##### # docker-compose.yml ##### version: '3' networks: default: name: 'proxy_network' services: uptime-kuma: image: louislam/uptime-kuma:1 restart: unless-stopped volumes: - /srv/uptime:/app/data labels: caddy: uptime.nekomimi.pet caddy.reverse_proxy: "* {{upstreams 3001}}" headscale: image: headscale/headscale:v0.25.1 restart: unless-stopped ports: - "8080:8080" volumes: - ./headscale/config:/etc/headscale - ./headscale:/var/lib/headscale command: serve labels: caddy: headscale.nekomimi.pet caddy.reverse_proxy: "* {{upstreams 8080}}" sysctls: - net.ipv4.ip_forward=1 - net.ipv6.conf.all.forwarding=1 dns: - "1.1.1.1" - "8.8.8.8" headplane: image: ghcr.io/tale/headplane:0.5.10 container_name: headplane restart: unless-stopped volumes: - './headplane/config/config.yaml:/etc/headplane/config.yaml' - './headscale/config/config.yaml:/etc/headscale/config.yaml' - './headplane:/var/lib/headplane' - '/var/run/docker.sock:/var/run/docker.sock:ro' labels: caddy: hui.nekomimi.pet caddy.reverse_proxy: "* {{upstreams 3000}}" caddy: image: "lucaslorentz/caddy-docker-proxy:ci-alpine" ports: - "80:80" - "443:443" volumes: - /var/run/docker.sock:/var/run/docker.sock:ro - /srv/caddy/:/data restart: unless-stopped environment: - CADDY_INGRESS_NETWORKS=proxy_network ##### # headscale/config/config.yaml ##### --- # headscale will look for a configuration file named `config.yaml` (or `config.json`) in the following order: # # - `/etc/headscale` # - `~/.headscale` # - current working directory # The url clients will connect to. # Typically this will be a domain like: # # https://myheadscale.example.com:443 # server_url: https://headscale.nekomimi.pet # Address to listen to / bind to on the server # # For production: listen_addr: 0.0.0.0:8080 #listen_addr: 127.0.0.1:8080 # Address to listen to /metrics and /debug, you may want # to keep this endpoint private to your internal network metrics_listen_addr: 127.0.0.1:9090 # Address to listen for gRPC. # gRPC is used for controlling a headscale server # remotely with the CLI # Note: Remote access _only_ works if you have # valid certificates. # # For production: # grpc_listen_addr: 0.0.0.0:50443 grpc_listen_addr: 127.0.0.1:50443 # Allow the gRPC admin interface to run in INSECURE # mode. This is not recommended as the traffic will # be unencrypted. Only enable if you know what you # are doing. grpc_allow_insecure: false # The Noise section includes specific configuration for the # TS2021 Noise protocol noise: # The Noise private key is used to encrypt the traffic between headscale and # Tailscale clients when using the new Noise-based protocol. A missing key # will be automatically generated. private_key_path: /var/lib/headscale/noise_private.key # List of IP prefixes to allocate tailaddresses from. # Each prefix consists of either an IPv4 or IPv6 address, # and the associated prefix length, delimited by a slash. # It must be within IP ranges supported by the Tailscale # client - i.e., subnets of 100.64.0.0/10 and fd7a:115c:a1e0::/48. # See below: # IPv6: https://github.com/tailscale/tailscale/blob/22ebb25e833264f58d7c3f534a8b166894a89536/net/tsaddr/tsaddr.go#LL81C52-L81C71 # IPv4: https://github.com/tailscale/tailscale/blob/22ebb25e833264f58d7c3f534a8b166894a89536/net/tsaddr/tsaddr.go#L33 # Any other range is NOT supported, and it will cause unexpected issues. prefixes: v4: 100.64.0.0/10 v6: fd7a:115c:a1e0::/48 # Strategy used for allocation of IPs to nodes, available options: # - sequential (default): assigns the next free IP from the previous given IP. # - random: assigns the next free IP from a pseudo-random IP generator (crypto/rand). allocation: sequential # DERP is a relay system that Tailscale uses when a direct # connection cannot be established. # https://tailscale.com/blog/how-tailscale-works/#encrypted-tcp-relays-derp # # headscale needs a list of DERP servers that can be presented # to the clients. derp: server: # If enabled, runs the embedded DERP server and merges it into the rest of the DERP config # The Headscale server_url defined above MUST be using https, DERP requires TLS to be in place enabled: false # Region ID to use for the embedded DERP server. # The local DERP prevails if the region ID collides with other region ID coming from # the regular DERP config. region_id: 999 # Region code and name are displayed in the Tailscale UI to identify a DERP region region_code: "headscale" region_name: "Headscale Embedded DERP" # Listens over UDP at the configured address for STUN connections - to help with NAT traversal. # When the embedded DERP server is enabled stun_listen_addr MUST be defined. # # For more details on how this works, check this great article: https://tailscale.com/blog/how-tailscale-works/ stun_listen_addr: "0.0.0.0:3478" # Private key used to encrypt the traffic between headscale DERP and # Tailscale clients. A missing key will be automatically generated. private_key_path: /var/lib/headscale/derp_server_private.key # This flag can be used, so the DERP map entry for the embedded DERP server is not written automatically, # it enables the