JPH02260735A - Relay congestion forecasting device - Google Patents

Abstract

PURPOSE:To realize a congestion preventing measure by providing a means to detect the fact that the traffic of a relay frame arrives at a warning quantity decided in advance and a means to generate an alarm frame to inform the fact to terminals in a repeater. CONSTITUTION:A relay protocol control part 52 collects statistic data with respect to the working state of a buffer memory 53, and the statistic data includes the number of times of suspension (the number of times of unreceptable state due to the shortage of a reception buffer). The relay protocol control part 52 checks the increasing rate of the number of times of suspension, and when it arrives at a reference value 56 set in advance, it informs the fact to a congestion control part 54. The congestion control part 54 receiving the information generates the alarm frame 12, and transfers it to a main line LAN.MAC protocol control part 44 via the buffer memory 53, and the MAC protocol control part 44 sends it to a data transmission part 46. In such a way, an alarm can be automatically issued before a congestive state exceeds the limit.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a relay device (for example, a so-called bridge) that interconnects LANs (Local Area Networks), and particularly to countermeasures against congestion thereof.

[Conventional technology]

When the traffic transferred between LANs becomes excessive, frames are lost due to overruns within the relay equipment, and as a result,
The situation worsens as retransmissions occur frequently. As one method to alleviate such difficulties, Japanese Patent Application Laid-Open No. 60-171
Utilizing the technology described in Japanese Patent Application No. 849, which changes the ratio of the capacities of the transmitting buffer and the receiving buffer when the receiving buffer usage rate reaches a certain reference value,
It is possible to prevent a decrease in communication performance due to buffer busy.

[Problem S that the invention attempts to solve]

However, the above-mentioned countermeasures are only temporary symptomatic treatments within the relay device, and their ability to alleviate the convergence is extremely limited, and is far from a fundamental countermeasure.

It is an object of the present invention to provide a relay device with an automatic traffic congestion prediction function in order to enable congestion prevention measures for the network system as a whole.

[Means to solve the problem]

According to the present invention, the relay device includes means for detecting that relay frame traffic has reached a predetermined alarm amount, and an alarm frame for notifying various terminals when the alarm amount has been reached. and means for generating.

[Effect]

The fact that the relay frame traffic has reached a warning amount is detected, for example, from various statistical information regarding the usage status of the reception buffer. When the alarm amount is reached, an alarm frame is generated and sent to the terminals in the LAN system, for example using a broadcast function. Each terminal that receives this alarm frame can take appropriate measures, such as refraining from sending frames addressed to other LANs via the relay device.

〔Example〕

FIG. 2 conceptually illustrates the transition of traffic of relay frames (frames to be relayed from one LAN to another LAN, the same applies hereinafter) and the transmission of an alarm frame according to the present invention in an example of a LAN system. In the 0 diagram,
Reference numeral 1 indicates the transmission line of the main LAN, 2 indicates the transmission line of the branch LAN, 3a to 3d indicate the relay devices, 4 indicates the terminal, 5 indicates the host computer, and 6 indicates the communication control device. , the terminal 4 on each branch line LANZ is connected to the relay device 113b.
.

3c and 3d communicate with the host computer 5 via the trunk LANI, the relay device 3a, and the communication control device 6.

In phase (2), the number of terminals 4 communicating with the host computer 5 is still small, so there is no problem. Phase ■
In this case, the number of terminals 4 communicating with the host computer 5 has increased, and the communication capacity of the relay device 3a is about to reach its limit. The relay device 3a constantly monitors statistical data (details will be described later) regarding the rate of successful or unsuccessful acquisition of reception buffers, and when the value reaches a predetermined reference value, the relay device 3a receives the I! It is determined that the alarm state is reached, enters phase (2), and sends an alarm frame to all terminals.

