2022-10-13 分类: 网站建设
设置 Prometheus 和 Grafana 来监控 Longhorn
概览Longhorn 在 REST 端点 http://LONGHORN_MANAGER_IP:PORT/metrics 上以 Prometheus 文本格式原生公开指标。有关所有可用指标的说明,请参阅 Longhorn's metrics。您可以使用 Prometheus, Graphite, Telegraf 等任何收集工具来抓取这些指标,然后通过 Grafana 等工具将收集到的数据可视化。
本文档提供了一个监控 Longhorn 的示例设置。监控系统使用 Prometheus 收集数据和警报,使用 Grafana 将收集的数据可视化/仪表板(visualizing/dashboarding)。高级概述来看,监控系统包含:
Prometheus 服务器从 Longhorn 指标端点抓取和存储时间序列数据。Prometheus 还负责根据配置的规则和收集的数据生成警报。Prometheus 服务器然后将警报发送到 Alertmanager。 AlertManager 然后管理这些警报(alerts),包括静默(silencing)、抑制(inhibition)、聚合(aggregation)和通过电子邮件、呼叫通知系统和聊天平台等方法发送通知。 Grafana 向 Prometheus 服务器查询数据并绘制仪表板进行可视化。下图描述了监控系统的详细架构。
上图中有 2 个未提及的组件:
Longhorn 后端服务是指向 Longhorn manager pods 集的服务。Longhorn 的指标在端点 http://LONGHORN_MANAGER_IP:PORT/metrics 的 Longhorn manager pods 中公开。 Prometheus operator 使在 Kubernetes 上运行 Prometheus 变得非常容易。operator 监视 3 个自定义资源:ServiceMonitor、Prometheus 和 AlertManager。当用户创建这些自定义资源时,Prometheus Operator 会使用用户指定的配置部署和管理 Prometheus server, AlerManager。安装
按照此说明将所有组件安装到 monitoring 命名空间中。要将它们安装到不同的命名空间中,请更改字段 namespace: OTHER_NAMESPACE
创建 monitoring 命名空间
apiVersion: v1 kind: Namespace metadata: name: monitoring安装 Prometheus Operator
部署 Prometheus Operator 及其所需的 ClusterRole、ClusterRoleBinding 和 Service Account。
apiVersion: rbac.authorization.k8s.io/v1 kind: ClusterRoleBinding metadata: labels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator app.kubernetes.io/version: v0.38.3 name: prometheus-operator namespace: monitoring roleRef: apiGroup: rbac.authorization.k8s.io kind: ClusterRole name: prometheus-operator subjects: - kind: ServiceAccount name: prometheus-operator namespace: monitoring --- apiVersion: rbac.authorization.k8s.io/v1 kind: ClusterRole metadata: labels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator app.kubernetes.io/version: v0.38.3 name: prometheus-operator namespace: monitoring rules: - apiGroups: - apiextensions.k8s.io resources: - customresourcedefinitions verbs: - create - apiGroups: - apiextensions.k8s.io resourceNames: - alertmanagers.monitoring.coreos.com - podmonitors.monitoring.coreos.com - prometheuses.monitoring.coreos.com - prometheusrules.monitoring.coreos.com - servicemonitors.monitoring.coreos.com - thanosrulers.monitoring.coreos.com resources: - customresourcedefinitions verbs: - get - update - apiGroups: - monitoring.coreos.com resources: - alertmanagers - alertmanagers/finalizers - prometheuses - prometheuses/finalizers - thanosrulers - thanosrulers/finalizers - servicemonitors - podmonitors - prometheusrules verbs: - '*' - apiGroups: - apps resources: - statefulsets verbs: - '*' - apiGroups: - "" resources: - configmaps - secrets verbs: - '*' - apiGroups: - "" resources: - pods verbs: - list - delete - apiGroups: - "" resources: - services - services/finalizers - endpoints verbs: - get - create - update - delete - apiGroups: - "" resources: - nodes verbs: - list - watch - apiGroups: - "" resources: - namespaces verbs: - get - list - watch --- apiVersion: apps/v1 kind: Deployment metadata: labels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator app.kubernetes.io/version: v0.38.3 name: prometheus-operator namespace: monitoring spec: replicas: 1 selector: