JPH0784857A - Relay type file transfer system - Google Patents

Abstract

PURPOSE:To effectively utilize a line by eliminating uselessness such as a flow of the same information to the same path when the same file is transferred to plural transfer destinations. CONSTITUTION:This system consists of a transfer request accepting and transfer file receiving means 10 which receives a transfer file and writes it in a transfer management table 13, a line information managing means 11 which receives the line state between the transfer file 12 stored with transfer data and an adjacent logical system in real time and writes it in the transfer management table, a file transfer and system information transmitting means 14 which judges the adjacent logical system as a transmission destination from the line state of the adjacent logical system and transfer file information written in the transfer management table and the transfer file and address information, an end information accepting means 15 which receives transfer end information from the adjacent logical system and updates the transfer management table, and an end information reporting means 16 which sends a report to a logical system as the high-order transfer source when the transfer end information is received from all transfer destinations.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a file transfer system, and more particularly to a relay type file transfer system for broadcast notification between logical systems in a system constituting a hierarchical network.

[0002]

2. Description of the Related Art Conventionally, this type of file transfer is based on the basic logic of file transfer regardless of the system configuration, even in the case of broadcast communication for transferring the same file to a plurality of logical systems. The system was transferring files directly to all destination logical systems.

[0003]

In the above-mentioned file transfer, in the system of the hierarchical network structure, since the original logical system transferring the file transfers directly to all the transfer destinations, the same file is transferred. When a file is transferred from a higher logical system of a hierarchical structure to a lower logical system, the file sent to the lower logical system only needs to be sent once. However, the higher the logical system, the higher the logical system of the transfer source and the logical system of the transfer destination. The same information (transfer file, transfer end information) repeatedly flows in the path between the lines, and the line cannot be used efficiently.

[0004]

In the case where the same file transfer is performed between a plurality of logical systems serving as nodes of the network in a system forming a hierarchical network, adjacent logical systems for each transfer file destination A transfer management table that stores the line status and transfer file of the server and a transfer request reception / transfer file reception unit that receives a transfer request, receives the transfer file, and writes the logical system information / transfer file of the destination to the transfer management table And a transfer file in which a file to be transferred is stored and a line state between an adjacent logical system in real time and written in the transfer management table, and an adjacent logical system written in the transfer management table. Neighbor to be sent from the line status and transfer file information with And a file transfer / system information transmitting means for transmitting the transfer file to the corresponding logical system and the destination information when there is a logical system for transmitting the transfer file further to that logical system. An end information receiving unit that receives transfer end information from the adjacent logical system that has transmitted the file and updates the transfer management table based on the end information (deletes the file information for the transfer end), and all the transferred files When the transfer end information is received from the transfer destination, the logical system includes an end information notifying means for notifying the adjacent logical system that is the higher transfer source of the end information.

[0005]

According to the present invention, when the same file transfer is performed between a plurality of logical systems which are nodes of the network in a system forming a hierarchical network, a transfer management table is provided for each logical system,
When the path that allows the most efficient data transfer is selected and the same file is transferred from the higher logical system of the hierarchical structure to the lower logical system, the file sent to the lower logical system only needs to be sent once. The higher the logical system, the more the same information (transfer file, transfer end information) will repeatedly flow in the path between the transfer source logical system and the transfer destination logical system. To effectively utilize.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described with reference to the drawings.

FIG. 4 is a block diagram conceptually showing a hierarchical network to which the present invention is applied. There is a logical system 2 under a user 1 and M logical systems 31 under the logical system 2. ~ 3M, and further logical system 3
There are N logical systems 41 to 4N under 1 and L logical systems 51 to 5L under the logical system 3M, and the network has a hierarchical structure and is connected to each other horizontally and vertically. It indicates that

FIG. 5 shows a specific example of the hierarchical network used to explain one embodiment of the present invention, in contrast to the general hierarchical network shown in FIG. Below the user 1 is the logical system 2, below the logical system 2 are the logical systems 31, 32, 33, below which is the logical system 4, which are connected to each other as shown in FIG.

FIG. 1 shows a block diagram of the logical system 2 and FIG. 2 shows a block diagram of the logical system 32. Both have the same internal configuration, but the upper connection destination is the user 1 in FIG. 2 is the transfer source logical system 2.