FIG. 3 shows an example of the format of each alarm frame used in the branch LAN and the trunk LAN.The branch LAN alarm frame 11 has an SD (start delimiter) 13, an AC (access control) 14, FC (frame control) 15, DAl (destination address) 16, and SA
1 (source address) 17, DSAPlB, 5S
With AP19.

C (control) 2o and INFOl (transmission information) 2
1, FC5 (frame check sequence) 22,
It consists of fields ED (end delimiter) 23 and FS (frame status) 24.

The alarm frame 12 for the trunk LAN includes a PA (preamble) 25, 5D 26, Fe 12, DA, 28,
SA, 29, and W (alarm) 30.

INFo, 31, Fe832, ED33, FS3
It consists of 4 fields. DA, 28 is I/G3
5, U/L 36, RN (destination ring number) 37,
It consists of each field of SS (destination station subaddress) 38. The configuration of DA and 16 of the branch line LAN frame is also DA.

It is the same as 28. DA in branch LAN frame
The part from 116 to INF'0.21 is the main LAN
This is the content of INFO 231 of the frame. The basic roles of the aforementioned fields are defined in the IEEE802 standard.

In the alarm frame, the engineering/G bit in DAzle is set to 1', DSAPlB is set to 'null', control information indicating the alarm state is set in INFOz21, and in the interframe LAN frame, the I/G bit in DAz28 is set to 'null'. /G bit 35 and W bit 30 are both set to '1'.

FIG. 1 shows the configuration of any one of the relay devices 3a to 3d according to the present invention. The relay device includes a relay control section 40, a main line LAN-MAC control section 41, a branch line LAN-MAC control section 42, and a bus 43 that connects these.

The trunk LAN-MAC control unit 41
A protocol control unit 44 , a data reception unit 45 that receives frames from the main LAN transmission line 1 and passes them to the MAC protocol control unit 44 , and data that sends the frames received from the MAC protocol control unit 44 to the main LAN transmission line 1 It includes a transmitter 46 and a buffer 47.

The branch line LAN-MAC control unit 42 controls the branch line LAN/MAC
A protocol control unit 48 , a data reception unit 49 that receives frames from the branch LAN transmission line 2 and passes them to the MAC protocol control unit 48 , and data that sends the frames received from the MAC protocol control unit 48 to the branch LAN transmission line 2 A transmitter 50 is provided.

The relay control unit 4o includes a microprocessor (MPU) 51 that integrally controls the entire relay device, a relay protocol control unit 52, a buffer memory 53, and a congestion control unit 54.

The trunk LAN-MAC protocol control unit 44 analyzes the frame from the data reception unit 45, and if the frame is addressed to a downstream terminal within the same trunk LAN, sends it to the data transmission unit 46, and sends the frame addressed to the own station. or branch LAN
If the frame is addressed to a terminal within the branch line LAN-, it is written to the buffer memory 53 within the relay control unit 40.
Similarly, the MAC protocol control section 48 either sends the frame from the data reception section 49 to the data transmission section 50 or writes it into the buffer memory 53 according to its destination. In the relay control unit 40, the relay protocol control unit 52:
The received frames are sequentially read from the buffer memory 53,
If the frame is to be analyzed and relayed, the buffer memory 5
3, the trunk LAN-MAC protocol control unit 44
or to the branch line LAN-MAC protocol control unit 48 according to the destination.
4.48 sends the frame from the relay protocol control section 52 to the respective data transmission sections 46 and 50.

The relay protocol control unit 52 collects statistical data 55 regarding the usage status of the buffer memory 53, and this statistical data includes the number of suspends (the number of occurrences of the unreceivable state due to exhaustion of the reception buffer), and the relay protocol control unit 52. The control unit 52 examines the rate of increase in the number of suspends,
When it reaches a preset reference value 56, the convergence control unit 54 is notified of this fact. Upon receiving this notification, the congestion control unit 54 generates the alarm frame 12 (FIG. 3),
The data is transferred to the trunk LAN/MAC protocol control unit 44 via the buffer memory 53, and the MAC protocol control unit 44
sends this to the data transmitting section 46. In addition, terminals on the branch line LAN connected to this relay device are connected to the branch line LAN.
The alarm frame 11 for the branch line LAN-MAC control unit 4
2. The alarm frame is formed as a circular frame. A frame that arrives during the transmission of an alarm frame is temporarily stored in the buffer 47 if it requires processing by the relay control unit 40 .

