(defpackage #:zone
(:use #:common-lisp
#:mdw.base #:mdw.str #:collect #:safely
- #:net #:services))
+ #:net #:services)
+ (:import-from #:net #:round-down #:round-up))
(in-package #:zone)
(defun timespec-seconds (ts)
"Convert a timespec TS to seconds.
- A timespec may be a real count of seconds, or a list (COUNT UNIT): UNIT
+ A timespec may be a real count of seconds, or a list (COUNT UNIT). UNIT
may be any of a number of obvious time units."
(cond ((null ts) 0)
((realp ts) (floor ts))
(when timep
(format s "~2,'0D:~2,'0D:~2,'0D" hr min sec)))))
+(defmacro defenum (name (&key export) &body values)
+ "Set up symbol properties for manifest constants.
+
+ The VALUES are a list of (TAG VALUE) pairs. Each TAG is a symbol; we set
+ the NAME property on TAG to VALUE, and export TAG. There are also handy
+ hash-tables mapping in the forward and reverse directions, in the name
+ symbol's `enum-forward' and `enum-reverse' properties."
+ `(eval-when (:compile-toplevel :load-toplevel :execute)
+ ,(let*/gensyms (export)
+ (with-gensyms (forward reverse valtmp)
+ `(let ((,forward (make-hash-table))
+ (,reverse (make-hash-table)))
+ (when ,export (export ',name))
+ ,@(mapcar (lambda (item)
+ (destructuring-bind (tag value) item
+ (let ((constant
+ (intern (concatenate 'string
+ (symbol-name name)
+ "/"
+ (symbol-name tag)))))
+ `(let ((,valtmp ,value))
+ (when ,export
+ (export ',constant)
+ (when (eq (symbol-package ',tag) *package*)
+ (export ',tag)))
+ (defconstant ,constant ,valtmp)
+ (setf (get ',tag ',name) ,value
+ (gethash ',tag ,forward) ,valtmp
+ (gethash ,valtmp ,reverse) ',tag)))))
+ values)
+ (setf (get ',name 'enum-forward) ,forward
+ (get ',name 'enum-reverse) ,reverse))))))
+
+(defun lookup-enum (name tag &key min max)
+ "Look up a TAG in an enumeration.
+
+ If TAG is a symbol, check its NAME property; if it's a fixnum then take it
+ as it is. Make sure that it's between MIN and MAX, if they're not nil."
+ (let ((value (etypecase tag
+ (fixnum tag)
+ (symbol (or (get tag name)
+ (error "~S is not a known ~A" tag name))))))
+ (unless (and (or (null min) (<= min value))
+ (or (null max) (<= value max)))
+ (error "Value ~S out of range for ~A" value name))
+ value))
+
+(defun reverse-enum (name value)
+ "Reverse-lookup of a VALUE in enumeration NAME.
+
+ If a tag for the VALUE is found, return it and `t'; otherwise return VALUE
+ unchanged and `nil'."
+ (multiple-value-bind (tag foundp) (gethash value (get name 'enum-reverse))
+ (if foundp
+ (values tag t)
+ (values value nil))))
+
+(defun mapenum (func name)
+ "Call FUNC on TAG/VALUE pairs from the enumeration called NAME."
+ (maphash func (get name 'enum-forward)))
+
;;;--------------------------------------------------------------------------
;;; Zone types.
min-ttl
serial)
+(export 'zone-text-name)
+(defun zone-text-name (zone)
+ (princ-to-string (zone-name zone)))
+
(export 'mx)
(defstruct (mx (:predicate mxp))
"Mail-exchange record information."
(export 'zone-subdomain)
(defstruct (zone-subdomain (:conc-name zs-))
- "A subdomain. Slightly weird. Used internally by zone-process-records
- below, and shouldn't escape."
+ "A subdomain.
+
+ Slightly weird. Used internally by `zone-process-records', and shouldn't
+ escape."
name
ttl
records)
(export 'preferred-subnet-case)
(defmacro preferred-subnet-case (&body clauses)
- "CLAUSES have the form (SUBNETS . FORMS).
+ "Execute a form based on which networks are considered preferred.
- Evaluate the first FORMS whose SUBNETS (a list or single symbol, not
- evaluated) are considered preferred by zone-preferred-subnet-p. If
- SUBNETS is the symbol t then the clause always matches."
+ The CLAUSES have the form (SUBNETS . FORMS) -- evaluate the first FORMS
+ whose SUBNETS (a list or single symbol, not evaluated) are listed in
+ `*preferred-subnets*'. If SUBNETS is the symbol `t' then the clause
+ always matches."
`(cond
,@(mapcar (lambda (clause)
(let ((subnets (car clause)))
(cdr clause))))
clauses)))
+(export 'zone-parse-host)
+(defun zone-parse-host (form &optional tail)
+ "Parse a host name FORM from a value in a zone form.
+
+ The underlying parsing is done using `parse-domain-name'. Here, we
+ interpret various kinds of Lisp object specially. In particular: `nil'
+ refers to the TAIL zone (just like a plain `@'); and a symbol is downcased
+ before use."
+ (let ((name (etypecase form
+ (null (make-domain-name :labels nil :absolutep nil))
+ (domain-name form)
+ (symbol (parse-domain-name (string-downcase form)))
+ (string (parse-domain-name form)))))
+ (if (null tail) name
+ (domain-name-concat name tail))))
+
+(export 'zone-records-sorted)
+(defun zone-records-sorted (zone)
+ "Return the ZONE's records, in a pleasant sorted order."
+ (sort (copy-seq (zone-records zone))
+ (lambda (zr-a zr-b)
+ (multiple-value-bind (precp follp)
+ (domain-name< (zr-name zr-a) (zr-name zr-b))
+ (cond (precp t)
+ (follp nil)
+ (t (string< (zr-type zr-a) (zr-type zr-b))))))))
+
+;;;--------------------------------------------------------------------------
+;;; Serial numbering.
+
+(export 'make-zone-serial)
+(defun make-zone-serial (name)
+ "Given a zone NAME, come up with a new serial number.
+
+ This will (very carefully) update a file ZONE.serial in the current
+ directory."
