sunet/scheme/lib/dns.scm

; 
; dns.scm
;
; Implementation of the RFC1035 

;;; This file is part of the Scheme Untergrund Networking package.

;;; Copyright (c) 2002 by Marcus Crestani.
;;; Copyright (c) 2002-2003 by Martin Gasbichler
;;; For copyright information, see the file COPYING which comes with
;;; the distribution.

; domain names - implementation and specification
; based on the PLT-implementation.
; 
;
; TODO: 
;       - test, test, test
;       - types from newer RFCs (41, unknown)
;       - more documentation
;
; ---
; sample usage & documentation:
;
;  <ip-address32> is a 32bit integer internet->address, shortly address32.
;  <ip-string> is a string in standard dot notation "xxx.xxx.xxx.xxx".
;  <name> is a string
;
;  <nameserver> can either be a domainname, an ip-string or an ip-address32.
;  if it is a domainname, its ip is looked up on a nameserver listed in
;  /etc/resolv.conf.
;
;  (dns-find-nameserver) --> <ip-address32>
;  this parses the /etc/resolv.conf file and returns the first found 
;  nameserver in address32 format.
;
;
;  
;  (dns-lookup-name <name> [nameserver]) --> <ip-address32>
;  (dns-lookup-ip <ip-string | ip-address32> [nameserver]) --> <name>
;  (dns-lookup-nameserver <name> [nameserver]) 
;                     --> <list of ip-address32s of authoritative nameservers>
;  (dns-lookup-mail-exchanger <name> [nameserver]) 
;                     --> <list of names of mail-exchangers>
; 
;  dns-lookup-name, dns-lookup-ip, dns-lookup-nameserver and 
;  dns-lookup-mail-exchanger are "simple lookup functions",
;  they return the wanted information or #f.
;  dns-lookup-ip can either be given an ip-string or an ip-address32.
;   
;  concurrent dns lookup:
;  if a list of nameservers is given to the optional <nameserver> argument,
;  a concurrent lookup to all nameservers in this list is started.
;  The nameservers in this list could either be ip-strings or ip-address32s.
;  example: (dns-lookup-name "www.uni-tuebingen.de" (dns-find-nameserver-list))
;           starts an concurrent lookup which contacts all nameservers in 
;           /etc/resolv.conf.
;
;
;  (dns-lookup <name | ip-string | ip-address32> <type> [nameserver]) 
;                     --> <dns-message>
;  (show-dns-message <dns-message) --> the whole message, human readable
;
;  a <dns-message> is a record, with several entries, which holds the whole
;  query/response dialog. the simplest way to get detailed information about
;  the record structure is to view the result of show-dns-message.
;
;  dns-lookup returns much more information than the simple lookup functions, 
;  only useful in very special cases.
;  
;
;  some lookups return a hostname (e.g. mx). 
;  many applications need instead of a hostname a ip address.
;  force-ip and force-ip-list guarantee that a ip address is
;  returned.
;
;  (force-ip <name>) --> <ip>
;  (force-ip-list <list of names>) --> <list of ips>
;
;
;  useful converters:
;
;  (address32->ip-string <ip-address32>) -> <ip-string>
;  (ip-string->address32 <ip-string>) -> <ip-address32>



;; --- error conditions

;; supertype of all errors signaled by this library
(define-condition-type 'dns-error '(error))
(define dns-error? (condition-predicate 'dns-error))

(define-condition-type 'parse-error '(dns-error))
(define parse-error? (condition-predicate 'parse))

(define-condition-type 'unexpected-eof-from-server '(dns-error))
(define unexpected-eof-from-server? (condition-predicate 'unexpected-eof-from-server))

(define-condition-type 'bad-address '(dns-error))
(define bad-address? (condition-predicate 'bad-address))

(define-condition-type 'no-nameservers '(dns-error))
(define no-nameservers? (condition-predicate 'no-nameservers))

(define-condition-type 'bad-nameserver '(dns-error))
(define bad-nameserver? (condition-predicate 'bad-nameserver))

(define-condition-type 'not-a-hostname '(dns-error))
(define not-a-hostname? (condition-predicate 'not-a-hostname))

(define-condition-type 'not-a-ip '(dns-error))
(define not-a-ip? (condition-predicate 'not-a-ip))

;; supertype of all errors signaled if the dns server returned a non-sero
;; reply code
(define-condition-type 'dns-server-error '(dns-error))
(define dns-server-error? (condition-predicate 'dns-server-error))

(define-condition-type 'dns-format-error '(dns-server-error))
(define dns-format-error? (condition-predicate 'dns-format-error))

(define-condition-type 'dns-server-failure '(dns-server-error))
(define dns-server-failure? (condition-predicate 'dns-server-failure))

(define-condition-type 'dns-name-error '(dns-server-error))
(define dns-name-error? (condition-predicate 'dns-name-error))

(define-condition-type 'dns-not-implemented '(dns-server-error))
(define dns-not-implemented? (condition-predicate 'dns-not-implemented))

(define-condition-type 'dns-refused '(dns-server-error))
(define dns-refused? (condition-predicate 'dns-refused))

(define (dns-error condition . stuff)
  (apply signal condition (dns-error->string condition) stuff))

(define (dns-error->string condition)
  (string-append 
   "dns-error: "
   (case condition
     ((parse-error)
      "parse: error parsing server message")
     ((unexpected-eof-from-server)
      "send-receive-message: unexpected EOF from server")
     ((bad-address)
      "dns-get-information: bad address (in combination with query type)")
     ((no-nameservers)
      "dns-find-nameserver: no nameservers found in /etc/resolv.conf")
     ((bad-nameserver)
      "send-receive-message: nameserver refused connection")
     ((not-a-hostname)
      "no hostname given")
     ((not-a-ip)
      "no ip given")
     ((dns-format-error) 
      "error from server: (1) format error")
     ((dns-server-failure) 
      "error from server: (2) server failure")
     ((dns-name-error) 
      "error from server: (3) name error")
     ((dns-not-implemented) 
      "error from server: (4) not implemented")
     ((dns-refused) 
      "error from server: (5) refused")
     (else (error "Unknown dns-error" condition)))))
  

;;; -- globals and types
;; off
(define *nul* (ascii->char 0))

;; on
(define *on* (ascii->char 1))

;; message types
(define-enumerated-type message-type :message-type
  message-type?
  the-message-types
  message-type-name
  message-type-number
  (unknown				; types, which are not yet implemented
   a					; a host address 
   ns					; an authoritative name server
   md					; (obsolete)
   mf					; (obsolete)
   cname				; the canonical name for an alias
   soa					; marks the start of a zone of authority
   mb					; (experimental)
   mg					; (experimental)
   mr					; (experimental)
   null					; (experimental)
   wks					; a well known service description
   ptr					; a domain name pointer
   hinfo				; host information
   minfo				; (experimental)
   mx					; mail exchange
   txt))				; text strings

;; message classes
(define-enumerated-type message-class :message-class
  message-class?
  the-message-classes
  message-class-name
  message-class-number
  (placeholder ; this starts at 0...
   in      ; the Internet
   cs      ; (obsolete)
   ch      ; the CHAOS class
   hs))    ; Hesoid


;;; -- useful stuff

;; number: 0<= x < 256
;; octet-pair: (char char)
;; octet-quad: (char char char char)
;; name: string *{"." string}
;; octets: *{(char *char)} nullchar
;; octet-ip: (char char char char)
;; address32: 0 <= x < 2^32-1
;; ip-string: "www.xxx.yyy.zzz"
;; ip-string-arpa: "zzz.yyy.xxx.www.in-addr.arpa"

