JP2009200721A - Function distribution type packet transfer system and its control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a function distribution type packet transfer device with improve reliability. <P>SOLUTION: A packet transfer processor outputs packets arriving from an input line from an output line determined on the basis of a routing information table. At least two control signal processors of an active system and a standby system are provided, and the control signal processor of the active system processes control signals to generate routing information and sets the routing information to the routing information table of the packet transfer processor. A monitoring manager stores the correspondence of the control signal processor of the active system and the control signal processor of the standby system, monitors the fault of the control signal processor of the active system at least, and when a fault occurs in the control signal processor of the active system, switches the control signal processor of the standby system corresponding to the control signal processor of the active system to the active system. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a technique for improving system reliability in a function-separated packet transfer system in which packet transfer processing is performed in cooperation between a control signal processing device and a packet transfer processing device that are physically distributed and deployed.

  In an IP network in which packet exchange is performed in units of IP (Internet Protocol) packets, various applications such as e-mail, WWW (World Wide Web), and VoIP (Voice over IP) can be used. In addition, the IP network is cheaper than the circuit switching telephone network. Due to such superiority, in recent years, IP networks have been rapidly spread, and their traffic has increased explosively.

  The router arranged as each node in the IP network determines the output line of the packet based on the IP header information of the packet received from the input line. In a general router mainly used in an IP network, a CPU (Central Processing Unit) is bus-connected to a corresponding part of an input line and an output line, and the CPU determines an output line of a packet by software processing. This type of router is called a software router.

  However, in recent years, in order to cope with the explosive increase in traffic, the packet is switched by analyzing the header of the IP packet by hardware and connecting the corresponding part of the input line and the corresponding part of the output line with a high-speed switch. The router that speeds up is in the spotlight. This type of router is called a hardware router.

  More recently, it has been proposed to separate the router from the control signal processing unit and the packet transfer processing unit in order to improve the performance of the router. By doing so, packet transfer processing can be performed without being affected by the load caused by routing processing.

According to Non-Patent Document 1, a control signal processing unit that processes control signals to set routing information and the like and a data signal processing unit that actually performs packet routing are separated into physically different cases, A function-distributed packet transfer apparatus has been proposed in which the flexibility of the functional configuration of the system and apparatus is improved by distributed deployment on a network. In such a function-distributed packet transfer device, any one control signal processing unit among a plurality of control signal processing units is configured so that any one of a plurality of packets among the plurality of packet transfer processing units is set by setting a control protocol session. Coupled to the transfer processor. Then, the control signal processing unit centrally performs setting and management of a plurality of packet transfer processing units coupled by a control protocol, so that the control signal processing unit and the packet transfer processing unit as a whole are logically 1 Operate as a single packet transfer device.
T.A. V. Lakshman, T .; Nandagopal, R.A. Ramjee, K.M. Sabnani, and T.A. Woo, “The SoftRouter architecture,” in Proc. ACM SIGCOMM Works on Hot Topics in Networking, November 2004.

  In the function distribution type packet transfer apparatus described above, if the control signal processing unit goes down due to a failure, it becomes impossible to perform path control for all the packet transfer processing units managed by the control signal processing unit. Therefore, the influence of the fault tolerance of the control signal processing unit on the entire system is extremely large, and improving the reliability of the control signal processing unit is an important issue.

  An object of the present invention is to provide a function distributed packet transfer apparatus with improved reliability.

In order to achieve the above object, the function-distributed packet transfer system of the present invention includes:
Packet transfer that accommodates input lines and output lines, holds a routing information table that associates input and output of packets, and outputs packets arriving from the input lines from output lines determined based on the routing information table A processing device;
Processing the control signal, generating routing information for routing the packet, and setting the routing information in the routing information table of the packet transfer processing device, at least two control signal processing devices of the active system and the standby system When,
The correspondence between the active control signal processing device and the standby control signal processing device is stored, and at least the failure of the active control signal processing device is monitored, and the active control signal processing device is faulty. And a monitoring manager that switches the standby control signal processing apparatus corresponding to the active control signal processing apparatus to the active system.

