How Do I Troubleshoot an Unhealthy Backend Server?

Symptom

If a client cannot access a backend server through a load balancer, the backend server is declared unhealthy. You can view the health check results for a backend server on the ELB console.

  • Dedicated load balancers

    On the Load Balancers page, click the name of the load balancer to view its details. Click Backend Server Groups and locate the server group. You can find the health check results for backend servers in the Basic Information area.

  • Shared load balancers

    On the Load Balancers page, click the name of the load balancer to view its details. Click Backend Server Groups and locate the server group. You can find the health check results for backend servers in the Basic Information area.

Background

To check the health of backend servers, dedicated load balancers use the IP addresses from the backend subnet where they work to send heartbeat requests to the backend servers, while shared load balancers use IP addresses in 100.125.0.0/16.

Dedicated load balancers: To ensure that health checks can be performed as expected, ensure that traffic is allowed from the backend subnet where the load balancer is working to the backend servers.

Shared load balancers: To ensure that health checks can be performed as expected, ensure that traffic is allowed from 100.125.0.0/16 to the backend servers.

Caution

  • Security group rules configured for backend servers associated with dedicated load balancers are different from those configured for backend servers associated with shared load balancers.

  • Shared load balancers: If Transfer Client IP Address is enabled for a TCP or UDP listener, there is no need to configure security group rules and Firewall rules to allow traffic from 100.125.0.0/16 and client IP addresses to backend servers.

If a backend server is considered unhealthy, ELB will not route traffic to it until it is declared healthy again.

If you change the weight of a healthy backend server to 0, the health check result of this server becomes Unhealthy.

Note

  • When a backend server is detected as unhealthy, the load balancer will stop routing requests to this server.

  • If health checks are disabled, the load balancer will consider the backend server healthy by default and still route requests to it.

  • If Transfer Client IP Address is enabled for TCP and UDP listeners of both dedicated and shared load balancers, client IP addresses instead of IP addresses in 100.125.0.0/16 are used to communicate with the backend server.

  • ELB uses IP addresses in 100.125.0.0/16 to perform health checks and route requests to backend servers.

  • Traffic will not be routed to a backend server with a weight of 0, so the health check result for this backend server is not relevant.

Troubleshooting

Possible causes are described here in order of how likely they are to occur.

Check these causes one by one until you find the cause of this issue.

Note

If you need to change the health check configuration, it takes a while for the changes to be applied. The required time depends on the health check interval and timeout duration. You can find the health check results in the backend server list of the load balancer.

**Figure 1** Troubleshooting process

Figure 1 Troubleshooting process

Table 1 Troubleshooting process

Possible Cause

Solution

Backend server group

Checking Whether the Backend Server Group Is Associated with a Listener

EIP or private IP address

Checking Whether an EIP or a Private IP Address Is Bound to the Load Balancer

Health check configuration

Checking the Health Check Configuration

Security group rules

Checking Security Group Rules

Firewall rules

Checking Firewall Rules

Backend server listening configuration

Checking the Backend Server

Backend server firewall configuration

Checking the Firewall on the Backend Server

Backend server route configuration

Checking the Backend Server Route

Backend server load

Checking the Backend Server Load

Backend server hosts.deny file

Checking the hosts.deny File

Checking Whether the Backend Server Group Is Associated with a Listener

Check whether the backend server group that the unhealthy backend server belongs to is associated with a listener.

  • If the backend server group is not associated with a listener, check whether a listener has been added to the load balancer.

    • If there is a listener, associate the backend server group with the listener.

    • If there are no listeners, add a listener. Select Use existing and then select the backend server group when you add the listener.

  • If the backend server group has been associated with a listener, perform the following operations.

Checking Whether an EIP or a Private IP Address Is Bound to the Load Balancer

Note

  • Check this only when you add a TCP or UDP listener to the load balancer.

  • If you add an HTTP or HTTPS listener to the load balancer, health checks will not be affected no matter whether an EIP or private IP address is bound to the load balancer.

If you add a TCP or UDP listener to the load balancer, check whether the load balancer has an EIP or private IP address bound.

If the load balancer has no EIP or private IP address bound, bind one.

Note

When you create a load balancer for the first time, if no EIP or private IP address is bound to the load balancer, the health check result of backend servers associated with a TCP or UDP listener is Unhealthy. After you bind an EIP or private IP address to the load balancer, the health check result becomes Healthy. If you unbind the EIP or private IP address from the load balancer, the health check result is still Healthy.

Checking the Health Check Configuration

For a dedicated or shared load balancer, click the name of the load balancer to view its details. Navigate to Backend Server Groups and then click the name of the server group. In the Basic Information area, to the right of Health Check, click Configure. Check the following parameters:

  • Heath Check Protocol: The protocol used for health checks.

