Een Valkey-cluster configureren en implementeren in Azure Kubernetes Service (AKS)

In dit artikel configureren en implementeren we een Valkey-cluster in Azure Kubernetes Service (AKS).

Notitie

Dit artikel bevat verwijzingen naar de termen master en slave, die termen zijn die Microsoft niet meer gebruikt. Wanneer de term uit de Valkey-software wordt verwijderd, wordt deze uit dit artikel verwijderd.

Een naamruimte maken

1. Maak een naamruimte voor het Valkey-cluster met behulp van de kubectl create namespace opdracht.

   kubectl create namespace ${SERVICE_ACCOUNT_NAMESPACE} --dry-run=client --output yaml | kubectl apply -f -
   

   Voorbeelduitvoer:

   namespace/valkey created
   

Geheimen maken

1. Genereer een willekeurig wachtwoord voor het Valkey-cluster met behulp van openssl en sla het op in uw Azure-sleutelkluis met behulp van de az keyvault secret set opdracht. Stel het beleid in om de door de gebruiker toegewezen identiteit toe te staan het geheim op te halen met behulp van de az keyvault set-policy opdracht.

   SECRET=$(openssl rand -base64 32)
   echo requirepass $SECRET > /tmp/valkey-password-file.conf
   echo primaryauth $SECRET >> /tmp/valkey-password-file.conf
   az keyvault secret set --vault-name $MY_KEYVAULT_NAME --name valkey-password-file --file /tmp/valkey-password-file.conf --output table
   rm /tmp/valkey-password-file.conf
   az keyvault set-policy --name $MY_KEYVAULT_NAME --object-id $userAssignedObjectID --secret-permissions get --output table
   

2. Maak een SecretProviderClass resource voor toegang tot het Valkey-wachtwoord dat is opgeslagen in uw sleutelkluis met behulp van de kubectl apply opdracht.

   kubectl apply -f - <<EOF
   ---
   apiVersion: secrets-store.csi.x-k8s.io/v1
   kind: SecretProviderClass
   metadata:
     name: valkey-password
     namespace: valkey
   spec:
     provider: azure
     parameters:
       usePodIdentity: "false"
       useVMManagedIdentity: "true"
       userAssignedIdentityID: "${userAssignedIdentityID}"
       keyvaultName: ${MY_KEYVAULT_NAME}              # the name of the AKV instance
       objects: |
         array:
           - |
             objectName: valkey-password-file
             objectAlias: valkey-password-file.conf
             objectType: secret
       tenantId: "${TENANT_ID}" # the tenant ID of the AKV instance
   EOF
   

Het Valkey-cluster implementeren

1. Maak een ConfigMap gekoppeld volume in de Valkey StatefulSet om het Valkey-cluster te configureren met behulp van de kubectl apply opdracht.

   kubectl apply -f - <<EOF
   apiVersion: v1
   kind: ConfigMap
   metadata:
     name: valkey-cluster
     namespace: valkey
   data:
     valkey.conf:  |+
       cluster-enabled yes
       cluster-node-timeout 15000
       cluster-config-file /data/nodes.conf
       appendonly yes
       protected-mode yes
       dir /data
       port 6379
       include /etc/valkey-password/valkey-password-file.conf
   EOF
   

   Voorbeelduitvoer:

   configmap/valkey-cluster created
   

2. Maak een StatefulSet resource met als spec.affinity doel alle primaries in zone 1 en zone 2 te behouden, bij voorkeur in verschillende knooppunten, met behulp van de kubectl apply opdracht.