In addition, the function distribution type packet transfer system of the present invention,
The active control signal processing device notifies the monitoring manager of operation information related to its own operation,
When a failure occurs in the active control signal processing apparatus, the monitoring manager notifies the operation signal notified from the control signal processing apparatus to a new control signal processing apparatus. Also good.

In addition, the function distribution type packet transfer system of the present invention,
The packet transfer processing device stores an association between the active control signal processing device and the standby control signal processing device, and is connected to the active control signal processing device, When a failure occurs in the control signal processing device, reconnection may be performed to the backup control signal processing device corresponding to the active control signal processing device.

In addition, the function distribution type packet transfer system of the present invention,
The packet transfer processing device and the control signal processing device may be connected in a control protocol session.

In addition, the function distribution type packet transfer system of the present invention,
The control signal processing device determines the packet processing to be added to the packet by processing the control signal, sets the packet processing in the packet transfer processing device,
The packet transfer processing device may route the packet and add the packet processing set by the control signal processing device to the packet.

  According to the present invention, when a failure occurs in the active control signal processing device, the operation is taken over by the standby control signal processing device, so that the system operation can be recovered early and the steady operation can be resumed promptly. be able to. This improves the reliability of the function distributed packet transfer system.

  Embodiments for carrying out the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a function distribution type packet transfer system according to the present embodiment. Referring to FIG. 1, the function distributed packet transfer system includes a monitoring manager 11, control signal processors 12 and 13, and packet transfer processors 14 to 15. The packet transfer processing devices 14 to 15 and the control signal processing devices 12 and 13 are connected by a control protocol session set on the network.

  The control signal processing devices 12 and 13 are devices that process control signals and set routing information in the packet transfer processing devices 14 to 15. Redundancy is configured in which one of the control signal processing device 12 and the control signal processing device 13 is used as an active line and the other is used as a backup. In FIG. 1, the control signal processing device 12 is an active system, and the control signal processing device 13 is a standby system. The active control signal processing device 12 sets routing information for the packet transfer processing units 14 to 15 and manages the packet transfer processing units 14 to 15. The standby control signal processor 13 operates in place of the active system when a failure occurs in the active system. The control signal processing devices 12 and 13 have basically the same configuration.

  The packet transfer processing devices 14 to 15 are devices that actually perform packet routing. The packet transfer processing devices 14 to 15 are connected to an active control signal processing unit, and perform packet switching by connecting an input line and an output line according to routing information set therefrom. The packet transfer processing devices 14 to 15 all have basically the same configuration.

  The monitoring manager 11 associates the active and standby control signal processing devices, monitors the occurrence of a failure in the active control signal processing device, and switches between the active and standby systems when a failure is detected, The control signal processing apparatus is made active.

  FIG. 2 is a block diagram showing the configuration of the packet transfer processing device 14. Referring to FIG. 2, the packet transfer processing device 14 includes a packet transmission unit 23, a packet processing unit 24, and a failure management unit 25.

  The packet transmission unit 23 performs routing of packets from the plurality of input lines 21 to the plurality of output lines 22 based on the routing information table 23a storing the routing information set by the control signal processing device. A packet from one input line 21 may be output to a plurality of output lines 22.

  The packet processing unit 24 performs a predetermined process on the packet passing through the own device according to the control from the control signal processing device. The packet transfer processing device 14 includes a plurality of packet processing units 24, and each packet processing unit 24 performs processing set for each.

  The failure management unit 25 stores the correspondence between the active and standby control signal processing devices connected to the own device, and monitors the occurrence of a failure in the active control signal processing device connected to the own device. When a failure is detected, reconnection processing is performed on the standby control signal processing device.

