;;;--------------------------------------------------------------------------
;;; Various random utilities.
+(export '*zone-config*)
+(defparameter *zone-config* nil
+ "A list of configuration variables.
+
+ This is for the benefit of the frontend, which will dynamically bind them
+ so that input files can override them independently. Not intended for use
+ by users.")
+
(defun to-integer (x)
"Convert X to an integer in the most straightforward way."
(floor (rational x)))
(when timep
(format s "~2,'0D:~2,'0D:~2,'0D" hr min sec)))))
+(deftype octet () '(unsigned-byte 8))
+(deftype octet-vector (&optional n) `(array octet (,n)))
+
+(defun decode-hex (hex &key (start 0) end)
+ "Decode a hexadecimal-encoded string, returning a vector of octets."
+ (let* ((end (or end (length hex)))
+ (len (- end start))
+ (raw (make-array (floor len 2) :element-type 'octet)))
+ (unless (evenp len)
+ (error "Invalid hex string `~A' (odd length)" hex))
+ (do ((i start (+ i 2)))
+ ((>= i end) raw)
+ (let ((high (digit-char-p (char hex i) 16))
+ (low (digit-char-p (char hex (1+ i)) 16)))
+ (unless (and high low)
+ (error "Invalid hex string `~A' (bad digit)" hex))
+ (setf (aref raw (/ (- i start) 2)) (+ (* 16 high) low))))))
+
+(defun slurp-file (file &optional (element-type 'character))
+ "Read and return the contents of FILE as a vector."
+ (with-open-file (in file :element-type element-type)
+ (let ((buf (make-array 1024 :element-type element-type))
+ (pos 0))
+ (loop
+ (let ((end (read-sequence buf in :start pos)))
+ (when (< end (length buf))
+ (return (adjust-array buf end)))
+ (setf pos end
+ buf (adjust-array buf (* 2 pos))))))))
+
(defmacro defenum (name (&key export) &body values)
"Set up symbol properties for manifest constants.
"Call FUNC on TAG/VALUE pairs from the enumeration called NAME."
(maphash func (get name 'enum-forward)))
+(defun hash-file (hash file context)
+ "Hash the FILE using the OpenSSL HASH function, returning an octet string.
+
+ CONTEXT is a temporary-files context."
+ (let ((temp (temporary-file context "hash")))
+ (run-program (list "openssl" "dgst" (concatenate 'string "-" hash))
+ :input file :output temp)
+ (with-open-file (in temp)
+ (let ((line (read-line in)))
+ (assert (and (>= (length line) 9)
+ (string= line "(stdin)= " :end1 9)))
+ (decode-hex line :start 9)))))
+
;;;--------------------------------------------------------------------------
;;; 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."
name
records)
+(export 'zone-text-name)
+(defun zone-text-name (zone)
+ (princ-to-string (zone-name zone)))
+
;;;--------------------------------------------------------------------------
;;; Zone defaults. It is intended that scripts override these.
:ttl ttl :records (cdr r))
sub)))
(t
- (error "Unexpected record form ~A" (car r))))))))
+ (error "Unexpected record form ~A" r)))))))
(process (rec dom ttl)
;; Recursirvely process the record list REC, with a list DOM of
(retry *default-zone-retry*)
(expire *default-zone-expire*)
(min-ttl *default-zone-min-ttl*)
- (ttl min-ttl)
+ (ttl *default-zone-ttl*)
(serial (make-zone-serial raw-zname))
&aux
(zname (zone-parse-host raw-zname root-domain)))
(defmacro defrevzone (head &body zf)
"Define a reverse zone, with the correct name."
(destructuring-bind (nets &rest args
- &key &allow-other-keys
- (family '*address-family*)
- prefix-bits)
+ &key (family '*address-family*)
+ prefix-bits
+ &allow-other-keys)
(listify head)
(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))
+ (zone-create `((,(format nil "~A" (reverse-domain ,ipn
+ ,prefix-bits))
,@',(loop for (k v) on args by #'cddr
unless (member k
'(:family :prefix-bits))
(do ((new (* 2 have) (* 2 new)))
((<= want new) new))))))
+(export 'rec-octet-vector)
+(defun rec-octet-vector (vector &key (start 0) end)
+ "Copy (part of) the VECTOR to the output."