   kubectl apply -f - <<EOF
   ---
   apiVersion: apps/v1
   kind: StatefulSet
   metadata:
     name: valkey-masters
     namespace: valkey
   spec:
     serviceName: "valkey-masters"
     replicas: 3
     selector:
       matchLabels:
         app: valkey
     template:
       metadata:
         labels:
           app: valkey
           appCluster: valkey-masters
       spec:
         terminationGracePeriodSeconds: 20
         affinity:
           nodeAffinity:
             requiredDuringSchedulingIgnoredDuringExecution:
               nodeSelectorTerms:
               - matchExpressions:
                 - key: agentpool
                   operator: In
                   values:
                   - valkey
                 - key: topology.kubernetes.io/zone
                   operator: In
                   values:
                   - ${MY_LOCATION}-1
               - matchExpressions:
                 - key: agentpool
                   operator: In
                   values:
                   - valkey
                 - key: topology.kubernetes.io/zone
                   operator: In
                   values:
                   - ${MY_LOCATION}-2
           podAntiAffinity:
             preferredDuringSchedulingIgnoredDuringExecution:
             - weight: 90
               podAffinityTerm:
                 labelSelector:
                   matchExpressions:
                   - key: app
                     operator: In
                     values:
                     - valkey
                 topologyKey: topology.kubernetes.io/zone
             - weight: 90
               podAffinityTerm:
                 labelSelector:
                   matchExpressions:
                   - key: app
                     operator: In
                     values:
                     - valkey
                 topologyKey: kubernetes.io/hostname
         containers:
         - name: valkey
           image: "${MY_ACR_REGISTRY}.azurecr.io/valkey:latest"
           env:
           - name: VALKEY_PASSWORD_FILE
             value: "/etc/valkey-password/valkey-password-file.conf"
           - name: MY_POD_IP
             valueFrom:
               fieldRef:
                 fieldPath: status.podIP
           command:
             - "valkey-server"
           args:
             - "/conf/valkey.conf"
             - "--cluster-announce-ip"
             - "\$(MY_POD_IP)"
           resources:
             requests:
               cpu: "100m"
               memory: "100Mi"
           ports:
               - name: valkey
                 containerPort: 6379
                 protocol: "TCP"
               - name: cluster
                 containerPort: 16379
                 protocol: "TCP"
           volumeMounts:
           - name: conf
             mountPath: /conf
             readOnly: false
           - name: data
             mountPath: /data
             readOnly: false
           - name: valkey-password
             mountPath: /etc/valkey-password
             readOnly: true
         volumes:
         - name: valkey-password
           csi:
             driver: secrets-store.csi.k8s.io
             readOnly: true
             volumeAttributes:
               secretProviderClass: valkey-password
         - name: conf
           configMap:
             name: valkey-cluster
             defaultMode: 0755
     volumeClaimTemplates:
     - metadata:
         name: data
       spec:
         accessModes: [ "ReadWriteOnce" ]
         storageClassName: managed-csi-premium
         resources:
           requests:
             storage: 20Gi
   EOF
   

   Voorbeelduitvoer:

   statefulset.apps/valkey-masters created
   

3. Maak een tweede StatefulSet resource voor de Valkey-secundaire bestanden met als spec.affinity doel alle replica's in zone 3 te behouden, bij voorkeur in verschillende knooppunten, met behulp van de kubectl apply opdracht.

   kubectl apply -f - <<EOF
   ---
   apiVersion: apps/v1
   kind: StatefulSet
   metadata:
     name: valkey-replicas
     namespace: valkey
   spec:
     serviceName: "valkey-replicas"
     replicas: 3
     selector:
       matchLabels:
         app: valkey
     template:
       metadata:
         labels:
           app: valkey
           appCluster: valkey-replicas
       spec:
         terminationGracePeriodSeconds: 20
         affinity:
           nodeAffinity:
             requiredDuringSchedulingIgnoredDuringExecution:
               nodeSelectorTerms:
               - matchExpressions:
                 - key: agentpool
                   operator: In
                   values:
                   - valkey
                 - key: topology.kubernetes.io/zone
                   operator: In
                   values:
                   - ${MY_LOCATION}-3
           podAntiAffinity:
             preferredDuringSchedulingIgnoredDuringExecution:
             - weight: 90
               podAffinityTerm:
                 labelSelector:
                   matchExpressions:
                   - key: app
                     operator: In
                     values:
                     - valkey
                 topologyKey: kubernetes.io/hostname
         containers:
         - name: valkey
           image: "${MY_ACR_REGISTRY}.azurecr.io/valkey:latest"
           env:
           - name: VALKEY_PASSWORD_FILE
             value: "/etc/valkey-password/valkey-password-file.conf"
           - name: MY_POD_IP
             valueFrom:
               fieldRef:
                 fieldPath: status.podIP
           command:
             - "valkey-server"
           args:
             - "/conf/valkey.conf"
             - "--cluster-announce-ip"
             - "\$(MY_POD_IP)"
           resources:
             requests:
               cpu: "100m"
               memory: "100Mi"
           ports:
               - name: valkey
                 containerPort: 6379
                 protocol: "TCP"
               - name: cluster
                 containerPort: 16379
                 protocol: "TCP"
           volumeMounts:
           - name: conf
             mountPath: /conf
             readOnly: false
           - name: data
             mountPath: /data
             readOnly: false
           - name: valkey-password
             mountPath: /etc/valkey-password
             readOnly: true
         volumes:
         - name: valkey-password
           csi:
             driver: secrets-store.csi.k8s.io
             readOnly: true
             volumeAttributes:
               secretProviderClass: valkey-password
         - name: conf
           configMap:
             name: valkey-cluster
             defaultMode: 0755
     volumeClaimTemplates:
     - metadata:
         name: data
       spec:
         accessModes: [ "ReadWriteOnce" ]
         storageClassName: managed-csi-premium
         resources:
           requests:
             storage: 20Gi
   EOF
   