  FIG. 3 is a block diagram showing a configuration of the control signal processing device 12. Referring to FIG. 3, the control signal processing device 12 includes a routing table creation unit 31, a protocol packet termination unit 32, a packet processing control unit 33, and a failure management unit 34.

  The routing table creation unit 31 determines the routing in the packet transfer processing devices 14 to 15 by processing the control signal terminated in the protocol packet termination unit 32 and sets the routing information in the packet transfer processing devices 14 to 15. To do.

  The protocol packet termination unit 32 terminates a session of a control protocol that is transmitted and received in order to control routing and packet processing of the packet transfer processing devices 14 to 15.

  The packet processing control unit 33 determines processing to be added to the packet in the packet processing unit 24 on the packet transfer processing devices 14 to 15 and sets the processing to the packet transfer processing devices 14 to 15. The control signal processing device 12 includes a plurality of packet processing control units 33, and each packet processing control unit 33 controls the packet processing unit 24. Each packet processing control unit 33 is realized by executing an application, for example. Control to the packet transfer processing devices 14 to 15 is performed on a control protocol session.

  The failure management unit 34 uses the latest information related to the operation of the own device, such as routing information generated during the steady operation and information related to the packet transfer processing devices 14 to 15 under the management of the own device, as the operation manager 11. Notify This operation information is used to take over the operation of the active system to the standby system when the control signal processing apparatus is switched from the active system to the standby system.

  FIG. 4 is a block diagram showing the configuration of the monitoring manager 11. Referring to FIG. 4, the monitoring manager 11 has a failure management unit 41. The failure management unit 41 stores associations between the active and standby control signal processing devices 12 and 13 and monitors the occurrence of failures in the control signal processing devices 12 and 13.

  The failure management unit 41 holds operation information notified from the active control signal processing device, and monitors the occurrence of a failure in the active control signal processing device. When a failure occurs in the active control signal processing device, the failure management unit 41 activates the standby control signal processing device associated with the active control signal processing device, and activates the activated control signal processing device. Set the stored operation information.

  Next, the operation of the function distribution type packet transfer system according to the present embodiment will be described. FIG. 5 is a flowchart showing a processing procedure of the function-distributed packet transfer system according to the present embodiment, and shows processing when a failure occurs in the active control signal processing device 12. Referring to FIG. 5, the control signal processing device 12 notifies the monitoring manager 11 of the latest routing information and the information related to the packet transfer processing devices 14 to 15 under its management as operation information during the steady operation (step). 111).

  When a failure occurs in the control signal processing device 12 (step 112), the monitoring manager 11 detects a failure in the control signal processing device 12 (step 113), and the packet transfer processing devices 14 to 15 also fail in the control signal processing device 12. Is detected (step 116).

The monitoring manager 11 that has detected the failure of the control signal processing device 12 activates the standby control signal processing device 13 associated with the control signal processing device 12 (step 114).
Subsequently, the monitoring manager 11 notifies the activated standby control signal processing device 13 of the operation information of the active control signal processing device 12 in which a failure has occurred and sets it (step 115).

  Further, the packet transfer processing devices 14 to 15 that have detected the failure of the control signal processing device 12 in step 116 transfer to the backup control signal processing device 13 associated with the active control signal processing device 12 in which the failure has occurred. Then, reconnection is performed (step 117).

  When the processing of step 115 by the monitoring manager 11 and the processing of step 117 by the packet transfer processing devices 14 to 15 are completed, the control signal processing device 13 which is a standby system becomes the active system.

  As described above, according to the present embodiment, when a failure occurs in the active control signal processing device 12 in the function-distributed packet transfer system, the standby control signal processing device 13 takes over the operation. Thus, the operation of the function-distributed packet transfer system can be restored early and the steady operation can be resumed promptly. This improves the reliability of the function distributed packet transfer system.

