375 lines
12 KiB
Haskell
375 lines
12 KiB
Haskell
module Propellor.Property.Dns (
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module Propellor.Types.Dns,
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primary,
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secondary,
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secondaryFor,
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mkSOA,
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writeZoneFile,
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nextSerialNumber,
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adjustSerialNumber,
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serialNumberOffset,
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WarningMessage,
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genZone,
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) where
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import Propellor
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import Propellor.Types.Dns
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import Propellor.Property.File
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import Propellor.Types.Attr
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import qualified Propellor.Property.Apt as Apt
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import qualified Propellor.Property.Service as Service
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import Utility.Applicative
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import qualified Data.Map as M
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import qualified Data.Set as S
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import Data.List
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-- | Primary dns server for a domain.
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--
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-- Most of the content of the zone file is configured by setting properties
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-- of hosts. For example,
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--
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-- > host "foo.example.com"
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-- > & ipv4 "192.168.1.1"
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-- > & alias "mail.exmaple.com"
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--
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-- Will cause that hostmame and its alias to appear in the zone file,
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-- with the configured IP address.
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--
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-- The [(BindDomain, Record)] list can be used for additional records
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-- that cannot be configured elsewhere. This often includes NS records,
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-- TXT records and perhaps CNAMEs pointing at hosts that propellor does
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-- not control.
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primary :: [Host] -> Domain -> SOA -> [(BindDomain, Record)] -> RevertableProperty
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primary hosts domain soa rs = RevertableProperty setup cleanup
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where
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setup = withwarnings (check needupdate baseprop)
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`requires` servingZones
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`onChange` Service.reloaded "bind9"
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cleanup = check (doesFileExist zonefile) $
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property ("removed dns primary for " ++ domain)
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(makeChange $ removeZoneFile zonefile)
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`requires` namedConfWritten
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`onChange` Service.reloaded "bind9"
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(partialzone, warnings) = genZone hosts domain soa
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zone = partialzone { zHosts = zHosts partialzone ++ rs }
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zonefile = "/etc/bind/propellor/db." ++ domain
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baseprop = Property ("dns primary for " ++ domain)
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(makeChange $ writeZoneFile zone zonefile)
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(addNamedConf conf)
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withwarnings p = adjustProperty p $ \satisfy -> do
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mapM_ warningMessage warnings
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satisfy
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conf = NamedConf
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{ confDomain = domain
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, confType = Master
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, confFile = zonefile
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, confMasters = []
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, confLines = []
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}
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needupdate = do
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v <- readZonePropellorFile zonefile
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return $ case v of
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Nothing -> True
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Just oldzone ->
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-- compare everything except serial
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let oldserial = sSerial (zSOA oldzone)
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z = zone { zSOA = (zSOA zone) { sSerial = oldserial } }
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in z /= oldzone || oldserial < sSerial (zSOA zone)
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-- | Secondary dns server for a domain.
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--
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-- The primary server is determined by looking at the properties of other
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-- hosts to find which one is configured as the primary.
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--
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-- Note that if a host is declared to be a primary and a secondary dns
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-- server for the same domain, the primary server config always wins.
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secondary :: [Host] -> Domain -> RevertableProperty
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secondary hosts domain = secondaryFor masters hosts domain
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where
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masters = M.keys $ M.filter ismaster $ hostAttrMap hosts
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ismaster attr = case M.lookup domain (_namedconf attr) of
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Nothing -> False
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Just conf -> confType conf == Master && confDomain conf == domain
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-- | This variant is useful if the primary server does not have its DNS
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-- configured via propellor.
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secondaryFor :: [HostName] -> [Host] -> Domain -> RevertableProperty
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secondaryFor masters hosts domain = RevertableProperty setup cleanup
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where
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setup = pureAttrProperty desc (addNamedConf conf)
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`requires` servingZones
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cleanup = namedConfWritten
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desc = "dns secondary for " ++ domain
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conf = NamedConf
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{ confDomain = domain
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, confType = Secondary
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, confFile = "db." ++ domain
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, confMasters = concatMap (\m -> hostAddresses m hosts) masters
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, confLines = ["allow-transfer { }"]
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}
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-- | Rewrites the whole named.conf.local file to serve the zones
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-- configured by `primary` and `secondary`, and ensures that bind9 is
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-- running.
