Multi-region deployment

This topic describes a multi-region deployment for Apigee hybrid on GKE, Anthos GKE deployed on-prem, Microsoft® Azure Kubernetes Service (AKS), Amazon Elastic Kubernetes Service (EKS), and on RedHat OpenShift. Select your platform in the prerequisites and procedures.

Topologies for multi-region deployment include the following:

  • Active-Active: When you have applications deployed in multiple geographic locations and you require low latency API response for your deployments. You have the option to deploy hybrid in multiple geographic locations nearest to your clients. For example: US West Coast, US East Coast, Europe, APAC.
  • Active-Passive: When you have a primary region and a failover or disaster recovery region.

The regions in a multi-region hybrid deployment communicate via Cassandra, as the following image shows:

Apigee hybrid multi-region deployment architecture

Prerequisites

Before configuring hybrid for multiple regions, you must complete the following prerequisites:

GKE

  • When installing multi-region Apigee deployments between different networks (e.g. different cloud providers, different VPC networks, cloud and on-prem, etc), you must provide internal connectivity between these separate networks that Cassandra can use to communicate between nodes. This can be accomplished with VPNs or cloud-specific connectivity solutions.
  • If you are using Workload Identity in one cluster to authenticate service accounts, we strongly recommend that you use Workload Identity for each cluster you expand to. See Enabling Workload Identity on GKE or Enabling Workload Identity Federation on AKS and EKS.
  • Set up Kubernetes clusters in multiple regions with different CIDR blocks.
  • Make sure cert-manager is installed in each cluster.
  • Set up cross-region communication.
  • Make sure all Cassandra pods are able to resolve their own hostnames. If hostNetwork is set to false, then the hostname is the Cassandra pod name. If hostNetwork is set to true, then the hostname is the Kubernetes node hostname running the Cassandra pod.
  • Cassandra Multi Region requirements:
    • Make sure the pod network namespace has connectivity across the regions, including firewalls, vpn, vpc peering and vNet peering. This is the case for most GKE installations.
    • If the pod network namespace does not have connectivity between clusters (the clusters are running in "island network mode"), enable the Kubernetes hostNetwork feature by setting cassandra.hostNetwork: true in the overrides file for all of the regions in your Apigee hybrid multi-regions installation.

      For more information on the need for hostNetwork, see Island mode clusters and hostNetwork below.

    • Enable hostNetwork on existing clusters before expanding your multi-region configuration to new regions.
    • When hostNetwork is enabled, make sure worker nodes can perform forward DNS lookup of their hostnames. Apigee Cassandra uses forward DNS lookup to obtain the host IP while starting.
    • Open TCP port 7001 between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for information about the Cassandra port numbers.

For detailed information, see Kubernetes documentation.

GKE on-prem

  • When installing multi-region Apigee deployments between different networks (e.g. different cloud providers, different VPC networks, cloud and on-prem, etc), you must provide internal connectivity between these separate networks that Cassandra can use to communicate between nodes. This can be accomplished with VPNs or cloud-specific connectivity solutions.
  • Set up Kubernetes clusters in multiple regions with different CIDR blocks.
  • Make sure cert-manager is installed in each cluster.
  • Set up cross-region communication.
  • Make sure all Cassandra pods are able to resolve their own hostnames. If hostNetwork is set to false, then the hostname is the Cassandra pod name. If hostNetwork is set to true, then the hostname is the Kubernetes node hostname running the Cassandra pod.
  • Cassandra Multi Region requirements:
    • If the pod network namespace does not have connectivity between clusters (the clusters are running in "island network mode", the default case in GKE on-prem installations), enable the Kubernetes hostNetwork feature by setting cassandra.hostNetwork: true in the overrides file for all of the regions in your Apigee hybrid multi-regions installation.

      For more information on the need for hostNetwork, see Island mode clusters and hostNetwork below.

    • Enable hostNetwork on existing clusters before expanding your multi-region configuration to new regions.
    • When hostNetwork is enabled, make sure worker nodes can perform forward DNS lookup of their hostnames. Apigee Cassandra uses forward DNS lookup to obtain the host IP while starting.
    • Open Cassandra ports between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for the Cassandra port numbers.

For detailed information, see Kubernetes documentation.

AKS

  • When installing multi-region Apigee deployments between different networks (e.g. different cloud providers, different VPC networks, cloud and on-prem, etc), you must provide internal connectivity between these separate networks that Cassandra can use to communicate between nodes. This can be accomplished with VPNs or cloud-specific connectivity solutions.
  • Follow the hybrid installation guide for any prerequisites like Google Cloud and org configuration before moving to cluster setup steps.
  • Make sure cert-manager is installed in each cluster.
  • Make sure all Cassandra pods are able to resolve their own hostnames. If hostNetwork is set to false, then the hostname is the Cassandra pod name. If hostNetwork is set to true, then the hostname is the Kubernetes node hostname running the Cassandra pod.
  • Cassandra Multi Region requirements:
    • If the pod network namespace does not have connectivity between clusters (the clusters are running in "island network mode", the default case in AKS installations), enable the Kubernetes hostNetwork feature by setting cassandra.hostNetwork: true in the overrides file for all of the regions in your Apigee hybrid multi-regions installation.

      For more information on the need for hostNetwork, see Island mode clusters and hostNetwork below.

    • Enable hostNetwork on existing clusters before expanding your multi-region configuration to new regions.
    • When hostNetwork is enabled, make sure worker nodes can perform forward DNS lookup of their hostnames. Apigee Cassandra uses forward DNS lookup to obtain the host IP while starting.
    • Open Cassandra ports between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for the Cassandra port numbers.

For detailed information, see Kubernetes documentation.

EKS

  • When installing multi-region Apigee deployments between different networks (e.g. different cloud providers, different VPC networks, cloud and on-prem, etc), you must provide internal connectivity between these separate networks that Cassandra can use to communicate between nodes. This can be accomplished with VPNs or cloud-specific connectivity solutions.
  • Follow the hybrid installation guide for any prerequisites like Google Cloud and org configuration before moving to cluster setup steps.
  • Make sure cert-manager is installed in each cluster.
  • Make sure all Cassandra pods are able to resolve their own hostnames. If hostNetwork is set to false, then the hostname is the Cassandra pod name. If hostNetwork is set to true, then the hostname is the Kubernetes node hostname running the Cassandra pod.
  • Cassandra Multi Region requirements:
    • If the pod network namespace does not have connectivity between clusters (the clusters are running in "island network mode"), enable the Kubernetes hostNetwork feature by setting cassandra.hostNetwork: true in the overrides file for all of the regions in your Apigee hybrid multi-regions installation. Amazon EKS uses the fully integrated network model by default.

