(define-module (web socket frame)
#:use-module (rnrs bytevectors)
#:use-module (rnrs io ports)
#:use-module (ice-9 format)
#:use-module (ice-9 match)
#:use-module (ice-9 rdelim)
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-9)
#:use-module (srfi srfi-9 gnu)
#:use-module (srfi srfi-26)
#:export (make-frame
frame?
frame-final?
frame-type
frame-masking-key
frame-data
make-pong-frame
make-close-frame
make-text-frame
make-binary-frame
continuation-frame?
text-frame?
binary-frame?
close-frame?
ping-frame?
pong-frame?
fragment-frame?
first-fragment-frame?
final-fragment-frame?
control-frame?
data-frame?
frame-length
frame-concatenate
text-frame->string
text-frames->string
read-frame
write-frame))
;;;
;;; WebSocket frames
;;;
(define-record-type
(make-frame final? type masking-key data)
frame?
(final? frame-final?)
(type frame-type)
(masking-key frame-masking-key)
(data frame-data))
(define (display-frame frame port)
(format port "#"
(frame-final? frame)
(frame-type frame)
(frame-masking-key frame)
(frame-length frame)))
(set-record-type-printer! display-frame)
(define* (make-pong-frame bv #:optional (masking-key #f))
(make-frame #t 'pong masking-key bv))
(define* (make-close-frame bv #:optional (masking-key #f))
(make-frame #t 'close masking-key bv))
(define* (make-text-frame str #:optional (masking-key #f))
(make-frame #t 'text masking-key (string->utf8 str)))
(define* (make-binary-frame bv #:optional (masking-key #f))
(make-frame #t 'binary masking-key bv))
(define (continuation-frame? frame)
"Return #t if FRAME is a continuation frame."
(eq? (frame-type frame) 'continuation))
(define (text-frame? frame)
"Return #t if FRAME is a text frame."
(eq? (frame-type frame) 'text))
(define (binary-frame? frame)
"Return #t if FRAME is a binary frame."
(eq? (frame-type frame) 'binary))
(define (close-frame? frame)
"Return #t if FRAME is a close frame."
(eq? (frame-type frame) 'close))
(define (ping-frame? frame)
"Return #t if FRAME is a ping frame."
(eq? (frame-type frame) 'ping))
(define (pong-frame? frame)
"Return #t if FRAME is a pong frame."
(eq? (frame-type frame) 'pong))
;; See section 5.4 - Fragmentation
(define (fragment-frame? frame)
"Return #t if FRAME is an incomplete message."
(or (continuation-frame? frame)
(not (frame-final? frame))))
(define (first-fragment-frame? frame)
"Return #t if FRAME is the first piece of a fragmented message."
(and (not (frame-final? frame))
(data-frame? frame)))
(define (final-fragment-frame? frame)
"Return #t if FRAME is the final piece of a fragmented message."
(and (frame-final? frame)
(continuation-frame? frame)))
;; See section 5.5 - Control Frames
(define (control-frame? frame)
"Return #t if FRAME is a control frame."
(or (close-frame? frame)
(ping-frame? frame)
(pong-frame? frame)))
;; See section 5.6 - Data Frames
(define (data-frame? frame)
"Return #t if FRAME is a data frame."
(or (text-frame? frame)
(binary-frame? frame)))
(define (frame-length frame)
"Return the length of the data bytevector in FRAME."
(bytevector-length (frame-data frame)))
(define (text-frame->string frame)
"Convert FRAME, an unfragmented text frame, into a string."
(utf8->string (frame-data frame)))
(define (frame-concatenate frames)
"Concatenate the data in FRAMES, a list of fragmented frames, into a
single bytevector."
(let ((bv (make-bytevector (reduce + 0 (map frame-length frames)))))
(let loop ((frames frames)
(offset 0))
(match frames
(() bv)
((frame . rest)
(let ((length (frame-length frame)))
(bytevector-copy! (frame-data frame) 0 bv offset length)
(loop rest (+ offset length))))))))
(define (text-frames->string frames)
"Convert FRAMES, a list of fragmented text frames, into a single
concatenated string."
(utf8->string (frame-concatenate frames)))
(define (call-with-input-bytevector bv proc)
"Call PROC with one argument: an open input port that reads from the
bytevector BV."
(let ((port (open-bytevector-input-port bv)))
(dynamic-wind
(const #t)
(lambda ()
(proc port))
(lambda ()
(close-port port)))))
(define (close-frame->status frame)
"Convert FRAME, a close frame, into a pair. The \"car\" of the pair
is a positive integer status code, and the \"cdr\" is a string
containing the explanation, if present."
