/* * Copyright (c) 1988 Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Berkeley. The name of the * University may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #ifndef lint static char sccsid[] = "@(#)telnet.c 5.46 (Berkeley) 05/15/90"; #endif /* not lint */ #include #if defined(unix) #include /* By the way, we need to include curses.h before telnet.h since, * among other things, telnet.h #defines 'DO', which is a variable * declared in curses.h. */ #endif /* defined(unix) */ #include #include #include #include "ring.h" #include "defines.h" #include "externs.h" #include "types.h" #include "general.h" #define strip(x) ((x)&0x7f) static char subbuffer[SUBBUFSIZE], *subpointer, *subend; /* buffer for sub-options */ #define SB_CLEAR() subpointer = subbuffer; #define SB_TERM() subend = subpointer; #define SB_ACCUM(c) if (subpointer < (subbuffer+sizeof subbuffer)) { \ *subpointer++ = (c); \ } char options[256]; /* The combined options */ char do_dont_resp[256]; char will_wont_resp[256]; int connected, showoptions, In3270, /* Are we in 3270 mode? */ ISend, /* trying to send network data in */ debug = 0, crmod, netdata, /* Print out network data flow */ crlf, /* Should '\r' be mapped to (or )? */ #if defined(TN3270) noasynchtty = 0,/* User specified "-noasynch" on command line */ noasynchnet = 0,/* User specified "-noasynch" on command line */ askedSGA = 0, /* We have talked about suppress go ahead */ #endif /* defined(TN3270) */ telnetport, SYNCHing, /* we are in TELNET SYNCH mode */ flushout, /* flush output */ autoflush = 0, /* flush output when interrupting? */ autosynch, /* send interrupt characters with SYNCH? */ localflow, /* we handle flow control locally */ localchars, /* we recognize interrupt/quit */ donelclchars, /* the user has set "localchars" */ donebinarytoggle, /* the user has put us in binary */ dontlecho, /* do we suppress local echoing right now? */ globalmode; #define CONTROL(x) ((x)&0x1f) /* CTRL(x) is not portable */ unsigned char *prompt = 0; cc_t escape, echoc; /* * Telnet receiver states for fsm */ #define TS_DATA 0 #define TS_IAC 1 #define TS_WILL 2 #define TS_WONT 3 #define TS_DO 4 #define TS_DONT 5 #define TS_CR 6 #define TS_SB 7 /* sub-option collection */ #define TS_SE 8 /* looking for sub-option end */ static int telrcv_state; jmp_buf toplevel = { 0 }; jmp_buf peerdied; int flushline; int linemode; #ifdef KLUDGELINEMODE int kludgelinemode = 1; #endif /* * The following are some clocks used to decide how to interpret * the relationship between various variables. */ Clocks clocks; #ifdef notdef Modelist modelist[] = { { "telnet command mode", COMMAND_LINE }, { "character-at-a-time mode", 0 }, { "character-at-a-time mode (local echo)", LOCAL_ECHO|LOCAL_CHARS }, { "line-by-line mode (remote echo)", LINE | LOCAL_CHARS }, { "line-by-line mode", LINE | LOCAL_ECHO | LOCAL_CHARS }, { "line-by-line mode (local echoing suppressed)", LINE | LOCAL_CHARS }, { "3270 mode", 0 }, }; #endif /* * Initialize telnet environment. */ init_telnet() { SB_CLEAR(); ClearArray(options); connected = In3270 = ISend = localflow = donebinarytoggle = 0; SYNCHing = 0; /* Don't change NetTrace */ escape = CONTROL(']'); echoc = CONTROL('E'); flushline = 1; telrcv_state = TS_DATA; } #include /*VARARGS*/ static void printring(va_alist) va_dcl { va_list ap; char buffer[100]; /* where things go */ char *ptr; char *format; char *string; Ring *ring; int i; va_start(ap); ring = va_arg(ap, Ring *); format = va_arg(ap, char *); ptr = buffer; while ((i = *format++) != 0) { if (i == '%') { i = *format++; switch (i) { case 'c': *ptr++ = va_arg(ap, int); break; case 's': string = va_arg(ap, char *); ring_supply_data(ring, buffer, ptr-buffer); ring_supply_data(ring, string, strlen(string)); ptr = buffer; break; case 0: ExitString("printring: trailing %%.\n", 1); /*NOTREACHED*/ default: ExitString("printring: unknown format character.