      For more information on the need for hostNetwork, see Island mode clusters and hostNetwork below.

    • Enable hostNetwork on existing clusters before expanding your multi-region configuration to new regions.
    • When hostNetwork is enabled, make sure worker nodes can perform forward DNS lookup of their hostnames. Apigee Cassandra uses forward DNS lookup to obtain the host IP while starting.
    • Open Cassandra ports between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for the Cassandra port numbers.

For detailed information, see Kubernetes documentation.

OpenShift

  • When installing multi-region Apigee deployments between different networks (e.g. different cloud providers, different VPC networks, cloud and on-prem, etc), you must provide internal connectivity between these separate networks that Cassandra can use to communicate between nodes. This can be accomplished with VPNs or cloud-specific connectivity solutions.
  • Follow the hybrid installation guide for any prerequisites like Google Cloud and org configuration before moving to cluster setup steps.
  • Make sure cert-manager is installed in each cluster.
  • Make sure all Cassandra pods are able to resolve their own hostnames. If hostNetwork is set to false, then the hostname is the Cassandra pod name. If hostNetwork is set to true, then the hostname is the Kubernetes node hostname running the Cassandra pod.
  • Cassandra Multi Region requirements:
    • If the pod network namespace does not have connectivity between clusters (the clusters are running in "island network mode", the default case in OpenShift installations), enable the Kubernetes hostNetwork feature by setting cassandra.hostNetwork: true in the overrides file for all of the regions in your Apigee hybrid multi-regions installation.

      For more information on the need for hostNetwork, see Island mode clusters and hostNetwork below.

    • Enable hostNetwork on existing clusters before expanding your multi-region configuration to new regions.
    • When hostNetwork is enabled, make sure worker nodes can perform forward DNS lookup of their hostnames. Apigee Cassandra uses forward DNS lookup to obtain the host IP while starting.
    • Open Cassandra ports between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for the Cassandra port numbers.

For detailed information, see Kubernetes documentation.

Island mode clusters and hostNetwork

There are two main network models for Kubernetes clusters: fully integrated (or flat) and island mode. Apigee recommends using the flat network model where possible, as it makes multi-region Cassandra connectivity simpler. When a Kubernetes cluster is configured in island mode, the pod network is isolated. Pods can not communicate directly with pods running in other clusters using the pod IP address. See Typical network model implementations for further information about the differences between these two network models and examples of each.

When Apigee Hybrid is running on two or more Kubernetes clusters using an island mode networking model, it is required to enable the hostNetwork setting for Cassandra through the cassandra.hostNetwork property. By default, Kubernetes pods are isolated into individual network namespaces that prevents them from using the Kubernetes worker node IP. When hostNetwork is set to true, the pod is not isolated within its own network namespace, and instead uses the IP address and hostname of the Kubernetes worker node the pod is scheduled on. This allows Cassandra to natively use the Kubernetes worker node IP as its IP, providing a means for Cassandra to establish a full mesh between all Cassandra pods in multiple clusters running in island mode.

Cassandra hostname resolution

Though a Cassandra pod does not resolve other Cassandra pods by hostname, at startup Cassandra checks that its own hostname is resolvable by DNS. As the pod hostname is the same as the Kubernetes worker node hostname when hostNetwork is set to true, the worker node hostname must be resolvable to an IP address via the cluster DNS service. If the Kubernetes worker node hostname is not resolvable, the Cassandra pod will fail to fully start. Therefore, it is important that Kubernetes worker node hostnames are resolvable from pods in the cluster when setting hostNetwork to true.

Configure Apigee hybrid for multi-region

This section describes how to configure Apigee hybrid for multi-region.

GKE

Configure the multi-region seed host

This section describes how to expand the existing Cassandra cluster to a new region. This setup allows the new region to bootstrap the cluster and join the existing data center. Without this configuration, the multi-region Kubernetes clusters would not know about each other.

  1. For the first region created, get the pods in your apigee namespace:

    kubectl get pods -o wide -n apigee
    
  2. Identify the multi-region seed host address for Cassandra in this region, for example 10.0.0.11.
  3. Prepare the overrides.yaml file for the second region and add in the seed host IP address as follows:

    cassandra:
      multiRegionSeedHost: "SEED_HOST_IP_ADDRESS"
      datacenter: "DATACENTER_NAME"
      rack: "RACK_NAME"
      hostNetwork: false
      clusterName: CLUSTER_NAME
    

    Replace the following:

    • SEED_HOST_IP_ADDRESS with the seed host IP address, for example 10.0.0.11.
    • DATACENTER_NAME with the datacenter name, for example dc-2.
    • RACK_NAME with the rack name, for example ra-1.
    • CLUSTER_NAME with the name of your Cassandra cluster. By default the value is apigeecluster. If you use a different cluster name, you must specify a value for cassandra.clusterName. You are free to choose your own value but it must be the same in all regions.

Configure the second region

To set up the new region:

  1. Install cert-manager in the second region.

  2. Copy your certificate from the existing cluster to the new cluster. The new CA root is used by Cassandra and other hybrid components for mTLS. Therefore, it is essential to have consistent certificates across the cluster.
    1. Set the context to the original namespace:

      kubectl config use-context ORIGINAL_CLUSTER_NAME
      
    2. Export the current namespace configuration to a file:

      kubectl get namespace apigee -o yaml > apigee-namespace.yaml
      
    3. Export the apigee-ca secret to a file:

      kubectl -n cert-manager get secret apigee-ca -o yaml > apigee-ca.yaml
      
    4. Set the context to the new region's cluster name:

      kubectl config use-context NEW_CLUSTER_NAME
      
    5. Import the namespace configuration to the new cluster. Be sure to update the namespace in the file if you're using a different namespace in the new region:

      kubectl apply -f apigee-namespace.yaml
      
    6. Import the secret to the new cluster:

      kubectl -n cert-manager apply -f apigee-ca.yaml
      
  3. Follow the steps to Install the Apigee hybrid CRDs into the new region.

  4. Now use Helm charts to install Apigee hybrid in the new region with the following Helm Chart commands (as done in region 1):

    helm upgrade operator apigee-operator \
      --install \
      --create-namespace \
      --namespace apigee-system \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade datastore apigee-datastore \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade telemetry apigee-telemetry \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade redis apigee-redis \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ingress-manager apigee-ingress-manager \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ORG_NAME apigee-org \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env mentioned on the overrides
    helm upgrade ENV_NAME apigee-env/ \
      --install \
      --namespace apigee \
      --atomic \
      --set env=ENV_NAME \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env group mentioned on the overrides
    helm upgrade apigee-virtualhost-ENV_GROUP_NAME apigee-virtualhost/ \
      --install \
      --namespace apigee \
      --atomic \
      --set envgroup=ENV_GROUP_NAME \
      -f overrides-DATACENTER_NAME.yaml
    