+ (let* ((end (or end (length vector)))
+ (len (- end start)))
+ (rec-ensure len)
+ (do ((i start (1+ i)))
+ ((>= i end))
+ (vector-push (aref vector i) *record-vector*))))
+
(export 'rec-byte)
(defun rec-byte (octets value)
"Append an unsigned byte, OCTETS octets wide, with VALUE, to the record."
(defvar *dkim-pathname-defaults*
(make-pathname :directory '(:relative "keys")
:type "dkim"))
+(pushnew '*dkim-pathname-defaults* *zone-config*)
(defzoneparse :dkim (name data rec)
":dkim (KEYFILE {:TAG VALUE}*)"
(rec :type :txt
:data (nreverse things)))))
-(defenum sshfp-algorithm (rsa 1) (dsa 2) (ecdsa 3))
-(defenum sshfp-type (sha-1 1) (sha-256 2))
+(defenum sshfp-algorithm () (:rsa 1) (:dsa 2) (:ecdsa 3) (:ed25519 4))
+(defenum sshfp-type () (:sha-1 1) (:sha-256 2))
(export '*sshfp-pathname-defaults*)
(defvar *sshfp-pathname-defaults*
- (make-pathname :directory '(:relative "keys")
- :type "sshfp"))
+ (make-pathname :directory '(:relative "keys") :type "sshfp")
+ "Default pathname components for SSHFP records.")
+(pushnew '*sshfp-pathname-defaults* *zone-config*)
(defzoneparse :sshfp (name data rec)
":sshfp { FILENAME | ((FPR :alg ALG :type HASH)*) }"
- (if (stringp data)
- (with-open-file (in (merge-pathnames data *sshfp-pathname-defaults*))
- (loop (let ((line (read-line in nil)))
- (unless line (return))
- (let ((words (str-split-words line)))
- (pop words)
- (when (string= (car words) "IN") (pop words))
- (unless (and (string= (car words) "SSHFP")
- (= (length words) 4))
- (error "Invalid SSHFP record."))
- (pop words)
- (destructuring-bind (alg type fpr) words
- (rec :data (list (parse-integer alg)
- (parse-integer 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))))))
+ (typecase data
+ ((or string pathname)
+ (with-open-file (in (merge-pathnames data *sshfp-pathname-defaults*))
+ (loop (let ((line (read-line in nil)))
+ (unless line (return))
+ (let ((words (str-split-words line)))
+ (pop words)
+ (when (string= (car words) "IN") (pop words))
+ (unless (and (string= (car words) "SSHFP")
+ (= (length words) 4))
+ (error "Invalid SSHFP record."))
+ (pop words)
+ (destructuring-bind (alg type fprhex) words
+ (rec :data (list (parse-integer alg)
+ (parse-integer type)
+ (decode-hex fprhex)))))))))
+ (t
+ (dolist (item (listify data))
+ (destructuring-bind (fprhex &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)
+ (decode-hex fprhex))))))))
(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))))
+ (rec-octet-vector fpr))
44)
+(defenum tlsa-usage ()
+ (:ca-constraint 0)
+ (:service-certificate-constraint 1)
+ (:trust-anchor-assertion 2)
+ (:domain-issued-certificate 3))
+
+(defenum tlsa-selector ()
+ (:certificate 0)
+ (:public-key 1))
+
+(defenum tlsa-match ()
+ (:exact 0)
+ (:sha-256 1)
+ (:sha-512 2))
+
+(defparameter tlsa-pem-alist
+ `(("CERTIFICATE" . ,tlsa-selector/certificate)
+ ("PUBLIC-KEY" . ,tlsa-selector/public-key)))
+
+(defgeneric raw-tlsa-assoc-data (have want file context)
+ (:documentation
+ "Convert FILE, and strip off PEM encoding.
+
+ The FILE contains PEM-encoded data of type HAVE -- one of the
+ `tlsa-selector' codes. Return the name of a file containing binary
+ DER-encoded data of type WANT instead. The CONTEXT is a temporary-files
+ context.")