\n", 1); /*NOTREACHED*/ } } else { *ptr++ = i; } } ring_supply_data(ring, buffer, ptr-buffer); } /* * These routines are in charge of sending option negotiations * to the other side. * * The basic idea is that we send the negotiation if either side * is in disagreement as to what the current state should be. */ send_do(c, init) register int c, init; { if (init) { if (((do_dont_resp[c] == 0) && my_state_is_do(c)) || my_want_state_is_do(c)) return; set_my_want_state_do(c); do_dont_resp[c]++; } NET2ADD(IAC, DO); NETADD(c); printoption("SENT", "do", c); } void send_dont(c, init) register int c, init; { if (init) { if (((do_dont_resp[c] == 0) && my_state_is_dont(c)) || my_want_state_is_dont(c)) return; set_my_want_state_dont(c); do_dont_resp[c]++; } NET2ADD(IAC, DONT); NETADD(c); printoption("SENT", "dont", c); } void send_will(c, init) register int c, init; { if (init) { if (((will_wont_resp[c] == 0) && my_state_is_will(c)) || my_want_state_is_will(c)) return; set_my_want_state_will(c); will_wont_resp[c]++; } NET2ADD(IAC, WILL); NETADD(c); printoption("SENT", "will", c); } void send_wont(c, init) register int c, init; { if (init) { if (((will_wont_resp[c] == 0) && my_state_is_wont(c)) || my_want_state_is_wont(c)) return; set_my_want_state_wont(c); will_wont_resp[c]++; } NET2ADD(IAC, WONT); NETADD(c); printoption("SENT", "wont", c); } void willoption(option) int option; { char *fmt; int new_state_ok = 0; if (do_dont_resp[option]) { --do_dont_resp[option]; if (do_dont_resp[option] && my_state_is_do(option)) --do_dont_resp[option]; } if ((do_dont_resp[option] == 0) && my_want_state_is_dont(option)) { switch (option) { case TELOPT_ECHO: # if defined(TN3270) /* * The following is a pain in the rear-end. * Various IBM servers (some versions of Wiscnet, * possibly Fibronics/Spartacus, and who knows who * else) will NOT allow us to send "DO SGA" too early * in the setup proceedings. On the other hand, * 4.2 servers (telnetd) won't set SGA correctly. * So, we are stuck. Empirically (but, based on * a VERY small sample), the IBM servers don't send * out anything about ECHO, so we postpone our sending * "DO SGA" until we see "WILL ECHO" (which 4.2 servers * DO send). */ { if (askedSGA == 0) { askedSGA = 1; if (my_want_state_is_dont(TELOPT_SGA)) send_do(TELOPT_SGA, 1); } } /* Fall through */ case TELOPT_EOR: #endif /* defined(TN3270) */ case TELOPT_BINARY: case TELOPT_SGA: settimer(modenegotiated); /* FALL THROUGH */ case TELOPT_STATUS: new_state_ok = 1; break; case TELOPT_TM: if (flushout) flushout = 0; /* * Special case for TM. If we get back a WILL, * pretend we got back a WONT. */ set_my_want_state_dont(option); set_my_state_dont(option); return; /* Never reply to TM will's/wont's */ case TELOPT_LINEMODE: default: break; } if (new_state_ok) { set_my_want_state_do(option); send_do(option, 0); setconnmode(0); /* possibly set new tty mode */ } else { do_dont_resp[option]++; send_dont(option, 0); } } set_my_state_do(option); } void wontoption(option) int option; { char *fmt; if (do_dont_resp[option]) { --do_dont_resp[option]; if (do_dont_resp[option] && my_state_is_dont(option)) --do_dont_resp[option]; } if ((do_dont_resp[option] == 0) && my_want_state_is_do(option)) { switch (option) { #ifdef KLUDGELINEMODE case TELOPT_SGA: if (!kludgelinemode) break; /* FALL THROUGH */ #endif case TELOPT_ECHO: settimer(modenegotiated); break; case TELOPT_TM: if (flushout) flushout = 0; set_my_want_state_dont(option); set_my_state_dont(option); return; /* Never reply to TM will's/wont's */ default: break; } set_my_want_state_dont(option); send_dont(option, 0); setconnmode(0); /* Set new tty mode */ } else if (option == TELOPT_TM) { /* * Special case for TM. */ if (flushout) flushout = 0; set_my_want_state_dont(option); } set_my_state_dont(option); } static void dooption(option) int option; { char *fmt; int new_state_ok = 0; if (will_wont_resp[option]) { --will_wont_resp[option]; if (will_wont_resp[option] && my_state_is_will(option)) --will_wont_resp[option]; } if (will_wont_resp[option] == 0) { if (my_want_state_is_wont(option)) { switch (option) { case TELOPT_TM: /* * Special case for TM. We send a WILL, but pretend * we sent WONT. */ send_will(option, 0); set_my_want_state_wont(TELOPT_TM); set_my_state_wont(TELOPT_TM); return; # if defined(TN3270) case TELOPT_EOR: /* end of record */ # endif /* defined(TN3270) */ case TELOPT_BINARY: /* binary mode */ case TELOPT_NAWS: /* window size */ case TELOPT_TSPEED: /* terminal speed */ case TELOPT_LFLOW: /* local flow control */ case TELOPT_TTYPE: /* terminal type option */ case TELOPT_SGA: /* no big deal */ new_state_ok = 1; break; case TELOPT_LINEMODE: #ifdef KLUDGELINEMODE kludgelinemode = 0; #endif set_my_want_state_will(TELOPT_LINEMODE); send_will(option, 0); set_my_state_will(TELOPT_LINEMODE); slc_init(); return; case TELOPT_ECHO: /* We're never going to echo... */ default: break; } if (new_state_ok) { set_my_want_state_will(option); send_will(option, 0); } else { will_wont_resp[option]++; send_wont(option, 0); } } else { /* * Handle options that need