MinIO 伺服器文件
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MinIO 企業級物件儲存
概觀 架構
功能
適用於公有雲的 MinIO
AWS GCS Azure
適用於私有雲的 MinIO
OpenShift SUSE Rancher Tanzu
適用於裸機的 MinIO
Linux 和 Windows
判斷您的原始和可用容量 Erasure Code 計算機 MinIO 的建議硬體配置 參考硬體
解決方案
AI 儲存 物件儲存正在推動 AI 革命。了解 MinIO 如何透過大規模效能引領 AI 儲存市場。 現代資料湖 現代、多引擎資料湖依賴可大規模提供效能的物件儲存。深入了解這個核心 MinIO 使用案例。 混合雲 有效的多雲儲存策略依賴於利用可在不同環境中無縫運作的架構和工具。 Equinix 透過在 Equinix 上使用 MinIO 將您的資料遷回您控制的雲端,以降低成本,同時保持與公有雲的鄰近性。 Splunk 了解 MinIO 如何為 Splunk SmartStore 提供大規模效能。 Snowflake 使用 Snowflake Data Cloud 查詢和分析 MinIO 上多個資料來源,包括串流資料。無需移動資料,只需使用 SnowSQL 查詢即可。 SQL Server 了解如何將 SQL Server 2022 與 MinIO 配對,以便在任何雲端上查詢您的資料,而無需移動資料。 HDFS 遷移 使用 MinIO 的高效能、Kubernetes 原生物件儲存來現代化和簡化您的大數據儲存基礎架構。 VMware 了解 MinIO 如何與 VMware 整個產品組合整合,從持久資料平台到 TKG,以及我們如何支援其 Kubernetes 的雄心。 Veeam 了解 MinIO 和 Veeam 如何合作為各種備份使用案例推動效能和可擴展性。 Commvault 了解 Commvault 和 MinIO 如何合作,為關鍵任務備份和還原工作負載提供大規模效能。 整合 瀏覽我們龐大的整合組合。
社群
GitHub 加入我們的 GitHub 開源社群:探索、實驗、提問和貢獻。 Slack 頻道 MinIO 社群 Slack 提供了一個開放論壇,討論與 MinIO 相關的主題。所有支援均以盡力而為的方式提供。
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文件

適用於 Kubernetes 的 MinIO 物件儲存

租戶 Helm Charts

MinIO 發布了 Helm Charts,用於 Helm Operator ChartsHelm 租戶 Charts。您可以使用這些圖表,透過 Helm 部署 MinIO Operator 和受管理租戶。

以下頁面記錄了 MinIO 租戶的 values.yaml 圖表。如需 MinIO Operator 圖表的相關文件,請參閱 Operator Helm Charts

MinIO 租戶圖表

租戶
名稱

租戶名稱

變更此項以符合您偏好的 MinIO 租戶名稱。

映像

指定用於部署的 Operator 容器映像。image.tag 例如,以下將映像設定為 quay.io/minio/operator 儲存庫和 v6.0.3 標籤。如果容器尚未存在,則會提取映像

image:
   repository: quay.io/minio/minio
   tag: RELEASE.2024-08-17T01-24-54Z
   pullPolicy: IfNotPresent

該圖表也支援指定基於摘要值的映像

image:
   repository: quay.io/minio/minio@sha256
   digest: 28c80b379c75242c6fe793dfbf212f43c602140a0de5ebe3d9c2a3a7b9f9f983
   pullPolicy: IfNotPresent
imagePullSecret

用於從私有 image.repository 中提取映像的 Kubernetes 機密陣列。目前僅支援一個陣列元素。

排程器

用於調度租戶 Pod 的 Kubernetes 排程器

指定一個空的字典 {},以使用預設排程器調度 Pod。

組態

包含 MinIO 環境變數組態的 Kubernetes 機密名稱。該機密預期具有一個名為 config.env 的金鑰,其中包含環境變數匯出。

configSecret

用於動態建立機密以配置根 MinIO 使用者的根金鑰。指定 name,然後指定環境變數清單。

重要

請勿在生產環境中使用此選項。此欄位僅適用於快速開發或測試。

例如

name: myminio-env-configuration
accessKey: minio
secretKey: minio123

用於在此租戶中配置 MinIO 池的頂層金鑰。

如需所有子欄位的詳細資訊,請參閱 Operator CRD:池

伺服器

此池中 MinIO 租戶 Pod/伺服器的數量。對於獨立模式,請提供 1。對於分散式模式,請提供 4 個或更多。請注意,Operator 不支援從獨立模式升級到分散式模式。

