# This is the nebula example configuration file. You must edit, at a minimum, the static_host_map, lighthouse, and firewall sections # Some options in this file are HUPable, including the pki section. (A HUP will reload credentials from disk without affecting existing tunnels) # PKI defines the location of credentials for this node. Each of these can also be inlined by using the yaml ": |" syntax. pki: # The CAs that are accepted by this node. Must contain one or more certificates created by 'nebula-cert ca' ca: /etc/nebula/ca.crt cert: /etc/nebula/host.crt key: /etc/nebula/host.key # blocklist is a list of certificate fingerprints that we will refuse to talk to #blocklist: # - c99d4e650533b92061b09918e838a5a0a6aaee21eed1d12fd937682865936c72 # disconnect_invalid is a toggle to force a client to be disconnected if the certificate is expired or invalid. #disconnect_invalid: true # The static host map defines a set of hosts with fixed IP addresses on the internet (or any network). # A host can have multiple fixed IP addresses defined here, and nebula will try each when establishing a tunnel. # The syntax is: # "{nebula ip}": ["{routable ip/dns name}:{routable port}"] # Example, if your lighthouse has the nebula IP of 192.168.100.1 and has the real ip address of 100.64.22.11 and runs on port 4242: static_host_map: "192.168.100.1": ["100.64.22.11:4242"] # The static_map config stanza can be used to configure how the static_host_map behaves. #static_map: # cadence determines how frequently DNS is re-queried for updated IP addresses when a static_host_map entry contains # a DNS name. #cadence: 30s # network determines the type of IP addresses to ask the DNS server for. The default is "ip4" because nodes typically # do not know their public IPv4 address. Connecting to the Lighthouse via IPv4 allows the Lighthouse to detect the # public address. Other valid options are "ip6" and "ip" (returns both.) #network: ip4 # lookup_timeout is the DNS query timeout. #lookup_timeout: 250ms lighthouse: # am_lighthouse is used to enable lighthouse functionality for a node. This should ONLY be true on nodes # you have configured to be lighthouses in your network am_lighthouse: false # serve_dns optionally starts a dns listener that responds to various queries and can even be # delegated to for resolution #serve_dns: false #dns: # The DNS host defines the IP to bind the dns listener to. This also allows binding to the nebula node IP. #host: 0.0.0.0 #port: 53 # interval is the number of seconds between updates from this node to a lighthouse. # during updates, a node sends information about its current IP addresses to each node. interval: 60 # hosts is a list of lighthouse hosts this node should report to and query from # IMPORTANT: THIS SHOULD BE EMPTY ON LIGHTHOUSE NODES # IMPORTANT2: THIS SHOULD BE LIGHTHOUSES' NEBULA IPs, NOT LIGHTHOUSES' REAL ROUTABLE IPs hosts: - "192.168.100.1" # remote_allow_list allows you to control ip ranges that this node will # consider when handshaking to another node. By default, any remote IPs are # allowed. You can provide CIDRs here with `true` to allow and `false` to # deny. The most specific CIDR rule applies to each remote. If all rules are # "allow", the default will be "deny", and vice-versa. If both "allow" and # "deny" IPv4 rules are present, then you MUST set a rule for "0.0.0.0/0" as # the default. Similarly if both "allow" and "deny" IPv6 rules are present, # then you MUST set a rule for "::/0" as the default. #remote_allow_list: # Example to block IPs from this subnet from being used for remote IPs. #"172.16.0.0/12": false # A more complicated example, allow public IPs but only private IPs from a specific subnet #"0.0.0.0/0": true #"10.0.0.0/8": false #"10.42.42.0/24": true # EXPERIMENTAL: This option may change or disappear in the future. # Optionally allows the definition of remote_allow_list blocks # specific to an inside VPN IP CIDR. #remote_allow_ranges: # This rule would only allow only private IPs for this VPN range #"10.42.42.0/24": #"192.168.0.0/16": true # local_allow_list allows you to filter which local IP addresses we advertise # to the lighthouses. This uses the same logic as `remote_allow_list`, but # additionally, you can specify an `interfaces` map of regular expressions # to match against interface names. The regexp must match the entire name. # All interface rules must be either true or false (and the default will be # the inverse). CIDR rules are matched after interface name rules. # Default is all local IP addresses. #local_allow_list: # Example to block tun0 and all docker interfaces. #interfaces: #tun0: false #'docker.