JPH0548672A - System for transmitting file - Google Patents

Abstract

PURPOSE:To shorten time for transmitting a file after the repair of line disconnection when a line is disconnected during file transmission. CONSTITUTION:When trouble occurs in the line so as to disconnect the line, a line disconnection recognizing device 6 recognizes the line disconnection, a computer 1 at a source side stores file transmission quantity at that time and a file transmission conditions grasping device 7 confirms file transmission quantity which has terminated by the line disconnection time. When line disconnection is repaired, the line disconnection recognizing device 6 recognizes the repair and the file to be transmitted, which is already confirmed by the file transmission conditions grasping device 7, is transmitted to the computer 11 at the destination side. Therefore, there is no necessity for re-transmitting the file already transmitted so that time for transmission is shortened.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a file transmission system between a plurality of computers connected by a network.

[0002]

2. Description of the Related Art FIG. 4 is a block diagram showing a configuration of a network system adopting a conventional file transmission system. In FIG. 4, 1 is a source side computer, 2 is a transmission file in the source side computer 1, 3 is a transceiver connecting the source side computer 1 and a transmission medium (line) 13, and 4 is a necessary file (packet) Source side router, which only passes the optimum path
8 is a destination router, 9 is a transceiver that connects the destination router 8 and the transmission medium 13, 10 is a transceiver that connects the transmission medium 13 and the destination computer 11, and 12 is a file in the destination computer 11. The storage device 14 is a transceiver for connecting the source side router 4 and the transmission medium 13.

Next, the operation of this conventional example will be described with reference to FIGS. 4 and 5. For example, when transmitting 3072 bytes of transmission data in 3 segments of 1024 bytes each, Sequence Number (hereinafter referred to as SEQ) 100
1024 bytes of data starting from 0 are transferred from the source computer 1 to the destination computer 11
To transmit. Next, from the destination computer 11 to the source computer 1, Acknowledgment Nu
mber (hereinafter abbreviated as ACK) 2024 (1000 + 102)
4) is returned. Next, the source computer 1 transmits 1024 bytes of data starting from SEQ2024 to the destination computer 11. Destination computer 11 is source computer 1
To the destination computer 11, the source computer 1 transmits 1024 bytes of data starting from SEQ 3048 to the destination computer 11, and the destination computer 11 sends the ACK 4072 (3048 + 1) to the destination computer 11.
024) to the source computer 1. The source computer 1 confirms that all the data has been transmitted and
The end flag starting from EQ4072 is transmitted to the destination side computer 11, and the destination side computer 11 which received it also transmits the end flag to the source side computer 1 to complete the data transmission.

[0004]

Since the conventional file transmission method is processed as described above, when a line trouble such as a physical line disconnection occurs, the file which has been transmitted halfway is completed. Had to be deleted, the transmission work from the beginning was required again, and there was a problem that the file which had been transmitted halfway and the transmission time was wasted.

The present invention has been made to solve the above problems, and an object thereof is to obtain a file transmission system capable of automatically transmitting an untransmitted file after a line trouble is repaired.

[0006]

A file transmission system according to the present invention comprises a line disconnection recognition device 6 for recognizing disconnection of a network line (transmission medium 13) and a transmission status such as a transmission amount of a file to be transmitted. A file transmission status comprehension device 7 for comprehension is provided, and when the line is disconnected due to a trouble in the line, the file transmission amount at that time is stored in the computer 1 on the source side, and the line disconnection recognition device 6 recognizes the line disconnection. The file transmission status grasping device 7 confirms the amount of file transmission completed by the time of the line disconnection, and when the line disconnection trouble is repaired, the line disconnection recognition device 6 confirms the repair and the file transmission status grasping device 7 The untransmitted file confirmed in (1) is transmitted to the computer 11 on the destination side.

[0007]

When a line trouble occurs and the line is disconnected, the file transmission amount at that time is stored in the computer 1 on the source side, and the line disconnection is recognized by the line disconnection recognition device 6 until the line is disconnected. The completed file transmission amount is confirmed by the file transmission status grasping device 7. When the line disconnection trouble is repaired, the repair is confirmed by the line disconnection recognition device 6, and the untransmitted file confirmed by the file transmission status grasping device 7 is transmitted to the destination side computer 11.

[0008]

1 is a block diagram showing the configuration of a network system adopting a file transmission system according to an embodiment of the present invention. In FIG. 1, components corresponding to those shown in FIG. 4 are designated by the same reference numerals, and their description will be omitted. In FIG. 1, reference numeral 5 is a network device including a line disconnection recognition device 6 and a file transmission status grasping device 7. The line disconnection recognizing device 6 recognizes disconnection of the network line (transmission medium 13). The file transmission status grasping device 7 always grasps the transmission situation such as the transmission amount of the file to be transmitted.