matchLabels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator template: metadata: labels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator app.kubernetes.io/version: v0.38.3 spec: containers: - args: - --kubelet-service=kube-system/kubelet - --logtostderr=true - --config-reloader-image=jimmidyson/configmap-reload:v0.3.0 - --prometheus-config-reloader=quay.io/prometheus-operator/prometheus-config-reloader:v0.38.3 image: quay.io/prometheus-operator/prometheus-operator:v0.38.3 name: prometheus-operator ports: - containerPort: 8080 name: http resources: limits: cpu: 200m memory: 200Mi requests: cpu: 100m memory: 100Mi securityContext: allowPrivilegeEscalation: false nodeSelector: beta.kubernetes.io/os: linux securityContext: runAsNonRoot: true runAsUser: 65534 serviceAccountName: prometheus-operator --- apiVersion: v1 kind: ServiceAccount metadata: labels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator app.kubernetes.io/version: v0.38.3 name: prometheus-operator namespace: monitoring --- apiVersion: v1 kind: Service metadata: labels: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator app.kubernetes.io/version: v0.38.3 name: prometheus-operator namespace: monitoring spec: clusterIP: None ports: - name: http port: 8080 targetPort: http selector: app.kubernetes.io/component: controller app.kubernetes.io/name: prometheus-operator安装 Longhorn ServiceMonitor
Longhorn ServiceMonitor 有一个标签选择器 app: longhorn-manager 来选择 Longhorn 后端服务。稍后,Prometheus CRD 可以包含 Longhorn ServiceMonitor,以便 Prometheus server 可以发现所有 Longhorn manager pods 及其端点。
apiVersion: monitoring.coreos.com/v1 kind: ServiceMonitor metadata: name: longhorn-prometheus-servicemonitor namespace: monitoring labels: name: longhorn-prometheus-servicemonitor spec: selector: matchLabels: app: longhorn-manager namespaceSelector: matchNames: - longhorn-system endpoints: - port: manager安装和配置 Prometheus AlertManager
使用 3 个实例创建一个高可用的 Alertmanager 部署:
apiVersion: monitoring.coreos.com/v1 kind: Alertmanager metadata: name: longhorn namespace: monitoring spec: replicas: 3除非提供有效配置,否则 Alertmanager 实例将无法启动。有关 Alertmanager 配置的更多说明,请参见此处。下面的代码给出了一个示例配置:
global: resolve_timeout: 5m route: group_by: [alertname] receiver: email_and_slack receivers: - name: email_and_slack email_configs: - to: <the email address to send notifications to> from: <the sender address> smarthost: <the SMTP host through which emails are sent> # SMTP authentication information. auth_username: <the username> auth_identity: <the identity> auth_password: <the password> headers: subject: 'Longhorn-Alert' text: |- {{ range .Alerts }} *Alert:* {{ .Annotations.summary }} - `{{ .Labels.severity }}` *Description:* {{ .Annotations.description }} *Details:* {{ range .Labels.SortedPairs }} • *{{ .Name }}:* `{{ .Value }}` {{ end }} {{ end }} slack_configs: - api_url: <the Slack webhook URL> channel: <the channel or user to send notifications to> text: |- {{ range .Alerts }} *Alert:* {{ .Annotations.summary }} - `{{ .Labels.severity }}` *Description:* {{ .Annotations.description }} *Details:* {{ range .Labels.SortedPairs }} • *{{ .Name }}:* `{{ .Value }}` {{ end }} {{ end }}将上述 Alertmanager 配置保存在名为 alertmanager.yaml 的文件中,并使用 kubectl 从中创建一个 secret。