名稱

池的自訂名稱

volumesPerServer

每個 MinIO 租戶 Pod/伺服器連接的磁碟區數量。

大小

每個 MinIO 租戶 Pod 要求的每個磁碟區容量。

storageAnnotations

指定要關聯到 PVC 的 storageAnnotations

註解

指定要關聯到租戶 Pod 的 註解

標籤

指定要關聯到租戶 Pod 的 標籤

容忍度

與租戶 Pod 關聯的 容忍度標籤 陣列。

這些設定決定了 Pod 在工作節點上的分佈。

nodeSelector

要套用到租戶 Pod 的任何 節點選擇器

Kubernetes 排程器使用這些選擇器來決定它可以將租戶 Pod 部署到哪些工作節點上。

如果沒有工作節點符合指定的選擇器,則租戶部署將會失敗。

affinity

要套用到租戶 Pod 的親和性或反親和性設定。

這些設定決定了 Pod 在工作節點上的分佈,並且可以幫助防止或允許將 Pod 並置在相同的工作節點上。

resources

要與租戶 Pod 關聯的資源的請求或限制

這些設定可以控制每個 Pod 所請求的最小和最大資源。如果沒有工作節點可以滿足指定的請求,運算子可能會部署失敗。

securityContext

用於部署租戶資源的 Kubernetes SecurityContext

您可能需要修改這些值以符合叢集的安全性和存取設定。

我們建議停用遞迴權限變更,方法是將 fsGroupChangePolicy 設定為 OnRootMismatch,因為這些操作對於某些工作負載(例如,具有許多小檔案的大型磁碟區)來說可能會很耗費資源。

containerSecurityContext

用於部署租戶容器的 Kubernetes SecurityContext。您可能需要修改這些值以符合叢集的安全性和存取設定。

topologySpreadConstraints

要與運算子主控台 Pod 關聯的 拓撲分散約束陣列。

這些設定決定了 Pod 在工作節點上的分佈。

mountPath

持久性磁碟區在租戶容器內掛載的路徑。

subPath

MinIO 儲存資料的掛載路徑內的子路徑。

警告

部署租戶後,請將 mountPathsubPath 值視為不可變的。如果您在部署後變更這些值,則新資料和既有資料可能會使用不同的路徑。這會大幅增加操作複雜性,並可能導致無法預測的資料狀態。

metrics

在指定的連接埠設定與 Prometheus 相容的抓取端點。

certificate

設定租戶的外部憑證設定。

externalCaCertSecret

指定 Kubernetes TLS 密碼的陣列,其中每個項目對應於一個具有 TLS 私密金鑰和公開憑證配對的密碼。

MinIO 使用此設定來驗證來自使用這些 CA 的用戶端的 TLS 連線。如果您省略此設定,而且您的用戶端使用由外部 CA 建立的 TLS 憑證,這些連線可能會因為憑證驗證問題而失敗。請參閱 Operator CRD: TenantSpec

externalCertSecret

指定 Kubernetes 密碼的陣列,其中每個項目對應於一個包含 TLS 私密金鑰和公開憑證配對的密碼。

省略此設定可僅使用 MinIO Operator 自動產生的憑證。

如果您省略此欄位requestAutoCert 設定為 false,則租戶將會在沒有 TLS 的情況下啟動。

請參閱 Operator CRD: TenantSpec

重要

如果 MinIO Operator 無法信任建立自訂憑證的憑證授權單位 (CA),可能會輸出 TLS 連線錯誤。

您可以將 CA 傳遞給運算子,使其信任該憑證。請參閱 自我簽署、內部和私人憑證以取得更多資訊。對於您必須向運算子提供中繼憑證以協助建立完整信任鏈的全球信任 CA,此步驟也可能是必要的。

requestAutoCert

啟用自動 Kubernetes 式 憑證產生和簽署

certConfig

此欄位僅在 requestAutoCert: true 時使用。使用此欄位設定自動產生憑證的 CommonName。MinIO 預設使用 Pod 的內部 Kubernetes DNS 名稱。預設 DNS 名稱格式通常為 *.minio.default.svc.cluster.local

