Example for Configuring LDT to Detect Loops on the Downstream Network

Created: Feb 28, 2019 16:59:52 23 0 0 0

Overview

When a loop occurs on a network, broadcast, multicast, and unknown unicast packets are repeatedly transmitted on the network. This wastes network resources and may even cause a network breakdown. To minimize the impact of loops on a Layer 2 network, a detection technology that quickly notifies users of loops is required. When a loop occurs, users are requested to check network connections and configurations, and control the problematic interface.

Loop detection (LDT) periodically sends LDT packets on an interface to check whether the packets return to the local device (receive and transmit interfaces can be different), and determines whether loops occur on the interface, local network, or downstream network.
  • If LDT packets are received by the same interface, a loopback occurs on the interface or a loop occurs on the network connected to the interface.

  • If LDT packets are received by another interface on the same device, a loop occurs on the network connected to the interface.

After loops are detected, the device can send alarms to the NMS and record logs, and can control the interface status (the interface is shut down by default) according to the device configuration so that the impact of loops on the device and network is minimized. The device provides the following actions after LDT detects a loop:
  • Trap: The device reports a trap to the NMS and records a log, but does not take any action on the interface.

  • Block: The device blocks this interface, and can forward only BPDUs.

  • No learning: The interface is disabled from learning MAC addresses.

  • Shutdown: The device shuts down the interface.

  • Quitvlan: The interface is removed from the VLAN where a loop occurs.

The problematic interface continues to send LDT packets. If the device receives no LDT packets from the problematic interface within the recovery time, it considers that the loop is eliminated on the interface and restores the interface.

LDT can only detect loops on a single node, but cannot eliminate loops on the entire network in the same manner as ring network technologies of ERPS, RRPP, SEP, Smart Link, and STP/RSTP/MSTP/VBST.

Configuration Notes

  • This example applies to all versions of the modular switches.

  • In V200R008C00 and earlier versions, LDT does not take effect in dynamic VLANs

  • LDT and LBDT cannot be configured simultaneously.

  • LDT needs to send a large number of LDT packets to detect loops, occupying system resources. Therefore, disable LDT if loops do not need to be detected.

  • When loops occur in multiple VLANs on many interfaces, LDT performance is lowered due to limitations of security policies and CPU processing capability. The greater the number of involved VLANs and interfaces, the lower the performance. In particular, the performance of the standby chassis in the cluster is lowered. Manually eliminating loops is recommended.

  • LDT cannot be used with ring network technologies of ERPS, RRPP, SEP, Smart Link, and STP/RSTP/MSTP/VBST. Do not configure ring network technologies on an interface of a LDT-enabled VLAN. If LDT has been enabled globally and ring network technologies need to be configured on an interface, disable LDT on the interface first.

  • LDT sends only tagged packets and can only detect loops based on VLANs. LDT can detect loops in a maximum of 4094 VLANs.

  • When a loop occurs on the network-side interface where the Block or Shutdown action is configured, all services on the device are interrupted. Do not deploy LDT on the network-side interface.

  • The Quitvlan action cannot be used with GVRP, HVRP, or the action of removing an interface from the VLAN where MAC address flapping occurs.

  • The blocked ports of LDT cannot block GVRP packets. To ensure that GVRP runs normally and prevent GVRP loops, do not enable GVRP on the blocked port of LDT.

Networking Requirements

In Figure 6-35, a new branch network of an enterprise connects to the aggregation switch Switch, and VLANs 10 to 20 are deployed on the branch network. Loops occur due to incorrect connections or configurations. As a result, communication on the Switch and uplink network is affected.

It is required that the Switch should immediately detect loops on the new branch network to prevent the impact of loops on the Switch and uplink network.

Figure 6-35  Networking for configuring LDT to detect loops on the downstream network 
imgDownload?uuid=893c841997c04d1ea88c608

Configuration Roadmap

The configuration roadmap is as follows:

  1. Enable LDT on GE1/0/1 of the Switch to detect loops in a specified VLAN so that loops on the downstream network can be detected.
  2. Configure an action after loops are detected so that the Switch can immediately shut down the interface where a loop is detected. This prevents the impact of the loop on the Switch and uplink network.
imgDownload?uuid=a0884fdb7277416cbddd7f4 NOTE:

Configure interfaces on other switching devices as trunk or hybrid interfaces and configure these interfaces to allow packets from corresponding VLANs to pass through. This ensures Layer 2 connectivity on the new network and between the new network and the Switch.

