# # nsd.conf -- the NSD(8) configuration file, nsd.conf(5). # # Copyright (c) 2001-2011, NLnet Labs. All rights reserved. # # See LICENSE for the license. # # This is a comment. # Sample configuration file # include: "file" # include that file's text over here. Globbed, "*.conf" # options for the nsd server server: # Number of NSD servers to fork. Put the number of CPUs to use here. # server-count: 1 # Set overall CPU affinity for NSD processes on Linux and FreeBSD. # Any server/xfrd CPU affinity value will be masked by this value. # cpu-affinity: 0 1 2 3 # Bind NSD server(s), configured by server-count (1-based), to a # dedicated core. Single core affinity improves L1/L2 cache hits and # reduces pipeline stalls/flushes. # # server-1-cpu-affinity: 0 # server-2-cpu-affinity: 1 # ... # server--cpu-affinity: 2 # Bind xfrd to a dedicated core. # xfrd-cpu-affinity: 3 # Specify specific interfaces to bind (default are the wildcard # interfaces 0.0.0.0 and ::0). # For servers with multiple IP addresses, list them one by one, # or the source address of replies could be wrong. # Use ip-transparent to be able to list addresses that turn on later. # ip-address: 1.2.3.4 # ip-address: 1.2.3.4@5678 # ip-address: 12fe::8ef0 # # IP addresses can be configured per-server to avoid waking up more # than one server when a packet comes in (thundering herd problem) or # to partition sockets across servers to improve select/poll # performance. # # ip-address: 1.2.3.4 servers="1-2 3" # ip-address: 1.2.3.4@5678 servers="4-5 6" # # When several interfaces are configured to listen on the same subnet, # care must be taken to ensure responses go out the same interface the # corresponding query came in on to avoid problems with load balancers # and VLAN tagged interfaces. Linux offers the SO_BINDTODEVICE socket # option to bind a socket to a specified device. For FreeBSD, to # achieve the same result, specify the routing table to use after the # IP address to use SO_SETFIB. # # Complement with socket partitioning and CPU affinity for attack # mitigation benefits. i.e. only a single core is maxed out if a # specific IP address is under attack. # # ip-address: 1.2.3.4 setfib=0 bindtodevice=yes # ip-address: 1.2.3.5@6789 setfib=1 bindtodevice=yes # Allow binding to non local addresses. Default no. # ip-transparent: no # Allow binding to addresses that are down. Default no. # ip-freebind: no # Use SO_REUSEPORT socket option for performance. Default no. # reuseport: no # override maximum socket send buffer size. Default of 0 results in # send buffer size being set to 1048576 (bytes). # send-buffer-size: 1048576 # override maximum socket receive buffer size. Default of 0 results in # receive buffer size being set to 1048576 (bytes). # receive-buffer-size: 1048576 # enable debug mode, does not fork daemon process into the background. # debug-mode: no # listen on IPv4 connections # do-ip4: yes # listen on IPv6 connections # do-ip6: yes # port to answer queries on. default is 53. # port: 53 # Verbosity level. # verbosity: 0 # After binding socket, drop user privileges. # can be a username, id or id.gid. # username: @user@ # Run NSD in a chroot-jail. # make sure to have pidfile and database reachable from there. # by default, no chroot-jail is used. # chroot: "@configdir@" # The directory for zonefile: files. The daemon chdirs here. # zonesdir: "@zonesdir@" # the list of dynamically added zones. # zonelistfile: "@zonelistfile@" # the database to use # if set to "" then no disk-database is used, less memory usage. # database: "@dbfile@" # log messages to file. Default to stderr and syslog (with # facility LOG_DAEMON). stderr disappears when daemon goes to bg. # logfile: "@logfile@" # log only to syslog. # log-only-syslog: no # File to store pid for nsd in. # pidfile: "@pidfile@" # The file where secondary zone refresh and expire timeouts are kept. # If you delete this file, all