請參閱 Operator CRD: CertificateConfig

features

在 MinIO 租戶中啟用或停用 MinIO 功能。請參閱 Operator CRD: Features

buckets

描述在租戶佈建期間要建立的一個或多個儲存貯體的物件陣列。範例

- name: my-minio-bucket
     objectLock: false        # optional
     region: us-east-1        # optional
users

Kubernetes 密碼的陣列,運算子從中在租戶佈建期間產生 MinIO 使用者。

每個密碼都應該指定 CONSOLE_ACCESS_KEYCONSOLE_SECRET_KEY 作為該使用者的存取金鑰和秘密金鑰。

podManagementPolicy

MinIO 租戶 Pod 的 PodManagement 原則。可以是「OrderedReady」或「Parallel」。

readiness

用於監控租戶容器就緒狀態的就緒探測。如果探測失敗,租戶 Pod 將會從服務端點中移除。

startup

用於監控容器啟動的啟動探測。如果探測失敗,租戶 Pod 將會重新啟動。請參考

lifecycle

容器的生命週期掛鉤

exposeServices

指示運算子將 MinIO S3 API 和主控台服務部署為 LoadBalancer 物件。

如果 Kubernetes 叢集已設定 LoadBalancer,它可以嘗試自動將流量路由至這些服務。

  • 指定 minio: true 以公開 MinIO S3 API。

  • 指定 console: true 以公開主控台。

兩個欄位的預設值皆為 false

serviceAccountName

與租戶關聯的Kubernetes 服務帳戶

prometheusOperator

指示運算子將租戶的指標抓取設定新增至由 Prometheus Operator 管理的現有 Kubernetes Prometheus 部署。

logging

設定 MinIO 租戶的 Pod 日誌設定。

  • 針對 JSON 格式的日誌,指定 json

  • 針對匿名日誌,指定 anonymous

  • 若要隱藏記錄,請指定 quiet

以下為 JSON 格式日誌的範例

$ k logs myminio-pool-0-0 -n default
{"level":"INFO","errKind":"","time":"2022-04-07T21:49:33.740058549Z","message":"All MinIO sub-systems initialized successfully"}
serviceMetadata

serviceMetadata 允許將其他標籤和註釋傳遞給運算子建立的 MinIO 和主控台特定服務。

env

在 MinIO 容器中新增要設定的環境變數 (https://github.com/minio/minio/tree/master/docs/config)

priorityClassName

PriorityClassName 指示 Pod 的優先順序,因此相對於其他 Pod 的重要性。這僅適用於 MinIO Pod。如需詳細資訊,請參閱 Kubernetes 文件https://kubernetes.dev.org.tw/docs/concepts/configuration/pod-priority-preemption/#priorityclass/