;; encodes numbers (16bit) to octets
(define (number->octet-pair n)
  (list (ascii->char (arithmetic-shift n -8))
	(ascii->char (modulo n 256))))

;; decodes octets to numbers (16bit)
(define (octet-pair->number a b)
  (+ (arithmetic-shift (char->ascii a) 8)
     (char->ascii b)))

;; encodes numbers (32bit) to octets, needed for ttl
(define (number->octet-quad n)
  (list (ascii->char (arithmetic-shift n -24))
	(ascii->char (modulo (arithmetic-shift n -16) 256))
	(ascii->char (modulo (arithmetic-shift n -8) 256))
	(ascii->char (modulo n 256))))

;; decodes octets to numbers, needed for 32bit ttl
(define (octet-quad->number a b c d)
  (+ (arithmetic-shift (char->ascii a) 24)
     (arithmetic-shift (char->ascii b) 16)
     (arithmetic-shift (char->ascii c) 8)
     (char->ascii d)))

;; encodes a domain-name string to octets
(define (name->octets s)
  (define (encode-portion s)
    (cons
     (ascii->char (string-length s))
     (string->list s)))

  (let loop ((s s))
    (cond
     ((regexp-search (rx (: bos (submatch (* (~ "."))) "." (submatch (* any))))
		     s)
      => (lambda (match)
	   (append
	    (encode-portion (match:substring match 1))
	    (loop (match:substring match 2)))))
     (else
      (if (= 0 (string-length s))
	  (list *nul*)
	  ;;; TODO isn't this case an error?
	  (append
	   (encode-portion s)
	   (list *nul*)))))))


;; for tcp: message has to be tagged with its length
(define (add-size-tag m)
  (append (number->octet-pair (length m)) m))

;; converts an octeted-ip to a 32bit integer internet-address
(define (octet-ip->address32 ip)
  (+ (arithmetic-shift (char->ascii (list-ref ip 0)) 24)
     (arithmetic-shift (char->ascii (list-ref ip 1)) 16)
     (arithmetic-shift (char->ascii (list-ref ip 2)) 8)
     (char->ascii (list-ref ip 3))))

;; converts a 32 bit integer internet-address to an octeted-ip
(define (address32->octet-ip ip)
  (list (arithmetic-shift ip -24)
	(modulo (arithmetic-shift ip -16) 256)
	(modulo (arithmetic-shift ip -8) 256)
	(modulo ip 256)))

;; converts an ip-string to an 32bit integer internet-address
(define (ip-string->address32 ip)
  (octet-ip->address32 (ip-string->octet-ip ip)))

;; converts an ip-string to an 32bit integer internet-address
(define (address32->ip-string ip)
  (format #f
	  "~a.~a.~a.~a" 
	  (arithmetic-shift ip -24)
	  (modulo (arithmetic-shift ip -16) 256)
	  (modulo (arithmetic-shift ip -8) 256)
	  (modulo ip 256)))

;; converts an octeted-ip to an human readable ip-string
(define (octet-ip->ip-string s)
  (format #f
	  "~a.~a.~a.~a" 
	  (char->ascii (list-ref s 0))
	  (char->ascii (list-ref s 1))
	  (char->ascii (list-ref s 2))
	  (char->ascii (list-ref s 3))))

(define ip-string-regexp (rx (: bos 
			  (submatch (** 1 3 digit)) "." 
			  (submatch (** 1 3 digit)) "." 
			  (submatch (** 1 3 digit)) "." 
			  (submatch (** 1 3 digit)) 
			  eos)))

;; converts an ip-string to octets
(define (ip-string->octet-ip s)
  (cond
   ((regexp-search ip-string-regexp  s)
    => (lambda (match)
	 (list
	  (ascii->char (string->number (match:substring match 1)))
	  (ascii->char (string->number (match:substring match 2)))
	  (ascii->char (string->number (match:substring match 3)))
	  (ascii->char (string->number (match:substring match 4))))))
   (else
    (error "invalid ip-string" s))))

;; calculates a "random" number, needed for message-ids
;; TODO use SRFI-27
(define random
  (let ((crank (make-random (modulo (time) (- (expt 2 27) 1)))))
    (lambda (limit)
      (quotient (* (modulo (crank) 314159265)
		   limit)
		314159265))))

;; checks if a string is a ip
(define (ip-string? s)
  (define (byte-as-string? string) 
    (let ((number (string->number string)))
      (and number
	   (>= number 0)
	   (< number 256))))
  (cond
   ((regexp-search ip-string-regexp  s)
    => (lambda (match)
	 (and (byte-as-string? (match:substring match 1))
	      (byte-as-string? (match:substring match 2))
	      (byte-as-string? (match:substring match 3))
	      (byte-as-string? (match:substring match 4)))))
   (else #f)))

    
;; checks if v is a address32
(define (address32? v)
  (and (number? v)
       (<= 0 v #xffffffff)))

;; returns a in-addr.arpa name-string or #f (needed to resolve hostname by ip)
(define (ip-string->in-addr-arpa s)
  (cond
   ((regexp-search ip-string-regexp s)
    => (lambda (match)
	 (string-append
	  (match:substring match 4) "."
	  (match:substring match 3) "."
	  (match:substring match 2) "."
	  (match:substring match 1) "."
	  "in-addr.arpa")))
   (else #f)))
      
;; filters types in a list of rrs 
(define (filter-type list type)
  (filter (lambda (rr) 
	    (eq? (rr-type rr) type))
	  list))

;; sorts a mx-rr-list by preference. needed for dns-lookup-mail-exchanger.
(define (sort-by-preference mx-list)
  (sort-list mx-list 
	     (lambda (a b) 
	       (< (rr-data-mx-preference (rr-data a)) (rr-data-mx-preference (rr-data b))))))


;; returns a IP if available (additonal type-a processing)
(define (force-ip name)
  (let loop ((result (dns-lookup-name name)))
    (if (ip-string? result)
	result
	(loop (dns-lookup-name result)))))

;; returns a list of IPs (additional type-a processing)
(define (force-ip-list names)
  (map (lambda (elem) (force-ip elem)) names))


;; a standard query header, usefull for most queries
(define (make-std-query-header id question-count)
  (let* ((qr 'query)        ; querytype: query 0, response 1
	 (opcode 0)    ; opcode: query 0, iquery 1 (OBSOLETE), status 2
	 (aa #f)        ; authorative answer (in answers only)
	 (tc #f)        ; truncation (size matters only with UDP)
	 (rd #t)        ; recursion desired: nameserver pursues the query recursivly (optional)
	 (ra #f)        ; recursion available (in answers only)
	 (zero 0)         ; future use
         (response-code 0)     ; response code: error conditions (in answers only)
	 (question-count question-count)
	 (answer-count 0)   ; answer count (in answers only)
	 (nameserver-count 0)   ; name server resources (in answers only)
	 (additional-count 0))  ; additional records (in answers only)
    
    (make-header 
     id 
     (make-flags qr opcode aa tc rd ra zero response-code)
     question-count answer-count nameserver-count additional-count)))


;; makes a query-message (header and question only)
;; TODO does this really work for several questions as well?
(define (make-query-dns-message header . questions)
  (make-message header questions '() '() '()
		(apply 
		 append
		 (header->octets header)
		 (map question->octets questions))))

