sunterlib/scsh/base64/base64.scm

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;; This module implements Base64 encoding and decoding as specified by
;; section 6.8 of RFC 2045.
(define ash arithmetic-shift)
(define-syntax when
(syntax-rules ()
((when cond body1 body2 ...)
(if cond (begin body1 body2 ...)))))
(define-syntax unless
(syntax-rules ()
((unless cond body1 body2 ...)
(if (not cond) (begin body1 body2 ...)))))
;; Return a procedure to write a character to port, and produce a new
;; line after a multiple of line-len characters have been output.
(define (char-writer port line-len)
(let ((col 0))
(lambda (char)
(write-char char port)
(set! col (+ col 1))
(when (>= col line-len)
(newline port)
(set! col 0)))))
;; Take the first n bits of x.
(define (bits-take x n)
(bitwise-and x (- (ash 1 n) 1)))
;; Drop the first n bits of x.
(define (bits-drop x n)
(ash x (- n)))
;; The padding character
(define pad #\=)
(define eof-object (read (make-string-input-port "")))
;;; Encoding
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(define encoding-vector
'#(#\A #\B #\C #\D #\E #\F #\G #\H #\I #\J #\K #\L #\M #\N #\O #\P
#\Q #\R #\S #\T #\U #\V #\W #\X #\Y #\Z #\a #\b #\c #\d #\e #\f
#\g #\h #\i #\j #\k #\l #\m #\n #\o #\p #\q #\r #\s #\t #\u #\v
#\w #\x #\y #\z #\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9 #\+ #\/))
;; (base64-encode-vector vector [out-port])
;; --> string or port
(define (base64-encode-vector vector . rest)
(let ((len (byte-vector-length vector)) (pos 0))
(apply base64-encode-internal
(lambda ()
(if (< pos len)
(let ((byte (byte-vector-ref vector pos)))
(set! pos (+ pos 1))
byte)
eof-object))
rest)))
;; (base64-encode-port port [out-port])
;; --> string or port
(define (base64-encode-port in-port . rest)
(apply base64-encode-internal (lambda () (read-byte in-port)) rest))
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;; (base64-encode-string string [out-port])
;; --> string or port
(define (base64-encode-string string . rest)
(apply base64-encode-port (make-string-input-port string) rest))
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(define (base64-encode-internal fetch-byte . rest)
(let-optionals rest ((out-port (make-string-output-port)))
(let ((output-char (char-writer out-port 76)))
(let loop ((next-byte (fetch-byte)) (bits 0) (bits-count 0) (len 0))
(cond ((>= bits-count 6)
;; Enough bits to output a character: do so, iterate.
(let* ((carry-bits-count (- bits-count 6))
(next-6bits (bits-drop bits carry-bits-count)))
(output-char (vector-ref encoding-vector next-6bits))
(loop next-byte
(bits-take bits carry-bits-count)
carry-bits-count
len)))
((not (eof-object? next-byte))
;; Need more bits: use next byte.
(loop (fetch-byte)
(bitwise-ior (ash bits 8) next-byte)
(+ bits-count 8)
(+ len 1)))
(else
;; No data left: output remaining bits, if any, and padding.
(unless (zero? bits-count)
(output-char (vector-ref encoding-vector
(ash bits (- 6 bits-count)))))
(case (remainder len 3)
((1) (output-char pad) (output-char pad))
((2) (output-char pad)))))))
;; Return port/output string.
(if (null? rest) (string-output-port-output out-port) out-port)))
;;; Decoding
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(define decoding-vector
(let ((dec (make-vector 128 #f)))
(do ((enc (vector->list encoding-vector) (cdr enc))
(i 0 (+ i 1)))
((null? enc) dec)
(vector-set! dec (char->ascii (car enc)) i))))
(define (base64-decode-string str . rest)
(apply base64-decode-port (make-string-input-port str) rest))
;; (base64-decode in-port [out-port])
;; --> string or port
(define (base64-decode-port in-port . rest)
(let-optionals rest ((out-port (make-string-output-port)))
(let loop ((bits 0) (bits-count 0))
(let ((next-char (read-char in-port)))
(when (not (or (eof-object? next-char) (char=? next-char pad)))
(let ((next-6bits (vector-ref decoding-vector
(char->ascii next-char))))
(if (not next-6bits)
;; Non-encoding character, skip it.
(loop bits bits-count)
;; Encoding character, handle it.
(let ((full-bits (bitwise-ior (ash bits 6) next-6bits))
(full-bits-count (+ bits-count 6)))
(if (>= full-bits-count 8)
;; Complete byte: output it, iterate.
(let* ((carry-bits-count (- full-bits-count 8))
(byte (bits-drop full-bits carry-bits-count)))
(write-byte byte out-port)
(loop (bits-take full-bits carry-bits-count)
carry-bits-count))
;; No complete byte yet: iterate.
(loop full-bits full-bits-count))))))))
;; Return port/output string.
(if (null? rest) (string-output-port-output out-port) out-port)))