#lang racket (require math/base) ;; for random number generation ;; globals ;; must control access via semaphore as listener thread or broadcast thread ;; might need to access it (define connections '()) ;; maintains a list of open ports ;; ((in1, out1), (in2, out2), (in3, out3), (in4, out4) ...) (define connections-s (make-semaphore 1)) ;; control access to connections ;; every 5 seconds run to broadcast top message in list ;; and remove it from list (define messages-s (make-semaphore 1)) ;; control access to messages (define messages '()) ;; stores a list of messages(strings) from currents (define threads-s (make-semaphore 1)) ;; control access to threads ;; lets keep thread descriptor values (define threads '()) ;; stores a list of client serving threads as thread descriptor values ;; define a broadcast function (define broadcast (lambda () (semaphore-wait messages-s) (semaphore-wait threads-s) (if (not (null? messages)) (begin (map (lambda (thread-descriptor) (thread-send thread-descriptor (first messages)))) (set! messages (rest messages)) ) (display "No message to display\n") ; for later create file port for errors and save error messages to that file ) (semaphore-post threads-s) (semaphore-post messages-s))) ;; ;; This is a relay server making two clients communicate ;; Both `server' and `accept-and-handle' change ;; to use a custodian. ;; To start server ;; (define stop (serve 8080)) ;; (stop) to close the server (define (serve port-no) (define main-cust (make-custodian)) (parameterize ([current-custodian main-cust]) (define listener (tcp-listen port-no 5 #t)) (define (loop) (accept-and-handle listener) (loop)) (thread loop) ;; Create a thread whose job is to simply call broadcast iteratively (thread (lambda () (let loopb [] broadcast (sleep 10) ;; sleep for 10 seconds between broadcasts (loopb))))) (lambda () (displayln "\nGoodbye, shutting down all services\n") (custodian-shutdown-all main-cust))) (define (accept-and-handle listener) (define cust (make-custodian)) (parameterize ([current-custodian cust]) (define-values (in out) (tcp-accept listener)) (semaphore-wait connections-s) ;; keep track of open ports (append connections (list (list in out))) (semaphore-wait connections-s) ; start a thread to deal with specific client and add descriptor value to the list of threads (append threads (list (thread (lambda () (handle in out) ;; this handles connection with that specific client (close-input-port in) (close-output-port out)))) ) ;; Watcher thread: ;; kills current thread for waiting too long for connection from ;; clients (thread (lambda () (sleep 120) (custodian-shutdown-all cust))))) ; (define (handle connections) ; ()) ;; each thread needs 2 new threads (define (handle in out) ; define function to deal with incoming messages from client (define (something-to-say in) (define evt-t0 (sync/timeout 120 (read-line-evt in 'linefeed))) (cond [(not evt-t0) (displayln "Nothing received from " (current-thread) "exiting")] [(string? evt-t0) (semaphore-wait messages-s) ; append the message to list of messages (append messages (list evt-t0)) (semaphore-post messages-s)])) ; define function to deal with out (define (something-to-send out) (define evt-t1 (sync/timeout 120 (thread-receive-evt))) ;; send message to client (fprintf out "~a~n" (thread-receive)) (flush-output out) ) ; thread them each ;; i could bind to values, and call wait on them ;; thread that deals with incoming messages for that particular thread (thread (lambda () (let loop [] (something-to-say in) (loop)))) (thread (lambda () (let loop [] (something-to-say out) (loop)))) ; (server-loop in out) ; (sleep 5) ;; wait 5 seconds to guarantee client has already send message 'ok )