JP2009094971A - Packet communication device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent increase of traffic by a pause packet regarding a packet communication device which transfers a packet. <P>SOLUTION: In the packet communication device including line packages 3-1, 3-2 formed by connecting a plurality of low order lines 5, and a control package 1 formed by connecting a high order line 4, each line package has configuration including an interface conversion part compatible with the low order lines which generates and transmits pause packets of congestion generation notification and congestion cancellation notification; a pause packet detection part which transmits a detection signal which detects the pause packets of congestion generation notification and congestion cancellation notification of the interface conversion part to the control package 1 by control signal lines 10-1, 10-2; and a multiplexing/demultiplexing part which performs multiplexing and demultiplexing of the packet compatible with the low order lines 5, and the control package 1 includes configuration including a priority control part 6 which stops transfer of the packets to the interface conversion part in which congestion is generated according to the detection signal received from the pause packet detection part via the control signal lines. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention accommodates a plurality of lines including lines with different throughputs, multiplexes packets from the respective lines and sends them to a high speed line, receives multiplexed packets from the high speed line, demultiplexes them, The present invention relates to a packet communication apparatus that transmits a packet to a corresponding line.

  Receives and multiplexes packets from multiple lines and terminal devices, sends multiplexed packets to high-speed lines, demultiplexes multiplexed packets received from high-speed lines, and routes each packet to a destination-corresponding line In a packet communication device to be transmitted to a terminal device or the like, when the throughput of each line on the low speed side is the same, for example, a fixed throughput interface such as MII (Media Independent Interface) or GMII (Gigabit Media Independent Interface) The structure which transmits / receives by is applied. It also accommodates multiple lines including lines with different throughputs, multiplexes packets from each line and sends them to the high-speed line, demultiplexes the multiplexed packets received from the high-speed line, and lines corresponding to the destination of each packet A packet communication device that distributes data to the network is also known.

  FIG. 4 is an explanatory diagram of a conventional packet communication apparatus, in which 41 is a control package, 42 is a back wiring board (BWB), 43-1 and 43-2 are line packages, 44 is an upper line, and 45 is a lower line. , 46 indicates a control unit, 47-1 and 47-2 indicate multiplexing / demultiplexing units, and 48-11 to 48-1n and 48-21 to 48-2n indicate interface conversion units. The control package 41 has a configuration including a control unit 46. The control unit 46 transmits and receives multiplexed packets via the upper line 44, and receives the multiplexed packets received via the upper line 44 in correspondence with destinations. It has a function of distributing to the line packages 43-1 and 43-2 and further multiplexing multiplexed packets from the line packages 43-1 and 43-2 and sending them to the upper line 44. The line packages 43-1 and 43-2 are connected to the control package 41 via the back wiring board 42, and the multiplexing / demultiplexing units 47-1 and 47-2 and the interface conversion units 48-11 to 48-1n and 48 are connected. -21 to 48-2n, and the multiplexing / demultiplexing units 47-1 and 47-2 are demultiplexed to correspond to the interface converting units 48-11 to 48-1n and 48-21 to 48-2n. Then, the packet is transferred as indicated by the arrow, and the packet is transmitted from the interface conversion units 48-11 to 48-1n and 48-21 to 48-2n to the lower line 45. Packets from the lower line 45 are received by the interface conversion units 48-11 to 48-1n and 48-21 to 48-2n, multiplexed by the multiplexing / demultiplexing units 47-1 and 47-2, and the back wiring board 42. The control packet 41 is transferred to the control package 41, and the multiplexed packet is transmitted to the upper line 44 via the control unit 46 of the control package 41.

