stk/Lib/winsocket.stklos

;;;;
;;;; w i n s o c k e t . s t k l o s		-- Socket for Win32
;;;;
;;;; Copyright © 1993-1999 Erick Gallesio - I3S-CNRS/ESSI <eg@unice.fr>
;;;; 
;;;; Permission to use, copy, and/or distribute this software and its
;;;; documentation for any purpose and without fee is hereby granted, provided
;;;; that both the above copyright notice and this permission notice appear in
;;;; all copies and derived works.  Fees for distribution or use of this
;;;; software or derived works may only be charged with express written
;;;; permission of the copyright holder.  
;;;; This software is provided ``as is'' without express or implied warranty.
;;;;
;;;;
;;;;           Author: Steve Pruitt [steve@pruitt.net]
;;;;    Creation date: 13-Mar-1999 12:59
;;;; Last file update: 23-Aug-1999 00:12
;;;;
;;;;  socket object class was provided to simulate stdio 
;;;;  when i/o ports can not be assigned to sockets.
;;;;
;;;;  Limiting socket interface to these methods is more
;;;;  portable than using standard i/o ports.
;;;;
;;;;

(unless (symbol-bound? '<socket-port>)
(require "stklos")

;;;;***********************************************************************
;;;;
;;;; socket-port class definitions (adds port i/o facilities)
;;;;
;;;;***********************************************************************

(define-class <socket-port> ()
 ((socket        :accessor socket-of :init-keyword :socket :initform -1)
  (buffer-size   :init-keyword :buffer-size :initform 1024)
  (output-buf    :accessor buffer-of :initform 0)
  (output-len    :initform 0)
  (input-buf     :initform 0)
  (input-loc     :initform 0)
  (input-len     :initform 0)

  ;; default recv-monitor (count number of bytes input from socket)
  (bytes-input   :initform 0)
  (recv-monitor  :init-keyword :recv-monitor :initform 
	(lambda (self bytes-read)
	 (let* ((bytes-input (slot-ref self 'bytes-input)))
	  (slot-set! self 'bytes-input (+ bytes-input bytes-read))
	)))

  ;; default send-monitor (count number of bytes output to socket)
  (bytes-output  :initform 0)
  (send-monitor :init-keyword :send-monitor :initform 
	(lambda (self bytes-written)
	 (let* ((bytes-output (slot-ref self 'bytes-output)))
	  (slot-set! self 'bytes-output (+ bytes-output bytes-written))
	)))
))

;;;;
;;;; Initialize socket
;;;;
(define-method initialize ((self <socket-port>) initargs)
 (next-method)
 (require "socket")
 (if (not (socket? (socket-of self))) (slot-set! self 'buffer-size -1) 
))

;;;;
;;;; handle-of (get socket-handle)
;;;;
(define-method handle-of ((self <socket-port>))
 (socket-handle (socket-of self)))

;;;;
;;;; address-of (socket-local-address)
;;;;
(define-method address-of ((self <socket-port>))
 (socket-local-address (socket-of self)))

;;;;
;;;; close-socket-port (socket-shutdown)
;;;;
(define-method close-socket-port ((self <socket-port>))
 (if (> (slot-ref self 'buffer-size) 0)
  (let* ((sock (socket-of self)))
   (flush self)
   (socket-shutdown sock)
   (slot-set! self 'buffer-size -1)
   (slot-set! self 'output-buf 0)
   (slot-set! self 'input-buf 0)
)))

;;;;***********************************************************************
;;;;
;;;; client-socket class definition
;;;;
;;;;***********************************************************************
(define-class <client-socket> (<socket-port>)
 ((port        :init-keyword :port :accessor port)
  (host        :init-keyword :host :accessor host)
))

;;;;
;;;; Initialize client-socket (make <client-socket>)
;;;;
(define-method initialize ((self <client-socket>) initargs)
 (let* ((port (get-keyword :port initargs 21))
 	(host (get-keyword :host initargs "not-specified")))
  (require "socket")
  (slot-set! self 'socket (initialize-client-socket host port))
  (slot-set! self 'port port)
  (slot-set! self 'host host)
  (next-method)
))

;;;;***********************************************************************
;;;;
;;;; server-socket class definition
;;;;
;;;;***********************************************************************
(define-class <server-socket> (<socket-port>)
 ((connection  :accessor connection-of)
  (port-number :init-keyword :port :accessor port-of)
))