more things done after the * other side has acknowledged the option. */ switch (option) { case TELOPT_LINEMODE: #ifdef KLUDGELINEMODE kludgelinemode = 0; #endif set_my_state_will(option); slc_init(); return; } } } set_my_state_will(option); } static void dontoption(option) int option; { if (will_wont_resp[option]) { --will_wont_resp[option]; if (will_wont_resp[option] && my_state_is_wont(option)) --will_wont_resp[option]; } if ((will_wont_resp[option] == 0) && my_want_state_is_will(option)) { switch (option) { case TELOPT_LINEMODE: linemode = 0; /* put us back to the default state */ break; } /* we always accept a DONT */ set_my_want_state_wont(option); send_wont(option, 0); setconnmode(0); /* Set new tty mode */ } set_my_state_wont(option); } /* * Given a buffer returned by tgetent(), this routine will turn * the pipe seperated list of names in the buffer into an array * of pointers to null terminated names. We toss out any bad, * duplicate, or verbose names (names with spaces). */ static char *unknown[] = { "UNKNOWN", 0 }; char ** mklist(buf, name) char *buf, *name; { register int n; register char c, *cp, **argvp, *cp2, **argv; char *malloc(); if (name) { if (strlen(name) > 40) name = 0; else { unknown[0] = name; upcase(name); } } /* * Count up the number of names. */ for (n = 1, cp = buf; *cp && *cp != ':'; cp++) { if (*cp == '|') n++; } /* * Allocate an array to put the name pointers into */ argv = (char **)malloc((n+3)*sizeof(char *)); if (argv == 0) return(unknown); /* * Fill up the array of pointers to names. */ *argv = 0; argvp = argv+1; n = 0; for (cp = cp2 = buf; (c = *cp); cp++) { if (c == '|' || c == ':') { *cp++ = '\0'; /* * Skip entries that have spaces or are over 40 * characters long. If this is our environment * name, then put it up front. Otherwise, as * long as this is not a duplicate name (case * insensitive) add it to the list. */ if (n || (cp - cp2 > 41)) ; else if (name && (strncasecmp(name, cp2, cp-cp2) == 0)) *argv = cp2; else if (is_unique(cp2, argv+1, argvp)) *argvp++ = cp2; if (c == ':') break; /* * Skip multiple delimiters. Reset cp2 to * the beginning of the next name. Reset n, * the flag for names with spaces. */ while ((c = *cp) == '|') cp++; cp2 = cp; n = 0; } /* * Skip entries with spaces or non-ascii values. * Convert lower case letters to upper case. */ if ((c == ' ') || !isascii(c)) n = 1; else if (islower(c)) *cp = toupper(c); } /* * Check for an old V6 2 character name. If the second * name points to the beginning of the buffer, and is * only 2 characters long, move it to the end of the array. */ if ((argv[1] == buf) && (strlen(argv[1]) == 2)) { *argvp++ = buf; cp = *argv++; *argv = cp; } /* * Duplicate last name, for TTYPE option, and null * terminate the array. If we didn't find a match on * our terminal name, put that name at the beginning. */ cp = *(argvp-1); *argvp++ = cp; *argvp = 0; if (*argv == 0) { if (name) *argv = name; else argv++; } if (*argv) return(argv); else return(unknown); } is_unique(name, as, ae) register char *name, **as, **ae; { register char **ap; register int n; n = strlen(name) + 1; for (ap = as; ap < ae; ap++) if (strncasecmp(*ap, name, n) == 0) return(0); return (1); } #ifdef TERMCAP char termbuf[1024]; setupterm(tname, fd, errp) char *tname; int fd, *errp; { if (tgetent(termbuf, tname) == 1) { termbuf[1023] = '\0'; if (errp) *errp = 1; return(0); } if (errp) *errp = 0; return(-1); } #else #define termbuf ttytype extern char ttytype[]; #endif char * gettermname() { char *tname; static int first = 1; static char **tnamep; static char **next; char *getenv(); int err; if (first) { first = 0; if ((tname = getenv("TERM")) && (setupterm(tname, 1, &err) == 0)) { tnamep = mklist(termbuf, tname); } else { if (tname && (strlen(tname) <= 40)) { unknown[0] = tname; upcase(tname); } tnamep = unknown; } next = tnamep; } if (*next == 0) next = tnamep; return(*next++); } /* * suboption() * * Look at the sub-option buffer, and try to be helpful to the other * side. * * Currently we recognize: * * Terminal type, send request. * Terminal speed (send request). * Local flow control (is request). * Linemode */ static void suboption() { printsub('<', subbuffer, subend-subbuffer+2); switch (subbuffer[0]&0xff) { case TELOPT_TTYPE: if (my_want_state_is_wont(TELOPT_TTYPE)) return; if ((subbuffer[1]&0xff) != TELQUAL_SEND) { ; } else { char *name; extern char *getenv(); char temp[50]; int len; #if defined(TN3270) if (tn3270_ttype()) { return; } #endif /* defined(TN3270) */ name = gettermname(); len = strlen(name) + 4 + 2; if (len < NETROOM()) { sprintf(temp, "%c%c%c%c%s%c%c", IAC, SB, TELOPT_TTYPE, TELQUAL_IS, name, IAC, SE); ring_supply_data(&netoring, temp, len); printsub('>', &temp[2], len-2); } else { ExitString("No room in buffer for terminal type.