   Voorbeelduitvoer:

   statefulset.apps/valkey-replicas created
   

4. master-N Controleer of en replica-N wordt uitgevoerd in verschillende knooppunten en zones met behulp van de kubectl get nodes en kubectl get pods opdrachten.

   kubectl get pods -n valkey -o wide
   kubectl get node -o custom-columns=Name:.metadata.name,Zone:".metadata.labels.topology\.kubernetes\.io/zone"
   

   Voorbeelduitvoer:

   NAME                READY   STATUS    RESTARTS   AGE     IP             NODE                             NOMINATED NODE   READINESS GATES
   valkey-masters-0    1/1     Running   0          2m55s   10.224.0.4     aks-valkey-18693609-vmss000004   <none>           <none>
   valkey-masters-1    1/1     Running   0          2m31s   10.224.0.137   aks-valkey-18693609-vmss000000   <none>           <none>
   valkey-masters-2    1/1     Running   0          2m7s    10.224.0.222   aks-valkey-18693609-vmss000001   <none>           <none>
   valkey-replicas-0   1/1     Running   0          88s     10.224.0.237   aks-valkey-18693609-vmss000005   <none>           <none>
   valkey-replicas-1   1/1     Running   0          70s     10.224.0.18    aks-valkey-18693609-vmss000002   <none>           <none>
   valkey-replicas-2   1/1     Running   0          48s     10.224.0.242   aks-valkey-18693609-vmss000005   <none>           <none>
   Name                                Zone
   aks-nodepool1-17621399-vmss000000   centralus-1
   aks-nodepool1-17621399-vmss000001   centralus-2
   aks-nodepool1-17621399-vmss000003   centralus-3
   aks-valkey-18693609-vmss000000      centralus-1
   aks-valkey-18693609-vmss000001      centralus-2
   aks-valkey-18693609-vmss000002      centralus-3
   aks-valkey-18693609-vmss000003      centralus-1
   aks-valkey-18693609-vmss000004      centralus-2
   aks-valkey-18693609-vmss000005      centralus-3
   

   Wacht totdat alle pods worden uitgevoerd voordat u doorgaat met de volgende stap.

5. Maak drie headless Service resources (de eerste voor het hele cluster, de tweede voor de primaries en de derde voor de secundaire bestanden) om de IP-adressen van de Valkey-pods op te halen met behulp van de kubectl apply opdracht.

   kubectl apply -f - <<EOF
   apiVersion: v1
   kind: Service
   metadata:
     name: valkey-cluster
     namespace: valkey
   spec:
     clusterIP: None
     ports:
     - name: valkey-port
       port: 6379
       protocol: TCP
       targetPort: 6379
     selector:
       app: valkey
     sessionAffinity: None
     type: ClusterIP
   EOF
   
   kubectl apply -f - <<EOF
   apiVersion: v1
   kind: Service
   metadata:
     name: valkey-masters
     namespace: valkey
   spec:
     clusterIP: None
     ports:
     - name: valkey-port
       port: 6379
       protocol: TCP
       targetPort: 6379
     selector:
       app: valkey
       appCluster: valkey-masters
     sessionAffinity: None
     type: ClusterIP
   EOF
   
   kubectl apply -f - <<EOF
   apiVersion: v1
   kind: Service
   metadata:
     name: valkey-replicas
     namespace: valkey
   spec:
     clusterIP: None
     ports:
     - name: valkey-port
       port: 6379
       protocol: TCP
       targetPort: 6379
     selector:
       app: valkey
       appCluster: valkey-replicas
     sessionAffinity: None
     type: ClusterIP
   EOF
   