  The interface converters 48-11 to 48-1n and 48-21 to 48-2n include a buffer memory for temporarily holding packets, not shown, and a means for monitoring the accumulation amount. The packets demultiplexed by 47-1 and 47-2 and transferred in correspondence with the lower line 45 as the packet transmission destination are temporarily held in the buffer memory, and the packets are sequentially transferred from the buffer memory according to the speed on the lower line 45 side. Read out and send to lower line 45. At that time, the amount of packets temporarily stored in the buffer memory is monitored by the monitoring means, and when the predetermined amount before the overflow amount is reached, the congestion notification is sent to the control unit 46 of the control package 41. A pause packet is formed and transferred. For example, when the demultiplexed packet is temporarily held in the buffer memory of the interface conversion unit 48-11 and is sequentially sent to the lower line 45, the packet storage amount of the buffer memory becomes a congestion state exceeding a predetermined value. The pause packet is sent to the control unit 46 as indicated by an arrow. As a result, the control unit 46 stops the transmission of the multiplexed packet to the line package 43-1 having the interface conversion unit 48-11 that has transmitted the congestion occurrence notification pause packet, as indicated by a cross. . As a result, it is possible to avoid discarding packets due to overflow of the buffer memory of the interface conversion unit 48-11.

  Also, in a system in which a plurality of packet communication devices are connected by a plurality of lines, the number of packets stored in the buffer memory corresponding to the line is counted to determine the congestion status. If the congestion information is added to the notification area and the congestion information is added to the congestion notification area of the received packet, change the transmission line of the packet addressed to the packet communication device that has notified the occurrence of congestion. There has been proposed means for controlling so that packets are not concentrated and transmitted on a line, and for temporarily stopping packet transmission when each of a plurality of lines is in a congested state (see, for example, Patent Document 1).

  Also, as a means of avoiding congestion in packet transmission networks that transmit packets at a variable rate, when a congestion prediction notification is received, in the process of increasing the packet transmission rate, the packet transmission rate is reduced and packet transmission is performed. When the speed is not increased, packet transmission control means has been proposed that determines that the congestion prediction by the own apparatus is irrelevant and maintains the packet transmission speed as it is (see Patent Document 2, for example). In a variable-speed packet transmission network, the dummy packet is transmitted immediately before the start of communication, and the dummy packet transmission rate is controlled to decrease with the increase in the effective information packet transmission rate. There has been proposed a means that makes it possible to minimize the required value (see, for example, Patent Document 3).

In addition, the control package is connected to a plurality of line packages via a back wiring board, and a multiplexing / demultiplexing unit is provided in the control package to perform primary demultiplexing of multiplexed packets from the upper line and back to the plurality of line packages. Transfers via the wiring board, performs secondary demultiplexing in the line package, sends packets to multiple lower lines corresponding to the destination, and performs secondary demultiplexing of packets from multiple lower lines in the line package , Transfer to the control package via the back wiring board, and send out the multiplexed packet that is first multiplexed by the multiplexing / demultiplexing unit of the control package to the upper line, detecting the occurrence of a failure such as congestion By using a low-priority line among multiple sub-lines, high-priority line packets are transferred between line packages. It rotational feed, means for avoiding packet discard such when congestion occurs has been proposed (e.g., see Patent Document 4).
JP-A-7-303114 JP-A-7-66837 JP 7-95238 A JP 2006-186924 A

  For example, as described with reference to FIG. 4, the packet communication apparatus of the conventional example is connected to the interface conversion units 48-11 to 48-1 n and 48-21 to 48-2 n of the line packages 43-1 and 43-2. A pause packet is generated by detecting the occurrence of congestion in this and sent to the control package 41. The control package 41 identifies the line package that sent the pause packet, and stops the packet sent to the line package. Since the packet transfer is canceled in response to the circuit package, the packet transfer to the interface conversion unit that is not in a congestion occurrence state is also stopped, and there is a problem that the service is deteriorated over a wide range. The pause packet for notification of occurrence of congestion in the interface conversion unit is a multiplexed packet in the transfer path in the direction of the control package 41 in the main signal transfer path between the line packages 43-1 and 43-2 and the control package 41. There is a problem that causes a traffic increase in the main signal transfer path. Multiplexed packets with different priorities may be multiplexed, and due to the congestion status of the interface converter, transfer of high-priority packets and low-priority packets will be suspended, resulting in service degradation. There is. Such a problem is not disclosed in the above-mentioned Patent Documents 1 to 3, and in the above-mentioned Patent Document 4, it is possible to set a detour path between the line packages, and a high-priority packet is transmitted. Although means for transferring by a detour route is shown, there is a problem that the configuration and control are complicated.

