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feat: ncd0 example complete. Missing files for authentication, ignition etc are accessible upon deman. This is yet another great step towards full UPI automated provisionning

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Jean-Gabriel Gill-Couture 2025-05-06 11:44:40 -04:00
parent c8547e38f2
commit b7fe62fcbb
13 changed files with 1684 additions and 14 deletions
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#!ipxe
menu PXE Boot Menu - [${mac}]
item okdinstallation Install OKD
item slitaz Boot to Slitaz - old linux for debugging
choose selected
goto ${selected}
:local
exit
#################################
# okdinstallation
#################################
:okdinstallation
set base-url http://192.168.33.1:8080
set kernel-image fcos/fedora-coreos-39.20231101.3.0-live-kernel-x86_64
set live-rootfs fcos/fedora-coreos-39.20231101.3.0-live-rootfs.x86_64.img
set live-initramfs fcos/fedora-coreos-39.20231101.3.0-live-initramfs.x86_64.img
set install-disk /dev/nvme0n1
set ignition-file ncd0/master.ign
kernel ${base-url}/${kernel-image} initrd=main coreos.live.rootfs_url=${base-url}/${live-rootfs} coreos.inst.install_dev=${install-disk} coreos.inst.ignition_url=${base-url}/${ignition-file} ip=enp1s0:dhcp
initrd --name main ${base-url}/${live-initramfs}
boot
#################################
# slitaz
#################################
:slitaz
set server_ip 192.168.33.1:8080
set base_url http://${server_ip}/slitaz
kernel ${base_url}/vmlinuz-2.6.37-slitaz rw root=/dev/null vga=788 initrd=rootfs.gz
initrd ${base_url}/rootfs.gz
boot

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#!ipxe
menu PXE Boot Menu - [${mac}]
item okdinstallation Install OKD
item slitaz Boot to Slitaz - old linux for debugging
choose selected
goto ${selected}
:local
exit
#################################
# okdinstallation
#################################
:okdinstallation
set base-url http://192.168.33.1:8080
set kernel-image fcos/fedora-coreos-39.20231101.3.0-live-kernel-x86_64
set live-rootfs fcos/fedora-coreos-39.20231101.3.0-live-rootfs.x86_64.img
set live-initramfs fcos/fedora-coreos-39.20231101.3.0-live-initramfs.x86_64.img
set install-disk /dev/nvme0n1
set ignition-file ncd0/master.ign
kernel ${base-url}/${kernel-image} initrd=main coreos.live.rootfs_url=${base-url}/${live-rootfs} coreos.inst.install_dev=${install-disk} coreos.inst.ignition_url=${base-url}/${ignition-file} ip=enp1s0:dhcp
initrd --name main ${base-url}/${live-initramfs}
boot
#################################
# slitaz
#################################
:slitaz
set server_ip 192.168.33.1:8080
set base_url http://${server_ip}/slitaz
kernel ${base_url}/vmlinuz-2.6.37-slitaz rw root=/dev/null vga=788 initrd=rootfs.gz
initrd ${base_url}/rootfs.gz
boot

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#!ipxe
menu PXE Boot Menu - [${mac}]
item okdinstallation Install OKD
item slitaz Slitaz - an old linux image for debugging
choose selected
goto ${selected}
:local
exit
#################################
# okdinstallation
#################################
:okdinstallation
set base-url http://192.168.33.1:8080
set kernel-image fcos/fedora-coreos-39.20231101.3.0-live-kernel-x86_64
set live-rootfs fcos/fedora-coreos-39.20231101.3.0-live-rootfs.x86_64.img
set live-initramfs fcos/fedora-coreos-39.20231101.3.0-live-initramfs.x86_64.img
set install-disk /dev/sda
set ignition-file ncd0/worker.ign
kernel ${base-url}/${kernel-image} initrd=main coreos.live.rootfs_url=${base-url}/${live-rootfs} coreos.inst.install_dev=${install-disk} coreos.inst.ignition_url=${base-url}/${ignition-file} ip=enp1s0:dhcp
initrd --name main ${base-url}/${live-initramfs}
boot
#################################
# slitaz
#################################
:slitaz
set server_ip 192.168.33.1:8080
set base_url http://${server_ip}/slitaz
kernel ${base_url}/vmlinuz-2.6.37-slitaz rw root=/dev/null vga=788 initrd=rootfs.gz
initrd ${base_url}/rootfs.gz
boot

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#!ipxe
menu PXE Boot Menu - [${mac}]
item okdinstallation Install OKD
item slitaz Boot to Slitaz - old linux for debugging
choose selected
goto ${selected}
:local
exit
#################################
# okdinstallation
#################################
:okdinstallation
set base-url http://192.168.33.1:8080
set kernel-image fcos/fedora-coreos-39.20231101.3.0-live-kernel-x86_64
set live-rootfs fcos/fedora-coreos-39.20231101.3.0-live-rootfs.x86_64.img
set live-initramfs fcos/fedora-coreos-39.20231101.3.0-live-initramfs.x86_64.img
set install-disk /dev/nvme0n1
set ignition-file ncd0/master.ign
kernel ${base-url}/${kernel-image} initrd=main coreos.live.rootfs_url=${base-url}/${live-rootfs} coreos.inst.install_dev=${install-disk} coreos.inst.ignition_url=${base-url}/${ignition-file} ip=enp1s0:dhcp
initrd --name main ${base-url}/${live-initramfs}
boot
#################################
# slitaz
#################################
:slitaz
set server_ip 192.168.33.1:8080
set base_url http://${server_ip}/slitaz
kernel ${base_url}/vmlinuz-2.6.37-slitaz rw root=/dev/null vga=788 initrd=rootfs.gz
initrd ${base_url}/rootfs.gz
boot

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#!ipxe
menu PXE Boot Menu - [${mac}]
item okdinstallation Install OKD
item slitaz Slitaz - an old linux image for debugging
choose selected
goto ${selected}
:local
exit
#################################
# okdinstallation
#################################
:okdinstallation
set base-url http://192.168.33.1:8080
set kernel-image fcos/fedora-coreos-39.20231101.3.0-live-kernel-x86_64
set live-rootfs fcos/fedora-coreos-39.20231101.3.0-live-rootfs.x86_64.img
set live-initramfs fcos/fedora-coreos-39.20231101.3.0-live-initramfs.x86_64.img
set install-disk /dev/sda
set ignition-file ncd0/worker.ign
kernel ${base-url}/${kernel-image} initrd=main coreos.live.rootfs_url=${base-url}/${live-rootfs} coreos.inst.install_dev=${install-disk} coreos.inst.ignition_url=${base-url}/${ignition-file} ip=enp1s0:dhcp
initrd --name main ${base-url}/${live-initramfs}
boot
#################################
# slitaz
#################################
:slitaz
set server_ip 192.168.33.1:8080
set base_url http://${server_ip}/slitaz
kernel ${base_url}/vmlinuz-2.6.37-slitaz rw root=/dev/null vga=788 initrd=rootfs.gz
initrd ${base_url}/rootfs.gz
boot

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#!ipxe
menu PXE Boot Menu - [${mac}]
item okdinstallation Install OKD
item slitaz Slitaz - an old linux image for debugging
choose selected
goto ${selected}
:local
exit
# This is the bootstrap node
# it will become wk2
#################################
# okdinstallation
#################################
:okdinstallation
set base-url http://192.168.33.1:8080
set kernel-image fcos/fedora-coreos-39.20231101.3.0-live-kernel-x86_64
set live-rootfs fcos/fedora-coreos-39.20231101.3.0-live-rootfs.x86_64.img
set live-initramfs fcos/fedora-coreos-39.20231101.3.0-live-initramfs.x86_64.img
set install-disk /dev/sda
set ignition-file ncd0/worker.ign
kernel ${base-url}/${kernel-image} initrd=main coreos.live.rootfs_url=${base-url}/${live-rootfs} coreos.inst.install_dev=${install-disk} coreos.inst.ignition_url=${base-url}/${ignition-file} ip=enp1s0:dhcp
initrd --name main ${base-url}/${live-initramfs}
boot
#################################
# slitaz
#################################
:slitaz
set server_ip 192.168.33.1:8080
set base_url http://${server_ip}/slitaz
kernel ${base_url}/vmlinuz-2.6.37-slitaz rw root=/dev/null vga=788 initrd=rootfs.gz
initrd ${base_url}/rootfs.gz
boot

