JP2014007490A - Network fault monitoring system and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform VLAN monitoring and physical link monitoring at the same time at a constant consumption band independent of the number of VLANs.SOLUTION: A network fault monitoring system places a virtual VLAN monitoring point between a VLAN monitoring point and a physical link monitoring point in a switch, and comprises means for transmitting and receiving a monitoring frame per VLAN transmitted and received between facing VLAN monitoring points between the VLAN monitoring point and the virtual VLAN monitoring point in the switch, and means for transferring fault information per physical link detected by transmission and reception of a monitoring frame per physical link to the virtual VLAN monitoring point, or transferring fault information per VLAN detected at one VLAN monitoring point from one virtual VLAN monitoring point to the other virtual VLAN monitoring point. The network fault monitoring system is configured to detect a fault as a fault between the facing VLAN monitoring points by the virtual monitoring point receiving the fault information per physical link or the fault information per VLAN.

Description

  The present invention relates to normality of communication in each section (presence or absence of failure) in a point-to-point network in which Ethernet (registered trademark) switches such as L2 switch and L3 switch are linearly connected, or in a multi-access network in mesh connection. The present invention relates to a network fault monitoring system and method.

FIG. 5 shows a configuration example of a conventional network failure monitoring system.
In FIG. 5, in the network failure monitoring system, Ethernet switches 11, 12, and 13 are linearly connected via physical lines 21 and 22. Here, communication between Ethernet switches is operated by tag VLAN (Non-Patent Document 1) with a plurality of logical lines (VLAN paths) multiplexed in one physical link. Normality of VLAN communication (whether there is a failure or not) by sending and receiving monitoring frames such as Ethernet OAM (Non-Patent Documents 2 and 3) at the VLAN monitoring points 31 and 32 set at the VLAN endpoints connecting the Ethernet switches at both ends. ). At the physical link monitoring points 41 and 42 set between the physical link end points connecting the adjacent Ethernet switches and the physical link monitoring points 43 and 43, the normality (failure of communication) between the switches is similarly obtained by transmitting and receiving monitoring frames. Monitoring).

IEEE802.1q -Virtual LANs ITU-T Y.1731- OAM functions and mechansims for Ethernet based networks IEEE802.1ag -Connectivity Fault Management

  A specific section can be monitored by transmitting / receiving a monitoring frame such as Ethernet OAM. When monitoring between VLAN endpoints (hereinafter referred to as “VLAN monitoring”), VLAN monitoring points 31 and 32 are assigned to each VLAN endpoint as shown in FIG. In VLAN monitoring, the communication of a specific VLAN can be monitored end-to-end. However, in the VLAN monitoring, since the communication between the VLAN endpoints is confirmed, it is not possible to specify the link failure point when a physical link failure occurs.

  When monitoring between physical link endpoints (hereinafter referred to as physical link monitoring), as shown in FIG. 5 (2), physical link monitoring points 41 and 42 and physical link monitoring points 43 and 44 are provided at each physical link endpoint. assign. In physical link monitoring, it is possible to identify a link fault location by confirming communication between specific links. However, the failure of the VLAN cannot be specified because the communication is confirmed on a link basis.

  Further, VLAN monitoring and physical link monitoring can be executed simultaneously. In this case, as shown in FIG. 5 (3), VLAN monitoring points 31, 32 and physical link monitoring points 41, 42, 43, 44 are allocated to both the VLAN end point and the physical link end point. Transmission / reception of monitoring frames between VLAN end points and transmission / reception of monitoring frames between physical link end points operate independently. By executing VLAN monitoring and physical link monitoring at the same time, it is possible to identify the faulty VLAN and physical link fault location. Bandwidth consumption becomes a problem. For example, if a 92-byte monitoring frame is transmitted at 3.3 ms intervals, the bandwidth consumed will be 223 kbps. In addition, the bandwidth consumption increases in proportion to the number of VLANs.

  An object of the present invention is to provide a network failure monitoring system and method capable of simultaneously performing VLAN monitoring and physical link monitoring in a constant bandwidth without depending on the number of VLANs.