additionalVolumes

運算子可以掛載至租戶 Pod 的 磁碟區 陣列。

磁碟區必須存在,並且租戶 Pod 可以存取。

additionalVolumeMounts

與每個租戶容器關聯的磁碟區掛載點陣列。

請如下指定陣列中的每個項目

volumeMounts:
- name: volumename
  mountPath: /path/to/mount

name 欄位必須對應於 additionalVolumes 陣列中的項目。

ingress

設定租戶 S3 API 和主控台的 Ingress

設定金鑰以符合您選擇的 Ingress 控制器和設定。

# Root key for MinIO Tenant Chart
tenant:
  ###
  # The Tenant name
  #
  # Change this to match your preferred MinIO Tenant name.
  name: myminio
  ###
  # Specify the Operator container image to use for the deployment.
  # ``image.tag`` 
  # For example, the following sets the image to the ``quay.io/minio/operator`` repo and the v6.0.3 tag.
  # The container pulls the image if not already present:
  #
  # .. code-block:: yaml
  # 
  #    image:
  #       repository: quay.io/minio/minio
  #       tag: RELEASE.2024-08-17T01-24-54Z
  #       pullPolicy: IfNotPresent
  #
  # The chart also supports specifying an image based on digest value:
  # 
  # .. code-block:: yaml
  # 
  #    image:
  #       repository: quay.io/minio/minio@sha256
  #       digest: 28c80b379c75242c6fe793dfbf212f43c602140a0de5ebe3d9c2a3a7b9f9f983
  #       pullPolicy: IfNotPresent
  #
  #
  image:
    repository: quay.io/minio/minio
    tag: RELEASE.2024-08-17T01-24-54Z
    pullPolicy: IfNotPresent
  ###
  #
  # An array of Kubernetes secrets to use for pulling images from a private ``image.repository``.
  # Only one array element is supported at this time.
  imagePullSecret: { }
  ###
  # The Kubernetes `Scheduler <https://kubernetes.dev.org.tw/docs/concepts/scheduling-eviction/kube-scheduler/>`__ to use for dispatching Tenant pods.
  #
  # Specify an empty dictionary ``{}`` to dispatch pods with the default scheduler.
  scheduler: { }
  ###
  # The Kubernetes secret name that contains MinIO environment variable configurations.
  # The secret is expected to have a key named config.env containing environment variables exports.
  configuration:
    name: myminio-env-configuration
  ###
  # Root key for dynamically creating a secret for use with configuring root MinIO User
  # Specify the ``name`` and then a list of environment variables.
  #
  # .. important::
  #
  #    Do not use this in production environments.
  #    This field is intended for use with rapid development or testing only.
  #
  # For example:
  #
  # .. code-block:: yaml
  #
  #    name: myminio-env-configuration
  #    accessKey: minio
  #    secretKey: minio123
  #
  configSecret:
    name: myminio-env-configuration
    accessKey: minio
    secretKey: minio123
  ###
  # If this variable is set to true, then enable the usage of an existing Kubernetes secret to set environment variables for the Tenant.
  # The existing Kubernetes secret name must be placed under .tenant.configuration.name e.g. existing-minio-env-configuration
  # The secret must contain a key ``config.env``.
  # The values should be a series of export statements to set environment variables for the Tenant.
  # For example:
  #
  # .. code-block:: shell
  #
  #    stringData:
  #       config.env: |-
  #         export MINIO_ROOT_USER=ROOTUSERNAME
  #         export MINIO_ROOT_PASSWORD=ROOTUSERPASSWORD
  #
  #   existingSecret: false
  ###
  # Top level key for configuring MinIO Pool(s) in this Tenant.
  #
  # See `Operator CRD: Pools <https://minio.dev.org.tw/docs/minio/kubernetes/upstream/reference/operator-crd.html#pool>`__ for more information on all subfields.
  pools:
    ###
    # The number of MinIO Tenant Pods / Servers in this pool.
    # For standalone mode, supply 1. For distributed mode, supply 4 or more.
    # Note that the operator does not support upgrading from standalone to distributed mode.
    - servers: 4
      ###
      # Custom name for the pool
      name: pool-0
      ###
      # The number of volumes attached per MinIO Tenant Pod / Server.
      volumesPerServer: 4
      ###
      # The capacity per volume requested per MinIO Tenant Pod.
      size: 10Gi
      ###
      # The `storageClass <https://kubernetes.dev.org.tw/docs/concepts/storage/storage-classes/>`__ to associate with volumes generated for this pool.
      #
      # If using Amazon Elastic Block Store (EBS) CSI driver
      # Please make sure to set xfs for "csi.storage.k8s.io/fstype" parameter under StorageClass.parameters.
