JPH01129546A - Node device - Google Patents

Abstract

PURPOSE:To improve the transmission efficiency of the whole network by providing an address control table where the addresses of terminal devices included in its LAN are registered and sending received packets only to a LAN which includes the destination terminal devices of the received packets. CONSTITUTION:When the node device 500 receives a packet from a LAN 10, the transmission destination address SA of the received packet is registered newly unless the SA is registered in the address control table 802a, but when it is registered, it is found by retrieval whether the destination address DA1 of the received packet is registered in an AMT 802a or not; when not, the received packet is broadcast (together with an added broadcasting address DA2) to other all node devices 501-503 in a repeating LAD 60 and when not, the received packet is discarded. When the node devices 501-503 receive the packet from the repeating LAN 50 according to the broadcasting address DA2, the received packet is sent to its LAN on condition that the DA1 is registered in the AMT 802a, but if it is not registered, the received packet is discarded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is applicable to a plurality of local areas (LANs).
The present invention relates to a node device for relaying packets transmitted and received between networks.

2. Description of the Related Art Conventionally, this type of node device is used to configure a relay LAN in which a plurality of node devices are connected to respective LANs and relay packets between these LANs.

In this case, the node device that receives the packet from L'AN broadcasts it to all other node devices in the relay LAN, and the broadcasted node device has a function of transmitting the received packet to the LAN, It is configured such that packets from the sending terminal are transmitted to all LANs and thus arrive at the destination terminal.

Problems to be Solved by the Invention However, in the conventional node device described above, in order to unconditionally broadcast received packets to other LANs, all LANs
There is a problem that N becomes temporarily busy and the transmission efficiency of the entire network is poor.

In view of the above-mentioned problems, an object of the present invention is to provide a node device that can improve the transmission efficiency of the entire network by keeping only LA and N, which accommodate destination terminal devices of received packets, in a busy state. .

Means for Solving the Problems In order to solve the above problems, the present invention provides an address management table for registering the addresses of terminal devices accommodated in one's own LAN, and receives packets from one's own LAN. If the destination address of the received packet is registered in this address management table, the received packet is discarded. When a received packet is broadcast to a node device and the packet is received from the relay LAN, a search is made to see if the destination address of the received packet is registered in the address management table, and if it is not registered, this received packet is , and if it is registered, the received packet is sent to its own LAN.

Effect of the Invention With the above configuration, the present invention transmits received packets only to the LAN that accommodates the destination terminal device of the received packets, so only that LAN becomes busy, thus improving the transmission efficiency of the entire network. can do.

EXAMPLES Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a functional block diagram showing an embodiment 5...-7 of a node device according to the present invention, FIG. 2 is a schematic block diagram showing a network equipped with the node device of FIG. 1, and FIG. is a configuration diagram showing packets on the network of FIG. 2,
4 and 5 are flowcharts for explaining the operation of the node device in FIG. 1.

First, referring to FIG. 2, a network including a tote device according to an embodiment of the present invention will be described.
40 are LANs, LAN 1.0 accommodates terminal devices 100 and 101, and LAN 20
A terminal device 200.201 is accommodated in the terminal device 200.201, a terminal device 300.301 is accommodated in the LAN30, and the LAN 4
0 accommodates terminal devices 400 and 401, L
Each node device 501.502.503.504 is connected to A N 1.0.20.30.40, and the node device 501.502.503.504 is connected to LAN10.
．． Relay LA that relays packets between 20.30° and 40°
, N50.

The upper part of FIG. 3 shows a packet on LAN 10.20.30.40, which includes a destination address DA indicating the 6-7 address of the receiving terminal device, and an address of the transmitting terminal device. It consists of a source address SA indicating the address and data.

The lower part of FIG. 3 shows a packet on the relay LAN 50. This packet has a destination address DA2 indicating the destination node device added to the packet structure, and when the packet is to be broadcast to other node devices, this destination address is added. DA2 is sent as a broadcast address.

Returning to FIG. 1, each of the above node devices 501.502.50
The configuration of 3.504 will be explained.

In the upper part of FIG. 1, 801 is L A N 1.0
(2o.

30. Receives the packet from 40) and stores it in the memory 801a.
The storage means 802 reads the source address SA from the packet stored in the memory 801a, and stores the source address SA in the address management table (AMT) 8.
02a, and if not registered, registers the source address SA in the address management table (AMT) 802a.

Further, 803 is a means for reading out the destination address DA from the packet stored in the memo') 801a and searching whether or not it is registered in the address management table (AMT) 802a; If the destination address DA is registered in the address management table (AMT) 802a, the means for discarding the packet stored in the address management table (AMT) 802a is not registered in the address management table (AMT) 802a. In this case, the broadcast address DA2 is added to the packet stored in Memo') 801a and the packet is sent to the relay LAN 5.
This is a means for broadcasting to other node devices within 0.

In the lower part of FIG. 1, 806 receives a packet from another node device in the relay LAN 50 using the destination address DA2, stores it in the memory 806a, and determines the destination address DA of the terminal device from this received packet.

Read the address management table (AMT) 802a
Means 806 for searching whether or not the destination address DA is registered in the address management table (AMT) 802 a is stored in the memo') 806 a. Means for transmitting the packet to the LAN10 (20, side, 40), 807
The destination address DA is the address management table (AM
T) If it is not registered in 802a, Memo 'J80
This is means for discarding the packet stored in 6a.

