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+.. highlight:: none
+.. _Configuration:
+
+*************
+Configuration
+*************
+
+Simple configuration
+====================
+
+The following example presents a simple configuration file
+which can be used as a base for your Knot DNS setup::
+
+ # Example of a very simple Knot DNS configuration.
+
+ server:
+ listen: 0.0.0.0@53
+ listen: ::@53
+
+ zone:
+ - domain: example.com
+ storage: /var/lib/knot/zones/
+ file: example.com.zone
+
+ log:
+ - target: syslog
+ any: info
+
+Now let's walk through this configuration step by step:
+
+- The :ref:`server_listen` statement in the :ref:`server section<Server section>`
+ defines where the server will listen for incoming connections.
+ We have defined the server to listen on all available IPv4 and IPv6 addresses,
+ all on port 53.
+- The :ref:`zone section<Zone section>` defines the zones that the server will
+ serve. In this case, we defined one zone named *example.com* which is stored
+ in the zone file :file:`/var/lib/knot/zones/example.com.zone`.
+- The :ref:`log section<Logging section>` defines the log facilities for
+ the server. In this example, we told Knot DNS to send its log messages with
+ the severity ``info`` or more serious to the syslog.
+
+For detailed description of all configuration items see
+:ref:`Configuration Reference`.
+
+Zone templates
+==============
+
+A zone template allows a single zone configuration to be shared among several zones.
+The ``default`` template identifier is reserved for the default template::
+
+ template:
+ - id: default
+ storage: /var/lib/knot/master
+ semantic-checks: on
+
+ - id: signed
+ storage: /var/lib/knot/signed
+ dnssec-signing: on
+ semantic-checks: on
+ master: [master1, master2]
+
+ - id: slave
+ storage: /var/lib/knot/slave
+
+ zone:
+ - domain: example1.com # Uses default template
+
+ - domain: example2.com # Uses default template
+ semantic-checks: off # Override default settings
+
+ - domain: example.cz
+ template: signed
+ master: master3 # Override masters to just master3
+
+ - domain: example1.eu
+ template: slave
+ master: master1
+
+ - domain: example2.eu
+ template: slave
+ master: master2
+
+.. NOTE::
+ Each template option can be explicitly overridden in zone-specific configuration.
+
+.. _ACL:
+
+Access control list (ACL)
+=========================
+
+The Access control list is a list of rules specifying remotes which are allowed to send certain types of requests to the server.
+Remotes can be specified by a single IP address or a network subnet. A TSIG
+key can also be assigned (see :doc:`keymgr <man_keymgr>` on how to generate a TSIG key).
+
+Without any ACL rules, all the actions are denied for the zone. Each ACL rule
+can allow one or more actions for a given address/subnet/TSIG, or deny them.
+
+If there are multiple ACL rules for a single zone, they are applied in the order
+of appearance in the :ref:`zone_acl` configuration item of a zone or a template.
+The first one to match the given remote is applied, the rest is ignored.
+
+See the following examples and :ref:`ACL section`.
+
+::
+
+ acl:
+ - id: address_rule
+ address: [2001:db8::1, 192.168.2.0/24]
+ action: transfer
+
+ - id: deny_rule
+ address: 192.168.2.100
+ action: transfer
+ deny: on
+
+ zone:
+ - domain: acl1.example.com.
+ acl: [deny_rule, address_rule] # deny_rule first here to take precendence
+
+::
+
+ key:
+ - id: key1 # The real TSIG key name
+ algorithm: hmac-md5
+ secret: Wg==
+
+ acl:
+ - id: deny_all
+ address: 192.168.3.0/24
+ deny: on # no action specified and deny on implies denial of all actions
+
+ - id: key_rule
+ key: key1 # Access based just on TSIG key
+ action: [transfer, notify]
+
+ zone:
+ - domain: acl2.example.com
+ acl: [deny_all, key_rule]
+
+.. NOTE::
+ If more conditions (address ranges and/or a key)
+ are given in a single ACL rule, all of them have to be satisfied for the rule to match.
+
+Slave zone
+==========
+
+Knot DNS doesn't strictly differ between master and slave zones. The
+only requirement is to have a :ref:`master<zone_master>` statement set for
+the given zone. Also note that you need to explicitly allow incoming zone
+changed notifications via ``notify`` :ref:`acl_action` through zone's
+:ref:`zone_acl` list, otherwise the update will be rejected by the server.