+
+ (:method (have want file context)
+ (declare (ignore context))
+ (error "Can't convert `~A' from selector type ~S to type ~S" file
+ (reverse-enum 'tlsa-selector have)
+ (reverse-enum 'tlsa-selector want)))
+
+ (:method ((have (eql tlsa-selector/certificate))
+ (want (eql tlsa-selector/certificate))
+ file context)
+ (let ((temp (temporary-file context "cert")))
+ (run-program (list "openssl" "x509" "-outform" "der")
+ :input file :output temp)
+ temp))
+
+ (:method ((have (eql tlsa-selector/public-key))
+ (want (eql tlsa-selector/public-key))
+ file context)
+ (let ((temp (temporary-file context "pubkey-der")))
+ (run-program (list "openssl" "pkey" "-pubin" "-outform" "der")
+ :input file :output temp)
+ temp))
+
+ (:method ((have (eql tlsa-selector/certificate))
+ (want (eql tlsa-selector/public-key))
+ file context)
+ (let ((temp (temporary-file context "pubkey")))
+ (run-program (list "openssl" "x509" "-noout" "-pubkey")
+ :input file :output temp)
+ (raw-tlsa-assoc-data want want temp context))))
+
+(defgeneric tlsa-match-data-valid-p (match data)
+ (:documentation
+ "Check whether the DATA (an octet vector) is valid for the MATCH type.")
+
+ (:method (match data)
+ (declare (ignore match data))
+ ;; We don't know: assume the user knows what they're doing.
+ t)
+
+ (:method ((match (eql tlsa-match/sha-256)) data) (= (length data) 32))
+ (:method ((match (eql tlsa-match/sha-512)) data) (= (length data) 64)))
+
+(defgeneric read-tlsa-match-data (match file context)
+ (:documentation
+ "Read FILE, and return an octet vector for the correct MATCH type.
+
+ CONTEXT is a temporary-files context.")
+ (:method ((match (eql tlsa-match/exact)) file context)
+ (declare (ignore context))
+ (slurp-file file 'octet))
+ (:method ((match (eql tlsa-match/sha-256)) file context)
+ (hash-file "sha256" file context))
+ (:method ((match (eql tlsa-match/sha-512)) file context)
+ (hash-file "sha512" file context)))
+
+(defgeneric tlsa-selector-pem-boundary (selector)
+ (:documentation
+ "Return the PEM boundary string for objects of the SELECTOR type")
+ (:method ((selector (eql tlsa-selector/certificate))) "CERTIFICATE")
+ (:method ((selector (eql tlsa-selector/public-key))) "PUBLIC KEY")
+ (:method (selector) (declare (ignore selector)) nil))
+
+(defun identify-tlsa-selector-file (file)
+ "Return the selector type for the data stored in a PEM-format FILE."
+ (with-open-file (in file)
+ (loop
+ (let* ((line (read-line in nil))
+ (len (length line)))
+ (unless line
+ (error "No PEM boundary in `~A'" file))
+ (when (and (>= len 11)
+ (string= line "-----BEGIN " :end1 11)
+ (string= line "-----" :start1 (- len 5)))
+ (mapenum (lambda (tag value)
+ (declare (ignore tag))
+ (when (string= line
+ (tlsa-selector-pem-boundary value)
+ :start1 11 :end1 (- len 5))
+ (return value)))
+ 'tlsa-selector))))))
+
+(export '*tlsa-pathname-defaults*)
+(defvar *tlsa-pathname-defaults*
+ (list (make-pathname :directory '(:relative "certs") :type "cert")
+ (make-pathname :directory '(:relative "keys") :type "pub"))
+ "Default pathname components for TLSA records.")
+(pushnew '*tlsa-pathname-defaults* *zone-config*)
+
+(defparameter *tlsa-data-cache* (make-hash-table :test #'equal)
+ "Cache for TLSA association data; keys are (DATA SELECTOR MATCH).")
+
+(defun convert-tlsa-selector-data (data selector match)
+ "Convert certificate association DATA as required by SELECTOR and MATCH.
+
+ If DATA is a hex string, we assume that it's already in the appropriate
+ form (but if MATCH specifies a hash then we check that it's the right
+ length). If DATA is a pathname, then it should name a PEM file: we
+ identify the kind of object stored in the file from the PEM header, and
+ convert as necessary.
+
+ The output is an octet vector containing the raw certificate association
+ data to include in rrdata."
