JP4466245B2 - Redundant packet network standby system switching system and method - Google Patents

Description

  The present invention relates to a switching method from an active packet processing device to a standby packet processing device when a failure occurs in a redundant packet network.

  A standby system switching method in a conventional redundant packet network will be described with reference to FIG.

  Conventionally, in the redundant packet network 10, the control device 11 monitors the failure of the active packet processing devices 5 and 6, and after detecting the failure, the layer 2 switch (L2SW) 3 required when switching to the standby packet processing device 4 , 7, the configuration setting of the tag VLAN (Virtual Local Area Network) of the L2SW 3, 7 by controlling the SNMP (Simple Network Management Protocol) using MIB (Maintenance Information Base) from the control device 11 Added and deleted.

In addition, in a layer 2 network fault monitoring apparatus configured by using a plurality of layer 2 switches, there is a network fault monitoring apparatus that directly detects where a packet is blocked and isolates an abnormal part (for example, see Patent Document 1). ).
JP 2002-252625 A

  However, the standby system switching method in the conventional redundant packet network 10 has the following problems.

  The first problem is that the failure monitoring of the active packet processing devices 5 and 6 is performed by the control device 11, so that it takes time until the configuration setting of the L2SWs 3 and 7 is performed after the failure is detected. The packet loss cannot be suppressed when the standby system is switched.

  The second problem is that the configuration setting change of the L2SWs 3 and 7 is performed by the SNMP control using the MIB from the control device 11 when the standby system is switched, and the commands corresponding to the number of setting items are issued. 7 takes time to complete the setting change, and many packet losses occur during standby system switching, affecting services using the redundant packet network 10.

  Therefore, the present invention can reduce the time from the failure detection to the change of the configuration information of the layer 2 switch to the standby system, and can suppress the packet loss at the time of switching the standby system, and the standby system switching system of the redundant configuration packet network. It aims to provide a method.

In order to solve the above problems, the present invention includes a plurality of active packet processing devices, a standby packet processing device, and a layer 2 switch to which the active packet processing device and the standby packet processing device are connected. When a failure occurs in the active packet processing device, the standby packet processing is performed by changing tagVLAN_ID set in a port to which the plurality of active packet processing devices and the standby packet processing device of the layer 2 switch are connected. A packet network system for switching to a device , wherein a failure detection circuit for detecting a failure of the active packet processing device and a memory of the layer 2 switch are registered in advance in the layer 2 switch; A plurality of active packet processing devices and the standby packet processing device A VLAN port reference table indicating how to change the tagVLAN_ID set to the connected port according to the active packet processing device in which the failure has occurred, and a failure has occurred in any of the plurality of active packet processing devices A control circuit that switches from the active packet processing device in which a failure has occurred with reference to the VLAN port reference table to the standby packet processing device, and the control circuit uses the failure detection circuit to detect the plurality of active packets. When a failure is detected in any of the system packet processing devices, the VLAN port reference table is referred to, and the tag VLAN_ID of the port of the layer 2 switch to which the active system packet processing device in which the failure has occurred is connected. Set to the port of the layer 2 switch to which the standby packet processing is connected And, by removing the tagVLAN_ID ports the fault is active router processor generated is connected, characterized by switching the operation to the standby packet processing unit from the generated working system packet processing device of the fault And
The present invention further includes a plurality of active packet processing devices, a standby packet processing device, and a layer 2 switch to which the active packet processing device and the standby packet processing device are connected, and the active packet A packet network system that switches to the standby packet processing device by changing tagVLAN_ID set in a port to which the plurality of active packet processing devices and standby packet processing devices of the layer 2 switch are connected when a failure occurs in the processing device A standby detection method for detecting a failure of the active packet processing device in the layer 2 switch, and a plurality of the layer 2 switches registered in advance in the memory of the layer 2 switch. Active packet processing apparatus and standby packet processing apparatus A VLAN port reference table indicating how to change the tagVLAN_ID set to the connected port according to the active packet processing device in which the failure has occurred, and a failure has occurred in any of the plurality of active packet processing devices And a control circuit for switching from the active packet processing device in which a failure has occurred with reference to the VLAN port reference table to the standby packet processing device, and the failure detection circuit causes a failure of the active packet processing device. And when the failure is detected in any of the plurality of active packet processing devices by the control circuit, the active packet processing device in which the failure has occurred with reference to the VLAN port reference table The tag VLAN_ID of the port of the layer 2 switch to which is connected is set as the standby packet. By setting the port 2 of the layer 2 switch to which the process is connected and deleting the tag VLAN_ID of the port to which the active packet processing apparatus in which the failure has occurred is deleted, the active packet processing apparatus in which the failure has occurred is deleted. And a step of switching the operation to the standby packet processing device.

