JPH02280254A - On-line sg processing system - Google Patents

Abstract

PURPOSE:To continue a service without interrupting by transferring network constitutional information from a host computer to a relay computer when a terminal is installed additionally or changed, and assembling change information in a file by the relay computer. CONSTITUTION:When the terminal 4-T4 is added on the relay computer 3-1, an additional terminal information storage file is allowed to the host computer 1. And the identification address of the terminal 4-T4 on the host computer 1, a logical communication line identifier to be used, the physical address of the terminal 4-T4 on the relay computer 301, and a line number to connect the relay computer 3-1 to the terminal 4-T4 mutually are stored in an allocated file. Next, control to assemble the content of the additional terminal information storage file 11-2 in a constitutional information means 11 is performed. Thereby, the change of the terminal can control be performed without stopping a network.

Description

[Detailed description of the invention] (Industrial use bone) The present invention relates to improvements in data processing systems.

In particular, the present invention relates to a method for adding/changing terminals in the network of the online system.

(Prior Art) Conventionally, logical communication paths as many as the number of terminals are created between a host and a terminal, and the host and relay computer manage all correspondence between the corresponding terminals and the logical communication paths.

Therefore, when adding/changing a terminal, the management information held by the host and the relay computer had to be changed.

This management information was held in files on the host and relay computers, but when the host and relay computers were initialized, the management information was expanded onto the memory and thereafter managed using the management information on the memory. For this reason, changing the terminal / Addendum 71
At the time of G, it was necessary to stop the network, add management information to the files of the host and relay computers, and reinitialize the hosts and relay computers.

That is, when adding/changing a terminal, it was necessary to stop the network at any time.

(Issue 1!l to be solved by the invention) The conventional terminal addition/change method described above is
0/When making changes, the network must be temporarily stopped, and this stoppage time is long.

In the current situation where network users are becoming more widespread in society, one drawback is that they have a very large impact on society.

An object of the present invention is to generate a number of logical communication paths between a host computer and a relay computer that are independent of the number of terminals and that correspond to the traffic volume of the network, and when adding or changing terminals, the host computer Network configuration information from the computer to the related relay computer using a file transfer method? The purpose of the present invention is to provide an online SG processing system configured to eliminate all of the above-mentioned drawbacks by transferring information and incorporating change information into a file by a relay computer using a configuration information management means, and to enable changes to be made without stopping the network.

(Means for Solving the Problem) The online SG processing method according to the present invention includes a host computer, a front-end computer, and a plurality of relay computers that control one or more networks.

This is a network configured with a plurality of terminals connected to a relay computer via a communication medium.

In the above configuration, the host computer manages network configuration information in multiple files, and includes a first configuration information management means for referring to the configuration information in the files when requesting connection with a terminal, and a logical communication path. and a first file transfer means for transferring network component information managed by each relay computer to the relay computer. It is a friend that is composed of

The relay computer has a second configuration information management means for managing all the information of the network component devices managed by the relay computer in multiple files and referring to the configuration information vi in the file when requesting connection with the 11 terminal. , a second message root means for associating the correspondence between the logical communication path and the terminal, and a second file for transferring the network configuration information from the host computer to the file of the second configuration information management means. This configuration includes a transfer means.

In such a configuration, when adding/changing a terminal to the network, the present invention adds/changes the file managed by the first configuration information management means of the host computer during online operation, and adds/changes the file to be added/changed to the relay. Transfer the configuration information to the computer using the first file transfer means, and the relay computer that received the configuration information adds 7JO/do not replace to the file of the second configuration information management means while the relay computer is online. /When connecting to a changed terminal, the host computer and relay computer refer to the changed file information, obtain the route/address/attribute information of the terminal, and establish the corresponding logical communication path. It is constructed so that it can be used for communication.

(Example) Next, one embodiment of the present invention will be described based on the drawings.

FIG. 1 is a block diagram showing an embodiment of an online 8G processing method according to the present invention.

In FIG. 1, l is a host computer, 2 is a precomputer,
3-1.3-2 are relay computers, 4-T1 to 4-
T6 are terminals, and 14 and 15 are logical communication paths.