+ (let* ((file (zone-file-name name :serial))
+ (last (with-open-file (in file
+ :direction :input
+ :if-does-not-exist nil)
+ (if in (read in)
+ (list 0 0 0 0))))
+ (now (multiple-value-bind
+ (sec min hr dy mon yr dow dstp tz)
+ (get-decoded-time)
+ (declare (ignore sec min hr dow dstp tz))
+ (list dy mon yr)))
+ (seq (cond ((not (equal now (cdr last))) 0)
+ ((< (car last) 99) (1+ (car last)))
+ (t (error "Run out of sequence numbers for ~A" name)))))
+ (safely-writing (out file)
+ (format out
+ ";; Serial number file for zone ~A~%~
+ ;; (LAST-SEQ DAY MONTH YEAR)~%~
+ ~S~%"
+ name
+ (cons seq now)))
+ (from-mixed-base '(100 100 100) (reverse (cons seq now)))))
+
+;;;--------------------------------------------------------------------------
+;;; Zone form parsing.
+
(defun zone-process-records (rec ttl func)
"Sort out the list of records in REC, calling FUNC for each one.
TTL is the default time-to-live for records which don't specify one.
- The syntax is a little fiddly to describe. It operates relative to a
- subzone name NAME.
+ REC is a list of records of the form
+
+ ({ :ttl TTL | TYPE DATA | (LABEL . REC) }*)
+
+ The various kinds of entries have the following meanings.
+
+ :ttl TTL Set the TTL for subsequent records (at this level of
+ nesting only).
+
+ TYPE DATA Define a record with a particular TYPE and DATA.
+ Record types are defined using `defzoneparse' and
+ the syntax of the data is idiosyncratic.
+
+ ((LABEL ...) . REC) Define records for labels within the zone. Any
+ records defined within REC will have their domains
+ prefixed by each of the LABELs. A singleton list
+ of labels may instead be written as a single
+ label. Note, therefore, that
- ZONE-RECORD: RR | TTL | SUBZONE
- The body of a zone form is a sequence of these.
+ (host (sub :a \"169.254.1.1\"))
- TTL: :ttl INTEGER
- Sets the TTL for subsequent RRs in this zone or subzone.
+ defines a record for `host.sub' -- not `sub.host'.
- RR: SYMBOL DATA
- Adds a record for the current NAME; the SYMBOL denotes the record
- type, and the DATA depends on the type.
+ If REC contains no top-level records, but it does define records for a
+ label listed in `*preferred-subnets*', then the records for the first such
+ label are also promoted to top-level.
+
+ The FUNC is called for each record encountered, represented as a
+ `zone-record' object. Zone parsers are not called: you get the record
+ types and data from the input form; see `zone-parse-records' if you want
+ the raw output."
- SUBZONE: (LABELS ZONE-RECORD*)
- Defines a subzone. The LABELS is either a list of labels, or a
- singleton label. For each LABEL, evaluate the ZONE-RECORDs relative
- to LABEL.NAME. The special LABEL `@' is a no-op."
(labels ((sift (rec ttl)
+ ;; Parse the record list REC into lists of `zone-record' and
+ ;; `zone-subdomain' objects, sorting out TTLs and so on.
+ ;; Returns them as two values.
+
(collecting (top sub)
(loop
(unless rec
top))
((listp r)
(dolist (name (listify (car r)))
- (collect (make-zone-subdomain :name name
- :ttl ttl
- :records (cdr r))
+ (collect (make-zone-subdomain
+ :name (zone-parse-host name)
+ :ttl ttl :records (cdr r))
sub)))
(t
(error "Unexpected record form ~A" (car r))))))))
+
(process (rec dom ttl)
+ ;; Recursirvely process the record list REC, with a list DOM of
+ ;; prefix labels, and a default TTL. Promote records for a
+ ;; preferred subnet to toplevel if there are no toplevel records
+ ;; already.
+
(multiple-value-bind (top sub) (sift rec ttl)
(if (and dom (null top) sub)
(let ((preferred
- (or (find-if (lambda (s)
- (some #'zone-preferred-subnet-p
- (listify (zs-name s))))
- sub)
+ (or (find-if
+ (lambda (s)
+ (let ((ll (domain-name-labels (zs-name s))))
+ (and (consp ll) (null (cdr ll))
+ (zone-preferred-subnet-p (car ll)))))
+ sub)
(car sub))))
(when preferred
(process (zs-records preferred)
dom
(zs-ttl preferred))))
- (let ((name (and dom
- (string-downcase
- (join-strings #\. (reverse dom))))))
+ (let ((name dom))
(dolist (zr top)
(setf (zr-name zr) name)
(funcall func zr))))
(dolist (s sub)
(process (zs-records s)
- (cons (zs-name s) dom)
+ (if (null dom) (zs-name s)
+ (domain-name-concat dom (zs-name s)))
(zs-ttl s))))))
- (process rec nil ttl)))
-
-(export 'zone-parse-host)
-(defun zone-parse-host (f zname)
- "Parse a host name F: if F ends in a dot then it's considered absolute;
- otherwise it's relative to ZNAME."
- (setf f (stringify f))
- (cond ((string= f "@") (stringify zname))
- ((and (plusp (length f))
- (char= (char f (1- (length f))) #\.))
- (string-downcase (subseq f 0 (1- (length f)))))
- (t (string-downcase (concatenate 'string f "."
- (stringify zname))))))
-(defun default-rev-zone (base bytes)
- "Return the default reverse-zone name for the given BASE address and number
- of fixed leading BYTES."
- (join-strings #\. (collecting ()
- (loop for i from (- 3 bytes) downto 0
- do (collect (ipaddr-byte base i)))
- (collect "in-addr.arpa"))))
-
-(defun zone-name-from-net (net &optional bytes)
- "Given a NET, and maybe the BYTES to use, convert to the appropriate
- subdomain of in-addr.arpa."
- (let ((ipn (net-get-as-ipnet net)))
- (with-ipnet (net mask) ipn
- (unless bytes
- (setf bytes (- 4 (ipnet-changeable-bytes mask))))
- (join-strings #\.
- (append (loop
- for i from (- 4 bytes) below 4
- collect (logand #xff (ash net (* -8 i))))
- (list "in-addr.arpa"))))))
-
-(defun zone-net-from-name (name)
- "Given a NAME in the in-addr.arpa space, convert it to an ipnet."
- (let* ((name (string-downcase (stringify name)))
- (len (length name))
- (suffix ".in-addr.arpa")
- (sufflen (length suffix))
- (addr 0)
- (n 0)
- (end (- len sufflen)))
- (unless (and (> len sufflen)
- (string= name suffix :start1 end))
- (error "`~A' not in ~A." name suffix))
- (loop
- with start = 0
- for dot = (position #\. name :start start :end end)
- for byte = (parse-integer name
- :start start
- :end (or dot end))
- do (setf addr (logior addr (ash byte (* 8 n))))
- (incf n)
- when (>= n 4)
- do (error "Can't deduce network from ~A." name)
- while dot
- do (setf start (1+ dot)))
- (setf addr (ash addr (* 8 (- 4 n))))
- (make-ipnet addr (* 8 n))))
-
-(defun zone-parse-net (net name)
- "Given a NET, and the NAME of a domain to guess from if NET is null, return
- the ipnet for the network."