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servingZones :: Property
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servingZones = namedConfWritten
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`requires` Apt.serviceInstalledRunning "bind9"
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`onChange` Service.reloaded "bind9"
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namedConfWritten :: Property
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namedConfWritten = property "named.conf configured" $ do
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zs <- getNamedConf
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ensureProperty $
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hasContent namedConfFile $
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concatMap confStanza $ M.elems zs
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confStanza :: NamedConf -> [Line]
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confStanza c =
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[ "// automatically generated by propellor"
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, "zone \"" ++ confDomain c ++ "\" {"
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, cfgline "type" (if confType c == Master then "master" else "slave")
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, cfgline "file" ("\"" ++ confFile c ++ "\"")
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] ++
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(if null (confMasters c) then [] else mastersblock) ++
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(map (\l -> "\t" ++ l ++ ";") (confLines c)) ++
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[ "};"
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, ""
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]
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where
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cfgline f v = "\t" ++ f ++ " " ++ v ++ ";"
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mastersblock =
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[ "\tmasters {" ] ++
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(map (\ip -> "\t\t" ++ fromIPAddr ip ++ ";") (confMasters c)) ++
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[ "\t};" ]
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namedConfFile :: FilePath
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namedConfFile = "/etc/bind/named.conf.local"
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-- | Generates a SOA with some fairly sane numbers in it.
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--
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-- The Domain is the domain to use in the SOA record. Typically
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-- something like ns1.example.com. So, not the domain that this is the SOA
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-- record for.
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--
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-- The SerialNumber can be whatever serial number was used by the domain
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-- before propellor started managing it. Or 0 if the domain has only ever
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-- been managed by propellor.
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--
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-- You do not need to increment the SerialNumber when making changes!
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-- Propellor will automatically add the number of commits in the git
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-- repository to the SerialNumber.
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mkSOA :: Domain -> SerialNumber -> SOA
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mkSOA d sn = SOA
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{ sDomain = AbsDomain d
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, sSerial = sn
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, sRefresh = hours 4
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, sRetry = hours 1
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, sExpire = 2419200 -- 4 weeks
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, sNegativeCacheTTL = hours 8
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}
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where
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hours n = n * 60 * 60
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dValue :: BindDomain -> String
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dValue (RelDomain d) = d
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dValue (AbsDomain d) = d ++ "."
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dValue (RootDomain) = "@"
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rField :: Record -> String
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rField (Address (IPv4 _)) = "A"
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rField (Address (IPv6 _)) = "AAAA"
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rField (CNAME _) = "CNAME"
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rField (MX _ _) = "MX"
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rField (NS _) = "NS"
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rField (TXT _) = "TXT"
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rField (SRV _ _ _ _) = "SRV"
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rValue :: Record -> String
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rValue (Address (IPv4 addr)) = addr
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rValue (Address (IPv6 addr)) = addr
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rValue (CNAME d) = dValue d
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rValue (MX pri d) = show pri ++ " " ++ dValue d
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rValue (NS d) = dValue d
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rValue (SRV priority weight port target) = unwords
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[ show priority
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, show weight
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, show port
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, dValue target
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]
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rValue (TXT s) = [q] ++ filter (/= q) s ++ [q]
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where
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q = '"'
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-- | Adjusts the serial number of the zone to always be larger
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-- than the serial number in the Zone record,
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-- and always be larger than the passed SerialNumber.
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nextSerialNumber :: Zone -> SerialNumber -> Zone
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nextSerialNumber z serial = adjustSerialNumber z $ \sn -> succ $ max sn serial
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adjustSerialNumber :: Zone -> (SerialNumber -> SerialNumber) -> Zone
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adjustSerialNumber (Zone d soa l) f = Zone d soa' l
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where
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soa' = soa { sSerial = f (sSerial soa) }
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-- | Count the number of git commits made to the current branch.
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serialNumberOffset :: IO SerialNumber
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serialNumberOffset = fromIntegral . length . lines
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<$> readProcess "git" ["log", "--pretty=%H"]
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-- | Write a Zone out to a to a file.
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--
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-- The serial number in the Zone automatically has the serialNumberOffset
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-- added to it. Also, just in case, the old serial number used in the zone
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-- file is checked, and if it is somehow larger, its succ is used.
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writeZoneFile :: Zone -> FilePath -> IO ()
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writeZoneFile z f = do
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oldserial <- oldZoneFileSerialNumber f
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offset <- serialNumberOffset
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let z' = nextSerialNumber
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(adjustSerialNumber z (+ offset))
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oldserial
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createDirectoryIfMissing True (takeDirectory f)
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writeFile f (genZoneFile z')
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writeZonePropellorFile f z'
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removeZoneFile :: FilePath -> IO ()
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removeZoneFile f = do
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nukeFile f
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nukeFile (zonePropellorFile f)
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-- | Next to the zone file, is a ".propellor" file, which contains
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-- the serialized Zone. This saves the bother of parsing
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-- the horrible bind zone file format.
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zonePropellorFile :: FilePath -> FilePath
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zonePropellorFile f = f ++ ".propellor"
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oldZoneFileSerialNumber :: FilePath -> IO SerialNumber
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oldZoneFileSerialNumber = maybe 0 (sSerial . zSOA) <$$> readZonePropellorFile
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writeZonePropellorFile :: FilePath -> Zone -> IO ()
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writeZonePropellorFile f z = writeFile (zonePropellorFile f) (show z)
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readZonePropellorFile :: FilePath -> IO (Maybe Zone)
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readZonePropellorFile f = catchDefaultIO Nothing $
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readish <$> readFileStrict (zonePropellorFile f)
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-- | Generating a zone file.