  The present invention solves the above-mentioned problems of the conventional example, notifying the traffic on the transfer path of the multiplexed packet, notifying the occurrence of congestion by a pause packet, and congestion based on the priority of the packet, etc. The purpose is to enable priority control at the time of occurrence.

  The packet communication apparatus of the present invention includes a line package connected to a plurality of lower lines and a control package connected to an upper line, multiplexes packets from the plurality of lower lines and sends them to the upper line. Is a packet communication device that receives and demultiplexes and transmits demultiplexed packets to a destination corresponding lower line, and the line package generates and sends pause packets for congestion occurrence notification and congestion release notification. A corresponding interface conversion unit, a pause packet detection unit for transmitting a detection signal for detecting a pause packet of congestion occurrence notification and congestion release notification of the interface conversion unit to a control package through a control signal line, and multiplexing of packets corresponding to a lower line The control package has a configuration including a multiplexing / demultiplexing unit that performs multiplexing and demultiplexing, and the control package detects pause packets. And a configuration including a priority control unit to stop the transfer of the packet to the interface conversion unit of congestion according to the detection signal received via the control signal line from.

  The pause packet detection unit transfers a detection signal including the transmission source information of the congestion occurrence notification and congestion release notification from the interface conversion unit to the priority control unit of the control package via the control signal line, and The pause packet from the interface conversion unit is discarded.

  In addition, the priority control unit of the control package includes a line unit QoS function unit in which packet priorities are set, and refers to the line unit QoS function unit according to a pause packet detection signal of a congestion occurrence notification from the pause packet detection unit. Thus, it is possible to provide a configuration in which the transfer of the low priority packet to the interface conversion unit that is the transmission source of the pause packet is stopped, and the transfer is started from the packet with the high priority according to the pause packet detection signal of the congestion release notification. .

  The priority control unit of the control package includes a line-unit QoS function unit in which the priority of the packet transfer destination corresponding to the VLAN is set by VLANID, and the pause packet detection signal of the congestion occurrence notification from the pause packet detection unit, With reference to the line unit QoS function unit, it is possible to provide a configuration for controlling whether or not to stop the transfer according to the VLAN ID of the packet transferred to the interface conversion unit that is the source of the pause packet.

  A pause packet detection unit is provided between the interface conversion unit and the multiplexing / separation unit of the line package to detect a pause packet of congestion occurrence notification or congestion release notification and notify the priority control unit of the control package, Since the pause packet is discarded, the pause packet is not transferred via the back wiring board between the line package and the control package, so the multiplexed packet of the main signal is transferred to the control package via the back wiring board. Traffic pressure can be avoided. In addition, it is possible to set a priority in the priority control unit, to stop transfer of packets with low priority and VLANID with low priority when congestion occurs, and to transfer packets with high priority with priority. There is an advantage that service degradation at the time of congestion occurrence can be minimized.