- (if net
- (net-get-as-ipnet net)
- (zone-net-from-name name)))
-
-(defun zone-cidr-delg-default-name (ipn bytes)
- "Given a delegated net IPN and the parent's number of changing BYTES,
- return the default deletate zone prefix."
- (with-ipnet (net mask) ipn
- (join-strings #\.
- (reverse
- (loop
- for i from (1- bytes) downto 0
- until (zerop (logand mask (ash #xff (* 8 i))))
- collect (logand #xff (ash net (* -8 i))))))))
-
-;;;--------------------------------------------------------------------------
-;;; Serial numbering.
-(export 'make-zone-serial)
-(defun make-zone-serial (name)
- "Given a zone NAME, come up with a new serial number.
-
- This will (very carefully) update a file ZONE.serial in the current
- directory."
- (let* ((file (zone-file-name name :serial))
- (last (with-open-file (in file
- :direction :input
- :if-does-not-exist nil)
- (if in (read in)
- (list 0 0 0 0))))
- (now (multiple-value-bind
- (sec min hr dy mon yr dow dstp tz)
- (get-decoded-time)
- (declare (ignore sec min hr dow dstp tz))
- (list dy mon yr)))
- (seq (cond ((not (equal now (cdr last))) 0)
- ((< (car last) 99) (1+ (car last)))
- (t (error "Run out of sequence numbers for ~A" name)))))
- (safely-writing (out file)
- (format out
- ";; Serial number file for zone ~A~%~
- ;; (LAST-SEQ DAY MONTH YEAR)~%~
- ~S~%"
- name
- (cons seq now)))
- (from-mixed-base '(100 100 100) (reverse (cons seq now)))))
-
-;;;--------------------------------------------------------------------------
-;;; Zone form parsing.
+ ;; Process the records we're given with no prefix.
+ (process rec nil ttl)))
(defun zone-parse-head (head)
"Parse the HEAD of a zone form.
though a singleton NAME needn't be a list. Returns the default TTL and an
soa structure representing the zone head."
(destructuring-bind
- (zname
+ (raw-zname
&key
(source *default-zone-source*)
(admin (or *default-zone-admin*
- (format nil "hostmaster@~A" zname)))
+ (format nil "hostmaster@~A" raw-zname)))
(refresh *default-zone-refresh*)
(retry *default-zone-retry*)
(expire *default-zone-expire*)
(min-ttl *default-zone-min-ttl*)
(ttl min-ttl)
- (serial (make-zone-serial zname)))
+ (serial (make-zone-serial raw-zname))
+ &aux
+ (zname (zone-parse-host raw-zname root-domain)))
(listify head)
(values zname
(timespec-seconds ttl)
:min-ttl (timespec-seconds min-ttl)
:serial serial))))
-(export 'zone-make-name)
-(defun zone-make-name (prefix zone-name)
- (if (or (not prefix) (string= prefix "@"))
- zone-name
- (let ((len (length prefix)))
- (if (or (zerop len) (char/= (char prefix (1- len)) #\.))
- (join-strings #\. (list prefix zone-name))
- prefix))))
-
(export 'defzoneparse)
(defmacro defzoneparse (types (name data list
&key (prefix (gensym "PREFIX"))
&body body)
"Define a new zone record type.
- The TYPES may be a list of synonyms. The other arguments are as follows:
+ The arguments are as follows:
+
+ TYPES A singleton type symbol, or a list of aliases.
NAME The name of the record to be added.
These (except MAKE-PTR-P, which defaults to nil) default to the above
arguments (even if you didn't accept the arguments)."
+
(setf types (listify types))
(let* ((type (car types))
(func (intern (format nil "ZONE-PARSE/~:@(~A~)" type))))
(defun ,func (,prefix ,zname ,data ,ttl ,col)
,@doc
,@decls
- (let ((,name (zone-make-name ,prefix ,zname)))
+ (let ((,name (if (null ,prefix) ,zname
+ (domain-name-concat ,prefix ,zname))))
(flet ((,list (&key ((:name ,tname) ,name)
((:type ,ttype) ,type)
((:data ,tdata) ,data)
:make-ptr-p ,tmakeptrp)
,col)))
,@body)))
- ',type)))))
+ ',type)))))
(export 'zone-parse-records)
(defun zone-parse-records (zname ttl records)
(let ((func (or (get (zr-type zr) 'zone-parse)
(error "No parser for record ~A."
(zr-type zr))))
- (name (and (zr-name zr) (stringify (zr-name zr)))))
+ (name (and (zr-name zr) (zr-name zr))))
(funcall func name zname (zr-data zr) (zr-ttl zr) rec))))
(zone-process-records records ttl #'parse-record))))
(defun zone-parse (zf)
"Parse a ZONE form.
- The syntax of a zone form is as follows:
+ The syntax of a zone form is as follows:
ZONE-FORM:
ZONE-HEAD ZONE-RECORD*
(export 'zone-create)
(defun zone-create (zf)
- "Zone construction function. Given a zone form ZF, construct the zone and
- add it to the table."
+ "Zone construction function.
+
+ Given a zone form ZF, construct the zone and add it to the table."
(let* ((zone (zone-parse zf))
- (name (zone-name zone)))
+ (name (zone-text-name zone)))
(setf (zone-find name) zone)
name))
(export 'defzone)
-(defmacro defzone (soa &rest zf)
+(defmacro defzone (soa &body zf)
"Zone definition macro."
`(zone-create '(,soa ,@zf)))
+(export '*address-family*)
+(defvar *address-family* t
+ "The default address family. This is bound by `defrevzone'.")
+
(export 'defrevzone)
-(defmacro defrevzone (head &rest zf)
+(defmacro defrevzone (head &body zf)
"Define a reverse zone, with the correct name."
