JPH0295046A - Information repeating closing system - Google Patents

Abstract

PURPOSE:To prevent the interruption of the processing and the locking of a repeating processing function by executing the instruction to control the repeating with a closing instructing part to receive the detection information to show that a buffer for repeating becomes a limited value or above. CONSTITUTION:An information frame fetched from a network A is stored into a buffer 110 for repeating in a repeating control part 11. At a monitoring part 12, the use ratio of the buffer 110 is always monitored, the information concerning the use ratio is informed to a comparing part 13, the comparing part 13 compares the use ratio of the buffer 110 set beforehand and the report contents, and when the informed result of the monitoring part 12 is the specified value or above set to the comparing part 13, the detection information is informed to a closing instructing part 14. The closing instructing part 14 instructs to limit the repeating of the information frame from a network A to a network B. Thus, the processing is not interrupted, and the repeating processing function is not locked.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention provides an information frame relay device that relays information frames from one transmission system to another without disabling the operation of the device. Concerning a highly efficient information relay blocking method.

[Conventional technology]

FIG. 3 shows a schematic diagram of a conventional information frame relay device, in which 1 is network A, 2 is network B, 3 is information frame relay device, and 4 is network 1-network A.
Node A (MAC address a), 5 is network 1
- Node B (MAC address b) belonging to work B. Information frame relay device 3 is relay buffer (A) 3
1. It consists of a relay control section 32 and a relay buffer (+3) 33.

FIG. 4 shows an example of the format 1 of the information frame, and 41 is the frame control field 1 (hereinafter referred to as F).
42 is the destination MAC 71-res (hereinafter abbreviated as DA), 43 is the source MAC 71-res ((hereinafter abbreviated as SA)), 44 is the information field (hereinafter abbreviated as INFO)
, 45 are additional fields.

- When transferring an information frame from node 4 in network A to node 1 < 5 in network B, or in the opposite direction, the transfer of the information frame is an information frame relay. This is done via device 3. The relay control unit 32 of the information frame relay device 3 has an internal MAC address table that is used to check with the destination MAC address in the information frame to determine whether or not to relay the information frame. For the sake of simplicity, the operation of the information frame relay device 3 will be described below by using the MAC address table as the entire MAC address table connected to networks 1 and B.

First, a case will be described in which an information frame is transferred from nodes 1 to A belonging to network 1 to work A to node B belonging to network B.

The information frame ejected from Node B takes the form in FIG. 4 in which b is inserted in DA42 and a is inserted in SA43 in order to be transferred to node B. This information frame passes through the network 1 to work A, and is copied to the relay buffer (A) 3]- in the information frame relay device 3,
After that, the frame is transferred to the relay control unit 32 in the relay device.
sent to.

Here, the M, AC address table in the relay control unit 32 is compared with the DA in the frame, and if they match, the frame is relayed to network B, and if they do not match, the frame is discarded. In this case, since b, which is the DA of the information frame, matches the M and AC address full, the frame is relayed to the network 1-work Bj through the relay buffer (B) 33.

Conversely, consider the case where information frame 11 is transferred from network 1 to node A in work B from network 1 to node A in work B. 2. Let SA and DA of the information frame ejected from node B be a. In the same way as above 4,
The frame is copied from the network 1 to the work B to the relay buffer (B) 33 in the information frame relay device 3 and sent to the relay control unit 32.

The relay control unit 32 compares the DA and the MAC address table, and if they match, the frame is discarded, and if they do not match, the frame is relayed to network A.

[Problem to be solved by the invention]

2. The relay mechanism of conventional information frame relay equipment does not have any problems in low to rough times when there are few terminals connected to the transmission path, but as the number of terminals increases and the amount of information frames flowing through the transmission path increases. When the amount of information relay frames in the relay buffer increases, the relay control unit's ability to compare the DA of the information relay frame with the MAC address table reaches its limit and the process is interrupted, and the relay processing function is locked or the relay The buffer reaches its limit and it becomes impossible to receive data. Although it is possible to increase the size of the relay buffer to some extent, unless the comparison processing capacity is improved accordingly, the transmission delay of the information relay frame in the information frame relay device will increase rapidly, and the communication efficiency will decrease. It is a problem not only in terms of conversion and stabilization, but also in terms of cost.

In order to solve the above problem, a method of prioritizing information frames is sometimes used, but this requires a new process to search all relay information frames and determine the priority. Rather, it takes time, and unless the processing capacity is higher than that of the conventional method, when the amount of information frames increases, there will be a delay in the relay time of information frames from one transmission system to another. However, it becomes impossible to complete the relay within a certain communication time.

An object of the present invention is to provide an information frame relay device placed at a connection point of two or more transmission systems, in which information relay frames in a relay buffer in the information frame relay device increase as the number of terminals connected to a transmission path increases. Even when the number of information frames increases, the number of information frames or the priority The object of the present invention is to easily provide and construct a network system that can maintain a predetermined performance according to specifications.