\n", 1); /*NOTREACHED*/ } } break; case TELOPT_TSPEED: if (my_want_state_is_wont(TELOPT_TSPEED)) return; if ((subbuffer[1]&0xff) == TELQUAL_SEND) { long ospeed,ispeed; char temp[50]; int len; TerminalSpeeds(&ispeed, &ospeed); sprintf(temp, "%c%c%c%c%d,%d%c%c", IAC, SB, TELOPT_TSPEED, TELQUAL_IS, ospeed, ispeed, IAC, SE); len = strlen(temp+4) + 4; /* temp[3] is 0 ... */ if (len < NETROOM()) { ring_supply_data(&netoring, temp, len); printsub('>', temp+2, len - 2); } } break; case TELOPT_LFLOW: if (my_want_state_is_wont(TELOPT_LFLOW)) return; if ((subbuffer[1]&0xff) == 1) { localflow = 1; } else if ((subbuffer[1]&0xff) == 0) { localflow = 0; } setcommandmode(); setconnmode(0); break; case TELOPT_LINEMODE: if (my_want_state_is_wont(TELOPT_LINEMODE)) return; switch (subbuffer[1]&0xff) { case WILL: lm_will(&subbuffer[2], subend - &subbuffer[2]); break; case WONT: lm_wont(&subbuffer[2], subend - &subbuffer[2]); break; case DO: lm_do(&subbuffer[2], subend - &subbuffer[2]); break; case DONT: lm_dont(&subbuffer[2], subend - &subbuffer[2]); break; case LM_SLC: slc(&subbuffer[2], subend - &subbuffer[2]); break; case LM_MODE: lm_mode(&subbuffer[2], subend - &subbuffer[2], 0); break; default: break; } break; default: break; } } static char str_lm[] = { IAC, SB, TELOPT_LINEMODE, 0, 0, IAC, SE }; lm_will(cmd, len) char *cmd; { switch(cmd[0]) { case LM_FORWARDMASK: /* We shouldn't ever get this... */ default: str_lm[3] = DONT; str_lm[4] = cmd[0]; if (NETROOM() > sizeof(str_lm)) { ring_supply_data(&netoring, str_lm, sizeof(str_lm)); printsub('>', &str_lm[2], sizeof(str_lm)-2); } /*@*/ else printf("lm_will: not enough room in buffer\n"); break; } } lm_wont(cmd, len) char *cmd; { switch(cmd[0]) { case LM_FORWARDMASK: /* We shouldn't ever get this... */ default: /* We are always DONT, so don't respond */ return; } } lm_do(cmd, len) char *cmd; { switch(cmd[0]) { case LM_FORWARDMASK: default: str_lm[3] = WONT; str_lm[4] = cmd[0]; if (NETROOM() > sizeof(str_lm)) { ring_supply_data(&netoring, str_lm, sizeof(str_lm)); printsub('>', &str_lm[2], sizeof(str_lm)-2); } /*@*/ else printf("lm_do: not enough room in buffer\n"); break; } } lm_dont(cmd, len) char *cmd; { switch(cmd[0]) { case LM_FORWARDMASK: default: /* we are always WONT, so don't respond */ break; } } static char str_lm_mode[] = { IAC, SB, TELOPT_LINEMODE, LM_MODE, 0, IAC, SE }; lm_mode(cmd, len, init) char *cmd; int len, init; { if (len != 1) return; if ((linemode&(MODE_EDIT|MODE_TRAPSIG)) == *cmd) return; if (*cmd&MODE_ACK) return; linemode = (*cmd&(MODE_EDIT|MODE_TRAPSIG)); str_lm_mode[4] = linemode; if (!init) str_lm_mode[4] |= MODE_ACK; if (NETROOM() > sizeof(str_lm_mode)) { ring_supply_data(&netoring, str_lm_mode, sizeof(str_lm_mode)); printsub('>', &str_lm_mode[2], sizeof(str_lm_mode)-2); } /*@*/ else printf("lm_mode: not enough room in buffer\n"); setconnmode(0); /* set changed mode */ } /* * slc() * Handle special character suboption of LINEMODE. */ struct spc { cc_t val; cc_t *valp; char flags; /* Current flags & level */ char mylevel; /* Maximum level & flags */ } spc_data[NSLC+1]; #define SLC_IMPORT 0 #define SLC_EXPORT 1 #define SLC_RVALUE 2 static int slc_mode = SLC_EXPORT; slc_init() { register struct spc *spcp; extern cc_t *tcval(); localchars = 1; for (spcp = spc_data; spcp < &spc_data[NSLC+1]; spcp++) { spcp->val = 0; spcp->valp = 0; spcp->flags = spcp->mylevel = SLC_NOSUPPORT; } #define initfunc(func, flags) { \ spcp = &spc_data[func]; \ if (spcp->valp = tcval(func)) { \ spcp->val = *spcp->valp; \ spcp->mylevel = SLC_VARIABLE|flags; \ } else { \ spcp->val = 0; \ spcp->mylevel = SLC_DEFAULT; \ } \ } initfunc(SLC_SYNCH, 0); /* No BRK */ initfunc(SLC_AO, 0); initfunc(SLC_AYT, 0); /* No EOR */ initfunc(SLC_ABORT, SLC_FLUSHIN|SLC_FLUSHOUT); initfunc(SLC_EOF, 0); #ifndef SYSV_TERMIO initfunc(SLC_SUSP, SLC_FLUSHIN); #endif initfunc(SLC_EC, 0); initfunc(SLC_EL, 0); #ifndef SYSV_TERMIO initfunc(SLC_EW, 0); initfunc(SLC_RP, 0); initfunc(SLC_LNEXT, 0); #endif initfunc(SLC_XON, 0); initfunc(SLC_XOFF, 0); #ifdef SYSV_TERMIO spc_data[SLC_XON].mylevel = SLC_CANTCHANGE; spc_data[SLC_XOFF].mylevel = SLC_CANTCHANGE; #endif /* No FORW1 */ /* No FORW2 */ initfunc(SLC_IP, SLC_FLUSHIN|SLC_FLUSHOUT); #undef initfunc if (slc_mode == SLC_EXPORT) slc_export(); else slc_import(1); } slcstate() { printf("Special characters are %s values\n", slc_mode == SLC_IMPORT ? "remote default" : slc_mode == SLC_EXPORT ? "local" : "remote"); } slc_mode_export() { slc_mode = SLC_EXPORT; if (my_state_is_will(TELOPT_LINEMODE)) slc_export(); } slc_mode_import(def) { slc_mode = def ? SLC_IMPORT : SLC_RVALUE; if (my_state_is_will(TELOPT_LINEMODE)) slc_import(def); } char slc_import_val[] = { IAC, SB, TELOPT_LINEMODE, LM_SLC, 0, SLC_VARIABLE, 0, IAC, SE }; char slc_import_def[] = { IAC, SB, TELOPT_LINEMODE, LM_SLC, 0, SLC_DEFAULT, 0, IAC, SE }; slc_import(def) int def; { if (NETROOM() > sizeof(slc_import_val)) { if (def) { ring_supply_data(&netoring, slc_import_def, sizeof(slc_import_def)); printsub('>', &slc_import_def[2], sizeof(slc_import_def)-2); } else { ring_supply_data(&netoring, slc_import_val, sizeof(slc_import_val)); printsub('>', &slc_import_val[2], sizeof(slc_import_val)-2); } } /*@*/ else printf("slc_import: not enough room\n"); } slc_export() { register struct spc *spcp; TerminalDefaultChars(); slc_start_reply(); for (spcp = &spc_data[1]; spcp < &spc_data[NSLC+1]; spcp++) { if (spcp->mylevel != SLC_NOSUPPORT) { spcp->flags = spcp->mylevel; if (spcp->valp) spcp->val = *spcp->valp; slc_add_reply(spcp - spc_data, spcp->mylevel, spcp->val); } } slc_end_reply(); if (slc_update()) setconnmode(1); /* set the new character values */ } slc(cp, len) register char *cp; int len; { register struct spc *spcp; register int func,level; slc_start_reply(); for (; len >= 3; len -=3, cp +=3) { func = cp[SLC_FUNC]; if (func == 0) { /* * Client side: always ignore 0 function. */ continue; } if (func > NSLC) { if (cp[SLC_FLAGS] & SLC_LEVELBITS != SLC_NOSUPPORT) slc_add_reply(func, SLC_NOSUPPORT, 0); continue; } spcp = &spc_data[func]; level = cp[SLC_FLAGS]&(SLC_LEVELBITS|SLC_ACK); if ((cp[SLC_VALUE] == (unsigned char)spcp->val) && ((level&SLC_LEVELBITS) == (spcp->flags&SLC_LEVELBITS))) { continue; } if (level == (SLC_DEFAULT|SLC_ACK)) { /* * This is an error condition, the SLC_ACK * bit should never be set for the SLC_DEFAULT * level. Our best guess to recover is to * ignore the SLC_ACK bit. */ cp[SLC_FLAGS] &= ~SLC_ACK; } if (level == ((spcp->flags&SLC_LEVELBITS)|SLC_ACK)) { spcp->val = (cc_t)cp[SLC_VALUE]; spcp->flags = cp[SLC_FLAGS]; /* include SLC_ACK */ continue; } level &= ~SLC_ACK; if (level <= (spcp->mylevel&SLC_LEVELBITS)) { spcp->flags = cp[SLC_FLAGS]|SLC_ACK; spcp->val = (cc_t)cp[SLC_VALUE]; } if (level == SLC_DEFAULT) { if ((spcp->mylevel&SLC_LEVELBITS) != SLC_DEFAULT) spcp->flags = spcp->mylevel; else spcp->flags = SLC_NOSUPPORT; } slc_add_reply(func, spcp->flags, spcp->val); } slc_end_reply(); if (slc_update()) setconnmode(1); /* set the new character values */ } slc_check() { register struct spc *spcp; slc_start_reply(); for (spcp = &spc_data[1]; spcp < &spc_data[NSLC+1]; spcp++) { if (spcp->valp && spcp->val != *spcp->valp) { spcp->val = *spcp->valp; slc_add_reply(spcp - spc_data, spcp->mylevel, spcp->val); } } slc_end_reply(); setconnmode(1); } unsigned char slc_reply[128]; unsigned char *slc_replyp; slc_start_reply() { slc_replyp = slc_reply; *slc_replyp++ = IAC; *slc_replyp++ = SB; *slc_replyp++ = TELOPT_LINEMODE; *slc_replyp++ = LM_SLC; } slc_add_reply(func, flags, value) char func; char flags; cc_t value; { if ((*slc_replyp++ = func) == IAC) *slc_replyp++ = IAC; if ((*slc_replyp++ = flags) == IAC) *slc_replyp++ = IAC; if ((*slc_replyp++ = (unsigned char)value) == IAC) *slc_replyp++ = IAC; } slc_end_reply() { register char *cp; register int len; *slc_replyp++ = IAC; *slc_replyp++ = SE; len = slc_replyp - slc_reply; if (len <= 6) return; if (NETROOM() > len) { ring_supply_data(&netoring, slc_reply, slc_replyp - slc_reply); printsub('>', &slc_reply[2], slc_replyp - slc_reply - 2); } /*@*/else printf("slc_end_reply: not enough room\n"); } slc_update() { register struct spc *spcp; int need_update = 0; for (spcp = &spc_data[1]; spcp < &spc_data[NSLC+1]; spcp++) { if (!(spcp->flags&SLC_ACK)) continue; spcp->flags &= ~SLC_ACK; if (spcp->valp && (*spcp->valp != spcp->val)) { *spcp->valp = spcp->val; need_update = 1; } } return(need_update); } int telrcv() { register int c; register int scc; register char *sbp; int count; int returnValue = 0; scc = 0; count = 0; while (TTYROOM() > 2) { if (scc == 0) { if (count) { ring_consumed(&netiring, count); returnValue = 1; count = 0; } sbp = netiring.consume; scc = ring_full_consecutive(&netiring); if (scc == 0) { /* No more data coming in */ break; } } c = *sbp++ & 0xff, scc--; count++; switch (telrcv_state) { case TS_CR: telrcv_state = TS_DATA; if (c == '\0') { break; /* Ignore \0 after CR */ } else if ((c == '\n') && my_want_state_is_dont(TELOPT_ECHO) && !crmod) { TTYADD(c); break; } /* Else, fall through */ case TS_DATA: if (c == IAC) { telrcv_state = TS_IAC; break; } # if defined(TN3270) if (In3270) { *Ifrontp++ = c; while (scc > 0) { c = *sbp++ & 0377, scc--; count++; if (c == IAC) { telrcv_state = TS_IAC; break; } *Ifrontp++ = c; } } else # endif /* defined(TN3270) */ /* * The 'crmod' hack (see following) is needed * since we can't * set CRMOD on output only. * Machines like MULTICS like to send \r without * \n; since we must turn off CRMOD to get proper * input, the mapping is done here (sigh). */ if ((c == '\r') && my_want_state_is_dont(TELOPT_BINARY)) { if (scc > 0) { c = *sbp&0xff; if (c == 0) { sbp++, scc--; count++; /* a "true" CR */ TTYADD('\r'); } else if (my_want_state_is_dont(TELOPT_ECHO) && (c == '\n')) { sbp++, scc--; count++; TTYADD('\n'); } else { TTYADD('\r'); if (crmod) { TTYADD('\n'); } } } else { telrcv_state = TS_CR; TTYADD('\r'); if (crmod) { TTYADD('\n'); } } } else { TTYADD(c); } continue; case TS_IAC: process_iac: switch (c) { case WILL: telrcv_state = TS_WILL; continue; case WONT: telrcv_state = TS_WONT; continue; case DO: telrcv_state = TS_DO; continue; case DONT: telrcv_state = TS_DONT; continue; case DM: /* * We may have missed an urgent notification, * so make sure we flush whatever is in the * buffer currently. */ SYNCHing = 1; ttyflush(1); SYNCHing = stilloob(); settimer(gotDM); break; case NOP: case GA: break; case SB: SB_CLEAR(); telrcv_state = TS_SB; printoption("RCVD", "IAC", SB); continue; # if defined(TN3270) case EOR: if (In3270) { Ibackp += DataFromNetwork(Ibackp, Ifrontp-Ibackp, 1); if (Ibackp == Ifrontp) { Ibackp = Ifrontp = Ibuf; ISend = 0; /* should have been! */ } else { ISend = 1; } } break; # endif /* defined(TN3270) */ case IAC: # if !defined(TN3270) TTYADD(IAC); # else /* !defined(TN3270) */ if (In3270) { *Ifrontp++ = IAC; } else { TTYADD(IAC); } # endif /* !defined(TN3270) */ break; default: break; } telrcv_state = TS_DATA; continue; case TS_WILL: printoption("RCVD", "will", c); willoption(c); SetIn3270(); telrcv_state = TS_DATA; continue; case TS_WONT: printoption("RCVD", "wont", c); wontoption(c); SetIn3270(); telrcv_state = TS_DATA; continue; case TS_DO: printoption("RCVD", "do", c); dooption(c); SetIn3270(); if (c == TELOPT_NAWS) { sendnaws(); } else if (c == TELOPT_LFLOW) { localflow = 1; setcommandmode(); setconnmode(0); } telrcv_state = TS_DATA; continue; case TS_DONT: printoption("RCVD", "dont", c); dontoption(c); flushline = 1; setconnmode(0); /* set new tty mode (maybe) */ SetIn3270(); telrcv_state = TS_DATA; continue; case TS_SB: if (c == IAC) { telrcv_state = TS_SE; } else { SB_ACCUM(c); } continue; case TS_SE: if (c != SE) { if (c != IAC) { /* * This is an error. We only expect to get * "IAC IAC" or "IAC SE". Several things may * have happend. An IAC was not doubled, the * IAC SE was left off, or another option got * inserted into the suboption are all possibilities. * If we assume that the IAC was not doubled, * and really the IAC SE was left off, we could * get into an infinate loop here. So, instead, * we terminate the suboption, and process the * partial suboption if we can. */ SB_TERM(); SB_ACCUM(IAC); SB_ACCUM(c); printoption("In SUBOPTION processing, RCVD", "IAC", c); suboption(); /* handle sub-option */ SetIn3270(); telrcv_state = TS_IAC; goto process_iac; } SB_ACCUM(c); telrcv_state = TS_SB; } else { SB_TERM(); SB_ACCUM(IAC); SB_ACCUM(SE); suboption(); /* handle sub-option */ SetIn3270(); telrcv_state = TS_DATA; } } } if (count) ring_consumed(&netiring, count); return returnValue||count; } static int telsnd() { int tcc; int count; int returnValue = 0; char *tbp; tcc = 0; count = 0; while (NETROOM() > 2) { register int sc; register int c; if (tcc == 0) { if (count) { ring_consumed(&ttyiring, count); returnValue = 1; count = 0; } tbp = ttyiring.consume; tcc = ring_full_consecutive(&ttyiring); if (tcc == 0) { break; } } c = *tbp++ & 0xff, sc = strip(c), tcc--; count++; if (sc == escape) { /* * Double escape is a pass through of a single escape character. */ if (tcc && strip(*tbp) == escape) { tbp++; tcc--; count++; } else { command(0, tbp, tcc); count += tcc; tcc = 0; flushline = 1; break; } } #ifdef KLUDGELINEMODE if (kludgelinemode && (globalmode&MODE_EDIT) && (sc == echoc)) { if (tcc > 0 && strip(*tbp) == echoc) { tcc--; tbp++; count++; } else { dontlecho = !dontlecho; settimer(echotoggle); setconnmode(0); flushline = 1; break; } } #endif if (MODE_LOCAL_CHARS(globalmode)) { if (TerminalSpecialChars(sc) == 0) { break; } } if (my_want_state_is_wont(TELOPT_BINARY)) { switch (c) { case '\n': /* * If we are in CRMOD mode (\r ==> \n) * on our local machine, then probably * a newline (unix) is CRLF (TELNET). */ if (MODE_LOCAL_CHARS(globalmode)) { NETADD('\r'); } NETADD('\n'); flushline = 1; break; case '\r': if (!crlf) { NET2ADD('\r', '\0'); } else { NET2ADD('\r', '\n'); } flushline = 1; break; case IAC: NET2ADD(IAC, IAC); break; default: NETADD(c); break; } } else if (c == IAC) { NET2ADD(IAC, IAC); } else { NETADD(c); } } if (count) ring_consumed(&ttyiring, count); return returnValue||count; /* Non-zero if we did anything */ } /* * Scheduler() * * Try to do something. * * If we do something useful, return 1; else return 0. * */ int Scheduler(block) int block; /* should we block in the select ? */ { /* One wants to be a bit careful about setting returnValue * to one, since a one implies we did some useful work, * and therefore probably won't be called to block next * time (TN3270 mode only). */ int returnValue; int netin, netout, netex, ttyin, ttyout; /* Decide which rings should be processed */ netout = ring_full_count(&netoring) && (flushline || (my_want_state_is_wont(TELOPT_LINEMODE) #ifdef KLUDGELINEMODE && (!kludgelinemode || my_want_state_is_do(TELOPT_SGA)) #endif ) || my_want_state_is_will(TELOPT_BINARY)); ttyout = ring_full_count(&ttyoring); #if defined(TN3270) ttyin = ring_empty_count(&ttyiring) && (shell_active == 0); #else /* defined(TN3270) */ ttyin = ring_empty_count(&ttyiring); #endif /* defined(TN3270) */ #if defined(TN3270) netin = ring_empty_count(&netiring); # else /* !defined(TN3270) */ netin = !ISend && ring_empty_count(&netiring); # endif /* !defined(TN3270) */ netex = !SYNCHing; /* If we have seen a signal recently, reset things */ # if defined(TN3270) && defined(unix) if (HaveInput) { HaveInput = 0; signal(SIGIO, inputAvailable); } #endif /* defined(TN3270) && defined(unix) */ /* Call to system code to process rings */ returnValue = process_rings(netin, netout, netex, ttyin, ttyout, !block); /* Now, look at the input rings, looking for work to do. */ if (ring_full_count(&ttyiring)) { # if defined(TN3270) if (In3270) { int c; c = DataFromTerminal(ttyiring.consume, ring_full_consecutive(&ttyiring)); if (c) { returnValue = 1; ring_consumed(&ttyiring, c); } } else { # endif /* defined(TN3270) */ returnValue |= telsnd(); # if defined(TN3270) } # endif /* defined(TN3270) */ } if (ring_full_count(&netiring)) { # if !defined(TN3270) returnValue |= telrcv(); # else /* !defined(TN3270) */ returnValue = Push3270(); # endif /* !defined(TN3270) */ } return returnValue; } /* * Select from tty and network... */ void telnet() { sys_telnet_init(); # if !defined(TN3270) if (telnetport) { send_do(TELOPT_SGA, 1); send_will(TELOPT_TTYPE, 1); send_will(TELOPT_NAWS, 1); send_will(TELOPT_TSPEED, 1); send_will(TELOPT_LFLOW, 1); send_will(TELOPT_LINEMODE, 1); send_do(TELOPT_STATUS, 1); } # endif /* !defined(TN3270) */ # if !defined(TN3270) for (;;) { int schedValue; while ((schedValue = Scheduler(0)) != 0) { if (schedValue == -1) { setcommandmode(); return; } } if (Scheduler(1) == -1) { setcommandmode(); return; } } # else /* !defined(TN3270) */ for (;;) { int schedValue; while (!In3270 && !shell_active) { if (Scheduler(1) == -1) { setcommandmode(); return; } } while ((schedValue = Scheduler(0)) != 0) { if (schedValue == -1) { setcommandmode(); return; } } /* If there is data waiting to go out to terminal, don't * schedule any more data for the terminal. */ if (ring_full_count(&ttyoring)) { schedValue = 1; } else { if (shell_active) { if (shell_continue() == 0) { ConnectScreen(); } } else if (In3270) { schedValue = DoTerminalOutput(); } } if (schedValue && (shell_active == 0)) { if (Scheduler(1) == -1) { setcommandmode(); return; } } } # endif /* !defined(TN3270) */ } #if 0 /* XXX - this not being in is a bug */ /* * nextitem() * * Return the address of the next "item" in the TELNET data * stream. This will be the address of the next character if * the current address is a user data character, or it will * be the address of the character following the TELNET