

FIG. 6 is a flowchart showing a processing example of a communication processing device when establishing a session between a terminal and a host computer.

FIG. 7 is a related diagram of each unit when data is transmitted from the terminal to the host computer.

FIG. 8 is a flowchart showing a processing example of a communication processing device when transmitting data from a terminal to a host computer.

FIG. 9 is a related diagram of each unit when data is transmitted from the host computer to the terminal.

FIG. 10 is a flowchart showing a processing example of the communication processing device when data is transmitted from the host computer to the terminal.

FIG. 11 is a related diagram of each unit when a session between a terminal and a host computer is released.

FIG. 12 is a flowchart illustrating a processing example of a communication processing device when a session between a terminal and a host computer is released.

[Explanation of symbols]

 1 to 3 ... Host computer 4 ... Communication processing device (FEP) 5, 6 ... Terminal 7, 8 ... Communication line 41 ... Session selecting means 42, 46 ... Session establishing means 43, 47 ... Session releasing means 44, 49 ... Data transmission Means 45, 48 ... Data receiving means 4a ... Host table 4b ... Session table 4c, 4d ... Reception data buffer

Claims (3)

[Claims] 1. A host computer having a plurality of host computers having the same function and a communication processing device connected to the plurality of host computers via a transmission line, and connected to the communication processing device via another transmission line. In the online information processing system for processing a transaction from a terminal, the number of current sessions established with the host computer for processing the transaction from the terminal in the communication processing device is set for each host computer. Managed by the host table, and when a call is made from a new terminal, the host computer with the smallest number of currently established sessions is selected from the plurality of host computers, and the selected host computer is Session for processing transactions from the calling terminal during Load distribution method in an online information processing system and establishes a. 2. A plurality of host computers having the same function and a communication processing device connected to the plurality of host computers via a transmission line, and connected to the communication processing device via another transmission line. In the online information processing system for processing a transaction from a terminal, the communication processing device has a current secondary state established between the host computer and the communication processing device to process a transaction from the terminal. The number of sessions is totaled for each host computer and managed in a host table. When a call is made from a new terminal to the communication processing device, a primary session is established between the calling terminal and the communication processing device. A host with the smallest number of secondary sessions currently established among the plurality of host computers. Computer, a secondary session is established between the selected host computer and the communication processing device, and the calling terminal and the host computer are used by using the secondary session and the primary session. A load balancing method in an online information processing system, characterized by relaying data transmitted and received between and. 3. The load balancing method in an online information processing system according to claim 2, wherein the communication processing device manages the correspondence between the established primary session and secondary session in a session table.