*': false # Example to only advertise this subnet to the lighthouse. #"10.0.0.0/8": true # advertise_addrs are routable addresses that will be included along with discovered addresses to report to the # lighthouse, the format is "ip:port". `port` can be `0`, in which case the actual listening port will be used in its # place, useful if `listen.port` is set to 0. # This option is mainly useful when there are static ip addresses the host can be reached at that nebula can not # typically discover on its own. Examples being port forwarding or multiple paths to the internet. #advertise_addrs: #- "1.1.1.1:4242" #- "1.2.3.4:0" # port will be replaced with the real listening port # EXPERIMENTAL: This option may change or disappear in the future. # This setting allows us to "guess" what the remote might be for a host # while we wait for the lighthouse response. #calculated_remotes: # For any Nebula IPs in 10.0.10.0/24, this will apply the mask and add # the calculated IP as an initial remote (while we wait for the response # from the lighthouse). Both CIDRs must have the same mask size. # For example, Nebula IP 10.0.10.123 will have a calculated remote of # 192.168.1.123 #10.0.10.0/24: #- mask: 192.168.1.0/24 # port: 4242 # Port Nebula will be listening on. The default here is 4242. For a lighthouse node, the port should be defined, # however using port 0 will dynamically assign a port and is recommended for roaming nodes. listen: # To listen on both any ipv4 and ipv6 use "::" host: 0.0.0.0 port: 4242 # Sets the max number of packets to pull from the kernel for each syscall (under systems that support recvmmsg) # default is 64, does not support reload #batch: 64 # Configure socket buffers for the udp side (outside), leave unset to use the system defaults. Values will be doubled by the kernel # Default is net.core.rmem_default and net.core.wmem_default (/proc/sys/net/core/rmem_default and /proc/sys/net/core/rmem_default) # Maximum is limited by memory in the system, SO_RCVBUFFORCE and SO_SNDBUFFORCE is used to avoid having to raise the system wide # max, net.core.rmem_max and net.core.wmem_max #read_buffer: 10485760 #write_buffer: 10485760 # By default, Nebula replies to packets it has no tunnel for with a "recv_error" packet. This packet helps speed up reconnection # in the case that Nebula on either side did not shut down cleanly. This response can be abused as a way to discover if Nebula is running # on a host though. This option lets you configure if you want to send "recv_error" packets always, never, or only to private network remotes. # valid values: always, never, private # This setting is reloadable. #send_recv_error: always # Routines is the number of thread pairs to run that consume from the tun and UDP queues. # Currently, this defaults to 1 which means we have 1 tun queue reader and 1 # UDP queue reader. Setting this above one will set IFF_MULTI_QUEUE on the tun # device and SO_REUSEPORT on the UDP socket to allow multiple queues. # This option is only supported on Linux. #routines: 1 punchy: # Continues to punch inbound/outbound at a regular interval to avoid expiration of firewall nat mappings punch: true # respond means that a node you are trying to reach will connect back out to you if your hole punching fails # this is extremely useful if one node is behind a difficult nat, such as a symmetric NAT # Default is false #respond: true # delays a punch response for misbehaving NATs, default is 1 second. #delay: 1s # set the delay before attempting punchy.respond. Default is 5 seconds. respond must be true to take effect. #respond_delay: 5s # Cipher allows you to choose between the available ciphers for your network. Options are chachapoly or aes # IMPORTANT: this value must be identical on ALL NODES/LIGHTHOUSES. We do not/will not support use of different ciphers simultaneously! #cipher: aes # Preferred ranges is used to define a hint about