JP4658215B2 - Function distributed packet transfer system and message processing method - Google Patents

Description

  The present invention relates to a function-distributed packet transfer system and a message processing method in which a packet transfer processing device that transfers a packet and a control signal processing device that controls the packet transfer processing device are distributed.

  In an IP network that uses IP (Internet Protocol) packets as an exchange unit, various applications such as e-mail, WWW (World Wide Web), and VoIP (Voice over IP) can be used, and compared with telephone-based circuit switching methods. Therefore, there is an advantage that the device cost is low. Therefore, in recent years, traffic has exploded in IP networks.

  A router arranged at each node of the IP network and connected to a plurality of lines determines a line for outputting a packet based on header information included in the received IP packet. Conventionally, a software router that determines a line for outputting a packet by a CPU (Central Processing Unit) connected to an input / output line corresponding unit that inputs and outputs packets has been mainstream. However, in recent years, in order to cope with the explosive increase in traffic, header information contained in IP packets is analyzed by hardware, and I / O line compatible units are connected by a high-speed switch so that packet switching can be performed. High speed hardware routers are in the spotlight.

  Furthermore, recently, in order to improve the performance of routers, each router is configured separately into a control signal processing unit that performs routing processing and a packet transfer processing unit (data signal processing unit) that performs packet transfer. It has been proposed. By adopting such a configuration, packet transfer processing can be performed without being affected by the load caused by routing processing.

  Furthermore, a function distribution type packet that physically separates the control signal processing unit and the packet transfer processing unit (data signal processing unit) that are normally mounted in the same casing, and distributes them on the network. A transfer system has been proposed (see, for example, Non-Patent Document 1). Thereby, the flexibility of the device and the functional configuration can be improved.

  In the function distribution type packet transfer system as disclosed in Non-Patent Document 1, any one control signal processing unit among a plurality of control signal processing units distributed and arranged on a network includes a plurality of packets. It is dynamically coupled by setting up a transfer processing unit and a control protocol session. As a result, one control signal processing unit can centrally manage the setting of a plurality of arbitrary packet transfer processing units, and the combined control signal processing unit and packet transfer processing unit are logically one unit. It will operate as a packet transfer device.

T. V. Lakshman, T. Nandagopal, R. Ramjee, K. Sabnani, and T. Woo, "The SoftRouter architecture," in Proc. ACM SIGCOMM Workshop on Hot Topics in Networking, November 2004.

  In the function-distributed packet transfer system as disclosed in Non-Patent Document 1 described above, when the number of control messages increases due to an increase in the size of the system, or when each device enters a high load state, The control message queue becomes longer.

  In this case, it takes time to perform processing according to highly important control messages that have a large impact on system operation, and the system operation in the function-distributed packet transfer system cannot be performed efficiently. There is.

  It is an object of the present invention to provide a function distributed packet transfer system and a message processing method that can efficiently operate the system.

In order to achieve the above object, the present invention provides:
Control of receiving a packet and transmitting / receiving a plurality of packet transfer processing devices for transferring the received packet and a control message for controlling the plurality of packet transfer processing devices to / from the plurality of packet transfer processing devices A function distributed packet transfer system having a signal processing device,
The control message includes information indicating any of a plurality of processing priorities that are priorities of the order of performing processing according to the control message, and is further transmitted from any of the plurality of packet transfer processing devices. In the case of the control message, including information indicating a transmission source device that is the packet transfer processing device that has transmitted the control message,
Each of the plurality of packet transfer processing devices determines the processing priority of the received control message based on information included in the received control message, and if there are a plurality of the received control messages, the determination Process the plurality of control messages in the order according to the processing priority assigned,
The control signal processing device determines the processing priority of the received control message and the transmission source device based on information included in the received control message, and sequentially determines each determined transmission source device. The received control message is processed, and when there are a plurality of control messages having the same determined source device, the plurality of control messages are processed in the order according to the determined processing priority. .

