JPH02241247A - Frame communication method - Google Patents

Abstract

PURPOSE:To reduce the number of transmission control frames and processing quantity, and to quickly regulate traffic by determining the priority of the objective logical link of transmission regulation according to a traffic state, and simultaneously multiaddress-transmitting a transmission control frame including this priority to a subnetwork. CONSTITUTION:A transmission regulation control part 15 determines the priority of the logical link from among the priorities registered previously in a logical link control table 16 in conformity to procedure determined beforehand, and delivers the transmission control frame instructing this priority and the transmission regulation to a transmitter side medium access control part 11, and requests simultaneous multi-address transmission. In a transmission side equipment 20, a medium access control part 21 receives this frame, and a frame transmission control part 23 searches the logical link with this priority of the object of the transmission regulation from the logical link control table 22, and if the logical link of the object of the regulation exists, it stops frame transmission in this logical link.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention provides a frame communication method in which medium-sharing subnetworks are connected by an inter-network connection device, and data is transmitted frame by frame from a sending device to a receiving device. In particular, a frame communication method in which a priority is assigned when establishing a logical link, and when a sending device receives a transmission control frame from an inter-network connection device, frame communication with the priority specified in that frame is restricted. Regarding.

[Conventional technology]

Conventionally, in a network system configured by connecting multiple medium-sharing subnetworks, the C
PU (Frame Relay Processing Unit) By detecting over usage rate, over buffer usage rate, and reception of congestion notification packets from each group, congestion status can be detected, the load on the network can be suppressed, and packet delay can be reduced. This prevented deterioration in network quality and throughput, such as time.

For example, the number of frames processed per unit time in the frame relay processing unit in the network connection device is observed, and if it continues to exceed a reference value (e.g. 80%) for a certain period of time, it is determined that there is congestion. Therefore, the inter-network connecting device transmits a transmission control frame (RNR frame) for each logical link, and the transmitting device that receives the frame stops transmitting frames for that logical link.

Regarding conventional network systems, for example, ``08I-Computer Network for Tomorrow,''
Japan Planning Association (1987), pp, ga~119
” is discussed.

[Problem to be solved by the invention]

In the above-mentioned conventional technology, when a congestion state occurs in an inter-network connection device where a plurality of logical links terminate, the processing in the inter-network connection device increases in proportion to the number of connected logical links, and The problem was that as regulations were requested individually, the situation of conflict worsened in the meantime.

Furthermore, since all logical links are equally subject to regulation, there is a problem in that logical links for traffic that requires real-time performance, such as conversational data, are also subject to regulation.

The purpose of the present invention is to improve such problems, and when an inter-network connection device detects a congestion state, it simultaneously broadcasts a transmission control frame assigned a priority, and the sending device transmits a transmission control frame according to the priority. selectively restricts frame transmission to network interconnection equipment,
An object of the present invention is to provide a frame communication method that can quickly regulate traffic by reducing the number of transmission control frames and the amount of processing.

[Means for solving the W problem]

In order to achieve the above object, the frame communication method of the present invention connects medium-sharing type subnetworks having a simultaneous broadcast transmission function with an inter-network connection device, establishes a logical link for each subnetwork, and In a network system that transmits data frame by frame from a device to a receiving device, the network connection device is provided with a means (logical link management table) for registering the transmission priority given to the logical link when establishing the logical link, and the network connection device The priority of the logical link subject to transmission regulation is determined according to the traffic state, a transmission control frame including that priority is broadcasted to the subnetwork, and the sending device selects the logical link with that priority. The feature is that it regulates frame transmission.

[Effect]

In the present invention, the priority of the logical link when performing frame communication is registered in advance in the logical link management table of the transmitting side device and the network connection device.

In addition, when the network connection device detects a congestion state, it determines the priority of the logical link subject to transmission restriction based on the priority, and sends a transmission control frame indicating the priority and the content of transmission restriction. Send all at once.

Thereby, it is possible to reduce the number of transmission control frames and the amount of processing when regulating traffic, and to quickly regulate transmission. Further, it is possible to selectively restrict transmission of logical links according to priority.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 2 is a configuration diagram of a network system in one embodiment of the present invention.