(define (make-simple-query-dns-message id name type class)
  (make-query-dns-message (make-std-query-header id 1)
			  (make-question name type class)))

;; makes a resource record for ans, nss, ars (name, type, class, ttl, data)
(define (make-octet-rr name type class ttl rdata)
  (let* ((name (name->octets name))
	 (type (number->octet-pair (message-type-number type)))
	 (class (number->octet-pair (message-class-number class)))
	 (ttl (number->octet-quad ttl))
	 (rdlength (number->octet-pair (length rdata)))
	 (rdata rdata))
    (append name type class ttl rdlength rdata)))



;;; -- parsed message records

;;; -- dns-message: complete data-structure of an dns-lookup
(define-record-type dns-message :dns-message
  (make-dns-message query reply cache? protocol tried-nameservers)
  dns-message?
  (query dns-message-query)
  (reply dns-message-reply)
  (cache? dns-message-cache?)
  (protocol dns-message-protocol)
  (tried-nameservers dns-message-tried-nameservers))

;; message
(define-record-type message :message
  (make-message header questions answers nameservers additionals source)
  message?
  (header message-header)
  (questions message-questions)
  (answers message-answers)
  (nameservers message-nameservers)
  (additionals message-additionals)
  (source message-source))

;; header
(define-record-type header :header
  (make-header id flags question-count answer-count nameserver-count 
	       additional-count)
  header?
  (id header-id)
  (flags header-flags)
  (question-count header-question-count)
  (answer-count header-answer-count)
  (nameserver-count header-nameserver-count)
  (additional-count header-additional-count))

;;; -- message constructors: encode to octet-messages

;; makes an message header
(define (header->octets header)
  (let* ((header-id (number->octet-pair (header-id header)))
	 (header-question-count (number->octet-pair (header-question-count header)))
	 (header-answer-count (number->octet-pair (header-answer-count header)))
	 (header-nameserver-count (number->octet-pair 
				   (header-nameserver-count header)))
	 (header-additional-count (number->octet-pair 
				   (header-additional-count header))))
    (append header-id
	    (flags->octets (header-flags header))
	    header-question-count
	    header-answer-count
	    header-nameserver-count
	    header-additional-count)))

;; flags
(define-record-type flags :flags
  (make-flags query-type opcode authoritative? truncated? recursion-desired? 
	      recursion-available? zero response-code)
  flags?
  (query-type            flags-query-type)
  (opcode                flags-opcode)
  (authoritative?        flags-authoritative?)
  (truncated?            flags-truncated?)
  (recursion-desired?    flags-recursion-desired?)
  (recursion-available?  flags-recursion-available?)
  (zero                  flags-zero)
  (response-code         flags-response-code))

(define (make-flags-from-numbers
	 querytype opcode authoritative? truncated? recursion-desired? recursion-available? 
	 zero response-code)
  (make-flags
   (if (zero? querytype) 'query 'response)
   opcode
   (not (zero? authoritative?))
   (not (zero? truncated?))
   (not (zero? recursion-desired?))
   (not (zero? recursion-available?))
   zero
   (case response-code
     ((0) 'dns-no-error)
     ((1) 'dns-format-error)
     ((2) 'dns-server-failure)
     ((3) 'dns-name-error)
     ((4) 'dns-not-implemented)
     ((5) 'dns-refused))))
   
(define (flags->octets flags)
  (define (boolean->0/1 bool)
    (if bool 1 0))
  (list 
   (ascii->char (+ (arithmetic-shift 
		    (if (eq? (flags-query-type flags) 'query) 0 1) 7)
		   (arithmetic-shift (flags-opcode flags) 3)
		   (arithmetic-shift 
		    (boolean->0/1 (flags-authoritative? flags)) 2)
		   (arithmetic-shift 
		    (boolean->0/1 (flags-truncated? flags)) 1)
		   (boolean->0/1 (flags-recursion-desired? flags))))
   (ascii->char (+ (arithmetic-shift 
		    (boolean->0/1 (flags-recursion-available? flags)) 7)
		   (arithmetic-shift (flags-zero flags) 4)
		   (flags-response-code flags)))))


;; question
(define-record-type question :question
  (make-question name type class)
  question?
  (name question-name)
  (type question-type)
  (class question-class))

;; makes a question (name, type, class)
(define (question->octets q)
  (let* ((qname   (name->octets (question-name q)))
	 (qtype   (number->octet-pair 
		   (message-type-number (question-type q))))
	 (qclass  (number->octet-pair 
		   (message-class-number (question-class q)))))
    (append qname qtype qclass)))

;;type  rr
(define-record-type rr :rr
  (make-rr name type class ttl data)
  rr?
  (name  rr-name)
  (type  rr-type)
  (class rr-class)
  (ttl   rr-ttl)
  (data  rr-data))

;; cache
(define-record-type cache :cache
  (make-cache answer ttl time)
  cache?
  (answer cache-answer)
  (ttl cache-ttl)
  (time cache-time))

;;; -- message parser

;; parses a domain-name in an message. returns the name and the rest of the message.
(define (parse-name start message)
  (let ((v (char->ascii (car start))))
    (cond
     ((zero? v)
      ;; End of name
      (values #f (cdr start)))
     ((zero? (bitwise-and #xc0 v))
      ;; Normal label
      (let loop ((len v)
		 (start (cdr start))
		 (accum '()))
	(cond
	 ((zero? len)
	  (call-with-values
	   (lambda () (parse-name start message))
	   (lambda (s start)
	     (let ((s0 (list->string (reverse! accum))))
	       (values (if s
			   (string-append s0 "." s)
			   s0)
		       start)))))
	 (else (loop (- len 1)
		     (cdr start)
		     (cons (car start) accum))))))
     (else
      ;; Compression offset
      (let ((offset (+ (arithmetic-shift (bitwise-and #x3f v) 8)
		       (char->ascii (cadr start)))))
	(call-with-values
	 (lambda () (parse-name (list-tail message offset) message))
	 (lambda (s ignore-start)
	   (values s (cddr start)))))))))

;; parses a question in a message. returns the question and the rest of the message.
(define (parse-question start message)
  (call-with-values
   (lambda () (parse-name start message))
   (lambda (name start)
     (let ((type (vector-ref the-message-types 
			     (octet-pair->number (car start) (cadr start))))
	   (start (cddr start)))
       (let ((class (vector-ref the-message-classes 
				(octet-pair->number (car start) (cadr start))))
	     (start (cddr start)))
	 (values (make-question name type class) start))))))

;; parses a resourcerecord in a message. returns the rr and the rest of the message.
(define (parse-rr start message)
  (call-with-values
   (lambda () (parse-name start message))
   (lambda (name start)
     (let ((type  (vector-ref the-message-types 
			      (octet-pair->number (car start) (cadr start)))) 
	   (start (cddr start)))
       (let ((class (vector-ref the-message-classes 
				(octet-pair->number (car start) (cadr start))))
	     (start (cddr start)))
	 (let ((ttl (octet-quad->number (car start) (cadr start)
					(caddr start) (cadddr start)))
	       (start (cddddr start)))
	   (let ((len (octet-pair->number (car start) (cadr start)))
		 (start (cddr start)))
	     ;; Extract next len bytes of data:
	     (let loop ((len len)
			(start start)
			(accum '()))
	       (if (zero? len)
		   (values (make-rr name type class ttl (parse-rr-data type class (reverse! accum) message)) start)
		   (loop (- len 1)
			 (cdr start)
			 (cons (car start) accum)))))))))))