In addition, a plurality of packet transfer processing devices that receive packets and transfer the received packets, and control messages for controlling the plurality of packet transfer processing devices are transmitted and received between the plurality of packet transfer processing devices. A message processing method in a function-distributed packet transfer system having a control signal processing device for
The control message includes information indicating any of a plurality of processing priorities that are priorities of the order of performing processing according to the control message, and is further transmitted from any of the plurality of packet transfer processing devices. In the case of the control message, including information indicating a transmission source device that is the packet transfer processing device that has transmitted the control message,
Each of the plurality of packet transfer processing devices determining the processing priority of the received control message based on information included in the received control message;
A first priority processing step for each of the plurality of packet transfer processing devices to process the plurality of control messages in an order according to the determined processing priority when there are a plurality of the received control messages; ,
The control signal processing device determines the processing priority of the received control message and the transmission source device based on information included in the received control message;
The control signal processing device processes the received control message in order for each of the determined transmission source devices, and the determination is made when there are a plurality of control messages in which the determined transmission source devices are the same. And a second priority processing step for processing the plurality of control messages in the order according to the processing priority.

  In the function distributed packet transfer system of the present invention, each of the plurality of packet transfer processing devices determines the processing priority of the received control message based on the information included in the received control message, and receives the received control message. Are present, the plurality of control messages are processed in the order according to the determined processing priority. In addition, the control signal processing device determines the processing priority of the received control message and the transmission source device based on the information included in the received control message, and the control received in order for each determined transmission source device When a plurality of control messages having the same determined source device are present, the plurality of control messages are processed in the order according to the determined processing priority.

  As a result, it is possible to preferentially perform processing according to a control message having high importance, and it is possible to efficiently operate the system.

  In addition, the control signal processing device processes the received control message in order for each packet transfer processing device of the transmission source. Therefore, in the control signal processing device, it is possible to avoid the processing being biased toward the control message transmitted from the specific packet transfer processing device, and the system can be operated more efficiently.

It is a block diagram which shows the structure of one Embodiment of the function distribution type packet transfer system of this invention. It is a block diagram which shows an example of a structure of the packet transfer processing apparatus shown in FIG. It is a block diagram which shows an example of a structure of the control signal processing apparatus shown in FIG. 3 is a flowchart for explaining an operation when the packet transfer processing device shown in FIGS. 1 and 2 receives a control message. 3 is a flowchart for explaining an operation in which the packet transfer processing device shown in FIGS. 1 and 2 processes a received control message. It is a flowchart for demonstrating operation | movement when the control signal processing apparatus shown in FIG.1 and FIG.3 receives a control message. 4 is a flowchart for explaining an operation in which the control signal processing device shown in FIGS. 1 and 3 performs processing of a received control message.

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

  FIG. 1 is a block diagram showing a configuration of an embodiment of a function distribution type packet transfer system of the present invention.

  As shown in FIG. 1, the function-distributed packet transfer system of this embodiment includes packet transfer processing devices 10-1 to 10-n and a control signal processing device 20. The packet transfer processing devices 10-1 to 10-n and the control signal processing device 20 perform transmission and reception of control messages using the control protocol session via the network 100.

  Note that the control message includes information indicating any one of a plurality of processing priorities that are priorities of the order of performing processing according to the control message. In the case of a control message transmitted from any of the packet transfer processing devices 10-1 to 10-n to the control signal processing device 20, the packet transfer processing devices 10-1 to 10-n that transmitted the control message are indicated. Contains information.

  FIG. 2 is a block diagram showing an example of the configuration of the packet transfer processing device 10-1 shown in FIG. The packet transfer processing devices 10-2 to 10-n have the same configuration.

  As shown in FIG. 2, the packet transfer processing apparatus 10-1 shown in FIG. 1 includes input units 11-1 to 11-n, output units 12-1 to 12-n, and a first message priority control unit. A message priority control unit 13, a message processing unit 14 as a first message processing unit, and a packet transmission unit 15 having a routing information table 15a are provided. The routing information table 15a describes information indicating the transfer destination of the packet received by the packet transfer processing device 10-1.

  Each of the input units 11-1 to 11-n accommodates a line and receives a packet flowing through the accommodated line. Then, the received packet is output to the packet transmitter 15. Further, each of the input units 11-1 to 11-n receives a control message transmitted from the control signal processing device 20 and outputs the received control message to the message priority control unit 13.