- (destructuring-bind
- (net &rest soa-args)
+ (destructuring-bind (nets &rest args
+ &key &allow-other-keys
+ (family '*address-family*)
+ prefix-bits)
(listify head)
- (let ((bytes nil))
- (when (and soa-args (integerp (car soa-args)))
- (setf bytes (pop soa-args)))
- `(zone-create '((,(zone-name-from-net net bytes) ,@soa-args) ,@zf)))))
+ (with-gensyms (ipn)
+ `(dolist (,ipn (net-parse-to-ipnets ',nets ,family))
+ (let ((*address-family* (ipnet-family ,ipn)))
+ (zone-create `((,(format nil "~A." (reverse-domain ,ipn
+ ,prefix-bits))
+ ,@',(loop for (k v) on args by #'cddr
+ unless (member k
+ '(:family :prefix-bits))
+ nconc (list k v)))
+ ,@',zf)))))))
+
+(export 'map-host-addresses)
+(defun map-host-addresses (func addr &key (family *address-family*))
+ "Call FUNC for each address denoted by ADDR (a `host-parse' address)."
+
+ (dolist (a (host-addrs (host-parse addr family)))
+ (funcall func a)))
+
+(export 'do-host)
+(defmacro do-host ((addr spec &key (family *address-family*)) &body body)
+ "Evaluate BODY, binding ADDR to each address denoted by SPEC."
+ `(dolist (,addr (host-addrs (host-parse ,spec ,family)))
+ ,@body))
+
+(export 'zone-set-address)
+(defun zone-set-address (rec addrspec &rest args
+ &key (family *address-family*) name ttl make-ptr-p)
+ "Write records (using REC) defining addresses for ADDRSPEC."
+ (declare (ignore name ttl make-ptr-p))
+ (let ((key-args (loop for (k v) on args by #'cddr
+ unless (eq k :family)
+ nconc (list k v))))
+ (do-host (addr addrspec :family family)
+ (apply rec :type (ipaddr-rrtype addr) :data addr key-args))))
+
+;;;--------------------------------------------------------------------------
+;;; Building raw record vectors.
+
+(defvar *record-vector* nil
+ "The record vector under construction.")
+
+(defun rec-ensure (n)
+ "Ensure that at least N octets are spare in the current record."
+ (let ((want (+ n (fill-pointer *record-vector*)))
+ (have (array-dimension *record-vector* 0)))
+ (unless (<= want have)
+ (adjust-array *record-vector*
+ (do ((new (* 2 have) (* 2 new)))
+ ((<= want new) new))))))
+
+(export 'rec-byte)
+(defun rec-byte (octets value)
+ "Append an unsigned byte, OCTETS octets wide, with VALUE, to the record."
+ (rec-ensure octets)
+ (do ((i (1- octets) (1- i)))
+ ((minusp i))
+ (vector-push (ldb (byte 8 (* 8 i)) value) *record-vector*)))
+
+(export 'rec-u8)
+(defun rec-u8 (value)
+ "Append an 8-bit VALUE to the current record."
+ (rec-byte 1 value))
+
+(export 'rec-u16)
+(defun rec-u16 (value)
+ "Append a 16-bit VALUE to the current record."
+ (rec-byte 2 value))
+
+(export 'rec-u32)
+(defun rec-u32 (value)
+ "Append a 32-bit VALUE to the current record."
+ (rec-byte 4 value))
+
+(export 'rec-raw-string)
+(defun rec-raw-string (s &key (start 0) end)
+ "Append (a (substring of) a raw string S to the current record.
+
+ No arrangement is made for reporting the length of the string. That must
+ be done by the caller, if necessary."
+ (setf-default end (length s))
+ (rec-ensure (- end start))
+ (do ((i start (1+ i)))
+ ((>= i end))
+ (vector-push (char-code (char s i)) *record-vector*)))
+
+(export 'rec-string)
+(defun rec-string (s &key (start 0) end (max 255))
+ (let* ((end (or end (length s)))
+ (len (- end start)))
+ (unless (<= len max)
+ (error "String `~A' too long" (subseq s start end)))
+ (rec-u8 (- end start))
+ (rec-raw-string s :start start :end end)))
+
+(export 'rec-name)
+(defun rec-name (name)
+ "Append a domain NAME.
+
+ No attempt is made to perform compression of the name."
+ (dolist (label (reverse (domain-name-labels name)))
+ (rec-string label :max 63))
+ (rec-u8 0))
+
+(export 'build-record)
+(defmacro build-record (&body body)
+ "Build a raw record, and return it as a vector of octets."
+ `(let ((*record-vector* (make-array 256
+ :element-type '(unsigned-byte 8)
+ :fill-pointer 0
+ :adjustable t)))
+ ,@body
+ (copy-seq *record-vector*)))
+
+(export 'zone-record-rrdata)
+(defgeneric zone-record-rrdata (type zr)
+ (:documentation "Emit (using the `build-record' protocol) RRDATA for ZR.
+
+ The TYPE is a keyword naming the record type. Return the numeric RRTYPE
+ code."))
;;;--------------------------------------------------------------------------
;;; Zone record parsers.