+If the zone file doesn't exist it will be bootstrapped over AXFR::
+
+ remote:
+ - id: master
+ address: 192.168.1.1@53
+
+ acl:
+ - id: notify_from_master
+ address: 192.168.1.1
+ action: notify
+
+ zone:
+ - domain: example.com
+ storage: /var/lib/knot/zones/
+ # file: example.com.zone # Default value
+ master: master
+ acl: notify_from_master
+
+Note that the :ref:`zone_master` option accepts a list of multiple remotes.
+The remotes should be listed according to their preference. The first remote
+has the highest preference, the other remotes are used for failover. When the
+server receives a zone update notification from a listed remote, that remote
+will be the most preferred one for the subsequent transfer.
+
+To use TSIG for transfers and notification messages authentication, configure
+a TSIG key and assign the key both to the remote and the ACL rule. Notice that
+the :ref:`remote <Remote section>` and :ref:`ACL <ACL section>` definitions are
+independent::
+
+ key:
+ - id: slave1_key
+ algorithm: hmac-md5
+ secret: Wg==
+
+ remote:
+ - id: master
+ address: 192.168.1.1@53
+ key: slave1_key
+
+ acl:
+ - id: notify_from_master
+ address: 192.168.1.1
+ key: slave1_key
+ action: notify
+
+.. NOTE::
+ When transferring a lot of zones, the server may easily get into a state
+ when all available ports are in the TIME_WAIT state, thus the transfers
+ seize until the operating system closes the ports for good. There are
+ several ways to work around this:
+
+ * Allow reusing of ports in TIME_WAIT (sysctl -w net.ipv4.tcp_tw_reuse=1)
+ * Shorten TIME_WAIT timeout (tcp_fin_timeout)
+ * Increase available local port count
+
+Master zone
+===========
+
+An ACL with the ``transfer`` action must be configured to allow outgoing zone
+transfers. An ACL rule consists of a single address or a network subnet::
+
+ remote:
+ - id: slave1
+ address: 192.168.2.1@53
+
+ acl:
+ - id: slave1_acl
+ address: 192.168.2.1
+ action: transfer
+
+ - id: others_acl
+ address: 192.168.3.0/24
+ action: transfer
+
+ zone:
+ - domain: example.com
+ storage: /var/lib/knot/zones/
+ file: example.com.zone
+ notify: slave1
+ acl: [slave1_acl, others_acl]
+
+Optionally, a TSIG key can be specified::
+
+ key:
+ - id: slave1_key
+ algorithm: hmac-md5
+ secret: Wg==
+
+ remote:
+ - id: slave1
+ address: 192.168.2.1@53
+ key: slave1_key
+
+ acl:
+ - id: slave1_acl
+ address: 192.168.2.1
+ key: slave1_key
+ action: transfer
+
+ - id: others_acl
+ address: 192.168.3.0/24
+ action: transfer
+
+Note that a slave zone may serve as a master zone at the same time::
+
+ remote:
+ - id: master
+ address: 192.168.1.1@53
+ - id: slave1
+ address: 192.168.2.1@53
+
+ acl:
+ - id: notify_from_master
+ address: 192.168.1.1
+ action: notify
+
+ - id: slave1_acl
+ address: 192.168.2.1
+ action: transfer
+
+ - id: others_acl
+ address: 192.168.3.0/24
+ action: transfer
+
+ zone:
+ - domain: example.com
+ storage: /var/lib/knot/zones/
+ file: example.com.zone
+ master: master
+ notify: slave1
+ acl: [notify_from_master, slave1_acl, others_acl]
+
+Dynamic updates
+===============
+
+Dynamic updates for the zone are allowed via proper ACL rule with the
+``update`` action. If the zone is configured as a slave and a DNS update
+message is accepted, the server forwards the message to its primary master.
+The master's response is then forwarded back to the originator.
+
+However, if the zone is configured as a master, the update is accepted and
+processed::
+
+ acl:
+ - id: update_acl
+ address: 192.168.3.0/24
+ action: update
+
+ zone:
+ - domain: example.com
+ file: example.com.zone
+ acl: update_acl
+
+.. _dnssec:
+
+Automatic DNSSEC signing
+========================
+
+Knot DNS supports automatic DNSSEC signing for static zones. The signing
+can operate in two modes:
+
+1. :ref:`Automatic key management <dnssec-automatic-zsk-management>`.