creation of your very own DERP map entry using a locally available file with the parameter DERP.paths # If you enable the DERP server and set this to false, it is required to add the DERP server to the DERP map using DERP.paths automatically_add_embedded_derp_region: true # For better connection stability (especially when using an Exit-Node and DNS is not working), # it is possible to optionally add the public IPv4 and IPv6 address to the Derp-Map using: ipv4: 1.2.3.4 ipv6: 2001:db8::1 # List of externally available DERP maps encoded in JSON urls: - https://controlplane.tailscale.com/derpmap/default # Locally available DERP map files encoded in YAML # # This option is mostly interesting for people hosting # their own DERP servers: # https://tailscale.com/kb/1118/custom-derp-servers/ # # paths: # - /etc/headscale/derp-example.yaml paths: [] # If enabled, a worker will be set up to periodically # refresh the given sources and update the derpmap # will be set up. auto_update_enabled: true # How often should we check for DERP updates? update_frequency: 24h # Disables the automatic check for headscale updates on startup disable_check_updates: false # Time before an inactive ephemeral node is deleted? ephemeral_node_inactivity_timeout: 30m database: # Database type. Available options: sqlite, postgres # Please note that using Postgres is highly discouraged as it is only supported for legacy reasons. # All new development, testing and optimisations are done with SQLite in mind. type: sqlite # Enable debug mode. This setting requires the log.level to be set to "debug" or "trace". debug: false # GORM configuration settings. gorm: # Enable prepared statements. prepare_stmt: true # Enable parameterized queries. parameterized_queries: true # Skip logging "record not found" errors. skip_err_record_not_found: true # Threshold for slow queries in milliseconds. slow_threshold: 1000 # SQLite config sqlite: path: /var/lib/headscale/db.sqlite # Enable WAL mode for SQLite. This is recommended for production environments. # https://www.sqlite.org/wal.html write_ahead_log: true # Maximum number of WAL file frames before the WAL file is automatically checkpointed. # https://www.sqlite.org/c3ref/wal_autocheckpoint.html # Set to 0 to disable automatic checkpointing. wal_autocheckpoint: 1000 # # Postgres config # Please note that using Postgres is highly discouraged as it is only supported for legacy reasons. # See database.type for more information. # postgres: # # If using a Unix socket to connect to Postgres, set the socket path in the 'host' field and leave 'port' blank. # host: localhost # port: 5432 # name: headscale # user: foo # pass: bar # max_open_conns: 10 # max_idle_conns: 10 # conn_max_idle_time_secs: 3600 # # If other 'sslmode' is required instead of 'require(true)' and 'disabled(false)', set the 'sslmode' you need # # in the 'ssl' field. Refers to https://www.postgresql.org/docs/current/libpq-ssl.html Table 34.1. # ssl: false ### TLS configuration # ## Let's encrypt / ACME # # headscale supports automatically requesting and setting up # TLS for a domain with Let's Encrypt. # # URL to ACME directory acme_url: https://acme-v02.api.letsencrypt.org/directory # Email to register with ACME provider acme_email: "" # Domain name to request a TLS certificate for: tls_letsencrypt_hostname: "" # Path to store certificates and metadata needed by # letsencrypt # For production: tls_letsencrypt_cache_dir: /var/lib/headscale/cache # Type of ACME challenge to use, currently supported types: # HTTP-01 or TLS-ALPN-01 # See: docs/ref/tls.md for more information tls_letsencrypt_challenge_type: HTTP-01 # When HTTP-01 challenge is chosen, letsencrypt must set up a # verification endpoint, and it will be listening on: # :http = port 80 tls_letsencrypt_listen: ":http" ## Use already defined certificates: tls_cert_path: "" tls_key_path: "" log: # Output formatting for logs: text or json format: text level: info ## Policy # headscale supports Tailscale's ACL policies. # Please have a look to their KB to better # understand the concepts: https://tailscale.com/kb/1018/acls/ policy: # The mode can be "file" or "database" that defines # where the ACL policies are stored and read from. mode: file # If the mode is set to "file", the path to a # HuJSON file containing ACL policies. path: "" ## DNS # # headscale supports Tailscale's DNS configuration and MagicDNS. # Please have a look to their KB to better understand the concepts: # # - https://tailscale.com/kb/1054/dns/ # - https://tailscale.com/kb/1081/magicdns/ # - https://tailscale.com/blog/2021-09-private-dns-with-magicdns/ # # Please note that for the DNS configuration to have any effect, # clients must have the `--accept-dns=true` option enabled. This is the # default for the Tailscale client. This option is enabled by default # in the Tailscale client. # # Setting _any_ of the configuration and `--accept-dns=true` on the # clients will integrate with the DNS manager on the client or # overwrite /etc/resolv.conf. # https://tailscale.com/kb/1235/resolv-conf # # If you want stop