      # Docs: https://github.com/kubernetes-sigs/aws-ebs-csi-driver/blob/master/docs/parameters.md
      # storageClassName: standard
      ###
      # Specify `storageAnnotations <https://kubernetes.dev.org.tw/docs/concepts/overview/working-with-objects/annotations/>`__ to associate to PVCs.
      storageAnnotations: { }
      ###
      # Specify `annotations <https://kubernetes.dev.org.tw/docs/concepts/overview/working-with-objects/annotations/>`__ to associate to Tenant pods.
      annotations: { }
      ###
      # Specify `labels <https://kubernetes.dev.org.tw/docs/concepts/overview/working-with-objects/labels/>`__ to associate to Tenant pods.
      labels: { }
      ###
      #
      # An array of `Toleration labels <https://kubernetes.dev.org.tw/docs/concepts/scheduling-eviction/taint-and-toleration/>`__ to associate to Tenant pods.
      #
      # These settings determine the distribution of pods across worker nodes.
      tolerations: [ ]
      ###
      # Any `Node Selectors <https://kubernetes.dev.org.tw/docs/concepts/scheduling-eviction/assign-pod-node/>`__ to apply to Tenant pods.
      #
      # The Kubernetes scheduler uses these selectors to determine which worker nodes onto which it can deploy Tenant pods.
      #
      # If no worker nodes match the specified selectors, the Tenant deployment will fail.
      nodeSelector: { }
      ###
      #
      # The `affinity <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/assign-pods-nodes-using-node-affinity/>`__ or anti-affinity settings to apply to Tenant pods.
      #
      # These settings determine the distribution of pods across worker nodes and can help prevent or allow colocating pods onto the same worker nodes.
      affinity: { }
      ###
      # 
      # The `Requests or Limits <https://kubernetes.dev.org.tw/docs/concepts/configuration/manage-resources-containers/>`__ for resources to associate to Tenant pods.
      #
      # These settings can control the minimum and maximum resources requested for each pod.
      # If no worker nodes can meet the specified requests, the Operator may fail to deploy.
      resources: { }
      ###
      # The Kubernetes `SecurityContext <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/security-context/>`__ to use for deploying Tenant resources.
      #
      # You may need to modify these values to meet your cluster's security and access settings.
      #
      # We recommend disabling recursive permission changes by setting ``fsGroupChangePolicy`` to ``OnRootMismatch`` as those operations can be expensive for certain workloads (e.g. large volumes with many small files).
      securityContext:
        runAsUser: 1000
        runAsGroup: 1000
        fsGroup: 1000
        fsGroupChangePolicy: "OnRootMismatch"
        runAsNonRoot: true
      ###
      # The Kubernetes `SecurityContext <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/security-context/>`__ to use for deploying Tenant containers.
      # You may need to modify these values to meet your cluster's security and access settings.
      containerSecurityContext:
        runAsUser: 1000
        runAsGroup: 1000
        runAsNonRoot: true
        allowPrivilegeEscalation: false
        capabilities:
          drop:
            - ALL
        seccompProfile:
          type: RuntimeDefault
      ###
      #
      # An array of `Topology Spread Constraints <https://kubernetes.dev.org.tw/docs/concepts/scheduling-eviction/topology-spread-constraints/>`__ to associate to Operator Console pods.
      #
      # These settings determine the distribution of pods across worker nodes.
      topologySpreadConstraints: [ ]
      ###
      #
      # The name of a custom `Container Runtime <https://kubernetes.dev.org.tw/docs/concepts/containers/runtime-class/>`__ to use for the Operator Console pods.
      # runtimeClassName: ""
  ###
  # The mount path where Persistent Volumes are mounted inside Tenant container(s).
  mountPath: /export
  ###
  # The Sub path inside Mount path where MinIO stores data.
  #
  # .. warning::
  #
  #    Treat the ``mountPath`` and ``subPath`` values as immutable once you deploy the Tenant.
  #    If you change these values post-deployment, then you may have different paths for new and pre-existing data.
  #    This can vastly increase operational complexity and may result in unpredictable data states.
  subPath: /data