;;; -- rr-data-type records

(define-record-type rr-data-a :rr-data-a
  (make-rr-data-a ip)
  rr-data-a?
  (ip rr-data-a-ip))

(define-record-type rr-data-ns :rr-data-ns
  (make-rr-data-ns name)
  rr-data-ns?
  (name rr-data-ns-name))

(define-record-type rr-data-cname :rr-data-cname
  (make-rr-data-cname name)
  rr-data-cname?
  (name rr-data-cname-name))

;; ###
;; hinfo not correctly implemented, trying to find examples 
(define-record-type rr-data-hinfo :rr-data-hinfo
  (make-rr-data-hinfo data)
  rr-data-hinfo?
  (data rr-data-hinfo-data))

(define-record-type rr-data-mx :rr-data-mx
  (make-rr-data-mx preference exchanger)
  rr-data-mx?
  (preference rr-data-mx-preference)
  (exchanger rr-data-mx-exchanger))

(define-record-type rr-data-ptr :rr-data-ptr
  (make-rr-data-ptr name)
  rr-data-ptr?
  (name rr-data-ptr-name))

(define-record-type rr-data-soa :rr-data-soa
  (make-rr-data-soa mname rname serial refresh retry expire minimum)
  rr-data-soa?
  (mname rr-data-soa-mname)
  (rname rr-data-soa-rname)
  (serial rr-data-soa-serial)
  (refresh rr-data-soa-refresh)
  (retry rr-data-soa-retry)
  (expire rr-data-soa-expire)
  (minimum rr-data-soa-minimum))

;; ### same as hinfo
(define-record-type rr-data-txt :rr-data-txt
  (make-rr-data-txt text)
  rr-data-txt?
  (text rr-data-txt-text))

;; ### same as hinfo and txt
(define-record-type rr-data-wks :rr-data-wks
  (make-rr-data-wks data)
  rr-data-wks?
  (data rr-data-wks-data))

;;

(define (parse-rr-data type class data message)
  (cond
   ((eq? type (message-type a))
    (make-rr-data-a (octet-ip->address32 data)))
   
   ((eq? type (message-type ns))
    (make-rr-data-ns (call-with-values 
		      (lambda () (parse-name data message))
		      (lambda (name rest) name))))

   ((eq? type (message-type cname))
    (make-rr-data-cname (call-with-values
			 (lambda () (parse-name data message))
			 (lambda (name rest) name))))

   ((eq? type (message-type mx))
    (make-rr-data-mx (octet-pair->number (car data) (cadr data))
		     (call-with-values
		      (lambda ()(parse-name (cddr data) message))
		      (lambda (name rest) name))))

   ((eq? type (message-type ptr))
    (make-rr-data-ptr (call-with-values
		       (lambda () (parse-name data message))
		       (lambda (name rest) name))))
   
   ((eq? type (message-type soa))
    (call-with-values
     (lambda () (parse-name data message))
     (lambda (mname rest)
       (call-with-values
	(lambda () (parse-name rest message))
	(lambda (rname rest)
	  (let ((serial (octet-quad->number (car rest) (cadr rest) (caddr rest) (cadddr rest)))
		(rest (cddddr rest)))
	    (let ((refresh (octet-quad->number (car rest) (cadr rest) (caddr rest) (cadddr rest)))
		  (rest (cddddr rest)))
	      (let ((retry (octet-quad->number (car rest) (cadr rest) (caddr rest) (cadddr rest)))
		    (rest (cddddr rest)))
		(let ((expire (octet-quad->number (car rest) (cadr rest) (caddr rest) (cadddr rest)))
		      (rest (cddddr rest)))
		  (let ((minimum (octet-quad->number (car rest) (cadr rest) (caddr rest) (cadddr rest)))
			(rest (cddddr rest)))
		    (make-rr-data-soa mname rname serial refresh retry expire minimum)))))))))))

   ((eq? type (message-type hinfo))
    (make-rr-data-hinfo (list->string data)))

   ((eq? type (message-type txt))
    (make-rr-data-txt (list->string data)))
   
   ((eq? type (message-type wks))
    (make-rr-data-wks data))

   (else (list data))))

;; parses n-times a message with parse. returns a list of parse-returns.
(define (parse-n parse start message n)
  (let loop ((n n) (start start) (accum '()))
    (if (zero? n)
	(values (reverse! accum) start)
	(call-with-values
	 (lambda () (parse start message))
	 (lambda (rr start)
	   (loop (- n 1) start (cons rr accum)))))))

;; parses a message-headers flags. returns the flags.
(define (parse-flags message)
  (let ((v0 (list-ref message 2))
	(v1 (list-ref message 3)))
    ;; Check for error code:
    (let ((response-code  (bitwise-and #xf (char->ascii v1)))
	  (zero      (arithmetic-shift (bitwise-and 112 (char->ascii v1)) -4))
	  (ra     (arithmetic-shift (bitwise-and 64 (char->ascii v1)) -7))
	  (rd     (bitwise-and 1 (char->ascii v0)))
	  (tc     (arithmetic-shift (bitwise-and 2 (char->ascii v0)) -1))
	  (aa     (arithmetic-shift (bitwise-and 4 (char->ascii v0)) -2))
	  (opcode (arithmetic-shift (bitwise-and 120 (char->ascii v0)) -3))
	  (qr     (arithmetic-shift (bitwise-and 128 (char->ascii v0)) -7))) 
      (make-flags-from-numbers qr opcode aa tc rd ra zero response-code))))


;; parses a message-header. returns the header.
(define (parse-header message)
  (let ((id       (octet-pair->number (list-ref message 0) (list-ref message 1)))
	(flags    (parse-flags message))
	(question-count (octet-pair->number (list-ref message 4) (list-ref message 5)))
	(an-count (octet-pair->number (list-ref message 6) (list-ref message 7)))
	(ns-count (octet-pair->number (list-ref message 8) (list-ref message 9)))
	(ar-count (octet-pair->number (list-ref message 10) (list-ref message 11))))
    (make-header id flags question-count an-count ns-count ar-count)))


;; parses a message. returns the parsed message.
(define (parse message)
  (let* ((header (parse-header message))
	 (start (list-tail message 12)))
    (call-with-values
     (lambda () (parse-n parse-question start message (header-question-count header)))
     (lambda (qds start)
       (call-with-values
	(lambda () (parse-n parse-rr start message (header-answer-count header)))
	(lambda (ans start)
	  (call-with-values
	   (lambda () (parse-n parse-rr start message (header-nameserver-count header)))
	   (lambda (nss start)
	     (call-with-values
	      (lambda () (parse-n parse-rr start message (header-additional-count header)))
	      (lambda (ars start)
		(if (not (null? start))
		    (dns-error 'parse-error))
		(make-message header qds ans nss ars message)))))))))))



;;; -- send, receive and validate message

;; checks if the received reply is valid. returns #t or error-msg.
(define (reply-acceptable? reply query)
  ;; Check correct id
  (if (not (= (header-id (message-header reply))
	      (header-id (message-header query))))
      ;; TODO replace error
      (error "send-receive-message: bad reply id from server"))
  ;; Check for error code:
  (let ((response-code (flags-response-code 
			(header-flags (message-header reply)))))
    (if (not (eq? response-code 'dns-no-error))
	(dns-error response-code))))