(defzoneparse :a (name data rec)
":a IPADDR"
- (rec :data (parse-ipaddr data) :make-ptr-p t))
+ (zone-set-address #'rec data :make-ptr-p t :family :ipv4))
+
+(defmethod zone-record-rrdata ((type (eql :a)) zr)
+ (rec-u32 (ipaddr-addr (zr-data zr)))
+ 1)
+
+(defzoneparse :aaaa (name data rec)
+ ":aaaa IPADDR"
+ (zone-set-address #'rec data :make-ptr-p t :family :ipv6))
+
+(defmethod zone-record-rrdata ((type (eql :aaaa)) zr)
+ (rec-byte 16 (ipaddr-addr (zr-data zr)))
+ 28)
+
+(defzoneparse :addr (name data rec)
+ ":addr IPADDR"
+ (zone-set-address #'rec data :make-ptr-p t))
(defzoneparse :svc (name data rec)
":svc IPADDR"
- (rec :type :a :data (parse-ipaddr data)))
+ (zone-set-address #'rec data))
(defzoneparse :ptr (name data rec :zname zname)
":ptr HOST"
(rec :data (zone-parse-host data zname)))
+(defmethod zone-record-rrdata ((type (eql :ptr)) zr)
+ (rec-name (zr-data zr))
+ 12)
+
(defzoneparse :cname (name data rec :zname zname)
":cname HOST"
(rec :data (zone-parse-host data zname)))
+(defmethod zone-record-rrdata ((type (eql :cname)) zr)
+ (rec-name (zr-data zr))
+ 5)
+
(defzoneparse :txt (name data rec)
- ":txt TEXT"
- (rec :data data))
+ ":txt (TEXT*)"
+ (rec :data (listify data)))
+
+(defmethod zone-record-rrdata ((type (eql :txt)) zr)
+ (mapc #'rec-string (zr-data zr))
+ 16)
(export '*dkim-pathname-defaults*)
(defvar *dkim-pathname-defaults*
(flush))
(when (plusp len)
(cond ((< len 64)
- (unless out (setf out (make-string-output-stream)))
+ (unless out
+ (setf out (make-string-output-stream)))
(write-string text out))
(t
(do ((i 0 j)
(j 64 (+ j 64)))
((>= i len))
- (push (subseq text i (min j len)) things))))))))
+ (push (subseq text i (min j len))
+ things))))))))
(do ((p plist (cddr p)))
((endp p))
(emit (format nil "~(~A~)=~A;" (car p) (cadr p))))
(rec :type :txt
:data (nreverse things)))))
-(eval-when (:load-toplevel :execute)
- (dolist (item '((sshfp-algorithm rsa 1)
- (sshfp-algorithm dsa 2)
- (sshfp-algorithm ecdsa 3)
- (sshfp-type sha-1 1)
- (sshfp-type sha-256 2)))
- (destructuring-bind (prop sym val) item
- (setf (get sym prop) val)
- (export sym))))
+(defenum sshfp-algorithm (rsa 1) (dsa 2) (ecdsa 3))
+(defenum sshfp-type (sha-1 1) (sha-256 2))
(export '*sshfp-pathname-defaults*)
(defvar *sshfp-pathname-defaults*
(rec :data (list (parse-integer alg)
(parse-integer type)
fpr)))))))
- (flet ((lookup (what prop)
- (etypecase what
- (fixnum what)
- (symbol (or (get what prop)
- (error "~S is not a known ~A" what prop))))))
- (dolist (item (listify data))
- (destructuring-bind (fpr &key (alg 'rsa) (type 'sha-1))
- (listify item)
- (rec :data (list (lookup alg 'sshfp-algorithm)
- (lookup type 'sshfp-type)
- fpr)))))))
+ (dolist (item (listify data))
+ (destructuring-bind (fpr &key (alg 'rsa) (type 'sha-1))
+ (listify item)
+ (rec :data (list (lookup-enum alg 'sshfp-algorithm :min 0 :max 255)
+ (lookup-enum type 'sshfp-type :min 0 :max 255)
+ fpr))))))
+
+(defmethod zone-record-rrdata ((type (eql :sshfp)) zr)
+ (destructuring-bind (alg type fpr) (zr-data zr)
+ (rec-u8 alg)
+ (rec-u8 type)
+ (do ((i 0 (+ i 2))
+ (n (length fpr)))
+ ((>= i n))
+ (rec-u8 (parse-integer fpr :start i :end (+ i 2) :radix 16))))
+ 44)
(defzoneparse :mx (name data rec :zname zname)
":mx ((HOST :prio INT :ip IPADDR)*)"
(mxname &key (prio *default-mx-priority*) ip)
(listify mx)
(let ((host (zone-parse-host mxname zname)))
- (when ip (rec :name host :type :a :data (parse-ipaddr ip)))
+ (when ip (zone-set-address #'rec ip :name host))
(rec :data (cons host prio))))))
+(defmethod zone-record-rrdata ((type (eql :mx)) zr)
+ (let ((name (car (zr-data zr)))
+ (prio (cdr (zr-data zr))))
+ (rec-u16 prio)
+ (rec-name name))
+ 15)
+
(defzoneparse :ns (name data rec :zname zname)
":ns ((HOST :ip IPADDR)*)"
(dolist (ns (listify data))
(nsname &key ip)
(listify ns)
(let ((host (zone-parse-host nsname zname)))
- (when ip (rec :name host :type :a :data (parse-ipaddr ip)))
+ (when ip (zone-set-address #'rec ip :name host))
(rec :data host)))))
+(defmethod zone-record-rrdata ((type (eql :ns)) zr)
+ (rec-name (zr-data zr))
+ 2)
+
(defzoneparse :alias (name data rec :zname zname)
":alias (LABEL*)"
(dolist (a (listify data))
:data name)))
(defzoneparse :srv (name data rec :zname zname)
- ":srv (((SERVICE &key :port) (PROVIDER &key :port :prio :weight :ip)*)*)"
+ ":srv (((SERVICE &key :port :protocol)
+ (PROVIDER &key :port :prio :weight :ip)*)*)"
(dolist (srv data)
(destructuring-bind (servopts &rest providers) srv
(destructuring-bind
(unless default-port
(let ((serv (serv-by-name service protocol)))
(setf default-port (and serv (serv-port serv)))))
- (let ((rname (format nil "~(_~A._~A~).~A" service protocol name)))
+ (let ((rname (flet ((prepend (tag tail)
+ (domain-name-concat
+ (make-domain-name
+ :labels (list (format nil "_~(~A~)" tag)))
+ tail)))
+ (prepend service (prepend protocol name)))))
(dolist (prov providers)
(destructuring-bind
(srvname
ip)
(listify prov)
(let ((host (zone-parse-host srvname zname)))
- (when ip (rec :name host :type :a :data (parse-ipaddr ip)))
+ (when ip (zone-set-address #'rec ip :name host))
(rec :name rname
:data (list prio weight port host))))))))))
+(defmethod zone-record-rrdata ((type (eql :srv)) zr)
+ (destructuring-bind (prio weight port host) (zr-data zr)
+ (rec-u16 prio)
+ (rec-u16 weight)
+ (rec-u16 port)
+ (rec-name host))
+ 33)
+
(defzoneparse :net (name data rec)
":net (NETWORK*)"
(dolist (net (listify data))
- (let ((n (net-get-as-ipnet net)))
- (rec :name (zone-parse-host "net" name)
- :type :a
- :data (ipnet-net n))
- (rec :name (zone-parse-host "mask" name)
- :type :a
- :data (ipnet-mask n))
- (rec :name (zone-parse-host "bcast" name)
- :type :a
- :data (ipnet-broadcast n)))))
+ (dolist (ipn (net-ipnets (net-must-find net)))
+ (let* ((base (ipnet-net ipn))
+ (rrtype (ipaddr-rrtype base)))
+ (flet ((frob (kind addr)
+ (when addr
+ (rec :name (zone-parse-host kind name)
+ :type rrtype
+ :data addr))))
+ (frob "net" base)
+ (frob "mask" (ipaddr (ipnet-mask ipn) (ipnet-family ipn)))
+ (frob "bcast" (ipnet-broadcast ipn)))))))
(defzoneparse (:rev :reverse) (name data rec)
- ":reverse ((NET :bytes BYTES) ZONE*)
+ ":reverse ((NET &key :prefix-bits :family) ZONE*)
Add a reverse record each host in the ZONEs (or all zones) that lies
- within NET. The BYTES give the number of prefix labels generated; this
- defaults to the smallest number of bytes needed to enumerate the net."