  The first invention is a point-to-point network or multi-access network in which a plurality of switches are connected via physical lines, and sends and receives monitoring frames in units of VLANs between opposing VLAN monitoring points. In a network failure monitoring system that transmits and receives monitoring frames in units of physical links between link monitoring points and monitors the occurrence of failures in each section, virtual VLAN monitoring is performed between the VLAN monitoring points in the switch and the physical link monitoring points. A means for transmitting and receiving a monitoring frame in a VLAN unit between a VLAN monitoring point and a virtual VLAN monitoring point in a switch, and transmission and reception of a monitoring frame in a physical link unit. Fault information for each physical link detected up to the virtual VLAN monitoring point Or a means for transferring failure information in VLAN units detected at one VLAN monitoring point from one virtual VLAN monitoring point to the other virtual VLAN monitoring point. The fault information is detected as a fault between opposing VLAN monitoring points when the virtual VLAN monitoring point receives the fault information.

  In the network fault monitoring system according to the first aspect of the present invention, a virtual VLAN monitoring point is arranged between one physical link monitoring point and the other physical link monitoring point of the relay switch, and the physical VLAN unit at the virtual VLAN monitoring point. In this configuration, failure information or failure information in units of VLANs is transferred.

  The second invention is a point-to-point network or a multi-access network in which a plurality of switches are connected via physical lines, and transmits and receives monitoring frames in units of VLANs between opposing VLAN monitoring points. In a network failure monitoring method that transmits and receives a monitoring frame in units of physical links between link monitoring points and monitors the occurrence of a failure in each section, virtual VLAN monitoring is performed between the VLAN monitoring point in the switch and the physical link monitoring point. A monitoring frame in VLAN units sent and received at opposing VLAN monitoring points is sent and received between the VLAN monitoring points and virtual VLAN monitoring points in the switch, and detected by sending and receiving monitoring frames in physical link units. The failure information in units of physical links is transferred to the virtual VLAN monitoring point. Transfers fault information in VLAN units detected at one VLAN monitoring point from one virtual VLAN monitoring point to the other virtual VLAN monitoring point, and fault information in physical link units or fault information in VLAN units is virtual VLAN monitoring point Is detected as a failure between opposing VLAN monitoring points.

  In the network failure monitoring method of the second invention, a virtual VLAN monitoring point is arranged between one physical link monitoring point and the other physical link monitoring point of a relay to be relayed, and the physical VLAN unit at the virtual VLAN monitoring point. Transfers fault information or fault information in units of VLANs.

  In the present invention, a virtual VLAN monitoring point is mounted on a switch, and transmission / reception of monitoring frames in VLAN units is completed by internal processing of the switch, so that it is not necessary to transfer VLAN monitoring frames in a physical link, and bandwidth consumption can be suppressed. It becomes.

  In the prior art, the bandwidth consumption increases in proportion to the number of VLANs to be monitored. In the present invention, however, the VLAN monitoring and the physical link monitoring are performed with a constant consumption bandwidth corresponding to the number of physical links without depending on the number of VLANs. Can be carried out simultaneously.

It is a figure which shows the structural example of the network failure monitoring system of this invention. It is a figure which shows the operation | movement outline | summary at the time of the physical link failure in the network failure monitoring system of this invention. It is a figure which shows the operation | movement outline | summary at the time of VLAN failure in the network failure monitoring system of this invention. It is a figure which shows the structural example of the multi-access network to which this invention is applied. It is a figure which shows the structural example of the conventional network failure monitoring system.

FIG. 1 shows a configuration example of a network failure monitoring system of the present invention.
In FIG. 1, the Ethernet switch 11 and the Ethernet switch 12 are connected via a physical line 21, and the Ethernet switch 12 and the Ethernet switches 13 and 14 are connected via physical lines 22 and 23. VLANs are set between the Ethernet switch 11 and the Ethernet switch 13 and between the Ethernet switch 11 and the Ethernet switch 14 (indicated by broken arrows in the figure). At each VLAN end point, VLAN monitoring points 31 and 32 and VLAN monitoring points 33 and 34 for monitoring in units of VLANs are set. Physical link monitoring points 41 and 42, physical link monitoring points 43 and 44, and physical link monitoring points 45 and 46 for monitoring in units of physical links are set at the physical link end points facing each Ethernet switch. Further, as a feature of the present invention, virtual VLAN monitoring points 51, 52, and 53 and virtual VLAN monitoring points 54, 55, and 56 are mounted on each Ethernet switch corresponding to each VLAN.

