/* vi: set sw=4 ts=4: */ /* * telnet implementation for busybox * * Author: Tomi Ollila * Copyright (C) 1994-2000 by Tomi Ollila * * Created: Thu Apr 7 13:29:41 1994 too * Last modified: Fri Jun 9 14:34:24 2000 too * * Licensed under GPLv2 or later, see file LICENSE in this source tree. * * HISTORY * Revision 3.1 1994/04/17 11:31:54 too * initial revision * Modified 2000/06/13 for inclusion into BusyBox by Erik Andersen * Modified 2001/05/07 to add ability to pass TTYPE to remote host by Jim McQuillan * * Modified 2004/02/11 to add ability to pass the USER variable to remote host * by Fernando Silveira * */ //usage:#if ENABLE_FEATURE_TELNET_AUTOLOGIN //usage:#define telnet_trivial_usage //usage: "[-a] [-l USER] HOST [PORT]" //usage:#define telnet_full_usage "\n\n" //usage: "Connect to telnet server\n" //usage: "\n -a Automatic login with $USER variable" //usage: "\n -l USER Automatic login as USER" //usage: //usage:#else //usage:#define telnet_trivial_usage //usage: "HOST [PORT]" //usage:#define telnet_full_usage "\n\n" //usage: "Connect to telnet server" //usage:#endif #include #include #include "libbb.h" #ifdef __BIONIC__ /* should be in arpa/telnet.h */ # define IAC 255 /* interpret as command: */ # define DONT 254 /* you are not to use option */ # define DO 253 /* please, you use option */ # define WONT 252 /* I won't use option */ # define WILL 251 /* I will use option */ # define SB 250 /* interpret as subnegotiation */ # define SE 240 /* end sub negotiation */ # define TELOPT_ECHO 1 /* echo */ # define TELOPT_SGA 3 /* suppress go ahead */ # define TELOPT_TTYPE 24 /* terminal type */ # define TELOPT_NAWS 31 /* window size */ #endif #ifdef DOTRACE # define TRACE(x, y) do { if (x) printf y; } while (0) #else # define TRACE(x, y) #endif enum { DATABUFSIZE = 128, IACBUFSIZE = 128, CHM_TRY = 0, CHM_ON = 1, CHM_OFF = 2, UF_ECHO = 0x01, UF_SGA = 0x02, TS_NORMAL = 0, TS_COPY = 1, TS_IAC = 2, TS_OPT = 3, TS_SUB1 = 4, TS_SUB2 = 5, TS_CR = 6, }; typedef unsigned char byte; enum { netfd = 3 }; struct globals { int iaclen; /* could even use byte, but it's a loss on x86 */ byte telstate; /* telnet negotiation state from network input */ byte telwish; /* DO, DONT, WILL, WONT */ byte charmode; byte telflags; byte do_termios; #if ENABLE_FEATURE_TELNET_TTYPE char *ttype; #endif #if ENABLE_FEATURE_TELNET_AUTOLOGIN const char *autologin; #endif #if ENABLE_FEATURE_AUTOWIDTH unsigned win_width, win_height; #endif /* same buffer used both for network and console read/write */ char buf[DATABUFSIZE]; /* buffer to handle telnet negotiations */ char iacbuf[IACBUFSIZE]; struct termios termios_def; struct termios termios_raw; } FIX_ALIASING; #define G (*(struct globals*)&bb_common_bufsiz1) #define INIT_G() do { \ struct G_sizecheck { \ char G_sizecheck[sizeof(G) > COMMON_BUFSIZE ? -1 : 1]; \ }; \ } while (0) static void rawmode(void); static void cookmode(void); static void do_linemode(void); static void will_charmode(void); static void telopt(byte c); static void subneg(byte c); static void iac_flush(void) { write(netfd, G.iacbuf, G.iaclen); G.iaclen = 0; } #define write_str(fd, str) write(fd, str, sizeof(str) - 1) static void doexit(int ev) NORETURN; static void doexit(int ev) { cookmode(); exit(ev); } static void con_escape(void) { char b; if (bb_got_signal) /* came from line mode... go raw */ rawmode(); write_str(1, "\r\nConsole escape. Commands are:\r\n\n" " l go to line mode\r\n" " c go to character mode\r\n" " z suspend telnet\r\n" " e exit telnet\r\n"); if (read(STDIN_FILENO, &b, 1) <= 0) doexit(EXIT_FAILURE); switch (b) { case 'l': if (!bb_got_signal) { do_linemode(); goto ret; } break; case 'c': if (bb_got_signal) { will_charmode(); goto ret; } break; case 'z': cookmode(); kill(0, SIGTSTP); rawmode(); break; case 'e': doexit(EXIT_SUCCESS); } write_str(1, "continuing...\r\n"); if (bb_got_signal) cookmode(); ret: bb_got_signal = 0; } static void handle_net_output(int len) { byte outbuf[2 * DATABUFSIZE]; byte *dst = outbuf; byte *src = (byte*)G.buf; byte *end = src + len; while (src < end) { byte c = *src++; if (c == 0x1d) { con_escape(); return; } *dst = c; if (c == IAC) *++dst = c; /* IAC -> IAC IAC */ else if (c == '\r' || c == '\n') { /* Enter key sends '\r' in raw mode and '\n' in cooked one. * * See RFC 1123 3.3.1 Telnet End-of-Line Convention. * Using CR LF instead of other allowed possibilities * like CR NUL - easier to talk to HTTP/SMTP servers. */ *dst = '\r'; /* Enter -> CR LF */ *++dst = '\n'; } dst++; } if (dst - outbuf != 0) full_write(netfd, outbuf, dst - outbuf); } static void handle_net_input(int len) { int i; int cstart = 0; for (i = 0; i < len; i++) { byte c = G.buf[i]; if (G.telstate == TS_NORMAL) { /* most typical state */ if (c == IAC) { cstart = i; G.telstate = TS_IAC; } else if (c == '\r') { cstart = i + 1; G.telstate = TS_CR; } /* No IACs were seen so far, no need to copy * bytes within G.buf: */ continue; } switch (G.telstate) { case TS_CR: /* Prev char was CR. If cur one is NUL, ignore it. * See RFC 1123 section 3.3.1 for discussion of telnet EOL handling. */ G.telstate = TS_COPY; if (c == '\0') break; /* else: fall through - need to handle CR IAC ... properly */ case TS_COPY: /* Prev char was ordinary */ /* Similar to NORMAL, but in TS_COPY we need to copy bytes */ if (c == IAC) G.telstate = TS_IAC; else G.buf[cstart++] = c; if (c == '\r') G.telstate = TS_CR; break; case TS_IAC: /* Prev char was IAC */ if (c == IAC) { /* IAC IAC -> one IAC */ G.buf[cstart++] = c; G.telstate = TS_COPY; break; } /* else */ switch (c) { case SB: G.telstate = TS_SUB1; break; case DO: case DONT: case WILL: case WONT: G.telwish = c; G.telstate = TS_OPT; break; /* DATA MARK must be added later */ default: G.telstate = TS_COPY; } break; case TS_OPT: /* Prev chars were IAC WILL/WONT/DO/DONT */ telopt(c); G.telstate = TS_COPY; break; case TS_SUB1: /* Subnegotiation */ case TS_SUB2: /* Subnegotiation */ subneg(c); /* can change G.telstate */ break; } } if (G.telstate != TS_NORMAL) { /* We had some IACs, or CR */ if (G.iaclen) iac_flush(); if (G.telstate == TS_COPY) /* we aren't in the middle of IAC */ G.telstate = TS_NORMAL; len = cstart; } if (len) full_write(STDOUT_FILENO, G.buf, len); } static void put_iac(int c) { G.iacbuf[G.iaclen++] = c; } static void put_iac2(byte wwdd, byte c) { if (G.iaclen + 3 > IACBUFSIZE) iac_flush(); put_iac(IAC); put_iac(wwdd); put_iac(c); } #if ENABLE_FEATURE_TELNET_TTYPE static void put_iac_subopt(byte c, char *str) { int len = strlen(str) + 6; // ( 2 + 1 + 1 + strlen + 2 ) if (G.iaclen + len > IACBUFSIZE) iac_flush(); put_iac(IAC); put_iac(SB); put_iac(c); put_iac(0); while (*str) put_iac(*str++); put_iac(IAC); put_iac(SE); } #endif #if ENABLE_FEATURE_TELNET_AUTOLOGIN static void put_iac_subopt_autologin(void) { int len = strlen(G.autologin) + 6; // (2 + 1 + 1 + strlen + 2) const char *p = "USER"; if (G.iaclen + len > IACBUFSIZE) iac_flush(); put_iac(IAC); put_iac(SB); put_iac(TELOPT_NEW_ENVIRON); put_iac(TELQUAL_IS); put_iac(NEW_ENV_VAR); while (*p) put_iac(*p++); put_iac(NEW_ENV_VALUE); p = G.autologin; while (*p) put_iac(*p++); put_iac(IAC); put_iac(SE); } #endif #if ENABLE_FEATURE_AUTOWIDTH static void put_iac_naws(byte c, int x, int y) { if (G.iaclen + 9 > IACBUFSIZE) iac_flush(); put_iac(IAC); put_iac(SB); put_iac(c); put_iac((x >> 8) & 0xff); put_iac(x & 0xff); put_iac((y >> 8) & 0xff); put_iac(y & 0xff); put_iac(IAC); put_iac(SE); } #endif static void setConMode(void) { if (G.telflags & UF_ECHO) { if (G.charmode == CHM_TRY) { G.charmode = CHM_ON; printf("\r\nEntering %s mode" "\r\nEscape character is '^%c'.\r\n", "character", ']'); rawmode(); } } else { if (G.charmode != CHM_OFF) { G.charmode = CHM_OFF; printf("\r\nEntering %s mode" "\r\nEscape character is '^%c'.\r\n", "line", 'C'); cookmode(); } } } static void will_charmode(void) { G.charmode = CHM_TRY; G.telflags |= (UF_ECHO | UF_SGA); setConMode(); put_iac2(DO, TELOPT_ECHO); put_iac2(DO, TELOPT_SGA); iac_flush(); } static void do_linemode(void) { G.charmode = CHM_TRY; G.telflags &= ~(UF_ECHO | UF_SGA); setConMode(); put_iac2(DONT, TELOPT_ECHO); put_iac2(DONT, TELOPT_SGA); iac_flush(); } static void to_notsup(char c) { if (G.telwish == WILL) put_iac2(DONT, c); else if (G.telwish == DO) put_iac2(WONT, c); } static void to_echo(void) { /* if server requests ECHO, don't agree */ if (G.telwish == DO) { put_iac2(WONT, TELOPT_ECHO); return; } if (G.telwish == DONT) return; if (G.telflags & UF_ECHO) { if (G.telwish == WILL) return; } else if (G.telwish == WONT) return; if (G.charmode != CHM_OFF) G.telflags ^= UF_ECHO; if (G.telflags & UF_ECHO) put_iac2(DO, TELOPT_ECHO); else put_iac2(DONT, TELOPT_ECHO); setConMode(); full_write1_str("\r\n"); /* sudden modec */ } static void to_sga(void) { /* daemon always sends will/wont, client do/dont */ if (G.telflags & UF_SGA) { if (G.telwish == WILL) return; } else if (G.telwish == WONT) return; G.telflags ^= UF_SGA; /* toggle */ if (G.telflags & UF_SGA) put_iac2(DO, TELOPT_SGA); else put_iac2(DONT, TELOPT_SGA); } #if ENABLE_FEATURE_TELNET_TTYPE static void to_ttype(void) { /* Tell server we will (or won't) do TTYPE */ if (G.ttype) put_iac2(WILL, TELOPT_TTYPE); else put_iac2(WONT, TELOPT_TTYPE); } #endif #if ENABLE_FEATURE_TELNET_AUTOLOGIN static void to_new_environ(void) { /* Tell server we will (or will not) do AUTOLOGIN */ if (G.autologin) put_iac2(WILL, TELOPT_NEW_ENVIRON); else put_iac2(WONT, TELOPT_NEW_ENVIRON); } #endif #if ENABLE_FEATURE_AUTOWIDTH static void to_naws(void) { /* Tell server we will do NAWS */ put_iac2(WILL, TELOPT_NAWS); } #endif static void telopt(byte c) { switch (c) { case TELOPT_ECHO: to_echo(); break; case TELOPT_SGA: to_sga(); break; #if ENABLE_FEATURE_TELNET_TTYPE case TELOPT_TTYPE: to_ttype(); break; #endif #if ENABLE_FEATURE_TELNET_AUTOLOGIN case TELOPT_NEW_ENVIRON: to_new_environ(); break; #endif #if ENABLE_FEATURE_AUTOWIDTH case TELOPT_NAWS: to_naws(); put_iac_naws(c, G.win_width, G.win_height); break; #endif default: to_notsup(c); break; } } /* subnegotiation -- ignore all (except TTYPE,NAWS) */ static void subneg(byte c) { switch (G.telstate) { case TS_SUB1: if (c == IAC) G.telstate = TS_SUB2; #if ENABLE_FEATURE_TELNET_TTYPE else if (c == TELOPT_TTYPE && G.ttype) put_iac_subopt(TELOPT_TTYPE, G.ttype); #endif #if ENABLE_FEATURE_TELNET_AUTOLOGIN else if (c == TELOPT_NEW_ENVIRON && G.autologin) put_iac_subopt_autologin(); #endif break; case TS_SUB2: if (c == SE) { G.telstate = TS_COPY; return; } G.telstate = TS_SUB1; break; } } static void rawmode(void) { if (G.do_termios) tcsetattr(0, TCSADRAIN, &G.termios_raw); } static void cookmode(void) { if (G.do_termios) tcsetattr(0, TCSADRAIN, &G.termios_def); } int telnet_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int telnet_main(int argc UNUSED_PARAM, char **argv) { char *host; int port; int len; struct pollfd ufds[2]; INIT_G(); #if ENABLE_FEATURE_AUTOWIDTH get_terminal_width_height(0, &G.win_width, &G.win_height); #endif #if ENABLE_FEATURE_TELNET_TTYPE G.ttype = getenv("TERM"); #endif if (tcgetattr(0, &G.termios_def) >= 0) { G.do_termios = 1; G.termios_raw = G.termios_def; cfmakeraw(&G.termios_raw); } #if ENABLE_FEATURE_TELNET_AUTOLOGIN if (1 & getopt32(argv, "al:", &G.autologin)) G.autologin = getenv("USER"); argv += optind; #else argv++; #endif if (!*argv) bb_show_usage(); host = *argv++; port = bb_lookup_port(*argv ? *argv++ : "telnet", "tcp", 23); if (*argv) /* extra params?? */ bb_show_usage(); xmove_fd(create_and_connect_stream_or_die(host, port), netfd); setsockopt(netfd, SOL_SOCKET, SO_KEEPALIVE, &const_int_1, sizeof(const_int_1)); signal(SIGINT, record_signo); ufds[0].fd = STDIN_FILENO; ufds[0].events = POLLIN; ufds[1].fd = netfd; ufds[1].events = POLLIN; while (1) { if (poll(ufds, 2, -1) < 0) { /* error, ignore and/or log something, bay go to loop */ if (bb_got_signal) con_escape(); else sleep(1); continue; } // FIXME: reads can block. Need full bidirectional buffering. if (ufds[0].revents) { len = safe_read(STDIN_FILENO, G.buf, DATABUFSIZE); if (len <= 0) doexit(EXIT_SUCCESS); TRACE(0, ("Read con: %d\n", len)); handle_net_output(len); } if (ufds[1].revents) { len = safe_read(netfd, G.buf, DATABUFSIZE); if (len <= 0) { full_write1_str("Connection closed by foreign host\r\n"); doexit(EXIT_FAILURE); } TRACE(0, ("Read netfd (%d): %d\n", netfd, len)); handle_net_input(len); } } /* while (1) */ }