  Each of the output units 12-1 to 12-n accommodates a line, accepts a packet output from the packet transmission unit 15, and outputs a received packet to the accommodated line.

  The message processing unit 14 performs processing according to the control message transmitted from the control signal processing device 20. In the message processing unit 14, message processing queues 14a-1 to 14a-n, which are first message processing queues for temporarily storing the control messages, are set before processing of the control messages. Each of the message processing queues 14a-1 to 14a-n is associated with each of the plurality of processing priorities described above. Note that the processing priority of each control message is determined by the message priority control unit 13 based on information included in the control message. When the control message is stored in the message processing queues 14a to 14a-n, the message processing unit 14 starts from the control message stored in the message processing queues 14a-1 to 14a-n corresponding to the higher processing priority. To process. Then, the message processing unit 14 outputs the processing result of the control message to the packet transmission unit 15 as necessary. Note that when a plurality of control messages are stored in each of the message processing queues 14a-1 to 14a-n, the message processing unit 14 determines the order stored in the message processing queues 14a-1 to 14a-n. Process from the early control message first.

  The message priority control unit 13 receives control messages output from the input units 11-1 to 11-n. Based on the information included in the received control message, the processing priority of the control message is determined. Then, the message priority control unit 13 stores the received control message in the message processing queues 14a-1 to 14a-n corresponding to the determined processing priority.

  The packet transmission unit 15 receives the packets output from the input units 11-1 to 11-n. Based on the header information of the received packet and the information described in the routing information table 15a, the received packet is output to one or a plurality of output units 12-1 to 12-n. The packet transmission unit 15 receives the processing result of the control message output from the message processing unit 14, and changes the description content of the routing information table 15a, for example, according to the received processing result.

  FIG. 3 is a block diagram showing an example of the configuration of the control signal processing device 20 shown in FIG.

  As shown in FIG. 3, the control signal processing device 20 shown in FIG. 1 includes a protocol signal packet termination unit 21, a routing information table creation unit 22, a message priority control unit 23 that is a second message priority control unit, And a message processing unit 24 as a second message processing unit.

  The protocol signal packet termination unit 21 determines routing information for transferring a packet received by each of the packet transfer processing devices 10-1 to 10-n.

  The routing information table creation unit 22 creates a routing information table for the packet transfer processing devices 10-1 to 10-n by protocol signal processing. Then, by transmitting the created routing information table to the packet transfer processing devices 10-1 to 10-n, the routing information table is reflected.

  The message processing unit 24 performs processing according to the control message transmitted from the packet transfer processing devices 10-1 to 10-n. In the message processing unit 24, message processing queues 24a-1 to 24a-n, which are second message processing queues for temporarily storing the control message, are set before the processing of the control message is performed. Each of the message processing queues 24a-1 to 24a-n is associated with each of the packet transfer processing devices 10-1 to 10-n that are the transmission source of the control message. In each of the message processing queues 24a-1 to 24a-n, a plurality of subqueues associated with each of the plurality of processing priorities described above are set. The control message is stored in the sub-queue according to the packet transfer processing devices 10-1 to 10-n of the transmission source and the processing priority. Note that the message priority control unit 23 determines the processing priority of each control message and the packet transfer processing devices 10-1 to 10-n as transmission sources based on information included in the control message. The message processing unit 24 sequentially checks whether the control message is stored in each of the sub queues of the message processing queues 24a-1 to 24a-n for each message processing queue 24a-1 to 24a-n. When there are message processing queues 24a-1 to 24a-n in which control messages are stored, control messages stored in a subqueue corresponding to a higher processing priority among the plurality of subqueues of the message processing queue. Process from first. Then, the message processing unit 24 outputs the processing result of the control message to the protocol signal packet termination unit 21 and the routing information table creation unit 22 as necessary. Note that, when a plurality of control messages are stored in each of the sub-queues, the message processing unit 24 performs processing first from the control message stored in the sub-queue in the earlier order.

