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Instructions

You can use the Palette Helm Chart to install Palette in a multi-node Kubernetes cluster in your production environment.

This installation method is common in secure environments with restricted network access that prohibits using Palette SaaS. Review our architecture diagrams to ensure your Kubernetes cluster has the necessary network connectivity for Palette to operate successfully.

Prerequisites

warning

If you are installing an airgap Palette, ensure you complete all the airgap pre-install steps before proceeding with the installation. Refer to the Kubernetes Airgap Instructions guide for more information.

  • kubectl is installed and available.

  • Helm is installed and available.

  • Access to the target Kubernetes cluster's kubeconfig file. You must be able to interact with the cluster using kubectl commands and have sufficient permissions to install Palette. We recommend using a role with cluster-admin permissions to install Palette.

  • Ensure unzip or a similar extraction utility is installed on your system.

  • The Kubernetes cluster must be set up on a supported version of Kubernetes, which includes versions v1.25 to v1.27.

  • Ensure the Kubernetes cluster does not have Cert Manager installed. Palette requires a unique Cert Manager configuration to be installed as part of the installation process. If Cert Manager is already installed, you must uninstall it before installing Palette.

  • The Kubernetes cluster must have a Container Storage Interface (CSI) installed and configured. Palette requires a CSI to store persistent data. You may install any CSI that is compatible with your Kubernetes cluster.

  • We recommended the following resources for Palette. Refer to the Palette size guidelines for additional sizing information.

    • 8 CPUs per node.

    • 16 GB Memory per node.

    • 100 GB Disk Space per node.

    • A Container Storage Interface (CSI) for persistent data.

    • A minimum of three worker nodes or three untainted control plane nodes.

  • The following network ports must be accessible for Palette to operate successfully.

    • TCP/443: Inbound and outbound to and from the Palette management cluster.

    • TCP/6443: Outbound traffic from the Palette management cluster to the deployed clusters' Kubernetes API server.

  • Ensure you have an SSL certificate that matches the domain name you will assign to Palette. You will need this to enable HTTPS encryption for Palette. Reach out to your network administrator or security team to obtain the SSL certificate. You need the following files:

    • x509 SSL certificate file in base64 format.

    • x509 SSL certificate key file in base64 format.

    • x509 SSL certificate authority file in base64 format.

  • An Nginx controller will be installed by default. If you already have an Nginx controller deployed in the cluster, you must set the ingress.enabled parameter to false in the values.yaml file.

  • A custom domain and the ability to update Domain Name System (DNS) records. You will need this to enable HTTPS encryption for Palette.

  • If you are installing Palette behind a network proxy server, ensure you have the Certificate Authority (CA) certificate file in the base64 format. You will need this to enable Palette to communicate with the network proxy server.

  • Access to the Palette Helm Charts. Refer to the Access Palette for instructions on how to request access to the Helm Chart


warning

Do not use a Palette-managed Kubernetes cluster when installing Palette. Palette-managed clusters contain the Palette agent and Palette-created Kubernetes resources that will interfere with the installation of Palette.

Install Palette

The following instructions are written agnostic to the Kubernetes distribution you are using. Depending on the underlying infrastructure provider and your Kubernetes distribution, you may need to modify the instructions to match your environment. Reach out to our support team if you need assistance.

  1. Open a terminal session and navigate to the directory where you downloaded the Palette install zip file provided by our support. Unzip the file to a directory named palette-install.

    unzip release-*.zip -d palette-install

  2. Navigate to the release folder inside the vertex-install directory.

    cd palette-install/charts/release-*

  3. Install Cert Manager using the following command. Replace the actual file name of the Cert Manager Helm Chart with the one you downloaded, as the version number may be different.

    helm upgrade --values extras/cert-manager/values.yaml \
    cert-manager extras/cert-manager/cert-manager-*.tgz --install
    Release "cert-manager" does not exist. Installing it now.
    NAME: cert-manager
    LAST DEPLOYED: Mon Jan 29 16:32:33 2024
    NAMESPACE: default
    STATUS: deployed
    REVISION: 1
    TEST SUITE: None

  4. Open the values.yaml in the spectro-mgmt-plane folder with a text editor of your choice. The values.yaml contains the default values for the Palette installation parameters, however, you must populate the following parameters before installing Palette. You can learn more about the parameters in the values.yaml file in the Helm Configuration Reference page.