It is a block diagram which shows the structure of the function distribution type packet transfer system by this embodiment. 3 is a block diagram showing a configuration of a packet transfer processing device 14. FIG. 3 is a block diagram showing a configuration of a control signal processing device 12. FIG. 2 is a block diagram showing a configuration of a monitoring manager 11. FIG. It is a flowchart which shows the process sequence of the function distribution type packet transfer system by this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Monitoring manager 12, 13 Control signal processing apparatus 14-15 Packet transfer processing apparatus 21 Input line 22 Output line 23 Packet transmission part 23a Routing information table 24 Packet processing part 25 Fault management part 31 Routing table preparation part 32 Protocol packet termination part 33 Packet processing control unit 34 Fault management unit 41 Fault management unit

Claims (10)

Packet transfer that accommodates input lines and output lines, holds a routing information table that associates input and output of packets, and outputs packets arriving from the input lines from output lines determined based on the routing information table A processing device;
Processing the control signal, generating routing information for routing the packet, and setting the routing information in the routing information table of the packet transfer processing device, at least two control signal processing devices of the active system and the standby system When,
The correspondence between the active control signal processing device and the standby control signal processing device is stored, and at least the failure of the active control signal processing device is monitored, and the active control signal processing device is faulty. And a monitoring manager that switches a standby control signal processing apparatus corresponding to the active control signal processing apparatus to the active system when the active control signal processing apparatus is generated. The active control signal processing device notifies the monitoring manager of operation information related to its own operation,
The monitoring manager, when a failure occurs in the active control signal processing device, notifies the operation signal notified from the control signal processing device to a new control signal processing device. 2. A function distributed packet transfer system according to 1.   The packet transfer processing device stores an association between the active control signal processing device and the standby control signal processing device, and is connected to the active control signal processing device, 3. The function-distributed packet transfer system according to claim 1, wherein when a failure occurs in the control signal processing device, reconnection is made to a backup control signal processing device corresponding to the active control signal processing device. .   4. The function distribution type packet transfer system according to claim 1, wherein the packet transfer processing device and the control signal processing device are connected in a control protocol session. 5. The control signal processing device determines the packet processing to be added to the packet by processing the control signal, sets the packet processing in the packet transfer processing device,
The function distribution according to any one of claims 1 to 4, wherein the packet transfer processing device routes the packet and adds the packet processing set by the control signal processing device to the packet. Type packet transfer system. A function-distributed packet transfer system in which a packet transfer processing device that routes and outputs input packets and a control signal processing device that processes control signals and generates routing information used by the packet transfer processing device for routing are separated A packet transfer system control method for controlling
The active control signal processing device that generates the routing information and sets the packet transfer processing device and the standby control signal processing device that serves as a backup of the active control signal processing device are associated,
Monitor the fault of the control signal processing device of the current system,
A packet transfer system control method, wherein when a failure occurs in the active control signal processing apparatus, a standby control signal processing apparatus corresponding to the active control signal processing apparatus is switched to the active system. Obtaining operation information related to the operation of the control signal processing device from the active control signal processing device,
The packet according to claim 6, wherein when a failure occurs in the active control signal processing device, the operation information notified from the control signal processing device is newly notified to the active control signal processing device. Transfer system control method.   The packet transfer processing device stores the association between the active control signal processing device and the standby control signal processing device, and is connected to the active control signal processing device. 8. The packet transfer system control method according to claim 6, wherein when a failure occurs in the control signal processing apparatus, a reconnection is made to the backup control signal processing apparatus corresponding to the active control signal processing apparatus. .   The packet transfer system control method according to any one of claims 6 to 8, wherein the packet transfer processing device and the control signal processing device are connected in a session of a control protocol. The control signal processing device determines the packet processing to be added to the packet by processing the control signal, sets the packet processing in the packet transfer processing device,
The packet transfer processing device routes the packet and adds the packet processing set by the control signal processing device to the packet.
The packet transfer system control method according to any one of claims 6 to 9.

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