;; connects to nameserver and sends and receives messages. returns the reply.
;; here: via TCP
(define (send-receive-message-tcp nameservers query)
  (receive (reply hit-ns other-nss)
      (let ((sockets (map (lambda (nameserver)
			    (let ((sock (create-socket protocol-family/internet
						       socket-type/stream))
				  (addr (internet-address->socket-address
					 nameserver 53)))
			      ;; we ignore the return value and select
			      ;; unconditionally later
			      (connect-socket-no-wait sock addr)
			      sock))
			  nameservers)))
	(let* ((ws (map socket:outport sockets))
	       (wport-nameserver-alist (map cons ws nameservers))
	       (wport-socket-alist (map cons ws sockets)))
	  (dynamic-wind
	   (lambda () #f)
	   (lambda ()
	     (let* ((ready-ports (apply select-port-channels #f ws))
		    (w (car ready-ports))
		    (hit-ns (cdr (assoc w wport-nameserver-alist)))
		    (sock (cdr (assoc w wport-socket-alist))))
	       (if (not (connect-socket-successful? sock))
		   (dns-error 'bad-nameserver hit-ns))
	       (let ((query-string 
		      (add-size-tag (list->string (message-source query))))
		     (r (socket:inport sock)))
		 (display (list->string query-string) w)
		 (force-output w)
		 (let ((a (read-char r))
		       (b (read-char r)))
		   (let ((len (octet-pair->number a b)))
		     (let ((s (read-string len r)))
		       (if (not (= len (string-length s)))
			   (dns-error 'unexpected-eof-from-server))
			 (values (parse (string->list s))
				 hit-ns
				 (delete hit-ns nameservers))))))))
	   (lambda ()
	     (for-each close-socket sockets)))))
    (reply-acceptable? reply query)
    (values reply
	    hit-ns
	    other-nss)))

;; here: via UDP
(define (send-receive-message-udp nameservers query)
  (receive (reply hit-ns other-nss)
      (let ((sockets (map (lambda (nameserver)
			    (let ((sock (create-socket protocol-family/internet
						       socket-type/datagram))
				  (addr (internet-address->socket-address
					 nameserver 53)))
			      (connect-socket sock addr)
			      sock))
			  nameservers)))
	(let ((rs (map socket:inport sockets))
	      (ws (map socket:outport sockets)))
	  (dynamic-wind
	   (lambda ()
	     'nothing-to-be-done-before)
	   (lambda ()
	     (let ((query-string (list->string (message-source query)))
		   (rsv (list->vector rs))
		   (rport-nameserver-alist (map cons rs nameservers))
		   (rport-socket-alist (map cons rs sockets)))
	       (for-each (lambda (w) (display query-string w)) ws)
	       (for-each force-output ws)
	       (let* ((ready (apply select-port-channels #f rs))
		      (r (car ready))
		      (hit-ns (cdr (assoc r rport-nameserver-alist))))
		 (if (not (connect-socket-successful? (cdr (assoc r rport-socket-alist))))
		     (dns-error 'bad-nameserver hit-ns))
		           ;;; 512 is the maximum udp-message size:
		 (values (parse (string->list (read-string/partial 512 r)))
			 hit-ns
			 (delete hit-ns nameservers)))))
	   (lambda ()
	     (for-each close-socket sockets)))))
    (reply-acceptable? reply query)
    (if (flags-truncated? (header-flags (message-header reply)))
	(send-receive-message-tcp nameservers query)
	(values reply
		hit-ns
		other-nss))))


;;; -- cache

;; creates the cache, an empty string-table
(define cache (make-string-table))

;; resets the cache
(define (dns-clear-cache!)
  (set! cache (make-string-table)))

;; searches in a dns-msg for the shortest ttl. this is needed for cache-management.
(define (find-shortest-ttl dns-msg)
  (letrec ((minimum #f)
	   (find-shortest-ttl-1
	    (lambda (dns-msg)
	      (cond
	       ((dns-message? dns-msg) 
		(find-shortest-ttl-1 (dns-message-reply dns-msg)))
	       ((message? dns-msg)
		(for-each (lambda (x) (find-shortest-ttl-1 x)) (message-answers dns-msg))
		(for-each (lambda (x) (find-shortest-ttl-1 x)) (message-nameservers dns-msg))
		(for-each (lambda (x) (find-shortest-ttl-1 x)) (message-additionals dns-msg))
		minimum)
	       ((rr? dns-msg)
		(cond
		 ((not minimum)  (set! minimum (rr-ttl dns-msg)))
		 (else
		  (if (and (not minimum) (> minimum (rr-ttl dns-msg)))
		      (set! minimum (rr-ttl dns-msg))))))))))
    (find-shortest-ttl-1 dns-msg)))


(define (make-key qds nameserver)
  (let*;; cache-key relevant data
      ((name (question-name (car qds)))
       (type (question-type (car qds)))
       (class (question-class (car qds))))
    (format #f "~a;~a;~a;~a" 
	    nameserver 
	    name 
	    (message-type-name type)
	    (message-class-name class))))

(define (lookup-cache qds nameserver)
  (let* ((key (make-key qds nameserver))
	 (found-data (table-ref cache key)))
    (cond
     ((and found-data
	   ;; checks if cached-data is still valid
	   (< (time) (+ (cache-time found-data) (cache-ttl found-data))))
      found-data)
     (else #f))))

(define (update-cache! key entry)
  (table-set! cache key entry))

(define (dns-query-no-cache query protocol nameservers tried)
	 ;; returns new retrieved data
	 (receive (dns-msg hit-ns nss-with-no-reply)
	     (send-receive-message nameservers query protocol)
	   (values 
	    (make-dns-message query dns-msg  #f protocol (reverse tried))
	    hit-ns
	    nss-with-no-reply)))

(define (dns-query-with-cache query protocol nameservers tried)
  (let ((qds (message-questions query)))
    (let lp ((ns nameservers))
      (if (null? ns)
	  (receive (reply-msg hit-ns nss-with-no-reply)
	      (send-receive-message nameservers query protocol)
	    (update-cache! (make-key qds hit-ns) 
			   (make-cache reply-msg (find-shortest-ttl reply-msg) (time)))
	    ;; returns new retrieved data and updates cache
	    (values (make-dns-message query reply-msg #f protocol (reverse tried))
		    hit-ns
		    nss-with-no-reply))
	  (cond ((lookup-cache qds (car ns))
		 => (lambda (found-data)
		      ;; returns cached data
		      (values (make-dns-message query (cache-answer found-data) #t protocol '())
			      #f
			      nameservers)))
		(else (lp (cdr ns))))))))

(define (send-receive-message nameservers query protocol)
  ((cond 
    ((eq? protocol 'tcp) send-receive-message-tcp)
    ((eq? protocol 'udp) send-receive-message-udp))
   nameservers query))
  
;; makes a dns-query. optional cache-check. 
;; returns a dns-message with cache-flag and either cache-data or new received data.
(define (dns-query/cache query use-cache? protocol nameservers tried)
      (if use-cache?
	  (dns-query-with-cache query protocol nameservers tried)
	  (dns-query-no-cache query protocol nameservers tried)))