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#!/bin/bash
helm install --create-namespace --namespace rook-ceph rook-ceph-cluster \
--set operatorNamespace=rook-ceph rook-release/rook-ceph-cluster -f values.yaml

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# Default values for a single rook-ceph cluster
# This is a YAML-formatted file.
# Declare variables to be passed into your templates.
# -- Namespace of the main rook operator
operatorNamespace: rook-ceph
# -- The metadata.name of the CephCluster CR
# @default -- The same as the namespace
clusterName:
# -- Optional override of the target kubernetes version
kubeVersion:
# -- Cluster ceph.conf override
configOverride:
# configOverride: |
# [global]
# mon_allow_pool_delete = true
# osd_pool_default_size = 3
# osd_pool_default_min_size = 2
# Installs a debugging toolbox deployment
toolbox:
# -- Enable Ceph debugging pod deployment. See [toolbox](../Troubleshooting/ceph-toolbox.md)
enabled: true
# -- Toolbox image, defaults to the image used by the Ceph cluster
image: #quay.io/ceph/ceph:v19.2.2
# -- Toolbox tolerations
tolerations: []
# -- Toolbox affinity
affinity: {}
# -- Toolbox container security context
containerSecurityContext:
runAsNonRoot: true
runAsUser: 2016
runAsGroup: 2016
capabilities:
drop: ["ALL"]
# -- Toolbox resources
resources:
limits:
memory: "1Gi"
requests:
cpu: "100m"
memory: "128Mi"
# -- Set the priority class for the toolbox if desired
priorityClassName:
monitoring:
# -- Enable Prometheus integration, will also create necessary RBAC rules to allow Operator to create ServiceMonitors.
# Monitoring requires Prometheus to be pre-installed
enabled: false
# -- Whether to disable the metrics reported by Ceph. If false, the prometheus mgr module and Ceph exporter are enabled
metricsDisabled: false
# -- Whether to create the Prometheus rules for Ceph alerts
createPrometheusRules: false
# -- The namespace in which to create the prometheus rules, if different from the rook cluster namespace.
# If you have multiple rook-ceph clusters in the same k8s cluster, choose the same namespace (ideally, namespace with prometheus
# deployed) to set rulesNamespaceOverride for all the clusters. Otherwise, you will get duplicate alerts with multiple alert definitions.
rulesNamespaceOverride:
# Monitoring settings for external clusters:
# externalMgrEndpoints: <list of endpoints>
# externalMgrPrometheusPort: <port>
# Scrape interval for prometheus
# interval: 10s
# allow adding custom labels and annotations to the prometheus rule
prometheusRule:
# -- Labels applied to PrometheusRule
labels: {}
# -- Annotations applied to PrometheusRule
annotations: {}
# -- Create & use PSP resources. Set this to the same value as the rook-ceph chart.
pspEnable: false
# imagePullSecrets option allow to pull docker images from private docker registry. Option will be passed to all service accounts.
# imagePullSecrets:
# - name: my-registry-secret
# All values below are taken from the CephCluster CRD
# -- Cluster configuration.
# @default -- See [below](#ceph-cluster-spec)
cephClusterSpec:
# This cluster spec example is for a converged cluster where all the Ceph daemons are running locally,
# as in the host-based example (cluster.yaml). For a different configuration such as a
# PVC-based cluster (cluster-on-pvc.yaml), external cluster (cluster-external.yaml),
# or stretch cluster (cluster-stretched.yaml), replace this entire `cephClusterSpec`
# with the specs from those examples.
# For more details, check https://rook.io/docs/rook/v1.10/CRDs/Cluster/ceph-cluster-crd/
cephVersion:
# The container image used to launch the Ceph daemon pods (mon, mgr, osd, mds, rgw).
# v18 is Reef, v19 is Squid
# RECOMMENDATION: In production, use a specific version tag instead of the general v18 flag, which pulls the latest release and could result in different
# versions running within the cluster. See tags available at https://hub.docker.com/r/ceph/ceph/tags/.
# If you want to be more precise, you can always use a timestamp tag such as quay.io/ceph/ceph:v19.2.2-20250409
# This tag might not contain a new Ceph version, just security fixes from the underlying operating system, which will reduce vulnerabilities
image: quay.io/ceph/ceph:v19.2.2
# Whether to allow unsupported versions of Ceph. Currently Reef and Squid are supported.
# Future versions such as Tentacle (v20) would require this to be set to `true`.
# Do not set to true in production.
allowUnsupported: false
# The path on the host where configuration files will be persisted. Must be specified. If there are multiple clusters, the directory must be unique for each cluster.
# Important: if you reinstall the cluster, make sure you delete this directory from each host or else the mons will fail to start on the new cluster.
# In Minikube, the '/data' directory is configured to persist across reboots. Use "/data/rook" in Minikube environment.
dataDirHostPath: /var/lib/rook
# Whether or not upgrade should continue even if a check fails
# This means Ceph's status could be degraded and we don't recommend upgrading but you might decide otherwise
# Use at your OWN risk
# To understand Rook's upgrade process of Ceph, read https://rook.io/docs/rook/v1.10/Upgrade/ceph-upgrade/
skipUpgradeChecks: false
# Whether or not continue if PGs are not clean during an upgrade
continueUpgradeAfterChecksEvenIfNotHealthy: false
# WaitTimeoutForHealthyOSDInMinutes defines the time (in minutes) the operator would wait before an OSD can be stopped for upgrade or restart.
# If the timeout exceeds and OSD is not ok to stop, then the operator would skip upgrade for the current OSD and proceed with the next one
# if `continueUpgradeAfterChecksEvenIfNotHealthy` is `false`. If `continueUpgradeAfterChecksEvenIfNotHealthy` is `true`, then operator would
# continue with the upgrade of an OSD even if its not ok to stop after the timeout. This timeout won't be applied if `skipUpgradeChecks` is `true`.
# The default wait timeout is 10 minutes.
waitTimeoutForHealthyOSDInMinutes: 10
# Whether or not requires PGs are clean before an OSD upgrade. If set to `true` OSD upgrade process won't start until PGs are healthy.
# This configuration will be ignored if `skipUpgradeChecks` is `true`.
# Default is false.
upgradeOSDRequiresHealthyPGs: false
mon:
# Set the number of mons to be started. Generally recommended to be 3.
# For highest availability, an odd number of mons should be specified.
count: 3
# The mons should be on unique nodes. For production, at least 3 nodes are recommended for this reason.
# Mons should only be allowed on the same node for test environments where data loss is acceptable.
allowMultiplePerNode: false
mgr:
# When higher availability of the mgr is needed, increase the count to 2.
# In that case, one mgr will be active and one in standby. When Ceph updates which
# mgr is active, Rook will update the mgr services to match the active mgr.
count: 2
allowMultiplePerNode: false
modules:
# List of modules to optionally enable or disable.
# Note the "dashboard" and "monitoring" modules are already configured by other settings in the cluster CR.
# - name: rook
# enabled: true
# enable the ceph dashboard for viewing cluster status
dashboard:
enabled: true
# serve the dashboard under a subpath (useful when you are accessing the dashboard via a reverse proxy)
# urlPrefix: /ceph-dashboard
# serve the dashboard at the given port.
# port: 8443
# Serve the dashboard using SSL (if using ingress to expose the dashboard and `ssl: true` you need to set
# the corresponding "backend protocol" annotation(s) for your ingress controller of choice)
ssl: true
# Network configuration, see: https://github.com/rook/rook/blob/master/Documentation/CRDs/Cluster/ceph-cluster-crd.md#network-configuration-settings
network:
connections:
# Whether to encrypt the data in transit across the wire to prevent eavesdropping the data on the network.
# The default is false. When encryption is enabled, all communication between clients and Ceph daemons, or between Ceph daemons will be encrypted.
# When encryption is not enabled, clients still establish a strong initial authentication and data integrity is still validated with a crc check.
# IMPORTANT: Encryption requires the 5.11 kernel for the latest nbd and cephfs drivers. Alternatively for testing only,
# you can set the "mounter: rbd-nbd" in the rbd storage class, or "mounter: fuse" in the cephfs storage class.
# The nbd and fuse drivers are *not* recommended in production since restarting the csi driver pod will disconnect the volumes.
encryption:
enabled: false
# Whether to compress the data in transit across the wire. The default is false.
# The kernel requirements above for encryption also apply to compression.
compression:
enabled: false
# Whether to require communication over msgr2. If true, the msgr v1 port (6789) will be disabled
# and clients will be required to connect to the Ceph cluster with the v2 port (3300).
# Requires a kernel that supports msgr v2 (kernel 5.11 or CentOS 8.4 or newer).
requireMsgr2: false
# # enable host networking
# provider: host
# # EXPERIMENTAL: enable the Multus network provider
# provider: multus
# selectors:
# # The selector keys are required to be `public` and `cluster`.
# # Based on the configuration, the operator will do the following:
# # 1. if only the `public` selector key is specified both public_network and cluster_network Ceph settings will listen on that interface
# # 2. if both `public` and `cluster` selector keys are specified the first one will point to 'public_network' flag and the second one to 'cluster_network'
# #
# # In order to work, each selector value must match a NetworkAttachmentDefinition object in Multus
# #
# # public: public-conf --> NetworkAttachmentDefinition object name in Multus
# # cluster: cluster-conf --> NetworkAttachmentDefinition object name in Multus
# # Provide internet protocol version. IPv6, IPv4 or empty string are valid options. Empty string would mean IPv4
# ipFamily: "IPv6"
# # Ceph daemons to listen on both IPv4 and Ipv6 networks
# dualStack: false
# enable the crash collector for ceph daemon crash collection
crashCollector:
disable: false
# Uncomment daysToRetain to prune ceph crash entries older than the
# specified number of days.
# daysToRetain: 30
# enable log collector, daemons will log on files and rotate
logCollector:
enabled: true
periodicity: daily # one of: hourly, daily, weekly, monthly
maxLogSize: 500M # SUFFIX may be 'M' or 'G'. Must be at least 1M.
# automate [data cleanup process](https://github.com/rook/rook/blob/master/Documentation/Storage-Configuration/ceph-teardown.md#delete-the-data-on-hosts) in cluster destruction.
cleanupPolicy:
# Since cluster cleanup is destructive to data, confirmation is required.
# To destroy all Rook data on hosts during uninstall, confirmation must be set to "yes-really-destroy-data".
# This value should only be set when the cluster is about to be deleted. After the confirmation is set,
# Rook will immediately stop configuring the cluster and only wait for the delete command.
# If the empty string is set, Rook will not destroy any data on hosts during uninstall.
confirmation: ""
# sanitizeDisks represents settings for sanitizing OSD disks on cluster deletion
sanitizeDisks:
# method indicates if the entire disk should be sanitized or simply ceph's metadata
# in both case, re-install is possible
# possible choices are 'complete' or 'quick' (default)
method: quick
# dataSource indicate where to get random bytes from to write on the disk
# possible choices are 'zero' (default) or 'random'
# using random sources will consume entropy from the system and will take much more time then the zero source
dataSource: zero
# iteration overwrite N times instead of the default (1)
# takes an integer value
iteration: 1
# allowUninstallWithVolumes defines how the uninstall should be performed
# If set to true, cephCluster deletion does not wait for the PVs to be deleted.
allowUninstallWithVolumes: false
# To control where various services will be scheduled by kubernetes, use the placement configuration sections below.
# The example under 'all' would have all services scheduled on kubernetes nodes labeled with 'role=storage-node' and
# tolerate taints with a key of 'storage-node'.
# placement:
# all:
# nodeAffinity:
# requiredDuringSchedulingIgnoredDuringExecution:
# nodeSelectorTerms:
# - matchExpressions:
# - key: role
# operator: In
# values:
# - storage-node
# podAffinity:
# podAntiAffinity:
# topologySpreadConstraints:
# tolerations:
# - key: storage-node
# operator: Exists
# # The above placement information can also be specified for mon, osd, and mgr components
# mon:
# # Monitor deployments may contain an anti-affinity rule for avoiding monitor
# # collocation on the same node. This is a required rule when host network is used
# # or when AllowMultiplePerNode is false. Otherwise this anti-affinity rule is a
# # preferred rule with weight: 50.
# osd:
# mgr:
# cleanup:
# annotations:
# all:
# mon:
# osd:
# cleanup:
# prepareosd:
# # If no mgr annotations are set, prometheus scrape annotations will be set by default.
# mgr:
# dashboard:
# labels:
# all:
# mon:
# osd:
# cleanup:
# mgr:
# prepareosd:
# # monitoring is a list of key-value pairs. It is injected into all the monitoring resources created by operator.
# # These labels can be passed as LabelSelector to Prometheus
# monitoring:
# dashboard:
resources:
mgr:
limits:
memory: "1Gi"
requests:
cpu: "500m"
memory: "512Mi"
mon:
limits:
memory: "2Gi"
requests:
cpu: "1000m"
memory: "1Gi"
osd:
limits:
memory: "4Gi"
requests:
cpu: "1000m"
memory: "4Gi"
prepareosd:
# limits: It is not recommended to set limits on the OSD prepare job
# since it's a one-time burst for memory that must be allowed to
# complete without an OOM kill. Note however that if a k8s
# limitRange guardrail is defined external to Rook, the lack of
# a limit here may result in a sync failure, in which case a
# limit should be added. 1200Mi may suffice for up to 15Ti
# OSDs ; for larger devices 2Gi may be required.
# cf. https://github.com/rook/rook/pull/11103
requests:
cpu: "500m"
memory: "50Mi"
mgr-sidecar:
limits:
memory: "100Mi"
requests:
cpu: "100m"
memory: "40Mi"
crashcollector:
limits:
memory: "60Mi"
requests:
cpu: "100m"
memory: "60Mi"
logcollector:
limits:
memory: "1Gi"
requests:
cpu: "100m"
memory: "100Mi"
cleanup:
limits:
memory: "1Gi"
requests:
cpu: "500m"
memory: "100Mi"
exporter:
limits:
memory: "128Mi"
requests:
cpu: "50m"
memory: "50Mi"
# The option to automatically remove OSDs that are out and are safe to destroy.
removeOSDsIfOutAndSafeToRemove: false
# priority classes to apply to ceph resources
priorityClassNames:
mon: system-node-critical
osd: system-node-critical
mgr: system-cluster-critical
storage: # cluster level storage configuration and selection
useAllNodes: true
useAllDevices: true
# deviceFilter:
# config:
# crushRoot: "custom-root" # specify a non-default root label for the CRUSH map
# metadataDevice: "md0" # specify a non-rotational storage so ceph-volume will use it as block db device of bluestore.
# databaseSizeMB: "1024" # uncomment if the disks are smaller than 100 GB
# osdsPerDevice: "1" # this value can be overridden at the node or device level
# encryptedDevice: "true" # the default value for this option is "false"
# # Individual nodes and their config can be specified as well, but 'useAllNodes' above must be set to false. Then, only the named
# # nodes below will be used as storage resources. Each node's 'name' field should match their 'kubernetes.io/hostname' label.
# nodes:
# - name: "172.17.4.201"
# devices: # specific devices to use for storage can be specified for each node
# - name: "sdb"
# - name: "nvme01" # multiple osds can be created on high performance devices
# config:
# osdsPerDevice: "5"
# - name: "/dev/disk/by-id/ata-ST4000DM004-XXXX" # devices can be specified using full udev paths
# config: # configuration can be specified at the node level which overrides the cluster level config
# - name: "172.17.4.301"
# deviceFilter: "^sd."
# The section for configuring management of daemon disruptions during upgrade or fencing.
disruptionManagement:
# If true, the operator will create and manage PodDisruptionBudgets for OSD, Mon, RGW, and MDS daemons. OSD PDBs are managed dynamically
# via the strategy outlined in the [design](https://github.com/rook/rook/blob/master/design/ceph/ceph-managed-disruptionbudgets.md). The operator will
# block eviction of OSDs by default and unblock them safely when drains are detected.
managePodBudgets: true
# A duration in minutes that determines how long an entire failureDomain like `region/zone/host` will be held in `noout` (in addition to the
# default DOWN/OUT interval) when it is draining. This is only relevant when `managePodBudgets` is `true`. The default value is `30` minutes.
osdMaintenanceTimeout: 30
# Configure the healthcheck and liveness probes for ceph pods.
# Valid values for daemons are 'mon', 'osd', 'status'
healthCheck:
daemonHealth:
mon:
disabled: false
interval: 45s
osd:
disabled: false
interval: 60s
status:
disabled: false
interval: 60s
# Change pod liveness probe, it works for all mon, mgr, and osd pods.
livenessProbe:
mon:
disabled: false
mgr:
disabled: false
osd:
disabled: false
ingress:
# -- Enable an ingress for the ceph-dashboard
dashboard:
# {}
# labels:
# external-dns/private: "true"
annotations:
"route.openshift.io/termination": "passthrough"
# external-dns.alpha.kubernetes.io/hostname: dashboard.example.com
# nginx.ingress.kubernetes.io/rewrite-target: /ceph-dashboard/$2
# If the dashboard has ssl: true the following will make sure the NGINX Ingress controller can expose the dashboard correctly
# nginx.ingress.kubernetes.io/backend-protocol: "HTTPS"
# nginx.ingress.kubernetes.io/server-snippet: |
# proxy_ssl_verify off;
host:
name: ceph.apps.ncd0.harmony.mcd
path: null # TODO the chart does not allow removing the path, and it causes openshift to fail creating a route, because path is not supported with termination mode passthrough
pathType: ImplementationSpecific
tls:
- {}
# secretName: testsecret-tls
# Note: Only one of ingress class annotation or the `ingressClassName:` can be used at a time
# to set the ingress class
# ingressClassName: openshift-default
# labels:
# external-dns/private: "true"
# annotations:
# external-dns.alpha.kubernetes.io/hostname: dashboard.example.com
# nginx.ingress.kubernetes.io/rewrite-target: /ceph-dashboard/$2
# If the dashboard has ssl: true the following will make sure the NGINX Ingress controller can expose the dashboard correctly
# nginx.ingress.kubernetes.io/backend-protocol: "HTTPS"
# nginx.ingress.kubernetes.io/server-snippet: |
# proxy_ssl_verify off;
# host:
# name: dashboard.example.com
# path: "/ceph-dashboard(/|$)(.*)"
# pathType: Prefix
# tls:
# - hosts:
# - dashboard.example.com
# secretName: testsecret-tls
## Note: Only one of ingress class annotation or the `ingressClassName:` can be used at a time
## to set the ingress class
# ingressClassName: nginx
# -- A list of CephBlockPool configurations to deploy
# @default -- See [below](#ceph-block-pools)
cephBlockPools:
- name: ceph-blockpool
# see https://github.com/rook/rook/blob/master/Documentation/CRDs/Block-Storage/ceph-block-pool-crd.md#spec for available configuration
spec:
failureDomain: host
replicated:
size: 3
# Enables collecting RBD per-image IO statistics by enabling dynamic OSD performance counters. Defaults to false.
# For reference: https://docs.ceph.com/docs/latest/mgr/prometheus/#rbd-io-statistics
# enableRBDStats: true
storageClass:
enabled: true
name: ceph-block
annotations: {}
labels: {}
isDefault: true
reclaimPolicy: Delete
allowVolumeExpansion: true
volumeBindingMode: "Immediate"
mountOptions: []
# see https://kubernetes.io/docs/concepts/storage/storage-classes/#allowed-topologies
allowedTopologies: []
# - matchLabelExpressions:
# - key: rook-ceph-role
# values:
# - storage-node
# see https://github.com/rook/rook/blob/master/Documentation/Storage-Configuration/Block-Storage-RBD/block-storage.md#provision-storage for available configuration
parameters:
# (optional) mapOptions is a comma-separated list of map options.
# For krbd options refer
# https://docs.ceph.com/docs/latest/man/8/rbd/#kernel-rbd-krbd-options
# For nbd options refer
# https://docs.ceph.com/docs/latest/man/8/rbd-nbd/#options
# mapOptions: lock_on_read,queue_depth=1024
# (optional) unmapOptions is a comma-separated list of unmap options.
# For krbd options refer
# https://docs.ceph.com/docs/latest/man/8/rbd/#kernel-rbd-krbd-options
# For nbd options refer
# https://docs.ceph.com/docs/latest/man/8/rbd-nbd/#options
# unmapOptions: force
# RBD image format. Defaults to "2".
imageFormat: "2"
# RBD image features, equivalent to OR'd bitfield value: 63
# Available for imageFormat: "2". Older releases of CSI RBD
# support only the `layering` feature. The Linux kernel (KRBD) supports the
# full feature complement as of 5.4
imageFeatures: layering
# These secrets contain Ceph admin credentials.
csi.storage.k8s.io/provisioner-secret-name: rook-csi-rbd-provisioner
csi.storage.k8s.io/provisioner-secret-namespace: "{{ .Release.Namespace }}"
csi.storage.k8s.io/controller-expand-secret-name: rook-csi-rbd-provisioner
