JPH0360239A - Bridge device - Google Patents

Abstract

PURPOSE:To execute retrieving process in a short time by changing the order of routing information so that the routing information used before comes to the end when received frame data is transmitted. CONSTITUTION:An input control part 10, a DA (transmission destination address), SA (transmission origin address), RC (routing information) information holding part 11, a first routing information holding part 12, a second routing information holding part 13, a third routing information holding part 14, a transmission data holding part 15, a control part 16, a selector 17, and an output control part 18 are provided. Then, when the received frame data is transmitted, the order of the routing information changed so that the routing information used before comes to the end. Accordingly, the retrieving processing can be executed by only comparing the head routing information among plural pieces of the routing information with the peculiar routing information assigned previously to its own bridge device. Thus, the retrieving process can be executed in a short time.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a bridge device, and particularly to a bridge device that connects networks.

(Prior Art) Generally, frame data as shown in FIG. 4 is used in a bridge device that connects networks using a source routing algorithm.

In the frame data shown in FIG. 4, DA is destination address information, SA is source address information, RC is routing control information indicating the length of routing information, etc., and 5NI-SN3 are ring numbers (RNI,
RN2, RN3) and bridge numbers (BNI, BN
2, BN3), and IN
FO is text information. Routing information 5NI-
5N3 indicates a frame data transmission route, and in Fig. Φ, from ring RN1 to bridge BN1, ring RN2,
A case is shown in which frame data is transmitted to ring RN3 via bridge BN2 and bridge BN2.

Therefore, when each bridge device receives frame data in this format, it searches for the ring number and bridge number of all the routing information SNI to SN3 in the frame data, and searches for the manual ring number, bridge number, and output bridge number. The frame data is passed only if it matches that unique to that bridge device. A specific example of the operation of such a bridge device will be explained with reference to FIG.

In FIG. 5, 1-1 and L-2 are stations,
2-1, 2-2, 2-3 are ring type LAN, 3-
1 and 3-2 are bridge devices. Now, consider the case where the frame data of FIG. 4 is transferred from the station 1-1 having the individual address "X" to the station 1-2 having the individual address "Y". The destination address DA becomes "Y" and the source address SA becomes "X".

The frame data is station (-1 to LAN2-1)
When the frame data is transmitted, the bridge device 3-1 receives the frame data and searches for routing information in the frame data. Then, if it is confirmed that the input ring number RNI of the routing information SNI, the bridge number BN1, and the output ring number RN2 of the routing information SN2 correspond to the bridge device 3-1, the frame data is transferred to the bridge device 3-1. is transferred to LAN 2-2 with ring number RN2.

Next, similar routing information search processing is executed in the bridge device 3-2 as well. Through this search process, the input ring number RN2 of the routing information SN2 is
, the bridge number BN2, and the output ring number RN3 of the routing information SN3 respectively correspond to the bridge device 3-2, the frame data is sent to the L of the ring number RN3 by the bridge device 3-2.
Transferred to AN 2-3. And L A N
Destination address D of frame data transferred to 2-3
Station 1-2 recognizes that A is 'Y' and receives the frame data.

In this way, when a conventional bridge device receives frame data, it searches all the routing information in the frame data to find the routing information that matches the unique information assigned to the bridge device itself. It is carried out. Therefore, a lot of time is spent on search processing by the bridge device. Therefore, conventionally,
There is a drawback that data transfer efficiency between networks is reduced due to the time required for search processing by the bridge device.

(Problems to be Solved by the Invention) Conventionally, there has been a drawback that data transfer efficiency between networks is reduced due to the time required for search processing by a bridge device.

The present invention has been made in view of these points, and an object of the present invention is to provide a bridge device that can execute search processing in a short time so as to improve the efficiency of data transfer between networks.

[Structure of the Invention] (Means for Solving the Problems) The present invention provides a bridge device that connects networks by combining the first route information among a plurality of pieces of route information included in frame data received from the network and the own bridge. a comparing means for comparing the unique route information assigned to the device; and a comparing means for comparing the unique route information assigned to the device; The present invention is characterized by comprising a transmission control means for transmitting the frame data to a network specified by the route information while changing the order of a plurality of pieces of route information in the frame data.

(Function) In this bridge device, when transmitting received frame data, the order of the route information is changed so that the route information that has already been used becomes the last one. Therefore, the first route information is always the route information corresponding to that bridge device, so the bridge device can distinguish between the first route information among multiple route information and the unique route information assigned to its own bridge device. Search processing can be performed simply by comparing. Therefore, the search process in the bridge device can be executed in a short time, thereby improving the efficiency of data transfer between networks.

(Example) Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 shows the configuration of a bridge device according to an embodiment of the present invention. Here, only a configuration that supports unidirectional data transfer is shown.

This bridge device includes an input control section 10 and a DA.

SA, RCC information holding section 11 first routing information holding section 12. Second routing information holding unit 13. It includes a third routing information holding section 14, a transmission data holding section 15, a control section 16, a selector 17, and an output control section 18.