  With the configuration described above, devices connected in the L2SWs 3 and 7 (active packet processing devices 5 and 6) are not set changes such as setting addition and deletion settings by controlling SNMP or the like using the MIB from the control device 11. Failure detection function and configuration setting addition / deletion function at the time of failure detection are provided, so that the failure of the connection destination device can be detected and the configuration setting can be changed after detection without using the control device 11, and the system can be switched to the standby system. Time can be reduced and packet loss can be suppressed.

  For configuration setting change, a VLAN port reference table at the time of failure switching is registered in advance in the configuration table memory provided in the L2SWs 3 and 7, and the address of the table referenced by the config table control circuit 13 By reflecting the setting change of the configuration simply by changing the setting, the number of accesses required to change the setting is reduced, and the switching time to the standby system is shortened.

  The first effect of the present invention is that the connection port destination device failure detection circuit 12 of the L2SW 3 or 7 monitors the ARP packet cycle periodically transmitted from the active packet processing devices 5 and 6 connected to the L2SW 3 and 7. Since the failure is detected, the failure can be detected by the L2SW 3 or 7, the time from the failure detection to the change of the configuration information to the standby system can be shortened, and the packet loss at the time of switching the standby system can be suppressed. It can be done.

  The second effect is that, based on the port information of the L2SW 3 or 7 connected to the fault packet processing device 6 notified from the connected port destination device fault detection circuit 12 to the config table control circuit 13, the L2SW 3 or 7 in advance Change the configuration setting because the memory rewrite access control required to change the setting is omitted by switching the address of the configuration table to be referenced according to the VLAN port reference table at the time of failure switching registered in the configuration setting memory. It is possible to reduce the time required for switching to the standby system.

  Next, the best mode of the present invention will be described with reference to the drawings.

  In FIG. 1, a redundant packet network 10 is a packet network configured with a Tag VLAN that passes a VLAN frame with a tag. The L2SWs 3 and 7 are configured to pass tagged VLAN frames, pass only registered tag VLAN_ID frames, and pass unregistered Tag VLAN_ID frames to prevent unnecessary packet transfers, Loads caused by unnecessary packets on the other networks 1, 9, routers 2, 8, and packet processing devices 4, 5, 6 are suppressed. Even when the packet processing apparatus becomes a failure that falls into an abnormal state and encounters a case where illegal packets continue to be transmitted, the network outside the redundant packet network 10 is not affected.

  The packet processing devices 4, 5, and 6 are devices that perform protocol processing, and are devices that handle frames to which TagVLAN_ID is added as a lower layer.

  Tag VLAN_ID necessary for packet transfer in L2SWs 3 and 7 is set in the ports (ports 2 and 3) of L2SWs 3 and 7 connected to the active packet processing devices 5 and 6. Since the port (port 1) of the L2SWs 3 and 7 connected to the standby packet processing apparatus 4 is a standby system and is not used as an active system, the TagVLAN_ID necessary for packet transfer is not set in the L2SWs 3 and 7.

  In FIG. 2, when any of the plurality of active packet processing devices 5 and 6 becomes faulty, such as TagVLAN_ID of the port (port 2 or 3) of L2SW 3 and 7 connected to the faulty packet processing device 5 or 6 Configuration information is set for the port (port 1) of the L2SW 3 and 7 connected to the standby packet processing device 4, and the port (port 2 or 3) of the L2SW 3 and 7 connected to the failed packet processing device 5 and 6 The configuration information such as TagVLAN_ID is deleted, and the network configured with TagVLAN_ID is switched.

  The failure information of the active packet processing devices 5 and 6 is the ARP (Address Resolution Protocol) packet sent from the active packet processing devices 5 and 6 by the connection port destination device failure detection circuit 12 provided in the L2SWs 3 and 7. A failure is detected by monitoring Alternatively, the failure may be detected by monitoring the SNMP Trap packet transmitted when the active packet processing devices 5 and 6 fail.

  After detecting a failure in the connection port destination device failure detection circuit 12, the config table control circuit 13 autonomously adds and deletes configuration settings such as tagVLAN_ID using the L2SWs 3 and 7. The config table control circuit 13 registers a VLAN port reference table at the time of failure switching in the configuration table memory provided in the L2SWs 3 and 7 in advance, and changes the address referenced by the config table control circuit 13. Change the configuration settings with.