Both the logical systems 2 and 32 receive a transfer request, receive a transfer file or a destination request, and write the logical system information / transfer file of the transmission destination into the transfer management tables 13 and 20. 10 and 17, transfer files 12 and 19 storing transfer data, and transfer management tables 13 and 20 storing line states and transfer file names of adjacent logical systems for each transfer file destination, Line information management means 11 and 18 for receiving the line status with the adjacent logical system in real time and writing it in the transfer management tables 12 and 19, and the line status and the transfer file information with the adjacent logical system written in the transfer management table. Determines the adjacent logical system to be sent from the File transfer and system information transmitting means 14 and 21 for transmitting destination information when there is a logical system for transmitting a transfer file further ahead, and transfer from an adjacent logical system transmitting the transfer file. From the end information receiving means 15 and 22 that receives the end information and updates the transfer management tables 12 and 19 based on the end information (deletes the file information for the transfer end), and all transfer destinations of the transferred files. When the transfer end information is received, it is composed of end information notifying means 16 and 23 for notifying the adjacent logical system which is the higher transfer source of the end information.

FIG. 3 is a block diagram of a logical system having no file transfer destination before that, which uses transfer request receiving / transfer file receiving means 24, transfer file 25, and end information notifying means 26.

Before describing this embodiment, the transfer management table will be described with reference to FIG. The transfer management table of FIG. 6 is a transfer management table of the logical system 2. In the network configuration of FIG. 5, when viewed from the logical system 2,
There are four destinations of the logical systems 31, 32, 33, and 4 (LS31, LS32, LS33, LS4 in FIG. 6).
The logical systems adjacent to the logical system 2 are 31, 32,
33, and the line status with each logical system is stored in 6 stages. In FIG. 6, it is shown that the line between the logical systems 2 and 32> the line between the logical systems 2 and 33> the line between the logical systems 2 and 31 is vacant in that order. Further, in the logical system 2, the file AAA is transferred to the logical systems 31, 32 and 4,
It indicates that a request has been made to transfer the file BBB to the logical system 4 and the file CCC to the logical systems 33 and 4. A blank column indicates that there is no transfer request. The transfer destination of each file is determined by the congestion of the shortest path and the line if a line is normally established between each adjacent logical system.

The processing flow of the present invention will be described below with reference to FIG.
This will be described with reference to FIGS. 2, 3, 5, and 6. Now, it is assumed that the user 1 issues a file transfer request to the logical system 2 as shown in the transfer management table of FIG. First, the case of transferring the file AAA will be described.

The transfer request receiving / transfer file receiving means 10 that has received the transfer request from the user 1 uses the transfer file 1
2 is fetched and the destination information of the logical system of the destination and the transfer file are written in the transfer management table 13. Further, it is assumed that the line status with the adjacent logical system received by the line information management means 11 is written in real time in the transfer management table. Here, the file transfer / system information transmission means 14 transfers the file through which adjacent logical system based on the line state with the adjacent logical system written in the transfer management table 13 and the destination information of the transfer file. It is judged whether or not it is the most efficient, and if there is a transfer file and a file transfer destination in the adjacent logical system, the transfer information is also transferred including the destination information.

For file AAA, logical system 3
Since the data is to be transferred to 1, 32, and 4, for the time being, if the line is normally set up between the adjacent logical systems 31 and 32, it will be directly transferred. At this time, if the line is not normally set up, the data is transferred via another adjacent logical system. Looking at the line status, the line between the logical system 31 and 32 is free, so the transfer to the logical system 4 will be done via the logical system 32. Therefore, since the logical system 31 does not need to send the file any further, only the transfer file is sent to the logical system 31.

After receiving the file transfer, the internal configuration of the logical system 31 having no further transfer destination is as shown in FIG. When the transfer request receiving / transfer file receiving means 24 receives the transfer file from the transfer source logical system 2 and stores it in the transfer file 25, the end information notifying means 26 sends the end information to the transfer requesting logical system 2. When transferring to the logical system 32, since there is the logical system 4 to be further transferred, the destination information is transmitted in addition to the transfer file.