The human control unit 10 is for receiving frame data from the LAN to which this bridge device is connected, and the frame data received by the human control unit 10 is
DA, SA, RCC information holding unit 11 first routing information holding unit 12. Second routing information holding unit 13. Third
The information is supplied to the routing information holding section 14 and the transmission data holding section 15, respectively.

DA, SA, and RCC information holding section 11 holds destination address information DA, source address information SA, and routing control information RC of the frame data supplied from the input control section 10. First routing information holding unit 1
2 holds the routing information at the beginning of the frame data supplied from the human control unit IO. The second routing information holding unit 13 holds the second routing information of the frame data supplied from the input control unit 10.

The third routing information holding unit 14 holds the third and subsequent routing information of the frame data supplied from the input control unit 10. The transmission data holding unit 15 holds the transmission data information INFO of the frame data supplied from the human control unit IO.

DA, SA, RCC information holding unit 11 first routing information holding unit 12. The second routing information holding unit 13, the third
The information held by the routing information holding unit 14 and the transmission data holding unit 15 is supplied to the selector 17. In addition, DA, SA, RC information holding section II,
The information held in the routing information holding unit 12° and the second routing information holding unit 13 is stored in the control unit (
6 is also supplied.

The control unit 16 refers to the first routing information and the second routing information held in the first routing information holding unit 12° and the second routing information holding unit i3, respectively, and determines the input ring number, bridge number,
Then, it detects whether the output bridge number matches the input ring number, bridge number, and output bridge number assigned to this bridge device, and stores the frame data in the output control unit t8 only when they match. The selector 17 is controlled accordingly.

Under the control of the control unit 16, the selector 17 selects DA,
SA, RCC information holding section 11 first routing information holding section 12. The second routing information holding unit 13 selectively supplies the information held in the third routing information holding unit 14 and the transmission data holding unit 15 to the output control unit 18. That is, the selector 17 selects DA, SA, and RC so that the first routing information stored in the first routing information holding unit 12 becomes the last routing information.
C information holding section 11 Second routing information holding section 13. The third routing information holding section 14, the first routing information holding section 12, and the transmission data holding section 15 supply information to the output control section 18 in this order.

The output control unit 18 sends the frame data in which the order of the routing information has been changed to the LA corresponding to the output ring number.
Send to N.

FIG. 2 shows an example of received frame data and transmitted frame data in the bridge device configured as described above. Figure 2 (A) shows received frame data,
When this frame data 2o is received by the bridge device, the order of the routing information in the frame data 20 is changed, and transmission frame data 21 as shown in FIG. 2(B) is transmitted. In this way, the order of the routing information is changed so that the first routing information SNI becomes the last routing information.

FIG. 3 shows the contents of frame data when the bridge devices shown in FIG. 1 are used as the bridge devices 3-1 and 3-2 of the network system shown in FIG.

Frame data 31 shown in FIG. 3(A) is frame data transmitted from station 1-1 to LAN 2-1, and this frame data 31 is received by bridge device 2-1. . Then, the frame data 32 shown in FIG. 3(B) is transmitted from the bridge device 2-1 to the LAN 2-2. Frame data 32 is received by bridge device 3-2, and frame data 33 shown in FIG. 3(C) is transmitted from bridge device 3-2 to LAN 2-3.

In this way, in the bridge device of the present invention, when transmitting received frame data, the order of the routing information is changed so that the routing information that has already been used becomes the last one, so the first routing information is always the next one. The routing information corresponds to the bridge device. Therefore, each bridge device can perform a search process simply by comparing the first routing information among the plural pieces of routing information and the unique routing information assigned to the bridge device itself. Therefore, the search process in the bridge device can be executed in a short time.
This makes it possible to improve the efficiency of data transfer between networks.

Here, we have explained the case where the manual ring number, bridge number, and output ring number of received frame data are compared with the input ring number, bridge number, and output ring number unique to the own bridge, respectively.
Of course, if the ring connected to the bridge device is fixed, it is not necessary to compare the output bridge numbers.

[Effects of the Invention] As described above, according to the present invention, it is possible to provide a bridge device that can execute search processing in a short time, thereby making it possible to improve the efficiency of data transfer between networks.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a bridge device according to an embodiment of the present invention, and FIGS. 2 and 3 are diagrams showing the contents of received frame data and transmitted frame data in the bridge device shown in FIG. 1, respectively. FIG. 4 is a diagram showing the contents of conventional frame data, and FIG. 5 is a diagram showing a network system to which the conventional bridge device is applied. IO...Manual control unit, 11...DA, SA, RC information holding unit, 12...First routing information holding unit, 1
3...Second routing information holding unit, 14...Third
Routing information holding unit, 15... transmission information holding unit,
16... Control unit, 17... Selector, 18... Output control unit.

Claims (1)

[Claims] In a bridge device that connects networks, the first route information among a plurality of pieces of route information included in frame data received from the network and the unique route information assigned to the own bridge device. a comparison means for comparing, and a plurality of route information in the frame data so that when a match of route information is detected by the comparison means, the first route information becomes the final route information of the plurality of route information; A bridge device comprising: transmission control means for transmitting the frame data to a network designated by the route information in a state where the order is changed.