  5. Verify the Cassandra cluster setup by running the following command. The output should show both the existing and new data centers.
    kubectl exec apigee-cassandra-default-0 -n apigee  \
    -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    Example showing a successful setup:

    Datacenter: dc-1
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.87.93   68.07 GiB  256     ?     fb51465c-167a-42f7-98c9-b6eba1de34de  c
    UN  10.132.84.94   69.9 GiB   256     ?     f621a5ac-e7ee-48a9-9a14-73d69477c642  b
    UN  10.132.84.105  76.95 GiB  256     ?     0561086f-e95b-4232-ba6c-ad519ff30336  d
    
    Datacenter: dc-2
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.0.8     71.61 GiB  256     ?     8894a98b-8406-45de-99e2-f404ab10b5d6  c
    UN  10.132.9.204   75.1 GiB   256     ?     afa0ffa3-630b-4f1e-b46f-fc3df988092e  a
    UN  10.132.3.133   68.08 GiB  256     ?     25ae39ab-b39e-4d4f-9cb7-de095ab873db  b
  6. Set up Cassandra on all the pods in the new data centers.
    1. Get apigeeorg from the cluster with the following command:
      kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      

      For example:

      Ex: kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      "rg-hybrid-b7d3b9c"
      
    2. Create a cassandra data replication custom resource (YAML) file. The file can have any name. In the following examples the file will have the name datareplication.yaml.

      The file must contain the following:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: REGION_EXPANSION
        namespace: NAMESPACE
      spec:
        organizationRef: APIGEEORG_VALUE
        force: false
        source:
          region: SOURCE_REGION

      Where:

      • REGION_EXPANSION is the name you are giving this metadata. You can use any name.
      • NAMESPACE is the same namespace that is provided in overrides.yaml. This is usually "apigee".
      • APIGEEORG_VALUE is the value output from the kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name" command in the previous step. For example, rg-hybrid-b7d3b9c
      • SOURCE_REGION is the source region, datacenter value under cassandra section from source region overrides.yaml

      For example:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: region-expansion
        namespace: apigee
      spec:
        organizationRef: rg-hybrid-b7d3b9c
        force: false
        source:
          region: "dc-1"
    3. Apply the CassandraDataReplication with the following command:
      kubectl apply -f datareplication.yaml
  7. Verify the rebuild status using the following command.
    kubectl -n apigee get apigeeds -o json | jq ".items[].status.cassandraDataReplication"

    The results should look something like:

    {
    "rebuildDetails": {
    "apigee-cassandra-default-0": {
    "state": "complete",
    "updated": 1623105760
    },
    "apigee-cassandra-default-1": {
    "state": "complete",
    "updated": 1623105765
    },
    "apigee-cassandra-default-2": {
    "state": "complete",
    "updated": 1623105770
    }
    },
    "state": "complete",
    "updated": 1623105770
    }
  8. Once the data replication is complete and verified, update the seed hosts:
    1. Remove multiRegionSeedHost: 10.0.0.11 from overrides-DATACENTER_NAME.yaml.
    2. Reapply the change to update the apigee datastore CR:

      helm upgrade datastore apigee-datastore/ \
        --install \
        --namespace apigee \
        --atomic \
        -f overrides-DATACENTER_NAME.yaml
      
  9. Verify the rebuild processes from the logs. Also, verify the data size using the nodetool status command.
    kubectl logs apigee-cassandra-default-0 -f -n apigee
    kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    The following example shows example log entries:

    INFO  01:42:24 rebuild from dc: dc-1, (All keyspaces), (All tokens)
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Executing streaming plan for Rebuild
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.432KiB), sending 0 files(0.000KiB)
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.1.45 is complete
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.693KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.4.36 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 3 files(0.720KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.5.22 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] All sessions completed

Check the Cassandra cluster status

The following command is useful to see if the cluster setup is successful in two data centers. The command checks the nodetool status for the two regions.

kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status


Datacenter: dc-1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.12.1.45  112.09 KiB  256          100.0%            3c98c816-3f4d-48f0-9717-03d0c998637f  ra-1
UN  10.12.4.36  95.27 KiB  256          100.0%            0a36383d-1d9e-41e2-924c-7b62be12d6cc  ra-1
UN  10.12.5.22  88.7 KiB   256          100.0%            3561f4fa-af3d-4ea4-93b2-79ac7e938201  ra-1
Datacenter: us-west1
====================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.0.4.33   78.69 KiB  256          100.0%              a200217d-260b-45cd-b83c-182b27ff4c99  ra-1
UN  10.0.0.21   78.68 KiB  256          100.0%              9f3364b9-a7a1-409c-9356-b7d1d312e52b  ra-1
UN  10.0.1.26   15.46 KiB  256          100.0%              1666df0f-702e-4c5b-8b6e-086d0f2e47fa  ra-1

GKE on-prem

Configure the multi-region seed host

This section describes how to expand the existing Cassandra cluster to a new region. This setup allows the new region to bootstrap the cluster and join the existing data center. Without this configuration, the multi-region Kubernetes clusters would not know about each other.

  1. For the first region created, get the pods in your apigee namespace:

    kubectl get pods -o wide -n apigee
    
  2. Identify the multi-region seed host address for Cassandra in this region, for example 10.0.0.11.
  3. Prepare the overrides.yaml file for the second region and add in the seed host IP address as follows:

    cassandra:
      multiRegionSeedHost: "SEED_HOST_IP_ADDRESS"
      datacenter: "DATACENTER_NAME"
      rack: "RACK_NAME"
      hostNetwork: false
      clusterName: CLUSTER_NAME
    

    Replace the following:

    • SEED_HOST_IP_ADDRESS with the seed host IP address, for example 10.0.0.11.
    • DATACENTER_NAME with the datacenter name, for example dc-2.
    • RACK_NAME with the rack name, for example ra-1.
    • CLUSTER_NAME with the name of your Cassandra cluster. By default the value is apigeecluster. If you use a different cluster name, you must specify a value for cassandra.clusterName. You are free to choose your own value but it must be the same in all regions.