- (setf data (listify data))
- (destructuring-bind (net &key bytes) (listify (car data))
- (setf net (zone-parse-net net name))
- (unless bytes
- (setf bytes (ipnet-changeable-bytes (ipnet-mask net))))
- (let ((seen (make-hash-table :test #'equal)))
- (dolist (z (or (cdr data)
- (hash-table-keys *zones*)))
- (dolist (zr (zone-records (zone-find z)))
- (when (and (eq (zr-type zr) :a)
- (zr-make-ptr-p zr)
- (ipaddr-networkp (zr-data zr) net))
- (let ((name (string-downcase
- (join-strings
- #\.
- (collecting ()
- (dotimes (i bytes)
- (collect (logand #xff (ash (zr-data zr)
- (* -8 i)))))
- (collect name))))))
- (unless (gethash name seen)
- (rec :name name :type :ptr
- :ttl (zr-ttl zr) :data (zr-name zr))
- (setf (gethash name seen) t)))))))))
-
-(defzoneparse (:cidr-delegation :cidr) (name data rec :zname zname)
- ":cidr-delegation ((NET :bytes BYTES) ((TARGET-NET*) [TARGET-ZONE])*)
-
- Insert CNAME records for delegating a portion of the reverse-lookup
- namespace which doesn't align with an octet boundary.
-
- The NET specifies the origin network, in which the reverse records
- naturally lie. The BYTES are the number of labels to supply for each
- address; the default is the smallest number which suffices to enumerate
- the entire NET. The TARGET-NETs are subnets of NET which are to be
- delegated. The TARGET-ZONEs are the zones to which we are delegating
- authority for the reverse records: the default is to append labels for those
- octets of the subnet base address which are not the same in all address in
- the subnet."
+ within NET."
(setf data (listify data))
- (destructuring-bind (net &key bytes) (listify (car data))
- (setf net (zone-parse-net net name))
- (unless bytes
- (setf bytes (ipnet-changeable-bytes (ipnet-mask net))))
- (dolist (map (or (cdr data) (list (list net))))
- (destructuring-bind (tnets &optional tdom) (listify map)
- (dolist (tnet (listify tnets))
- (setf tnet (zone-parse-net tnet name))
- (unless (ipnet-subnetp net tnet)
- (error "~A is not a subnet of ~A."
- (ipnet-pretty tnet)
- (ipnet-pretty net)))
- (unless tdom
- (with-ipnet (net mask) tnet
- (setf tdom
- (join-strings
- #\.
- (append (reverse (loop
- for i from (1- bytes) downto 0
- until (zerop (logand mask
- (ash #xff
- (* 8 i))))
- collect (ldb (byte 8 (* i 8)) net)))
- (list name))))))
- (setf tdom (string-downcase (stringify tdom)))
- (dotimes (i (ipnet-hosts tnet))
- (unless (zerop i)
- (let* ((addr (ipnet-host tnet i))
- (tail (join-strings #\.
- (loop
- for i from 0 below bytes
- collect
- (logand #xff
- (ash addr (* 8 i)))))))
- (rec :name (format nil "~A.~A" tail name)
- :type :cname
- :data (format nil "~A.~A" tail tdom))))))))))
+ (destructuring-bind (net &key prefix-bits (family *address-family*))
+ (listify (car data))
+
+ (dolist (ipn (net-parse-to-ipnets net family))
+ (let* ((seen (make-hash-table :test #'equal))
+ (width (ipnet-width ipn))
+ (frag-len (if prefix-bits (- width prefix-bits)
+ (ipnet-changeable-bits width (ipnet-mask ipn)))))
+ (dolist (z (or (cdr data) (hash-table-keys *zones*)))
+ (dolist (zr (zone-records (zone-find z)))
+ (when (and (eq (zr-type zr) (ipaddr-rrtype (ipnet-net ipn)))
+ (zr-make-ptr-p zr)
+ (ipaddr-networkp (ipaddr-addr (zr-data zr)) ipn))
+ (let* ((frag (reverse-domain-fragment (zr-data zr)
+ 0 frag-len))
+ (name (domain-name-concat frag name))
+ (name-string (princ-to-string name)))
+ (unless (gethash name-string seen)
+ (rec :name name :type :ptr
+ :ttl (zr-ttl zr) :data (zr-name zr))
+ (setf (gethash name-string seen) t))))))))))
+
+(defzoneparse :multi (name data rec :zname zname :ttl ttl)
+ ":multi (((NET*) &key :start :end :family :suffix) . REC)
+
+ Output multiple records covering a portion of the reverse-resolution
+ namespace corresponding to the particular NETs. The START and END bounds
+ default to the most significant variable component of the
+ reverse-resolution domain.
+
+ The REC tail is a sequence of record forms (as handled by
+ `zone-process-records') to be emitted for each covered address. Within
+ the bodies of these forms, the symbol `*' will be replaced by the
+ domain-name fragment corresponding to the current host, optionally
+ followed by the SUFFIX.
+
+ Examples:
+
+ (:multi ((delegated-subnet :start 8)
+ :ns (some.ns.delegated.example :ip \"169.254.5.2\")))
+
+ (:multi ((tiny-subnet :suffix \"128.10.254.169.in-addr.arpa\")
+ :cname *))
+
+ Obviously, nested `:multi' records won't work well."
+
+ (destructuring-bind (nets
+ &key start end ((:suffix raw-suffix))
+ (family *address-family*))
+ (listify (car data))
+ (let ((suffix (if (not raw-suffix)
+ (make-domain-name :labels nil :absolutep nil)
+ (zone-parse-host raw-suffix))))
+ (dolist (net (listify nets))
+ (dolist (ipn (net-parse-to-ipnets net family))
+ (let* ((addr (ipnet-net ipn))
+ (width (ipaddr-width addr))
+ (comp-width (reverse-domain-component-width addr))
+ (end (round-up (or end
+ (ipnet-changeable-bits width
+ (ipnet-mask ipn)))
+ comp-width))
+ (start (round-down (or start (- end comp-width))
+ comp-width))
+ (map (ipnet-host-map ipn)))
+ (multiple-value-bind (host-step host-limit)
+ (ipnet-index-bounds map start end)
+ (do ((index 0 (+ index host-step)))
+ ((> index host-limit))
+ (let* ((addr (ipnet-index-host map index))
+ (frag (reverse-domain-fragment addr start end))
+ (target (reduce #'domain-name-concat
+ (list frag suffix zname)
+ :from-end t
+ :initial-value root-domain)))
+ (dolist (zr (zone-parse-records (domain-name-concat frag
+ zname)
+ ttl
+ (subst target '*
+ (cdr data))))
+ (rec :name (zr-name zr)
+ :type (zr-type zr)
+ :data (zr-data zr)
+ :ttl (zr-ttl zr)
+ :make-ptr-p (zr-make-ptr-p zr))))))))))))
;;;--------------------------------------------------------------------------
;;; Zone file output.