  Referring to FIG. 1, the packet communication apparatus of the present invention includes line packages 3-1 and 3-2 connected to a plurality of lower lines 5 and a control package 1 connected to an upper line 4, and includes a plurality of lower lines. 5 is a packet communication apparatus for multiplexing a packet from 5 and transmitting it to the upper line 4, receiving a multiplexed packet from the upper line 4, demultiplexing it, and sending it to the lower line 5 corresponding to the destination. 3-1 and 3-2 are interface converters 8-11 to 8-1n and 8-21 to 8-2n corresponding to lower lines that generate and send pause packets for congestion occurrence notification and congestion release notification, Pause packet detector 9 for sending a detection signal for detecting a pause packet of congestion occurrence notification and congestion release notification of the interface converter to control package 1 through control signal lines 10-1 and 10-2. Control package having a configuration including 11-9-1n, 9-21-9-2n, and multiplexing / demultiplexing units 7-1, 7-2 for multiplexing and demultiplexing packets corresponding to the lower line 5 1 includes a priority control unit 6 that stops transfer of only packets to the interface conversion unit in which congestion occurs according to the detection signal received from the pause packet detection unit via the control signal lines 10-1 and 10-2. Yes.

  FIG. 1 is an explanatory diagram of a first embodiment of the present invention, where 1 is a control package, 2 is a back wiring board (BWB), 3-1 and 3-2 are line packages, 4 is an upper line, and 5 is a lower line. , 6 are priority control units, 7-1 and 7-2 are multiplexing / demultiplexing units, 8-11 to 8-1n and 8-21 to 8-2n are interface conversion units, and 9-11 to 9-1n and 9-. Reference numerals 21 to 9-2n denote pause packet detection units, and reference numerals 10-1 and 10-2 denote control signal lines. Packet transfer by the line packages 3-1 and 3-2 connected via the back wiring board 2 and the control package 1 between the upper line 4 and the plurality of lower lines 5 is the same as the conventional example, and the interface The converters 8-11 to 8-1n and 8-21 to 8-2n have a buffer memory (not shown), monitor the amount of packets stored in the buffer memory, and increase the amount of packets stored above a predetermined amount. If it is detected, it is judged that congestion has occurred, and a pause packet for congestion occurrence notification is generated and sent. Then, when the amount of accumulated packets decreases below a predetermined amount, a pause packet for congestion release notification is generated and sent. It has the structure containing a means. As such monitoring means, various known buffer memory congestion state monitoring means can be applied.

  Pause packet detectors 9-11 to 9-1n, 9- are provided between the interface converters 8-11 to 8-1n and 8-21 to 8-2n and the multiplexer / demultiplexers 7-1 and 7-2. 21 to 9-2n are provided. Each pause packet detector 9-11 to 9-1n, 9-21 to 9-2n passes normal data packets, but detects pause packets for congestion occurrence notification and congestion release notification separately from normal packets. A function for outputting a detection signal including pause packet transmission source information when a pause packet is detected by this detection function, and a control signal line 10-1, 10-2, and a function of discarding the pause packet after detecting the pause packet of the congestion occurrence notification and the congestion release notification. Such a pause packet detection function can be easily realized by a packet type determination function. For example, when the interface conversion unit 8-11 determines that congestion has occurred due to an increase in the amount of packets stored in the buffer memory, and forms and sends a pause packet for notification of congestion occurrence, this is sent to the pause packet detection unit 9-11. Then, the pause packet is discarded, and a congestion occurrence notification detection signal including transmission source information indicating the interface conversion unit 8-11 that is the transmission source of the pause packet is sent to the priority control unit 6 of the control package 1. Transfer is performed via the control signal line 10-1. The pause packet detectors 9-11 to 9-1n and 9-21 to 9-2n detect pause packets and send the detection signals to the priority control unit 6 of the control package 1 through control signal lines 10-1, The pause packet may be transferred to the multiplexing / demultiplexing units 7-1 and 7-2 and discarded by the multiplexing / demultiplexing units 7-1 and 7-2. .