;;;;
;;;; Initialize (make server socket)
;;;;
(define-method initialize ((self <server-socket>) initargs)
 (let* ((port (get-keyword :port initargs 0)))
  (require "socket")
  (slot-set! self 'socket (make-server-socket port))
  (slot-set! self 'port-number (socket-port-number (socket-of self)))
  (slot-set! self 'connection -1)
  (next-method)
))

;;;;
;;;; accept-server-connection (accept server connection)
;;;;
(define-method accept-server-connection ((self <server-socket>))
 (let* ((sock (socket-of self)))
  (slot-set! self 'connection (accept-connection sock))
))

;;;;
;;;; handle-of (get server connection handle)
;;;;
(define-method handle-of ((self <server-socket>))
 (slot-ref self 'connection))

;;;;  
;;;; close-server-connection (close server connection)
;;;; 
(define-method close-server-connection ((self <server-socket>))
 (let* ((connection (slot-ref self 'connection)))
  (if (not (= connection -1)) (close-connection connection))
  (slot-set! self 'connection -1)
)) 
  
;;;; 
;;;; close-socket-port (close-server-connection and socket-shutdown) 
;;;; 
(define-method close-socket-port ((self <server-socket>)) 
 (if (> (slot-ref self 'buffer-size) 0) 
  (let* ((sock (socket-of self)))
   (flush self) 
   (close-server-connection self)
   (socket-shutdown sock)
   (slot-set! self 'buffer-size -1)
   (slot-set! self 'output-buf 0)
   (slot-set! self 'input-buf 0)
)))

;;;;***********************************************************************
;;;;
;;;; i/o utilities (commmon to all classes)
;;;;
;;;;***********************************************************************

;;;;
;;;; read-char
;;;;
(define-method read-char ((self <socket-port>))
 (let* ((chr #\newline)
	(loc (slot-ref self 'input-loc)))
  (if (not (string? (slot-ref self 'input-buf)))

   ;; initialize buffer
   (let* ((size (slot-ref self 'buffer-size)))
    (if (> size 0)
	 (let* ((buffer (make-string size))
		(len (socket-recv (handle-of self) buffer)))
	  (set! loc 0)
	  (slot-set! self 'input-buf buffer)
	  (set! chr (string-ref buffer 0))
	  (slot-set! self 'input-len 0)
	  (if (eof-object? len) (set! chr len)
	   (let* ((recv-monitor (slot-ref self 'recv-monitor)))
		(slot-set! self 'input-len len)
		(recv-monitor self len)
	 )))
   ))

   ;; get next character in buffer
   (if (< loc (slot-ref self 'input-len))
	 (set! chr (string-ref (slot-ref self 'input-buf) loc))

	 ;; buffer is empty, get another buffer from socket
	 (let* ((size (slot-ref self 'buffer-size)))
	  (if (> size 0)
	   (let* ((buffer (make-string size))
		  (len (socket-recv (handle-of self) buffer)))
	    (set! loc 0)
	    (slot-set! self 'input-buf buffer)
	    (set! chr (string-ref buffer 0))
	    (slot-set! self 'input-len 0)
	    (if (eof-object? len) (set! chr len)
	     (let* ((recv-monitor (slot-ref self 'recv-monitor)))
		(slot-set! self 'input-len len)
		(recv-monitor self len)
	 )))))
  )) 
  (slot-set! self 'input-loc (+ loc 1))
  chr
))

;;;;
;;;; write-char
;;;;
(define-method write-char (chr (self <socket-port>))
 (let* ((loc (slot-ref self 'output-len)))
  (if (not (string? (slot-ref self 'output-buf)))

   ;; initialize buffer
   (if (> (slot-ref self 'buffer-size) 0)
    (let* ((size (slot-ref self 'buffer-size)))
	(slot-set! self 'output-buf (make-string size chr))
	(set! loc 0)
   ))
 
   ;; add character to end of buffer
   (if (< loc (slot-ref self 'buffer-size))
	(string-set! (slot-ref self 'output-buf) loc chr)

        ;; buffer is full, flush buffer
	(if (> (slot-ref self 'buffer-size) 0)
	 (let* ((send-monitor (slot-ref self 'send-monitor))
		(handle (handle-of self)))
	  (socket-send handle (slot-ref self 'output-buf) loc)
	  (send-monitor self loc)
	  (string-set! (slot-ref self 'output-buf) 0 chr)
	  (set! loc 0)
	))

  ))
  (slot-set! self 'output-len (+ loc 1))
)) 