    ParameterDescriptionType
    env.rootDomainThe URL name or IP address you will use for the Palette installation.string
    ociPackRegistry or ociPackEcrRegistryThe OCI registry credentials for Palette FIPS packs. These credentials are provided by our support team.object
    scarThe Spectro Cloud Artifact Repository (SCAR) credentials for Palette FIPS images. These credentials are provided by our support team.object
    ingress.enabledWhether to install the Nginx ingress controller. Set this to false if you already have an Nginx controller deployed in the cluster.boolean
    reach-systemSet reach-system.enabled to true and configure the reach-system.proxySettings parameters to configure Palette to use a network proxy in your environmentobject

    Save the values.yaml file after you have populated the required parameters mentioned in the table. Expand the following sections to review an example of the values.yaml file with the required parameters highlighted.

    Example - values.yaml
    #########################
    # Spectro Cloud Palette #
    #########################
    # MongoDB Configuration
    mongo:
      # Whether to deploy MongoDB in-cluster (internal == true) or use Mongo Atlas
      internal: true

      # Mongodb URL. Only change if using Mongo Atlas.
      databaseUrl: "mongo-0.mongo,mongo-1.mongo,mongo-2.mongo"
      # Mongo Atlas password, base64 encoded. Only enter if using Mongo Atlas.
      databasePassword: ""

      #No. of mongo replicas to run, default is 3
      replicas: 3
      # The following only apply if mongo.internal == true
      cpuLimit: "2000m"
      memoryLimit: "4Gi"
      pvcSize: "20Gi"
      storageClass: "" # leave empty to use the default storage class

    config:
      installationMode: "connected" #values can be connected or airgap.

      # SSO SAML Configuration (Optional for self-hosted type)
      sso:
        saml:
          enabled: false
          acsUrlRoot: "myfirstpalette.spectrocloud.com"
          acsUrlScheme: "https"
          audienceUrl: "https://www.spectrocloud.com"
          entityId: "https://www.spectrocloud.com"
          apiVersion: "v1"

      # Email Configurations. (Optional for self-hosted type)
      email:
        enabled: false
        emailId: "noreply@spectrocloud.com"
        smtpServer: "smtp.gmail.com"
        smtpPort: 587
        insecureSkipVerifyTls: true
        fromEmailId: "noreply@spectrocloud.com"
        password: "" # base64 encoded SMTP password

      env:
        # rootDomain is a DNS record which will be mapped to the ingress-nginx-controller load balancer
        # E.g., myfirstpalette.spectrocloud.com
        # - Mandatory if ingress.internal == false
        # - Optional if ingress.internal == true (leave empty)
        #
        # IMPORTANT: a DNS record must be created separately and it must be a wildcard to account for Organization prefixes
        # E.g., *.myfirstpalette.spectrocloud.com
        rootDomain: "palette.example.com"

      # stableEndpointAccess is used when deploying EKS clusters in Private network type.
      # When your Saas installed instance have connectivity to the private VPC where you want to launch the cluster set the stableEndpointAccess to true
      cluster:
        stableEndpointAccess: false

      #  registry:
      #    endpoint: "" #<Contact Spectro Cloud Sales for More info>
      #    name: "" #<Contact Spectro Cloud Sales for More info>
      #    password: "" #<Contact Spectro Cloud Sales for More info>
      #    username: "" #<Contact Spectro Cloud Sales for More info>
      #    insecureSkipVerify: false
      #    caCert: ""