  The priority control unit 6 has a function of identifying packets corresponding to the lower line 5 accommodated in the line packages 3-1 and 3-2, respectively, and congestion via the control signal lines 10-1 and 10-2. Corresponds to the transmission source information included in the detection signal of the pause packet of the occurrence notification, stops the transfer of the packet to the interface conversion unit of the transmission source, and corresponds to the transmission source information included in the detection signal of the pause packet of the congestion release notification Thus, it has a function of resuming the transfer of packets to the interface converter of the transmission source. When packets with different priorities are mixed and transferred, the priority of the packet is set, and according to the detection signal of the congestion occurrence notification, the lower of the packets transferred to the interface conversion unit corresponding to the transmission source information It is also possible to adopt a control configuration in which transfer of priority packets is stopped. In addition, when the transfer of a high priority packet is stopped according to the degree of congestion occurrence, the control configuration can start transfer from the high priority packet according to the detection signal of the congestion release notification.

  Further, the interface conversion units 8-11 to 8-1n and 8-21 to 8-2n can be configured to detect a congestion occurrence state in a plurality of stages and notify it by a pause packet. In response to this multi-stage congestion occurrence notification, the priority control unit 6 stops the transfer of low-priority packets when the congestion state is low, and also includes high-priority packets when the congestion state is high. Transfer stop, that is, transfer of the packet to the interface conversion unit corresponding to the transmission source information is stopped, and for the subsequent congestion release notification, transfer of the high priority packet is started preferentially. It can also be controlled to maintain a high packet forwarding service. Since the pause packet from the interface conversion unit is detected by the pause packet detection units 9-11 to 9-1n and 9-21 to 9-2n and then discarded, the multiplexing / separation units 7-1 and 7- There is an advantage that it does not affect the traffic of the transfer path via the back wiring board 2 between the two.

  FIG. 2 is an explanatory diagram of Embodiment 2 of the present invention, where the same reference numerals as those in FIG. 1 denote the same name parts, 6-1 and 6-2 are circuit unit QoS (Quality of Service) function units, The case where it is comprised corresponding to line package 3-1 and 3-2 is shown. Then, high priority, high / medium priority, medium / low priority, or low priority can be set for the lower line 5 or the packet type. This priority can be set to three levels of high, medium and low, or two levels of high and low. When the accumulated amount of the buffer memory, not shown, of the interface converters 8-11 to 8-1n and 8-21 to 8-2n exceeds a predetermined value, a pause packet for notification of occurrence of congestion is generated. And send it out. The pause packet of the congestion occurrence notification is detected by the pause packet detectors 9-11 to 9-1n, 9-21 to 9-2n, and the detection signal including the transmission source information of the congestion occurrence notification pause packet is controlled. The data is transferred to the priority control unit 6 of the control package 1 through the signal lines 10-1 and 10-2.

  The priority control unit 6 stops the transfer of the packet via the interface conversion unit corresponding to the transmission source information according to the transmission source information of the pause packet of the congestion occurrence notification. In that case, according to the priority of the packet, for example, the transfer of the low priority packet is stopped. In addition, when it is possible to notify the occurrence of congestion in multiple stages, for example, four stages of high, high, medium, low, and low, pause packet detectors 9-11 to 9-1n and 9-21 to 9-2n The detection signal including the transmission source information and the congestion occurrence stage information is notified to the priority control unit 6 via the control signal lines 10-1 and 10-2. In this case, for example, only the high priority packet is transferred to the interface conversion unit that has sent the pause packet for the notification of occurrence of congestion at the high and middle stages, and transfer of other lower priority packets is stopped. When the pause packet detection units 9-11 to 9-1n and 9-21 to 9-2n detect the congestion release notification pause packets, transfer is sequentially started from the high and medium priority packets according to the detection signal. Thereby, congestion control corresponding to the priority of the packet becomes possible. A large number of line packages 3-1 and 3-2 can be provided, and a line unit QoS function unit can be provided corresponding to the line package.