;;;;
;;;; flush
;;;;
(define-method flush ((self <socket-port>))
 (let* ((len (slot-ref self 'output-len)))
  (if (> len 0) 
   (let* ((send-monitor (slot-ref self 'send-monitor)))
    (socket-send (handle-of self) (buffer-of self) len)
    (send-monitor self len)
    (slot-set! self 'output-len 0)
))))

;;;;
;;;; read-line
;;;;
(define-method read-line ((self <socket-port>))
 (let* ((lst ()))
  (do ((chr (read-char self) (read-char self)))
	((or (eof-object? chr) (char=? chr #\newline)))
    (set! lst (cons chr lst)))
  (list->string (reverse lst))
))

;;;;
;;;; write-line
;;;;
(define-method write-line ((self <socket-port>) line)
 (let* ((handle (handle-of self))
   	(send-monitor (slot-ref self 'send-monitor))
	(len (+ (string-length line) 1))
	(buf (string-append line "\n")))
  (socket-send handle buf len)
  (send-monitor self len)
))

;;;;
;;;; copy-to-socket
;;;;
(define-method copy(from (self <socket-port>))
 (let* ((chr (read-char from))
	(count (slot-ref self 'output-len)))
  (if (eof-object? chr) (flush self)
   (let* ((num-chars (+ count 1)))
    (write-char chr self)
    (let* ((send-monitor (slot-ref self 'send-monitor))
	   (buffer-size (slot-ref self 'buffer-size)))
	(set! count 0)
	(while (not (eof-object? chr))

         ;; fill buffer with data
	 (let* ((to (handle-of self)))
	  (do ((i num-chars (+ i 1)))
	    ((or (= i buffer-size) (eof-object? chr)))
	   (set! num-chars (+ num-chars 1))
           (set! chr (read-char from))
           (if (eof-object? chr) (set! num-chars i)
		(string-set! (buffer-of self) i chr)
	  ))

          ;; send buffer data to socket and flush
	  (if (> num-chars 0) 
		(socket-send to (buffer-of self) num-chars))
  	  (send-monitor self num-chars)
	  (set! count (+ count num-chars))
	  (set! num-chars (- num-chars buffer-size))
	))
        (slot-set! self 'output-len 0)
  )))
  count
))

;;;;
;;;; copy-from-socket
;;;;
(define-method copy((self <socket-port>) to)
 (let* ((chr (read-char self)))
  (if (eof-object? chr) 0
   (let* ((buffer (slot-ref self 'input-buf))
	  (recv-monitor (slot-ref self 'recv-monitor))
	  (from (handle-of self))
          (count 0))

	 ;; flush first input buffer 
	 (let* ((loc (- (slot-ref self 'input-loc) 1))
		(len (slot-ref self 'input-len)))
	  (set! count (- len loc))
	  (do ((i loc (+ i 1))) ((= i len))
	    (write-char (string-ref buffer i) to)
	 ))

	 ;; copy remaining buffers until no more left
	 (do ((num-chars (socket-recv from buffer) 
		(socket-recv from buffer))) ((eof-object? num-chars))
	  (set! count (+ count num-chars))
	  (recv-monitor self num-chars)
	  (do ((i 0 (+ i 1))) ((= i num-chars))
	   (write-char (string-ref buffer i) to)
	 ))
	 count
))))

;;;;
;;;; copy-socket-to-socket
;;;;
(define-method copy((self <socket-port>) (output <socket-port>))
 (let* ((chr (read-char self))
        (count 0))
  (if (not (eof-object? chr))
   (let* ((buffer (slot-ref self 'input-buf))
	  (recv-monitor (slot-ref self 'recv-monitor))
	  (send-monitor (slot-ref self 'send-monitor))
	  (loc (- (slot-ref self 'input-loc) 1))
	  (len (slot-ref self 'input-len))
	  (from (handle-of self))
	  (to (handle-of output)))
    (flush output)

    ;; flush first input buffer 
    (set! count (- len loc))
    (socket-send to (substring buffer loc len) count)
    (send-monitor self count)

    ;; copy remaining buffers until no more left
    (do ((num-chars (socket-recv from buffer) 
		(socket-recv from buffer))) ((eof-object? num-chars))
	(set! count (+ count num-chars))
	(recv-monitor self num-chars)
	(socket-send to buffer num-chars)
  	(send-monitor self num-chars)
   ))
   count
)))

;;;;
;;;; close-input-port
;;;;
(define-method close-input-port ((self <socket-port>)) 
	(close-socket-port self))

;;;;
;;;; close-output-port
;;;;
(define-method close-output-port ((self <socket-port>)) 
	(close-socket-port self))

)