In the host computer I, 11 is a first configuration information management means, 12 is a first message distribution means, 13 is a first file transfer means, 11-1 and 11-2 are files, and 11-3 is a first message distribution means. This is a first file management/reference section.

In the relay computer 3-1, 33 is a second configuration information management means, and 32 is a second message distribution means.

34 is a second file transfer means, 33-1 and 33-2 are respective files, and 33-3 is a second file management/reference unit.

FIG. 2 shows terminal information addition 7 of the host computer in the present invention.
2 is a flowchart showing the flow of xI/change. FIG. 3 is a flowchart showing the flow of adding/changing terminal information in a relay computer according to the present invention. FIG. 4 is a flowchart showing the flow of operations of the host computer and relay computer regarding message relay according to the present invention.

The embodiment of the present invention includes a host computer 1, a pre-computer 2,
Relay computer 3-1.3-2 and electrician 4T to be added/changed
1 to 4T6 are connected by a communication medium.

The host computer 1 has a plurality of files 11-1, 11-2, . . . that store and manage network configuration information. and a file management/reference section 11-3 that refers to the contents of the file 11-1 and 11-2 when the terminal is connected.
The configuration information management means 11 of , the message distribution means 12 for associating correspondence between terminals and logical communication paths, and the file 33 of the second configuration information management means 33 of the relay computer 3-1.
-1.33-2 is fully equipped with file transfer means 13 for transferring configuration information to file transfer. In addition, the host computer 1 has a logical communication path 14.15 for mutual connection with the relay computer 3-1, and an application program API for processing information.

Ar1.

The relay computer 3-1 has a plurality of files 33-1, 33-2., which store and manage network configuration information. and a configuration information management means 33 comprising a file management/reference section 33-3 that refers to the contents of the file 33-1, 33-2 when the terminal is connected, and a message that associates the correspondence between the terminal and the logical communication path. The distribution is performed by a means 32 and a file transfer means 34 for transferring the configuration information to the files 33-1 and 33-2 of the configuration information management means 33 of the relay computer 3.
and a logical communication path (14, 15) for interconnecting the host computer l and the relay computer 3-1! - Prepare each.

The operation of the embodiment of the present invention constructed in this way will be explained using FIGS. 1 to 4.

Terminal 4-'r4t? to relay computer 3-1? When additional terminal information is to be added, an additional terminal information storage file is allocated on the host computer in step HIO. The identification address of the terminal 4-T4 on the host computer 1, the logical communication path identifier to be used, and the physical address of the terminal 4-T4 on the relay computer 3-1 are stored in the file allocated in step HIO. , and the line number mutually connecting relay computer 3-1 and terminal 4-T4 are stored in step H20.

Next, the control incorporates the contents of the additional terminal storage file 11-2 into the configuration information management means 11. At this time, step H3
0 indicates to the configuration information management means 11 that the attribute cannot be referenced at the time of a terminal connection request.

After the information of the terminal 4-T4 is incorporated into the configuration information management means 11 of the host in step H40.

In step 010, the configuration information management means 11 transmits a configuration information transfer request to the relay computer 3-1 using the logical communication path 15'ft.

Relay computer 3-1, which has received all the configuration information transfer requests, checks whether the file name in the corresponding request already exists within relay computer 3-1. If the file name already exists in the relay computer 3-1, the terminal will be changed, but if it does not exist, the terminal will be added.

If the file does not exist on relay computer 3-1, a new file is allocated.

At the time of a terminal connection request, the configuration information management means 11 gives an attribute of non-referenceable to the file whose configuration information is to be changed/added.

After that, #4 information transfer rod 13T'? The r host is notified, and the file transfer of the configuration information is performed using the file transfer means 13 of the host computer l and the file transfer means 34 of the relay computer 3-1.

These are steps H50, 020, 030, 040, 0
Executed by 50,06,0.

After completing the configuration information transfer, the relay computer 3-1 changes the file attribute to a referenceable state in step 070,
Send all additional terminal information confirmation to the host computer l.