Headscale from managing the DNS configuration # all the fields under `dns` should be set to empty values. dns: # Whether to use [MagicDNS](https://tailscale.com/kb/1081/magicdns/). magic_dns: true # Defines the base domain to create the hostnames for MagicDNS. # This domain _must_ be different from the server_url domain. # `base_domain` must be a FQDN, without the trailing dot. # The FQDN of the hosts will be # `hostname.base_domain` (e.g., _myhost.example.com_). base_domain: dns.sharkgirl.pet # List of DNS servers to expose to clients. nameservers: global: - 100.64.0.15 - 1.1.1.1 - 1.0.0.1 - 2606:4700:4700::1111 - 2606:4700:4700::1001 split: {} # foo.bar.com: # - 1.1.1.1 # darp.headscale.net: # - 1.1.1.1 # - 8.8.8.8 # Set custom DNS search domains. With MagicDNS enabled, # your tailnet base_domain is always the first search domain. search_domains: [] # Extra DNS records # so far only A and AAAA records are supported (on the tailscale side) # See: docs/ref/dns.md extra_records: [] # - name: "grafana.myvpn.example.com" # type: "A" # value: "100.64.0.3" # # # you can also put it in one line # - { name: "prometheus.myvpn.example.com", type: "A", value: "100.64.0.3" } # # Alternatively, extra DNS records can be loaded from a JSON file. # Headscale processes this file on each change. # extra_records_path: /var/lib/headscale/extra-records.json # Unix socket used for the CLI to connect without authentication # Note: for production you will want to set this to something like: unix_socket: /var/run/headscale/headscale.sock unix_socket_permission: "0770" # # headscale supports experimental OpenID connect support, # it is still being tested and might have some bugs, please # help us test it. # OpenID Connect oidc: only_start_if_oidc_is_available: true issuer: "https://MYOIDC.nekomimi.pet" client_id: "CLIENTID" client_secret: "CLIENTSECRET" pkce: enabled: true method: S256 #issuer: "https://authelia.nekomimi.pet/application/o/headscale/" #client_id: "CLIENTID" #client_secret: "CLIENTSECRET\ # " #scope: [ "openid", "profile", "email", "custom" ] #extra_params: # domain_hint: nekomimi.pet # oidc: # only_start_if_oidc_is_available: true # issuer: "https://your-oidc.issuer.com/path" # client_id: "your-oidc-client-id" # client_secret: "your-oidc-client-secret" # # Alternatively, set `client_secret_path` to read the secret from the file. # # It resolves environment variables, making integration to systemd's # # `LoadCredential` straightforward: # client_secret_path: "${CREDENTIALS_DIRECTORY}/oidc_client_secret" # # client_secret and client_secret_path are mutually exclusive. # # # The amount of time from a node is authenticated with OpenID until it # # expires and needs to reauthenticate. # # Setting the value to "0" will mean no expiry. # expiry: 180d # # # Use the expiry from the token received from OpenID when the user logged # # in, this will typically lead to frequent need to reauthenticate and should # # only been enabled if you know what you are doing. # # Note: enabling this will cause `oidc.expiry` to be ignored. # use_expiry_from_token: false # # # Customize the scopes used in the OIDC flow, defaults to "openid", "profile" and "email" and add custom query # # parameters to the Authorize Endpoint request. Scopes default to "openid", "profile" and "email". # # scope: ["openid", "profile", "email", "custom"] # extra_params: # domain_hint: example.com # # # List allowed principal domains and/or users. If an authenticated user's domain is not in this list, the # # authentication request will be rejected. # # allowed_domains: # - example.com # # Note: Groups from keycloak have a leading '/' # allowed_groups: # - /headscale # allowed_users: # - alice@example.com # # # Optional: PKCE (Proof Key for Code Exchange) configuration # # PKCE adds an additional layer of security to the OAuth 2.0 authorization code flow # # by preventing authorization code interception attacks # # See https://datatracker.ietf.org/doc/html/rfc7636 # pkce: # # Enable or disable PKCE support (default: false) # enabled: false # # PKCE method to use: # # - plain: Use plain code verifier # # - S256: Use SHA256 hashed code verifier (default, recommended) # method: S256 # # # Map legacy users from pre-0.24.0 versions of headscale to the new OIDC users # # by taking the username from the legacy user and matching it with the username # # provided by the OIDC. This is useful when migrating from legacy users to OIDC # # to force them using the unique identifier from the OIDC and to give them a # # proper display name and picture if available. # # Note that this will only work if the username from the legacy user is the same # # and there is a possibility for account takeover should a username have changed # # with the provider. # # When this feature is disabled, it will cause all new logins to be created as new users. # # Note this option will be removed in the future and should be set to false # # on all new installations, or when all users have logged in with OIDC once. # map_legacy_users: false # Logtail configuration # Logtail is Tailscales