  FIG. 3 is an explanatory diagram of Embodiment 3 of the present invention. The same reference numerals as those in FIG. 1 denote the same names, and 6-1a and 6-2a denote channel-unit QoS (Quality of Service) function units. The line unit QoS function units 6-1a and 6-2a show a case of having a configuration corresponding to the line packages 3-2 and 3-2. (Identifier) is set. Then, the pause packet of the congestion occurrence notification is detected by the pause packet detectors 9-11 to 9-1n, 9-21 to 9-2n, and the detection signal including the transmission source information of the pause packet is transmitted to the control signal line 10 -1 and 10-2 to the priority control unit 6 of the control package 1. The priority control unit 6 stops the packet transfer from the VLANID-compliant upper line 4 set in the line unit QoS function units 6-1a and 6-2a.

  For example, when a detection signal added with the interface conversion unit 8-11 as transmission source information is transferred from the pause packet detection unit 9-11 to the priority control unit 6 of the control package 1 via the control signal line 10-1, priority control is performed. The unit 6 suspends transfer of the packet corresponding to the VLANID set in the line unit QoS function unit 6-1a for the packet to the interface conversion unit according to the transmission source information. In the third embodiment, when congestion occurs, packet transfer is stopped in response to the set VLAN ID, and congestion is avoided. Furthermore, the priority is set and the VLAN ID is set. Of these packets, it may be configured to control to stop the transfer of the low priority packet. That is, it is possible to include the VLAN ID and the priority in the condition setting for stopping the packet transfer when congestion occurs.

It is explanatory drawing of Example 1 of this invention. It is explanatory drawing of Example 2 of this invention. It is explanatory drawing of Example 3 of this invention. It is explanatory drawing of a prior art example.

Explanation of symbols

1 Control package 2 Back wiring board (BWB)
3-1, 3-2 Line package 4 Upper line 5 Lower line 6 Priority control unit 6-1, 6-2, 6-1a, 6-2a Line unit QoS function unit 7-1, 7-2 Multiplexing / demultiplexing unit 8-11 to 8-1n, 8-21 to 8-2n Interface conversion unit 9-11 to 9-1n, 9-21 to 9-2n Pause packet detection unit 10-1, 10-2 Control signal line

Claims (4)

Including a line package connecting a plurality of lower lines and a control package connecting a higher line, multiplexing packets from the plurality of lower lines and sending the multiplexed packets to the upper line; In the packet communication device that receives and demultiplexes and sends to the lower line corresponding to the destination,
The line package generates a pause packet for congestion occurrence notification and congestion release notification, and transmits the pause conversion interface corresponding to the lower line, and detection of detecting the pause packet for congestion occurrence notification and congestion release notification of the interface conversion unit. A configuration including a pause packet detector that sends a signal to the control package via a control signal line, and a multiplexer / demultiplexer that multiplexes and demultiplexes the packets corresponding to the lower line,
The control package includes a priority control unit that stops transfer of packets to the interface conversion unit in which congestion occurs according to a detection signal received from the pause packet detection unit via the control signal line. Packet communication device.   The pause packet detection unit transfers a detection signal including the transmission source information of the pause occurrence notification and the congestion release notification from the interface conversion unit to the priority control unit of the control package via a control signal line. The packet communication apparatus according to claim 1, wherein the pause packet is discarded.   The priority control unit of the control package includes a line-unit QoS function unit in which packet priorities are set, and refers to the line-unit QoS function unit according to a pause packet detection signal of a congestion occurrence notification from the pause packet detection unit. Then, the transfer of the low-priority packet to the interface conversion unit that sent the pause packet is stopped, and the transfer is started from the high-priority packet by the detection signal of the pause packet in the congestion release notification. The packet communication apparatus according to claim 1.   The priority control unit of the control package includes a line-unit QoS function unit in which the priority order of the VLAN corresponding to the packet transfer destination is set by VLANID, and the pause packet detection signal of the congestion occurrence notification from the pause packet detection unit, 2. The configuration according to claim 1, wherein the control unit determines whether or not to stop transfer by referring to the line-unit QoS function unit according to a VLAN ID of a packet to be transferred to an interface conversion unit that is a transmission source of the pause packet. Packet communication device.

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