osc/osc.lisp

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;;; -*- mode: lisp -*-
;;;
;;; an implementation of the OSC (Open Sound Control) protocol
;;;
;;; copyright (C) 2004 FoAM vzw.
;;;
;;; You are granted the rights to distribute and use this software
;;; under the terms of the Lisp Lesser GNU Public License, known
;;; as the LLGPL. The LLGPL consists of a preamble and the LGPL.
;;; Where these conflict, the preamble takes precedence. The LLGPL
;;; is available online at http://opensource.franz.com/preamble.html
;;; and is distributed with this code (see: LICENCE and LGPL files)
;;;
;;; authors
;;;
;;; nik gaffney <nik@f0.am>
;;;
;;; requirements
;;;
;;; dependent on sbcl, cmucl or openmcl for float encoding, other suggestions
;;; welcome.
;;;
;;; commentary
;;;
;;; this is a partial implementation of the OSC protocol which is used
;;; for communication mostly amongst music programs and their attatched
;;; musicians. eg. sc3, max/pd, reaktor/traktorska etc+. more details
;;; of the protocol can be found at the open sound control pages -=>
;;; http://www.cnmat.berkeley.edu/OpenSoundControl/
;;;
;;; - doesnt send nested bundles or timetags later than 'now'
;;; - malformed input -> exception
;;; - int32 en/de-coding based on code (c) Walter C. Pelissero
;;; - unknown types are sent as 'blobs' which may or may not be an issue
;;;
;;; see the README file for more details...
;;;
;;; known BUGS
;;; - encoding a :symbol which is unbound, or has no symbol-value will cause
;;; an error
;;;
(defpackage :osc
(:use :cl)
(:documentation "OSC aka the 'open sound control' protocol")
(:export :encode-message
:encode-bundle
:decode-message
:decode-bundle))
(in-package :osc)
;(declaim (optimize (speed 3) (safety 1) (debug 3)))
;;;;;; ; ;; ; ; ; ; ; ; ;
;;
;; eNcoding OSC messages
;;
;;;; ;; ;; ; ; ;; ; ; ; ;
(defun encode-bundle (data &optional timetag)
"will encode an osc message, or list of messages as a bundle
with an optional timetag (symbol or 64bit int).
doesnt handle nested bundles"
(cat '(35 98 117 110 100 108 101 0) ; #bundle
(if timetag
(encode-timetag timetag)
(encode-timetag :now))
(if (listp (car data))
(apply #'cat (mapcar #'encode-bundle-elt data))
(encode-bundle-elt data))))
(defun encode-bundle-elt (data)
(let ((message (apply #'encode-message data)))
(cat (encode-int32 (length message)) message)))
(defun encode-message (address &rest data)
"encodes an osc message with the given address and data."
(concatenate '(vector (unsigned-byte 8))
(encode-address address)
(encode-typetags data)
(encode-data data)))
(defun encode-address (address)
(cat (map 'vector #'char-code address)
(string-padding address)))
(defun encode-typetags (data)
"creates a typetag string suitable for the given data.
valid typetags according to the osc spec are ,i ,f ,s and ,b
non-std extensions include ,{h|t|d|S|c|r|m|T|F|N|I|[|]}
see the spec for more details. ..
NOTE: currently handles the following tags
i => #(105) => int32
f => #(102) => float
s => #(115) => string
b => #(98) => blob
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h => #(104) => int64
and considers non int/float/string data to be a blob."
(let ((lump (make-array 0 :adjustable t
:fill-pointer t)))
(macrolet ((write-to-vector (char)
`(vector-push-extend
(char-code ,char) lump)))
(write-to-vector #\,)
(dolist (x data)
(typecase x
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(integer (if (>= x 4294967296) (write-to-vector #\h) (write-to-vector #\i)))
(float (write-to-vector #\f))
(simple-string (write-to-vector #\s))
(t (write-to-vector #\b)))))
(cat lump
(pad (padding-length (length lump))))))
(defun encode-data (data)
"encodes data in a format suitable for an OSC message"
(let ((lump (make-array 0 :adjustable t :fill-pointer t)))
(macrolet ((enc (f)
`(setf lump (cat lump (,f x)))))
(dolist (x data)
(typecase x
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(integer (if (>= x 4294967296) (enc encode-int64) (enc encode-int32)))
(float (enc encode-float32))
(simple-string (enc encode-string))
(t (enc encode-blob))))
lump)))
;;;;;; ; ;; ; ; ; ; ; ; ;
;;
;; decoding OSC messages
;;
;;; ;; ;; ; ; ; ; ; ;
(defun decode-bundle (data)
"decodes an osc bundle into a list of decoded-messages, which has
an osc-timetagas its first element"
(let ((contents '()))
(if (equalp 35 (elt data 0)) ; a bundle begins with '#'
(let ((timetag (subseq data 8 16))
(i 16)
(bundle-length (length data)))
(loop while (< i bundle-length)
do (let ((mark (+ i 4))
(size (decode-int32
(subseq data i (+ i 4)))))
(if (eq size 0)
(setf bundle-length 0)
(push (decode-bundle
(subseq data mark (+ mark size)))
contents))
(incf i (+ 4 size))))
(push timetag contents))
(decode-message data))))
(defun decode-message (message)
"reduces an osc message to an (address . data) pair. .."