  A virtual VLAN monitoring point exists for each switch and VLAN and has an attribute value. The virtual VLAN monitoring points 51, 53, 54, and 56 of the Ethernet switches 11, 13, and 14 serving as VLAN end points (having VLAN monitoring points 31 to 34) have an “End attribute”. The virtual VLAN monitoring points 52 and 55 of the Ethernet switch 12 serving as a VLAN relay point have a “Transit attribute”. One virtual VLAN monitoring point can have both “End attribute” and “Transit attribute” attributes. The virtual VLAN monitoring points 51 to 56 correspond to one or more physical link monitoring points 41 to 46. The correspondence between the virtual VLAN monitoring point and the physical link monitoring point can be learned from information held by the Ethernet switch such as a MAC address table.

(1) Operation during normal operation (when no failure has occurred) The operation during normal operation (when no failure has occurred) will be described with reference to FIG. When a VLAN failure and a physical link failure have not occurred, for example, the virtual VLAN monitoring point 51 of the Ethernet switch 11 operates as an opposite VLAN monitoring point with respect to the VLAN monitoring point 31 in the Ethernet switch 11, and the VLAN of the opposing Ethernet switch 13 is operated. Instead of the monitoring point 32, the VLAN monitoring frame is transmitted and received. Also in the Ethernet switch 13, the virtual VLAN monitoring point 53 operates as an opposite VLAN monitoring point with respect to the VLAN monitoring point 32. At this time, since transmission / reception of the VLAN monitoring frame is an internal process of each of the Ethernet switches 11 and 13, the monitoring frame transferred through each physical link is only the monitoring frame transmitted / received between the physical link end points, and VLAN monitoring is performed. Bandwidth consumption can be reduced compared to the case of transferring frames. The same applies to the VLAN between the Ethernet switches 11 and 14.

  However, a specific monitoring frame transmitted from the VLAN monitoring points 31 to 34 such as an Ethernet OAM loopback test is not terminated at the virtual VLAN monitoring points 51, 53, 54, and 56, and is transparently transferred. The transfer may be performed to the opposite VLAN monitoring point.

  Further, when no VLAN failure and no physical link failure occur, the virtual VLAN monitoring points 51 to 56 have no effect on the associated physical link monitoring points 41 to 46 in the same Ethernet switch.

(2) Operation when a physical link fails The operation when a physical link fails will be described with reference to FIG. The configurations of the Ethernet switches 11 to 14 and the physical lines 21 to 23 are the same as those in FIG.

  When a physical link failure occurs, the physical link monitoring points 41 to 46 detect the failure and identify the failure location by the physical link monitoring original operation. One or more virtual VLAN monitoring points 51 to 56 are associated with the physical link monitoring points 41 to 46. In the example of FIG. 2, when a failure occurs in the physical line 22, the physical link monitoring points 43 and 44 notify the physical link failure information a and b to all the virtual VLAN monitoring points 52 and 53 associated therewith. To do. This process is performed as an internal process of the Ethernet switches 12 and 13, respectively.

  When the virtual VLAN monitoring point 52 with the Transit attribute of the Ethernet switch 12 receives the physical link failure information a, the physical link monitoring point (in this case) of the associated physical link monitoring points 42 and 43 that has not detected a failure (here, 42), and when the number of physical link monitoring points that have not detected a failure is 1 (described later in the case of 2 or more), a data unit c for notifying a VLAN failure is generated and the failure is detected. It transmits to the physical link monitoring point 42 that is not. Transmission of the data unit c for notifying the VLAN failure from the virtual VLAN monitoring point 52 to the physical link monitoring point 42 is performed by internal transfer of the Ethernet switch 12.

  When the physical link monitoring point 42 of the Ethernet switch 12 receives the data unit c for notifying the VLAN failure, the physical link monitoring point 42 of the Ethernet switch 12 is notified of the data unit d for notifying the physical link monitoring point 41 of the opposing Ethernet switch 11. Send. For example, this information may be transmitted in a monitoring frame transmitted / received between the physical link monitoring points 41 and 42.

  When the physical link monitoring point 41 of the Ethernet switch 11 receives the data unit d for notifying the VLAN failure, the physical link monitoring point 41 transmits the data unit e for notifying the associated virtual VLAN monitoring point 51 of the VLAN failure. To do.

