JPH0730560A - Lan terminal equipment - Google Patents

Abstract

PURPOSE:To attain valid communication by allocating automatically a network address to an address non-allocated terminal equipment without excess load exerted to an independent terminal equipment, thereby unnecessitating an address server and not using a broadcast for the communication. CONSTITUTION:A transmission section 11 of a terminal equipment 1 selects one tentative address based on a random number and sends a confirmation frame to confirm it that the tentative address is not used by other terminal equipment. Then terminal equipments 2, 3 do not receive the confirmation frame when the address of them is not coincident with the tentative address. However, when the address of any of the terminal equipments 2, 3,... is coincident, the terminal equipment whose address is coincident receives the confirmation frame and sends a reject frame. Thus, the sender and the destination addresses are the same as each other. When the terminal equipment 1 receives a reject frame from any terminal equipment, other tentative address is selected based on a random number again and a non-use address not receiving any reject frame anywhere is obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a LAN terminal having a function of automatically setting its own address when connected to a LAN (local area network).

[0002]

2. Description of the Related Art (First conventional example) As a method of automatically setting a network address of a terminal connected to a LAN, there is a method of using a device called an address server that manages the address of the terminal. In this method, a terminal that needs to set an address first issues an address setting request notification to the address server. Then, the address server that detects the notification selects one unused address and sends it back. By the way, in order to perform the above notification and reply, the address of the destination is required, but even if an address setting request notification is issued to the address server,
The address of the address server is unknown to the terminal requesting the address setting. Further, even if the address server tries to return an unused address, the address is not yet set in the terminal requesting the setting of the address. Therefore, communication is performed using an address called a broadcast address that all terminals receive. That is, the terminal that needs to set the address is
First, an address setting request notification is sent to the address server by broadcasting. On the other hand, the address server selects one unused address and sends it back to the terminal requesting the setting of the address by broadcasting.

(Second Conventional Example) On the other hand, there is also a method of automatically setting a network address without using an address server. In this method, a terminal that needs to set an address first inquires of all terminals on the LAN about the currently used address by broadcasting. In response to the inquiry, each terminal replies by broadcasting its own address. As a result, the terminal that needs to set the above-mentioned address knows the used address in the LAN, and conversely can also know the unused address. One of the unused addresses is selected as the own address. In the conventional LAN terminal, the address is automatically set in this way.

Prior art documents relating to such a LAN terminal are, for example, Japanese Patent Application Laid-Open No. 2-222336, Japanese Patent Application Laid-Open No. 3-204066, and TTC standard JT.
-Q921 specifications, JP-A-1-309541 and the like.

[0005]

However, the above-mentioned first conventional example requires a special device such as an address server, which raises a problem that the cost increases accordingly. Also, because communication is performed by broadcasting, address setting request notifications from terminals that need to set addresses, and replies from address servers
Since all terminals on the LAN receive the data, there is a problem that an extra load is applied to the terminals unrelated to the address setting. Further, in the second conventional example described above, an address server is not required, but since all terminals having an address respond to the inquiry by broadcasting their addresses at once, the LAN
There is a problem in that the medium may become congested and communication may not be performed smoothly. Further, similarly to the first conventional example, there is a problem that an extra load is applied to a terminal irrelevant to the address setting. An object of the present invention is to solve such a problem.

[0006]

In order to solve the above problems, in a LAN terminal of the present invention, when connected to a LAN, a confirmation frame is transmitted with a provisionally selected address as a destination and a source address, and then When a refusal frame indicating that the temporary address has been used is sent to the temporary address, the same confirmation frame as the confirmation frame transmitting unit that reselects the temporary address and transmits the confirmation frame again. If the refusal frame is not sent even after sending the specified number of times or more, the address setting means for setting the temporary address at that time as its own address and the confirmation that the address is set as the temporary address after setting its own address When a frame is received, a reject frame that sends a reject frame with the temporary address as the destination address. It was that it comprises a transmission unit.

[0007]

[Operation] An address-unset terminal first selects a provisional address as appropriate, and sends a confirmation frame for confirming whether or not the address is currently in use with the provisional address as the destination. If a terminal whose address matches the tentative address is present on the LAN, a reject frame is sent back from the terminal, but if there is no terminal whose address matches the LAN, the reject frame is not sent. Therefore, the address-unset terminal determines that the provisional address is an unused address because the refusal frame is not sent, and sets the provisional address as its own address. Therefore, an address server is not required to automatically set the network address, and the cost can be reduced accordingly. Moreover, since broadcast is not used for communication, there is no fear that the LAN medium will be in a congested state. No extra load is applied to terminals on the LAN that are unrelated to address setting.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 2 is a block diagram showing an outline of a LAN to which the present invention is applied. In FIG. 2, 1-3 are terminals,
4 is a LAN medium. As shown in FIG. 2, the LAN medium 4 is connected to a plurality of terminals 1, 2, 3, ... Such as various servers and workstations. Among them, the network addresses have already been set to the terminals 2 and 3, but the terminal 1 has just been connected to the LAN medium 4,
It is assumed that the network address has not been set yet.