      #  ociPackRegistry:
      #    endpoint: "" #<Contact Spectro Cloud Sales for More info>
      #    name: "" #<Contact Spectro Cloud Sales for More info>
      #    password: "" #<Contact Spectro Cloud Sales for More info>
      #    username: "" #<Contact Spectro Cloud Sales for More info>
      #    baseContentPath: "" #<Contact Spectro Cloud Sales for More info>
      #    insecureSkipVerify: false
      #    caCert: ""

      ociPackEcrRegistry:
        endpoint: "15789037893.dkr.ecr.us-east-1.amazonaws.com" #<Contact Spectro Cloud Sales for More info>
        name: "Palette Packs OCI" #<Contact Spectro Cloud Sales for More info>
        accessKey: "*************" #<Contact Spectro Cloud Sales for More info>
        secretKey: "*************" #<Contact Spectro Cloud Sales for More info>
        baseContentPath: "production" #<Contact Spectro Cloud Sales for More info>
        isPrivate: true
        insecureSkipVerify: false
        caCert: ""

      # ociImageRegistry:
      #   endpoint: "" #<Contact Spectro Cloud Sales for More info>
      #   name: "" #<Contact Spectro Cloud Sales for More info>
      #   password: "" #<Contact Spectro Cloud Sales for More info>
      #   username: "" #<Contact Spectro Cloud Sales for More info>
      #   baseContentPath: "" #<Contact Spectro Cloud Sales for More info>
      #   insecureSkipVerify: false
      #   caCert: ""
      #   mirrorRegistries: ""

      scar:
        endpoint: "https://saas-repo.console.spectrocloud.com"
        username: "**********"
        password: "**********"
        insecureSkipVerify: true
        caCert: ""

      imageSwapImages:
        imageSwapInitImage: "gcr.io/spectro-images-public/release-fips/thewebroot/imageswap-init:v1.5.2"
        imageSwapImage: "gcr.io/spectro-images-public/release-fips/thewebroot/imageswap:v1.5.2"

      imageSwapConfig:
        isEKSCluster: true #If the Cluster you are trying to install is EKS cluster set value to true else set to false

    nats:
      # Should we install nats as part of the nats chart bundled with hubble charts
      # If not enabled NATS service should be installed as a separate service.

      enabled: true

      # Whether to front NATS with a cloud load balancer (internal == false) or
      # either share the ingress load balancer or use hostNetwork (internal == true).
      # See nats.natsUrl comments for further detail.
      internal: true

      # NATS URL
      # Comma separated list of <dns_name:port> mappings for nats load balancer service
      # E.g., "message1.dev.spectrocloud.com:4222,message2.dev.spectrocloud.com:4222"
      #
      # Mandatory if nats.internal == false
      # Otherwise, if nats.internal == true:
      # - If ingress.ingress.internal == true: leave empty (use hostNetwork)
      # - If ingress.ingress.internal == false: use "<config.env.rootDomain>:4222" (share ingress lb)
      natsUrl: ""

      # *********************** IMPORTANT NOTE ******************************
      # * if nats.internal == true, ignore all of the following NATS config *
      # *********************************************************************

      # NATS load balancer annotations
      annotations: {}

      # AWS example
      # service.beta.kubernetes.io/aws-load-balancer-ssl-cert: <ACM_ARN>
      # service.beta.kubernetes.io/aws-load-balancer-ssl-ports: "server-port"
      # service.beta.kubernetes.io/aws-load-balancer-backend-protocol: tcp

      # Azure example
      # service.beta.kubernetes.io/azure-load-balancer-internal: "true"
      # service.beta.kubernetes.io/azure-dns-label-name: myserviceuniquelabel