Alertmanager 实例要求 secret 资源命名遵循 alertmanager-{ALERTMANAGER_NAME} 格式。在上一步中,Alertmanager 的名称是 longhorn,所以 secret 名称必须是 alertmanager-longhorn
$ kubectl create secret generic alertmanager-longhorn --from-file=alertmanager.yaml -n monitoring为了能够查看 Alertmanager 的 Web UI,请通过 Service 公开它。一个简单的方法是使用 NodePort 类型的 Service :
apiVersion: v1 kind: Service metadata: name: alertmanager-longhorn namespace: monitoring spec: type: NodePort ports: - name: web nodePort: 30903 port: 9093 protocol: TCP targetPort: web selector: alertmanager: longhorn创建上述服务后,您可以通过节点的 IP 和端口 30903 访问 Alertmanager 的 web UI。
使用上面的 NodePort 服务进行快速验证,因为它不通过 TLS 连接进行通信。您可能希望将服务类型更改为 ClusterIP,并设置一个 Ingress-controller 以通过 TLS 连接公开 Alertmanager 的 web UI。
安装和配置 Prometheus server
创建定义警报条件的 PrometheusRule 自定义资源。
apiVersion: monitoring.coreos.com/v1 kind: PrometheusRule metadata: labels: prometheus: longhorn role: alert-rules name: prometheus-longhorn-rules namespace: monitoring spec: groups: - name: longhorn.rules rules: - alert: LonghornVolumeUsageCritical annotations: description: Longhorn volume {{$labels.volume}} on {{$labels.node}} is at {{$value}}% used for more than 5 minutes. summary: Longhorn volume capacity is over 90% used. expr: 100 * (longhorn_volume_usage_bytes / longhorn_volume_capacity_bytes) > 90 for: 5m labels: issue: Longhorn volume {{$labels.volume}} usage on {{$labels.node}} is critical. severity: critical有关如何定义警报规则的更多信息,请参见https://prometheus.io/docs/prometheus/latest/configuration/alerting_rules/#alerting-rules
如果激活了 RBAC 授权,则为 Prometheus Pod 创建 ClusterRole 和 ClusterRoleBinding:
apiVersion: v1 kind: ServiceAccount metadata: name: prometheus namespace: monitoring apiVersion: rbac.authorization.k8s.io/v1beta1 kind: ClusterRole metadata: name: prometheus namespace: monitoring rules: - apiGroups: [""] resources: - nodes - services - endpoints - pods verbs: ["get", "list", "watch"] - apiGroups: [""] resources: - configmaps verbs: ["get"] - nonResourceURLs: ["/metrics"] verbs: ["get"] apiVersion: rbac.authorization.k8s.io/v1beta1 kind: ClusterRoleBinding metadata: name: prometheus roleRef: apiGroup: rbac.authorization.k8s.io kind: ClusterRole name: prometheus subjects: - kind: ServiceAccount name: prometheus namespace: monitoring创建 Prometheus 自定义资源。请注意,我们在 spec 中选择了 Longhorn 服务监视器(service monitor)和 Longhorn 规则。
apiVersion: monitoring.coreos.com/v1 kind: Prometheus metadata: name: prometheus namespace: monitoring spec: replicas: 2 serviceAccountName: prometheus alerting: alertmanagers: - namespace: monitoring name: alertmanager-longhorn port: web serviceMonitorSelector: matchLabels: name: longhorn-prometheus-servicemonitor ruleSelector: matchLabels: prometheus: longhorn role: alert-rules为了能够查看 Prometheus 服务器的 web UI,请通过 Service 公开它。一个简单的方法是使用 NodePort 类型的 Service:
apiVersion: v1 kind: Service metadata: name: prometheus namespace: monitoring spec: type: NodePort ports: - name: web nodePort: 30904 port: 9090 protocol: TCP targetPort: web selector: prometheus: prometheus创建上述服务后,您可以通过节点的 IP 和端口 30904 访问 Prometheus server 的 web UI。
此时,您应该能够在 Prometheus server UI 的目标和规则部分看到所有 Longhorn manager targets 以及 Longhorn rules。
使用上述 NodePort service 进行快速验证,因为它不通过 TLS 连接进行通信。您可能希望将服务类型更改为 ClusterIP,并设置一个 Ingress-controller 以通过 TLS 连接公开 Prometheus server 的 web UI。
