#include "ckcsym.h" char *connv = "CONNECT Command for UNIX:select(), 9.0.139, 1 Mar 2010"; /* C K U C N S -- Terminal connection to remote system, for UNIX */ /* Author: Frank da Cruz , Columbia University Academic Information Systems, New York City. Copyright (C) 1985, 2010, Trustees of Columbia University in the City of New York. All rights reserved. See the C-Kermit COPYING.TXT file or the copyright text in the ckcmai.c module for disclaimer and permissions. */ /* This version of the UNIX CONNECT module uses select(), which is required for Kerberos encryption. Thus it can be used only on UNIX systems that support select() on both TCP/IP and serial connections. A separate module that uses a completely portable fork() structure can be used on systems where select() is not available or does not work as required. */ #include "ckcdeb.h" /* Common things first */ #ifndef NOLOCAL #ifdef OSF13 #ifdef CK_ANSIC #ifdef _NO_PROTO #undef _NO_PROTO #endif /* _NO_PROTO */ #endif /* CK_ANSIC */ #endif /* OSF13 */ #include /* Error numbers */ #ifndef NOTIMEH #include /* For FD_blah */ #ifdef SYSTIMEH /* (IRIX 5.3) */ #include #endif /* SYSTIMEH */ #endif /* NOTIMEH */ #ifdef BSD42HACK /* Why is this necessary? */ #ifndef DCLTIMEVAL #define DCLTIMEVAL #endif /* DCLTIMEVAL */ #endif /* BSD42HACK */ /* Kermit-specific includes */ #include "ckcasc.h" /* ASCII characters */ #include "ckcker.h" /* Kermit things */ #include "ckucmd.h" /* For xxesc() prototype */ #include "ckcnet.h" /* Network symbols */ #ifndef NOCSETS #include "ckcxla.h" /* Character set translation */ #endif /* NOCSETS */ #ifdef BEBOX #include #include #include #endif /* BEBOX */ #include /* Signals */ /* All the following is for select()... */ #ifdef CKTIDLE /* Timeouts only for SET TERM IDLE */ #ifndef DCLTIMEVAL #ifdef UNIXWARE #ifndef UW7 #define DCLTIMEVAL #endif /* UW7 */ #endif /* UNIXWARE */ #endif /* DCLTIMEVAL */ #ifdef DCLTIMEVAL /* Declare timeval ourselves */ struct timeval { long tv_sec; long tv_usec; }; #else /* !DCLTIMEVAL */ #ifndef NOSYSTIMEBH #ifdef SYSTIMEBH #include #endif /* SYSTIMEBH */ #endif /* NOSYSTIMEBH */ #endif /* DCLTIMEVAL */ #endif /* CKTIDLE */ #ifndef SCO_OSR504 #ifdef SELECT_H #include #endif /* SELECT_H */ #endif /* SCO_OSR504 */ #ifndef FD_SETSIZE #ifdef CK_FORWARD_X #define FD_SETSIZE 256 #else #define FD_SETSIZE 32 #endif /* CK_FORWARD_X */ #endif /* FD_SETSIZE */ #ifdef HPUX #ifndef HPUX10 #ifndef HPUX1100 /* The three interior args to select() are (int *) rather than (fd_set *) */ #ifndef INTSELECT #define INTSELECT #endif /* INTSELECT */ #endif /* HPUX1100 */ #endif /* HPUX10 */ #endif /* HPUX */ /* Internal function prototypes */ #ifdef NEWFTP #endif /* NEWFTP */ _PROTOTYP( VOID ttflux, (void) ); _PROTOTYP( VOID doesc, (char) ); _PROTOTYP( int hconne, (void) ); #ifndef NOSHOW _PROTOTYP( VOID shomdm, (void) ); #endif /* NOSHOW */ _PROTOTYP( static int kbget, (void) ); _PROTOTYP( static int ckcputf, (void) ); /* External variables */ extern struct ck_p ptab[]; extern int local, escape, duplex, parity, flow, seslog, sessft, debses, mdmtyp, ttnproto, cmask, cmdmsk, network, nettype, sosi, tnlm, xitsta, what, ttyfd, ttpipe, quiet, backgrd, pflag, tt_crd, tt_lfd, tn_nlm, ttfdflg, tt_escape, justone, carrier, ttpty, hwparity; #ifndef NODIAL extern int dialmhu, dialsta; #endif /* NODIAL */ #ifdef CKLEARN extern FILE * learnfp; extern int learning; static ULONG learnt1; static char learnbuf[LEARNBUFSIZ] = { NUL, NUL }; static int learnbc = 0; static int learnbp = 0; static int learnst = 