      # Static IP for the nats loadbalancer service. If empty, a dynamic IP will be generated.
      natsStaticIP: ""
    grpc:
      external: false
      endpoint: "" #Please provide DNS endpoint with the port eg: msg.spectrocloud.com:443
      caCertificateBase64: "" #Please provide caCertificate for the grpc server Cert
      serverCrtBase64: ""
      serverKeyBase64: ""
      insecureSkipVerify: false

    ingress:
      # When enabled nginx ingress controller would be installed
      enabled: true

      ingress:
        # Whether to front NGINX Ingress Controller with a cloud
        # load balancer (internal == false) or use host network
        internal: false

        # Default SSL certificate and key for NGINX Ingress Controller (Optional)
        # A wildcard cert for config.env.rootDomain, e.g., *.myfirstpalette.spectrocloud.com
        # If left blank, the NGINX ingress controller will generate a self-signed cert (when terminating TLS upstream of ingress-nginx-controller)
        certificate: ""
        key: ""

        #If ACM is enabled please use grpc as a non internal and bring grpc on different LB. Provide certificate and dns for it.
        annotations: {}
        # AWS example
        # service.beta.kubernetes.io/aws-load-balancer-internal: "true"
        # service.beta.kubernetes.io/aws-load-balancer-backend-protocol: tcp
        # service.beta.kubernetes.io/aws-load-balancer-ssl-cert: <ACM_ARN>
        # service.beta.kubernetes.io/aws-load-balancer-ssl-ports: "https"

        # Azure example
        # service.beta.kubernetes.io/azure-load-balancer-internal: "true"
        # service.beta.kubernetes.io/azure-dns-label-name: myserviceuniquelabel

        # Static IP for the Ingress load balancer service. If empty, a dynamic IP will be generated.
        ingressStaticIP: ""

        # For Service like AWS Load Balancer using https we would want to terminate the HTTPS at Load Balancer.
        terminateHTTPSAtLoadBalancer: false
      nats:
        enabled: true