安装 Grafana
创建 Grafana 数据源配置:
apiVersion: v1 kind: ConfigMap metadata: name: grafana-datasources namespace: monitoring data: prometheus.yaml: |- { "apiVersion": 1, "datasources": [ { "access":"proxy", "editable": true, "name": "prometheus", "orgId": 1, "type": "prometheus", "url": "http://prometheus:9090", "version": 1 } ] }创建 Grafana 部署:
apiVersion: apps/v1 kind: Deployment metadata: name: grafana namespace: monitoring labels: app: grafana spec: replicas: 1 selector: matchLabels: app: grafana template: metadata: name: grafana labels: app: grafana spec: containers: - name: grafana image: grafana/grafana:7.1.5 ports: - name: grafana containerPort: 3000 resources: limits: memory: "500Mi" cpu: "300m" requests: memory: "500Mi" cpu: "200m" volumeMounts: - mountPath: /var/lib/grafana name: grafana-storage - mountPath: /etc/grafana/provisioning/datasources name: grafana-datasources readOnly: false volumes: - name: grafana-storage emptyDir: {} - name: grafana-datasources configMap: defaultMode: 420 name: grafana-datasources在 NodePort 32000 上暴露 Grafana:
apiVersion: v1 kind: Service metadata: name: grafana namespace: monitoring spec: selector: app: grafana type: NodePort ports: - port: 3000 targetPort: 3000 nodePort: 32000使用上述 NodePort 服务进行快速验证,因为它不通过 TLS 连接进行通信。您可能希望将服务类型更改为 ClusterIP,并设置一个 Ingress-controller 以通过 TLS 连接公开 Grafana。
使用端口 32000 上的任何节点 IP 访问 Grafana 仪表板。默认凭据为:
User: admin Pass: admin安装 Longhorn dashboard
进入 Grafana 后,导入预置的面板:https://grafana.com/grafana/dashboards/13032
有关如何导入 Grafana dashboard 的说明,请参阅 https://grafana.com/docs/grafana/latest/reference/export_import/
成功后,您应该会看到以下 dashboard:
将 Longhorn 指标集成到 Rancher 监控系统中
关于 Rancher 监控系统
使用 Rancher,您可以通过与的开源监控解决方案 Prometheus 的集成来监控集群节点、Kubernetes 组件和软件部署的状态和进程。
有关如何部署/启用 Rancher 监控系统的说明,请参见https://rancher.com/docs/rancher/v2.x/en/monitoring-alerting/
将 Longhorn 指标添加到 Rancher 监控系统
如果您使用 Rancher 来管理您的 Kubernetes 并且已经启用 Rancher 监控,您可以通过简单地部署以下 ServiceMonitor 将 Longhorn 指标添加到 Rancher 监控中:
apiVersion: monitoring.coreos.com/v1 kind: ServiceMonitor metadata: name: longhorn-prometheus-servicemonitor namespace: longhorn-system labels: name: longhorn-prometheus-servicemonitor spec: selector: matchLabels: app: longhorn-manager namespaceSelector: matchNames: - longhorn-system endpoints: - port: manager创建 ServiceMonitor 后,Rancher 将自动发现所有 Longhorn 指标。
然后,您可以设置 Grafana 仪表板以进行可视化。
Longhorn 监控指标
Volume(卷)
指标名 说明 示例 longhorn_volume_actual_size_bytes 对应节点上卷的每个副本使用的实际空间 longhorn_volume_actual_size_bytes{node="worker-2",volume="testvol"} 1.1917312e+08 longhorn_volume_capacity_bytes 此卷的配置大小(以 byte 为单位) longhorn_volume_capacity_bytes{node="worker-2",volume="testvol"} 6.442450944e+09 longhorn_volume_state 本卷状态:1=creating, 2=attached, 3=Detached, 4=Attaching, 5=Detaching, 6=Deleting longhorn_volume_state{node="worker-2",volume="testvol"} 2 longhorn_volume_robustness 本卷的健壮性: 0=unknown, 1=healthy, 2=degraded, 3=faulted longhorn_volume_robustness{node="worker-2",volume="testvol"} 1Node(节点)
指标名 说明 示例 longhorn_node_status 该节点的状态:1=true, 0=false longhorn_node_status{condition="ready",condition_reason="",node="worker-2"} 1
网页名称:Longhorn,企业级云原生容器分布式存储之监控
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