In the diagram, 10 is an inter-network connection device, 11 is a transmitting device side medium access control section, 12 is a frame relay processing section, 1
3 is a receiving device side medium access control section, 14 is a congestion detection section, 15 is a transmission regulation control section, 16 is a logical link management table, 20 is a sending side device, 21 is a medium access control section, 2
2 is a logical link management table, 23 is a frame transmission control unit, 30 is a receiving side device, and 40.50 is a subnetwork. Furthermore, the subnetwork 40 and the subnetwork 50 are connected by an internetwork connection device 10, thereby performing data communication from the sending device 20 on the subnetwork 40 side to the receiving device 30 on the subnetwork 50 side.

Prior to performing data communication with the receiving device 30, the transmitting device 2o of this embodiment establishes a logical link with a priority assigned to each of the subnetworks 40 and 50. At the time of this establishment, the sending device 20 registers the priority of the logical link and the medium access control (MAC) address of the inter-network connection device 1o that terminates the logical link in the logical link management table 22. After establishing the logical link in this way, frame construction begins.

In addition, in the network connection device 10, the logical link table 16
registers in advance the MAC address of the sending device 20, the MAC address of the receiving device 30, and the priority of the logical link. Further, the transmitter side medium access control unit 11 receives a frame from the subnetwork 40 and requests the frame relay processing unit 12 to relay the frame. The frame relay processing unit 12 determines the M of the receiving side device 30 from the logical link management table 16.
It reads the AC address, passes the frame to the medium access control unit 13 on the receiving device side, and notifies the convergence detection unit 14 that the frame has been relayed.

Thereby, the receiving device side medium access control unit 13 transmits the passed frame to the subnetwork 5o. The congestion detection unit 14 also monitors the number of frames processed per unit time based on the information notified from the frame relay processing unit 12, and if the number of frames processed per unit time exceeds a predetermined reference value for a certain period of time, , and notifies the transmission regulation control unit 15 of this fact. The transmission regulation control unit 15 determines the priority of the logical link to be subject to transmission regulation from among the priorities of the logical links registered in the logical link management table 16 according to a predetermined procedure, and sets the priority. Then, a transmission control frame instructing transmission regulation is passed to the transmitting device side medium access control unit 11 to request simultaneous broadcast transmission. The transmitter side medium access control unit 11 transfers the frame to the subnetwork 40.
Send a simultaneous broadcast to.

Furthermore, in the transmitting side device 20, when a transmission control frame is transmitted from the inter-network connection device 1°, the medium access control unit 21
receives the frame and notifies the frame transmission control unit 23. The frame transmission control unit 23 searches the logical link management table 22 for a logical link with a priority that is subject to transmission regulation, and if there is a logical link subject to regulation, stops frame transmission on that logical link.

Furthermore, in the network connection device 10, the number of frames decreases due to the transmission regulation of the logical link terminating at the network connection device 10, and the congestion detection unit 14 is not in the congestion state (frames per unit time in the frame relay processing unit). If it is determined that the number of processes does not exceed a predetermined reference value for a certain period of time, the transmission regulation control unit 15 is notified of this. The transmission restriction control unit 15 determines the priority of the logical link for which transmission restriction is to be canceled from among the priorities of the logical links registered in the logical link management table 16, according to a predetermined procedure, and The transmitting device side access medium control unit 11 transmits the transmission control frame instructing priority and deregulation.
and request them to send it all at once. The transmitter side access medium control unit 11 transfers the frame to the subnetwork 4.
Broadcast to 0 all at once.

As a result, in the sending device 20, the medium access control unit 21 receives the frame, and the frame transmission control unit 23 receives the frame.
Notify. The frame transmission control unit 23 searches the logical link management table 22 for a logical link that is subject to transmission restriction, and if there is a logical link that is subject to release, restarts frame transmission on that logical link.

FIG. 3 is an explanatory diagram showing a frame structure in logical link control (LLC) of a transmission control frame in one embodiment of the present embodiment.

In FIG. 3, 31 is the destination service access point, 32 is the originating service access point) - (SSAP
), 33 are control fields, which constitute a transmission control frame. The destination service access point I.31 also consists of a receiving service access point DSAP with a broadcast identifier (Ilo), and the control field 33 has a frame type identifier (TYP),
It consists of a restriction/release identifier (TC) and a priority level (PR).

This broadcast transmission identifier (Ilo) is used to specify simultaneous broadcast transmission, and in this embodiment, Ilo indicates simultaneous broadcast transmission.
I II II.

Further, the frame type identifier (TYP) is used to indicate that it is a transmission control frame, for example, “110
1”.

In addition, the restriction/cancellation identifier (TC) is used to distinguish between restriction and deregulation of frame transmission, and is set to "1" when restricting frame transmission and is 0'' when deregulating frame transmission.
shall be.