secondary zones are forced to be # 'refreshing' (as if nsd got a notify). Set to "" to disable. # xfrdfile: "@xfrdfile@" # The directory where zone transfers are stored, in a subdir of it. # xfrdir: "@xfrdir@" # don't answer VERSION.BIND and VERSION.SERVER CHAOS class queries # hide-version: no # don't answer HOSTNAME.BIND and ID.SERVER CHAOS class queries # hide-identity: no # Drop UPDATE queries # drop-updates: no # version string the server responds with for chaos queries. # default is 'NSD x.y.z' with the server's version number. # version: "NSD" # identify the server (CH TXT ID.SERVER entry). # identity: "unidentified server" # NSID identity (hex string, or "ascii_somestring"). default disabled. # nsid: "aabbccdd" # Maximum number of concurrent TCP connections per server. # tcp-count: 100 # Accept (and immediately close) TCP connections after maximum number # of connections is reached to prevent kernel connection queue from # growing. # tcp-reject-overflow: no # Maximum number of queries served on a single TCP connection. # By default 0, which means no maximum. # tcp-query-count: 0 # Override the default (120 seconds) TCP timeout. # tcp-timeout: 120 # Maximum segment size (MSS) of TCP socket on which the server # responds to queries. Default is 0, system default MSS. # tcp-mss: 0 # Maximum segment size (MSS) of TCP socket for outgoing AXFR request. # Default is 0, system default MSS. # outgoing-tcp-mss: 0 # reduce these settings to save memory for NSD, to about # xfrd-tcp-max: 32 and xfrd-tcp-pipeline: 128, also rrl-size: 1000 # other memory is determined by server-count, tcp-count and zone data # max number of sockets used for outgoing zone transfers. # Increase this to allow more sockets for zone transfers. # xfrd-tcp-max: 128 # max number of simultaneous outgoing zone transfers over one socket. # xfrd-tcp-pipeline: 128 # Preferred EDNS buffer size for IPv4. # ipv4-edns-size: 1232 # Preferred EDNS buffer size for IPv6. # ipv6-edns-size: 1232 # statistics are produced every number of seconds. Prints to log. # Default is 0, meaning no statistics are produced. # statistics: 3600 # Number of seconds between reloads triggered by xfrd. # xfrd-reload-timeout: 1 # log timestamp in ascii (y-m-d h:m:s.msec), yes is default. # log-time-ascii: yes # round robin rotation of records in the answer. # round-robin: no # minimal-responses only emits extra data for referrals. # minimal-responses: no # Do not return additional information if the apex zone of the # additional information is configured but does not match the apex zone # of the initial query. # confine-to-zone: no # refuse queries of type ANY. For stopping floods. # refuse-any: no # check mtime of all zone files on start and sighup # zonefiles-check: yes # write changed zonefiles to disk, every N seconds. # default is 0(disabled) or 3600(if database is ""). # zonefiles-write: 3600 # RRLconfig # Response Rate Limiting, size of the hashtable. Default 1000000. # rrl-size: 1000000 # Response Rate Limiting, maximum QPS allowed (from one query source). # If set to 0, ratelimiting is disabled. Also set # rrl-whitelist-ratelimit to 0 to disable ratelimit processing. # Default is @ratelimit_default@. # rrl-ratelimit: 200 # Response Rate Limiting, number of packets to discard before # sending a SLIP response (a truncated one, allowing an honest # resolver to retry with TCP). Default is 2 (one half of the # queries will receive a SLIP response, 0 disables SLIP (all # packets are discarded), 1 means every request will get a # SLIP response. When the ratelimit is hit the traffic is # divided by the rrl-slip value. # rrl-slip: 2 # Response Rate Limiting, IPv4 prefix length. Addresses are # grouped by netblock. # rrl-ipv4-prefix-length: 24 # Response Rate Limiting, IPv6 prefix length. Addresses are # grouped by netblock. # rrl-ipv6-prefix-length: 64 # Response Rate Limiting, maximum QPS allowed (from one query source) # for whitelisted types. Default is @ratelimit_default@. # rrl-whitelist-ratelimit: 2000 # RRLend # Service clients over TLS (on the TCP sockets), with plain DNS inside # the TLS stream. Give the certificate to use and private key. # Default is "" (disabled). Requires restart to take effect. # tls-service-key: "path/to/privatekeyfile.key" # tls-service-pem: "path/to/publiccertfile.pem" # tls-service-ocsp: "path/to/ocsp.pem" # tls-port: 853 # Certificates used to authenticate connections made upstream for # Transfers over TLS (XoT). Default is "" (default verify locations). # tls-cert-bundle: "path/to/ca-bundle.pem" # DNSTAP config section, if compiled with that # dnstap: # set this to yes and set one or more of dnstap-log-..-messages to yes. # dnstap-enable: no # dnstap-socket-path: "@dnstap_socket_path@" # dnstap-send-identity: no # dnstap-send-version: no # dnstap-identity: "" # dnstap-version: "" # dnstap-log-auth-query-messages: no # dnstap-log-auth-response-messages: no # Remote control config section. remote-control: # Enable remote control with nsd-control(8) here. # set up the keys and certificates with nsd-control-setup. # control-enable: no # what interfaces are listened to for control, default is on localhost. # interfaces can be specified by IP address or interface name. # with an interface name, all IP addresses associated with that # interface are used. # with an absolute path, a unix local named pipe is used for control # (and key and cert files are not needed, use directory permissions). # control-interface: 127.0.0.1 # control-interface: ::1 # control-interface: lo # port number for remote control operations (uses TLS over TCP). # control-port: 8952 # nsd server key file for remote control. # server-key-file: "@configdir@/nsd_server.key" # nsd server certificate file for remote control. # server-cert-file: "@configdir@/nsd_server.pem" # nsd-control key file. # control-key-file: "@configdir@/nsd_control.key" # nsd-control certificate file. # control-cert-file: "@configdir@/nsd_control.pem" # Secret keys for TSIGs that secure zone transfers. # You could include: "secret.keys" and put the 'key:' statements in there, # and give that file special access control permissions. # # key: # The key name is sent to the other party, it must be the same #name: "keyname" # algorithm hmac-md5, or sha1, sha256, sha224, sha384, sha512 #algorithm: sha256 # secret material, must be the same as the other party uses. # base64 encoded random number. # e.g. from dd if=/dev/random of=/dev/stdout count=1 bs=32 | base64 #secret: "K2tf3TRjvQkVCmJF3/Z9vA==" # The tls-auth clause establishes authentication attributes to use when # authenticating the far end of an outgoing TLS connection in access control # lists used for XFR-over-TLS. If authentication fails, the XFR request will not # be made. Support for TLS 1.3 is required for XFR-over-TLS. It has the # following attributes: # # tls-auth: # The tls-auth name. Used to refer to this TLS auth information in the access control list. #name: "tls-authname" # The authentication domain name as defined in RFC8310. #auth-domain-name: "example.com" # Client certificate and private key for Mutual TLS authentication #client-cert: "path/to/clientcert.pem" #client-key: "path/to/clientkey.key" #client-key-pw: "password" # Patterns have zone configuration and they are shared by one or more zones. # # pattern: # name by which the pattern is referred to #name: "myzones" # the zonefile for the zones that use this pattern. # if relative then from the zonesdir (inside the chroot). # the name is processed: %s - zone name (as appears in zone:name). # %1 - first character of zone name, %2 second, %3 third. # %z - topleveldomain label of zone, %y, %x next labels in name. # if label or character does not exist you get a dot '.'