;; dns and recursion
;;  recursion means, if the demanded information is not available from the
;;  nameserver, another nameserver (usualy an authority) has to be contacted.
;;  normally the recursion is done for us by the nameserver istself, but
;;  this feature is technically optional (RFC 1035).
;;  dns-get-information implements the resovler-side recursion.
;;  it returns a dns-message
(define (dns-get-information query use-cache? protocol nameservers check-answer)
  (let lp ((tried '()) (nss nameservers))
    (if (null? nss)
	(dns-error 'bad-address)
	(receive (dns-msg hit-ns nss-with-no-reply)
	    (dns-query/cache query use-cache? protocol nss tried)
	  (if (check-answer dns-msg)
	      dns-msg
	      (let ((auth? (flags-authoritative? (header-flags
						  (message-header
						   (dns-message-reply dns-msg))))))
		(if auth?
		    (dns-error 'bad-address)
		    ;; other nameservers names are found in the nameserver-part,
		    ;; but their ip-adresses are found in the additonal-rrs
		    (let ((other-nameservers 
			   (filter (lambda (elem) (eq? (rr-type elem) (message-type a)))
				   (message-additionals (dns-message-reply dns-msg)))))
		      (lp (if (not (member hit-ns tried)) (cons hit-ns tried) tried)
			  (lset-union equal?
				      nss-with-no-reply
				      (lset-difference equal? other-nameservers tried)))))))))))

;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Parsing of /etc/resolv.conf

(define (parse-nameserver rest-of-line)
  (let ((match (regexp-search
		(rx (: (submatch (** 1 3 digit) "."
				 (** 1 3 digit) "."
				 (** 1 3 digit) "."
				 (** 1 3 digit))
		       (* white))); don't complain about tailing white space
		rest-of-line)))
    (if match
	(cons 'nameserver (match:substring match 1))
	(signal 'resolv.conf-parse-error))))

; could be more restrictive...
(define domain-name-regexp (rx (+ (| alphanum #\. #\-))))

(define (parse-domain rest-of-line)
  (let ((match (regexp-search
		(rx (: (submatch ,domain-name-regexp)
		       (* white))); don't complain about tailing white space
		rest-of-line)))
    (if match
	(cons 'domain (match:substring match 1))
	(signal 'resolv.conf-parse-error))))

(define (parse-search rest-of-line)
  (let ((domains (regexp-fold-right domain-name-regexp 
				    (lambda (match junk accu)
				      (cons (match:substring match 0) accu))
				    '()
				    rest-of-line)))
    (if (null? domains)
	(signal 'resolv.conf-parse-error)
	(cons 'search domains))))

(define (parse-sortlist rest-of-line)
  (let ((netmask-pairs (regexp-fold-right (rx (+ (| digit #\. #\/)))
				    (lambda (match junk accu)
				      (cons (match:substring match 0) accu))
				    '()
				    rest-of-line)))
    (if (null? netmask-pairs)
	(signal 'resolv.conf-parse-error)
	(cons 'sortlist netmask-pairs))))

(define (parse-options rest-of-line)
  (regexp-fold-right 
   (rx (| "debug" "no_tld_query" (: "ndots:" (submatch digit))))
   (lambda (match junk accu)
     (let ((str (match:substring match 0)))
       (cond ((string=? str "debug")
	      (cons 'debug accu))
	     ((string=? str "no_tld_query")
	      (cons 'no_tld_query accu))
	     (else (cons (cons 'ndots 
			       (string->number (match:substring match 1))) accu)))))
   '()
   rest-of-line))

(define *resolv.conf-cache*)
(define *resolv.conf-cache-date* 0)

(define (resolv.conf)
  (let ((actual-m-time (file-info:mtime (file-info "/etc/resolv.conf"))))
    (if (> actual-m-time *resolv.conf-cache-date*)
	(parse-resolv.conf!))
    *resolv.conf-cache*))

(define (parse-resolv.conf!)
  (let ((actual-m-time (file-info:mtime (file-info "/etc/resolv.conf")))
	(contents (really-parse-resolv.conf "/etc/resolv.conf")))
    (set! *resolv.conf-cache* contents)
    (set! *resolv.conf-cache-date* actual-m-time)))
  
(define (really-parse-resolv.conf file-name)

  ;; accumulate nameserver entries
  ;; domain and search are mutual exclusive, take the last
  (define (adjust-result rev-result have-search-or-domain? nameservers)
    (cond ((null? rev-result)
	   (if (null? nameservers)
	       '()
	       (list (cons 'nameserver nameservers))))
	  ((eq? (caar rev-result) 'domain)
	   (if have-search-or-domain?
	       (adjust-result (cdr rev-result) have-search-or-domain? nameservers)
	       (cons (car rev-result) 
		     (adjust-result (cdr rev-result) 
				    #t 
				    nameservers))))
	  ((eq? (caar rev-result) 'search)
	   (if have-search-or-domain?
	       (adjust-result (cdr rev-result) have-search-or-domain? nameservers)
	       (cons (car rev-result) 
		     (adjust-result (cdr rev-result) 
				    #t 
				    nameservers))))
	  ((eq? (caar rev-result) 'nameserver)
	   (adjust-result (cdr rev-result) 
			  have-search-or-domain? 
			  (cons (cdar rev-result)
				nameservers)))
	  (else (cons (car rev-result)
		      (adjust-result (cdr rev-result) 
				     have-search-or-domain? 
				     nameservers)))))

  (with-input-from-file file-name
    (lambda ()
      (let loop ((rev-result '()))
	(let ((l (read-line)))
	  (cond
	   ((eof-object? l)
	    (adjust-result rev-result #f '()))
	   ((regexp-search
	     (rx (: "nameserver" (+ (| " " "\t")
				    (submatch (* any))
				    eos)))
	     l)
	    => (lambda (match)
		 (loop (cons (parse-nameserver (match:substring match 1))
			     rev-result))))
	   ((regexp-search
	     (rx (: "domain" (+ (| " " "\t")
				(submatch (* any))
				eos)))
	     l)
	    => (lambda (match)
		 (loop (cons (parse-domain (match:substring match 1))
			     rev-result))))
	   ((regexp-search
	     (rx (: "search" (+ (| " " "\t")
				(submatch (* any))
				eos)))
	     l)
	    => (lambda (match)
		 (loop (cons (parse-search (match:substring match 1))
			     rev-result))))
	     
	   ((regexp-search
	     (rx (: "sortlist" (+ (| " " "\t")
				  (submatch (* any))
				  eos)))
	     l)
	    => (lambda (match)
		 (parse-sortlist (match:substring match 1))))


	   ((regexp-search
	     (rx (: "options" (+ (| " " "\t")
				 (submatch (* any))
				 eos)))
	     l)
	    => (lambda (match)
		 (parse-options (match:substring match 1))))
	   (else (signal 'resolv.conf-parse-error))))))))

;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Figure out the default name servers

(define (dns-find-nameserver-list)
  (cond ((assoc 'nameserver (resolv.conf))
	 => (lambda (nameserver.list)
	      (cdr nameserver.list)))
	(else '())))

;; returns the first found nameserver
(define (dns-find-nameserver)
  (let ((ns (dns-find-nameserver-list)))
    (if (null? ns)
	(dns-error 'no-nameservers)
	(car ns))))


;; checks the nameservers argument of the lookup functions.
;; if a nameserver-name is given and not a nameserver-ip
;; (dns-lookup-name nameserver) is called.
(define (check-args args)
  (if (null? args) 
      (map ip-string->address32 (dns-find-nameserver-list))
      (map (lambda (nameserver)
	     (cond
	      ((address32? nameserver) nameserver)
	      ((ip-string? nameserver) (ip-string->address32 nameserver))
	      (else (map (dns-lookup-name nameserver (dns-find-nameserver-list))))))
	   (car args))))