[Failure to solve the problem]

In order to achieve the second object, the information frame relay device of the present invention has a relay buffer, means for relaying information frames from one transmission system to another transmission system, and a means for relaying information frames from one transmission system to another transmission system, and a method for controlling the usage rate of the relay buffer. means for monitoring, and means for detecting whether the usage rate is less than a preset specified value;
The method is characterized by comprising means for restricting relaying of information frames based on the detection information. In addition, if necessary, a priority flag bit is added to the information frame to identify the information frame, or a relay address table is provided.
and means for identifying the information frame by comparing it with responses from 71 to 71 of the information frame, and restricting the relay of the information frame based on the identification information when the usage rate of the relay buffer exceeds a specified value. Features.

[For production]

Information frames are stored in a relay buffer, and the usage rate of this relay buffer is constantly monitored, and when the usage rate exceeds a specified value, an instruction is given to the relay control unit to restrict relaying of information frames. Upon receiving this instruction, the relay control unit restricts relaying by discarding the information frame captured in the relay buffer. Then, when the usage rate in the relay buffer becomes less than the specified value, the restriction on relaying the information frame is lifted. As a result, when the number of information relay frames in the relay buffer in the information frame relay device increases due to an increase in the number of terminals connected to the transmission path, the relay control unit can compare the DA of the information relay frame with the MAC address table. This prevents the relay processing function from being locked due to interruption of processing due to processing capacity reaching its limit.

〔Example〕

Hereinafter, one embodiment of the present invention will be explained with reference to the drawings = 8 I will clarify.

FIG. 1 is a configuration diagram of an embodiment of the present invention, in which 1 is a network 1-work A, 2 is a network B, and 3 is an information frame relay device. It consists of a section 12, a comparison section 13, and a closure instruction section 14. The relay control unit 11 in the information frame relay device 3 has a relay buffer i l O.

In the following, a case will be described in which the relay of information frames from network A to network B is blocked.

The information frame fetched from network A is first stored in relay buffer 110 in relay control section 11 . The monitor unit 12 constantly monitors the usage rate of the relay buffer 110 and notifies the comparison unit 13 of information regarding the usage rate as regular data or a continuous signal. The comparison unit 13 that has received the notification compares the usage rate of the relay buffer 110 set in advance with the report content, and if the notification result of the monitor unit 12 is less than the specified value set in the comparison unit 13. notifies the blockage instruction unit 14 of the detection information. The blockage instructing unit 14 that has received the detection information sends the network 1- to the relay control unit 1 based on the detection information from the comparison unit 3.
Instructs to restrict relaying of information frames from work A to network 1-work B.

Relay control unit 11 receives the above instruction from blockage instruction unit 14
Now, in order to limit the relay of information frames from network A, network A in the relay buffer 110 is
The - part of the information frame taken in is discarded, that is, relaying is restricted. In this case, as a method of limiting information frame relay, the information frames stored in the relay buffer 110 within a predetermined time may be simply thinned out, or the information frames may be relayed from network A to screw 1 to work B. For example, a group of destination addresses may be defined and controlled, or information frames for new communication requests may be restricted depending on the content of the information frame.

The above-described relay restriction, that is, the relay blockage in the present invention, is determined by the relay buffer 110 as a result of detection by the monitor unit 12.
This is continued until the comparing unit 13 determines that the usage rate within is below the specified value. Upon receiving the determination from the comparison unit 13 that the usage rate in the relay buffer 110 has fallen below the specified value, the blockage instruction unit 14 sends an information frame to the relay control unit 11 from the network 1 to work A to the network 1 to work B. Instructs to lift the restriction on relaying, thereby continuing normal relaying from now on.

The following explanation is for the case where the relay of information frames from network A to network B is blocked, but the operation is exactly the same when the relay from network B to network 1 to work A is blocked. Therefore, the explanation of its operation will be omitted.

Furthermore, regarding the use of the relay buffer, we have explained that storing an information frame from network A to network B and storing it in the opposite direction are equivalent; When it is determined that the usage rate has exceeded the specified value, the usage rate of the relay buffer that relays in the reverse direction is investigated, and the usage rate of the reverse relay buffer is compared to that of the relay buffer whose usage rate is above the specified value. If the amount is low, instruct the relay control unit 11 with configuration change information regarding the relay buffer usage rate for each relay direction, change the usable relay buffer amount itself, and avoid relay restrictions as much as possible. If the problem cannot be solved even after doing so, it is also possible to perform the relay blocking operation described above.

According to the embodiment shown in FIG. 1, when the number of information relay frames in the relay bumper 110 in the information frame relay device 3 increases due to an increase in the number of terminals connected within the transmission path, the information relay in the relay control unit 11 increases. Comparison of frame DA and MAC address table Providing and constructing an efficient and stable network system for relay functions without interrupting processing and locking relay processing functions due to processing capacity reaching its limit. It is possible.