  ###
  # Configures a Prometheus-compatible scraping endpoint at the specified port.
  metrics:
    enabled: false
    port: 9000
    protocol: http
  ###
  # Configures external certificate settings for the Tenant.
  certificate:
    ###
    # Specify an array of Kubernetes TLS secrets, where each entry corresponds to a secret the TLS private key and public certificate pair.
    #
    # This is used by MinIO to verify TLS connections from clients using those CAs
    # If you omit this and have clients using TLS certificates minted by an external CA, those connections may fail with warnings around certificate verification.
    # See `Operator CRD: TenantSpec <https://minio.dev.org.tw/docs/minio/kubernetes/upstream/reference/operator-crd.html#tenantspec>`__.
    externalCaCertSecret: [ ]
    ###
    # Specify an array of Kubernetes secrets, where each entry corresponds to a secret contains the TLS private key and public certificate pair.
    #
    # Omit this to use only the MinIO Operator autogenerated certificates.
    # 
    # If you omit this field *and* set ``requestAutoCert`` to false, the Tenant starts without TLS.
    #
    # See `Operator CRD: TenantSpec <https://minio.dev.org.tw/docs/minio/kubernetes/upstream/reference/operator-crd.html#tenantspec>`__.
    #
    # .. important::
    #
    #    The MinIO Operator may output TLS connectivity errors if it cannot trust the Certificate Authority (CA) which minted the custom certificates.
    #
    #    You can pass the CA to the Operator to allow it to trust that cert.
    #    See `Self-Signed, Internal, and Private Certificates <https://minio.dev.org.tw/docs/minio/kubernetes/upstream/operations/network-encryption.html#self-signed-internal-and-private-certificates>`__ for more information.
    #    This step may also be necessary for globally trusted CAs where you must provide intermediate certificates to the Operator to help build the full chain of trust.
    externalCertSecret: [ ]
    ###
    # Enable automatic Kubernetes based `certificate generation and signing <https://kubernetes.dev.org.tw/docs/tasks/tls/managing-tls-in-a-cluster>`__
    requestAutoCert: true
    ###
    # The minimum number of days to expiry before an alert for an expiring certificate is fired.
    # In the below example, if a given certificate will expire in 7 days then expiration events will only be triggered 1 day before expiry
    # certExpiryAlertThreshold: 1
    ###
    # This field is used only when ``requestAutoCert: true``.
    # Use this field to set CommonName for the auto-generated certificate. 
    # MinIO defaults to using the internal Kubernetes DNS name for the pod
    # The default DNS name format is typically ``*.minio.default.svc.cluster.local``.
    #
    # See `Operator CRD: CertificateConfig <https://minio.dev.org.tw/docs/minio/kubernetes/upstream/reference/operator-crd.html#certificateconfig>`__
    certConfig: { }
  ###
  # MinIO features to enable or disable in the MinIO Tenant
  # See `Operator CRD: Features <https://minio.dev.org.tw/docs/minio/kubernetes/upstream/reference/operator-crd.html#features>`__.
  features:
    bucketDNS: false
    domains: { }
    enableSFTP: false
  ###
  # Array of objects describing one or more buckets to create during tenant provisioning.
  # Example:
  # 
  # .. code-block:: yaml
  #
  #    - name: my-minio-bucket
  #         objectLock: false        # optional
  #         region: us-east-1        # optional
  buckets: [ ]
  ###
  # Array of Kubernetes secrets from which the Operator generates MinIO users during tenant provisioning.
  #
  # Each secret should specify the ``CONSOLE_ACCESS_KEY`` and ``CONSOLE_SECRET_KEY`` as the access key and secret key for that user.
  users: [ ]
  ###
  # The `PodManagement <https://kubernetes.dev.org.tw/docs/tutorials/stateful-application/basic-stateful-set/#pod-management-policy>`__ policy for MinIO Tenant Pods. 
  # Can be "OrderedReady" or "Parallel"
  podManagementPolicy: Parallel
  # The `Liveness Probe <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/configure-liveness-readiness-startup-probes>`__ for monitoring Tenant pod liveness. 
  # Tenant pods will be restarted if the probe fails.
  liveness: { }