Configure the second region

To set up the new region:

  1. Install cert-manager in the second region.

  2. Copy your certificate from the existing cluster to the new cluster. The new CA root is used by Cassandra and other hybrid components for mTLS. Therefore, it is essential to have consistent certificates across the cluster.
    1. Set the context to the original namespace:

      kubectl config use-context ORIGINAL_CLUSTER_NAME
      
    2. Export the current namespace configuration to a file:

      kubectl get namespace apigee -o yaml > apigee-namespace.yaml
      
    3. Export the apigee-ca secret to a file:

      kubectl -n cert-manager get secret apigee-ca -o yaml > apigee-ca.yaml
      
    4. Set the context to the new region's cluster name:

      kubectl config use-context NEW_CLUSTER_NAME
      
    5. Import the namespace configuration to the new cluster. Be sure to update the namespace in the file if you're using a different namespace in the new region:

      kubectl apply -f apigee-namespace.yaml
      
    6. Import the secret to the new cluster:

      kubectl -n cert-manager apply -f apigee-ca.yaml
      
  3. Follow the steps to Install the Apigee hybrid CRDs into the new region.

  4. Now use Helm charts to install Apigee hybrid in the new region with the following Helm Chart commands (as done in region 1):

    helm upgrade operator apigee-operator \
      --install \
      --create-namespace \
      --namespace apigee-system \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade datastore apigee-datastore \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade telemetry apigee-telemetry \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade redis apigee-redis \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ingress-manager apigee-ingress-manager \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ORG_NAME apigee-org \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env mentioned on the overrides
    helm upgrade ENV_NAME apigee-env/ \
      --install \
      --namespace apigee \
      --atomic \
      --set env=ENV_NAME \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env group mentioned on the overrides
    helm upgrade apigee-virtualhost-ENV_GROUP_NAME apigee-virtualhost/ \
      --install \
      --namespace apigee \
      --atomic \
      --set envgroup=ENV_GROUP_NAME \
      -f overrides-DATACENTER_NAME.yaml
    
  5. Verify the Cassandra cluster setup by running the following command. The output should show both the existing and new data centers.
    kubectl exec apigee-cassandra-default-0 -n apigee  \
    -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    Example showing a successful setup:

    Datacenter: dc-1
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.87.93   68.07 GiB  256     ?     fb51465c-167a-42f7-98c9-b6eba1de34de  c
    UN  10.132.84.94   69.9 GiB   256     ?     f621a5ac-e7ee-48a9-9a14-73d69477c642  b
    UN  10.132.84.105  76.95 GiB  256     ?     0561086f-e95b-4232-ba6c-ad519ff30336  d
    
    Datacenter: dc-2
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.0.8     71.61 GiB  256     ?     8894a98b-8406-45de-99e2-f404ab10b5d6  c
    UN  10.132.9.204   75.1 GiB   256     ?     afa0ffa3-630b-4f1e-b46f-fc3df988092e  a
    UN  10.132.3.133   68.08 GiB  256     ?     25ae39ab-b39e-4d4f-9cb7-de095ab873db  b
  6. Set up Cassandra on all the pods in the new data centers.
    1. Get apigeeorg from the cluster with the following command:
      kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      

      For example:

      Ex: kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      "rg-hybrid-b7d3b9c"
      
    2. Create a cassandra data replication custom resource (YAML) file. The file can have any name. In the following examples the file will have the name datareplication.yaml.

      The file must contain the following:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: REGION_EXPANSION
        namespace: NAMESPACE
      spec:
        organizationRef: APIGEEORG_VALUE
        force: false
        source:
          region: SOURCE_REGION

      Where:

      • REGION_EXPANSION is the name you are giving this metadata. You can use any name.
      • NAMESPACE is the same namespace that is provided in overrides.yaml. This is usually "apigee".
      • APIGEEORG_VALUE is the value output from the kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name" command in the previous step. For example, rg-hybrid-b7d3b9c
      • SOURCE_REGION is the source region, datacenter value under cassandra section from source region overrides.yaml

      For example:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: region-expansion
        namespace: apigee
      spec:
        organizationRef: rg-hybrid-b7d3b9c
        force: false
        source:
          region: "dc-1"
    3. Apply the CassandraDataReplication with the following command:
      kubectl apply -f datareplication.yaml
  7. Verify the rebuild status using the following command.
    kubectl -n apigee get apigeeds -o json | jq ".items[].status.cassandraDataReplication"

    The results should look something like:

    {
    "rebuildDetails": {
    "apigee-cassandra-default-0": {
    "state": "complete",
    "updated": 1623105760
    },
    "apigee-cassandra-default-1": {
    "state": "complete",
    "updated": 1623105765
    },
    "apigee-cassandra-default-2": {
    "state": "complete",
    "updated": 1623105770
    }
    },
    "state": "complete",
    "updated": 1623105770
    }
  8. Once the data replication is complete and verified, update the seed hosts:
    1. Remove multiRegionSeedHost: 10.0.0.11 from overrides-DATACENTER_NAME.yaml.
    2. Reapply the change to update the apigee datastore CR:

      helm upgrade datastore apigee-datastore/ \
        --install \
        --namespace apigee \
        --atomic \
        -f overrides-DATACENTER_NAME.yaml
      
  9. Verify the rebuild processes from the logs. Also, verify the data size using the nodetool status command.
    kubectl logs apigee-cassandra-default-0 -f -n apigee
    kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    The following example shows example log entries:

    INFO  01:42:24 rebuild from dc: dc-1, (All keyspaces), (All tokens)
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Executing streaming plan for Rebuild
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.432KiB), sending 0 files(0.000KiB)
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.1.45 is complete
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.693KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.4.36 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 3 files(0.720KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.5.22 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] All sessions completed

Check the Cassandra cluster status

The following command is useful to see if the cluster setup is successful in two data centers. The command checks the nodetool status for the two regions.

kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status


Datacenter: dc-1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.12.1.45  112.09 KiB  256          100.0%            3c98c816-3f4d-48f0-9717-03d0c998637f  ra-1
UN  10.12.4.36  95.27 KiB  256          100.0%            0a36383d-1d9e-41e2-924c-7b62be12d6cc  ra-1
UN  10.12.5.22  88.7 KiB   256          100.0%            3561f4fa-af3d-4ea4-93b2-79ac7e938201  ra-1
Datacenter: us-west1
====================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.0.4.33   78.69 KiB  256          100.0%              a200217d-260b-45cd-b83c-182b27ff4c99  ra-1
UN  10.0.0.21   78.68 KiB  256          100.0%              9f3364b9-a7a1-409c-9356-b7d1d312e52b  ra-1
UN  10.0.1.26   15.46 KiB  256          100.0%              1666df0f-702e-4c5b-8b6e-086d0f2e47fa  ra-1

AKS

Create a virtual network in each region

Follow the Azure recommendations for establishing cross-region communication here: VNet-to-VNet: Connecting Virtual Networks in Azure across Different Regions.