   Voorbeelduitvoer:

   service/valkey-cluster created
   service/valkey-masters created
   service/valkey-replicas created
   

Het Valkey-cluster uitvoeren

1. Voeg met behulp van de kubectl exec opdracht de valkey-primaries toe aan het cluster in zone 1 en 2.

   kubectl exec -it -n valkey valkey-masters-0 -- valkey-cli --cluster create --cluster-yes --cluster-replicas 0 \
                       valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379 \
                       valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379 \
                       valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379 \
                       --pass ${SECRET}
   

   Voorbeelduitvoer:

   >>> Performing hash slots allocation on 3 nodes...
   Master[0] -> Slots 0 - 5460
   Master[1] -> Slots 5461 - 10922
   Master[2] -> Slots 10923 - 16383
   M: ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35 valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379
      slots:[0-5460] (5461 slots) master
   M: fd1fb98db83976478e05edd3d2a02f9a13badd80 valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379
      slots:[5461-10922] (5462 slots) master
   M: ea47bf57ae7080ef03164a4d48b662c7b4c8770e valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379
      slots:[10923-16383] (5461 slots) master
   >>> Nodes configuration updated
   >>> Assign a different config epoch to each node
   >>> Sending CLUSTER MEET messages to join the cluster
   Waiting for the cluster to join
   ...
   >>> Performing Cluster Check (using node valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379)
   M: ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35 valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379
      slots:[0-5460] (5461 slots) master
   M: ea47bf57ae7080ef03164a4d48b662c7b4c8770e 10.224.0.176:6379
      slots:[10923-16383] (5461 slots) master
   M: fd1fb98db83976478e05edd3d2a02f9a13badd80 10.224.0.247:6379
      slots:[5461-10922] (5462 slots) master
   [OK] All nodes agree about slots configuration.
   >>> Check for open slots...
   >>> Check slots coverage...
   [OK] All 16384 slots covered.
   

2. Voeg de Valkey-replica's in zone 3 toe aan het cluster met behulp van de kubectl exec opdracht.

   kubectl exec -ti -n valkey valkey-masters-0 -- valkey-cli --cluster add-node \
                       valkey-replicas-0.valkey-replicas.valkey.svc.cluster.local:6379 \
                       valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379  --cluster-slave \
                       --pass ${SECRET}
   
   kubectl exec -ti -n valkey valkey-masters-0 -- valkey-cli --cluster add-node \
                       valkey-replicas-1.valkey-replicas.valkey.svc.cluster.local:6379 \
                       valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379  --cluster-slave \
                       --pass ${SECRET}
   
   kubectl exec -ti -n valkey valkey-masters-0 -- valkey-cli --cluster add-node \
                       valkey-replicas-2.valkey-replicas.valkey.svc.cluster.local:6379 \
                       valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379  --cluster-slave \
                       --pass ${SECRET}
   

   Voorbeelduitvoer:

   >>> Adding node valkey-replicas-0.valkey-replicas.valkey.svc.cluster.local:6379 to cluster valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379
   >>> Performing Cluster Check (using node valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379)
   M: ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35 valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379
      slots:[0-5460] (5461 slots) master
   M: ea47bf57ae7080ef03164a4d48b662c7b4c8770e 10.224.0.176:6379
      slots:[10923-16383] (5461 slots) master
   M: fd1fb98db83976478e05edd3d2a02f9a13badd80 10.224.0.247:6379
      slots:[5461-10922] (5462 slots) master
   [OK] All nodes agree about slots configuration.
   >>> Check for open slots...
   >>> Check slots coverage...
   [OK] All 16384 slots covered.
   Automatically selected master valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379
   >>> Send CLUSTER MEET to node valkey-replicas-0.valkey-replicas.valkey.svc.cluster.local:6379 to make it join the cluster.
   Waiting for the cluster to join
   