;; dns-lookup with more options than dns-lookup-*
(define (dns-lookup name type . nameservers)
  (let* ((maybe-ip-string (if (address32? name) 
			      (ip-string->in-addr-arpa (address32->ip-string name))
			      (ip-string->in-addr-arpa name)))
	 (query (if maybe-ip-string	; if name is a ip-addr, the query is a in-addr.arpa address
		    (make-simple-query-dns-message
		     (random 256) maybe-ip-string type (message-class in))
		    (make-simple-query-dns-message (random 256) name type (message-class in))))
	 (use-cache? #t)
	 (protocol 'udp)
	 (nameservers (check-args nameservers))
	 (check-answer (lambda (dns-msg) #t))
	 (dns-msg (dns-get-information query use-cache? protocol nameservers check-answer))
	 (answers (message-answers (dns-message-reply dns-msg))))
    dns-msg))


;; looks up a hostname, returns an ip.
;; (dns-lookup-name <name> nameservers)
(define (dns-lookup-name name . nameservers)
  (let* ((maybe-ip-string (if (address32? name) 
			      (ip-string->in-addr-arpa (address32->ip-string name))
			      (ip-string->in-addr-arpa name)))
	 (query (if maybe-ip-string	; if name is a ip-addr, the query is a in-addr.arpa address
		    (dns-error 'not-a-hostname)
		    (make-simple-query-dns-message (random 256) name (message-type a) (message-class in))))
	 (use-cache? #t)
	 (protocol 'udp)
	 (nameservers (check-args nameservers))
	 (check-answer (lambda (dns-msg) 
			 (let* ((reply (dns-message-reply dns-msg))
				(answers (message-answers reply)))
			   (not (null? (filter-type answers (message-type a)))))))
	 (dns-msg (dns-get-information query use-cache? protocol nameservers check-answer))
	 (answers (filter-type (message-answers (dns-message-reply dns-msg)) (message-type a))))
    (rr-data-a-ip (rr-data (car answers)))))

;; looks up an ip, returns a hostname
;; (dns-inverse-lookup <name> [nameserver])
(define (dns-lookup-ip ip . nameservers)
  (let* ((maybe-ip-string (if (address32? ip) 
			      (ip-string->in-addr-arpa (address32->ip-string ip))
			      (ip-string->in-addr-arpa ip)))
	 (query (if maybe-ip-string	; if name is a ip-addr, the query is a in-addr.arpa address
		    (make-simple-query-dns-message (random 256) maybe-ip-string (message-type ptr) (message-class in))
		    (dns-error 'not-a-ip)))
	 (use-cache? #t)
	 (protocol 'udp)
	 (nameservers (check-args nameservers))
	 (check-answer (lambda (dns-msg) 
			 (let* ((reply (dns-message-reply dns-msg))
				(answers (message-answers reply)))
			   (not (null? (filter-type answers (message-type ptr)))))))
	 (dns-msg (dns-get-information query use-cache? protocol nameservers check-answer))
	 (answers (filter-type (message-answers (dns-message-reply dns-msg)) (message-type ptr))))
    (rr-data-ptr-name (rr-data (car answers)))))

(define dns-inverse-lookup dns-lookup-ip)

;; looks up an authoritative nameserver for a hostname
;; returns a list of nameservers
;; (dns-lookup-nameserver <name> [nameserver])
(define (dns-lookup-nameserver name . nameservers)
  (let* ((maybe-ip-string (if (address32? name) 
			      (ip-string->in-addr-arpa (address32->ip-string name))
			      (ip-string->in-addr-arpa name)))
	 (query (if maybe-ip-string	; if name is a ip-addr, the query is a in-addr.arpa address
		    (dns-error 'not-a-hostname)
		    (make-simple-query-dns-message
		     (random 256) name (message-type ns) (message-class in))))
	 (use-cache? #t)
	 (protocol 'udp)
	 (nameservers (check-args nameservers))
	 (check-answer (lambda (dns-msg) 
			 (let* ((reply (dns-message-reply dns-msg))
				(answers (message-answers reply))
				(nameservers (message-nameservers reply)))
			   (or (not (null? (filter-type nameservers (message-type soa))))
			       (not (null? (filter-type answers (message-type ns))))))))
	 (dns-msg (dns-get-information query use-cache? protocol nameservers check-answer))
	 (reply (dns-message-reply dns-msg))
	 (soa (filter-type (message-nameservers reply) (message-type soa)))
	 (nss (filter-type (message-answers reply) (message-type ns)))
	 (add (filter-type (message-additionals reply) (message-type a))))
    (if (null? nss)
	(list (dns-lookup-name (rr-data-soa-mname (rr-data (car soa)))))
	(map (lambda (elem) (rr-data-a-ip (rr-data elem))) add))))

;; looks up a mail-exchanger for a hostname.
;; returns a list of mail-exchanger, sorted by their preference
;; if there are no mx-records in the answer-section, 
;; implementation based on RFC2821
;; (dns-lookup-mail-exchanger <name> [nameserver])
(define (dns-lookup-mail-exchanger name . nameservers)
  (let* ((ip-string (if (address32? name) 
			(ip-string->in-addr-arpa (address32->ip-string name))
			(ip-string->in-addr-arpa name)))
	 (query (if ip-string	; if name is a ip-addr, the query is a in-addr.arpa address
		    (dns-error 'not-a-hostname)
		    (make-simple-query-dns-message
		     (random 256) name (message-type mx) (message-class in))))
	 (use-cache? #t)
	 (protocol 'tcp)
	 (nameservers (check-args nameservers))
	 (check-answer (lambda (dns-msg) 
			 (let* ((reply (dns-message-reply dns-msg))
				(answers (message-answers reply))
				(nameservers (message-nameservers reply)))
			   (or (not (null? (filter-type answers (message-type mx))))
			       (not (null? (filter-type answers (message-type cname))))
			       (not (null? (filter-type answers (message-type a))))))))
	 (dns-msg (dns-get-information query use-cache? protocol nameservers check-answer))
	 (reply (dns-message-reply dns-msg))
	 (mx (filter-type (message-answers reply) (message-type mx)))
	 (soa (filter-type (message-nameservers reply)(message-type soa)))
	 (cname (filter-type (message-answers reply) (message-type cname)))
	 (a (filter-type (message-answers reply) (message-type a))))

    (cond
     ((not (null? a)) 
      (list (rr-data-a-ip (rr-data (car a)))))
     ((not (null? cname))
      (dns-lookup-mail-exchanger (rr-data-cname-name (rr-data (car cname)))))
     ((null? mx) 
      (list (rr-data-soa-rname (rr-data (car soa)))))
     (else
      (map (lambda (elem) (rr-data-mx-exchanger (rr-data elem))) (sort-by-preference mx))))))