+ In this mode, the server maintains signing keys. New keys are generated
+ according to assigned policy and are rolled automatically in a safe manner.
+ No zone operator intervention is necessary.
+
+2. :ref:`Manual key management <dnssec-manual-key-management>`.
+ In this mode, the server maintains zone signatures only. The signatures
+ are kept up-to-date and signing keys are rolled according to timing
+ parameters assigned to the keys. The keys must be generated and timing
+ parameters must be assigned by the zone operator.
+
+The DNSSEC signing process maintains some metadata which is stored in the
+:abbr:`KASP (Key And Signature Policy)` database. This database is backed
+by LMDB.
+
+.. WARNING::
+ Make sure to set the KASP database permissions correctly. For manual key
+ management, the database must be *readable* by the server process. For
+ automatic key management, it must be *writeable*. If no HSM is used,
+ the database also contains private key material – don't set the permissions
+ too weak.
+
+.. _dnssec-automatic-zsk-management:
+
+Automatic ZSK management
+------------------------
+
+For automatic ZSK management a signing :ref:`policy<Policy section>` has to
+be configured and assigned to the zone. The policy specifies how the zone
+is signed (i.e. signing algorithm, key size, key lifetime, signature lifetime,
+etc.). If no policy is specified or the ``default`` one is assigned, the
+default signing parameters are used.
+
+A minimal zone configuration may look as follows::
+
+ zone:
+ - domain: myzone.test
+ dnssec-signing: on
+
+With a custom signing policy, the policy section will be added::
+
+ policy:
+ - id: rsa
+ algorithm: RSASHA256
+ ksk-size: 2048
+ zsk-size: 1024
+
+ zone:
+ - domain: myzone.test
+ dnssec-signing: on
+ dnssec-policy: rsa
+
+After configuring the server, reload the changes:
+
+.. code-block:: console
+
+ $ knotc reload
+
+The server will generate initial signing keys and sign the zone properly. Check
+the server logs to see whether everything went well.
+
+.. WARNING::
+ This guide assumes that the zone *myzone.test* was not signed prior to
+ enabling the automatic key management. If the zone was already signed, all
+ existing keys must be imported using ``keymgr import-bind`` command
+ before enabling the automatic signing. Also the algorithm in the policy must
+ match the algorithm of all imported keys. Otherwise the zone will be re-signed
+ at all.
+
+.. _dnssec-automatic-ksk-management:
+
+Automatic KSK management
+------------------------
+
+For automatic KSK management, first configure ZSK management like above, and use
+additional options in :ref:`policy section <Policy section>`, mostly specifying
+desired (finite) lifetime for KSK: ::
+
+ remote:
+ - id: test_zone_server
+ address: 192.168.12.1@53
+
+ submission:
+ - id: test_zone_sbm
+ parent: [test_zone_server]
+
+ policy:
+ - id: rsa
+ algorithm: RSASHA256
+ ksk-size: 2048
+ zsk-size: 1024
+ zsk-lifetime: 30d
+ ksk-lifetime: 365d
+ ksk-submission: test_zone_sbm
+
+ zone:
+ - domain: myzone.test
+ dnssec-signing: on
+ dnssec-policy: rsa
+
+After the initially-generated KSK reaches its lifetime, new KSK is published and after
+convenience delay the submission is started. The server publishes CDS and CDNSKEY records
+and the user shall propagate them to the parent. The server periodically checks for
+DS at the master and when positive, finishes the rollover.
+
+To share KSKs among zones, set the ksk-shared policy parameter. It is strongly discouraged to
+change the policy ``id`` afterwards! The shared key's creation timestamp will be equal for all
+zones, but other timers (e.g. activate, retire) may get out of sync. ::
+
+ policy:
+ - id: shared
+ ...
+ ksk-shared: true
+
+ zone:
+ - domain: firstzone.test
+ dnssec-signing: on
+ dnssec-policy: shared
+
+ zone:
+ - domain: secondzone.test
+ dnssec-signing: on
+ dnssec-policy: shared
+
+.. _dnssec-manual-key-management:
+
+Manual key management
+---------------------
+
+For automatic DNSSEC signing with manual key management, a signing policy
+with manual key management flag has to be set::
+
+ policy:
+ - id: manual
+ manual: on
+
+ zone:
+ - domain: myzone.test
+ dnssec-signing: on
+ dnssec-policy: manual
+
+To generate signing keys, use the :doc:`keymgr <man_keymgr>` utility.
+Let's use the Single-Type Signing scheme with two algorithms. Run:
+
+.. code-block:: console
+
+ $ keymgr myzone.test. generate algorithm=ECDSAP256SHA256
+ $ keymgr myzone.test. generate algorithm=ED25519
+
+And reload the server. The zone will be signed.
+
+To perform a manual rollover of a key, the timing parameters of the key need
+to be set. Let's roll the RSA key. Generate a new RSA key, but do not activate
+it yet:
+
+.. code-block:: console
+
+ $ keymgr myzone.test. generate algorithm=RSASHA256 size=1024 active=+1d
+
+Take the key ID (or key tag) of the old RSA key and disable it the same time
+the new key gets activated:
+
+.. code-block:: console
+
+ $ keymgr myzone.test. set <old_key_id> retire=+1d remove=+1d
+
+Reload the server again. The new key will be published (i.e. the DNSKEY record
+will be added into the zone). Do not forget to update the DS record in the
+parent zone to include a reference to the new RSA key. This must happen in one
+day (in this case) including a delay required to propagate the new DS to
+caches.
+
+Note that as the ``+1d`` time specification is computed from the current time,
+the key replacement will not happen at once. First, a new key will be
+activated. A few moments later, the old key will be deactivated and removed.
+You can use exact time specification to make these two actions happen in one
+go.
+
+.. WARNING::
+ If you ever decide to switch from manual key management to automatic key management,
+ note that the automatic key management uses
+ :ref:`policy_zsk-lifetime` and :ref:`policy_ksk-lifetime` policy configuration
+ options to schedule key rollovers and it internally uses timestamps of keys differently
+ than in the manual case. As a consequence it might break if the ``retire`` or ``remove`` timestamps
+ are set for the manually generated keys currently in use. Make sure to set these timestamps
+ to zero using :doc:`keymgr <man_keymgr>`:
+
+ .. code-block:: console
+
+ $ keymgr myzone.test. set <key_id> retire=0 remove=0
+
+ and configure your policy suitably according to :ref:`dnssec-automatic-zsk-management`
+ and :ref:`dnssec-automatic-ksk-management`.
+
+.. _dnssec-signing:
+
+Zone signing
+------------
+
+The signing process consists of the following steps:
+
+#. Processing KASP database events. (e.g. performing a step of a rollover).
+#. Updating the DNSKEY records. The whole DNSKEY set in zone apex is replaced
+ by the keys from the KASP database. Note that keys added into the zone file
+ manually will be removed. To add an extra DNSKEY record into the set, the
+ key must be imported into the KASP database (possibly deactivated).
+#. Fixing the NSEC or NSEC3 chain.
+#. Removing expired signatures, invalid signatures, signatures expiring
+ in a short time, and signatures issued by an unknown key.
+#. Creating missing signatures. Unless the Single-Type Signing Scheme
+ is used, DNSKEY records in a zone apex are signed by KSK keys and
+ all other records are signed by ZSK keys.
+#. Updating and re-signing SOA record.
+
+The signing is initiated on the following occasions:
+
+- Start of the server
+- Zone reload
+- Reaching the signature refresh period
+- Key set changed due to rollover event
+- Received DDNS update
+- Forced zone re-sign via server control interface
+
+On a forced zone re-sign, all signatures in the zone are dropped and recreated.
+
+The ``knotc zone-status`` command can be used to see when the next scheduled
+DNSSEC re-sign will happen.
+
+.. _dnssec-on-slave-signing:
+
+On-slave signing
+----------------
+
+It is possible to enable automatic DNSSEC zone signing even on a slave
+server. If enabled, the zone is signed after every AXFR/IXFR transfer
+from master, so that the slave always serves a signed up-to-date version
+of the zone.
+
+It is strongly recommended to block any outside access to the master
+server, so that only the slave's signed version of the zone is served.
+
+Enabled on-slave signing introduces events when the slave zone changes
+while the master zone remains unchanged, such as a key rollover or
+refreshing of RRSIG records, which cause inequality of zone SOA serial
+between master and slave. The slave server handles this by saving the
+master's SOA serial in a special variable inside KASP DB and appropriately
+modifiying AXFR/IXFR queries/answers to keep the communication with
+master consistent while applying the changes with a different serial.
+
+It is recommended to use UNIX time serial policy on master and incremental
+serial policy on slave so that their SOA serials are equal most of the time.
+
+.. _query-modules:
+
+Query modules
+=============
+
+Knot DNS supports configurable query modules that can alter the way
+queries are processed. Each query requires a finite number of steps to
+be resolved. We call this set of steps a *query plan*, an abstraction
+that groups these steps into several stages.
+
+* Before-query processing
+* Answer, Authority, Additional records packet sections processing
+* After-query processing
+
+For example, processing an Internet-class query needs to find an
+answer. Then based on the previous state, it may also append an
+authority SOA or provide additional records. Each of these actions
+represents a 'processing step'. Now, if a query module is loaded for a
+zone, it is provided with an implicit query plan which can be extended
+by the module or even changed altogether.
+
+A module is active if its name, which includes the ``mod-`` prefix, is assigned
+to the zone/template :ref:`zone_module` option or to the ``default`` template
+:ref:`template_global-module` option if activating for all queries.
+If the module is configurable, a corresponding module section with
+an identifier must be created and then referenced in the form of
+``module_name/module_id``. See :ref:`Modules` for the list of available modules.
+
+.. NOTE::
+ Query modules are processed in the order they are specified in the
+ zone/template configuration. In most cases, the recommended order is::
+
+ mod-synthrecord, mod-onlinesign, mod-rrl, mod-dnstap, mod-stats
+
+Performance Tuning
+==================
+
+Numbers of Workers
+------------------
+
+There are three types of workers ready for parallel execution of performance-oriented tasks:
+UDP workers, TCP workers, and Background workers. The first two types handle all network requests
+coming through UDP and TCP protocol (respectively) and do all the response job for common
+queries. Background workers process changes to the zone.
+
+By default, Knot determines well-fitting number of workers based on the number of CPU cores.
+The user can specify the numbers of workers for each type with configuration/server section:
+:ref:`server_udp-workers`, :ref:`server_tcp-workers`, :ref:`server_background-workers`.
+
+An indication on when to increase number of workers is a situation when the server is lagging behind
+the expected performance, while the CPU usage is low. This is usually because of waiting for network
+or I/O response during the operation. It may be caused by Knot design not fitting well the usecase.
+The user should try increasing the number of workers (of the related type) slightly above 100 and if
+the performance gets better, he can decide about further exact setting.
+
+Sysctl and NIC optimizations
+----------------------------
+
+There are several recommendations based on Knot developers' experience with their specific HW and SW
+(mainstream Intel-based servers, Debian-based GNU/Linux distribution). They may or may not positively
+(or negatively) influence performance in common use cases.
+
+If your NIC driver allows it (see /proc/interrupts for hint), set CPU affinity (/proc/irq/$IRQ/smp_affinity)
+manually so that each NIC channel is served by unique CPU core(s). You must turn off irqbalance service
+before to avoid configuration override.
+
+Configure sysctl as follows: ::
+
+ socket_bufsize=1048576
+ busy_latency=0
+ backlog=40000
+ optmem_max=20480
+
+ net.core.wmem_max = $socket_bufsize
+ net.core.wmem_default = $socket_bufsize
+ net.core.rmem_max = $socket_bufsize
+ net.core.rmem_default = $socket_bufsize
+ net.core.busy_read = $busy_latency
+ net.core.busy_poll = $busy_latency
+ net.core.netdev_max_backlog = $backlog
+ net.core.optmem_max = $optmem_max
+
+Disable huge pages.
+
+Configure your CPU to "performance" mode. This can be achieved depending on architecture, e.g. in BIOS,
+or e.g. configuring /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor to "performance".
+
+Tune your NIC device with ethtool: ::
+
+ ethtool -A $dev autoneg off rx off tx off
+ ethtool -K $dev tso off gro off ufo off
+ ethtool -G $dev rx 4096 tx 4096
+ ethtool -C $dev rx-usecs 75
+ ethtool -C $dev tx-usecs 75
+ ethtool -N $dev rx-flow-hash udp4 sdfn
+ ethtool -N $dev rx-flow-hash udp6 sdfn
+
+On FreeBSD you can just: ::
+
+ ifconfig ${dev} -rxcsum -txcsum -lro -tso
+
+Knot developers are open to hear about users' further suggestions about network devices tuning/optimization.