  Thus, according to the present invention, when the active packet processing device 5 or 6 becomes a failure and switches to the standby packet processing device 4 in the redundant packet network 10 configured by tag VLAN, the active packet processing device is switched by the L2SWs 3 and 7. Access to the configuration setting change is reduced by autonomously detecting 5 and 6 faults and switching the address of the setting information reference table in which the configuration setting change is registered in advance. The switching time of 5 and 6 can be shortened and packet loss can be suppressed.

  Referring to FIG. 1, in a redundant packet network 10 as an embodiment of the present invention, L2SWs 3 and 7, standby packet processing devices 4, active packet processing devices 5 and 6, and a control device 11 are shown. In FIG. 1, active packet processing devices 5 and 6 perform protocol processing of an input frame, and process a frame with a VLAN tag as an L2 level frame. The standby packet processor 4 does not perform packet protocol processing or frame reception in the standby state, but performs the same operation as the active packet processors 5 and 6 when the state changes to the active system. The control device 11 performs status monitoring of the L2SWs 3 and 7 and status monitoring / control of the packet processing devices 4, 5, and 6.

  The L2SWs 3 and 7 process the registered VLAN frame with a tag, and when a frame with a tag with a registered tag VLAN_ID is input, transfer the frame to the connected device and with a tag with an unregistered tag VLAN_ID When a frame is input, the frame is not transferred, and an extra traffic load is not applied to the connected device. In addition, configuration settings such as tagVLAN_ID are not set in the port (port 1) of the L2SWs 3 and 7 connected to the standby packet processing device 4, and one of the active packet processing devices 5 and 6 becomes an obstacle. At this time, the configuration information such as tagVLAN_ID set in the port of the L2SW 3 and 7 connected to the active packet processing device 5 or 6 that has failed is the port of the L2SW 3 and 7 connected to the standby packet processing device 4 (Port1) is set.

  Referring to FIG. 2, the detailed configuration of the L2SWs 3 and 7 shown in FIG. 1 is shown. In FIG. 2, the connection port destination device failure detection circuit 12 monitors the failure of the active packet processing devices 5 and 6 connected to the L2SW 3 or 7. The monitoring method of the active packet processing device 5 or 6 connected to the L2SW 3 or 7 by the L2SW 3 or 7 monitors the cycle of the ARP packet output to the L2SW 3 or 7 connected from the active packet processing device 5 or 6. If the ARP packet is not received for a certain period of time, it is determined that there is a failure, and there is no input of the ARP packet to the config table control circuit 13. The port number (port 3) is notified. The failure monitoring method by the L2SW 3 or 7 of the active packet processing devices 5 and 6 may be failure monitoring by SNMP control using MIB or trap monitoring by SNMP control. The config table control circuit 13 receives the notification of the port number of the L2SW 3 or 7 determined as a failure, and then refers to the VLAN port reference table at the time of failure switching registered in advance in the table memory provided in the L2SW 3 or 7 Change the configuration settings by changing the address. FIG. 3 shows an example of the VLAN port reference table.

  Next, the operation of the present embodiment will be described with reference to FIG. In this embodiment, the failure of the active packet processing device 6 connected to the L2SW 3 or 7 is detected by the connection port destination device failure detection circuit 12, and the configuration information such as tagVLAN_ID of the L2SW 3 or 7 is detected by the config table control circuit 13. To change the configuration setting of the port (port 1) of the L2SW 3 or 7 connected to the standby packet processing device 4 to the active system, shorten the time from the occurrence of the failure to the change of the configuration information of the L 2 SW 3 or 7, and packet loss To suppress.

  The connection port destination device failure detection circuit 12 monitors the transmission cycle of the ARP packets periodically transmitted from the active packet processing devices 5 and 6, and detects an abnormality in the transmission cycle and a transmission stop state. Alternatively, the SNMP Trap sent when a failure occurs in the active packet processing devices 5 and 6 is monitored, and a failure in the active packet processing devices 5 and 6 connected to the L2SW 3 or 7 is detected. When the connected port destination device failure detection circuit 12 detects that the port of the L2SW 3 or 7 to which the failed packet processing device 6 is connected is port 3, the L2SW 3 to which the failed packet processing device 6 is connected to the config table control circuit 13 Alternatively, the port 7 is notified that it is port3.