(defvar *zone-output-stream* nil
"Stream to write zone data on.")
-(defmethod zone-write :around (format zone stream)
- (declare (ignore format))
+(export 'zone-write-raw-rrdata)
+(defgeneric zone-write-raw-rrdata (format zr type data)
+ (:documentation "Write an otherwise unsupported record in a given FORMAT.
+
+ ZR gives the record object, which carries the name and TTL; the TYPE is
+ the numeric RRTYPE code; and DATA is an octet vector giving the RRDATA.
+ This is used by the default `zone-write-record' method to handle record
+ types which aren't directly supported by the format driver."))
+
+(export 'zone-write-header)
+(defgeneric zone-write-header (format zone)
+ (:documentation "Emit the header for a ZONE, in a given FORMAT.
+
+ The header includes any kind of initial comment, the SOA record, and any
+ other necessary preamble. There is no default implementation.
+
+ This is part of the protocol used by the default method on `zone-write';
+ if you override that method."))
+
+(export 'zone-write-trailer)
+(defgeneric zone-write-trailer (format zone)
+ (:documentation "Emit the header for a ZONE, in a given FORMAT.
+
+ The footer may be empty, and is so by default.
+
+ This is part of the protocol used by the default method on `zone-write';
+ if you override that method.")
+ (:method (format zone)
+ (declare (ignore format zone))
+ nil))
+
+(export 'zone-write-record)
+(defgeneric zone-write-record (format type zr)
+ (:documentation "Emit a record of the given TYPE (a keyword).
+
+ The default implementation builds the raw RRDATA and passes it to
+ `zone-write-raw-rrdata'.")
+ (:method (format type zr)
+ (let* (code
+ (data (build-record (setf code (zone-record-rrdata type zr)))))
+ (zone-write-raw-rrdata format zr code data))))
+
+(defmethod zone-write (format zone stream)
+ "This default method calls `zone-write-header', then `zone-write-record'
+ for each record in the zone, and finally `zone-write-trailer'. While it's
+ running, `*writing-zone*' is bound to the zone object, and
+ `*zone-output-stream*' to the output stream."
(let ((*writing-zone* zone)
(*zone-output-stream* stream))
- (call-next-method)))
+ (zone-write-header format zone)
+ (dolist (zr (zone-records-sorted zone))
+ (zone-write-record format (zr-type zr) zr))
+ (zone-write-trailer format zone)))
(export 'zone-save)
(defun zone-save (zones &key (format :bind))
;;;--------------------------------------------------------------------------
;;; Bind format output.
+(defvar *bind-last-record-name* nil
+ "The previously emitted record name.
+
+ Used for eliding record names on output.")
+
(export 'bind-hostname)
(defun bind-hostname (hostname)
- (if (not hostname)
- "@"
- (let* ((h (string-downcase (stringify hostname)))
- (hl (length h))
- (r (string-downcase (zone-name *writing-zone*)))
- (rl (length r)))
- (cond ((string= r h) "@")
- ((and (> hl rl)
- (char= (char h (- hl rl 1)) #\.)
- (string= h r :start1 (- hl rl)))
- (subseq h 0 (- hl rl 1)))
- (t (concatenate 'string h "."))))))
-
-(defmethod zone-write ((format (eql :bind)) zone stream)
- (format stream "~
+ (let ((zone (domain-name-labels (zone-name *writing-zone*)))
+ (name (domain-name-labels hostname)))
+ (loop
+ (unless (and zone name (string= (car zone) (car name)))
+ (return))
+ (pop zone) (pop name))
+ (flet ((stitch (labels absolutep)
+ (format nil "~{~A~^.~}~@[.~]"
+ (reverse (mapcar #'quotify-label labels))
+ absolutep)))
+ (cond (zone (stitch (domain-name-labels hostname) t))
+ (name (stitch name nil))
+ (t "@")))))
+
+(export 'bind-output-hostname)
+(defun bind-output-hostname (hostname)
+ (let ((name (bind-hostname hostname)))
+ (cond ((and *bind-last-record-name*
+ (string= name *bind-last-record-name*))
+ "")
+ (t
+ (setf *bind-last-record-name* name)
+ name))))
+
+(defmethod zone-write :around ((format (eql :bind)) zone stream)
+ (declare (ignorable zone stream))
+ (let ((*bind-last-record-name* nil))
+ (call-next-method)))
+
+(defmethod zone-write-header ((format (eql :bind)) zone)
+ (format *zone-output-stream* "~
;;; Zone file `~(~A~)'
;;; (generated ~A)
(when at
(setf (char copy at) #\.))