   >>> Configure node as replica of valkey-masters-0.valkey-masters.valkey.svc.cluster.local:6379.
   [OK] New node added correctly.
   >>> Adding node valkey-replicas-1.valkey-replicas.valkey.svc.cluster.local:6379 to cluster valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379
   >>> Performing Cluster Check (using node valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379)
   M: fd1fb98db83976478e05edd3d2a02f9a13badd80 valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379
      slots:[5461-10922] (5462 slots) master
   S: 0ebceb60cbcc31da9040159440a1f4856b992907 10.224.0.224:6379
      slots: (0 slots) slave
      replicates ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35
   M: ea47bf57ae7080ef03164a4d48b662c7b4c8770e 10.224.0.176:6379
      slots:[10923-16383] (5461 slots) master
   M: ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35 10.224.0.14:6379
      slots:[0-5460] (5461 slots) master
      1 additional replica(s)
   [OK] All nodes agree about slots configuration.
   >>> Check for open slots...
   >>> Check slots coverage...
   [OK] All 16384 slots covered.
   Automatically selected master valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379
   >>> Send CLUSTER MEET to node valkey-replicas-1.valkey-replicas.valkey.svc.cluster.local:6379 to make it join the cluster.
   Waiting for the cluster to join
   
   >>> Configure node as replica of valkey-masters-1.valkey-masters.valkey.svc.cluster.local:6379.
   [OK] New node added correctly.
   >>> Adding node valkey-replicas-2.valkey-replicas.valkey.svc.cluster.local:6379 to cluster valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379
   >>> Performing Cluster Check (using node valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379)
   M: ea47bf57ae7080ef03164a4d48b662c7b4c8770e valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379
      slots:[10923-16383] (5461 slots) master
   S: 0ebceb60cbcc31da9040159440a1f4856b992907 10.224.0.224:6379
      slots: (0 slots) slave
      replicates ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35
   S: fa44edff683e2e01ee5c87233f9f3bc35c205dce 10.224.0.103:6379
      slots: (0 slots) slave
      replicates fd1fb98db83976478e05edd3d2a02f9a13badd80
   M: ee6ac1d00d3f016b6f46c7ce11199bc1a7809a35 10.224.0.14:6379
      slots:[0-5460] (5461 slots) master
      1 additional replica(s)
   M: fd1fb98db83976478e05edd3d2a02f9a13badd80 10.224.0.247:6379
      slots:[5461-10922] (5462 slots) master
      1 additional replica(s)
   [OK] All nodes agree about slots configuration.
   >>> Check for open slots...
   >>> Check slots coverage...
   [OK] All 16384 slots covered.
   Automatically selected master valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379
   >>> Send CLUSTER MEET to node valkey-replicas-2.valkey-replicas.valkey.svc.cluster.local:6379 to make it join the cluster.
   Waiting for the cluster to join
   
   >>> Configure node as replica of valkey-masters-2.valkey-masters.valkey.svc.cluster.local:6379.
   [OK] New node added correctly.
   

3. Controleer de rollen van de pods met behulp van de volgende opdrachten:

   for x in $(seq 0 2); do echo "valkey-masters-$x"; kubectl exec -n valkey valkey-masters-$x  -- valkey-cli --pass ${SECRET} role; echo; done
   for x in $(seq 0 2); do echo "valkey-replicas-$x"; kubectl exec -n valkey valkey-replicas-$x -- valkey-cli --pass ${SECRET} role; echo; done
   

   Voorbeelduitvoer:

   valkey-masters-0
   master
   84
   10.224.0.224
   6379
   84
   
   valkey-masters-1
   master
   84
   10.224.0.103
   6379
   84
   
   valkey-masters-2
   master
   70
   10.224.0.200
   6379
   70
   
   valkey-replicas-0
   slave
   10.224.0.14
   6379
   connected
   98
   
   valkey-replicas-1
   slave
   10.224.0.247
   6379
   connected
   98
   
   valkey-replicas-2
   slave
   10.224.0.176
   6379
   connected
   84
   

Volgende stappen

Zie de volgende artikelen voor meer informatie over het implementeren van opensource-software in Azure Kubernetes Service (AKS):

• Een maximaal beschikbare PostgreSQL-database implementeren in AKS
• Gegevens- en machine learning-pijplijnen bouwen en implementeren met Flyte op AKS

Medewerkers

Microsoft onderhoudt dit artikel. De volgende inzenders hebben het oorspronkelijk geschreven:

• Nelly Kiboi | Service Engineer
• Saverio Proto | Principal Customer Experience Engineer
• Hoog | Principal Customer Engineer
• LaBrina Loving | Principal Service Engineer
• Ken Kilty | Principal TPM
• Russell de Tina | Principal TPM
• Colin Mixon | ProductManager
• Ketan Chawda | Senior klanttechnicus
• Naveed Kharadi | Klantervaringstechnicus
• Erin Schaffer | Inhoudsontwikkelaar 2