FIG. 2 is a configuration diagram of another embodiment of the present invention, where l is a network A, 2 is a screw 1-work B, 3 is an information frame relay device, and the relay device 3 is a relay control unit 11, It consists of a monitor section 12, a comparison section 13, and a closure instruction section 14.

The relay control unit 11 in the information frame relay device 3 has a relay buffer 110 and an information reading unit 111.

In this embodiment, the process is similar to that shown in FIG. 1 until the blockage instructing unit 14, which receives the detection information indicating that the relay buffer 110 has exceeded the specified value, instructs the relay control unit 11 to control the relay. Therefore, the explanation of the operation up to that point will be omitted, and the operation of the relay control unit 11 that received the instruction will be explained. Here, the explanation will be given on the premise that the relay priority is added to the information frame. Possible methods for adding priority include: (1) adding a flag bit indicating the priority to the frame; and (2) having an address table for relaying within the device.

Since the case of (2) is the same as the case of using the address group described in the embodiment of FIG. 1, the following explanation will be based on the method of (2).

When the usage rate of the relay buffer 110 exceeds the specified value, the relay control unit 11 receiving the relay block instruction first stores the information frame fetched from network A in the relay buffer 110 in the relay control unit. At the same time,
The information reading unit 111 identifies the flag bit representing the priority of the information frame, and if the flag bit is 1-1, the frame is relayed to network B, and if the flag bit is O, the information frame is discarded. When the comparator 13 determines that the usage rate in the relay buffer is below the specified value as a result of the detection by the monitor 12, the subsequent operations are the same as those shown in FIG.

According to the embodiment shown in FIG. 2, by prioritizing the information frames, even if the number of information relay frames increases due to the increase in the number of terminals connected within the transmission path, the DA and MAC address table of the information relay frames can be maintained. Comparison with Processing capacity reaches its limit, processing is not interrupted, and the relay processing function is not locked. Therefore, the delay in the relay time of information frames from one transmission system to the other transmission system is minimized, and the equipment cost increases. It is possible to provide and construct a network system that completes relaying within a certain communication time rta without incurring delays and that relays important information frames preferentially.

[Explanation of effects]

As explained above, according to the present invention, in an information relay node device placed at a connection point of two or more transmission systems,
means for relaying information frames from one transmission system to another transmission system; means for monitoring a usage rate of a relay buffer provided in said means; means for detecting whether the
, to identify the information frame relay device, or have a relay address table in the device and identify the information frame by comparing it with the MAC address of the information frame, and relay the information frame based on the identification information. The following effects can be achieved by providing a means for restricting.

(1) When the number of information relay frames in the relay buffer in the information frame relay device increases due to the increase in the number of terminals connected to the transmission path, the processing capacity for comparing the DA of the information relay frame with the MAC address table is at its limit. It is possible to provide and construct a secure network system for the relay function without interrupting the process and locking the relay processing function when the relay function is reached.

(2) Furthermore, by prioritizing information frames, etc., even when the number of information relay frames increases due to the increase in the number of terminals connected to the transmission path, DA and M of the information relay frames
Comparison with the AC address table This method minimizes the delay in relaying information frames from one transmission system to another without interrupting processing and locking the relay processing function when the processing capacity reaches its limit. It becomes possible to provide and construct a network system that completes relaying within a certain communication time and relays important information frames preferentially.

[Brief explanation of drawings]

FIG. 1 is a block diagram of one embodiment of an information frame relay device according to the present invention, FIG. 2 is a block diagram of another embodiment of the information frame relay device according to the present invention, and FIG. 3 is a block diagram of a conventional information frame relay device. Configuration diagram, Figure 4 is information frame format 1
It is a figure showing an example of -. 1.2... Network, 3... Information frame relay device, 11... Relay control section, 12... Monitor section, 13.
...Comparison section, 14...Occluded instruction section, 110...
Relay buffer, 111... information reading section.

Claims (2)

[Claims] (1) An information frame relay device disposed at a connection point between two or more transmission systems, which has a relay buffer, and means for relaying information frames from one transmission system to another; Information characterized by comprising means for monitoring a usage rate, means for detecting whether the usage rate exceeds a preset specified value, and means for restricting relaying of information frames based on the detection information. Relay blockage method. (2) In an information relay node device disposed at a connection point of two or more transmission systems, means having a relay buffer and relaying information frames from one transmission system to another transmission system, and the relay buffer means for monitoring the usage rate of the computer; and means for detecting whether the usage rate exceeds a preset value;
When the usage rate of the relay buffer exceeds a specified value, the information frame is identified by the priority flag bit added to the information frame or by comparing it with the address of the information frame using a relay address table. 1. An information relay blocking method, comprising means for restricting relaying of a corresponding information frame based on identification information.