In each of the other relay devices, the trunk LAN-MAC protocol control unit 44 checks the W bit 30 of the received frame, and
If it is 11', it is transferred to the relay protocol control section 40. The relay protocol control unit 40 takes out the INFO 231 of this alarm frame, assembles the alarm frame 11 for the branch LAN, and sends it to the branch NIALAN transmission line 2 via the branch fiLAN-MAC protocol control unit 48 and the data transmission unit 50. .

Each terminal specifies that the DSAP18 of the received frame is 'null.
When it detects that it is l', it takes in this frame as management information, checks the INFO 121, learns that it is a notification of an alarm state, and displays a message on the screen of the display device notifying the occurrence of an alarm state. Each terminal can take appropriate measures, such as refraining from sending frames addressed to other LANs via the relay device.

FIG. 4 shows the processing performed by each relay device in the form of a flowchart. Normally, the relay device waits for a frame to arrive (60.61). When a frame arrives, it is received (62), and if it is addressed to a downstream station, it is sent downstream (63, 64); if the frame is not addressed to a downstream station, it is checked whether it should be relayed or not, and then it is relayed. If it is not a frame that should be used, it is management information, so it is imported internally (6
5, 66), and if the frame should be relayed, relay processing is performed (65, 67). Then, the degree of congestion is checked, and if the alarm state has not been reached, the state returns to the state of waiting for frame arrival (68).

On the other hand, if the degree of congestion has reached the alarm state, an alarm frame is generated and sent as described above (69).

If a frame arrives while an alarm frame is being generated and sent (70), if it is addressed to a downstream terminal, it will be sent downstream (71°72), but if it is another frame, it will be sent to the buffer 47. Temporarily save (71.73). In the latter case, when the sending of the alarm frame is finished, the frame stored in the buffer is processed, and then the state returns to the frame wait state (74.75).

The determination as to whether or not the alarm state has entered may be made using other statistical information 1, such as the number of reception buffer busy times, the number of reception buffer acquisition attempts, the number of reception buffer depletion times, and the like.

Alternatively, the alarm state may be subdivided into a plurality of levels, and each terminal may be notified of which level of alarm state it has reached each time it reaches each level of alarm state.

〔Effect of the invention〕

According to the present invention, it is possible to automatically issue a warning before the congestion state in the relay device reaches its limit, and thereby,
Appropriate measures can be taken before the situation becomes fatal.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an example of a relay device equipped with a congestion forecasting device according to the present invention, and FIG.
FIG. 4 is a diagram illustrating changes in traffic and transmission of alarm frames in the N system; FIG. 3 is a diagram illustrating an example of the format of an alarm frame; FIG.
3 is a flowchart showing the operation of the relay device shown in the figure. 1... Main line LAN, 2... Branch line LAN, 3a to 3d
... Relay device, 40 ... Relay control section, 41 ... Main line LAN/MAC control section, 42 ... Branch line LAN-MA
C control unit, 52... Relay protocol control unit, 54...
・Congestion control unit, 55...Traffic statistical data, 5
6... Convergence reference value.

Claims (1)

[Claims] 1. In a relay device that relays frames between multiple LANs, means for monitoring relay frame traffic and detecting that the traffic has reached a predetermined warning amount;
means for generating an alarm frame for notifying various terminals connected to the plurality of LANs when the alarm amount has been reached; and sending the alarm frame to a LAN transmission line connected to the relay device. A congestion forecasting device comprising a means for predicting congestion.