Create multi-regional clusters

Set up Kubernetes clusters in multiple regions with different CIDR blocks. See also Step 1: Create a cluster. Use the locations and virtual network names you created previously.

Open Cassandra ports between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for the Cassandra port numbers.

Configure the multi-region seed host

This section describes how to expand the existing Cassandra cluster to a new region. This setup allows the new region to bootstrap the cluster and join the existing data center. Without this configuration, the multi-region Kubernetes clusters would not know about each other.

  1. For the first region created, get the pods in your apigee namespace:

    kubectl get pods -o wide -n apigee
    
  2. Identify the multi-region seed host address for Cassandra in this region, for example 10.0.0.11.
  3. Prepare the overrides.yaml file for the second region and add in the seed host IP address as follows:

    cassandra:
      multiRegionSeedHost: "SEED_HOST_IP_ADDRESS"
      datacenter: "DATACENTER_NAME"
      rack: "RACK_NAME"
      hostNetwork: false
      clusterName: CLUSTER_NAME
    

    Replace the following:

    • SEED_HOST_IP_ADDRESS with the seed host IP address, for example 10.0.0.11.
    • DATACENTER_NAME with the datacenter name, for example dc-2.
    • RACK_NAME with the rack name, for example ra-1.
    • CLUSTER_NAME with the name of your Cassandra cluster. By default the value is apigeecluster. If you use a different cluster name, you must specify a value for cassandra.clusterName. You are free to choose your own value but it must be the same in all regions.

Configure the second region

To set up the new region:

  1. Install cert-manager in the second region.

  2. Copy your certificate from the existing cluster to the new cluster. The new CA root is used by Cassandra and other hybrid components for mTLS. Therefore, it is essential to have consistent certificates across the cluster.
    1. Set the context to the original namespace:

      kubectl config use-context ORIGINAL_CLUSTER_NAME
      
    2. Export the current namespace configuration to a file:

      kubectl get namespace apigee -o yaml > apigee-namespace.yaml
      
    3. Export the apigee-ca secret to a file:

      kubectl -n cert-manager get secret apigee-ca -o yaml > apigee-ca.yaml
      
    4. Set the context to the new region's cluster name:

      kubectl config use-context NEW_CLUSTER_NAME
      
    5. Import the namespace configuration to the new cluster. Be sure to update the namespace in the file if you're using a different namespace in the new region:

      kubectl apply -f apigee-namespace.yaml
      
    6. Import the secret to the new cluster:

      kubectl -n cert-manager apply -f apigee-ca.yaml
      
  3. Follow the steps to Install the Apigee hybrid CRDs into the new region.

  4. Now use Helm charts to install Apigee hybrid in the new region with the following Helm Chart commands (as done in region 1):

    helm upgrade operator apigee-operator \
      --install \
      --create-namespace \
      --namespace apigee-system \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade datastore apigee-datastore \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade telemetry apigee-telemetry \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade redis apigee-redis \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ingress-manager apigee-ingress-manager \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ORG_NAME apigee-org \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env mentioned on the overrides
    helm upgrade ENV_NAME apigee-env/ \
      --install \
      --namespace apigee \
      --atomic \
      --set env=ENV_NAME \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env group mentioned on the overrides
    helm upgrade apigee-virtualhost-ENV_GROUP_NAME apigee-virtualhost/ \
      --install \
      --namespace apigee \
      --atomic \
      --set envgroup=ENV_GROUP_NAME \
      -f overrides-DATACENTER_NAME.yaml
    
  5. Verify the Cassandra cluster setup by running the following command. The output should show both the existing and new data centers.
    kubectl exec apigee-cassandra-default-0 -n apigee  \
    -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    Example showing a successful setup:

    Datacenter: dc-1
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.87.93   68.07 GiB  256     ?     fb51465c-167a-42f7-98c9-b6eba1de34de  c
    UN  10.132.84.94   69.9 GiB   256     ?     f621a5ac-e7ee-48a9-9a14-73d69477c642  b
    UN  10.132.84.105  76.95 GiB  256     ?     0561086f-e95b-4232-ba6c-ad519ff30336  d
    
    Datacenter: dc-2
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.0.8     71.61 GiB  256     ?     8894a98b-8406-45de-99e2-f404ab10b5d6  c
    UN  10.132.9.204   75.1 GiB   256     ?     afa0ffa3-630b-4f1e-b46f-fc3df988092e  a
    UN  10.132.3.133   68.08 GiB  256     ?     25ae39ab-b39e-4d4f-9cb7-de095ab873db  b
  6. Set up Cassandra on all the pods in the new data centers.
    1. Get apigeeorg from the cluster with the following command:
      kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      

      For example:

      Ex: kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      "rg-hybrid-b7d3b9c"
      
    2. Create a cassandra data replication custom resource (YAML) file. The file can have any name. In the following examples the file will have the name datareplication.yaml.

      The file must contain the following:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: REGION_EXPANSION
        namespace: NAMESPACE
      spec:
        organizationRef: APIGEEORG_VALUE
        force: false
        source:
          region: SOURCE_REGION

      Where:

      • REGION_EXPANSION is the name you are giving this metadata. You can use any name.
      • NAMESPACE is the same namespace that is provided in overrides.yaml. This is usually "apigee".
      • APIGEEORG_VALUE is the value output from the kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name" command in the previous step. For example, rg-hybrid-b7d3b9c
      • SOURCE_REGION is the source region, datacenter value under cassandra section from source region overrides.yaml

      For example:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: region-expansion
        namespace: apigee
      spec:
        organizationRef: rg-hybrid-b7d3b9c
        force: false
        source:
          region: "dc-1"
    3. Apply the CassandraDataReplication with the following command:
      kubectl apply -f datareplication.yaml
  7. Verify the rebuild status using the following command.
    kubectl -n apigee get apigeeds -o json | jq ".items[].status.cassandraDataReplication"

    The results should look something like:

    {
    "rebuildDetails": {
    "apigee-cassandra-default-0": {
    "state": "complete",
    "updated": 1623105760
    },
    "apigee-cassandra-default-1": {
    "state": "complete",
    "updated": 1623105765
    },
    "apigee-cassandra-default-2": {
    "state": "complete",
    "updated": 1623105770
    }
    },
    "state": "complete",
    "updated": 1623105770
    }
  8. Once the data replication is complete and verified, update the seed hosts:
    1. Remove multiRegionSeedHost: 10.0.0.11 from overrides-DATACENTER_NAME.yaml.
    2. Reapply the change to update the apigee datastore CR:

      helm upgrade datastore apigee-datastore/ \
        --install \
        --namespace apigee \
        --atomic \
        -f overrides-DATACENTER_NAME.yaml
      