  • Heath Check Port: The port must be the one used on the backend server, and it cannot be changed. Check whether the health check port is in the listening state on the backend server. If the health check port is not in the listening state on the backend server, the backend server will be identified as unhealthy.

  • Path: If HTTP is used for health checks, you must check this parameter. A simple static HTML file is recommended.

Note

  • If the health check protocol is HTTP, the port and the path are used for health checks.

  • If the health check protocol is TCP, only the port is used for health checks.

  • If health check protocol is HTTP and the health check port is normal, change the path or change the health check protocol to TCP.

  • Enter an absolute path.

    For example:

    If the URL is http://www.example.com or http://192.168.63.187:9096, enter / as the health check path.

    If the URL is http://www.example.com/chat/try/, enter /chat/try/ as the health check path.

    If the URL is http://192.168.63.187:9096/chat/index.html, enter /chat/index.html as the health check path.

Checking Security Group Rules

  • Dedicated Load balancers

    • TCP, HTTP, or HTTPS listeners: Verify that the inbound security group rule allows TCP traffic from the VPC where the dedicated load balancer resides to the backend server over the health check port.

      • If the health check port is the same as the backend port, the inbound rule must allow traffic over the backend port, for example, port 80.

      • If the port (port 80 as an example) for health check is different from that used by the backend server (port 443 as an example), inbound security group rules must allow traffic over both ports.

        Note

        You can check the protocol and port in the Basic Information area of the backend server group.

      **Figure 2** Example inbound rule

      Figure 2 Example inbound rule

    • UDP listeners: Verify that the inbound security group rule allows traffic from the VPC where the dedicated load balancer resides to the backend server using the health check protocol and over the health check port. In addition, the rule must allow inbound ICMP traffic.

      **Figure 3** Example inbound rule that allows ICMP traffic

      Figure 3 Example inbound rule that allows ICMP traffic

  • Shared load balancers

    • TCP, HTTP, or HTTPS listeners: Verify that the inbound security group rule allows access from 100.125.0.0/16 over the health check port.

      • If the health check port is the same as the backend port, the inbound rule must allow traffic over the backend port, for example, port 80.

      • If the port (port 80 as an example) for health check is different from that used by the backend server (port 443 as an example), inbound security group rules must allow traffic over both ports.

        Note

        You can check the protocol and port in the Basic Information area of the backend server group.

      **Figure 4** Example inbound rule

      Figure 4 Example inbound rule

    • UDP listeners: Verify that the inbound security group rule allows traffic from 100.125.0.0/16 to the backend server using the health check protocol and over the health check port. In addition, the rule must allow inbound ICMP traffic.

      **Figure 5** Example inbound rule that allows ICMP traffic

      Figure 5 Example inbound rule that allows ICMP traffic

Note

  • Access to the backend server from IP addresses in 100.125.0.0/16 must be allowed. This is because the load balancer communicates with backend servers using these IP addresses. After traffic is routed to backend servers, source IP addresses are converted to IP addresses from 100.125.0.0/16. In addition, the load balancer uses these IP addresses to send heartbeat requests to backend servers to check their health.

  • If you are not sure about the security group rules, change the Protocol & Port to All for testing.

  • For UDP listeners, see How Does ELB Perform UDP Health Checks? What Are the Precautions for UDP Health Checks?

Checking Firewall Rules

  • Dedicated load balancers

    To control traffic in and out of a subnet, you can associate a firewall with the subnet. Firewall rules control access to subnets and add an additional layer of defense to your subnets. Default firewall rules reject all inbound and outbound traffic. If the subnet of a load balancer or associated backend servers has a firewall associated, the load balancer cannot receive traffic from the Internet or route traffic to backend servers, and backend servers cannot receive traffic from and respond to the load balancer.

    Configure an inbound firewall rule to allow traffic from the VPC where the load balancer resides to backend servers.

    1. Log in to the management console.

    2. In the upper left corner of the page, click image1 and select the desired region and project.

    3. Click image2 in the upper left corner of the page and choose Network > Virtual Private Cloud.

    4. In the navigation pane on the left, choose Access Control > Firewalls.

    5. In the firewall list, click the name of the firewall to switch to the page showing its details.

    6. On the Inbound Rules or Outbound Rules tab page, click Add Rule to add a rule.

      • Action: Select Allow.

      • Protocol: The protocol must be the same as the one you selected for the listener.

      • Source: Set it to the VPC CIDR block.

      • Source Port Range: Select a port range based on the service requirements.

      • Destination: If you keep the default value, 0.0.0.0/0, traffic will be allowed for all destination IP addresses.

      • Destination Port Range: Select a port range based on the service requirements.

      • (Optional) Description: Describe the firewall rule if necessary.

