Safe Haskell | None |
---|---|
Language | Haskell2010 |
Simple, high-level DNS lookup functions.
All of the lookup functions necessary run in IO, since they interact with the network. The return types are similar, but differ in what can be returned from a successful lookup.
We can think of the return type as "either what I asked for, or
an error". For example, the lookupA
function, if successful,
will return a list of IPv4
. The lookupMX
function will
instead return a list of (
pairs, where each pair
represents a hostname and its associated priority.Domain
,Int)
The order of multiple results may not be consistent between
lookups. If you require consistent results, apply
sort
to the returned list.
The errors that can occur are the same for all lookups. Namely:
- Timeout
- Wrong sequence number (foul play?)
- Unexpected data in the response
If an error occurs, you should be able to pattern match on the
DNSError
constructor to determine which of these is the case.
Note: A result of "no records" is not considered an
error. If you perform, say, an 'AAAA' lookup for a domain with
no such records, the "success" result would be Right []
.
We perform a successful lookup of "www.example.com":
>>>
let hostname = Data.ByteString.Char8.pack "www.example.com"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupA resolver hostname
Right [93.184.216.34]
The only error that we can easily cause is a timeout. We do this
by creating and utilizing a ResolvConf
which has a timeout of
one millisecond and a very limited number of retries:
>>>
let hostname = Data.ByteString.Char8.pack "www.example.com"
>>>
let badrc = defaultResolvConf { resolvTimeout = 1, resolvRetry = 1 }
>>>
>>>
rs <- makeResolvSeed badrc
>>>
withResolver rs $ \resolver -> lookupA resolver hostname
Left RetryLimitExceeded
As is the convention, successful results will always be wrapped
in a Right
, while errors will be wrapped in a Left
.
For convenience, you may wish to enable GHC's OverloadedStrings
extension. This will allow you to avoid calling
pack
on each domain name. See
http://www.haskell.org/ghc/docs/7.6.3/html/users_guide/type-class-extensions.html#overloaded-strings
for more information.
- lookupA :: Resolver -> Domain -> IO (Either DNSError [IPv4])
- lookupAAAA :: Resolver -> Domain -> IO (Either DNSError [IPv6])
- lookupMX :: Resolver -> Domain -> IO (Either DNSError [(Domain, Int)])
- lookupAviaMX :: Resolver -> Domain -> IO (Either DNSError [IPv4])
- lookupAAAAviaMX :: Resolver -> Domain -> IO (Either DNSError [IPv6])
- lookupNS :: Resolver -> Domain -> IO (Either DNSError [Domain])
- lookupNSAuth :: Resolver -> Domain -> IO (Either DNSError [Domain])
- lookupTXT :: Resolver -> Domain -> IO (Either DNSError [ByteString])
- lookupPTR :: Resolver -> Domain -> IO (Either DNSError [Domain])
- lookupRDNS :: Resolver -> Domain -> IO (Either DNSError [Domain])
- lookupSRV :: Resolver -> Domain -> IO (Either DNSError [(Int, Int, Int, Domain)])
Documentation
lookupA :: Resolver -> Domain -> IO (Either DNSError [IPv4]) Source #
Look up all 'A' records for the given hostname.
A straightforward example:
>>>
let hostname = Data.ByteString.Char8.pack "www.mew.org"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupA resolver hostname
Right [210.130.207.72]
This function will also follow a CNAME and resolve its target if one exists for the queries hostname:
>>>
let hostname = Data.ByteString.Char8.pack "www.kame.net"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupA resolver hostname
Right [203.178.141.194]
lookupAAAA :: Resolver -> Domain -> IO (Either DNSError [IPv6]) Source #
Look up all (IPv6) 'AAAA' records for the given hostname.
Examples:
>>>
let hostname = Data.ByteString.Char8.pack "www.wide.ad.jp"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupAAAA resolver hostname
Right [2001:200:dff:fff1:216:3eff:fe4b:651c]
lookupMX :: Resolver -> Domain -> IO (Either DNSError [(Domain, Int)]) Source #
Look up all 'MX' records for the given hostname. Two parts
constitute an MX record: a hostname , and an integer priority. We
therefore return each record as a (
.Domain
, Int)
In this first example, we look up the MX for the domain "example.com". It has no MX (to prevent a deluge of spam from examples posted on the internet). But remember, "no results" is still a successful result.
>>>
let hostname = Data.ByteString.Char8.pack "example.com"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupMX resolver hostname
Right []
The domain "mew.org" does however have a single MX:
>>>
let hostname = Data.ByteString.Char8.pack "mew.org"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupMX resolver hostname
Right [("mail.mew.org.",10)]
Also note that all hostnames are returned with a trailing dot to indicate the DNS root.
lookupAviaMX :: Resolver -> Domain -> IO (Either DNSError [IPv4]) Source #
Look up all 'MX' records for the given hostname, and then
resolve their hostnames to IPv4 addresses by calling
lookupA
. The priorities are not retained.