csi.storage.k8s.io/controller-expand-secret-namespace: "{{ .Release.Namespace }}"
csi.storage.k8s.io/node-stage-secret-name: rook-csi-rbd-node
csi.storage.k8s.io/node-stage-secret-namespace: "{{ .Release.Namespace }}"
# Specify the filesystem type of the volume. If not specified, csi-provisioner
# will set default as `ext4`. Note that `xfs` is not recommended due to potential deadlock
# in hyperconverged settings where the volume is mounted on the same node as the osds.
csi.storage.k8s.io/fstype: ext4
# -- A list of CephFileSystem configurations to deploy
# @default -- See [below](#ceph-file-systems)
cephFileSystems:
- name: ceph-filesystem
# see https://github.com/rook/rook/blob/master/Documentation/CRDs/Shared-Filesystem/ceph-filesystem-crd.md#filesystem-settings for available configuration
spec:
metadataPool:
replicated:
size: 3
dataPools:
- failureDomain: host
replicated:
size: 3
# Optional and highly recommended, 'data0' by default, see https://github.com/rook/rook/blob/master/Documentation/CRDs/Shared-Filesystem/ceph-filesystem-crd.md#pools
name: data0
metadataServer:
activeCount: 1
activeStandby: true
resources:
limits:
memory: "4Gi"
requests:
cpu: "1000m"
memory: "4Gi"
priorityClassName: system-cluster-critical
storageClass:
enabled: true
isDefault: false
name: ceph-filesystem
# (Optional) specify a data pool to use, must be the name of one of the data pools above, 'data0' by default
pool: data0
reclaimPolicy: Delete
allowVolumeExpansion: true
volumeBindingMode: "Immediate"
annotations: {}
labels: {}
mountOptions: []
# see https://github.com/rook/rook/blob/master/Documentation/Storage-Configuration/Shared-Filesystem-CephFS/filesystem-storage.md#provision-storage for available configuration
parameters:
# The secrets contain Ceph admin credentials.
csi.storage.k8s.io/provisioner-secret-name: rook-csi-cephfs-provisioner
csi.storage.k8s.io/provisioner-secret-namespace: "{{ .Release.Namespace }}"
csi.storage.k8s.io/controller-expand-secret-name: rook-csi-cephfs-provisioner
csi.storage.k8s.io/controller-expand-secret-namespace: "{{ .Release.Namespace }}"
csi.storage.k8s.io/node-stage-secret-name: rook-csi-cephfs-node
csi.storage.k8s.io/node-stage-secret-namespace: "{{ .Release.Namespace }}"
# Specify the filesystem type of the volume. If not specified, csi-provisioner
# will set default as `ext4`. Note that `xfs` is not recommended due to potential deadlock
# in hyperconverged settings where the volume is mounted on the same node as the osds.
csi.storage.k8s.io/fstype: ext4
# -- Settings for the filesystem snapshot class
# @default -- See [CephFS Snapshots](../Storage-Configuration/Ceph-CSI/ceph-csi-snapshot.md#cephfs-snapshots)
cephFileSystemVolumeSnapshotClass:
enabled: false
name: ceph-filesystem
isDefault: true
deletionPolicy: Delete
annotations: {}
labels: {}
# see https://rook.io/docs/rook/v1.10/Storage-Configuration/Ceph-CSI/ceph-csi-snapshot/#cephfs-snapshots for available configuration
parameters: {}
# -- Settings for the block pool snapshot class
# @default -- See [RBD Snapshots](../Storage-Configuration/Ceph-CSI/ceph-csi-snapshot.md#rbd-snapshots)
cephBlockPoolsVolumeSnapshotClass:
enabled: false
name: ceph-block
isDefault: false
deletionPolicy: Delete
annotations: {}
labels: {}
# see https://rook.io/docs/rook/v1.10/Storage-Configuration/Ceph-CSI/ceph-csi-snapshot/#rbd-snapshots for available configuration
parameters: {}
# -- A list of CephObjectStore configurations to deploy
# @default -- See [below](#ceph-object-stores)
cephObjectStores:
- name: ceph-objectstore
# see https://github.com/rook/rook/blob/master/Documentation/CRDs/Object-Storage/ceph-object-store-crd.md#object-store-settings for available configuration
spec:
metadataPool:
failureDomain: host
replicated:
size: 3
dataPool:
failureDomain: host
erasureCoded:
dataChunks: 2
codingChunks: 1
parameters:
bulk: "true"
preservePoolsOnDelete: true
gateway:
port: 80
resources:
limits:
memory: "2Gi"
requests:
cpu: "1000m"
memory: "1Gi"
# securePort: 443
# sslCertificateRef:
instances: 1
priorityClassName: system-cluster-critical
# opsLogSidecar:
# resources:
# limits:
# memory: "100Mi"
# requests:
# cpu: "100m"
# memory: "40Mi"
storageClass:
enabled: true
name: ceph-bucket
reclaimPolicy: Delete
volumeBindingMode: "Immediate"
annotations: {}
labels: {}
# see https://github.com/rook/rook/blob/master/Documentation/Storage-Configuration/Object-Storage-RGW/ceph-object-bucket-claim.md#storageclass for available configuration
parameters:
# note: objectStoreNamespace and objectStoreName are configured by the chart
region: us-east-1
ingress:
# Enable an ingress for the ceph-objectstore
enabled: true
# The ingress port by default will be the object store's "securePort" (if set), or the gateway "port".
# To override those defaults, set this ingress port to the desired port.
# port: 80
# annotations: {}
host:
name: objectstore.apps.ncd0.harmony.mcd
path: /
pathType: Prefix
# tls:
# - hosts:
# - objectstore.example.com
# secretName: ceph-objectstore-tls
# ingressClassName: nginx
## cephECBlockPools are disabled by default, please remove the comments and set desired values to enable it
## For erasure coded a replicated metadata pool is required.
## https://rook.io/docs/rook/latest/CRDs/Shared-Filesystem/ceph-filesystem-crd/#erasure-coded
#cephECBlockPools:
# - name: ec-pool
# spec:
# metadataPool:
# replicated:
# size: 2
# dataPool:
# failureDomain: osd
# erasureCoded:
# dataChunks: 2
# codingChunks: 1
# deviceClass: hdd
#
# parameters:
# # clusterID is the namespace where the rook cluster is running
# # If you change this namespace, also change the namespace below where the secret namespaces are defined
# clusterID: rook-ceph # namespace:cluster
# # (optional) mapOptions is a comma-separated list of map options.
# # For krbd options refer
# # https://docs.ceph.com/docs/latest/man/8/rbd/#kernel-rbd-krbd-options
# # For nbd options refer
# # https://docs.ceph.com/docs/latest/man/8/rbd-nbd/#options
# # mapOptions: lock_on_read,queue_depth=1024
#
# # (optional) unmapOptions is a comma-separated list of unmap options.
# # For krbd options refer
# # https://docs.ceph.com/docs/latest/man/8/rbd/#kernel-rbd-krbd-options
# # For nbd options refer
# # https://docs.ceph.com/docs/latest/man/8/rbd-nbd/#options
# # unmapOptions: force
#
# # RBD image format. Defaults to "2".
# imageFormat: "2"
#
# # RBD image features, equivalent to OR'd bitfield value: 63
# # Available for imageFormat: "2". Older releases of CSI RBD
# # support only the `layering` feature. The Linux kernel (KRBD) supports the
# # full feature complement as of 5.4
# # imageFeatures: layering,fast-diff,object-map,deep-flatten,exclusive-lock
# imageFeatures: layering
#
# storageClass:
# provisioner: rook-ceph.rbd.csi.ceph.com # csi-provisioner-name
# enabled: true
# name: rook-ceph-block
# isDefault: false
# annotations: { }
# labels: { }
# allowVolumeExpansion: true
# reclaimPolicy: Delete
# -- CSI driver name prefix for cephfs, rbd and nfs.
# @default -- `namespace name where rook-ceph operator is deployed`
csiDriverNamePrefix:

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#!/bin/bash
helm repo add rook-release https://charts.rook.io/release
helm install --create-namespace --namespace rook-ceph rook-ceph rook-release/rook-ceph -f values.yaml

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# Default values for rook-ceph-operator
# This is a YAML-formatted file.
# Declare variables to be passed into your templates.
image:
# -- Image
repository: docker.io/rook/ceph
# -- Image tag
# @default -- `master`
tag: v1.17.1
# -- Image pull policy
pullPolicy: IfNotPresent
crds:
# -- Whether the helm chart should create and update the CRDs. If false, the CRDs must be
# managed independently with deploy/examples/crds.yaml.
# **WARNING** Only set during first deployment. If later disabled the cluster may be DESTROYED.
# If the CRDs are deleted in this case, see
# [the disaster recovery guide](https://rook.io/docs/rook/latest/Troubleshooting/disaster-recovery/#restoring-crds-after-deletion)
# to restore them.
enabled: true
# -- Pod resource requests & limits
resources:
limits:
memory: 512Mi
requests:
cpu: 200m
memory: 128Mi
# -- Kubernetes [`nodeSelector`](https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#nodeselector) to add to the Deployment.
nodeSelector: {}
# Constraint rook-ceph-operator Deployment to nodes with label `disktype: ssd`.
# For more info, see https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#nodeselector
# disktype: ssd
# -- List of Kubernetes [`tolerations`](https://kubernetes.io/docs/concepts/scheduling-eviction/taint-and-toleration/) to add to the Deployment.
tolerations: []
# -- Delay to use for the `node.kubernetes.io/unreachable` pod failure toleration to override
# the Kubernetes default of 5 minutes
unreachableNodeTolerationSeconds: 5
# -- Whether the operator should watch cluster CRD in its own namespace or not
currentNamespaceOnly: false
# -- Custom pod labels for the operator
operatorPodLabels: {}
# -- Pod annotations
annotations: {}
# -- Global log level for the operator.
# Options: `ERROR`, `WARNING`, `INFO`, `DEBUG`
logLevel: INFO
# -- If true, create & use RBAC resources
rbacEnable: true
rbacAggregate:
# -- If true, create a ClusterRole aggregated to [user facing roles](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#user-facing-roles) for objectbucketclaims
enableOBCs: false
# -- If true, create & use PSP resources
pspEnable: false
# -- Set the priority class for the rook operator deployment if desired
priorityClassName:
# -- Set the container security context for the operator
containerSecurityContext:
runAsNonRoot: true
runAsUser: 2016
runAsGroup: 2016
capabilities:
drop: ["ALL"]
# -- If true, loop devices are allowed to be used for osds in test clusters
allowLoopDevices: false
# Settings for whether to disable the drivers or other daemons if they are not
# needed
csi:
# -- Enable Ceph CSI RBD driver
enableRbdDriver: true
# -- Enable Ceph CSI CephFS driver
enableCephfsDriver: true
# -- Disable the CSI driver.
disableCsiDriver: "false"
# -- Enable host networking for CSI CephFS and RBD nodeplugins. This may be necessary
# in some network configurations where the SDN does not provide access to an external cluster or
# there is significant drop in read/write performance
enableCSIHostNetwork: true
# -- Enable Snapshotter in CephFS provisioner pod
enableCephfsSnapshotter: true
# -- Enable Snapshotter in NFS provisioner pod
enableNFSSnapshotter: true
# -- Enable Snapshotter in RBD provisioner pod
enableRBDSnapshotter: true
# -- Enable Host mount for `/etc/selinux` directory for Ceph CSI nodeplugins
enablePluginSelinuxHostMount: false
# -- Enable Ceph CSI PVC encryption support
enableCSIEncryption: false
# -- Enable volume group snapshot feature. This feature is
# enabled by default as long as the necessary CRDs are available in the cluster.
enableVolumeGroupSnapshot: true
# -- PriorityClassName to be set on csi driver plugin pods
pluginPriorityClassName: system-node-critical
# -- PriorityClassName to be set on csi driver provisioner pods
provisionerPriorityClassName: system-cluster-critical
# -- Policy for modifying a volume's ownership or permissions when the RBD PVC is being mounted.
# supported values are documented at https://kubernetes-csi.github.io/docs/support-fsgroup.html
rbdFSGroupPolicy: "File"
# -- Policy for modifying a volume's ownership or permissions when the CephFS PVC is being mounted.
# supported values are documented at https://kubernetes-csi.github.io/docs/support-fsgroup.html
cephFSFSGroupPolicy: "File"
# -- Policy for modifying a volume's ownership or permissions when the NFS PVC is being mounted.
# supported values are documented at https://kubernetes-csi.github.io/docs/support-fsgroup.html
nfsFSGroupPolicy: "File"
# -- OMAP generator generates the omap mapping between the PV name and the RBD image
# which helps CSI to identify the rbd images for CSI operations.
# `CSI_ENABLE_OMAP_GENERATOR` needs to be enabled when we are using rbd mirroring feature.
# By default OMAP generator is disabled and when enabled, it will be deployed as a
# sidecar with CSI provisioner pod, to enable set it to true.
enableOMAPGenerator: false
# -- Set CephFS Kernel mount options to use https://docs.ceph.com/en/latest/man/8/mount.ceph/#options.
# Set to "ms_mode=secure" when connections.encrypted is enabled in CephCluster CR
cephFSKernelMountOptions:
# -- Enable adding volume metadata on the CephFS subvolumes and RBD images.
# Not all users might be interested in getting volume/snapshot details as metadata on CephFS subvolume and RBD images.
# Hence enable metadata is false by default
enableMetadata: false
# -- Set replicas for csi provisioner deployment
provisionerReplicas: 2
# -- Cluster name identifier to set as metadata on the CephFS subvolume and RBD images. This will be useful
# in cases like for example, when two container orchestrator clusters (Kubernetes/OCP) are using a single ceph cluster
clusterName:
# -- Set logging level for cephCSI containers maintained by the cephCSI.
# Supported values from 0 to 5. 0 for general useful logs, 5 for trace level verbosity.
logLevel: 0
# -- Set logging level for Kubernetes-csi sidecar containers.
# Supported values from 0 to 5. 0 for general useful logs (the default), 5 for trace level verbosity.
# @default -- `0`
sidecarLogLevel:
# -- CSI driver name prefix for cephfs, rbd and nfs.
# @default -- `namespace name where rook-ceph operator is deployed`
csiDriverNamePrefix:
# -- CSI RBD plugin daemonset update strategy, supported values are OnDelete and RollingUpdate
# @default -- `RollingUpdate`
rbdPluginUpdateStrategy:
# -- A maxUnavailable parameter of CSI RBD plugin daemonset update strategy.
# @default -- `1`
rbdPluginUpdateStrategyMaxUnavailable:
# -- CSI CephFS plugin daemonset update strategy, supported values are OnDelete and RollingUpdate
# @default -- `RollingUpdate`
cephFSPluginUpdateStrategy:
# -- A maxUnavailable parameter of CSI cephFS plugin daemonset update strategy.
# @default -- `1`
cephFSPluginUpdateStrategyMaxUnavailable:
# -- CSI NFS plugin daemonset update strategy, supported values are OnDelete and RollingUpdate
# @default -- `RollingUpdate`
nfsPluginUpdateStrategy:
# -- Set GRPC timeout for csi containers (in seconds). It should be >= 120. If this value is not set or is invalid, it defaults to 150
grpcTimeoutInSeconds: 150
# -- Burst to use while communicating with the kubernetes apiserver.
kubeApiBurst:
# -- QPS to use while communicating with the kubernetes apiserver.
kubeApiQPS:
# -- The volume of the CephCSI RBD plugin DaemonSet
csiRBDPluginVolume:
# - name: lib-modules
# hostPath:
# path: /run/booted-system/kernel-modules/lib/modules/
# - name: host-nix
# hostPath:
# path: /nix
# -- The volume mounts of the CephCSI RBD plugin DaemonSet
csiRBDPluginVolumeMount:
# - name: host-nix
# mountPath: /nix
# readOnly: true
# -- The volume of the CephCSI CephFS plugin DaemonSet
csiCephFSPluginVolume:
# - name: lib-modules
# hostPath:
# path: /run/booted-system/kernel-modules/lib/modules/
# - name: host-nix
# hostPath:
# path: /nix
# -- The volume mounts of the CephCSI CephFS plugin DaemonSet
csiCephFSPluginVolumeMount:
# - name: host-nix
# mountPath: /nix
# readOnly: true
# -- CEPH CSI RBD provisioner resource requirement list
# csi-omap-generator resources will be applied only if `enableOMAPGenerator` is set to `true`
# @default -- see values.yaml
csiRBDProvisionerResource: |
- name : csi-provisioner
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-resizer
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-attacher
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-snapshotter
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-rbdplugin
resource:
requests:
memory: 512Mi
limits:
memory: 1Gi
- name : csi-omap-generator
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
- name : liveness-prometheus
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
# -- CEPH CSI RBD plugin resource requirement list
# @default -- see values.yaml
csiRBDPluginResource: |
- name : driver-registrar
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
- name : csi-rbdplugin
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
- name : liveness-prometheus
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
# -- CEPH CSI CephFS provisioner resource requirement list
# @default -- see values.yaml
csiCephFSProvisionerResource: |
- name : csi-provisioner
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-resizer
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-attacher
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-snapshotter
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-cephfsplugin
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
- name : liveness-prometheus
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
# -- CEPH CSI CephFS plugin resource requirement list
# @default -- see values.yaml
csiCephFSPluginResource: |
- name : driver-registrar
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
- name : csi-cephfsplugin
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
- name : liveness-prometheus
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