    frps:
      frps:
        enabled: false
        frpHostURL: proxy.sample.spectrocloud.com
        server:
          crt: 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
          key: LS0tLS1CRUdJTiBSU0EgUFJJVkFURSBLRVktLS0tLQpNSUlFb3dJQkFBS0NBUUVBd3lsS3cyaXFQVzNia0FNMFd0YWhBS2xKaXFhR3dOS1A1UUU2emVuTTNhVEZKN04yCjA3R1ZxQ0ZjMkdMM2h2Y2FMMWtqdmN4SStpcmx6ZG5vYXFYVEpld2ZCYkxrNkhlYWZnV1FadzRzTXhOUEVFWGIKU1dibngybTdjYWVtUmJRZlJBaE9ZdG9aSFhtSDM0NUNuZjYxdEZ4THhBM29CUTZtcm9CTFVzTjlIdllhc3hhOQpBQWZlQ01mbmxhZUFYT0JWZE5qUlM3VXNDeTZpUkV6RFhYL3ptZzhuVlhVMHppa3F3aEt6akpQSXdhUGtlYml1ClJ1Qlh0RnRWVDBCYXNLdWptRHN3SWxEVFZkeEh0UUFFclJjOENjYW9tMlJKWW03dWhzRGJaNllRc0tyYjJoSG0KTms0Q1VZR3l5Qk9mcHBvNHZsV3VLYURybFRTWFF5TzdDNHozNXdJREFRQUJBb0lCQUFPVVZFeTFOTG9mczdFMgpmZFZVcm10R3I1U2RiVWRJRlYrTDREbzZtWWxQSmxhT0VoWGI0ZlROZDloNEtEWVBmaWwwSnhXcUU0U1RHTmZuCnNUMlRnUVhuQ01LZi8xYk1Lc2M0N3VjVStYYU9XaHJnVFI5UmhkckFjN0duODRLL3hQc0ljL2VZTEhHLzh1QUUKeWUvLzVmRkM2QmpXY0hUM1NkTlZnd3duamJudG5XTXIzTFJBVnJBamZBckxveWUwS0F2YytYdXJLTEVCcmMyVQpjaHlDbitZemJKN0VlSG44UXdQNGdBNXVSK0NCMFJPeFErYXIzS3M5YUhkZTQ1OEVNNEtLMnpUOXA4RWZRc1lFCkFtNUpxWjliR0JEVHV1dEkyNm9GK0pLQ1IzZzhXNERRcHVYRUZoVjlya0pMSm13RDhQb0JaclF6UzZvdmJhdkkKRk42QVM4RUNnWUVBOEcxQzFxZVh4dTQ4aEYxak5MTCswRmxkeWdFem9SMmFoRGJCai8weUZkQVVjU2pYTzk0NAozN1dORTBUUG10WG1Vc3NZTlBTR21XaWI2OUhicEFoMTY3SWVwNE9LaVlZdkozYm1oUC9WNzFvK3M0SWJlSHh1CkVJbWVVckFOZWRoQURVQnZ4c1lXRWxlVlVJSFFRcjY1VHM2ZjIrWkpTKzg4TU05bUorL3BmcmNDZ1lFQXo4MXgKR3JiSE5oak56RjhZMjhiK0hMNW5rdDR0SUdkU3hnbW9PMFFJeGkrQVNZTzB0WW42VFk0ZHI5ZXErMzE3b21ZawpMbDNtNENORDhudG1vYzRvWnM4SUpDQ0IrZjNqcTY4OHdoQU9vVHZ4dDhjZVJqOFRhRHl1SHZwS043OVNsVVd2CjBJd2ZRNDNIemd3SWJiSWhjcTRJVGswanI0VHdWbThia283VElGRUNnWUJoNnUzVXhHN0JHeGZVaE1BNW4waSsKREJkeGhPbkZEV3gzdW1FOHhrN1dxV2NaNnhzMWk3eTRCNVhNS2pNdkNUeURyYWxQTCtOOXFTZ1BjK216TmFybwo4aU1mOENmRStMeE5vMVFoQ0p6Vm5YaDUzVnhZeHJ5QXlidU1TNTFCYVh3MHFYQ2NrT0krV0NNOHBaSHZEUVFsCmYydUZ3SlZMY3NTZDBHbjNpL01ab3dLQmdBY1BzUjg2Uk15MnpROTd6OGx3R3FSNVorV2F2U2ZUdXdGVnhLeTIKNUNGdjdja1J1NnRMbEFEY3FtK1dRWTRvTm5KUFREMXpIV3hTWm5XdjhjM2Z4b212MFZRQThzbSs4ZVNjb05EcgpZTVBqMkpQcEpVTTMwMzRBU2Q1dG5PWUdEMVZaTjk4N1U3aWs4Ynd6dG5tYnl2MHRvc1NlWkc4TGNtdE5mVDllCnNSZnhBb0dCQUpTV1lDellyTlRMNnRUSnh5M2FqWm5jZkxrMEV0eWNCd05FRXZHVzVSVE9LOUFYTE96RzN0eHUKajZqWlRpaUFRU09aaVd0clJHU0U0bEkyQ1MvcjNjd3VuSGlnZlovd1dKZldkZ0JpRnZqOTVFbUVQWUZaRDRobQpkT3l5UHhRRXFTRmprQ21BS2plOFBpTDdpU01GbGhBZTZQWFljQlExdCtzd01UeXBnY3RrCi0tLS0tRU5EIFJTQSBQUklWQVRFIEtFWS0tLS0tCg==
        ca:
          crt: 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
        service:
          annotations: {}

    ui-system:
      enabled: true
      ui:
        nocUI:
          enable: true
          mapBoxAccessToken: "" # Leave Empty to use Default Access Token from Palette
          mapBoxStyledLayerID: "" # Leave Empty to use Default Style Layer ID

    reachSystem:
      enabled: false
      proxySettings:
        http_proxy: ""
        https_proxy: ""
        no_proxy: ""
        ca_crt_path: "" # Set the 'ca_crt_path' parameter to the location of the certificate file on each node. This file should contain the Proxy CA Certificate, in case the Proxy being used requires a certificate.
      scheduleOnControlPlane: true
warning

Ensure you have configured the values.yaml file with the required parameters before proceeding to the next steps.

