;;; Path handler for uploading Scheme code to the SU web server -*- Scheme -*- ;;; This is really just an handler example demonstrating how to upload code ;;; into the server. ;;; Copyright (c) 1995 by Olin Shivers. ;;; Imports and non-R4RS'isms ;;; \r and \n in string for cr and lf. ;;; SWITCH conditional, ? for COND ;;; HTTP request record stucture ;;; HTTP-ERROR & reply codes ;;; Basic path handler support ;;; scsh syscalls ;;; Pretty-printing P proc. ;;; htmlout stuff ;;; SAFE-EVAL ;;; ERROR ;;; INDEX ;;; URI decoding ;;; HTML forms ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; This path handler is suitable for receiving code entered into an ;;; HTML text form. The Scheme code being uploaded is being POST'd to us ;;; (from a form). See http-forms.scm for info on the format of this kind ;;; of request. After parsing the request into the submitted string, we ;;; parse *that* into a Scheme sexp with READ, and eval it. ;;; (do/timeout secs thunk) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; Run THUNK, and gun it down if it hasn't finished in SECS seconds. ;;; Returns nothing useful, and THUNK gets executed in a subprocess, ;;; so its side-effects are invisible, as well. This is a clever kludge -- ;;; it uses three subprocesses -- but I don't have interrupts, so I'm hosed. (define (do/timeout* secs thunk) (run (begin (let ((timer (fork (lambda () (sleep secs)))) (worker (fork thunk))) (receive (process status) (wait-any) (ignore-errors (lambda () (signal-process (proc:pid (if (eq? worker process) timer worker)) signal/kill)))))))) (define-syntax do/timeout (syntax-rules () ((do/timeout secs body ...) (do/timeout* secs (lambda () body ...))))) ;;; The path handler for seval ops. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define (seval-handler path req) (let ((request-method (request:method req))) (cond ((string=? request-method "POST") ; Could do others also. (let ((modern-protocol? (not (v0.9-request? req)))) (if modern-protocol? (begin (begin-http-header #t 200) (write-string "Content-type: text/html\r\n\r\n"))) (with-tag #t HEAD () (newline) (emit-title #t "Scheme program output")) (newline)) (with-tag #t BODY () (newline) (let ((sexp (read-request-sexp req))) (do/timeout 10 (receive vals ;; Do the computation. (begin (emit-header #t 2 "Output from execution") (newline) (with-tag #t PRE () (newline) (force-output) ; In case we're gunned down. (eval-safely sexp))) ;; Pretty-print the returned value(s). (emit-header #t 2 "Return value(s)") (with-tag #t PRE () (for-each p vals))))))) (else (http-error http-reply/method-not-allowed #f req))))) ;;; Read an HTTP request entity body from stdin. The Content-length: ;;; element of request REQ's header tells how many bytes to this entity ;;; is. The entity should be a URI-encoded form body. Pull out the ;;; program= ;;; string, extract , uri-decode it, parse that into an s-expression, ;;; and return it. (define (read-request-sexp req) (cond ((get-header (request:headers req) 'content-length) => (lambda (cl-str) ; Take the first Content-length: header, (let* ((cl-start (string-skip cl-str char-set:whitespace)) ; skip whitespace, (cl (if cl-start ; & convert to (string->number (substring cl-str ; a number. cl-start (string-length cl-str))) 0)) ; All whitespace?? -- WTF. (qs (read-string cl)) ; Read in CL chars, (q (parse-html-form-query qs)) ; and parse them up. (s (cond ((assoc "program" q) => cdr) (else (error "No program in entity body."))))) (http-log "Seval sexp:~%~s~%" s) (read (make-string-input-port s))))) (else (http-error http-reply/bad-request req "No Content-length: field in POST request."))))