  The virtual VLAN monitoring point 51 with the End attribute of the Ethernet switch 11 goes down when receiving the data unit e for notifying the VLAN failure. On the other hand, the virtual VLAN monitoring point 53 with the End attribute of the Ethernet switch 13 goes down when the physical link failure information b is received from the physical link monitoring point 43. As a result, transmission / reception of monitoring frames is stopped between the VLAN monitoring point 31 and the virtual VLAN monitoring point 51, and between the VLAN monitoring point 32 and the virtual VLAN monitoring point 53, respectively. The VLAN monitoring points 31 and 32 detect that a failure occurs in the monitored VLAN due to the stop of transmission / reception of the monitoring frame, and communication between the opposing VLAN monitoring points 31 and 32 cannot be performed.

(3) Operation at the time of VLAN failure The operation at the time of VLAN failure will be described with reference to FIG. The configurations of the Ethernet switches 11 to 14 and the physical lines 21 to 23 are the same as those in FIG.

  If a VLAN monitoring point at the failure location becomes invalid when a specific VLAN failure occurs, the virtual VLAN monitoring point with the opposite End attribute detects the VLAN failure. In the example of FIG. 3, when a failure occurs in the VLAN monitoring point 32 of the Ethernet switch 13, the opposing virtual VLAN monitoring point 53 detects the failure. The virtual VLAN monitoring point 53 with the End attribute generates a data unit a for notifying the VLAN failure and transmits it to the physical link monitoring point 44 where no failure is detected. Transmission of the data unit a for notifying the VLAN failure from the virtual VLAN monitoring point 53 to the physical link monitoring point 44 is performed by internal transfer of the Ethernet switch 13.

  When the physical link monitoring point 44 of the Ethernet switch 13 receives the data unit a for notifying the VLAN failure, the physical link monitoring point 44 of the Ethernet switch 13 sets the data unit b for notifying the physical link monitoring point 43 of the opposing Ethernet switch 12. Send. For example, this information may be transmitted in a monitoring frame transmitted / received between the physical link monitoring points 43 and 44.

  When the physical link monitoring point 43 of the Ethernet switch 12 receives the data unit b for notifying the VLAN failure, the physical link monitoring point 43 transmits the data unit c for notifying the associated virtual VLAN monitoring point 52 of the VLAN failure. To do.

  When the virtual VLAN monitoring point 52 with the Transit attribute of the Ethernet switch 12 receives the data unit c for notifying the VLAN failure, the physical link in which no failure is detected among the associated physical link monitoring points 42 and 43. Count the number of monitoring points (42 in this case), and if the number of physical link monitoring points where no failure is detected is 1 (described later if 2 or more), generate a data unit d for notifying the VLAN failure And transmitted to the physical link monitoring point 42 where no failure has been detected. Transmission of the data unit d for notifying the VLAN failure from the virtual VLAN monitoring point 52 to the physical link monitoring point 42 is performed by internal transfer of the Ethernet switch 12.

  When the physical link monitoring point 42 of the Ethernet switch 12 receives the data unit d for notifying the VLAN failure, the physical link monitoring point 42 notifies the physical link monitoring point 41 of the opposing Ethernet switch 11 of the data unit e for notifying the VLAN failure. Send. For example, this information may be transmitted in a monitoring frame transmitted / received between the physical link monitoring points 41 and 42.

  When receiving the data unit e for notifying the VLAN failure, the physical link monitoring point 41 of the Ethernet switch 11 transmits the data unit f for notifying the associated virtual VLAN monitoring point 51 of the VLAN failure. To do.

  The virtual VLAN monitoring point 51 with the End attribute of the Ethernet switch 11 goes down when it receives the data unit f for notifying the VLAN failure. Monitoring frame transmission / reception stops between the VLAN monitoring point 31 and the virtual VLAN monitoring point 51. The VLAN monitoring point 31 detects that a failure has occurred in the monitored VLAN due to suspension of transmission / reception of the monitoring frame, and communication between the opposing VLAN monitoring points 31 and 32 cannot be performed.