the local network ranges, which speeds up discovering the fastest # path to a network adjacent nebula node. # NOTE: the previous option "local_range" only allowed definition of a single range # and has been deprecated for "preferred_ranges" #preferred_ranges: ["172.16.0.0/24"] # sshd can expose informational and administrative functions via ssh. This can expose informational and administrative # functions, and allows manual tweaking of various network settings when debugging or testing. #sshd: # Toggles the feature #enabled: true # Host and port to listen on, port 22 is not allowed for your safety #listen: 127.0.0.1:2222 # A file containing the ssh host private key to use # A decent way to generate one: ssh-keygen -t ed25519 -f ssh_host_ed25519_key -N "" < /dev/null #host_key: ./ssh_host_ed25519_key # Authorized users and their public keys #authorized_users: #- user: steeeeve # keys can be an array of strings or single string #keys: #- "ssh public key string" # Trusted SSH CA public keys. These are the public keys of the CAs that are allowed to sign SSH keys for access. #trusted_cas: #- "ssh public key string" # EXPERIMENTAL: relay support for networks that can't establish direct connections. relay: # Relays are a list of Nebula IP's that peers can use to relay packets to me. # IPs in this list must have am_relay set to true in their configs, otherwise # they will reject relay requests. #relays: #- 192.168.100.1 #- # Set am_relay to true to permit other hosts to list my IP in their relays config. Default false. am_relay: false # Set use_relays to false to prevent this instance from attempting to establish connections through relays. # default true use_relays: true # Configure the private interface. Note: addr is baked into the nebula certificate tun: # When tun is disabled, a lighthouse can be started without a local tun interface (and therefore without root) disabled: false # Name of the device. If not set, a default will be chosen by the OS. # For macOS: if set, must be in the form `utun[0-9]+`. # For NetBSD: Required to be set, must be in the form `tun[0-9]+` dev: nebula1 # Toggles forwarding of local broadcast packets, the address of which depends on the ip/mask encoded in pki.cert drop_local_broadcast: false # Toggles forwarding of multicast packets drop_multicast: false # Sets the transmit queue length, if you notice lots of transmit drops on the tun it may help to raise this number. Default is 500 tx_queue: 500 # Default MTU for every packet, safe setting is (and the default) 1300 for internet based traffic mtu: 1300 # Route based MTU overrides, you have known vpn ip paths that can support larger MTUs you can increase/decrease them here routes: #- mtu: 8800 # route: 10.0.0.0/16 # Unsafe routes allows you to route traffic over nebula to non-nebula nodes # Unsafe routes should be avoided unless you have hosts/services that cannot run nebula # NOTE: The nebula certificate of the "via" node *MUST* have the "route" defined as a subnet in its certificate # `mtu`: will default to tun mtu if this option is not specified # `metric`: will default to 0 if this option is not specified # `install`: will default to true, controls whether this route is installed in the systems routing table. unsafe_routes: #- route: 172.16.1.0/24 # via: 192.168.100.99 # mtu: 1300 # metric: 100 # install: true # On linux only, set to true to manage unsafe routes directly on the system route table with gateway routes instead of # in nebula configuration files. Default false, not reloadable. #use_system_route_table: false # TODO # Configure logging level logging: # panic, fatal, error, warning, info, or debug. Default is info and is reloadable. #NOTE: Debug mode can log remotely controlled/untrusted data which can quickly fill a disk in some # scenarios. Debug logging is also CPU intensive and will decrease performance overall. # Only enable debug logging while actively investigating an issue. level: info # json or text formats currently available. Default is text format: text # Disable timestamp logging. useful when output is redirected to logging system that already adds timestamps. Default is false #disable_timestamp: true # timestamp format is specified in Go time format, see: # https://golang.org/pkg/time/#pkg-constants # default when `format: json`: "2006-01-02T15:04:05Z07:00" (RFC3339) # default when `format: text`: # when TTY attached: seconds since beginning of execution # otherwise: "2006-01-02T15:04:05Z07:00" (RFC3339) # As an example, to log as RFC3339 with millisecond precision, set to: #timestamp_format: "2006-01-02T15:04:05.000Z07:00" #stats: #type: graphite #prefix: nebula #protocol: tcp #host: 127.0.0.1:9999 #interval: 10s #type: prometheus #listen: 127.0.0.1:8080 #path: /metrics #namespace: prometheusns #subsystem: nebula #interval: 10s # enables counter metrics for meta packets # e.g.: `messages.tx.handshake` # NOTE: `message.