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在 Azure Kubernetes 服务 (AKS) 上配置和部署 Valkey 群集
在本文中,在 Azure Kubernetes 服务 (AKS) 上配置和部署 Valkey 群集。
注意
本文包含对术语“主”和“从”的引用,Microsoft 不再使用这些术语。 在从 Valkey 软件中删除该术语后,我们会将其从本文中删除。
创建命名空间
使用
kubectl create namespace
命令为 Valkey 群集创建一个命名空间。kubectl create namespace ${SERVICE_ACCOUNT_NAMESPACE} --dry-run=client --output yaml | kubectl apply -f -
示例输出:
namespace/valkey created
创建机密
使用 OpenSSL 为 Valkey 群集生成随机密码,并使用
az keyvault secret set
命令将其存储在 Azure 密钥保管库中。 设置策略以允许用户分配的标识使用az keyvault set-policy
命令获取机密。SECRET=$(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 $userAssignedObjectID --secret-permissions get --output table
创建一个
SecretProviderClass
资源,以使用kubectl apply
命令访问存储在密钥保管库中的 Valkey 密码。kubectl apply -f - <<EOF --- apiVersion: secrets-store.csi.x-k8s.io/v1 kind: SecretProviderClass metadata: name: valkey-password namespace: valkey spec: provider: azure parameters: usePodIdentity: "false" useVMManagedIdentity: "true" userAssignedIdentityID: "${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
部署 Valkey 群集
在 Valkey
StatefulSet
中创建一个装载为卷的ConfigMap
,用于使用kubectl apply
命令配置 Valkey 群集。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
示例输出:
configmap/valkey-cluster created
使用
kubectl apply
命令创建一个StatefulSet
资源,其spec.affinity
目标是将所有主数据库保留在区域 1 和区域 2 中(最好在不同的节点中)。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
示例输出:
statefulset.apps/valkey-masters created
使用
kubectl apply
命令为 Valkey 辅助数据库创建第二个StatefulSet
资源,其spec.affinity
目标是将所有副本保留在区域 3 中(最好在不同的节点中)。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
示例输出:
statefulset.apps/valkey-replicas created
使用
kubectl get nodes
和kubectl get pods
命令验证master-N
和replica-N
在不同的节点和区域中运行。kubectl get pods -n valkey -o wide kubectl get node -o custom-columns=Name:.metadata.name,Zone:".metadata.labels.topology\.kubernetes\.io/zone"
示例输出:
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
在继续下一步之前,等待所有 Pod 都运行。
使用
kubectl apply
命令创建三个无外设Service
资源(第一个用于整个群集,第二个用于主项,第三个用于辅助项),用于获取 Valkey Pod 的 IP 地址。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
示例输出:
service/valkey-cluster created service/valkey-masters created service/valkey-replicas created
运行 Valkey 群集
使用
kubectl exec
命令将区域 1 和 2 中的 Valkey 主数据库添加到群集。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}
示例输出:
>>> 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.
使用
kubectl exec
命令将区域 3 中的 Valkey 副本添加到群集。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}
示例输出:
>>> 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.
使用以下命令验证 Pod 的角色:
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
示例输出:
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
后续步骤
若要详细了解如何在 Azure Kubernetes 服务 (AKS) 上部署开源软件,请参阅以下文章:
供稿人
Microsoft 会维护本文。 本系列文章为以下参与者的原创作品:
- Nelly Kiboi | 服务工程师
- Saverio Proto | 首席客户体验工程师
- Don High | 首席客户工程师
- LaBrina Loving | 首席服务工程师
- Ken Kilty | 首席 TPM
- Russell de Pina | 首席 TPM
- Colin Mixon | 产品经理
- Ketan Chawda | 高级客户工程师
- Naveed Kharadi | 客户体验工程师
- Erin Schaffer | 内容开发人员 2