# -- CEPH CSI NFS provisioner resource requirement list
# @default -- see values.yaml
csiNFSProvisionerResource: |
- name : csi-provisioner
resource:
requests:
memory: 128Mi
cpu: 100m
limits:
memory: 256Mi
- name : csi-nfsplugin
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
- name : csi-attacher
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
# -- CEPH CSI NFS plugin resource requirement list
# @default -- see values.yaml
csiNFSPluginResource: |
- name : driver-registrar
resource:
requests:
memory: 128Mi
cpu: 50m
limits:
memory: 256Mi
- name : csi-nfsplugin
resource:
requests:
memory: 512Mi
cpu: 250m
limits:
memory: 1Gi
# Set provisionerTolerations and provisionerNodeAffinity for provisioner pod.
# The CSI provisioner would be best to start on the same nodes as other ceph daemons.
# -- Array of tolerations in YAML format which will be added to CSI provisioner deployment
provisionerTolerations:
# - key: key
# operator: Exists
# effect: NoSchedule
# -- The node labels for affinity of the CSI provisioner deployment [^1]
provisionerNodeAffinity: #key1=value1,value2; key2=value3
# Set pluginTolerations and pluginNodeAffinity for plugin daemonset pods.
# The CSI plugins need to be started on all the nodes where the clients need to mount the storage.
# -- Array of tolerations in YAML format which will be added to CephCSI plugin DaemonSet
pluginTolerations:
# - key: key
# operator: Exists
# effect: NoSchedule
# -- The node labels for affinity of the CephCSI RBD plugin DaemonSet [^1]
pluginNodeAffinity: # key1=value1,value2; key2=value3
# -- Enable Ceph CSI Liveness sidecar deployment
enableLiveness: false
# -- CSI CephFS driver metrics port
# @default -- `9081`
cephfsLivenessMetricsPort:
# -- CSI Addons server port
# @default -- `9070`
csiAddonsPort:
# -- CSI Addons server port for the RBD provisioner
# @default -- `9070`
csiAddonsRBDProvisionerPort:
# -- CSI Addons server port for the Ceph FS provisioner
# @default -- `9070`
csiAddonsCephFSProvisionerPort:
# -- Enable Ceph Kernel clients on kernel < 4.17. If your kernel does not support quotas for CephFS
# you may want to disable this setting. However, this will cause an issue during upgrades
# with the FUSE client. See the [upgrade guide](https://rook.io/docs/rook/v1.2/ceph-upgrade.html)
forceCephFSKernelClient: true
# -- Ceph CSI RBD driver metrics port
# @default -- `8080`
rbdLivenessMetricsPort:
serviceMonitor:
# -- Enable ServiceMonitor for Ceph CSI drivers
enabled: false
# -- Service monitor scrape interval
interval: 10s
# -- ServiceMonitor additional labels
labels: {}
# -- Use a different namespace for the ServiceMonitor
namespace:
# -- Kubelet root directory path (if the Kubelet uses a different path for the `--root-dir` flag)
# @default -- `/var/lib/kubelet`
kubeletDirPath:
# -- Duration in seconds that non-leader candidates will wait to force acquire leadership.
# @default -- `137s`
csiLeaderElectionLeaseDuration:
# -- Deadline in seconds that the acting leader will retry refreshing leadership before giving up.
# @default -- `107s`
csiLeaderElectionRenewDeadline:
# -- Retry period in seconds the LeaderElector clients should wait between tries of actions.
# @default -- `26s`
csiLeaderElectionRetryPeriod:
cephcsi:
# -- Ceph CSI image repository
repository: quay.io/cephcsi/cephcsi
# -- Ceph CSI image tag
tag: v3.14.0
registrar:
# -- Kubernetes CSI registrar image repository
repository: registry.k8s.io/sig-storage/csi-node-driver-registrar
# -- Registrar image tag
tag: v2.13.0
provisioner:
# -- Kubernetes CSI provisioner image repository
repository: registry.k8s.io/sig-storage/csi-provisioner
# -- Provisioner image tag
tag: v5.1.0
snapshotter:
# -- Kubernetes CSI snapshotter image repository
repository: registry.k8s.io/sig-storage/csi-snapshotter
# -- Snapshotter image tag
tag: v8.2.0
attacher:
# -- Kubernetes CSI Attacher image repository
repository: registry.k8s.io/sig-storage/csi-attacher
# -- Attacher image tag
tag: v4.8.0
resizer:
# -- Kubernetes CSI resizer image repository
repository: registry.k8s.io/sig-storage/csi-resizer
# -- Resizer image tag
tag: v1.13.1
# -- Image pull policy
imagePullPolicy: IfNotPresent
# -- Labels to add to the CSI CephFS Deployments and DaemonSets Pods
cephfsPodLabels: #"key1=value1,key2=value2"
# -- Labels to add to the CSI NFS Deployments and DaemonSets Pods
nfsPodLabels: #"key1=value1,key2=value2"
# -- Labels to add to the CSI RBD Deployments and DaemonSets Pods
rbdPodLabels: #"key1=value1,key2=value2"
csiAddons:
# -- Enable CSIAddons
enabled: false
# -- CSIAddons sidecar image repository
repository: quay.io/csiaddons/k8s-sidecar
# -- CSIAddons sidecar image tag
tag: v0.12.0
nfs:
# -- Enable the nfs csi driver
enabled: false
topology:
# -- Enable topology based provisioning
enabled: false
# NOTE: the value here serves as an example and needs to be
# updated with node labels that define domains of interest
# -- domainLabels define which node labels to use as domains
# for CSI nodeplugins to advertise their domains
domainLabels:
# - kubernetes.io/hostname
# - topology.kubernetes.io/zone
# - topology.rook.io/rack
# -- Whether to skip any attach operation altogether for CephFS PVCs. See more details
# [here](https://kubernetes-csi.github.io/docs/skip-attach.html#skip-attach-with-csi-driver-object).
# If cephFSAttachRequired is set to false it skips the volume attachments and makes the creation
# of pods using the CephFS PVC fast. **WARNING** It's highly discouraged to use this for
# CephFS RWO volumes. Refer to this [issue](https://github.com/kubernetes/kubernetes/issues/103305) for more details.
cephFSAttachRequired: true
# -- Whether to skip any attach operation altogether for RBD PVCs. See more details
# [here](https://kubernetes-csi.github.io/docs/skip-attach.html#skip-attach-with-csi-driver-object).
# If set to false it skips the volume attachments and makes the creation of pods using the RBD PVC fast.
# **WARNING** It's highly discouraged to use this for RWO volumes as it can cause data corruption.
# csi-addons operations like Reclaimspace and PVC Keyrotation will also not be supported if set
# to false since we'll have no VolumeAttachments to determine which node the PVC is mounted on.
# Refer to this [issue](https://github.com/kubernetes/kubernetes/issues/103305) for more details.
rbdAttachRequired: true
# -- Whether to skip any attach operation altogether for NFS PVCs. See more details
# [here](https://kubernetes-csi.github.io/docs/skip-attach.html#skip-attach-with-csi-driver-object).
# If cephFSAttachRequired is set to false it skips the volume attachments and makes the creation
# of pods using the NFS PVC fast. **WARNING** It's highly discouraged to use this for
# NFS RWO volumes. Refer to this [issue](https://github.com/kubernetes/kubernetes/issues/103305) for more details.
nfsAttachRequired: true
# -- Enable discovery daemon
enableDiscoveryDaemon: false
# -- Set the discovery daemon device discovery interval (default to 60m)
discoveryDaemonInterval: 60m
# -- The timeout for ceph commands in seconds
cephCommandsTimeoutSeconds: "15"
# -- If true, run rook operator on the host network
useOperatorHostNetwork:
# -- If true, scale down the rook operator.
# This is useful for administrative actions where the rook operator must be scaled down, while using gitops style tooling
# to deploy your helm charts.
scaleDownOperator: false
## Rook Discover configuration
## toleration: NoSchedule, PreferNoSchedule or NoExecute
## tolerationKey: Set this to the specific key of the taint to tolerate
## tolerations: Array of tolerations in YAML format which will be added to agent deployment
## nodeAffinity: Set to labels of the node to match
discover:
# -- Toleration for the discover pods.
# Options: `NoSchedule`, `PreferNoSchedule` or `NoExecute`
toleration:
# -- The specific key of the taint to tolerate
tolerationKey:
# -- Array of tolerations in YAML format which will be added to discover deployment
tolerations:
# - key: key
# operator: Exists
# effect: NoSchedule
# -- The node labels for affinity of `discover-agent` [^1]
nodeAffinity:
# key1=value1,value2; key2=value3
#
# or
#
# requiredDuringSchedulingIgnoredDuringExecution:
# nodeSelectorTerms:
# - matchExpressions:
# - key: storage-node
# operator: Exists
# -- Labels to add to the discover pods
podLabels: # "key1=value1,key2=value2"
# -- Add resources to discover daemon pods
resources:
# - limits:
# memory: 512Mi
# - requests:
# cpu: 100m
# memory: 128Mi
# -- Custom label to identify node hostname. If not set `kubernetes.io/hostname` will be used
customHostnameLabel:
# -- Runs Ceph Pods as privileged to be able to write to `hostPaths` in OpenShift with SELinux restrictions.
hostpathRequiresPrivileged: false
# -- Whether to create all Rook pods to run on the host network, for example in environments where a CNI is not enabled
enforceHostNetwork: false
# -- Disable automatic orchestration when new devices are discovered.
disableDeviceHotplug: false
# -- The revision history limit for all pods created by Rook. If blank, the K8s default is 10.
revisionHistoryLimit:
# -- Blacklist certain disks according to the regex provided.
discoverDaemonUdev:
# -- imagePullSecrets option allow to pull docker images from private docker registry. Option will be passed to all service accounts.
imagePullSecrets:
# - name: my-registry-secret
# -- Whether the OBC provisioner should watch on the operator namespace or not, if not the namespace of the cluster will be used
enableOBCWatchOperatorNamespace: true
# -- Specify the prefix for the OBC provisioner in place of the cluster namespace
# @default -- `ceph cluster namespace`
obcProvisionerNamePrefix:
# -- Many OBC additional config fields may be risky for administrators to allow users control over.
# The safe and default-allowed fields are 'maxObjects' and 'maxSize'.
# Other fields should be considered risky. To allow all additional configs, use this value:
# "maxObjects,maxSize,bucketMaxObjects,bucketMaxSize,bucketPolicy,bucketLifecycle,bucketOwner"
# @default -- "maxObjects,maxSize"
obcAllowAdditionalConfigFields: "maxObjects,maxSize"
monitoring:
# -- Enable monitoring. Requires Prometheus to be pre-installed.
# Enabling will also create RBAC rules to allow Operator to create ServiceMonitors
enabled: false