    7. Click OK.

  • Shared load balancers

    To control traffic in and out of a subnet, you can associate a firewall with the subnet. Firewall rules control access to subnets and add an additional layer of defense to your subnets. Default firewall rules reject all inbound and outbound traffic. If the subnet of a load balancer or associated backend servers has a firewall associated, the load balancer cannot receive traffic from the Internet or route traffic to backend servers, and backend servers cannot receive traffic from and respond to the load balancer.

    You can configure an inbound firewall rule to permit access from 100.125.0.0/16.

    1. Log in to the management console.

    2. In the upper left corner of the page, click image3 and select the desired region and project.

    3. Click image4 in the upper left corner of the page and choose Network > Virtual Private Cloud.

    4. In the navigation pane on the left, choose Access Control > Firewalls.

    5. In the firewall list, click the name of the firewall to switch to the page showing its details.

    6. On the Inbound Rules or Outbound Rules tab page, click Add Rule to add a rule.

      • Action: Select Allow.

      • Protocol: The protocol must be the same as the one you selected for the listener.

      • Source: Set it to 100.125.0.0/16.

      • Source Port Range: Select a port range based on the service requirements.

      • Destination: If you keep the default value, 0.0.0.0/0, traffic will be allowed for all destination IP addresses.

      • Destination Port Range: Select a port range based on the service requirements.

      • (Optional) Description: Describe the firewall rule if necessary.

    7. Click OK.

Checking the Backend Server

Note

If the backend server runs on Windows, use a browser to access https://{Backend server IP address}:{Health check port}. If a 2xx or 3xx code is returned, the backend server is running normally.

  • Run the following command on the backend server to check whether the health check port is listened on:

    netstat -anlp | grep port
    

    If the health check port and LISTEN are displayed, the health check port is in the listening state. As shown in Figure 6, TCP port 880 is listened on.

    If you do not specify a health check port, backend ports are used by default.

    **Figure 6** Backend server port listened on

    Figure 6 Backend server port listened on

    **Figure 7** Backend server port not listened on

    Figure 7 Backend server port not listened on

    If the health check port is not in the listening state, the backend server is not listened on. You need to start the application on the backend server and check whether the health check port is listened on.

  • For HTTP health checks, run the following command on the backend server to check the status code:

    curl {Private IP address of the backend server}:{Health check port}/{Health check path} -iv
    

    To perform an HTTP health check, the load balancer initiates a GET request to the backend server. If the following response status codes are displayed, the backend server is considered healthy:

    TCP listeners: 200

    Dedicated load balancers: 200 for HTTP/HTTPS health checks

    Shared load balancers: 200, 202, or 401 for HTTP health check

    **Figure 8** Unhealthy backend server

    Figure 8 Unhealthy backend server

    **Figure 9** Healthy backend server

    Figure 9 Healthy backend server

  • If HTTP is used for health checks and the backend server is detected unhealthy, perform the following steps to configure a TCP health check:

    On the Listeners tab page, modify the listener, select the backend server group for which TCP health check has been configured, or add a backend server group and select TCP as the health check protocol. After you complete the configuration, wait for a while and check the health check result.

Checking the Firewall on the Backend Server

If the firewall or other security software is enabled on the backend server, the software may block the IP addresses in 100.125.0.0/16.

For dedicated load balancers, configure inbound firewall rules to allow traffic from the VPC to which the load balancers work to backend servers.

For shared load balancers, configure inbound firewall rules to allow traffic from 100.125.0.0/16 to backend servers.

Checking the Backend Server Route

Check whether the default route configured for the primary NIC has been manually modified. If the default route is changed, health check packets may fail to reach the backend server.

Run the following command on the backend server to check whether the default route points to the gateway (For Layer 3 communications, the default route must be configured to point to the gateway of the VPC subnet where the backend server resides):

ip route

Alternatively, run the following command:

route -n

Figure 10 shows the command output when the backend server route is normal.

**Figure 10** Example default route pointing to the gateway

Figure 10 Example default route pointing to the gateway

**Figure 11** Example default route not pointing to the gateway

Figure 11 Example default route not pointing to the gateway

If the command output does not contain the first route, or the route does not point to the gateway, configure or modify the default route to point to the gateway.

Checking the Backend Server Load

View the vCPU usage, memory usage, network connections of the backend server on the Cloud Eye console to check whether the backend server is overloaded.

If the load is high, connections or requests for health checks may time out.

Checking the hosts.deny File

Verify that IP addresses in VPC where the load balancers work and 100.125.0.0/16 are not written to the /etc/hosts.deny file on the backend server.

For dedicated load balancers, verify that the IP addresses from the VPC where the load balancers work are not written into the file.

For shared load balancers, verify that IP addresses from 100.125.0.0/16 are not written into the file.