Examples:
>>>
import Data.List (sort)
>>>
let hostname = Data.ByteString.Char8.pack "wide.ad.jp"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
ips <- withResolver rs $ \resolver -> lookupAviaMX resolver hostname
>>>
fmap sort ips
Right [133.138.10.39,203.178.136.30]
Since there is more than one result, it is necessary to sort the list in order to check for equality.
lookupAAAAviaMX :: Resolver -> Domain -> IO (Either DNSError [IPv6]) Source #
Look up all 'MX' records for the given hostname, and then
resolve their hostnames to IPv6 addresses by calling
lookupAAAA
. The priorities are not retained.
lookupNS :: Resolver -> Domain -> IO (Either DNSError [Domain]) Source #
Look up all 'NS' records for the given hostname. The results are taken from the ANSWER section of the response (as opposed to AUTHORITY). For details, see e.g. http://www.zytrax.com/books/dns/ch15/.
There will typically be more than one name server for a domain. It is therefore extra important to sort the results if you prefer them to be at all deterministic.
Examples:
>>>
import Data.List (sort)
>>>
let hostname = Data.ByteString.Char8.pack "mew.org"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
ns <- withResolver rs $ \resolver -> lookupNS resolver hostname
>>>
fmap sort ns
Right ["ns1.mew.org.","ns2.mew.org."]
lookupNSAuth :: Resolver -> Domain -> IO (Either DNSError [Domain]) Source #
Look up all 'NS' records for the given hostname. The results
are taken from the AUTHORITY section of the response and not the
usual ANSWER (use lookupNS
for that). For details, see e.g.
http://www.zytrax.com/books/dns/ch15/.
There will typically be more than one name server for a domain. It is therefore extra important to sort the results if you prefer them to be at all deterministic.
For an example, we can look up the nameservers for "example.com" from one of the root servers, a.gtld-servers.net, the IP address of which was found beforehand:
>>>
import Data.List (sort)
>>>
let hostname = Data.ByteString.Char8.pack "example.com"
>>>
>>>
let ri = RCHostName "192.5.6.30" -- a.gtld-servers.net
>>>
let rc = defaultResolvConf { resolvInfo = ri }
>>>
rs <- makeResolvSeed rc
>>>
ns <- withResolver rs $ \resolver -> lookupNSAuth resolver hostname
>>>
fmap sort ns
Right ["a.iana-servers.net.","b.iana-servers.net."]
lookupTXT :: Resolver -> Domain -> IO (Either DNSError [ByteString]) Source #
Look up all 'TXT' records for the given hostname. The results
are free-form ByteString
s.
Two common uses for 'TXT' records are http://en.wikipedia.org/wiki/Sender_Policy_Framework and http://en.wikipedia.org/wiki/DomainKeys_Identified_Mail. As an example, we find the SPF record for "mew.org":
>>>
let hostname = Data.ByteString.Char8.pack "mew.org"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupTXT resolver hostname
Right ["v=spf1 +mx -all"]
lookupPTR :: Resolver -> Domain -> IO (Either DNSError [Domain]) Source #
Look up all 'PTR' records for the given hostname. To perform a reverse lookup on an IP address, you must first reverse its octets and then append the suffix ".in-addr.arpa."
We look up the PTR associated with the IP address 210.130.137.80, i.e., 80.137.130.210.in-addr.arpa:
>>>
let hostname = Data.ByteString.Char8.pack "164.2.232.202.in-addr.arpa"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupPTR resolver hostname
Right ["www.iij.ad.jp."]
The lookupRDNS
function is more suited to this particular task.
lookupRDNS :: Resolver -> Domain -> IO (Either DNSError [Domain]) Source #
Convenient wrapper around lookupPTR
to perform a reverse lookup
on a single IP address.
We repeat the example from lookupPTR
, except now we pass the IP
address directly:
>>>
let hostname = Data.ByteString.Char8.pack "202.232.2.164"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupRDNS resolver hostname
Right ["www.iij.ad.jp."]
lookupSRV :: Resolver -> Domain -> IO (Either DNSError [(Int, Int, Int, Domain)]) Source #
Look up all 'SRV' records for the given hostname. SRV records consist (see https://tools.ietf.org/html/rfc2782) of the following four fields:
- Priority (lower is more-preferred)
- Weight (relative frequency with which to use this record amongst all results with the same priority)
- Port (the port on which the service is offered)
- Target (the hostname on which the service is offered)
The first three are integral, and the target is another DNS
hostname. We therefore return a four-tuple
(Int,Int,Int,
.Domain
)
Examples:
>>>
let q = Data.ByteString.Char8.pack "_xmpp-server._tcp.jabber.ietf.org"
>>>
>>>
rs <- makeResolvSeed defaultResolvConf
>>>
withResolver rs $ \resolver -> lookupSRV resolver q
Right [(5,0,5269,"jabber.ietf.org.")]