. # for example "%s.zone" or "zones/%1/%2/%3/%s" or "secondary/%z/%s" #zonefile: "%s.zone" # The allow-query allows an access control list to be specified # for a zone to be queried. Without an allow-query option, any # IP address is allowed to send queries for the zone. # This could be useful for example to not leak content from a zone # which is only offered for transfer to secondaries over TLS. #allow-query: 192.0.2.0/24 NOKEY # If no master and slave access control elements are provided, # this zone will not be served to/from other servers. # A master zone needs notify: and provide-xfr: lists. A slave # may also allow zone transfer (for debug or other secondaries). # notify these slaves when the master zone changes, address TSIG|NOKEY # IP can be ipv4 and ipv6, with @port for a nondefault port number. #notify: 192.0.2.1 NOKEY # allow these IPs and TSIG to transfer zones, addr TSIG|NOKEY|BLOCKED # address range 192.0.2.0/24, 1.2.3.4&255.255.0.0, 3.0.2.20-3.0.2.40 #provide-xfr: 192.0.2.0/24 my_tsig_key_name # set the number of retries for notify. #notify-retry: 5 # uncomment to provide AXFR to all the world # provide-xfr: 0.0.0.0/0 NOKEY # provide-xfr: ::0/0 NOKEY # A slave zone needs allow-notify: and request-xfr: lists. #allow-notify: 2001:db8::0/64 my_tsig_key_name # By default, a slave will request a zone transfer with IXFR/TCP. # If you want to make use of IXFR/UDP use: UDP addr tsigkey # for a master that only speaks AXFR (like NSD) use AXFR addr tsigkey # If you want to require use of XFR-over-TLS use: addr tsigkey tlsauthname #request-xfr: 192.0.2.2 the_tsig_key_name #request-xfr: 192.0.2.2 the_tsig_key_name the_tls_auth_name # Attention: You cannot use UDP and AXFR together. AXFR is always over # TCP. If you use UDP, we highly recommend you to deploy TSIG. # Allow AXFR fallback if the master does not support IXFR. Default # is yes. #allow-axfr-fallback: yes # set local interface for sending zone transfer requests. # default is let the OS choose. #outgoing-interface: 10.0.0.10 # limit the refresh and retry interval in seconds. #max-refresh-time: 2419200 #min-refresh-time: 0 #max-retry-time: 1209600 #min-retry-time: 0 # Lower bound of expire interval in seconds. The value can be "refresh+retry+1" # in which case the lower bound of expire interval is the sum of the refresh and # retry values (limited to the bounds given with the above parameters), plus 1. #min-expire-time: 0 # Slave server tries zone transfer to all masters and picks highest # zone version available, for when masters have different versions. #multi-master-check: no # limit the zone transfer size (in bytes), stops very large transfers # 0 is no limits enforced. # size-limit-xfr: 0 # if compiled with --enable-zone-stats, give name of stat block for # this zone (or group of zones). Output from nsd-control stats. # zonestats: "%s" # if you give another pattern name here, at this point the settings # from that pattern are inserted into this one (as if it were a # macro). The statement can be given in between other statements, # because the order of access control elements can make a difference # (which master to request from first, which slave to notify first). #include-pattern: "common-masters" # Fixed zone entries. Here you can config zones that cannot be deleted. # Zones that are dynamically added and deleted are put in the zonelist file. # # zone: # name: "example.com" # you can give a pattern here, all the settings from that pattern # are then inserted at this point # include-pattern: "master" # You can also specify (additional) options directly for this zone. # zonefile: "example.com.zone" # request-xfr: 192.0.2.1 example.com.key # RRLconfig # Response Rate Limiting, whitelist types # rrl-whitelist: nxdomain # rrl-whitelist: error # rrl-whitelist: referral # rrl-whitelist: any # rrl-whitelist: rrsig # rrl-whitelist: wildcard # rrl-whitelist: nodata # rrl-whitelist: dnskey # rrl-whitelist: positive # rrl-whitelist: all # RRLend