104 lines
3.7 KiB
Scheme
104 lines
3.7 KiB
Scheme
;;; Pseudo terminals
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;;; Copyright (c) 1995 by Olin Shivers.
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;;; (fork-pty-session thunk)
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Fork the process with stdio (fd's 0, 1, & 2 and also the current i/o ports)
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;;; bound to a tty device. In the parent process, returns four values:
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;;; [process pty-inport pty-outport ttyname]
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;;; - PROCESS is a process object for the child.
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;;; - PTY-{IN,OUT}PORT are input and output ports open on the controlling pty
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;;; device. PTY-OUTPORT is unbuffered.
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;;; - TTYNAME is the name of the child's tty, e.g. "/dev/ttyk4".
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;;;
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;;; The subprocess is placed in its own session, and the tty device
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;;; becomes the control tty for the new session/process-group/process.
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;;; The child runs with stio hooked up to the tty; the (error-output-port)
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;;; port is unbuffered.
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(define (fork-pty-session thunk)
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(receive (pty-in ttyname) (open-pty)
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(let* ((process (fork (lambda ()
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(close-input-port pty-in)
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(become-session-leader)
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(let ((tty (open-control-tty ttyname)))
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(move->fdes tty 0)
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(dup->outport tty 1)
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(dup->outport tty 2))
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; (set-port-buffering (dup->outport tty 2)
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; bufpol/none))
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(with-stdio-ports* thunk))))
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(pty-out (dup->outport pty-in)))
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; (set-port-buffering pty-out bufpol/none)
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(values process pty-in pty-out ttyname))))
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;;; (open-pty)
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Returns two values: [pty-inport ttyname]
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;;; PTY-PORT is a port open on the pty.
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;;; TTYNAME is the name of the tty, e.g., "/dev/ttyk4"
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;;;
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;;; Scheme doesn't allow bidirectional ports, so the returned port
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;;; is an input port -- however, the underlying file descriptor is
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;;; opened read+write, and you can use DUP->OUTPORT to map it to
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;;; corresponding output ports.
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(define (open-pty)
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(let ((next-pty (make-pty-generator)))
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(let loop ()
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(cond ((next-pty) =>
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(lambda (pty-name)
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(cond ((with-errno-handler ((errno packet) (else #f))
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(open-file pty-name open/read+write)) =>
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(lambda (pty) ; Score!
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(values pty (pty-name->tty-name pty-name))))
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(else (loop))))) ; Open failed; try another pty.
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(else (error "open-pty: could not open new pty"))))))
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;;; The following code may in fact be system dependent.
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;;; If so, we'll move it out to the architecture specific directories.
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;;; Map between corresponding pty and tty filenames.
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(define (pty/tty-name-mapper char)
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(lambda (name)
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(let ((ans (string-copy name)))
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(string-set! ans 5 char) ; Change X in "/dev/Xtyzz" to CHAR.
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ans)))
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(define pty-name->tty-name (pty/tty-name-mapper #\t)) ;/dev/ttyk3 -> /dev/ptyk3
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(define tty-name->pty-name (pty/tty-name-mapper #\p)) ;/dev/ptyk3 -> /dev/ttyk3
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;;; Generator for the set of possible pty names.
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(define (make-pty-generator)
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(let* ((pattern (string-copy"/dev/ptyLN")) ; L=letter N=number
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(l-pos 8)
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(n-pos 9)
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; (letters "pqrstuvwxyzPQRST") ; From telnetd source in BSD4.4.
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; (numbers "0123456789abcdef")
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(letters "pq") ; From telnetd source in BSD4.4.
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(numbers "0123456789abcdef")
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(num-letters (string-length letters))
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(num-numbers (string-length numbers))
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(l num-letters) ; Generator's state vars. The value
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(n 0)) ; of the last elt that was generated.
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; (We count backwards to (0,0); n fastest.)
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(lambda ()
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(call-with-current-continuation
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(lambda (abort)
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(if (zero? n)
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(if (zero? l) (abort #f) ; No more.
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(begin (set! l (- l 1))
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(set! n (- num-numbers 1))
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(string-set! pattern l-pos (string-ref letters l))))
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(set! n (- n 1)))
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(string-set! pattern n-pos (string-ref numbers n))
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(string-copy pattern))))))
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