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genZoneFile :: Zone -> String
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genZoneFile (Zone zdomain soa rs) = unlines $
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header : genSOA soa ++ map (genRecord zdomain) rs
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where
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header = com $ "BIND zone file for " ++ zdomain ++ ". Generated by propellor, do not edit."
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genRecord :: Domain -> (BindDomain, Record) -> String
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genRecord zdomain (domain, record) = intercalate "\t"
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[ domainHost zdomain domain
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, "IN"
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, rField record
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, rValue record
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]
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genSOA :: SOA -> [String]
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genSOA soa =
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-- "@ IN SOA ns1.example.com. root ("
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[ intercalate "\t"
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[ dValue RootDomain
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, "IN"
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, "SOA"
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, dValue (sDomain soa)
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, "root"
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, "("
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]
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, headerline sSerial "Serial"
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, headerline sRefresh "Refresh"
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, headerline sRetry "Retry"
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, headerline sExpire "Expire"
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, headerline sNegativeCacheTTL "Negative Cache TTL"
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, inheader ")"
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]
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where
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headerline r comment = inheader $ show (r soa) ++ "\t\t" ++ com comment
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inheader l = "\t\t\t" ++ l
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-- | Comment line in a zone file.
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com :: String -> String
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com s = "; " ++ s
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type WarningMessage = String
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-- | Generates a Zone for a particular Domain from the DNS properies of all
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-- hosts that propellor knows about that are in that Domain.
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genZone :: [Host] -> Domain -> SOA -> (Zone, [WarningMessage])
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genZone hosts zdomain soa =
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let (warnings, zhosts) = partitionEithers $ concat $ map concat
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[ map hostips inzdomain
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, map hostrecords inzdomain
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, map addcnames (M.elems m)
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]
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in (Zone zdomain soa (nub zhosts), warnings)
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where
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m = hostAttrMap hosts
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-- Known hosts with hostname located in the zone's domain.
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inzdomain = M.elems $ M.filterWithKey (\hn _ -> inDomain zdomain $ AbsDomain $ hn) m
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-- Each host with a hostname located in the zdomain
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-- should have 1 or more IPAddrs in its Attr.
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--
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-- If a host lacks any IPAddr, it's probably a misconfiguration,
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-- so warn.
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hostips :: Attr -> [Either WarningMessage (BindDomain, Record)]
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hostips attr
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| null l = [Left $ "no IP address defined for host " ++ _hostname attr]
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| otherwise = map Right l
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where
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l = zip (repeat $ AbsDomain $ _hostname attr)
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(map Address $ getAddresses attr)
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-- Any host, whether its hostname is in the zdomain or not,
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-- may have cnames which are in the zdomain. The cname may even be
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-- the same as the root of the zdomain, which is a nice way to
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-- specify IP addresses for a SOA record.
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--
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-- Add Records for those.. But not actually, usually, cnames!
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-- Why not? Well, using cnames doesn't allow doing some things,
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-- including MX and round robin DNS, and certianly CNAMES
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-- shouldn't be used in SOA records.
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--
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-- We typically know the host's IPAddrs anyway.
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-- So we can just use the IPAddrs.
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addcnames :: Attr -> [Either WarningMessage (BindDomain, Record)]
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addcnames attr = concatMap gen $ filter (inDomain zdomain) $
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mapMaybe getCNAME $ S.toList (_dns attr)
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where
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gen c = case getAddresses attr of
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[] -> [ret (CNAME c)]
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l -> map (ret . Address) l
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where
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ret record = Right (c, record)
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-- Adds any other DNS records for a host located in the zdomain.
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hostrecords :: Attr -> [Either WarningMessage (BindDomain, Record)]
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hostrecords attr = map Right l
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where
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l = zip (repeat $ AbsDomain $ _hostname attr)
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(S.toList $ S.filter (\r -> isNothing (getIPAddr r) && isNothing (getCNAME r)) (_dns attr))
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inDomain :: Domain -> BindDomain -> Bool
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inDomain domain (AbsDomain d) = domain == d || ('.':domain) `isSuffixOf` d
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inDomain _ _ = False -- can't tell, so assume not
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-- | Gets the hostname of the second domain, relative to the first domain,
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-- suitable for using in a zone file.
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domainHost :: Domain -> BindDomain -> String
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domainHost _ (RelDomain d) = d
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domainHost _ RootDomain = "@"
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domainHost base (AbsDomain d)
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| dotbase `isSuffixOf` d = take (length d - length dotbase) d
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| base == d = "@"
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| otherwise = d
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where
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dotbase = '.':base
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