(declare (type (vector *) message))
(let ((x (position (char-code #\,) message)))
(if (eq x NIL)
(format t "message contains no data.. ")
(cons (decode-address (subseq message 0 x))
(decode-taged-data (subseq message x))))))
(defun decode-address (address)
(coerce (map 'vector #'code-char
(delete 0 address))
'string))
(defun decode-taged-data (data)
"decodes data encoded with typetags...
NOTE: currently handles the following tags
i => #(105) => int32
f => #(102) => float
s => #(115) => string
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b => #(98) => blob
h => #(104) => int64"
(let ((div (position 0 data)))
(let ((tags (subseq data 1 div))
(acc (subseq data (padded-length div)))
(result '()))
(map 'vector
#'(lambda (x)
(cond
((eq x (char-code #\i))
(push (decode-int32 (subseq acc 0 4))
result)
(setf acc (subseq acc 4)))
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((eq x (char-code #\h))
(push (decode-uint64 (subseq acc 0 8))
result)
(setf acc (subseq acc 8)))
((eq x (char-code #\f))
(push (decode-float32 (subseq acc 0 4))
result)
(setf acc (subseq acc 4)))
((eq x (char-code #\s))
(let ((pointer (padded-length (position 0 acc))))
(push (decode-string
(subseq acc 0 pointer))
result)
(setf acc (subseq acc pointer))))
((eq x (char-code #\b))
(let* ((size (decode-int32 (subseq acc 0 4)))
(bl (+ 4 size))
(end (+ bl (mod (- 4 bl) 4)))) ; NOTE: cannot use (padded-length bl), as it is not the same algorithm. Blobs of 4, 8, 12 etc bytes should not be padded!
(push (decode-blob (subseq acc 0 end))
result)
(setf acc (subseq acc end))))
(t (error "unrecognised typetag ~a" x))))
tags)
(nreverse result))))
;;;;;; ;; ;; ; ; ; ; ; ;; ;
;;
;; timetags
;;
;; - timetags can be encoded using a value, or the :now and :time keywords. the
;; keywords enable either a tag indicating 'immediate' execution, or
;; a tag containing the current time (which will most likely be in the past
;; of anyt receiver) to be created.
;;
;; - note: not well tested, and probably not accurate enough for syncronisation.
;; see also: CLHS 25.1.4 Time, and the ntp timestamp format. also needs to
;; convert from 2 32bit ints to 64bit fixed point value.
;;
;; - see this c.l.l thread to sync universal-time and internal-time
;; http://groups.google.com/group/comp.lang.lisp/browse_thread/thread/c207fef63a78d720/adc7442d2e4de5a0?lnk=gst&q=internal-real-time-sync&rnum=1#adc7442d2e4de5a0
;;
;;;; ;; ; ;
(defconstant +unix-epoch+ (encode-universal-time 0 0 0 1 1 1970 0))
(defun encode-timetag (utime &optional subseconds)
"encodes an osc timetag from a universal-time and 32bit 'sub-second' part.
for an 'instantaneous' timetag use (encode-timetag :now)
for a timetag with the current time use (encode-timetag :time)"
(cond
;; a 1bit timetag will be interpreted as 'imediately'
((equalp utime :now)
#(0 0 0 0 0 0 0 1))
;; converts seconds since 19000101 to seconds since 19700101
;; note: fractions of a second is accurate, but not syncronised.
((equalp utime :time)
(cat (encode-int32 (- (get-universal-time) +unix-epoch+))
(encode-int32
(round (* internal-time-units-per-second
(second (multiple-value-list
(floor (/ (get-internal-real-time)
internal-time-units-per-second)))))))))
((integerp utime)
(cat (encode-int32 (+ utime +unix-epoch+))
(encode-int32 subseconds)))
(t (error "the time or subsecond given is not an integer"))))
(defun decode-timetag (timetag)
"decomposes a timetag into unix-time and a subsecond,. . ."
(list
(decode-int32 (subseq timetag 0 4))
(decode-int32 (subseq timetag 4 8))))
;;;;; ; ; ;; ;; ; ;
;;
;; dataformat en- de- cetera.
;;
;;; ;; ; ; ;
;; floats are encoded using implementation specific 'internals' which is not
;; particulaly portable, but 'works for now'.