0; #endif /* CKLEARN */ extern long speed; extern char ttname[], sesfil[], myhost[], *ccntab[]; #ifdef TNCODE extern int tn_b_nlm, tn_rem_echo; #endif /* TNCODE */ #ifdef CK_TRIGGER extern char * tt_trigger[], * triggerval; #endif /* CK_TRIGGER */ #ifdef CKTIDLE extern int tt_idlelimit, tt_idleact; extern char * tt_idlestr; static int idlelimit = 0; #endif /* CKTIDLE */ extern int cx_status; /* CONNECT status code */ extern int nopush; #ifdef CK_APC extern int apcactive; /* Application Program Command (APC) */ extern int apcstatus; /* items ... */ static int apclength = 0; #ifdef DCMDBUF extern char *apcbuf; #else extern char apcbuf[]; #endif /* DCMDBUF */ static int apcbuflen = APCBUFLEN - 2; extern int protocol; #endif /* CK_APC */ #ifndef NOXFER extern int autodl; /* Auto download */ #endif /* NOXFER */ #ifdef CK_AUTODL extern CHAR ksbuf[]; extern CHAR stchr; extern int kstartactive; #endif /* CK_AUTODL */ #ifdef CK_ENCRYPTION extern int me_auth; #endif /* CK_ENCRYPTION */ #ifdef CK_XYZ #ifdef XYZ_INTERNAL static int zmdlok = 1; /* Zmodem autodownloads available */ #else static int zmdlok = 0; /* Depends on external protocol def */ #endif /* XYZ_INTERNAL */ #else static int zmdlok = 0; /* Not available at all */ #endif /* CK_XYZ */ #ifndef NOSETKEY /* Keyboard mapping */ extern KEY *keymap; /* Single-character key map */ extern MACRO *macrotab; /* Key macro pointer table */ static MACRO kmptr = NULL; /* Pointer to current key macro */ #endif /* NOSETKEY */ /* Global variables local to this module */ static int active = 0, quitnow = 0, /* Q was typed */ dohangup = 0, /* H was typed */ inshift = 0, /* SO/SI shift states */ outshift = 0; static char ecbuf[10], *ecbp; /* Escape char buffer & pointer */ #ifdef CK_SMALL #define IBUFL 1536 /* Input buffer length */ #else #define IBUFL 4096 #endif /* CK_SMALL */ static int obc = 0; /* Output buffer count */ #ifndef OXOS #define OBUFL 1024 /* Output buffer length */ #else #define OBUFL IBUFL #endif /* OXOS */ #ifdef BIGBUFOK #define TMPLEN 4096 /* Temporary message buffer length */ #else #define TMPLEN 200 #endif /* BIGBUFOK */ #ifdef DYNAMIC static char *ibuf = NULL, *obuf = NULL, *temp = NULL; /* Buffers */ #else static char ibuf[IBUFL], obuf[OBUFL], temp[TMPLEN]; #endif /* DYNAMIC */ #ifdef TNCODE static char tnopt[4]; #endif /* TNCODE */ #ifdef DYNAMIC static char *ibp; /* Input buffer pointer */ #else static char *ibp = ibuf; /* Input buffer pointer */ #endif /*DYNAMIC */ static int ibc = 0; /* Input buffer count */ #ifdef DYNAMIC static char *obp; /* Output buffer pointer */ #else static char *obp = obuf; /* Output buffer pointer */ #endif /* DYNAMIC */ /* Character-set items */ static int unicode = 0; #ifndef NOCSETS #ifdef CK_ANSIC /* ANSI C prototypes... */ extern CHAR (*xls[MAXTCSETS+1][MAXFCSETS+1])(CHAR); /* Character set */ extern CHAR (*xlr[MAXTCSETS+1][MAXFCSETS+1])(CHAR); /* translation functions */ static CHAR (*sxo)(CHAR); /* Local translation functions */ static CHAR (*rxo)(CHAR); /* for output (sending) terminal chars */ static CHAR (*sxi)(CHAR); /* and for input (receiving) terminal chars. */ static CHAR (*rxi)(CHAR); #else /* Not ANSI C... */ extern CHAR (*xls[MAXTCSETS+1][MAXFCSETS+1])(); /* Character set */ extern CHAR (*xlr[MAXTCSETS+1][MAXFCSETS+1])(); /* translation functions. */ static CHAR (*sxo)(); /* Local translation functions */ static CHAR (*rxo)(); /* for output (sending) terminal chars */ static CHAR (*sxi)(); /* and for input (receiving) terminal chars. */ static CHAR (*rxi)(); #endif /* CK_ANSIC */ extern int language; /* Current language. */ static int langsv; /* For remembering language setting. */ extern struct csinfo fcsinfo[]; /* File character set info. */ extern int tcsr, tcsl; /* Terminal character sets, remote & local. */ static int tcs; /* Intermediate ("transfer") character set. */ static int tcssize = 0; /* Size of tcs */ #ifdef UNICODE /* UTF-8 support */ #ifdef CK_ANSIC extern int (*xl_ufc[MAXFCSETS+1])(USHORT); /* Unicode to FCS */ extern USHORT (*xl_fcu[MAXFCSETS+1])(CHAR); /* FCS to Unicode */ extern int (*xuf)(USHORT); /* Translation function UCS to FCS */ extern USHORT (*xfu)(CHAR); /* Translation function FCS to UCS */ #else extern int (*xl_ufc[MAXFCSETS+1])(); extern USHORT (*xl_fcu[MAXFCSETS+1])(); extern int (*xuf)(); extern USHORT (*xfu)(); #endif /* CK_ANSIC */ #endif /* UNICODE */ #endif /* NOCSETS */ static int printing = 0; /* We do not need to parse and recognize escape sequences if we are being built without character-set support AND without APC support. */ #ifdef NOESCSEQ #ifdef XPRINT #undef XPRINT #endif /* XPRINT */ #else /* NOESCSEQ not defined from outside */ #ifdef NOCSETS /* No character sets */ #ifndef CK_APC /* No APC */ #ifndef XPRINT /* No transparent printing */ #define NOESCSEQ /* So no escape sequence recognizer */ #endif /* XPRINT */ #endif /* CK_APC */ #endif /* NOCSETS */ #endif /* NOESCSEQ */ /* inesc[] and oldesc[] made global 2010/03/01 for INPUT command */ static int escseq = 0; /* 1 = Recognizer is active */ /* static */ int inesc[2] = { 0, 0 }; /* State of sequence recognizer */ /* static */ int oldesc[2] = { -1, -1 }; /* Previous state of recognizer */ #ifdef NOESCSEQ #define ES_NORMAL 0 /* Normal, not in an escape sequence */ #define chkaes(x,y) 0 #else /* As of C-Kermit 5A(178), the CONNECT command skips past ANSI escape sequences to avoid translating the characters within them. This allows the CONNECT command to work correctly with a host that uses a 7-bit ISO 646 national character set, in which characters like '[' would normally be converted to accented letters, ruining the terminal's interpretation (and generation) of escape sequences. As of 5A(190), the CONNECT command responds to APC escape sequences (ESC _ text ESC \) if the user SETs TERMINAL APC ON or UNCHECKED, and the program was built with CK_APC defined. Non-ANSI/ISO-compliant escape sequences are not handled. */ /* States for the escape-sequence recognizer. */ #define ES_NORMAL 0 /* Normal, not in an escape sequence */ #define ES_GOTESC 1 /* Current character is ESC */ #define ES_ESCSEQ 2 /* Inside an escape sequence */ #define ES_GOTCSI 3 /* Inside a control sequence */ #define ES_STRING 4 /* Inside DCS,OSC,PM, or APC string */ #define ES_TERMIN 5 /* 1st char of string terminator */ /* ANSI escape sequence handling. Only the 7-bit form is treated, because translation is not a problem in the 8-bit environment, in which all GL characters are ASCII and no translation takes place. So we don't check for the 8-bit single-character versions of CSI, DCS, OSC, APC, or ST. Here is the ANSI sequence recognizer state table, followed by the code that implements it. Definitions: CAN = Cancel 01/08 Ctrl-X SUB = Substitute 01/10 Ctrl-Z DCS = Device Control Sequence 01/11 05/00 ESC P CSI = Control Sequence Introducer 01/11 05/11 ESC [ ST = String Terminator 01/11 05/12 ESC \ OSC = Operating System Command 01/11 05/13 ESC ] PM = Privacy Message 01/11 05/14 ESC ^ APC = Application Program Command 01/11 05/15 ESC _ ANSI escape sequence recognizer: State Input New State ; Commentary NORMAL (start) ; Start in NORMAL state (any) CAN NORMAL ; ^X cancels (any) SUB NORMAL ; ^Z cancels NORMAL ESC GOTESC ; Begin escape sequence NORMAL other ; NORMAL control or graphic character GOTESC ESC ; Start again GOTESC [ GOTCSI ; CSI GOTESC P STRING ; DCS introducer, consume through ST GOTESC ] STRING ; OSC introducer, consume through ST GOTESC ^ STRING ; PM introducer, consume through ST GOTESC _ STRING ; APC introducer, consume through ST GOTESC 0..