56
examples/nanodc/src/main.rs
View File

@ -10,15 +10,22 @@ use harmony::{
inventory::Inventory,
maestro::Maestro,
modules::{
http::HttpScore, okd::{dhcp::OKDDhcpScore, dns::OKDDnsScore}, opnsense::OPNSenseLaunchUpgrade, tftp::TftpScore, ipxe::IpxeScore
http::HttpScore,
ipxe::IpxeScore,
okd::{
bootstrap_dhcp::OKDBootstrapDhcpScore,
bootstrap_load_balancer::OKDBootstrapLoadBalancerScore, dhcp::OKDDhcpScore,
dns::OKDDnsScore,
},
tftp::TftpScore,
},
score::Score,
topology::{LogicalHost, UnmanagedRouter, Url},
};
use harmony_macros::{ip, mac_address};
#[tokio::main]
async fn main() {
let firewall = harmony::topology::LogicalHost {
ip: ip!("192.168.33.1"),
name: String::from("fw0"),
@ -31,7 +38,8 @@ async fn main() {
let gateway_ipv4 = Ipv4Addr::new(192, 168, 33, 1);
let gateway_ip = IpAddr::V4(gateway_ipv4);
let topology = harmony::topology::HAClusterTopology {
domain_name: "ncd0.harmony.mcd".to_string(),
domain_name: "ncd0.harmony.mcd".to_string(), // TODO this must be set manually correctly
// when setting up the opnsense firewall
router: Arc::new(UnmanagedRouter::new(
gateway_ip,
Ipv4Cidr::new(lan_subnet, 24).unwrap(),
@ -60,20 +68,44 @@ async fn main() {
ip: ip!("192.168.33.66"),
name: "bootstrap".to_string(),
},
workers: vec![],
workers: vec![
LogicalHost {
ip: ip!("192.168.33.30"),
name: "wk0".to_string(),
},
LogicalHost {
ip: ip!("192.168.33.31"),
name: "wk1".to_string(),
},
LogicalHost {
ip: ip!("192.168.33.32"),
name: "wk2".to_string(),
},
],
switch: vec![],
};
let inventory = Inventory {
location: Location::new(
"I am mobile".to_string(),
"earth".to_string(),
),
location: Location::new("I am mobile".to_string(), "earth".to_string()),
switch: SwitchGroup::from([]),
firewall: FirewallGroup::from([PhysicalHost::empty(HostCategory::Firewall)
.management(Arc::new(OPNSenseManagementInterface::new()))]),
storage_host: vec![],
worker_host: vec![],
worker_host: vec![
PhysicalHost::empty(HostCategory::Server)
.mac_address(mac_address!("C4:62:37:02:61:0F")),
PhysicalHost::empty(HostCategory::Server)
.mac_address(mac_address!("C4:62:37:02:61:26")),
// thisone
// Then create the ipxe file
// set the dns static leases
// bootstrap nodes
// start ceph cluster
// try installation of lampscore
// bingo?
PhysicalHost::empty(HostCategory::Server)
.mac_address(mac_address!("C4:62:37:02:61:70")),
],
control_plane_host: vec![
PhysicalHost::empty(HostCategory::Server)
.mac_address(mac_address!("C4:62:37:02:60:FA")),
@ -87,6 +119,8 @@ async fn main() {
// TODO regroup smaller scores in a larger one such as this
// let okd_boostrap_preparation();
let bootstrap_dhcp_score = OKDBootstrapDhcpScore::new(&topology, &inventory);
let bootstrap_load_balancer_score = OKDBootstrapLoadBalancerScore::new(&topology);
let dhcp_score = OKDDhcpScore::new(&topology, &inventory);
let dns_score = OKDDnsScore::new(&topology);
let load_balancer_score =
@ -100,11 +134,13 @@ async fn main() {
let mut maestro = Maestro::new(inventory, topology);
maestro.register_all(vec![
Box::new(dns_score),
Box::new(dhcp_score),
Box::new(bootstrap_dhcp_score),
Box::new(bootstrap_load_balancer_score),
Box::new(load_balancer_score),
Box::new(tftp_score),
Box::new(http_score),
Box::new(ipxe_score),
Box::new(dhcp_score),
]);
harmony_tui::init(maestro).await.unwrap();
}

5
harmony/src/modules/okd/bootstrap_dhcp.rs
View File

@ -34,16 +34,17 @@ impl OKDBootstrapDhcpScore {
.expect("Should have at least one worker to be used as bootstrap node")
.clone(),
});
// TODO refactor this so it is not copy pasted from dhcp.rs
Self {
dhcp_score: DhcpScore::new(
host_binding,
// TODO : we should add a tftp server to the topology instead of relying on the
// router address, this is leaking implementation details
Some(topology.router.get_gateway()),
Some("bootx64.efi".to_string()),
None, // To allow UEFI boot we cannot provide a legacy file
Some("undionly.kpxe".to_string()),
Some("ipxe.efi".to_string()),
Some(format!("{}:8080/boot.ipxe", topology.router.get_gateway())),
Some(format!("http://{}:8080/boot.ipxe", topology.router.get_gateway())),
),
}
}

23
harmony/src/modules/okd/dhcp.rs
View File

@ -13,7 +13,7 @@ pub struct OKDDhcpScore {
impl OKDDhcpScore {
pub fn new(topology: &HAClusterTopology, inventory: &Inventory) -> Self {
let host_binding = topology
let mut host_binding: Vec<HostBinding> = topology
.control_plane
.iter()
.enumerate()
@ -26,6 +26,22 @@ impl OKDDhcpScore {
.clone(),
})
.collect();
topology
.workers
.iter()
.enumerate()
.for_each(|(index, topology_entry)| {
host_binding.push(HostBinding {
logical_host: topology_entry.clone(),
physical_host: inventory
.worker_host
.get(index)
.expect("There should be enough worker hosts to fill topology")
.clone(),
})
});
Self {
// TODO : we should add a tftp server to the topology instead of relying on the
// router address, this is leaking implementation details
@ -33,9 +49,12 @@ impl OKDDhcpScore {
host_binding,
next_server: Some(topology.router.get_gateway()),
boot_filename: None,
filenameipxe: Some(format!("http://{}:8080/boot.ipxe", topology.router.get_gateway())),
filename: Some("undionly.kpxe".to_string()),
filename64: Some("ipxe.efi".to_string()),
filenameipxe: Some(format!(
"http://{}:8080/boot.ipxe",
topology.router.get_gateway()
)),
},
}
}