  1. This step only applies to those who are installing an airgap Palette or who are using a self-hosted OCI registry with registry caching enabled. Otherwise, skip to the next step.

    Go ahead and install the image-swap chart using the following command. Point to the values.yaml file you configured in the previous step.

    helm upgrade --values palette/values.yaml \
    image-swap extras/image-swap/image-swap-*.tgz --install
    Release "image-swap" does not exist. Installing it now.
    NAME: image-swap
    LAST DEPLOYED: Mon Jan 29 17:04:23 2024
    NAMESPACE: default
    STATUS: deployed
    REVISION: 1
    TEST SUITE: None

  2. This step is only required if you are installing Palette in an environment where a network proxy must be configured for Palette to access the internet. If you are not using a network proxy, skip to the next step.

    Install the reach-system chart using the following command. Point to the values.yaml file you configured in the previous step.

    helm upgrade --values palette/values.yaml \
    reach-system extras/reach-system/reach-system-*.tgz --install
    Release "reach-system" does not exist. Installing it now.
    NAME: reach-system
    LAST DEPLOYED: Mon Jan 29 17:04:23 2024
    NAMESPACE: default
    STATUS: deployed
    REVISION: 1
    TEST SUITE: None

  3. Install the Palette Helm Chart using the following command.

     helm upgrade --values palette/values.yaml \
     hubble palette/spectro-mgmt-plane-*.tgz --install
    Release "hubble" does not exist. Installing it now.
    NAME: hubble
    LAST DEPLOYED: Mon Jan 29 17:07:51 2024
    NAMESPACE: default
    STATUS: deployed
    REVISION: 1
    TEST SUITE: None

  4. Track the installation process using the command below. Palette is ready when the deployments in the namespaces cp-system, hubble-system, ingress-nginx, jet-system , and ui-system reach the Ready state. The installation takes between two to three minutes to complete.

    kubectl get pods --all-namespaces --watch
    tip

    For a more user-friendly experience, use the open-source tool k9s to monitor the installation process.

  5. Create a DNS CNAME record that is mapped to the Palette ingress-nginx-controller load balancer. You can use the following command to retrieve the load balancer IP address. You may require the assistance of your network administrator to create the DNS record.

    kubectl get service ingress-nginx-controller --namespace ingress-nginx \
     --output jsonpath='{.status.loadBalancer.ingress[0].hostname}'
    info

    As you create tenants in Palette, the tenant name is prefixed to the domain name you assigned to Palette. For example, if you create a tenant named tenant1 and the domain name you assigned to Palette is palette.example.com, the tenant URL will be tenant1.palette.example.com. You can create an additional wildcard DNS record to map all tenant URLs to the Palette load balancer.

  6. Use the custom domain name or the IP address of the load balancer to visit the Palette system console. To access the system console, open a web browser and paste the custom domain URL in the address bar and append the value /system. Replace the domain name in the URL with your custom domain name or the IP address of the load balancer. Alternatively, you can use the load balancer IP address with the appended value /system to access the system console.

    The first time you visit the Palette system console, a warning message about a not trusted SSL certificate may appear. This is expected, as you have not yet uploaded your SSL certificate to Palette. You can ignore this warning message and proceed.

    Screenshot of the Palette system console showing Username and Password fields.

  7. Log in to the system console using the following default credentials.

    ParameterValue
    Usernameadmin
    Passwordadmin

After login, you will be prompted to create a new password. Enter a new password and save your changes. You will be redirected to the Palette system console.

  1. After login, a summary page is displayed. Palette is installed with a self-signed SSL certificate. To assign a different SSL certificate you must upload the SSL certificate, SSL certificate key, and SSL certificate authority files to Palette. You can upload the files using the Palette system console. Refer to the Configure HTTPS Encryption page for instructions on how to upload the SSL certificate files to Palette.

    warning

    If you plan to deploy host clusters into different networks, you may require a reverse proxy. Check out the Configure Reverse Proxy guide for instructions on how to configure a reverse proxy for Palette.