After receiving the transfer file and the destination information, the internal configuration of the logical system 32 having the transfer destination at the destination is as shown in FIG. The transfer request reception / transfer file reception means 17 receives the transfer file and the destination information from the transfer source logical system 2 and stores them in the transfer file 19, and at the same time, the transfer management table 20 stores the destination information and the transfer file of the destination logical system. Is written in the transfer management table 13. Further, as in the case of the logical system 2, the line status with the adjacent logical system received by the line information management means 18 is written in the transfer management table 20 in real time. Here, the file transfer / system information transmission means 14 transfers only the file to the adjacent logical system 4 by checking the line status with the adjacent logical system and the destination information of the transferred file written in the transfer management table 20.
If a line is normally set up between the logical systems 32 and 4, direct transfer is possible, but if not, it will be transferred via another logical system. Send.

Logical system 4 having no next transfer destination
Is the logical system 32 that is the transfer source, as shown in FIG.
The transfer file is received from the transfer request receiving / transfer file receiving means 24 and stored in the transfer file 25. Then, the end information notifying means 26 causes the transfer request source logical system 3 to transfer the transfer file.
The end information is transmitted to 2. The logical system 3 which received the end information from the logical system 4 by the end information receiving means 22
2 updates the transfer management table 20 (deletes the file information for the transfer end), and when the end information is received from all the transfer destinations, the end information notifying means 23
The end information is transmitted to the transfer requesting logical system 2. The logical system 2 which has received the end information from the logical system 32 by the end information receiving means 15 updates the transfer management table 13 (deletes the file information for the transfer end).
Then, when the end information is received from all the transfer destinations, the end information notifying unit 16 transmits the end information to the user 1 who made the request.

It is assumed that the files BBB and CCC are also transferred in the relay manner in the same manner.

[0020]

As described above, the present invention has the transfer management table in the logical system, and determines the efficient transfer route by managing the line information of the adjacent system and the destination information of the transfer file. For a logical system that has a transfer destination at the destination as well, by sending the file with the destination information attached and by sending the end information by the reverse route, the path between the transfer source and the adjacent system is set. It is only necessary to send the information once, and it is possible to eliminate the waste of the same information being sent to the same path many times and to effectively utilize the line.

[Brief description of drawings]

FIG. 1 is a block diagram of a logical system 2.

FIG. 2 is a block diagram of a logical system 32.

FIG. 3 is a block diagram of logical systems 31 and 4.

FIG. 4 is a general configuration diagram of a hierarchical network configuration.

FIG. 5 is an example of a hierarchical network configuration described in an embodiment of the present invention.

FIG. 6 is a transfer management table of the logical system 2.

[Explanation of symbols]

1 user 2, 31, 32, 3M, 4, 41, 4N, 51, 5L
Logical system 10, 17, 24 Transfer request reception / transfer file reception means 11, 18 Line information management means 12, 19, 25 Transfer file 13, 20 Transfer management table 14, 21 File transfer / system information transmission means 15, 22 End information Reception means 16, 23, 26 End information notifying means

Claims (1)

[Claims] 1. A relay-type file transfer method for transferring the same file between a plurality of logical systems serving as nodes of the network in a system constituting a hierarchical network, wherein each transfer file destination is adjacent. A transfer management table that stores the line status of the logical system and the transfer file, and a transfer request reception / transfer file that receives the transfer request, receives the transfer file, and writes the logical system information / transfer file of the destination to the transfer management table A receiving means, a transfer file in which a file to be transferred is stored, and a line status managing means for receiving in real time the line status of an adjacent logical system and writing it in the transfer management table, and an adjacent line written in the transfer management table Send from the line status with the logical system and transfer file information And a file transfer / system information transmission means for determining an adjacent logical system to be transmitted and transmitting the transfer file to the corresponding logical system and the destination information when the logical system for transmitting the transfer file further exists. , End information receiving means for receiving transfer end information from the adjacent logical system which has transmitted the transfer file and updating the transfer management table based on the end information (deleting the file information for the transfer end portion), and the transferred file When the transfer end information is received from all of the transfer destinations, the relay type file transfer method is constituted by the end information notifying means for notifying the adjacent logical system which is the higher transfer source of the end information.