Next, the operation of the embodiment according to the above configuration will be explained with reference to FIGS. 4 and 5.

In FIG. 4, for example, the node device 500 is connected to the LAN10
Upon receiving a packet from , in step 41,
Take note of the received packet! Stored in J801a, memory 80
The source address SA of the received packet is read from 1a, and the source address SA is stored in the address management table (AMT
) 802a.

If the source address SA of the received packet is not registered in the address management table (AMT) 802a, the process advances from step 42 to step 43, and the source address SA of the received packet is registered in the address management table (AMT) 802a.
A is newly registered and the process proceeds to step 44. If the source address SA of the received packet is registered in the response management table (AMT) 802a, the process directly proceeds from step 42 to step 44.

In step 44, the destination address DA of the received packet is read from the memo 1J801a, and the destination address DA,
is registered in the address management table (A, MT) 802a.

If the destination address DA of the received packet is not registered in the address management table (AMT) 802a,
Proceeding from step 45 to step 46, the relay LAN 50
501.502.503 to all other node devices 501, 502, and 503 in the network, add broadcast address 1/s DA2),
If registered, step 45 to step 47
Branch to and discard the received packet.

That is, if the destination terminal device is accommodated in L A N 10, the received packet is discarded and the relay L
Do not send within AN50.

Next, referring to FIG. 5, the node device 501.502.5
A case will be explained in which case 03 receives this packet.

To 10-7 When a packet is received from the relay LAN 50 using the broadcast address DA2, in step 51, the received packet is stored in the memory 806a, the destination address DA of the received packet is read, and the destination address DA+ is stored in the address management table (AMT). 802a is registered.

If the destination address DA of the received packet is registered in the address management table (AMT) 802a, the process advances from step 52 to step 53 and the received packet is sent to its own LAN. Step 52 branches to step 54 and the received packet is discarded.

That is, when a packet is received from the relay LAN 50, the node device of the LAN where the destination terminal device is accommodated transmits the received packet to its own LAN, and the node device of the LAN where the destination terminal device is not accommodated. The node device discards the received packet and does not send it to its own LAN.

Therefore, according to the above embodiment, received packets from the LAN are transmitted to each node 11 node device via the relay LAN 50, but are not transmitted to the LAN where the destination terminal device is not accommodated. Only the L'A N that accommodates the destination terminal device of the packet becomes busy, and therefore the transmission efficiency of the entire network can be improved.

As described in detail, the present invention provides an address management table for registering the addresses of terminal devices accommodated in its own L'A and N, and when a packet is received from its own LAN, It searches to see if the destination address of the received packet is registered in this address management table, and if it is registered, it discards this received packet, and if it is not registered, it is sent to another 7-address that makes up the relay LAN. When a received packet is broadcast to the device and the packet is received from the relay LAN, it is searched to see if the destination address of the received packet is registered in the address management table, and if it is not registered, the received packet is Since the received packet is discarded and sent to its own I/AN if it is registered, the received packet is sent only to the LAN where the destination terminal device of the received packet is accommodated, and therefore the transmission of the entire network is reduced. Efficiency can be improved.

[Brief explanation of the drawing]

FIG. 1 is a functional block diagram showing an embodiment of a node device according to the present invention, FIG. 2 is a schematic block diagram showing a network equipped with the node device of FIG. 1, and FIG. FIGS. 4 and 5 are flowcharts for explaining the operation of the node device shown in FIG. 1. FIGS. 10.20.30,40...LAN (local area network), 50...Relay LAN, 100.1
01.200.201.300.301.400.40
1... Terminal device, 501-503... Node device,
801... LAN side packet receiving means, 802...
Source address registration means, 802a... LAN side memory, 803... Destination address search means, 803a...
・Address management table (AMT), 804...LA
N side received packet discarding means, 805...Packet broadcasting means, 13...806...Relay LAN side packet receiving/destination address search means, 807...Packet transmitting means, 808...
- Means for discarding received packets on the relay LAN side. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 3
Figure LAN 2nd Pake/To City 4KL, 4aφPake, 7th Figure 4 Figure 5 Flashing Polar Sea Urchin: 8 ShiA Has/6 Ko N- Shiha Gengen Zheng O.

Claims (2)

[Claims] (1) a first receiving means for receiving packets from a LAN, an address management table for registering addresses of terminal devices accommodated in the LAN connected to the first receiving means, and the first receiving means; The destination address of the received packet is searched by means to see if it is registered in the address management table, and if it is registered, the received packet is discarded, and if it is not registered, it is sent to the relay LAN.
a means for broadcasting received packets to other node devices constituting the relay LAN; a second receiving means for receiving packets from the relay LAN; and a destination address of the packet received by the second receiving means is stored in the address management table. means for searching whether the received packet is registered in the first receiving means, discarding the received packet if the received packet is not registered, and transmitting the received packet to a LAN connected to the first receiving means if the received packet is registered. Node device with. (2) Search whether the source address of the packet received by the first receiving means is registered in the address management table, and if not registered, register the source address in the address management table. 2. The node device according to claim 1, further comprising means for: