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config.sample.yaml
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config.sample.yaml
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---
#
# 1. (Required) Cluster details - Cluster represents the Kubernetes cluster layer and any additional customizations
#
# (Required) Timezone is your IANA formatted timezone (e.g. America/New_York)
bootstrap_timezone: ""
# (Required) Distribution can either be k3s or talos
bootstrap_distribution: k3s
# (Optional) Cluster name; affects Cilium and Talos
bootstrap_cluster_name: ""
# (Required: Talos) Talos Specific Options
bootstrap_talos:
# (Optional: Talos) Go to https://factory.talos.dev/ and choose any System Extensions, and/or add kernel arguments you need.
# Copy the generated schematic id and paste it below.
# IMPORTANT: The default ID given here means no System Extensions or Kernel args will be used.
schematic_id: "376567988ad370138ad8b2698212367b8edcb69b5fd68c80be1f2ec7d603b4ba"
# (Optional: Talos) Add vlan tag to network master device, this is not needed if you tag ports on your switch with the VLAN
# See: https://www.talos.dev/latest/advanced/advanced-networking/#vlans
vlan: ""
# (Optional: Talos) Secureboot and TPM-based disk encryption
secureboot:
# (Optional) Enable secureboot on UEFI systems. Not supported on x86 platforms in BIOS mode.
# See: https://www.talos.dev/latest/talos-guides/install/bare-metal-platforms/secureboot
enabled: false
# (Optional) Enable TPM-based disk encryption. Requires TPM 2.0
# See: https://www.talos.dev/v1.6/talos-guides/install/bare-metal-platforms/secureboot/#disk-encryption-with-tpm
encrypt_disk_with_tpm: false
# (Optional) Add includes for user provided patches to generated talconfig.yaml.
# See: https://github.com/budimanjojo/talhelper/blob/179ba9ed42f70069c7842109bea24f769f7af6eb/example/extraKernelArgs-patch.yaml
# Patches are applied in this order. (global overrides cp/worker which overrides node-specific).
# Create these files to allow talos:bootstrap-genconfig to complete (empty files are ok).
# kubernetes/bootstrap/talos/patches/node_<name>.yaml # Patches for individual nodes
# kubernetes/bootstrap/talos/patches/controlPlane.yaml # Patches for controlplane nodes
# kubernetes/bootstrap/talos/patches/worker.yaml # Patches for worker nodes
# kubernetes/bootstrap/talos/patches/global.yaml # Patches for ALL nodes
user_patches: false
# (Required) The CIDR your nodes are on (e.g. 192.168.1.0/24)
bootstrap_node_network: ""
# (Optional) The default gateway for the nodes
# Default is .1 derrived from bootstrap_node_network: 'x.x.x.1'
bootstrap_node_default_gateway: ""
# (Required) Use only 1, 3 or more ODD number of controller nodes, recommended is 3
# Worker nodes are optional
bootstrap_node_inventory: []
# - name: "" # (Required) Name of the node (must match [a-z0-9-\.]+)
# address: "" # (Required) IP address of the node
# controller: true # (Required) Set to true if this is a controller node
# talos_disk: "" # (Required: Talos) Device path or serial number of the disk for this node (talosctl disks -n <ip> --insecure)
# talos_nic: "" # (Required: Talos) MAC address of the NIC for this node (talosctl get links -n <ip> --insecure)
# ssh_user: "" # (Required: k3s) SSH username of the node
# ssh_key: "" # (Optional: k3s) Set specific SSH key for this node
# ...
# (Optional) The DNS server to use for the cluster, this can be an existing
# local DNS server or a public one.
# Default is ["1.1.1.1", "1.0.0.1"]
# If using a local DNS server make sure it meets the following requirements:
# 1. your nodes can reach it
# 2. it is configured to forward requests to a public DNS server
# 3. you are not force redirecting DNS requests to it - this will break cert generation over DNS01
# If using multiple DNS servers make sure they are setup the same way, there is no
# guarantee that the first DNS server will always be used for every lookup.
bootstrap_dns_servers: []
# (Optional) The DNS search domain to use for the nodes.
# Default is "."
# Use the default or leave empty to avoid possible DNS issues inside the cluster.
bootstrap_search_domain: ""
# (Required) The pod CIDR for the cluster, this must NOT overlap with any
# existing networks and is usually a /16 (64K IPs).
# If you want to use IPv6 check the advanced flags below and be aware of
# https://github.com/onedr0p/cluster-template/issues/1148
bootstrap_pod_network: "10.69.0.0/16"
# (Required) The service CIDR for the cluster, this must NOT overlap with any
# existing networks and is usually a /16 (64K IPs).
# If you want to use IPv6 check the advanced flags below and be aware of
# https://github.com/onedr0p/cluster-template/issues/1148
bootstrap_service_network: "10.96.0.0/16"
# (Required) The IP address of the Kube API, choose an available IP in
# your nodes host network that is NOT being used. This is announced over L2.
# For k3s kube-vip is used, built-in functionality is used with Talos
bootstrap_controllers_vip: ""
# (Optional) Add additional SANs to the Kube API cert, this is useful
# if you want to call the Kube API by hostname rather than IP
bootstrap_tls_sans: []
# (Required) Age Public Key (e.g. age1...)
# 1. Generate a new key with the following command:
# > task sops:age-keygen
# 2. Copy the PUBLIC key and paste it below
bootstrap_sops_age_pubkey: ""
# (Optional) Use cilium BGP control plane when L2 announcements won't traverse VLAN network segments.
# Needs a BGP capable router setup with the node IPs as peers.
# See: https://docs.cilium.io/en/latest/network/bgp-control-plane/
bootstrap_bgp:
enabled: false
# (Optional) If using multiple BGP peers add them here.
# Default is .1 derrived from host_network: ['x.x.x.1']
peers: []
# (Required) Set the BGP Autonomous System Number for the router(s) and nodes.
# If these match, iBGP will be used. If not, eBGP will be used.
peer_asn: "" # Router(s) AS
local_asn: "" # Node(s) AS
# (Required) The advertised CIDR for the cluster, this must NOT overlap with any
# existing networks and is usually a /16 (64K IPs).
# If you want to use IPv6 check the advanced flags below
advertised_network: ""
#
# 2. (Required) Flux details - Flux is used to manage the cluster configuration.
#
# (Required) GitHub repository URL
# For a public repo use the 'https://' URL (e.g. "https://github.com/onedr0p/cluster-template.git")
# For a private repo use the 'ssh://' URL (e.g. "ssh://[email protected]/onedr0p/cluster-template.git")
# If using a private repo make sure to following the instructions with the 'bootstrap_github_private_key' option below.
bootstrap_github_address: ""
# (Required) GitHub repository branch
bootstrap_github_branch: "main"
# (Required) Token for GitHub push-based sync
# 1. Generate a new token with the following command:
# > openssl rand -hex 16
# 2. Copy the token and paste it below
bootstrap_github_webhook_token: ""
# (Optional) Private key for Flux to access the GitHub repository
# 1. Generate a new key with the following command:
# > ssh-keygen -t ecdsa -b 521 -C "github-deploy-key" -f github-deploy.key -q -P ""
# 2. Make sure to paste public key from "github-deploy.key.pub" into
# the deploy keys section of your GitHub repository settings.
# 3. Uncomment and paste the private key below
# 4. Optionally set your repository on GitHub to private
# bootstrap_github_private_key: |
# -----BEGIN OPENSSH PRIVATE KEY-----
# ...
# -----END OPENSSH PRIVATE KEY-----
#
# 3. (Optional) Cloudflare details - Cloudflare is used for DNS, TLS certificates and tunneling.
#
bootstrap_cloudflare:
# (Required) Disable to manually setup and use a different DNS provider - setting this
# to false will not deploy a network namespace or the workloads contained within.
enabled: true
# (Required) Cloudflare Domain
domain: ""
# (Required) Cloudflare API Token (NOT API Key)
# 1. Head over to Cloudflare and create a API Token by going to
# https://dash.cloudflare.com/profile/api-tokens
# 2. Under the `API Tokens` section click the blue `Create Token` button.
# 3. Click the blue `Use template` button for the `Edit zone DNS` template.
# 4. Name your token something like `home-kubernetes`
# 5. Under `Permissions`, click `+ Add More` and add each permission below:
# `Zone - DNS - Edit`
# `Account - Cloudflare Tunnel - Read`
# 6. Limit the permissions to a specific account and zone resources.
# 7. Click the blue `Continue to Summary` button and then the blue `Create Token` button.
# 8. Copy the token and paste it below.
token: ""
# (Required) Optionals for Cloudflare Acme
acme:
# (Required) Any email you want to be associated with the ACME account (used for TLS certs via letsencrypt.org)
email: ""
# (Required) Use the ACME production server when requesting the wildcard certificate.
# By default the ACME staging server is used. This is to prevent being rate-limited.
# Update this option to `true` when you have verified the staging certificate
# works and then re-run `task configure` and push your changes to Github.
production: false
# (Required) Provide LAN access to the cluster ingresses for internal ingress classes
# The Load balancer IP for internal ingress, choose an available IP
# in your nodes host network that is NOT being used. This is announced over L2.
ingress_vip: ""
# (Required) Gateway is used for providing DNS to your cluster on LAN
# The Load balancer IP for k8s_gateway, choose an available IP
# in your nodes host network that is NOT being used. This is announced over L2.
gateway_vip: ""
# (Required) Options for Cloudflare Tunnel
# There's two methods to create a tunnel, via the CLI or the Cloudflare dashboard.
# 1. Authenticate cloudflared to your domain with the following command:
# > cloudflared tunnel login
# 2. Create the tunnel with the following command:
# > cloudflared tunnel create k8s
tunnel:
# (Required) Get the Cloudflared Tunnel ID with the following command:
# > jq -r .TunnelID ~/.cloudflared/*.json
id: ""
# (Required) Get the Cloudflare Account ID with the following command:
# > jq -r .AccountTag ~/.cloudflared/*.json
account_id: ""
# (Required) Get the Cloudflared Tunnel Secret with the following command:
# > jq -r .TunnelSecret ~/.cloudflared/*.json
secret: ""
# (Required) Provide WAN access to the cluster ingresses for external ingress classes
# The Load balancer IP for external ingress, choose an available IP
# in your nodes host network that is NOT being used. This is announced over L2.
ingress_vip: ""
# (Optional) Feature gates are used to enable experimental features
# bootstrap_feature_gates:
# # Enable Dual Stack IPv4 first
# # IMPORTANT: I am looking for people to help maintain IPv6 support since I cannot test it.
# # Ref: https://github.com/onedr0p/cluster-template/issues/1148
# # Keep in mind that Cilium does not currently support IPv6 L2 announcements.
# # Make sure you set cluster.pod_cidr and cluster.service_cidr
# # to a valid dual stack CIDRs, e.g. "10.42.0.0/16,fd00:10:244::/64"
# dual_stack_ipv4_first: false