Host computer 1#-j receives confirmation of addition of terminal information from relay computer 3-1: Changes file 11-2 to a referenceable state in step H60 and ends the lucky process @Added terminal 4 - The flow of processing when T4 communicates with the application program API of host computer I is as follows. That is, when a connection request is made from the application program API of the host computer l to the terminal 4-T4, the application program API starts communication to the configuration information management means 11 in step RIO, and establishes a route using the identification address of the terminal 4-T4. Inquire.

The configuration information management means 33 refers to the file using the identification address of the terminal 4-T4, and in step R30 delivers the logical communication path identifier and the physical address of the terminal 4-T4 to the application program API.

The application program API includes the physical address of the terminal 4-T4 handed over from the configuration information management means 33,
A logical communication channel identifier is held.

When communicating with terminal 4-T4, step R40
Accordingly, the physical address, logical communication path identifier, and host internal identifier of the application program API are added to the beginning of the message to be sent to Tomi, and the message is distributed by requesting the means 12 to send it.

For the message distribution, the means 12 uses the instructed logical communication path and transmits the message to the relay computer 3-1 in step R50.

The relay computer 3-1 uses the configuration information management means 3Q to search for the line number of the terminal 4-T4 from the physical address within the relay computer 3-1 included in the received message.

Upon obtaining the line number from the configuration information management means 33, the host computer 1 sends the message to the corresponding line in the same format as the received message in step R60.

The message sent from the terminal 4-T4 to the application program API is sent by adding the identifier in the host computer 1 of the application program API previously received by the terminal 4-T4 and the physical address of the terminal 4-T4 to the message sent by the application program. m in the host computer of the program API
The relay computer 3-1 uses the configuration information management means 33 to obtain a corresponding logical communication path from the brush. As a result, step R70 follows the same flow as the transmission message from the host computer 1.
Transmission can be performed by

(Effects of the Invention) As explained above, the present invention generates a number of logical communication paths between a host computer and a relay computer, independent of the number of terminals, and corresponding to the traffic volume of the network. When adding/changing terminals, from the host computer to the related relay computer,
Network configuration information is transferred using a file transfer means, and the relay computer incorporates the changed information into the file using a configuration information management means, thereby interrupting online service even if a terminal is added to the network or changes are made. It has the effect that it can be implemented without causing any problems.

In other words, the online system has the advantage that services can be continued without interruption.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the online 8G processing method according to the present invention. FIG. 2 is a flowchart showing the flow of operations for adding/changing the terminal information in the host computer shown in the first cause. Figure 3 shows additional terminal information on the relay computer shown in Figure 1.
1G/ is a flowchart showing the flow of the next operation f'L to be changed. FIG. 4 is a flowchart showing the flow of operations of the host computer and relay computer when relaying a message. 1...Host computer 2...Preliminary computer 3-1.
3-2... Relay computer 4-TiN2-T6... Terminal 11, 33... Configuration information management means 11-1.11-2.33-1.33-2... File 11-3. 33-3...File management/reference section 12.
32... Message distribution is a means 13. 34... File transfer means 14.15... Logical communication path Patent applicant NEC Corporation

Claims (1)

[Claims] An online network consisting of a host computer, a front-end computer, multiple relay computers for controlling one or more networks, and multiple terminals connected to each of the relay computers via a communication medium. In the SG processing method, the host computer manages configuration information of the network in a plurality of files, and a first configuration information management for referring to the configuration information in the files when requesting connection with each terminal. a first message distribution means for associating correspondence between a logical communication path and the terminal; and a first file transfer means for transferring network component information managed by each to the relay computer. The relay computer manages information on network component devices managed by the relay computer in a plurality of files, and includes second configuration information for referring to the configuration information in the files when requesting connection with a terminal. a management means, a second message distribution means for associating the logical communication path with the plurality of terminals, and network configuration information from the host computer to a file of the second configuration information management means. a second file transfer means for receiving the data, and a logical number of logical lines between the host computer and the relay computer, independent of the number of terminals, and depending on the traffic of the network. A communication channel is generated, and when the terminal is added/changed, the network configuration information is transferred from the host computer to the related relay computer using the first file transfer means, and the relay computer transfers the network configuration information to the related relay computer. An online SG processing method characterized in that the change information is incorporated into a file by an information management means so that network changes can be made without stopping the network.