(defun encode-float32 (f)
"encode an ieee754 float as a 4 byte vector. currently sbcl/cmucl specifc"
#+sbcl (encode-int32 (sb-kernel:single-float-bits f))
#+cmucl (encode-int32 (kernel:single-float-bits f))
#+openmcl (encode-int32 (CCL::SINGLE-FLOAT-BITS f))
#+allegro (encode-int32 (multiple-value-bind (x y) (excl:single-float-to-shorts f)
(+ (ash x 16) y)))
#-(or sbcl cmucl openmcl allegro) (error "cant encode floats using this implementation"))
(defun decode-float32 (s)
"ieee754 float from a vector of 4 bytes in network byte order"
#+sbcl (sb-kernel:make-single-float (decode-int32 s))
#+cmucl (kernel:make-single-float (decode-int32 s))
#+openmcl (CCL::HOST-SINGLE-FLOAT-FROM-UNSIGNED-BYTE-32 (decode-uint32 s))
#+allegro (excl:shorts-to-single-float (ldb (byte 16 16) (decode-int32 s))
(ldb (byte 16 0) (decode-int32 s)))
#-(or sbcl cmucl openmcl allegro) (error "cant decode floats using this implementation"))
(defun decode-int32 (s)
"4 byte -> 32 bit int -> two's compliment (in network byte order)"
(let ((i (+ (ash (elt s 0) 24)
(ash (elt s 1) 16)
(ash (elt s 2) 8)
(elt s 3))))
(if (>= i #x7fffffff)
(- 0 (- #x100000000 i))
i)))
(defun decode-uint32 (s)
"4 byte -> 32 bit unsigned int"
(let ((i (+ (ash (elt s 0) 24)
(ash (elt s 1) 16)
(ash (elt s 2) 8)
(elt s 3))))
i))
(defun encode-int32 (i)
"convert an integer into a sequence of 4 bytes in network byte order."
(declare (type integer i))
(let ((buf (make-sequence
'(vector (unsigned-byte 8)) 4)))
(macrolet ((set-byte (n)
`(setf (elt buf ,n)
(logand #xff (ash i ,(* 8 (- n 3)))))))
(set-byte 0)
(set-byte 1)
(set-byte 2)
(set-byte 3))
buf))
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(defun encode-int64 (i)
"convert an integer into a sequence of 8 bytes in network byte order."
(declare (type integer i))
(let ((buf (make-sequence
'(vector (unsigned-byte 8)) 8)))
(macrolet ((set-byte (n)
`(setf (elt buf ,n)
(logand #xff (ash i ,(* 8 (- n 7)))))))
(set-byte 0)
(set-byte 1)
(set-byte 2)
(set-byte 3)
(set-byte 4)
(set-byte 5)
(set-byte 6)
(set-byte 7))
buf))
(defun decode-uint64 (s)
"8 byte -> 64 bit unsigned int"
(let ((i (+ (ash (elt s 0) 56)
(ash (elt s 1) 48)
(ash (elt s 2) 40)
(ash (elt s 3) 32)
(ash (elt s 4) 24)
(ash (elt s 5) 16)
(ash (elt s 6) 8)
(elt s 7))))
i))
(defun decode-int64 (s)
"8 byte -> 64 bit int -> two's compliment (in network byte order)"
(let ((i (+ (ash (elt s 0) 56)
(ash (elt s 1) 48)
(ash (elt s 2) 40)
(ash (elt s 3) 32)
(ash (elt s 4) 24)
(ash (elt s 5) 16)
(ash (elt s 6) 8)
(elt s 7))))
(if (>= i #x7fffffffffffffff)
(- 0 (- #x10000000000000000 i))
i)))
;; osc-strings are unsigned bytes, padded to a 4 byte boundary
(defun decode-string (data)
"converts a binary vector to a string and removes trailing #\nul characters"
(string-trim '(#\nul) (coerce (map 'vector #'code-char data) 'string)))
(defun encode-string (string)
"encodes a string as a vector of character-codes, padded to 4 byte boundary"
(cat (map 'vector #'char-code string)
(string-padding string)))
;; blobs are binary data, consisting of a length (int32) and bytes which are
;; osc-padded to a 4 byte boundary.
(defun decode-blob (blob)
"decode a blob as a vector of unsigned bytes."
(let ((size (decode-int32
(subseq blob 0 4))))
(subseq blob 4 (+ 4 size))))
(defun encode-blob (blob)
"encodes a blob from a given vector"
(let ((bl (length blob)))
(cat (encode-int32 bl) blob
(pad (mod (- 4 bl) 4))))) ; NOTE: cannot use (padding-length bl), as it is not the same algorithm. Blobs of 4, 8, 12 etc bytes should not be padded!
;; utility functions for osc-string/padding slonking
(defun cat (&rest catatac)
(apply #'concatenate '(vector *) catatac))
(defun padding-length (s)
"returns the length of padding required for a given length of string"
(declare (type fixnum s))
(- 4 (mod s 4)))
(defun padded-length (s)
"returns the length of an osc-string made from a given length of string"
(declare (type fixnum s))
(+ s (- 4 (mod s 4))))
(defun string-padding (string)
"returns the padding required for a given osc string"
(declare (type simple-string string))
(pad (padding-length (length string))))
(defun pad (n)
"make a sequence of the required number of #\Nul characters"
(declare (type fixnum n))
(make-array n :initial-element 0 :fill-pointer n))
(provide :osc)
;; end