(4) Case of Multi-Access Network FIG. 4 shows a configuration example of a multi-access network to which the present invention is applied.
In FIG. 4, the Ethernet switch 11 and the Ethernet switch 12 are connected via a physical line 21, and the Ethernet switch 12 and the Ethernet switches 13 and 14 are connected via physical lines 22 and 23. One VLAN is set between the Ethernet switch 11 and the Ethernet switches 13 and 14. VLAN monitoring points 31, 32, and 33 for monitoring in VLAN units are set at the VLAN endpoints. Physical link monitoring points 41 and 42, physical link monitoring points 43 and 44, and physical link monitoring points 45 and 46 for monitoring in units of physical links are set at the physical link end points facing each Ethernet switch. Further, as a feature of the present invention, virtual VLAN monitoring points 51, 52, 53, 54 are mounted on each Ethernet switch corresponding to each VLAN.

  Here, physical link monitoring points 42, 43, 45 are connected to the virtual VLAN monitoring point 52 of the Ethernet switch 12. When the physical VLAN 22 on the physical line 22 shown in FIG. 2 receives the physical link failure information a, the virtual VLAN monitoring point 52 of the Ethernet switch 12 receives the physical link monitoring points 42, 43, Among the 45, the number of physical link monitoring points (42, 45 in this case) where no failure is detected is counted, and when the number of physical link monitoring points where no failure is detected is 2 or more, there are a plurality of VLAN monitoring points Therefore, the operation for notifying the VLAN failure is not performed. The same applies to the VLAN failure shown in FIG.

11, 12, 13 Ethernet switch 21, 22 Physical line 31, 32, 33, 34 VLAN monitoring point 41, 42, 43, 44, 45, 46 Physical link monitoring point 51, 52, 53, 54, 55, 56 Virtual VLAN Monitoring point

Claims (4)

In a point-to-point network or multi-access network in which multiple switches are connected via a physical line, a VLAN-based monitoring frame is transmitted and received between opposing VLAN monitoring points, and a physical link between physical link monitoring points of adjacent switches In a network fault monitoring system that sends and receives monitoring frames in link units and monitors the occurrence of faults in each section,
A virtual VLAN monitoring point is arranged between the VLAN monitoring point in the switch and the physical link monitoring point, and the VLAN-based monitoring frame transmitted / received by the opposing VLAN monitoring point is sent to the VLAN monitoring point in the switch. Means for transmitting and receiving between the point and the virtual VLAN monitoring point;
The failure information in units of physical links detected by transmission / reception of the monitoring frame in units of physical links is transferred to the virtual VLAN monitoring point, or the failure information in units of VLAN detected at one VLAN monitoring point is transferred to one virtual link. Means for transferring from the VLAN monitoring point to the other virtual VLAN monitoring point, and when the virtual VLAN monitoring point receives the failure information in units of physical links or the failure information in units of VLAN, the opposing VLAN monitoring points A network fault monitoring system characterized by being configured to detect as a fault in the network. The network fault monitoring system according to claim 1,
A virtual VLAN monitoring point is arranged between one physical link monitoring point and the other physical link monitoring point of the relay to be relayed, and the failure information for each physical link or the failure information for each VLAN is transmitted at the virtual VLAN monitoring point. A network fault monitoring system characterized by being configured to transfer. In a point-to-point network or multi-access network in which multiple switches are connected via a physical line, a VLAN-based monitoring frame is transmitted / received between opposing VLAN monitoring points, and physical links are monitored between physical link monitoring points of adjacent switches. In the network fault monitoring method that sends and receives monitor frames in link units and monitors the occurrence of faults in each section,
A virtual VLAN monitoring point is arranged between the VLAN monitoring point in the switch and the physical link monitoring point, and the VLAN-based monitoring frame transmitted / received by the opposing VLAN monitoring point is sent to the VLAN monitoring point in the switch. Between the point and the virtual VLAN monitoring point,
The failure information in units of physical links detected by transmission / reception of the monitoring frame in units of physical links is transferred to the virtual VLAN monitoring point, or the failure information in units of VLAN detected at one VLAN monitoring point is transferred to one virtual link. Transfer from the VLAN monitoring point to the other virtual VLAN monitoring point,
The network fault monitoring method, wherein the virtual VLAN monitoring point receives the fault information in units of physical links or the fault information in units of VLAN, and detects as a fault between the opposing VLAN monitoring points. In the network failure monitoring method according to claim 3,
A virtual VLAN monitoring point is arranged between one physical link monitoring point and the other physical link monitoring point of the relay to be relayed, and the failure information for each physical link or the failure information for each VLAN is transmitted at the virtual VLAN monitoring point. A network failure monitoring method characterized by transferring.

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