Next, the operation of this embodiment will be described with reference to FIGS. For example, when transmitting 3072 bytes of data in 3 segments of 1024 bytes,
The source-side computer 1 transmits 1024 bytes of data starting from Sequence Numbe (hereinafter abbreviated as SEQ) 1000 to the file transmission status grasping device 7 in the network device 15. The file transmission status grasping device 7 stores the SEQ 1000 transmitted first and then transmits the data transmitted from the source side computer 1 to the destination side computer 11. Next, the destination side computer 11 transmits an Acknowledgment Number (hereinafter abbreviated as ACK) 2024 (1000 + 1024) to the file transmission status grasping device 7. The file transmission status grasping device 7 stores the ACK 2024 and then transmits the ACK 2024 to the source computer 1. When the source computer 1 receives the ACK 2024, it sends a confirmation signal to the file transmission status grasping device 7
Then, the file transmission status grasping device 7 returns a transmission command signal to the source computer 1.

When the source computer 1 receives the transmission command, it transmits 1024 bytes of data starting from SEQ2024 to the file transmission status grasping device 7. The file transmission status grasping device 7 stores the SEQ2024 and then transmits the data transmitted from the source side computer 1 to the destination side computer 11.
Next, the destination side computer 11 sends an ACK 3048 (2020+) to the file transmission status grasping device 7.
1024) is transmitted. The file transmission status grasping device 7 stores the ACK 3048 and then transmits the ACK 3048 to the source computer 1. When the source computer 1 receives the ACK 3048, it transmits a confirmation signal to the file transmission status grasping device 7, and the file transmission situation grasping device 7 returns a transmission command to the source computer 1. When the source computer 1 receives the transmission command, it transmits 1024 bytes of data from SEQ 3048 to the file transmission status grasping device 7. The file transmission status grasping device 7 stores the SEQ 3048 and then transmits the data transmitted from the source side computer 1 to the destination side computer 11.

If a line trouble occurs and the line is disconnected, the line disconnection recognizing device 6 transmits a line disconnection notification signal to the source side computer 1, and the source side computer 1 sends all the transmission data and SEQ. Remember it temporarily. When the line disconnection is restored, the line disconnection recognizing device 6 transmits a line recovery contact signal to the source side computer 1, and the source side computer 1 receiving the signal transmits the stored SEQ (here, 3048) to 10
The 24-byte data is transmitted to the file transmission status grasping device 7. The file transmission status grasping device 7 is SEQ3048.
The data transmitted from the source-side computer 1 after storing the
Resend to. Next, the destination computer 11 sends an ACK4072 to the file transmission status grasping device 7.
(3048 + 1024) is transmitted. The file transmission status grasping device 7 stores the ACK 4072 and then sends the ACK 4072 to the source computer 1. When the source computer 1 receives the ACK4072, it transmits a confirmation signal to the file transmission status grasping device 7, and the file transmission situation grasping device 7 issues a transmission command to the source computer 1. The source computer 1 confirms that all the data has been transmitted, transmits an end flag starting from SEQ4072 to the file transmission status grasping device 7, and transmits it to the destination computer 11.
The destination computer 11 having received it transmits an end flag to the file transmission status grasping device 7, and the file transmission condition grasping device 7 returns the end flag to the source computer 1 to complete the data transmission.

[0012]

As described above, according to the present invention, when a trouble occurs in a line and the line is disconnected, the line disconnection recognizer recognizes the line disconnection, and the file transmission amount completed by the time the line is disconnected. When the line disconnection is repaired and the line disconnection is repaired, the line disconnection recognizer confirms the repair and the untransmitted file confirmed by the file transfer status comprehension device is transmitted to the destination computer. Therefore, if a line trouble occurs during file transmission and the line is disconnected, the untransmitted file can be automatically transmitted after the line trouble is repaired, and therefore file transmission after the line trouble is repaired without waste. As a result, the effect that the file transmission time can be shortened compared to the conventional case is obtained. That is, in the past, after the line disconnection was repaired, it was necessary to retransmit the files that have already been transmitted, but in the present invention, it is not necessary to retransmit files that have been transmitted, and only the untransmitted files are transmitted. As a result, the transmission of all files can be completed and the transmission time can be shortened.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a network system adopting a file transmission system according to an embodiment of the present invention.

FIG. 2 is a flow chart of file transmission of this embodiment.

FIG. 3 is a flowchart showing a continuation of FIG. 2;

FIG. 4 is a block diagram showing a configuration of a network system adopting a conventional file transmission method.

FIG. 5 is a flowchart of file transmission of this conventional example.

[Explanation of symbols]

 1 Source side computer 5 Network device 6 Line disconnection recognition device 7 File transmission status grasping device 11 Destination side computer 13 Transmission medium (line)

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location H04L 12/56

Claims (1)

[Claims] 1. A network device for performing file transmission between a plurality of computers connected by a network, and a line disconnection recognition device for recognizing disconnection of a network line and a transmission status such as a transmission amount of a file to be transmitted. If a line trouble occurs on the line and the line is disconnected, the file transmission amount at that time is stored in the computer on the source side, and the line disconnection recognition device recognizes the line disconnection. Check the file transmission amount completed by the time of line disconnection with the file transmission status grasping device, and when the line disconnection is repaired, confirm the repair by the line disconnection recognition device,
A file transmission method characterized in that an untransmitted file that has been confirmed by the file transmission status grasping device is transmitted to the destination computer.