{tx,rx}.recv_error` is always emitted #message_metrics: false # enables detailed counter metrics for lighthouse packets # e.g.: `lighthouse.rx.HostQuery` #lighthouse_metrics: false # Handshake Manager Settings #handshakes: # Handshakes are sent to all known addresses at each interval with a linear backoff, # Wait try_interval after the 1st attempt, 2 * try_interval after the 2nd, etc, until the handshake is older than timeout # A 100ms interval with the default 10 retries will give a handshake 5.5 seconds to resolve before timing out #try_interval: 100ms #retries: 20 # query_buffer is the size of the buffer channel for querying lighthouses #query_buffer: 64 # trigger_buffer is the size of the buffer channel for quickly sending handshakes # after receiving the response for lighthouse queries #trigger_buffer: 64 # Nebula security group configuration firewall: # Action to take when a packet is not allowed by the firewall rules. # Can be one of: # `drop` (default): silently drop the packet. # `reject`: send a reject reply. # - For TCP, this will be a RST "Connection Reset" packet. # - For other protocols, this will be an ICMP port unreachable packet. outbound_action: drop inbound_action: drop # Controls the default value for local_cidr. Default is true, will be deprecated after v1.9 and defaulted to false. # This setting only affects nebula hosts with subnets encoded in their certificate. A nebula host acting as an # unsafe router with `default_local_cidr_any: true` will expose their unsafe routes to every inbound rule regardless # of the actual destination for the packet. Setting this to false requires each inbound rule to contain a `local_cidr` # if the intention is to allow traffic to flow to an unsafe route. #default_local_cidr_any: false conntrack: tcp_timeout: 12m udp_timeout: 3m default_timeout: 10m # The firewall is default deny. There is no way to write a deny rule. # Rules are comprised of a protocol, port, and one or more of host, group, or CIDR # Logical evaluation is roughly: port AND proto AND (ca_sha OR ca_name) AND (host OR group OR groups OR cidr) AND (local cidr) # - port: Takes `0` or `any` as any, a single number `80`, a range `200-901`, or `fragment` to match second and further fragments of fragmented packets (since there is no port available). # code: same as port but makes more sense when talking about ICMP, TODO: this is not currently implemented in a way that works, use `any` # proto: `any`, `tcp`, `udp`, or `icmp` # host: `any` or a literal hostname, ie `test-host` # group: `any` or a literal group name, ie `default-group` # groups: Same as group but accepts a list of values. Multiple values are AND'd together and a certificate would have to contain all groups to pass # cidr: a remote CIDR, `0.0.0.0/0` is any. # local_cidr: a local CIDR, `0.0.0.0/0` is any. This could be used to filter destinations when using unsafe_routes. # Default is `any` unless the certificate contains subnets and then the default is the ip issued in the certificate # if `default_local_cidr_any` is false, otherwise its `any`. # ca_name: An issuing CA name # ca_sha: An issuing CA shasum outbound: # Allow all outbound traffic from this node - port: any proto: any host: any inbound: # Allow icmp between any nebula hosts - port: any proto: icmp host: any # Allow tcp/443 from any host with BOTH laptop and home group - port: 443 proto: tcp groups: - laptop - home # Expose a subnet (unsafe route) to hosts with the group remote_client # This example assume you have a subnet of 192.168.100.1/24 or larger encoded in the certificate - port: 8080 proto: tcp group: remote_client local_cidr: 192.168.100.1/24