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**A warm welcome to DNS**
Note: this page is part of the 'hello-dns' documentation effort.
Writing a modern resolver is the hardest part of DNS. A fully standards compliant DNS resolver is not a resolver that can be used in practice.
In reality, resolvers are expected to process malformed queries coming from clients (stub-resolvers). Furthermore, many authoritative servers respond incorrectly to modern DNS queries. Zones are frequently misconfigured on authoritative servers but still expected to work correctly.
Meanwhile, operators desire top performance, with individual CPU cores expected to satisfy the DNS needs of hundreds of thousands of users.
To top this off, a modern DNS resolver will have to validate DNSSEC correctly. This may be among the hardest challenges of any widely used Internet protocol.
Excellent resolvers that are freely available and open source include:
So in short, before attempting to write a DNS resolver, ponder if you really need to.
As part of this project a teaching resolver
(or tres
) is
provided. Understanding tres
and its source code is easier after reading
this page.
There are various strategies to resolve names. The most basic form is to send the same query for the full query name to a series of ever more specific nameservers.
So, to resolve www.powerdns.com
, send a query for that name to one of the
26 root-server IP address. The root-servers will return a non-authoritative
answer ('aa=0') with the NS records of the COM
servers, and helpfully also
provide IP addresses for those servers.
The resolver can believe these NS records and even the 'glue' - we trust the root-servers to serve the root and everything under it.
Based on the IP addresses provided in the glue, the same www.powerdns.com
query can now be sent to one of the COM
servers, which in turn replies
with another non-authoritative answer that does however list the names & IP
addresses for the powerdns.com
zones.
Finally, the www.powerdns.com
query can get sent to one of the
powerdns.com
nameserver IP addresses, and finally an answer arrives.
This is the simplest case where resolution can proceed iteratively - each response carries full information where the next query can get sent.
To resolve www.powerdns.org
, the situation is more difficult. The
root-servers again provide the first help by telling us about the ORG
nameservers & their IP addresses.
When we then ask the ORG
nameservers for www.powerdns.org
, these return
with a set of nameservers for powerdns.org
.. but no IP addresses. This is
because the powerdns.org
nameservers do not reside in the ORG
zone.
This means that the same algorithm we are using to resolve
www.powerdns.org
now needs to be started in parallel for finding the IP
address of ns1.ds9a.nl
. Luckily, resolving ns1.ds9a.nl
proceeds as
described in the previous section, without the need to resolve further
nameserver names.
Once we have an IP address for a powerdns.org
nameserver, we can ask it
about www.powerdns.org
.
CNAMEs complicate this process slightly but not fundamentally. A CNAME redirects our query to a new name. This means that once a CNAME is hit, the initial algorithm terminates, and gets restarted for the new CNAME target.
Frequently, a CNAME points to a name that is also within the same zone, for
example www.powerdns.org. IN CNAME powerdns.org
. Authoritative servers
then typically also include the requested type for powerdns.org
in the
same DNS response. As an optimization, a resolver can use this CNAME record
and terminate the algorithm.
At every point a resolver must be vigilant to not store data coming from an authoritative server that can not be trusted to provide that data.
In addition, if a cache is used, care must be taken that an authoritative server must not be allowed to 'extend its own authority' infinitely. This is a problem when a domain gets assigned new nameservers, but a resolver 'sticks' to the old one.
There are many many other security pitfalls within a resolver, which is why we recommend not writing another one unless this is really really necessary somehow.
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