  The config table control circuit 13 that has received the notification of the port, based on the information of the standby port and the failed port, addresses D of the table to be referenced from the previously registered VLAN port reference table at the time of failure (FIG. 3). To switch the memory table to be referenced as configuration information. When the address of the table to be referenced is switched to D, the configuration information referred to by the L2SW 3 or 7 performs packet transfer control by tag VLAN according to the mapping of the VLAN_ID and the Port number described in the address D, and the active packet processing The setting change from the device 6 to the standby packet processing device 4 is completed.

It is a block diagram which shows the Example of this invention. It is a detailed block diagram of the layer 2 switch by this invention. It is a figure which shows an example of a VLAN port reference table.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,9 Other network 2,8 Router 3,7 Layer 2 switch 4 Standby system packet processing apparatus 5,6 Active system packet processing apparatus 10 Redundant packet network 11 Control apparatus 12 Connection port destination apparatus failure detection circuit 13 config table control circuit

Claims (5)

A plurality of active packet processing devices, a standby packet processing device, and a layer 2 switch to which the active packet processing device and the standby packet processing device are connected, and when a failure occurs in the active packet processing device A packet network system that switches to the standby packet processing device by changing a tagVLAN_ID set in a port to which the plurality of active packet processing devices and the standby packet processing device of the layer 2 switch are connected ;
In the layer 2 switch,
A failure detection circuit for detecting a failure of the active packet processing device;
A tagVLAN_ID registered in advance in the memory of the layer 2 switch and set in a port to which the plurality of active packet processing devices and the standby packet processing device of the layer 2 switch are connected is used as a working active packet processing device. VLAN port reference table showing how to change according to
A control circuit that switches from the failed active packet processing device to the standby packet processing device by referring to the VLAN port reference table when a failure occurs in any of the plurality of active packet processing devices. ,
When a failure is detected in any of the plurality of active packet processing devices by the failure detection circuit, the control circuit refers to the VLAN port reference table and processes the active packet processing in which the failure has occurred. A port to which the tag VLAN_ID of the port of the layer 2 switch to which the device is connected is set to the port of the layer 2 switch to which the standby packet processing is connected, and to which the active packet processing device in which the failure has occurred is connected The standby system switching system for a redundantly configured packet network is characterized in that the operation is switched from the active packet processing apparatus in which the failure has occurred to the standby packet processing apparatus by deleting the tag VLAN_ID . 2. The standby system switching system for a redundantly configured packet network according to claim 1, wherein the failure detection circuit detects a failure by monitoring a cycle of an ARP packet transmitted from the active packet processing device. The fault detection circuit, the active router processor standby switching system according to claim 1, wherein the redundant packet network, characterized in that detecting a fault by monitoring the SNMP Trap packets sent during failure. A plurality of active packet processing devices, a standby packet processing device, and a layer 2 switch to which the active packet processing device and the standby packet processing device are connected, and when a failure occurs in the active packet processing device A standby switching method of a packet network system that switches to the standby packet processing device by changing tagVLAN_ID set in a port to which the plurality of active packet processing devices and standby packet processing devices of the layer 2 switch are connected. There ,
In the layer 2 switch,
A failure detection circuit for detecting a failure of the active packet processing device;
A tagVLAN_ID registered in advance in the memory of the layer 2 switch and set in a port to which the plurality of active packet processing devices and the standby packet processing device of the layer 2 switch are connected is used as a working active packet processing device. VLAN port reference table showing how to change according to
A control circuit that switches from the failed active packet processing device to the standby packet processing device by referring to the VLAN port reference table when a failure occurs in any of the plurality of active packet processing devices. ,
Detecting a failure of the active packet processing device by the failure detection circuit;
When a failure is detected in any of the plurality of active packet processing devices by the control circuit, the layer to which the active packet processing device in which the failure has occurred is connected with reference to the VLAN port reference table By setting the tag VLAN_ID of the two-switch port to the port of the layer 2 switch to which the standby packet processing is connected, and deleting the tag VLAN_ID of the port to which the faulty active packet processing device is connected A step of switching operation from the active packet processing device in which the failure has occurred to the standby packet processing device;
Standby system switching method of a redundant configuration packet network, which comprises a. In the failure detection, a failure is detected by monitoring a cycle of an ARP packet transmitted from the active packet processing device, or a failure is detected by monitoring an SNMP Trap packet transmitted when the active packet processing device fails. standby system switching method of claim 4, wherein the redundant packet network, characterized in that the detecting.

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