  9. Verify the rebuild processes from the logs. Also, verify the data size using the nodetool status command.
    kubectl logs apigee-cassandra-default-0 -f -n apigee
    kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    The following example shows example log entries:

    INFO  01:42:24 rebuild from dc: dc-1, (All keyspaces), (All tokens)
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Executing streaming plan for Rebuild
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.432KiB), sending 0 files(0.000KiB)
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.1.45 is complete
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.693KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.4.36 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 3 files(0.720KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.5.22 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] All sessions completed

Check the Cassandra cluster status

The following command is useful to see if the cluster setup is successful in two data centers. The command checks the nodetool status for the two regions.

kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status


Datacenter: dc-1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.12.1.45  112.09 KiB  256          100.0%            3c98c816-3f4d-48f0-9717-03d0c998637f  ra-1
UN  10.12.4.36  95.27 KiB  256          100.0%            0a36383d-1d9e-41e2-924c-7b62be12d6cc  ra-1
UN  10.12.5.22  88.7 KiB   256          100.0%            3561f4fa-af3d-4ea4-93b2-79ac7e938201  ra-1
Datacenter: us-west1
====================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.0.4.33   78.69 KiB  256          100.0%              a200217d-260b-45cd-b83c-182b27ff4c99  ra-1
UN  10.0.0.21   78.68 KiB  256          100.0%              9f3364b9-a7a1-409c-9356-b7d1d312e52b  ra-1
UN  10.0.1.26   15.46 KiB  256          100.0%              1666df0f-702e-4c5b-8b6e-086d0f2e47fa  ra-1

EKS

Create a virtual network in each region

Follow the AWS recommendations for establishing cross-region communication as described in: What is VPC peering?. The AWS term for using different regions is inter-Region VPC peering.

Create multi-regional clusters

Set up Kubernetes clusters in multiple regions with different CIDR blocks. See also Step 1: Create a cluster. Use the locations and virtual network names you created previously.

Open Cassandra ports between Kubernetes clusters across all regions to enable worker nodes across regions and datacenters to communicate. See Configure ports for the Cassandra port numbers.

Configure the multi-region seed host

This section describes how to expand the existing Cassandra cluster to a new region. This setup allows the new region to bootstrap the cluster and join the existing data center. Without this configuration, the multi-region Kubernetes clusters would not know about each other.

  1. For the first region created, get the pods in your apigee namespace:

    kubectl get pods -o wide -n apigee
    
  2. Identify the multi-region seed host address for Cassandra in this region, for example 10.0.0.11.
  3. Prepare the overrides.yaml file for the second region and add in the seed host IP address as follows:

    cassandra:
      multiRegionSeedHost: "SEED_HOST_IP_ADDRESS"
      datacenter: "DATACENTER_NAME"
      rack: "RACK_NAME"
      hostNetwork: false
      clusterName: CLUSTER_NAME
    

    Replace the following:

    • SEED_HOST_IP_ADDRESS with the seed host IP address, for example 10.0.0.11.
    • DATACENTER_NAME with the datacenter name, for example dc-2.
    • RACK_NAME with the rack name, for example ra-1.
    • CLUSTER_NAME with the name of your Cassandra cluster. By default the value is apigeecluster. If you use a different cluster name, you must specify a value for cassandra.clusterName. You are free to choose your own value but it must be the same in all regions.

Configure the second region

To set up the new region:

  1. Install cert-manager in the second region.

  2. Copy your certificate from the existing cluster to the new cluster. The new CA root is used by Cassandra and other hybrid components for mTLS. Therefore, it is essential to have consistent certificates across the cluster.
    1. Set the context to the original namespace:

      kubectl config use-context ORIGINAL_CLUSTER_NAME
      
    2. Export the current namespace configuration to a file:

      kubectl get namespace apigee -o yaml > apigee-namespace.yaml
      
    3. Export the apigee-ca secret to a file:

      kubectl -n cert-manager get secret apigee-ca -o yaml > apigee-ca.yaml
      
    4. Set the context to the new region's cluster name:

      kubectl config use-context NEW_CLUSTER_NAME
      
    5. Import the namespace configuration to the new cluster. Be sure to update the namespace in the file if you're using a different namespace in the new region:

      kubectl apply -f apigee-namespace.yaml
      
    6. Import the secret to the new cluster:

      kubectl -n cert-manager apply -f apigee-ca.yaml
      
  3. Follow the steps to Install the Apigee hybrid CRDs into the new region.

  4. Now use Helm charts to install Apigee hybrid in the new region with the following Helm Chart commands (as done in region 1):

    helm upgrade operator apigee-operator \
      --install \
      --create-namespace \
      --namespace apigee-system \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade datastore apigee-datastore \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade telemetry apigee-telemetry \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade redis apigee-redis \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ingress-manager apigee-ingress-manager \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ORG_NAME apigee-org \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env mentioned on the overrides
    helm upgrade ENV_NAME apigee-env/ \
      --install \
      --namespace apigee \
      --atomic \
      --set env=ENV_NAME \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env group mentioned on the overrides
    helm upgrade apigee-virtualhost-ENV_GROUP_NAME apigee-virtualhost/ \
      --install \
      --namespace apigee \
      --atomic \
      --set envgroup=ENV_GROUP_NAME \
      -f overrides-DATACENTER_NAME.yaml
    
  5. Verify the Cassandra cluster setup by running the following command. The output should show both the existing and new data centers.
    kubectl exec apigee-cassandra-default-0 -n apigee  \
    -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    Example showing a successful setup:

    Datacenter: dc-1
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.87.93   68.07 GiB  256     ?     fb51465c-167a-42f7-98c9-b6eba1de34de  c
    UN  10.132.84.94   69.9 GiB   256     ?     f621a5ac-e7ee-48a9-9a14-73d69477c642  b
    UN  10.132.84.105  76.95 GiB  256     ?     0561086f-e95b-4232-ba6c-ad519ff30336  d
    
    Datacenter: dc-2
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.0.8     71.61 GiB  256     ?     8894a98b-8406-45de-99e2-f404ab10b5d6  c
    UN  10.132.9.204   75.1 GiB   256     ?     afa0ffa3-630b-4f1e-b46f-fc3df988092e  a
    UN  10.132.3.133   68.08 GiB  256     ?     25ae39ab-b39e-4d4f-9cb7-de095ab873db  b
  6. Set up Cassandra on all the pods in the new data centers.
    1. Get apigeeorg from the cluster with the following command:
      kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      

      For example:

      Ex: kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      "rg-hybrid-b7d3b9c"
      
    2. Create a cassandra data replication custom resource (YAML) file. The file can have any name. In the following examples the file will have the name datareplication.yaml.