+
+ (etypecase data
+ (string
+ (let ((bin (decode-hex data)))
+ (unless (tlsa-match-data-valid-p match bin)
+ (error "Invalid data for match type ~S"
+ (reverse-enum 'tlsa-match match)))
+ bin))
+ (pathname
+ (let ((key (list data selector match)))
+ (or (gethash key *tlsa-data-cache*)
+ (with-temporary-files (context :base (make-pathname :type "tmp"))
+ (let* ((file (or (find-if #'probe-file
+ (mapcar (lambda (template)
+ (merge-pathnames data
+ template))
+ *tlsa-pathname-defaults*))
+ (error "Couldn't find TLSA file `~A'" data)))
+ (kind (identify-tlsa-selector-file file))
+ (raw (raw-tlsa-assoc-data kind selector file context))
+ (binary (read-tlsa-match-data match raw context)))
+ (setf (gethash key *tlsa-data-cache*) binary))))))))
+
+(defzoneparse :tlsa (name data rec)
+ ":tlsa (((SERVICE|PORT &key :protocol)*) (USAGE SELECTOR MATCH DATA)*)"
+
+ (destructuring-bind (services &rest certinfos) data
+
+ ;; First pass: build the raw-format TLSA record data.
+ (let ((records nil))
+ (dolist (certinfo certinfos)
+ (destructuring-bind (usage-tag selector-tag match-tag data) certinfo
+ (let* ((usage (lookup-enum 'tlsa-usage usage-tag :min 0 :max 255))
+ (selector (lookup-enum 'tlsa-selector selector-tag
+ :min 0 :max 255))
+ (match (lookup-enum 'tlsa-match match-tag :min 0 :max 255))
+ (raw (convert-tlsa-selector-data data selector match)))
+ (push (list usage selector match raw) records))))
+ (setf records (nreverse records))
+
+ ;; Second pass: attach records for the requested services.
+ (dolist (service (listify services))
+ (destructuring-bind (svc &key (protocol :tcp)) (listify service)
+ (let* ((port (etypecase svc
+ (integer svc)
+ (keyword (let ((serv (serv-by-name svc protocol)))
+ (unless serv
+ (error "Unknown service `~A'" svc))
+ (serv-port serv)))))
+ (prefixed (domain-name-concat
+ (make-domain-name
+ :labels (list (format nil "_~(~A~)" protocol)
+ (format nil "_~A" port)))
+ name)))
+ (dolist (record records)
+ (rec :name prefixed :data record))))))))
+
+(defmethod zone-record-rrdata ((type (eql :tlsa)) zr)
+ (destructuring-bind (usage selector match data) (zr-data zr)
+ (rec-u8 usage)
+ (rec-u8 selector)
+ (rec-u8 match)
+ (rec-octet-vector data))
+ 52)
+
+(defenum dnssec-algorithm ()
+ (:rsamd5 1)
+ (:dh 2)
+ (:dsa 3)
+ (:rsasha1 5)
+ (:dsa-nsec3-sha1 6)
+ (:rsasha1-nsec3-sha1 7)
+ (:rsasha256 8)
+ (:rsasha512 10)
+ (:ecc-gost 12)
+ (:ecdsap256sha256 13)
+ (:ecdsap384sha384 14))
+
+(defenum dnssec-digest ()
+ (:sha1 1)
+ (:sha256 2))
+
+(defzoneparse :ds (name data rec)
+ ":ds ((TAG ALGORITHM DIGEST-TYPE DIGEST)*)"
+ (dolist (ds data)
+ (destructuring-bind (tag alg hashtype hash) ds
+ (rec :data (list tag
+ (lookup-enum 'dnssec-algorithm alg :min 0 :max 255)
+ (lookup-enum 'dnssec-digest hashtype :min 0 :max 255)
+ (decode-hex hash))))))
+
+(defmethod zone-record-rrdata ((type (eql :ds)) zr)
+ (destructuring-bind (tag alg hashtype hash) zr
+ (rec-u16 tag)
+ (rec-u8 alg)
+ (rec-u8 hashtype)
+ (rec-octet-vector hash)))
+
(defzoneparse :mx (name data rec :zname zname)
":mx ((HOST :prio INT :ip IPADDR)*)"
(dolist (mx (listify data))
(rec-name host))
33)
+(defenum caa-flag () (:critical 128))
+
+(defzoneparse :caa (name data rec)
+ ":caa ((TAG VALUE FLAG*)*)"
+ (dolist (prop data)
+ (destructuring-bind (tag value &rest flags) prop
+ (setf flags (reduce #'logior
+ (mapcar (lambda (item)
+ (lookup-enum 'caa-flag item
+ :min 0 :max 255))
+ flags)))
+ (ecase tag
+ ((:issue :issuewild :iodef)
+ (rec :name name
+ :data (list flags tag value)))))))
+
+(defmethod zone-record-rrdata ((type (eql :caa)) zr)
+ (destructuring-bind (flags tag value) (zr-data zr)
+ (rec-u8 flags)
+ (rec-string (string-downcase tag))
+ (rec-raw-string value))
+ 257)
+
(defzoneparse :net (name data rec)
":net (NETWORK*)"
(dolist (net (listify data))
(error "Unknown zone `~A'." z))
(let ((stream (safely-open-output-stream safe
(zone-file-name z :zone))))
- (zone-write format zz stream))))))
+ (zone-write format zz stream)
+ (close stream))))))
;;;--------------------------------------------------------------------------
;;; Bind format output.