Procedure

  1. Enable global LDT.

    <HUAWEI> system-view[HUAWEI] sysname Switch[Switch] loop-detection enable  //Enable LDT globally.

  2. Enable LDT in VLANs.

    [Switch] vlan batch 10 to 20[Switch] loop-detection enable vlan 10 to 20  //Enable the device to detect loops on all interfaces in VLANs 10 to 20.

  3. Set the interval for sending LDT packets.

    [Switch] loop-detection interval-time 10  //Set the interval for sending LDT packets to 10s.

  4. Configure an action taken after a loop is detected.

    # Enable the trap function for LDT.

    [Switch] snmp-agent trap enable feature-name ldttrap  //Enable the LDT alarm function so that the device can send LDT traps.

    # Set the action to Shutdown.

    [Switch] interface gigabitethernet 1/0/1[Switch-GigabitEthernet1/0/1] stp disable  //Disable STP on the interface.[Switch-GigabitEthernet1/0/1] port hybrid tagged vlan 10 to 20[Switch-GigabitEthernet1/0/1] loop-detection mode port-shutdown  ///Configure the Shutdown action to be taken on GE1/0/1 after a loop is detected.[Switch-GigabitEthernet1/0/1] quit

  5. Verify the configuration.

    # After the configuration is complete, run the display loop-detection command to check global LDT information.

    [Switch] display loop-detectionLoop Detection is enabled.
    Detection interval time is 10 seconds.Following VLANs enable loop-detection:
     VLAN  10 to 20Following ports are blocked for loop:
    NULLFollowing ports are shutdown for loop:
    GigabitEthernet1/0/1     Include Vlans:
    10Following ports are nolearning for loop:
    NULL
    Following ports are trapped for loop:
    NULL
    Following ports are quitvlan for loop:
    NULL

    # Check LDT information on GE1/0/1.

    [Switch] display loop-detection interface gigabitethernet 1/0/1The port is enabled.
    The port's status list:
    Status              WorkMode            Recovery-time       EnabledVLAN
    -----------------------------------------------------------------------Shutdown            Shutdown            255                 10
    Normal              Shutdown            255                 11
    Normal              Shutdown            255                 12
    Normal              Shutdown            255                 13
    Normal              Shutdown            255                 14
    Normal              Shutdown            255                 15
    Normal              Shutdown            255                 16
    Normal              Shutdown            255                 17
    Normal              Shutdown            255                 18
    Normal              Shutdown            255                 19
    Normal              Shutdown            255                 20

    The command output shows that LDT is enabled in VLANs 10 to 20 and the Shutdown action is taken on GE1/0/1 in VLAN 10, indicating that loops are detected in VLAN 10.

    imgDownload?uuid=a0884fdb7277416cbddd7f4 NOTE:

    After loops are detected in one or more VLANs, the system shuts down the involved interface and loops are removed. In this case, LDT may be unable to detect all VLANs where loops occur.

Configuration Files

Switch configuration file

#
sysname Switch#
vlan batch 10 to 20
#
loop-detection enable
loop-detection interval-time 10
loop-detection enable vlan 10 to 20
#
interface GigabitEthernet1/0/1
 port hybrid tagged vlan 10 to 20
 stp disable
#
snmp-agent trap enable feature-name LDTTRAP
#
return

See more please click 

https://support.huawei.com/enterprise/en/doc/EDOC1000069520/9aadccc0/comprehensive-configuration-examples


  • x
  • convention:

Reply

Reply
You need to log in to reply to the post Login | Register

Notice: To protect the legitimate rights and interests of you, the community, and third parties, do not release content that may bring legal risks to all parties, including but are not limited to the following:
  • Politically sensitive content
  • Content concerning pornography, gambling, and drug abuse
  • Content that may disclose or infringe upon others ' commercial secrets, intellectual properties, including trade marks, copyrights, and patents, and personal privacy
Do not share your account and password with others. All operations performed using your account will be regarded as your own actions and all consequences arising therefrom will be borne by you. For details, see " Privacy."
If the attachment button is not available, update the Adobe Flash Player to the latest version!
Fast reply Scroll to top