      The file must contain the following:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: REGION_EXPANSION
        namespace: NAMESPACE
      spec:
        organizationRef: APIGEEORG_VALUE
        force: false
        source:
          region: SOURCE_REGION

      Where:

      • REGION_EXPANSION is the name you are giving this metadata. You can use any name.
      • NAMESPACE is the same namespace that is provided in overrides.yaml. This is usually "apigee".
      • APIGEEORG_VALUE is the value output from the kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name" command in the previous step. For example, rg-hybrid-b7d3b9c
      • SOURCE_REGION is the source region, datacenter value under cassandra section from source region overrides.yaml

      For example:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: region-expansion
        namespace: apigee
      spec:
        organizationRef: rg-hybrid-b7d3b9c
        force: false
        source:
          region: "dc-1"
    3. Apply the CassandraDataReplication with the following command:
      kubectl apply -f datareplication.yaml
  7. Verify the rebuild status using the following command.
    kubectl -n apigee get apigeeds -o json | jq ".items[].status.cassandraDataReplication"

    The results should look something like:

    {
    "rebuildDetails": {
    "apigee-cassandra-default-0": {
    "state": "complete",
    "updated": 1623105760
    },
    "apigee-cassandra-default-1": {
    "state": "complete",
    "updated": 1623105765
    },
    "apigee-cassandra-default-2": {
    "state": "complete",
    "updated": 1623105770
    }
    },
    "state": "complete",
    "updated": 1623105770
    }
  8. Once the data replication is complete and verified, update the seed hosts:
    1. Remove multiRegionSeedHost: 10.0.0.11 from overrides-DATACENTER_NAME.yaml.
    2. Reapply the change to update the apigee datastore CR:

      helm upgrade datastore apigee-datastore/ \
        --install \
        --namespace apigee \
        --atomic \
        -f overrides-DATACENTER_NAME.yaml
      
  9. Verify the rebuild processes from the logs. Also, verify the data size using the nodetool status command.
    kubectl logs apigee-cassandra-default-0 -f -n apigee
    kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    The following example shows example log entries:

    INFO  01:42:24 rebuild from dc: dc-1, (All keyspaces), (All tokens)
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Executing streaming plan for Rebuild
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.432KiB), sending 0 files(0.000KiB)
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.1.45 is complete
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.693KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.4.36 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 3 files(0.720KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.5.22 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] All sessions completed

Check the Cassandra cluster status

The following command is useful to see if the cluster setup is successful in two data centers. The command checks the nodetool status for the two regions.

kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status


Datacenter: dc-1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.12.1.45  112.09 KiB  256          100.0%            3c98c816-3f4d-48f0-9717-03d0c998637f  ra-1
UN  10.12.4.36  95.27 KiB  256          100.0%            0a36383d-1d9e-41e2-924c-7b62be12d6cc  ra-1
UN  10.12.5.22  88.7 KiB   256          100.0%            3561f4fa-af3d-4ea4-93b2-79ac7e938201  ra-1
Datacenter: us-west1
====================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.0.4.33   78.69 KiB  256          100.0%              a200217d-260b-45cd-b83c-182b27ff4c99  ra-1
UN  10.0.0.21   78.68 KiB  256          100.0%              9f3364b9-a7a1-409c-9356-b7d1d312e52b  ra-1
UN  10.0.1.26   15.46 KiB  256          100.0%              1666df0f-702e-4c5b-8b6e-086d0f2e47fa  ra-1

OpenShift

Configure the multi-region seed host

This section describes how to expand the existing Cassandra cluster to a new region. This setup allows the new region to bootstrap the cluster and join the existing data center. Without this configuration, the multi-region Kubernetes clusters would not know about each other.

  1. For the first region created, get the pods in your apigee namespace:

    kubectl get pods -o wide -n apigee
    
  2. Identify the multi-region seed host address for Cassandra in this region, for example 10.0.0.11.
  3. Prepare the overrides.yaml file for the second region and add in the seed host IP address as follows:

    cassandra:
      multiRegionSeedHost: "SEED_HOST_IP_ADDRESS"
      datacenter: "DATACENTER_NAME"
      rack: "RACK_NAME"
      hostNetwork: false
      clusterName: CLUSTER_NAME
    

    Replace the following:

    • SEED_HOST_IP_ADDRESS with the seed host IP address, for example 10.0.0.11.
    • DATACENTER_NAME with the datacenter name, for example dc-2.
    • RACK_NAME with the rack name, for example ra-1.
    • CLUSTER_NAME with the name of your Cassandra cluster. By default the value is apigeecluster. If you use a different cluster name, you must specify a value for cassandra.clusterName. You are free to choose your own value but it must be the same in all regions.

Configure the second region

To set up the new region:

  1. Install cert-manager in the second region.

  2. Copy your certificate from the existing cluster to the new cluster. The new CA root is used by Cassandra and other hybrid components for mTLS. Therefore, it is essential to have consistent certificates across the cluster.
    1. Set the context to the original namespace:

      kubectl config use-context ORIGINAL_CLUSTER_NAME
      
    2. Export the current namespace configuration to a file:

      kubectl get namespace apigee -o yaml > apigee-namespace.yaml
      
    3. Export the apigee-ca secret to a file:

      kubectl -n cert-manager get secret apigee-ca -o yaml > apigee-ca.yaml
      
    4. Set the context to the new region's cluster name:

      kubectl config use-context NEW_CLUSTER_NAME
      
    5. Import the namespace configuration to the new cluster. Be sure to update the namespace in the file if you're using a different namespace in the new region:

      kubectl apply -f apigee-namespace.yaml
      
    6. Import the secret to the new cluster:

      kubectl -n cert-manager apply -f apigee-ca.yaml
      
  3. Follow the steps to Install the Apigee hybrid CRDs into the new region.

  4. Now use Helm charts to install Apigee hybrid in the new region with the following Helm Chart commands (as done in region 1):

    helm upgrade operator apigee-operator \
      --install \
      --create-namespace \
      --namespace apigee-system \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade datastore apigee-datastore \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade telemetry apigee-telemetry \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade redis apigee-redis \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ingress-manager apigee-ingress-manager \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    helm upgrade ORG_NAME apigee-org \
      --install \
      --namespace apigee \
      --atomic \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env mentioned on the overrides
    helm upgrade ENV_NAME apigee-env/ \
      --install \
      --namespace apigee \
      --atomic \
      --set env=ENV_NAME \
      -f overrides-DATACENTER_NAME.yaml
    # repeat the below command for each env group mentioned on the overrides
    helm upgrade apigee-virtualhost-ENV_GROUP_NAME apigee-virtualhost/ \
      --install \
      --namespace apigee \
      --atomic \
      --set envgroup=ENV_GROUP_NAME \
      -f overrides-DATACENTER_NAME.yaml
    