  The message priority control unit 23 receives control messages transmitted from the packet transfer processing devices 10-1 to 10-n. Then, based on the information included in the received control message, the message priority control unit 23 determines the processing priority of the control message and the packet transfer processing devices 10-1 to 10-n that are the transmission source of the control message. To do. Then, the message priority control unit 23 sets the determined processing priority among the plurality of subqueues of the message processing queues 24a-1 to 24a-n corresponding to the determined packet transfer processing devices 10-1 to 10-n. The received control message is stored in the corresponding subqueue.

  Hereinafter, an operation of transmitting and receiving control messages in the function distribution type packet transfer system configured as described above will be described.

  FIG. 4 is a flowchart for explaining the operation when the packet transfer processing apparatus 10-1 shown in FIGS. 1 and 2 receives a control message. The same operation is performed when the packet transfer processing devices 10-2 to 10-n receive the control message.

  The message priority control unit 13 determines in advance processing priorities corresponding to the message processing queues 14a-1 to 14a-n (step S1).

  The message priority control unit 13 determines whether the control message transmitted from the control signal processing device 20 has been received via the input units 11-1 to 11-n (step S2).

  As a result of the determination in step S2, if the control message has been received, the message priority control unit 13 determines the processing priority of the received control message based on the information included in the received control message (step S3). If the control message is not received as a result of the determination in step S2, the message priority control unit 13 repeats the determination of whether or not the control message has been received.

  Then, the message priority control unit 13 stores the received control message in the message processing queues 14a-1 to 14a-n corresponding to the determined processing priority (Step S4). The operations in steps S2 to S4 described above are repeated while the packet transfer processing device 10-1 is operating.

  FIG. 5 is a flowchart for explaining the operation of the packet transfer processing apparatus 10-1 shown in FIGS. 1 and 2 for processing the received control message. The same operation is performed when the packet transfer processing devices 10-2 to 10-n process the received control message.

  The message processing unit 14 checks whether or not control messages are stored in order from the message processing queues 14a-1 to 14a-n corresponding to higher processing priorities (step S11).

  Then, the message processing unit 14 determines whether or not the control message is stored in the message processing queues 14a-1 to 14a-n (Step S12).

  If the control message is stored in the message processing queue 14a-1 to 14a-n as a result of the determination in step S12, the control message stored in the message processing queue 14a-1 to 14a-n is stored. The control message with the earlier order is processed first (step S13). Note that the operations in steps S11 to S13 described above are repeated while the packet transfer processing apparatus 10-1 is operating.

  FIG. 6 is a flowchart for explaining the operation when the control signal processing device 20 shown in FIGS. 1 and 3 receives a control message.

  The message priority control unit 23 includes a plurality of packet transfer processing devices 10-1 to 10-n corresponding to the message processing queues 24a-1 to 24a-n and a plurality of message processing queues 24a-1 to 24a-n, respectively. A processing priority corresponding to each of the sub-queues is determined in advance (step S21).

  The message priority control unit 13 determines whether or not a control message transmitted from the packet transfer processing devices 10-1 to 10-n has been received (step S22).

  As a result of the determination in step S22, when the control message has been received, the message priority control unit 23 first, based on the information included in the received control message, the packet transfer processing device 10- that is the transmission source of the received control message. 1 to 10-n are determined (step S23). If the control message is not received as a result of the determination in step S22, the message priority control unit 23 repeats the determination of whether or not the control message has been received.

  Next, the message priority control unit 23 determines the processing priority of the received control message based on the information included in the received control message (step S24).

  Then, the message priority control unit 23 sets the determined processing priority among the plurality of subqueues of the message processing queues 24a-1 to 24a-n corresponding to the determined packet transfer processing devices 10-1 to 10-n. The received control message is stored in the corresponding sub-queue (step S25). The operations in steps S22 to S25 described above are repeated while the control signal processing device 20 is operating.

  FIG. 7 is a flowchart for explaining the operation of the control signal processing device 20 shown in FIGS. 1 and 3 for processing the received control message.

  The message processing unit 24 sequentially accesses the message processing queues 24a-1 to 24a-n (step S31).