You now have a self-hosted instance of Palette installed in a Kubernetes cluster. Make sure you retain the values.yaml file as you may need it for future upgrades.

Validate

Use the following steps to validate the Palette installation.

  1. Open up a web browser and navigate to the Palette system console. To access the system console, open a web browser and paste the env.rootDomain value you provided in the address bar and append the value /system. You can also use the IP address of the load balancer.

  2. Log in using the credentials you received from our support team. After login, you will be prompted to create a new password. Enter a new password and save your changes. You will be redirected to the Palette system console.

  3. Open a terminal session and issue the following command to verify the Palette installation. The command should return a list of deployments in the cp-system, hubble-system, ingress-nginx, jet-system , and ui-system namespaces.

    kubectl get pods --all-namespaces --output custom-columns="NAMESPACE:metadata.namespace,NAME:metadata.name,STATUS:status.phase" \
    | grep -E '^(cp-system|hubble-system|ingress-nginx|jet-system|ui-system)\s'

    Your output should look similar to the following.

    cp-system       spectro-cp-ui-689984f88d-54wsw             Running
    hubble-system   auth-85b748cbf4-6drkn                      Running
    hubble-system   auth-85b748cbf4-dwhw2                      Running
    hubble-system   cloud-fb74b8558-lqjq5                      Running
    hubble-system   cloud-fb74b8558-zkfp5                      Running
    hubble-system   configserver-685fcc5b6d-t8f8h              Running
    hubble-system   event-68568f54c7-jzx5t                     Running
    hubble-system   event-68568f54c7-w9rnh                     Running
    hubble-system   foreq-6b689f54fb-vxjts                     Running
    hubble-system   hashboard-897bc9884-pxpvn                  Running
    hubble-system   hashboard-897bc9884-rmn69                  Running
    hubble-system   hutil-6d7c478c96-td8q4                     Running
    hubble-system   hutil-6d7c478c96-zjhk4                     Running
    hubble-system   mgmt-85dbf6bf9c-jbggc                      Running
    hubble-system   mongo-0                                    Running
    hubble-system   mongo-1                                    Running
    hubble-system   mongo-2                                    Running
    hubble-system   msgbroker-6c9b9fbf8b-mcsn5                 Running
    hubble-system   oci-proxy-7789cf9bd8-qcjkl                 Running
    hubble-system   packsync-28205220-bmzcg                    Succeeded
    hubble-system   spectrocluster-6c57f5775d-dcm2q            Running
    hubble-system   spectrocluster-6c57f5775d-gmdt2            Running
    hubble-system   spectrocluster-6c57f5775d-sxks5            Running
    hubble-system   system-686d77b947-8949z                    Running
    hubble-system   system-686d77b947-cgzx6                    Running
    hubble-system   timeseries-7865bc9c56-5q87l                Running
    hubble-system   timeseries-7865bc9c56-scncb                Running
    hubble-system   timeseries-7865bc9c56-sxmgb                Running
    hubble-system   user-5c9f6c6f4b-9dgqz                      Running
    hubble-system   user-5c9f6c6f4b-hxkj6                      Running
    ingress-nginx   ingress-nginx-controller-2txsv             Running
    ingress-nginx   ingress-nginx-controller-55pk2             Running
    ingress-nginx   ingress-nginx-controller-gmps9             Running
    jet-system      jet-6599b9856d-t9mr4                       Running
    ui-system       spectro-ui-76ffdf67fb-rkgx8                Running

Next Steps

You have successfully installed Palette in a Kubernetes cluster. Your next steps are to configure Palette for your organization. Start by creating the first tenant to host your users. Use the Create a Tenant page for instructions on how to create a tenant.