command * if the current address is a TELNET IAC ("I Am a Command") * character. */ static char * nextitem(current) char *current; { if ((*current&0xff) != IAC) { return current+1; } switch (*(current+1)&0xff) { case DO: case DONT: case WILL: case WONT: return current+3; case SB: /* loop forever looking for the SE */ { register char *look = current+2; for (;;) { if ((*look++&0xff) == IAC) { if ((*look++&0xff) == SE) { return look; } } } } default: return current+2; } } #endif /* 0 */ /* * netclear() * * We are about to do a TELNET SYNCH operation. Clear * the path to the network. * * Things are a bit tricky since we may have sent the first * byte or so of a previous TELNET command into the network. * So, we have to scan the network buffer from the beginning * until we are up to where we want to be. * * A side effect of what we do, just to keep things * simple, is to clear the urgent data pointer. The principal * caller should be setting the urgent data pointer AFTER calling * us in any case. */ static void netclear() { #if 0 /* XXX */ register char *thisitem, *next; char *good; #define wewant(p) ((nfrontp > p) && ((*p&0xff) == IAC) && \ ((*(p+1)&0xff) != EC) && ((*(p+1)&0xff) != EL)) thisitem = netobuf; while ((next = nextitem(thisitem)) <= netobuf.send) { thisitem = next; } /* Now, thisitem is first before/at boundary. */ good = netobuf; /* where the good bytes go */ while (netoring.add > thisitem) { if (wewant(thisitem)) { int length; next = thisitem; do { next = nextitem(next); } while (wewant(next) && (nfrontp > next)); length = next-thisitem; memcpy(good, thisitem, length); good += length; thisitem = next; } else { thisitem = nextitem(thisitem); } } #endif /* 0 */ } /* * These routines add various telnet commands to the data stream. */ static void doflush() { NET2ADD(IAC, DO); NETADD(TELOPT_TM); flushline = 1; flushout = 1; ttyflush(1); /* Flush/drop output */ /* do printoption AFTER flush, otherwise the output gets tossed... */ printoption("SENT", "do", TELOPT_TM); } void xmitAO() { NET2ADD(IAC, AO); printoption("SENT", "IAC", AO); if (autoflush) { doflush(); } } void xmitEL() { NET2ADD(IAC, EL); printoption("SENT", "IAC", EL); } void xmitEC() { NET2ADD(IAC, EC); printoption("SENT", "IAC", EC); } #if defined(NOT43) int #else /* defined(NOT43) */ void #endif /* defined(NOT43) */ dosynch() { netclear(); /* clear the path to the network */ NETADD(IAC); setneturg(); NETADD(DM); printoption("SENT", "IAC", DM); #if defined(NOT43) return 0; #endif /* defined(NOT43) */ } void get_status() { char tmp[16]; register char *cp; if (my_want_state_is_dont(TELOPT_STATUS)) { printf("Remote side does not support STATUS option\n"); return; } if (!showoptions) printf("You will not see the response unless you set \"options\"\n"); cp = tmp; *cp++ = IAC; *cp++ = SB; *cp++ = TELOPT_STATUS; *cp++ = TELQUAL_SEND; *cp++ = IAC; *cp++ = SE; if (NETROOM() >= cp - tmp) { ring_supply_data(&netoring, tmp, cp-tmp); printsub('>', tmp+2, cp - tmp - 2); } } void intp() { NET2ADD(IAC, IP); printoption("SENT", "IAC", IP); flushline = 1; if (autoflush) { doflush(); } if (autosynch) { dosynch(); } } void sendbrk() { NET2ADD(IAC, BREAK); printoption("SENT", "IAC", BREAK); flushline = 1; if (autoflush) { doflush(); } if (autosynch) { dosynch(); } } void sendabort() { NET2ADD(IAC, ABORT); printoption("SENT", "IAC", ABORT); flushline = 1; if (autoflush) { doflush(); } if (autosynch) { dosynch(); } } void sendsusp() { NET2ADD(IAC, SUSP); printoption("SENT", "IAC", SUSP); flushline = 1; if (autoflush) { doflush(); } if (autosynch) { dosynch(); } } void sendeof() { NET2ADD(IAC, xEOF); printoption("SENT", "IAC", xEOF); } /* * Send a window size update to the remote system. */ void sendnaws() { long rows, cols; unsigned char tmp[16]; register unsigned char *cp; if (my_state_is_wont(TELOPT_NAWS)) return; #define PUTSHORT(cp, x) { if ((*cp++ = ((x)>>8)&0xff) == IAC) *cp++ = IAC; \ if ((*cp++ = ((x))&0xff) == IAC) *cp++ = IAC; } if (TerminalWindowSize(&rows, &cols) == 0) { /* Failed */ return; } cp = tmp; *cp++ = IAC; *cp++ = SB; *cp++ = TELOPT_NAWS; PUTSHORT(cp, cols); PUTSHORT(cp, rows); *cp++ = IAC; *cp++ = SE; if (NETROOM() >= cp - tmp) { ring_supply_data(&netoring, tmp, cp-tmp); printsub('>', tmp+2, cp - tmp - 2); } } tel_enter_binary(rw) int rw; { if (rw&1) send_do(TELOPT_BINARY, 1); if (rw&2) send_will(TELOPT_BINARY, 1); } tel_leave_binary(rw) int rw; { if (rw&1) send_dont(TELOPT_BINARY, 1); if (rw&2) send_wont(TELOPT_BINARY, 1); }