FIG. 1 is a block diagram showing a portion mainly related to address setting of a terminal connected to a LAN. Reference numerals correspond to those in FIG. 2, and 10 is a control unit and 11
Is a transmitting unit, 12 is a receiving unit, 13 is a timer, 14 is a counter, 15 is a memory, and 16 is a communication control unit. The transmission unit 11 of the terminal 1 selects one provisional address based on the random number and confirms that this provisional address is not used by another terminal. Therefore, the confirmation frame as shown in FIG. Is sent. In the confirmation frame, the temporary address is set as the address of the transmission destination and the transmission source, and ID ₁ indicating that the frame is the confirmation frame is set as the protocol identifier.

When the confirmation frame is transmitted from the terminal 1, the terminals 2, 3, ... Do not receive the confirmation frame if their own address does not match the temporary address. However, if any of the terminals 2, 3, ... Matches with the provisional address, the matching terminal receives the confirmation frame, and then
The rejection frame as shown in (b) is transmitted. In the reject frame, the temporary address is set as the destination address, and the own address is set as the source address. However, since the own address is the same as the temporary address, the destination and the source The addresses are the same. Further, as the protocol identifier, ID ₂ indicating that the frame is a reject frame is set.

When the terminal 1 receives the refusal frame from any one of the terminals, it again selects another temporary address based on the random number, and an address from which the refusal frame is not sent from any terminal, that is, an unused address. The above process is repeated until the address is found.

The operation of the present invention will be described in detail below with reference to the flow chart. FIG. 4 is a flowchart showing a processing procedure in an address-unset terminal connected to the LAN. Step 1 ... The transmitter 11 (see FIG. 1) resets the count value C of the counter 14 (see FIG. 1) that counts the number of times the confirmation frame is transmitted. Step 2: Select the temporary address A based on the random number. Step 3 ... Transmits a confirmation frame in which the temporary address A is set in the transmission destination and the transmission source as shown in FIG. Step 4 ... Starts a timer 13 (see FIG. 1) for measuring whether or not a predetermined time has elapsed after transmitting the confirmation frame.

Step 5 ... The receiving unit 12 waits for the lapse of the predetermined time or for reception of a refusal frame from any terminal. Step 6 ... It is determined which of the lapse of the predetermined time and the reception of the refusal frame occurs first. If the reject frame is received before the predetermined time has elapsed, the process returns to step 1 and starts over. Step 7 ... When a predetermined time elapses without receiving the refusal frame, the count value C of the counter 14 is incremented. Step 8 ... It is determined whether or not the count value C of the counter 14 exceeds a predetermined value K. Step 9 ... If the predetermined value K is exceeded, the provisional address A
A terminal having the same address as is determined not to exist on the LAN, and the temporary address A is set as its own address.

FIG. 5 is a flow chart showing the processing procedure in the address-established terminal. Step 1 ... Receive data. Step 2 ... Determines whether the received data is a confirmation frame. Step 3 ... If the frame is a confirmation frame, a refusal frame as shown in FIG. Step 4 ... If it is not the confirmation frame in Step 2, normal reception processing is executed.

[0015]

As described above, according to the LAN terminal of the present invention, when the network address is automatically set,
Since the address server is not required, the cost can be reduced accordingly, and since the broadcast is not used for communication, there is no risk of the LAN medium becoming congested, and there is no need for terminals on the LAN that are unrelated to address settings. There is no load.

[Brief description of drawings]

FIG. 1 is a block diagram showing a part mainly related to address setting of a terminal connected to a LAN.

FIG. 2 is a block diagram showing an outline of a LAN to which the present invention is applied.

FIG. 3 is a diagram showing a frame format used in the present invention.

FIG. 4 is a flowchart showing a processing procedure in an address-unset terminal connected to a LAN.

FIG. 5 is a flowchart showing a processing procedure in an address-set terminal.

[Explanation of symbols]

1 to 3 ... Terminal, 4 ... LAN medium, 10 ... Control unit, 11 ...
Transmission unit, 12 ... Reception unit, 13 ... Timer, 14 ... Counter, 15 ... Memory, 16 ... Communication control unit

Claims (1)

[Claims] 1. When connected to a LAN, a confirmation frame is transmitted by using an appropriately selected provisional address as a destination and a source address, and then a refusal frame indicating that the provisional address is already used is said provisional address. If it is sent to the destination, the confirmation frame transmitting means for re-selecting the temporary address and transmitting the confirmation frame again, and the case where the refusal frame is not sent even if the same confirmation frame is transmitted a predetermined number of times or more. , And an address setting means for setting the temporary address at that time as its own address, and a rejection frame with the temporary address as a destination address when a confirmation frame is received after setting the own address as the temporary address. A LAN terminal comprising: a refusal frame transmitting means for transmitting.