(define (read-status-code)
(match (bytevector-sint-ref (frame-data frame) 0 (endianness big) 2)
;; See section 7.4
((and (or 1005 1006 1015) status)
(websocket-error "invalid use of reserved status code: " status))
(status status)))
(let ((length (frame-length frame)))
(cond
((zero? length) ; unspecified closing status
'(1005 . ""))
((= length 2) ; status code only
(cons (read-status-code) ""))
(else ; status + reason
(cons (read-status-code)
(call-with-input-bytevector (frame-data frame)
(lambda (port)
;; Throw away the status code.
(get-u8 port)
(get-u8 port)
;; Now read the reason.
(read-string port))))))))
;;;
;;; Frame reader
;;;
;; See section 5.3 - Client-to-Server Masking
(define (mask-bytevector! bv masking-key)
"Apply the WebSocket masking algorithm to the bytevector BV using
MASKING-KEY."
(let loop ((i 0))
(when (< i (bytevector-length bv))
(let ((masked (logxor (u8vector-ref bv i)
(u8vector-ref masking-key (modulo i 4)))))
(u8vector-set! bv i masked)
(loop (1+ i))))))
(define (websocket-error message . args)
(apply error message args))
;; See section 5.2 - Base Framing Protocol
(define (read-frame port)
(define (opcode->frame-type opcode)
(match opcode
(#x0 'continuation)
(#x1 'text)
(#x2 'binary)
(#x8 'close)
(#x9 'ping)
(#xA 'pong)
(else (websocket-error "invalid opcode: " opcode))))
(define (control-frame? type)
(memq type '(close ping pong)))
(define (parse-fin-bit octet)
;; Test the first bit of the octet.
(not (zero? (logand #x80 octet))))
(define (parse-opcode octet final?)
;; The opcode is stored in the least-significant nibble of the
;; octet.
(let ((type (opcode->frame-type (logand #x0f octet))))
;; Section 5.5 specifies that control frames must not be
;; fragmented.
(when (and (not final?) (control-frame? type))
(websocket-error "fragmented control frame: " type))
type))
(define (parse-mask-bit octet)
(not (zero? (logand #x80 octet))))
(define (parse-length octet)
;; For lengths <= 125, the frame length is encoded in the last 7
;; bits of the octet. If this number is 126, then the true length
;; is encoded in the following 16 bits. If the number is 127,
;; then the true length is encoded in the following 64 bits.
(match (logand #x7f octet)
(126
(bytevector-u16-ref (get-bytevector-n port 2) 0 (endianness big)))
(127
(bytevector-u64-ref (get-bytevector-n port 8) 0 (endianness big)))
(length length)))
(define (parse-masking-key)
;; Masking keys are always 32 bits.
(get-bytevector-n port 4))
(define (read-data type masking-key length)
;; Section 5.5 specifies that control frame bodies may not exceed
;; 125 bytes.
(when (and (> length 125)
(control-frame? type))
(websocket-error "control frame to large: " type length))
(let ((bv (get-bytevector-n port length)))
(when masking-key
(mask-bytevector! bv masking-key))
bv))
(let* ((type-byte (get-u8 port))
(length-byte (get-u8 port))
(final? (parse-fin-bit type-byte))
(type (parse-opcode type-byte final?))
(mask? (parse-mask-bit length-byte))
(length (parse-length length-byte))
(masking-key (and mask? (parse-masking-key)))
(data (read-data type masking-key length)))
(make-frame final? type masking-key data)))
;;;
;;; Frame writer
;;;
(define* (write-frame frame #:optional (port (current-output-port)))
;; Packs an unsigned integer into a bytevector in network byte
;; order.
(define (uint->bytevector n size)
(uint-list->bytevector (list n) (endianness big) size))
(define (masked-data mask data)
(let* ((length (bytevector-length data))
(bv (make-bytevector length)))
(mask-bytevector! bv mask)
bv))
(let ((length (frame-length frame))
(mask (frame-masking-key frame))
(data (frame-data frame)))
;; Write FIN bit and opcode.
(put-u8 port
(logior (if (frame-final? frame) #x80 #x00)
(match (frame-type frame)
('continuation #x00)
('text #x01)
('binary #x02)
('close #x08)
('ping #x09)
('pong #x0A))))
;; Write mask bit and length.
(put-u8 port
(logior (if mask #x80 #x00)
(cond
((< length 126) length)
((< length (expt 2 16)) 126)
(else 127))))
;; Write true size when size is greater than 125.
(cond
((< length 126) #f)
((< length (expt 2 16))
(put-bytevector port (uint->bytevector length 2)))
(else
(put-bytevector port (uint->bytevector length 8))))
;; Write masking key, if present.
(when mask (put-bytevector port mask))
;; Write data, potentially masked.
(put-bytevector port (if mask (masked-data mask data) data))))