Help Center/ MapReduce Service/ User Guide/ MRS Cluster O&M/ MRS Cluster Alarm Handling Reference/ ALM-12045 Read Packet Dropped Rate Exceeds the Threshold
Updated on 2024-09-23 GMT+08:00

ALM-12045 Read Packet Dropped Rate Exceeds the Threshold

Alarm Description

The system checks the read packet dropped rate every 30 seconds. This alarm is generated when the read packet dropped rate exceeds the threshold (the default threshold is 0.5%) for multiple times (the default value is 5).

To change the threshold, choose O&M > Alarm > Thresholds > Name of the desired cluster > Host > Network Reading > Read Packet Dropped Rate.

This alarm is cleared when Trigger Count is 1 and the read packet dropped rate is less than or equal to the threshold. This alarm is cleared when Trigger Count is greater than 1 and the read packet dropped rate is less than or equal to 90% of the threshold.

The alarm detection is disabled by default. If you want to enable this function, check whether this function can be enabled based on Checking System Environments.

Alarm Attributes

Alarm ID

Alarm Severity

Auto Cleared

12045

Major

Yes

Alarm Parameters

Parameter

Description

Source

Specifies the cluster or system for which the alarm was generated.

ServiceName

Specifies the service for which the alarm was generated.

RoleName

Specifies the role for which the alarm was generated.

HostName

Specifies the host for which the alarm was generated.

PortName

Specifies the network port for which the alarm was generated.

Trigger Condition

Specifies the threshold for triggering the alarm.

Impact on the System

  • Latency: When the read packet loss rate of the host network exceeds the threshold, request response is slowed down and services are delayed.
  • Service failure: When the read packet loss rate of the host network exceeds the threshold, requests cannot be properly responded or times out, which may cause job running failures.

Risk warning: In SUSE kernel 3.0 or later or Red Hat 7.2, the system kernel modifies the mechanism for counting the number of dropped read packets. In this case, this alarm may be generated even if the network is running properly, but services are not affected. You are advised to check the system environment first.

Possible Causes

  • The NICs are bonded in active/standby mode.
  • The alarm threshold is improperly configured.
  • The network quality is poor.

Handling Procedure

  1. On FusionInsight Manager, choose O&M > Alarm > Alarms. On the page that is displayed, click in the row containing the alarm, and view the name of the host for which the alarm is generated and the NIC name.

Check whether the NICs are bonded in active/standby mode.

  1. Log in to the alarm node as user omm and run the ls -l /proc/net/bonding command to check whether the /proc/net/bonding directory exists on the node.

    • If yes, the bond mode is configured for the node. Go to 3.
      # ls -l /proc/net/bonding/
      total 0
      -r--r--r-- 1 root root 0 Oct 11 17:35 bond0
    • If no, the bond mode is not configured for the node. Go to 5.
      # ls -l /proc/net/bonding/
      ls: cannot access /proc/net/bonding/: No such file or directory

  2. Run the cat /proc/net/bonding/bond0 command to check whether the value of Bonding Mode in the configuration file is fault-tolerance.

    In the command, bond0 indicates the name of the bond configuration file. Use the file name obtained in 2.

    # cat /proc/net/bonding/bond0 
    Ethernet Channel Bonding Driver: v3.7.1 (April 27, 2011)
    
    Bonding Mode: fault-tolerance (active-backup)
    Primary Slave: eth1 (primary_reselect always)
    Currently Active Slave: eth1
    MII Status: up
    MII Polling Interval (ms): 100
    Up Delay (ms): 0
    Down Delay (ms): 0
    
    Slave Interface: eth0
    MII Status: up
    Speed: 1000 Mbps
    Duplex: full
    Link Failure Count: 1
    Slave queue ID: 0
    
    Slave Interface: eth1
    MII Status: up
    Speed: 1000 Mbps
    Duplex: full
    Link Failure Count: 1
    Slave queue ID: 0
    • If yes, the NICs are bonded in active/standby mode. Go to 4.
    • If no, go to 5.

  3. Check whether the NIC specified by NetworkCardName in the alarm is the standby NIC.

    • If yes, the alarm of the standby NIC cannot be automatically cleared. Manually clear the alarm on the alarm management page. No further action is required.
    • If no, go to 5.

      To determine the standby NIC, check the /proc/net/bonding/bond0 configuration file. If the NIC name corresponding to NetworkCardName is Slave Interface but not Currently Active Slave (the current active NIC), the NIC is the standby one.

Check whether the threshold is set properly.

  1. Log in to FusionInsight Manager, choose O&M > Alarm > Thresholds > Name of the desired cluster > Host > Network Reading > Read Packet Dropped Rate, and check whether the alarm threshold is configured properly. The default value is 0.5%. You can adjust the threshold as needed.

    • If yes, go to 8.
    • If no, go to 6.

  1. Choose O&M > Alarm > Thresholds > Name of the desired cluster > Host > Network Reading > Read Packet Dropped Rate. Click Modify in the Operation column to change the threshold. See Figure 1.

    Figure 1 Configuring the alarm threshold

  2. After 5 minutes, check whether the alarm is cleared.

    • If yes, no further action is required.
    • If no, go to 8.

Check whether the network connection is normal.

  1. Contact the network administrator to check whether the network is normal.

    • If yes, rectify the fault and go to 9.
    • If no, go to 10.

  2. After 5 minutes, check whether the alarm is cleared.

    • If yes, no further action is required.
    • If no, go to 10.

Collect the fault information.

  1. On FusionInsight Manager of the active cluster, choose O&M. In the navigation pane on the left, choose Log > Download.
  2. Select OMS for Service and click OK.
  3. Expand the Hosts dialog box and select the alarm node and the active OMS node.
  4. Click in the upper right corner, and set Start Date and End Date for log collection to 30 minutes ahead of and after the alarm generation time respectively. Then, click Download.
  5. Contact O&M personnel and provide the collected logs.

Alarm Clearance

This alarm is automatically cleared after the fault is rectified.

Related Information

None