~ NORMAL ; 03/00 through 17/14 = Final character GOTESC other ESCSEQ ; Intermediate or ignored control character ESCSEQ ESC GOTESC ; Start again ESCSEQ 0..~ NORMAL ; 03/00 through 17/14 = Final character ESCSEQ other ; Intermediate or ignored control character GOTCSI ESC GOTESC ; Start again GOTCSI @..~ NORMAL ; 04/00 through 17/14 = Final character GOTCSI other ; Intermediate char or ignored control char STRING ESC TERMIN ; Maybe have ST STRING other ; Consume all else TERMIN \ NORMAL ; End of string TERMIN other STRING ; Still in string */ #ifdef XPRINT /* Transparent print support */ /* We can't just print each byte as it comes in because then the printer-off sequence would be sent to the printer. Thus we have to buffer up escape sequences and print them only when they are complete AND we know they are not the printer-off sequence. All printing is done via zsoutx(ZMFILE,s,n). This allows for strings that contain NULs. Don't mix calls to zsoutx() with calls to zchout(), or the output will be scrambled. Also note that when printing a saved-up escape sequence, we never print its final character because that will be printed in the mainline code, upon return from chkaes(). Note that the printer-on sequence is passed to the screen; this is unavoidable, since we don't know what it is until after we get to the end, and for screen display purposes we can't buffer up escape sequences for numerous reasons. Therefore we also must output the printer-off sequence, otherwise a real terminal or emulator will be stuck in print mode. */ extern int tt_print; #define ESCBUFLEN 63 static char escbuf[ESCBUFLEN+1] = { NUL, NUL }; static int escbufc = 0; static int dontprint = 0; VOID printon() { /* Turn printing on */ int x, pp; char * p; extern int printpipe, noprinter; extern char * printername; if (noprinter) { debug(F110,"PRINTER ON NOPRINTER","",0); return; } p = printername; pp = printpipe; if (!p) p = ""; if (!*p) { #ifdef ANYBSD p = "lpr"; #else p = "lp"; #endif /* ANYBSD */ pp = 1; debug(F110,"PRINTER DEFAULT",p,0); } debug(F111,"PRINTER ON",p,pp); if (pp) { /* Printing to pipe */ x = zxcmd(ZMFILE,p); } else { /* Append to file */ struct filinfo xx; xx.bs = 0; xx.cs = 0; xx.rl = 0; xx.org = 0; xx.cc = 0; xx.typ = 0; xx.dsp = XYFZ_A; xx.os_specific = NUL; xx.lblopts = 0; x = zopeno(ZMFILE,p,NULL,&xx); } debug(F101,"PRINTER OPEN","",x); printing = 1; } VOID printoff() { /* Turn printing off */ int x; extern int noprinter; if (noprinter) { printing = 0; debug(F100,"PRINTER OFF NOPRINTER","",0); return; } debug(F100,"PRINTER OFF","",0); if (printing) { x = zclose(ZMFILE); debug(F101,"PRINTER CLOSE","",x); printing = 0; } } #endif /* XPRINT */ /* C H K A E S -- Check ANSI Escape Sequence. Call with EACH character in input stream. src = 0 means c is incoming from remote; 1 = char from keyboard. Sets global inesc[src] variable according to escape sequence state. Returns 0 normally, 1 if an APC sequence is to be executed. Handles transparent printing internally. */ int #ifdef CK_ANSIC chkaes(char c, int src) #else chkaes(c,src) char