;; ;; Copyright 2022, Jaidyn Levesque ;; ;; This program is free software: you can redistribute it and/or ;; modify it under the terms of the GNU General Public License as ;; published by the Free Software Foundation, either version 3 of ;; the License, or (at your option) any later version. ;; ;; This program is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; ;; You should have received a copy of the GNU General Public License ;; along with this program. If not, see . ;; (import scheme (chicken io) (chicken tcp) srfi-1 srfi-69 srfi-130 openssl) ;; Connect to the given IRC server, returning an IRC connection object. (define (irc:connect host port username nick #!optional (password #f) (realname #f)) (let ([conn (make-hash-table)]) (define-values (out in) (ssl-connect* hostname: host port: port)) (hash-table-set! conn 'in in) (hash-table-set! conn 'out out) (if password (irc:write-cmd conn "PASS" password)) (irc:write-cmd conn "USER" username "*" "0" (if realname realname "Jane Row")) (irc:write-cmd conn "NICK" nick) conn)) ;; Join the given channel. Not much to say, really. (define (irc:join conn channel #!optional key) (let* ([params-sans-key (list conn "JOIN" channel)] [params (if key (append params-sans-key `(,key)) params-sans-key)]) (apply irc:write-cmd params))) ;; Read-in the next reply or command from the server, into a parsable alist with ;; four keys: (define (irc:read-alist conn) (irc:process-alist-internally conn (irc:line->alist (read-line (hash-table-ref conn 'out))))) (define (irc:read-line conn) (read-line (hash-table-ref conn 'out))) ;; Send a specific command to the server. (define (irc:write-cmd conn command . parameters) (irc:write-line (apply irc:cmd->string (append `(,command) parameters)) conn)) ;; Write a line to the IRC server connection. (define (irc:write-line text connection) (write-line text (hash-table-ref connection 'in))) ;; The user should have more-or-less total control over how to respond to ;; received messages, but ircc has to sneakily process some responses itself, ;; to ensure basic functionality (i.e., pings, chanlist, userlist, etc.) (define (irc:process-alist-internally conn alist) (let ([command (alist-car-ref 'command alist)] [reply (alist-car-ref 'reply alist)] [sender (alist-car-ref 'sender alist)] [params (alist-ref 'params alist)]) (if command (irc:process-command-internally conn command params sender) (irc:process-reply-internally conn reply params sender))) alist) ;; Handle some replies necssary for basic functionality (define (irc:process-reply-internally conn reply params #!optional sender) (cond [(eq? reply 001) (hash-table-set! conn 'registered #t)])) ;; Handle some commands necessary for basic funcitonality (define (irc:process-command-internally conn command params #!optional sender) (cond [(string=? command "PING") (irc:write-cmd conn "PONG" (last params))])) ;; Construct a string to write to IRC for the given command and parameters. (define (irc:cmd->string command . parameters) (let ([parameters (append (reverse (cdr (reverse parameters))) `(,(string-append ":" (last parameters))))]) (string-append command " " (reduce-right (lambda (a b) (string-append a " " b)) #f parameters)))) ;; Convert a string to a `msg` alist, with keys 'command', 'reply', 'params', ;; and 'sender'. (define (irc:line->alist str) (let* ([colon-split (string-split str " :")] [last-column (reduce string-append #f (cdr colon-split))] ;; for additional colons post-colon [other-columns (string-split (car colon-split) " ")] [sender (if (eq? #\: (car (string->list (car other-columns)))) (string-drop (car other-columns) 1) #f)] [command (if sender (cadr other-columns) (car other-columns))] [reply (string->number command)] [params (append (if sender (cddr other-columns) (cdr other-columns)) (list last-column))]) `((command ,(if (not reply) command #f)) (reply ,reply) ,(append '(params) params) (sender ,sender)))) ;; Just car's the value of alist-ref (if it exists) (define (alist-car-ref key alist) (let ([value (alist-ref key alist)]) (if value (car value) #f)))