  Next, the message processing unit 24 checks whether control messages are stored in order from the sub-queue corresponding to the higher processing priority among the plurality of sub-queues of the accessed message processing queues 24a-1 to 24a-n. (Step S32).

  Then, the message processing unit 24 determines whether or not a control message is stored in the subqueue (step S33).

  As a result of the determination in step S33, if a control message is stored in the sub-queue, the control message stored in the sub-queue is processed first from the control message stored earlier (step 34). Note that the operations in steps S31 to S34 described above are repeated while the control signal processing device 20 is operating.

  As described above, in the function-distributed packet transfer system according to the present embodiment, each of the packet transfer processing devices 10-1 to 10-n has processing priority of the received control message based on the information included in the received control message. When there are a plurality of received control messages, the plurality of control messages are processed in the order according to the determined processing priority. Further, the control signal processing device 20 processes the priority of the received control message based on the information included in the received control message, and the packet transfer processing devices 10-1 to 10- that are the transmission source of the received control message. n, and the received control message is processed in order for each of the determined packet transfer processing devices 10-1 to 10-n. At this time, when there are a plurality of control messages in which the determined packet transfer processing devices 10-1 to 10-n are the same, the plurality of control messages are processed in the order according to the determined processing priority.

  As a result, it is possible to preferentially perform processing according to a control message having high importance, and it is possible to efficiently operate the system.

  In addition, the control signal processing device 20 processes the received control message in order for each of the packet transfer processing devices 10-1 to 10-n as the transmission source. Therefore, in the control signal processing device 20, it is possible to avoid processing being biased toward the control message transmitted from the specific packet transfer processing devices 10-1 to 10-n, and to operate the system more efficiently. It becomes possible to do.

DESCRIPTION OF SYMBOLS 10 Packet transfer processing apparatus 11-1 to 11-n Input part 12-1 to 12-n Output part 13, 23 Message priority control part 14, 24 Message processing part 14a-1 to 14a-n, 24a-1 to 24a- n Message Processing Queue 15 Packet Transmission Unit 15a Routing Information Table 20 Control Signal Processing Device 21 Protocol Signal Packet Termination Unit 22 Routing Information Table Creation Unit 100 Network

Claims (6)

