package dns
-
dns.cache
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µDNS - an opinionated Domain Name System (DNS) library
The Domain Name System is a hierarchical and decentralized naming system used on the Internet. It associates domain names with nearly arbitrary information. Best known is the translation of easily memoizable domain names to numerical IP addresses, which are used by computers for establishing communication channels - so called address records. DNS has been deployed since 1985 on the Internet. It is a widely deployed, fault-tolerant, distributed key-value store with built-in caching mechanisms. The keys are domain names and record types, the values are record sets. Each record set has a time-to-live associated with it: the maximum time this entry may be cached. The domain name library provides operations on domain names. Hostnames are domain names with further restrictions: Only letters, digits, and hyphen are allowed. Domain name comparison is usually done ignoring the case.
A set of 13 authoritative name servers form the root zone which delegate authority for subdomains to registrars (using country codes, etc.), which delegate domains to individuals who host their Internet presence there.
The delegation mechanism utilizes the DNS protocol itself, using name server records, and start of authority records. The globally federated eMail system uses mail exchange records.
Each Internet domain has at least two authoritative name servers registered to enable fault tolerance. To keep these synchronised, a zone transfer mechanism is part of DNS. In-protocol DNS extension mechanisms include dynamic updates, authentication, and notifications, which allow arbitrary synchronized, authenticated modifications.
From a client perspective, the C library functions gethostbyname
or getaddrinfo
are mainly used, which receive a string (and a record type) and return a reply. A client requests a caching recursive resolver hosted close to the client - e.g. at their ISP, and awaits an answer. The recursive resolver iterates over the domain name parts, and requests the registered authoritative name servers, until the name server responsible for the requested domain name is found.
The core µDNS library includes type definitions of supported record types, decoding and encoding thereof to the binary protocol used on the Internet, also serialising and parsing of the standardized text form. The record types and their values are defined by the key type, which has for each record type a specific value type, using a generalized algebraic data type -- i.e. an address record may only contain a time-to-live and a set of IPv4 addresses. This is used to construct a map data structure.
This core µDNS library is used by various DNS components:
Dns_tsig
implements TSIG authenticationDns_server
implements an authoritative serverDns_client
implements a clientDns_zone
implements a zone file parserDns_resolver
implements a recursive resolverThese core libraries are pure, i.e. it is independent of network communnication, uses immutable values, and errors are explicit as result
type. Timestamps are passed in to the main handle functions. Some components, such as a secondary server, which needs to check freshness of its data in regular intervals. The logic is implemented and exposed as function, which needs to be called from a side-effecting layer.
For the client library, several side-effecting layers are implemented: dns-client.unix
uses the blocking Unix
API (distributed with the OCaml runtime), dns-client.lwt
uses the non-blocking Lwt
API, and dns-client.mirage
using MirageOS interfaces. Unix command line utilities are provided in the dns-cli
package.
For the server and resolver components, side-effecting implementations using MirageOS interfaces are provided in dns-server.mirage
and dns-resolver.mirage
. Example unikernels are provided externally, including authoritative primary and secondary servers, recursive and stub resolvers. The certificate authority Let's Encrypt implements a protocol (ACME) which automatically provisions X.509 certificates (which are trusted by common web browsers); one of the methods to produce proof of ownership is with a DNS TXT record. Together with ocaml-letsencrypt, this DNS library can be used to provision certificate signing requests for the domain where you run an authoritative server. The certificate signing request and certificate are both stored as TLSA records in DNS.
v6.2.0 - homepage
The type of supported protocols. Used by Packet.encode
to decide on maximum buffer length, etc.
Maximum size of resource data. This limitation is close to (2 ^ 16) - 1 (the limit of DNS-over-TCP and EDNS payload size, but slightly smaller, since an rdata must fit into this DNS message together with a DNS header, a question, and a TSIG signature (for e.g. zone transfer).
module Opcode : sig ... end
Opcode
module Rcode : sig ... end
Response code
module Soa : sig ... end
Start of authority
module Ns : sig ... end
Name server
module Mx : sig ... end
Mail exchange
module Cname : sig ... end
Canonical name
module A : sig ... end
Adress record
module Aaaa : sig ... end
Quad A record
module Ptr : sig ... end
Domain name pointer
module Srv : sig ... end
Service record
module Dnskey : sig ... end
DNS keys
module Rrsig : sig ... end
RRSIG
module Ds : sig ... end
DS
module Nsec : sig ... end
Nsec
module Nsec3 : sig ... end
Nsec3
module Caa : sig ... end
Certificate authority authorization
module Tlsa : sig ... end
Transport layer security authentication
module Sshfp : sig ... end
Secure shell fingerprint
module Txt : sig ... end
Text records
module Tsig : sig ... end
Transaction signature
module Edns : sig ... end
Extensions to DNS
module Rr_map : sig ... end
A map whose keys are record types and their values are the time-to-live and the record set. The relation between key and value type is restricted by the below defined GADT.
module Name_rr_map : sig ... end
Name resource record map
module Packet : sig ... end
The DNS packet.
module Tsig_op : sig ... end
Signature operations and their errors.