Furthermore, the priority (PR) is used to specify the priority of a logical link whose frame transmission is to be restricted or released.

FIG. 1 is a flowchart showing a processing procedure of a transmission regulation control section in an embodiment of the present invention.

Transmission regulation control unit 1 in the inter-network connection device 10 of this embodiment
5 receives the congestion state notification from the congestion detection unit 14 (101, 102), the most unregulated logical link among the logical links registered in the logical link management table 16. Select a low priority, assign that priority to the priority (PR), and use the restriction/cancellation identifier (TC).
The medium access control unit 11 is requested to transmit a transmission control frame with the value set to 1 (103, 104...107).

Further, when the transmission restriction control unit 15 receives a notification from the congestion detection unit 14 that the congestion state has recovered to a normal state (101, 102), the transmission regulation control unit 15 determines whether the logical link registered in the logical link management table 16 Among the restricted logical links, the highest priority is selected, that priority is assigned to the priority (PR), and the restriction/release identifier (TC) is selected.
The medium access control unit 11 is requested to transmit a transmission control frame with the value set to 0 (105 to 107).

As a result, the transmitting device side medium access control unit 11 of the inter-network connecting device 10 adds a protocol data unit (PDtJ) in the MAC to the transmission control frame, and broadcasts the frame all at once.

FIG. 4 is a flowchart showing the processing procedure of the frame transmission control section in one embodiment of the present invention.

The frame transmission control unit 23 in the transmission side connection device 20 decodes the transmission control frame received from the medium access control unit 21 (401), and reads the transmission side MAC address assigned to the transmission control frame and the logical link management table 22.
Based on the MAC address of the network connection device that terminates at the logical link registered in , it is checked whether there is a logical link that terminates at location 20 (1-112) that transmitted the overcontrol frame (4).
02).

Next, if there is a logical link, the restriction/release identifier (
When T C) is 1 (404,), if the priority (PR) value and the priority of the logical link are equal (4,05), frame transmission of that logical link is stopped (407).

Also, when the restriction/cancellation identifier (TC) is O (404
), if the priority (PR) value and the priority of the logical link are equal (408), frame transmission of the logical link is restarted (410).

In addition, in this embodiment, the case where frame transmission is completely stopped is described as a method for regulating frame transmission on a logical link. It can also be applied to the case of regulating frame transmission by reducing the maximum flame length or by shortening the maximum frame length.

〔Effect of the invention〕

In the present invention, when the inter-network connection device becomes congested, it is only necessary to transmit one transmission control frame, so the number of transmission control frames and the amount of processing can be reduced compared to the conventional method. Further, since regulation is requested to a plurality of transmitting side devices all at once, it is possible to quickly regulate traffic.

Furthermore, since the restriction is performed according to the priority, it is possible to prevent frame transmission from being restricted to logical links for which restriction is not desirable.

[Brief explanation of drawings]

FIG. 1 is a flowchart showing the processing procedure of the transmission restriction control unit in an embodiment of the present invention, FIG. 2 is a configuration diagram of a network system in an embodiment of the present invention, and FIG. FIG. 4 is an explanatory diagram showing a frame structure of a transmission control frame in LLC, and FIG. 4 is a flowchart showing a processing procedure of a frame transmission control section in an embodiment of the present invention. 10: Inter-network connection device, 11: Transmitting device side medium access control section, 12: Frame relay processing section, 13: Receiving device side medium access control section, 14: Congestion detection section, 15: Transmission regulation control section, 16: Logical link management table, 20: Sending side device, 21: Medium access control unit, 22: Logical link management table, 23: Frame transmission control unit, 30: Receiving side device, 40°50: Subnetwork, 31: Destination service access Point, 32: Originating service access point (SSAP), 33: Control field 1 also I
/G: Broadcast communication identifier, DSAP: Receiving side service access point, TYP: Frame type identifier, TC:
Restriction/release identifier, PR: Priority.

Claims (1)

[Claims] (1) Connect media-sharing subnetworks with simultaneous broadcast transmission functions using internetwork connection devices, establish logical links for each subnetwork, and send data in frames from the sending device to the receiving device. In a network system for transmitting data, when a logical link is established, a means for registering a transmission priority given to the logical link is provided, and the network connection device is configured to:
The transmitting device determines the priority of the logical link subject to transmission regulation according to the traffic state, broadcasts a transmission control frame including the priority to the subnetwork, and
A frame communication method characterized by regulating frame transmission of a logical link having the priority.