Help Center/ Enterprise Router/ Best Practices/ Setting Up a Hybrid Cloud Network Using Enterprise Router and a Pair of Direct Connect Connections (Global DC Gateway)/ Procedure for Setting Up a Hybrid Cloud Network Using Enterprise Router and a Pair of Direct Connect Connections (Global DC Gateway)
Updated on 2024-11-21 GMT+08:00

Procedure for Setting Up a Hybrid Cloud Network Using Enterprise Router and a Pair of Direct Connect Connections (Global DC Gateway)

Step 1: Create Cloud Resources

Create an enterprise router, a service VPC, and an ECS, as described in Table 5.

  1. Create an enterprise router.

    For details, see Creating an Enterprise Router.

  2. Create a service VPC.

    For details, see Creating a VPC.

  3. Create an ECS in the VPC.

    In this example, the ECS is used to verify the communications between the VPC and the on-premises data center. The ECS quantity and configuration are for reference only.

    For details, see Purchasing a Custom ECS.

Step 2: Attach the VPC to the Enterprise Router

  1. Attach the service VPC to the enterprise router.

    When creating the VPC attachment, enable Auto Add Routes.

    If this option is enabled, Enterprise Router automatically adds routes (with this enterprise router as the next hop and 10.0.0.0/8, 172.16.0.0/12, and 192.168.0.0/16 as the destinations) to all route tables of the VPC.

    For details, see Creating VPC Attachments for the Enterprise Router.

  2. In the enterprise router route table, check the routes with the destination set to the VPC CIDR block.

    In this example, Default Route Table Association and Default Route Table Propagation are enabled for the enterprise router, and routes with destinations set to VPC CIDR blocks are automatically added when you attach the VPCs to the enterprise router.

    For enterprise router route details, see Table 2 and Table 4. In this example, the route whose destination is 192.168.0.0/16 and next hop is the VPC-A attachment is automatically added.

    To view enterprise routes, see Viewing Routes.

  3. In the route table of the service VPC, add a route with the next hop set to the enterprise router.

    For VPC route details, see Table 3. In this example, the route destination is 172.16.1.0/24, which is the CIDR block used in the on-premises data center.

    For details, see Adding Routes to VPC Route Tables.

Step 3: Attach the Global DC Gateways to the Enterprise Router

For details about Direct Connect resources, see Table 5.

  1. Use one Direct Connect connection to link the on-premises data center to the cloud.

    1. Create a connection.

      For details, see Creating a Connection.

    2. Create a global DC gateway attachment for the enterprise router.
      1. On the Direct Connect console, perform the following operations:
        1. Create a global DC gateway.
        2. Create a virtual interface.
        3. Attach the global DC gateway to the enterprise router.

        For details, see Creating a Global DC Gateway.

      2. On the Enterprise Router console, view the global DC gateway attachment created for the enterprise router.

        For details, see Viewing Details About an Attachment.

        If the status of the global DC gateway attachment is Normal, the attachment has been created.

        Default Route Table Association and Default Route Table Propagation are enabled when you create the enterprise router. After the global DC gateway is attached to the enterprise router, Enterprise Router will automatically:
        • Associate the global DC gateway attachment with the default route table of the enterprise router.
        • Propagate the global DC gateway attachment to the default route table of the enterprise router. The routes to the on-premises data center are propagated to the route table.

          You can view routes to the on-premises data center in the route table of the enterprise router only after taking the following steps.

    3. Configure routes on the on-premises network device to point to the cloud.

      The following uses a Huawei network device as an example to describe how to configure a BGP route.

      bgp 64555

      peer 10.0.0.1 as-number 64512

      peer 10.0.0.1 password simple 12345678

      network 172.16.1.0 255.255.255.0

      Table 1 BGP route

      Command

      Description

      bgp 64555

      Enables BGP.

      64555 is the ASN used by the on-premises data center.

      peer 10.0.0.1 as-number 64512

      Creates a BGP peer.
      • 10.0.0.1 is the gateway on Huawei Cloud.
      • 64512 is the BGP ASN of the global DC gateway.

      peer 10.0.0.1 password simple 12345678

      Performs MD5 authentication on BGP messages when a TCP connection is established between BGP peers.

      12345678 is the BGP MD5 authentication password.

      network 172.16.1.0 255.255.255.0

      Adds routes in the IP route table to the BGP route table.

      • 172.16.1.0 is the network used by the on-premises data center.
      • 255.255.255.0 is the subnet mask of the on-premises network.
    4. Log in to the ECS (ecs-A).

      Multiple methods are available for logging in to an ECS. For details, see Logging In to an ECS.

      In this example, use VNC provided on the management console to log in to the ECS.

    5. Run the following command to verify the connectivity over the Direct Connect connection:

      ping IP address used in the on-premises data center

      Example command:

      ping 172.16.1.10

      If information similar to the following is displayed, VPC-A can communicate with the on-premises data center over the Direct Connect connection:
      [root@ecs-A ~]# ping 172.16.1.10
      PING 172.16.1.10 (172.16.1.10) 56(84) bytes of data.
      64 bytes from 172.16.1.10: icmp_seq=1 ttl=64 time=0.849 ms
      64 bytes from 172.16.1.10: icmp_seq=2 ttl=64 time=0.455 ms
      64 bytes from 172.16.1.10: icmp_seq=3 ttl=64 time=0.385 ms
      64 bytes from 172.16.1.10: icmp_seq=4 ttl=64 time=0.372 ms
      ...
      --- 172.16.1.10 ping statistics ---

  2. Use the other Direct Connect connection to link the on-premises data center to the cloud.

    1. Repeat 1.a to 1.c to create the other Direct Connect connection.
    2. Simulate a fault on one Direct Connect connection to disconnect communications between the service VPC and the on-premises data center over this connection.

      To prevent service interruptions, simulate the fault only when no packets are transmitted over this connection.

    3. Repeat 1.d to 1.e to verify the connectivity over the other Direct Connect connection.

Step 4: Configure Equal-Cost Routes on the Enterprise Router and on the On-Premises Network

  1. In the enterprise router route table, check whether load balancing is implemented among the BGP routes learned by the enterprise router through the global DC gateway attachments.

    To view enterprise routes, see Viewing Routes.

    • If load balancing is implemented, no route policy is required.
    • If load balancing is not implemented, configure a route policy and perform 2 to configure equal-cost routes on the enterprise router.

      If the next hops of the routes to 172.16.1.0/24 are two global DC gateways, the two Direct Connect connections are working in load balancing mode.

  2. (Optional) Configure equal-cost routes on the enterprise router.

    1. Create a route policy that contains two nodes.

      For details about the policy, see Table 5.

      For details about how to create a route policy, see Creating a Route Policy.

    2. Associate the route policy with the propagation of each global DC gateway attachment to enable the BGP routes learned by the enterprise router through the global DC gateway attachments to work as equal-cost routes.

      For details, see Associating a Route Policy with the Propagation of an Attachment.

    3. Repeat 1 to verify that load balancing is implemented among routes.

    Replace the original policy values for the AS_Path of the routes may cause network loops. Before configuring a route policy, check your network plan.

  3. Log in to the on-premises network device and configure the routes from the on-premises data center to the enterprise router as equal-cost routes based on your network plan for load balancing.