copy)))
- (format stream "~
-~A~30TIN SOA~40T~A ~A (
+ (format *zone-output-stream* "~
+~A~30TIN SOA~40T~A (
+~55@A~60T ;administrator
~45T~10D~60T ;serial
~45T~10D~60T ;refresh
~45T~10D~60T ;retry
~45T~10D~60T ;expire
~45T~10D )~60T ;min-ttl~2%"
- (bind-hostname (zone-name zone))
+ (bind-output-hostname (zone-name zone))
(bind-hostname (soa-source soa))
admin
(soa-serial soa)
(soa-refresh soa)
(soa-retry soa)
(soa-expire soa)
- (soa-min-ttl soa)))
- (dolist (zr (zone-records zone))
- (bind-record (zr-type zr) zr)))
-
-(export 'bind-record)
-(defgeneric bind-record (type zr))
+ (soa-min-ttl soa))))
(export 'bind-format-record)
-(defun bind-format-record (name ttl type format args)
+(defun bind-format-record (zr format &rest args)
(format *zone-output-stream*
"~A~20T~@[~8D~]~30TIN ~A~40T~?~%"
- (bind-hostname name)
- (and (/= ttl (zone-default-ttl *writing-zone*))
- ttl)
- (string-upcase (symbol-name type))
+ (bind-output-hostname (zr-name zr))
+ (let ((ttl (zr-ttl zr)))
+ (and (/= ttl (zone-default-ttl *writing-zone*))
+ ttl))
+ (string-upcase (symbol-name (zr-type zr)))
format args))
-(defmethod bind-record (type zr)
- (destructuring-bind (format &rest args)
- (bind-record-format-args type (zr-data zr))
- (bind-format-record (zr-name zr)
- (zr-ttl zr)
- (bind-record-type type)
- format args)))
-
-(export 'bind-record-type)
-(defgeneric bind-record-type (type)
- (:method (type) type))
-
-(export 'bind-record-format-args)
-(defgeneric bind-record-format-args (type data)
- (:method ((type (eql :a)) data) (list "~A" (ipaddr-string data)))
- (:method ((type (eql :ptr)) data) (list "~A" (bind-hostname data)))
- (:method ((type (eql :cname)) data) (list "~A" (bind-hostname data)))
- (:method ((type (eql :ns)) data) (list "~A" (bind-hostname data)))
- (:method ((type (eql :mx)) data)
- (list "~2D ~A" (cdr data) (bind-hostname (car data))))
- (:method ((type (eql :srv)) data)
- (destructuring-bind (prio weight port host) data
- (list "~2D ~5D ~5D ~A" prio weight port (bind-hostname host))))
- (:method ((type (eql :sshfp)) data)
- (cons "~2D ~2D ~A" data))
- (:method ((type (eql :txt)) data)
- (cons "~#[\"\"~;~S~:;(~@{~%~8T~S~} )~]"
- (mapcar #'stringify (listify data)))))
+(defmethod zone-write-raw-rrdata ((format (eql :bind)) zr type data)
+ (format *zone-output-stream*
+ "~A~20T~@[~8D~]~30TIN TYPE~A~40T\\# ~A"
+ (bind-output-hostname (zr-name zr))
+ (let ((ttl (zr-ttl zr)))
+ (and (/= ttl (zone-default-ttl *writing-zone*))
+ ttl))
+ type
+ (length data))
+ (let* ((hex (with-output-to-string (out)
+ (dotimes (i (length data))
+ (format out "~(~2,'0X~)" (aref data i)))))
+ (len (length hex)))
+ (cond ((< len 24)
+ (format *zone-output-stream* " ~A~%" hex))
+ (t
+ (format *zone-output-stream* " (")
+ (let ((i 0))
+ (loop
+ (when (>= i len) (return))
+ (let ((j (min (+ i 64) len)))
+ (format *zone-output-stream* "~%~8T~A" (subseq hex i j))
+ (setf i j))))
+ (format *zone-output-stream* " )~%")))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :a)) zr)
+ (bind-format-record zr "~A" (ipaddr-string (zr-data zr))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :aaaa)) zr)
+ (bind-format-record zr "~A" (ipaddr-string (zr-data zr))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :ptr)) zr)
+ (bind-format-record zr "~A" (bind-hostname (zr-data zr))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :cname)) zr)
+ (bind-format-record zr "~A" (bind-hostname (zr-data zr))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :ns)) zr)
+ (bind-format-record zr "~A" (bind-hostname (zr-data zr))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :mx)) zr)
+ (bind-format-record zr "~2D ~A"
+ (cdr (zr-data zr))
+ (bind-hostname (car (zr-data zr)))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :srv)) zr)
+ (destructuring-bind (prio weight port host) (zr-data zr)
+ (bind-format-record zr "~2D ~5D ~5D ~A"
+ prio weight port (bind-hostname host))))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :sshfp)) zr)
+ (bind-format-record zr "~{~2D ~2D ~A~}" (zr-data zr)))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :txt)) zr)
+ (bind-format-record zr "~{~#[\"\"~;~S~:;(~@{~%~8T~S~} )~]~}" (zr-data zr)))
+
+;;;--------------------------------------------------------------------------
+;;; tinydns-data output format.
+
+(export 'tinydns-output)
+(defun tinydns-output (code &rest fields)
+ (format *zone-output-stream* "~C~{~@[~A~]~^:~}~%" code fields))
+
+(defmethod zone-write-raw-rrdata ((format (eql :tinydns)) zr type data)
+ (tinydns-output #\: (zr-name zr) type
+ (with-output-to-string (out)
+ (dotimes (i (length data))
+ (let ((byte (aref data i)))
+ (if (or (<= byte 32)
+ (>= byte 127)
+ (member byte '(#\: #\\) :key #'char-code))
+ (format out "\\~3,'0O" byte)
+ (write-char (code-char byte) out)))))
+ (zr-ttl zr)))
+
+(defmethod zone-write-record ((format (eql :tinydns)) (type (eql :a)) zr)
+ (tinydns-output #\+ (zr-name zr)
+ (ipaddr-string (zr-data zr)) (zr-ttl zr)))
+
+(defmethod zone-write-record ((format (eql :tinydns)) (type (eql :aaaa)) zr)
+ (tinydns-output #\3 (zr-name zr)
+ (format nil "~(~32,'0X~)" (ipaddr-addr (zr-data zr)))
+ (zr-ttl zr)))
+
+(defmethod zone-write-record ((format (eql :tinydns)) (type (eql :ptr)) zr)
+ (tinydns-output #\^ (zr-name zr) (zr-data zr) (zr-ttl zr)))
+
+(defmethod zone-write-record ((format (eql :tinydns)) (type (eql :cname)) zr)
+ (tinydns-output #\C (zr-name zr) (zr-data zr) (zr-ttl zr)))
+
+(defmethod zone-write-record ((format (eql :tinydns)) (type (eql :ns)) zr)
+ (tinydns-output #\& (zr-name zr) nil (zr-data zr) (zr-ttl zr)))
+
+(defmethod zone-write-record ((format (eql :tinydns)) (type (eql :mx)) zr)
+ (let ((name (car (zr-data zr)))
+ (prio (cdr (zr-data zr))))
+ (tinydns-output #\@ (zr-name zr) nil name prio (zr-ttl zr))))
+
+(defmethod zone-write-header ((format (eql :tinydns)) zone)
+ (format *zone-output-stream* "~
+### Zone file `~(~A~)'
+### (generated ~A)
+~%"
+ (zone-name zone)
+ (iso-date :now :datep t :timep t))
+ (let ((soa (zone-soa zone)))
+ (tinydns-output #\Z
+ (zone-name zone)
+ (soa-source soa)
+ (let* ((name (copy-seq (soa-admin soa)))
+ (at (position #\@ name)))
+ (when at (setf (char name at) #\.))
+ name)
+ (soa-serial soa)
+ (soa-refresh soa)
+ (soa-expire soa)
+ (soa-min-ttl soa)
+ (zone-default-ttl zone))))
;;;----- That's all, folks --------------------------------------------------