  ###
  # `Readiness Probe <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/configure-liveness-readiness-startup-probes/>`__ for monitoring Tenant container readiness.
  # Tenant pods will be removed from service endpoints if the probe fails.
  readiness: { }
  ###
  # `Startup Probe <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/configure-liveness-readiness-startup-probes/>`__ for monitoring container startup. 
  # Tenant pods will be restarted if the probe fails.
  # Refer 
  startup: { }
  ###
  # The `Lifecycle hooks <https://kubernetes.dev.org.tw/docs/concepts/containers/container-lifecycle-hooks/>`__ for container.
  lifecycle: { }
  ###
  # Directs the Operator to deploy the MinIO S3 API and Console services as LoadBalancer objects.
  #
  # If the Kubernetes cluster has a configured LoadBalancer, it can attempt to route traffic to those services automatically.
  #
  # - Specify ``minio: true`` to expose the MinIO S3 API.
  # - Specify ``console: true`` to expose the Console.
  #
  # Both fields default to ``false``.
  exposeServices: { }
  ###
  # The `Kubernetes Service Account <https://kubernetes.dev.org.tw/docs/tasks/configure-pod-container/configure-service-account/>`__ associated with the Tenant.
  serviceAccountName: ""
  ###
  # Directs the Operator to add the Tenant's metric scrape configuration to an existing Kubernetes Prometheus deployment managed by the Prometheus Operator.
  prometheusOperator: false
  ###
  # Configure pod logging configuration for the MinIO Tenant.
  #
  # - Specify ``json`` for JSON-formatted logs.
  # - Specify ``anonymous`` for anonymized logs.
  # - Specify ``quiet`` to supress logging.
  #
  # An example of JSON-formatted logs is as follows:
  #
  # .. code-block:: shell
  #
  #    $ k logs myminio-pool-0-0 -n default
  #    {"level":"INFO","errKind":"","time":"2022-04-07T21:49:33.740058549Z","message":"All MinIO sub-systems initialized successfully"}
  logging: { }
  ###
  # serviceMetadata allows passing additional labels and annotations to MinIO and Console specific
  # services created by the operator.
  serviceMetadata: { }
  ###
  # Add environment variables to be set in MinIO container (https://github.com/minio/minio/tree/master/docs/config)
  env: [ ]
  ###
  # PriorityClassName indicates the Pod priority and hence importance of a Pod relative to other Pods.
  # This is applied to MinIO pods only.
  # Refer Kubernetes documentation for details https://kubernetes.dev.org.tw/docs/concepts/configuration/pod-priority-preemption/#priorityclass/
  priorityClassName: ""
  ###
  # An array of `Volumes <https://kubernetes.dev.org.tw/docs/concepts/storage/volumes/>`__ which the Operator can mount to Tenant pods.
  #
  # The volumes must exist *and* be accessible to the Tenant pods.
  additionalVolumes: [ ]
  ###
  # An array of volume mount points associated to each Tenant container.
  # 
  # Specify each item in the array as follows:
  #
  # .. code-block:: yaml
  #
  #    volumeMounts:
  #    - name: volumename
  #      mountPath: /path/to/mount
  #
  # The ``name`` field must correspond to an entry in the ``additionalVolumes`` array.
  additionalVolumeMounts: [ ]
  # Define configuration for KES (stateless and distributed key-management system)
  # Refer https://github.com/minio/kes
  #kes:
  #  ## Image field:
  #  # Image from tag (original behavior), for example:
  #  # image:
  #  #   repository: quay.io/minio/kes
  #  #   tag: 2024-08-16T14-39-28Z
  #  # Image from digest (added after original behavior), for example:
  #  # image:
  #  #   repository: quay.io/minio/kes@sha256
  #  #   digest: fb15af611149892f357a8a99d1bcd8bf5dae713bd64c15e6eb27fbdb88fc208b
  #  image:
  #    repository: quay.io/minio/kes
  #    tag: 2024-08-16T14-39-28Z
  #    pullPolicy: IfNotPresent
  #  env: [ ]
  #  replicas: 2
  #  configuration: |-
  #    address: :7373
  #    tls:
  #      key: /tmp/kes/server.key   # Path to the TLS private key
  #      cert: /tmp/kes/server.crt # Path to the TLS certificate
  #      proxy:
  #        identities: []
  #        header:
  #          cert: X-Tls-Client-Cert
  #    admin:
  #      identity: ${MINIO_KES_IDENTITY}
  #    cache:
  #      expiry:
  #        any: 5m0s
  #        unused: 20s
  #    log:
  #      error: on
  #      audit: off
  #    keystore:
  #      # KES configured with fs (File System mode) doesn't work in Kubernetes environments and is not recommended
  #      # use a real KMS
  #      # fs:
  #      #   path: "./keys" # Path to directory. Keys will be stored as files. Not Recommended for Production.
  #      vault:
  #        endpoint: "http://vault.default.svc.cluster.local:8200" # The Vault endpoint
  #        namespace: "" # An optional Vault namespace. See: https://www.vaultproject.io/docs/enterprise/namespaces/index.html
  #        prefix: "my-minio"    # An optional K/V prefix. The server will store keys under this prefix.
  #        approle:    # AppRole credentials. See: https://www.vaultproject.io/docs/auth/approle.html
  #          id: "<YOUR APPROLE ID HERE>"      # Your AppRole Role ID
  #          secret: "<YOUR APPROLE SECRET ID HERE>"  # Your AppRole Secret ID
  #          retry: 15s  # Duration until the server tries to re-authenticate after connection loss.
  #        tls:        # The Vault client TLS configuration for mTLS authentication and certificate verification
  #          key: ""     # Path to the TLS client private key for mTLS authentication to Vault
  #          cert: ""    # Path to the TLS client certificate for mTLS authentication to Vault
  #          ca: ""      # Path to one or multiple PEM root CA certificates
  #        status:     # Vault status configuration. The server will periodically reach out to Vault to check its status.
  #          ping: 10s   # Duration until the server checks Vault's status again.
  #      # aws:
  #      #   # The AWS SecretsManager key store. The server will store
  #      #   # secret keys at the AWS SecretsManager encrypted with
  #      #   # AWS-KMS. See: https://aws.amazon.com/secrets-manager
  #      #   secretsmanager:
  #      #     endpoint: ""   # The AWS SecretsManager endpoint      - e.g.: secretsmanager.us-east-2.amazonaws.com
  #      #     region: ""     # The AWS region of the SecretsManager - e.g.: us-east-2
  #      #     kmskey: ""     # The AWS-KMS key ID used to en/decrypt secrets at the SecretsManager. By default (if not set) the default AWS-KMS key will be used.
  #      #     credentials:   # The AWS credentials for accessing secrets at the AWS SecretsManager.
  #      #       accesskey: ""  # Your AWS Access Key
  #      #       secretkey: ""  # Your AWS Secret Key
  #      #       token: ""      # Your AWS session token (usually optional)
  #  imagePullPolicy: "IfNotPresent"
  #  externalCertSecret: null
  #  clientCertSecret: null
  #  # Key name to be created on the KMS, default is "my-minio-key"
  #  keyName: ""
  #  resources: { }
  #  nodeSelector: { }
  #  affinity:
  #    nodeAffinity: { }
  #    podAffinity: { }
  #    podAntiAffinity: { }
  #  tolerations: [ ]
  #  annotations: { }
  #  labels: { }
  #  serviceAccountName: ""
  #  securityContext:
  #    runAsUser: 1000
  #    runAsGroup: 1000
  #    runAsNonRoot: true
  #    fsGroup: 1000
  #  containerSecurityContext:
  #    runAsUser: 1000
  #    runAsGroup: 1000
  #    runAsNonRoot: true
  #    allowPrivilegeEscalation: false
  #    capabilities:
  #      drop:
  #        - ALL
  #    seccompProfile:
  #      type: RuntimeDefault

###
# Configures `Ingress <https://kubernetes.dev.org.tw/docs/concepts/services-networking/ingress/>`__ for the Tenant S3 API and Console.
#
# Set the keys to conform to the Ingress controller and configuration of your choice.
ingress:
  api:
    enabled: false
    ingressClassName: ""
    labels: { }
    annotations: { }
    tls: [ ]
    host: minio.local
    path: /
    pathType: Prefix
  console:
    enabled: false
    ingressClassName: ""
    labels: { }
    annotations: { }
    tls: [ ]
    host: minio-console.local
    path: /
    pathType: Prefix
# Use an extraResources template section to include additional Kubernetes resources
# with the Helm deployment.
#extraResources:
#  - |
#    apiVersion: v1
#    kind: Secret
#    type: Opaque
#    metadata:
#      name: {{ dig "tenant" "configSecret" "name" "" (.Values | merge (dict)) }}
#    stringData:
#      config.env: |-
#        export MINIO_ROOT_USER='minio'
#        export MINIO_ROOT_PASSWORD='minio123'
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