(export 'bind-format-record)
(defun bind-format-record (zr format &rest args)
(format *zone-output-stream*
- "~A~20T~@[~8D~]~30TIN ~A~40T~?~%"
+ "~A~20T~@[~8D~]~30TIN ~A~40T~?"
(bind-output-hostname (zr-name zr))
(let ((ttl (zr-ttl zr)))
(and (/= ttl (zone-default-ttl *writing-zone*))
(string-upcase (symbol-name (zr-type zr)))
format args))
+(export 'bind-write-hex)
+(defun bind-write-hex (vector remain)
+ "Output the VECTOR as hex, in Bind format.
+
+ If the length (in bytes) is less than REMAIN then it's placed on the
+ current line; otherwise the Bind line-continuation syntax is used."
+ (flet ((output-octet (octet)
+ (format *zone-output-stream* "~(~2,'0X~)" octet)))
+ (let ((len (length vector)))
+ (cond ((< len remain)
+ (dotimes (i len) (output-octet (aref vector i)))
+ (terpri *zone-output-stream*))
+ (t
+ (format *zone-output-stream* "(")
+ (let ((i 0))
+ (loop
+ (when (>= i len) (return))
+ (let ((limit (min len (+ i 64))))
+ (format *zone-output-stream* "~%~8T")
+ (loop
+ (when (>= i limit) (return))
+ (output-octet (aref vector i))
+ (incf i)))))
+ (format *zone-output-stream* " )~%"))))))
+
(defmethod zone-write-raw-rrdata ((format (eql :bind)) zr type data)
(format *zone-output-stream*
- "~A~20T~@[~8D~]~30TIN TYPE~A~40T\\# ~A"
+ "~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* " )~%")))))
+ (bind-write-hex data 12))
(defmethod zone-write-record ((format (eql :bind)) (type (eql :a)) zr)
- (bind-format-record zr "~A" (ipaddr-string (zr-data 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))))
+ (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))))
+ (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))))
+ (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))))
+ (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"
+ (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"
+ (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)))
+ (destructuring-bind (alg type fpr) (zr-data zr)
+ (bind-format-record zr "~2D ~2D " alg type)
+ (bind-write-hex fpr 12)))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :tlsa)) zr)
+ (destructuring-bind (usage selector match data) (zr-data zr)
+ (bind-format-record zr "~2D ~2D ~2D " usage selector match)
+ (bind-write-hex data 12)))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :caa)) zr)
+ (destructuring-bind (flags tag value) (zr-data zr)
+ (bind-format-record zr "~3D ~(~A~) ~S~%" flags tag value)))
+
+(defmethod zone-write-record ((format (eql :bind)) (type (eql :ds)) zr)
+ (destructuring-bind (tag alg hashtype hash) (zr-data zr)
+ (bind-format-record zr "~5D ~2D ~2D " tag alg hashtype)
+ (bind-write-hex hash 12)))
(defmethod zone-write-record ((format (eql :bind)) (type (eql :txt)) zr)
- (bind-format-record zr "~{~#[\"\"~;~S~:;(~@{~%~8T~S~} )~]~}" (zr-data zr)))
+ (bind-format-record zr "~{~#[\"\"~;~S~:;(~@{~%~8T~S~} )~]~}~%"
+ (zr-data zr)))
;;;--------------------------------------------------------------------------
;;; tinydns-data output format.
(dotimes (i (length data))
(let ((byte (aref data i)))
(if (or (<= byte 32)
- (>= byte 128)
+ (>= byte 127)
(member byte '(#\: #\\) :key #'char-code))
(format out "\\~3,'0O" byte)
(write-char (code-char byte) out)))))