Control of receiving a packet and transmitting / receiving a plurality of packet transfer processing devices for transferring the received packet and a control message for controlling the plurality of packet transfer processing devices to / from the plurality of packet transfer processing devices A function distributed packet transfer system having a signal processing device,
The control message includes information indicating any of a plurality of processing priorities that are priorities of the order of performing processing according to the control message, and is further transmitted from any of the plurality of packet transfer processing devices. In the case of the control message, including information indicating a transmission source device that is the packet transfer processing device that has transmitted the control message,
Each of the plurality of packet transfer processing devices determines the processing priority of the received control message based on information included in the received control message, and if there are a plurality of the received control messages, the determination Process the plurality of control messages in the order according to the processing priority assigned,
The control signal processing device determines the processing priority of the received control message and the transmission source device based on information included in the received control message, and sequentially determines each determined transmission source device. The received control message is processed, and when there are a plurality of control messages having the same determined source device, the plurality of control messages are processed in the order according to the determined processing priority. Function distributed packet transfer system. The function-distributed packet transfer system according to claim 1,
Each of the plurality of packet transfer processing devices includes:
A first message priority control unit that determines the processing priority of the received control message based on information included in the received control message;
A first message processing unit that performs processing according to the received control message,
The control signal processing device includes:
A second message priority control unit that determines the processing priority of the received control message and the transmission source device based on the information included in the received control message;
A second message processing unit that performs processing according to the received control message,
The first message processing unit temporarily stores the control message before the processing of the received control message is performed, and a plurality of first messages associated with each of the plurality of processing priorities. A message processing queue is set up,
The first message priority control unit stores the control message for which the processing priority is determined in the first message processing queue corresponding to the determined processing priority,
When a plurality of control messages are stored in the plurality of first message processing queues, the first message processing unit corresponds to a higher processing priority among the plurality of control messages. Processes first from the control message stored in the message processing queue,
The second message processing unit temporarily stores the control message before processing the received control message, and stores a plurality of second messages associated with each of the plurality of packet transfer processing devices. And a plurality of sub-queues associated with the processing priority are set in each of the plurality of second message processing queues,
The second message priority control unit outputs the control message for which the processing priority and the transmission source device are determined to the second message processing corresponding to the packet transfer processing device that is the determined transmission source device. Of the plurality of sub-queues in the queue, store them in the sub-queue corresponding to the determined processing priority,
The second message processing unit sequentially checks whether or not the control message is stored in each of the plurality of second message processing queues, and as a result of the check, the control message is stored. A function of performing processing first from a control message stored in a subqueue corresponding to a higher processing priority among a plurality of subqueues in the second message processing queue when the second message processing queue exists Distributed packet transfer system. The function-distributed packet transfer system according to claim 2,
In the case where a plurality of control messages are stored in each of the plurality of first message processing queues, the first message processing unit has an order stored in the message processing queue among the plurality of control messages. Process earlier control messages first,
When a plurality of control messages are stored in each of a plurality of subqueues in each of the plurality of second message processing queues, the second message processing unit is stored in an earlier order in the subqueues. A function-distributed packet transfer system that processes the control message first. Control of receiving a packet and transmitting / receiving a plurality of packet transfer processing devices for transferring the received packet and a control message for controlling the plurality of packet transfer processing devices to / from the plurality of packet transfer processing devices A message processing method in a function-distributed packet transfer system having a signal processing device,
The control message includes information indicating any of a plurality of processing priorities that are priorities of the order of performing processing according to the control message, and is further transmitted from any of the plurality of packet transfer processing devices. In the case of the control message, including information indicating a transmission source device that is the packet transfer processing device that has transmitted the control message,
Each of the plurality of packet transfer processing devices determining the processing priority of the received control message based on information included in the received control message;
A first priority processing step for each of the plurality of packet transfer processing devices to process the plurality of control messages in an order according to the determined processing priority when there are a plurality of the received control messages; ,
The control signal processing device determines the processing priority of the received control message and the transmission source device based on information included in the received control message;
The control signal processing device processes the received control message in order for each of the determined transmission source devices, and the determination is made when there are a plurality of control messages in which the determined transmission source devices are the same. And a second priority processing step for processing the plurality of control messages in the order according to the processing priority. The message processing method according to claim 4,
Each of the plurality of packet transfer processing devices temporarily stores the control message before the received control message is processed, and a plurality of first associated with each of the plurality of processing priorities. Setting up a message processing queue for
A plurality of second message processes associated with each of the plurality of packet forwarding processors, wherein the control signal processor temporarily stores the control message before the received control message is processed. Setting a queue, and further setting a plurality of subqueues associated with the processing priority in each of the plurality of second message processing queues,
The first priority processing step includes:
Each of the plurality of packet transfer processing devices storing the control message for which the processing priority is determined in the first message processing queue corresponding to the determined processing priority;
When each of the plurality of packet transfer processing devices stores a plurality of control messages in the plurality of first message processing queues, the plurality of packet transfer processing devices are configured to correspond to a higher processing priority among the plurality of control messages A first priority control step for processing first from a control message stored in one message processing queue,
The second priority processing step includes
In the second message processing queue, the control signal processing device sends a control message for which the processing priority and the transmission source device are determined in the packet transfer processing device that is the determined transmission source device. A step of storing the sub-queue corresponding to the determined processing priority among the plurality of sub-queues;
The control signal processing device sequentially checks whether or not the control message is stored in each of the plurality of second message processing queues. As a result of the check, the second control message is stored. If there is a message processing queue of the second message processing queue, the second processing is performed first from the control message stored in the subqueue corresponding to the higher processing priority among the plurality of subqueues in the second message processing queue. And a priority control step. The message processing method according to claim 5,
In the first priority control step, when each of the packet transfer processing devices stores a plurality of control messages in each of the plurality of first message processing queues, Including the step of processing earlier from the control message in the earlier order stored in the message processing queue,
In the second priority control step, when the control signal processing device stores a plurality of control messages in each of a plurality of subqueues in each of the plurality of second message processing queues, A message processing method including a step of performing processing first from a control message stored earlier.

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