  5. Verify the Cassandra cluster setup by running the following command. The output should show both the existing and new data centers.
    kubectl exec apigee-cassandra-default-0 -n apigee  \
    -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    Example showing a successful setup:

    Datacenter: dc-1
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.87.93   68.07 GiB  256     ?     fb51465c-167a-42f7-98c9-b6eba1de34de  c
    UN  10.132.84.94   69.9 GiB   256     ?     f621a5ac-e7ee-48a9-9a14-73d69477c642  b
    UN  10.132.84.105  76.95 GiB  256     ?     0561086f-e95b-4232-ba6c-ad519ff30336  d
    
    Datacenter: dc-2
    ====================
    Status=Up/Down
    |/ State=Normal/Leaving/Joining/Moving
    --  Address        Load       Tokens  Owns  Host ID                               Rack
    UN  10.132.0.8     71.61 GiB  256     ?     8894a98b-8406-45de-99e2-f404ab10b5d6  c
    UN  10.132.9.204   75.1 GiB   256     ?     afa0ffa3-630b-4f1e-b46f-fc3df988092e  a
    UN  10.132.3.133   68.08 GiB  256     ?     25ae39ab-b39e-4d4f-9cb7-de095ab873db  b
  6. Set up Cassandra on all the pods in the new data centers.
    1. Get apigeeorg from the cluster with the following command:
      kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      

      For example:

      Ex: kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name"
      "rg-hybrid-b7d3b9c"
      
    2. Create a cassandra data replication custom resource (YAML) file. The file can have any name. In the following examples the file will have the name datareplication.yaml.

      The file must contain the following:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: REGION_EXPANSION
        namespace: NAMESPACE
      spec:
        organizationRef: APIGEEORG_VALUE
        force: false
        source:
          region: SOURCE_REGION

      Where:

      • REGION_EXPANSION is the name you are giving this metadata. You can use any name.
      • NAMESPACE is the same namespace that is provided in overrides.yaml. This is usually "apigee".
      • APIGEEORG_VALUE is the value output from the kubectl get apigeeorg -n apigee -o json | jq ".items[].metadata.name" command in the previous step. For example, rg-hybrid-b7d3b9c
      • SOURCE_REGION is the source region, datacenter value under cassandra section from source region overrides.yaml

      For example:

      apiVersion: apigee.cloud.google.com/v1alpha1
      kind: CassandraDataReplication
      metadata:
        name: region-expansion
        namespace: apigee
      spec:
        organizationRef: rg-hybrid-b7d3b9c
        force: false
        source:
          region: "dc-1"
    3. Apply the CassandraDataReplication with the following command:
      kubectl apply -f datareplication.yaml
  7. Verify the rebuild status using the following command.
    kubectl -n apigee get apigeeds -o json | jq ".items[].status.cassandraDataReplication"

    The results should look something like:

    {
    "rebuildDetails": {
    "apigee-cassandra-default-0": {
    "state": "complete",
    "updated": 1623105760
    },
    "apigee-cassandra-default-1": {
    "state": "complete",
    "updated": 1623105765
    },
    "apigee-cassandra-default-2": {
    "state": "complete",
    "updated": 1623105770
    }
    },
    "state": "complete",
    "updated": 1623105770
    }
  8. Once the data replication is complete and verified, update the seed hosts:
    1. Remove multiRegionSeedHost: 10.0.0.11 from overrides-DATACENTER_NAME.yaml.
    2. Reapply the change to update the apigee datastore CR:

      helm upgrade datastore apigee-datastore/ \
        --install \
        --namespace apigee \
        --atomic \
        -f overrides-DATACENTER_NAME.yaml
      
  9. Verify the rebuild processes from the logs. Also, verify the data size using the nodetool status command.
    kubectl logs apigee-cassandra-default-0 -f -n apigee
    kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status

    The following example shows example log entries:

    INFO  01:42:24 rebuild from dc: dc-1, (All keyspaces), (All tokens)
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Executing streaming plan for Rebuild
    INFO  01:42:24 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.1.45
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.432KiB), sending 0 files(0.000KiB)
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.1.45 is complete
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.4.36
    INFO  01:42:25 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Starting streaming to /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 1 files(0.693KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.4.36 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889, ID#0] Beginning stream session with /10.12.5.22
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889 ID#0] Prepare completed. Receiving 3 files(0.720KiB), sending 0 files(0.000KiB)
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] Session with /10.12.5.22 is complete
    INFO  01:42:26 [Stream #3a04e810-580d-11e9-a5aa-67071bf82889] All sessions completed

Check the Cassandra cluster status

The following command is useful to see if the cluster setup is successful in two data centers. The command checks the nodetool status for the two regions.

kubectl exec apigee-cassandra-default-0 -n apigee  -- nodetool -u APIGEE_JMX_USER -pw APIGEE_JMX_PASSWORD status


Datacenter: dc-1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.12.1.45  112.09 KiB  256          100.0%            3c98c816-3f4d-48f0-9717-03d0c998637f  ra-1
UN  10.12.4.36  95.27 KiB  256          100.0%            0a36383d-1d9e-41e2-924c-7b62be12d6cc  ra-1
UN  10.12.5.22  88.7 KiB   256          100.0%            3561f4fa-af3d-4ea4-93b2-79ac7e938201  ra-1
Datacenter: us-west1
====================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address     Load       Tokens       Owns (effective)  Host ID                               Rack
UN  10.0.4.33   78.69 KiB  256          100.0%              a200217d-260b-45cd-b83c-182b27ff4c99  ra-1
UN  10.0.0.21   78.68 KiB  256          100.0%              9f3364b9-a7a1-409c-9356-b7d1d312e52b  ra-1
UN  10.0.1.26   15.46 KiB  256          100.0%              1666df0f-702e-4c5b-8b6e-086d0f2e47fa  ra-1

Troubleshooting

See Cassandra data replication failure.