;;; pretty-prints a dns-msg
(define (pretty-print-dns-message dns-msg . maybe-port)
  (let ((d 
	 (lambda (n s1 s2)
	   (letrec ((loop (lambda (n)
			    (if (zero? n)
				""
				(string-append " " (loop (- n 1)))))))
	     (display (loop n))
	     (display s1)
	     (display ": ")
	     (display s2)
	     (newline)))))
    (with-current-output-port*
     (if (null? maybe-port)
	 (current-output-port)
	 (car maybe-port))
     (lambda ()
       (define (show-dns-message dns-msg)
	 (cond
	  ((dns-message? dns-msg) 
	   (begin
	     (d 0 "DNS-MESSAGE" "")
	     (d 1 "QUERY" "")(show-dns-message (dns-message-query dns-msg))(newline)
	     (d 1 "REPLY" "")(show-dns-message (dns-message-reply dns-msg))(newline)
	     (d 1 "CACHE?" (if (dns-message-cache? dns-msg)
			       "found in cache"
			       "not found in cache"))
	     (d 1 "PROTOCOL" (let ((protocol (dns-message-protocol dns-msg)))
			       (cond
				((eq? protocol 'tcp) "TCP")
				((eq? protocol 'udp) "UDP"))))
	     (d 1 "TRIED-NAMESERVERS" (if (> (length (dns-message-tried-nameservers dns-msg)) 1)
					  (begin
					    (display " had perform recursion: ")
					    (dns-message-tried-nameservers dns-msg))
					  (begin
					    (display " without recursion: ")
					    (dns-message-tried-nameservers dns-msg))))))
	  ((message? dns-msg)
	   (begin
	     (d 2 "MESSAGE" "")
	     (d 3 "Header     " "")(show-dns-message (message-header dns-msg))
	     (d 3 "Questions  " "")(for-each (lambda (x) (show-dns-message x)(newline)) (message-questions dns-msg))
	     (d 3 "Answers    " "")(for-each (lambda (x) (show-dns-message x)(newline)) (message-answers dns-msg))
	     (d 3 "Nameservers" "")(for-each (lambda (x) (show-dns-message x)(newline)) (message-nameservers dns-msg))
	     (d 3 "Additionals" "")(for-each (lambda (x) (show-dns-message x)(newline)) (message-additionals dns-msg))))
	  ((header? dns-msg)
	   (begin
	     (d 4 "id" (header-id dns-msg))
	     (d 4 "Flags" "")(show-dns-message (header-flags dns-msg))
	     (d 4 "question-count    " (header-question-count dns-msg))
	     (d 4 "answer-count      " (header-answer-count dns-msg))
	     (d 4 "nameserver-count  " (header-nameserver-count dns-msg))
	     (d 4 "additional-count  " (header-additional-count dns-msg))))
	  ((flags? dns-msg)
	   (begin 
	     (d 5 "querytype" (flags-query-type dns-msg))
	     (d 5 "opcode" (flags-opcode dns-msg))
	     (d 5 "authoritative?" (flags-authoritative? dns-msg))
	     (d 5 "truncated?" (flags-truncated? dns-msg))
	     (d 5 "recursion-desired?" (flags-recursion-desired? dns-msg))
	     (d 5 "recursion-available?" (flags-recursion-available? dns-msg))
	     (d 5 "zero" (flags-zero dns-msg))
	     (d 5 "response-code" (flags-response-code dns-msg))))
	  ((question? dns-msg)
	   (begin
	     (d 4 "name " (question-name dns-msg))
	     (d 4 "type " (message-type-name (question-type dns-msg)))
	     (d 4 "class" (message-class-name (question-class dns-msg)))))
	  ((rr? dns-msg)
	   (begin
	     (d 4 "name " (rr-name dns-msg))
	     (d 4 "type "(message-type-name (rr-type dns-msg)))
	     (d 4 "class" (message-class-name (rr-class dns-msg)))
	     (d 4 "ttl  " (rr-ttl dns-msg))
	     (d 4 "data " "") (show-dns-message (rr-data dns-msg))))
	  ((rr-data-a? dns-msg)
	   (d 5 "ip " (rr-data-a-ip dns-msg)))
	  ((rr-data-ns? dns-msg)
	   (d 5 "name " (rr-data-ns-name dns-msg)))
	  ((rr-data-cname? dns-msg)
	   (d 5 "name " (rr-data-cname-name dns-msg)))
	  ((rr-data-mx? dns-msg)
	   (begin
	     (d 5 "preference " (rr-data-mx-preference dns-msg))
	     (d 5 "exchanger  " (rr-data-mx-exchanger dns-msg))))
	  ((rr-data-ptr? dns-msg) 
	   (d 5 "name " (rr-data-ptr-name dns-msg)))
	  ((rr-data-soa? dns-msg)
	   (begin
	     (d 5 "mname   " (rr-data-soa-mname dns-msg))
	     (d 5 "rname   " (rr-data-soa-rname dns-msg))
	     (d 5 "serial  " (rr-data-soa-serial dns-msg))
	     (d 5 "refresh " (rr-data-soa-refresh dns-msg))
	     (d 5 "expire  " (rr-data-soa-expire dns-msg))
	     (d 5 "minimum " (rr-data-soa-expire dns-msg))))
	  ;; ###
	  ((rr-data-hinfo? dns-msg)
	   (d 5 "data " (rr-data-hinfo-data dns-msg)))
	  ((rr-data-txt? dns-msg)
	   (d 5 "text " (rr-data-txt-text dns-msg)))
	  ((rr-data-wks? dns-msg)
	   (d 5 "data " (rr-data-wks-data dns-msg)))
	  ))
       (show-dns-message dns-msg)))))

(define *fqdn-lock* (make-lock))
(define *fqdn-cache* '())

(define (socket-address->fqdn addr cache?)
  (receive (ip32 port)
      (socket-address->internet-address addr)
    (internet-address->fqdn ip32 cache?)))

(define (internet-address->fqdn ip32 cache?)
  (if cache?
      (begin
	(obtain-lock *fqdn-lock*)
	(cond
	 ((assv ip32 *fqdn-cache*) => 
	  (lambda (pair)
	    (release-lock *fqdn-lock*)
	    (cdr pair)))
	 (else
	  (release-lock *fqdn-lock*)
	  (let ((fqdn (dns-lookup-ip ip32)))
	    (set! *fqdn-cache*
		  (cons (cons ip32 fqdn) *fqdn-cache*))
	    fqdn))))
      (dns-lookup-ip ip32)))


(define (is-fqdn? name)
  (regexp-search? (rx #\.) name))

(define (maybe-dns-lookup-name name)
  (call-with-current-continuation
   (lambda (k)
     (with-handler (lambda (cond more)
		     (if (dns-error? cond)
			 (k #f)
			 (more)))
		   (lambda ()
		     (dns-lookup-name name))))))

(define (maybe-dns-lookup-ip ip-addr)
  (call-with-current-continuation
   (lambda (k)
     (with-handler (lambda (cond more)
		     (if (dns-error? cond)
			 (k #f)
			 (more)))
		   (lambda ()
		     (dns-lookup-ip ip-addr))))))

(define (domains-for-search)
  (cond ((assoc 'domain (resolv.conf))
	 => (lambda (pair)
	      (list (cdr pair))))
	((assoc 'search (resolv.conf))
	 => (lambda (pair)
	      (cdr pair)))
	(else '())))

(define (host-fqdn name-or-socket-address)
  (if (socket-address? name-or-socket-address)
      (socket-address->fqdn name-or-socket-address #f)
      (let ((name name-or-socket-address))
	(if (is-fqdn? name)
	    name
	    (let lp ((domains (domains-for-search)))
	      (if (null? domains)
		  #f
		  (cond ((maybe-dns-lookup-name (string-append name "." (car domains)))
			 => (lambda (ip)
			      (dns-lookup-ip ip)))
			(else (lp (cdr domains))))))))))

(define (system-fqdn)
  (host-fqdn (system-name)))