logging and auditing infrastructure, it allows the control panel # to instruct tailscale nodes to log their activity to a remote server. logtail: # Enable logtail for this headscales clients. # As there is currently no support for overriding the log server in headscale, this is # disabled by default. Enabling this will make your clients send logs to Tailscale Inc. enabled: false # Enabling this option makes devices prefer a random port for WireGuard traffic over the # default static port 41641. This option is intended as a workaround for some buggy # firewall devices. See https://tailscale.com/kb/1181/firewalls/ for more information. randomize_client_port: false ##### # headplane/config/config.yaml ##### server: host: "0.0.0.0" port: 3000 # The secret used to encode and decode web sessions # Ensure that this is exactly 32 characters long cookie_secret: "COOKIESECRET" # Should the cookies only work over HTTPS? # Set to false if running via HTTP without a proxy # (I recommend this is true in production) cookie_secure: true # Headscale specific settings to allow Headplane to talk # to Headscale and access deep integration features headscale: # The URL to your Headscale instance # (All API requests are routed through this URL) # (THIS IS NOT the gRPC endpoint, but the HTTP endpoint) # # IMPORTANT: If you are using TLS this MUST be set to `https://` url: "http://headscale:8080" # If you use the TLS configuration in Headscale, and you are not using # Let's Encrypt for your certificate, pass in the path to the certificate. # (This has no effect `url` does not start with `https://`) # tls_cert_path: "/var/lib/headplane/tls.crt" # Optional, public URL if they differ # This affects certain parts of the web UI public_url: "https://headscale.nekomimi.pet" # Path to the Headscale configuration file # This is optional, but HIGHLY recommended for the best experience # If this is read only, Headplane will show your configuration settings # in the Web UI, but they cannot be changed. config_path: "/etc/headscale/config.yaml" # Headplane internally validates the Headscale configuration # to ensure that it changes the configuration in a safe way. # If you want to disable this validation, set this to false. config_strict: true # Integration configurations for Headplane to interact with Headscale # Only one of these should be enabled at a time or you will get errors integration: docker: enabled: true # The name (or ID) of the container running Headscale container_name: "headscale" # The path to the Docker socket (do not change this if you are unsure) # Docker socket paths must start with unix:// or tcp:// and at the moment # https connections are not supported. socket: "unix:///var/run/docker.sock" # Please refer to docs/integration/Kubernetes.md for more information # on how to configure the Kubernetes integration. There are requirements in # order to allow Headscale to be controlled by Headplane in a cluster. kubernetes: enabled: false # Validates the manifest for the Pod to ensure all of the criteria # are set correctly. Turn this off if you are having issues with # shareProcessNamespace not being validated correctly. validate_manifest: true # This should be the name of the Pod running Headscale and Headplane. # If this isn't static you should be using the Kubernetes Downward API # to set this value (refer to docs/Integrated-Mode.md for more info). pod_name: "headscale" # Proc is the "Native" integration that only works when Headscale and # Headplane are running outside of a container. There is no configuration, # but you need to ensure that the Headplane process can terminate the # Headscale process. # # (If they are both running under systemd as sudo, this will work). proc: enabled: false # OIDC Configuration for simpler authentication # (This is optional, but recommended for the best experience) oidc: issuer: "https://MYOIDC.nekomimi.pet" client_id: "CLIENTID" # The client secret for the OIDC client # Either this or `client_secret_path` must be set for OIDC to work client_secret: "CLIENTSECRET" # You can alternatively set `client_secret_path` to read the secret from disk. # The path specified can resolve environment variables, making integration # with systemd's `LoadCredential` straightforward: # client_secret_path: "${CREDENTIALS_DIRECTORY}/oidc_client_secret" disable_api_key_login: false token_endpoint_auth_method: "client_secret_post" # If you are using OIDC, you need to generate an API key # that can be used to authenticate other sessions when signing in. # # This can be done with `headscale apikeys create --expiration 999d` headscale_api_key: "MYAPIKEY" # Optional, but highly recommended otherwise Headplane # will attempt to automatically guess this from the issuer # # This should point to your publicly accessibly URL # for your Headplane instance with /admin/oidc/callback redirect_uri: "https://hui.nekomimi.pet/admin/oidc/callback" # Stores the users and their permissions for Headplane # This is a path to a JSON file, default is specified below. user_storage_file: "/var/lib/headplane/users.json" #