c; int src; #endif /* CK_ANSIC */ /* chkaes */ { debug(F111,"chkaes entry inesc",ckitoa(src),inesc[src]); debug(F101,"chkaes c","",c); if (src < 0 || src > 1) /* Don't allow bad args. */ return(0); oldesc[src] = inesc[src]; /* Remember previous state */ #ifdef XPRINT if (inesc[src] && !src) { /* Save up escape seq for printing */ if (!c) return(0); /* Ignore NULs */ if (escbufc < ESCBUFLEN) { escbuf[escbufc++] = c; escbuf[escbufc] = NUL; debug(F111,"ESCBUF 1",escbuf,escbufc); } else { /* Buffer overrun */ if (printing && escbufc) /* Print what's there so far */ zsoutx(ZMFILE,escbuf,escbufc); escbufc = 1; /* clear it out */ escbuf[0] = c; /* and start off fresh buffer */ escbuf[1] = NUL; /* with this character. */ } } #endif /* XPRINT */ if (c == CAN || c == SUB) { /* CAN and SUB cancel any sequence */ #ifdef XPRINT if (!src) { if (printing && escbufc > 1) zsoutx(ZMFILE,escbuf,escbufc-1); escbufc = 0; /* Clear buffer */ escbuf[0] = NUL; } #endif /* XPRINT */ inesc[src] = ES_NORMAL; } else /* Otherwise */ switch (inesc[src]) { /* enter state switcher */ case ES_NORMAL: /* NORMAL state */ if (c == ESC) { /* Got an ESC */ inesc[src] = ES_GOTESC; /* Change state to GOTESC */ #ifdef XPRINT if (!src) { escbufc = 1; /* Clear escape sequence buffer */ escbuf[0] = c; /* and deposit the ESC */ escbuf[1] = NUL; debug(F111,"ESCBUF 2",escbuf,escbufc); } #endif /* XPRINT */ } break; /* Otherwise stay in NORMAL state */ case ES_GOTESC: /* GOTESC state - prev char was ESC*/ if (c == '[') { /* Left bracket after ESC is CSI */ inesc[src] = ES_GOTCSI; /* Change to GOTCSI state */ } else if (c == 'P' || (c > 0134 && c < 0140)) { /* P, ], ^, or _ */ inesc[src] = ES_STRING; /* Switch to STRING-absorption state */ #ifdef XPRINT debug(F111,"ESCBUF STRING",escbuf,escbufc); #endif /* XPRINT */ #ifdef CK_APC /* If APC not disabled */ if (!src && c == '_' && (apcstatus & APC_ON)) { debug(F100,"CONNECT APC begin","",0); apcactive = APC_REMOTE; /* Set APC-Active flag */ apclength = 0; /* and reset APC buffer pointer */ } #endif /* CK_APC */ } else if (c > 057 && c < 0177) { /* Final character '0' thru '~' */ inesc[src] = ES_NORMAL; /* Back to normal */ #ifdef XPRINT if (!src) { if (printing && escbufc > 1) { /* Dump esc seq buf to printer */ zsoutx(ZMFILE,escbuf,escbufc-1); debug(F111,"ESCBUF PRINT 1",escbuf,escbufc); } escbufc = 0; /* Clear parameter buffer */ escbuf[0] = NUL; } #endif /* XPRINT */ } else if (c != ESC) { /* ESC in an escape sequence... */ inesc[src] = ES_ESCSEQ; /* starts a new escape sequence */ } break; /* Intermediate or ignored ctrl char */ case ES_ESCSEQ: /* ESCSEQ -- in an escape sequence */ if (c > 057 && c < 0177) { /* Final character '0' thru '~' */ inesc[src] = ES_NORMAL; /* Return to NORMAL state. */ #ifdef XPRINT if (!src) { if (printing && escbufc > 1) { zsoutx(ZMFILE,escbuf,escbufc-1); debug(F111,"ESCBUF PRINT 2",escbuf,escbufc); } escbufc = 0; /* Clear escseq buffer */ escbuf[0] = NUL; } #endif /* XPRINT */ } else if (c == ESC) { /* ESC ... */ inesc[src] = ES_GOTESC; /* starts a new escape sequence */ } break; /* Intermediate or ignored ctrl char */ case ES_GOTCSI: /* GOTCSI -- In a control sequence */ if (c > 077 && c < 0177) { /* Final character '@' thru '~' */ #ifdef XPRINT if (!src && tt_print) { /* Printer enabled? */ if (c == 'i') { /* Final char is "i"? */ char * p = (char *) (escbuf + escbufc - 4); if (!strncmp(p, "\033[5i", 4)) { /* Turn printer on */ printon(); } else if (!strncmp(p, "\033[4i", 4)) { /* Or off... */ int i; printoff(); /* Turn off printer. */ dontprint = 1; for (i = 0; i < escbufc; i++) /* And output the */ ckcputc(escbuf[i]); /* sequence. */ } else if (printing && escbufc > 1) { zsoutx(ZMFILE,escbuf,escbufc-1); debug(F011,"ESCBUF PRINT 3",escbuf,escbufc); } } else if (printing && escbufc > 1) { zsoutx(ZMFILE,escbuf,escbufc-1); debug(F111,"ESCBUF PRINT 4",escbuf,escbufc); } } if (!src) { escbufc = 0; /* Clear esc sequence buffer */ escbuf[0] = NUL; } #endif /* XPRINT */ inesc[src] = ES_NORMAL; /* Return to NORMAL. */ } else if (c == ESC) { /* ESC ... */ inesc[src] = ES_GOTESC; /* starts over. */ } break; case ES_STRING: /* Inside a string */ if (c == ESC) /* ESC may be 1st char of terminator */ inesc[src] = ES_TERMIN; /* Go see. */ #ifdef CK_APC else if (apcactive) { /* If in APC */ if (apclength < apcbuflen) { /* and there is room... */ apcbuf[apclength++] = c; /* deposit this character. */ } else { /* Buffer overrun */ apcactive = 0; /* Discard what we got */ apclength = 0; /* and go back to normal */ apcbuf[0] = 0; /* Not pretty, but what else */ inesc[src] = ES_NORMAL; /* can we do? (ST might not come) */ } } #endif /* CK_APC */ break; /* Absorb all other characters. */ case ES_TERMIN: /* Maybe a string terminator */ if (c == '\\') { /* which must be backslash */ inesc[src] = ES_NORMAL; /* If so, back to NORMAL */ #ifdef XPRINT if (!src) { if (printing && escbufc > 1) { /* If printing... */ /* Print esc seq buffer */ zsoutx(ZMFILE,escbuf,escbufc-1); debug(F111,"ESCBUF PRINT 5",escbuf,escbufc); } escbufc = 0; /* Clear escseq buffer */ escbuf[0] = NUL; } #endif /* XPRINT */ #ifdef CK_APC if (!src && apcactive) { /* If it was an APC string, */ debug(F101,"CONNECT APC terminated","",c); apcbuf[apclength] = NUL; /* terminate it and then ... */ return(1); } #endif /* CK_APC */ } else { /* It's not a backslash so... */ inesc[src] = ES_STRING; /* back to string absorption. */ #ifdef CK_APC if (apcactive) { /* In APC string */ if (apclength+1 < apcbuflen) { /* If enough room */ apcbuf[apclength++] = ESC; /* deposit the Esc */ apcbuf[apclength++] = c; /* and this character too. */ } else { /* Buffer overrun */ apcactive = 0; apclength = 0; apcbuf[0] = 0; inesc[src] = ES_NORMAL; } } #endif /* CK_APC */ } } /* switch() */ debug(F111,"chkaes exit inesc",ckitoa(src),inesc[src]); return(0); } #endif /* NOESCSEQ */ VOID #ifdef CK_ANSIC LOGCHAR(char c) #else LOGCHAR(c) char c; #endif /* CK_ANSIC */ /* LOGCHAR */ { /* Log character c to session log */ /* but skip over escape sequences if session log is text */ if (escseq) { if ((sessft == XYFT_T) && (debses == 0) && (inesc[0] != ES_NORMAL || oldesc[0] != ES_NORMAL)) return; } logchar(c); } /* C K C P U T C -- C-Kermit CONNECT Put Character to Screen */ /* Output is buffered to avoid slow screen writes on fast connections. */ static int ckcputf() { /* Dump the console output buffer */ int x = 0; if (obc > 0) /* If we have any characters, */ x = conxo(obc,obuf); /* dump them, */ obp = obuf; /* reset the pointer */ obc = 0; /* and the counter. */ return(x); /* Return conxo's return code */ } /* NOTE: This is probably the right place for character-set translation, rather than down below in the mainline code. ckcputc() would act like xpnbyte() in ckcfns.c, and ckcgetc() would act like xgnbyte(). This would shield the rest of the code from all the complexities of many-to-one and one-to-many conversions, and would allow handling of Kanji and other CJK sets along with UTF-8 and the rest. */ int ckcputc(c) int c; { int x; *obp++ = c & 0xff; /* Deposit the character */ obc++; /* Count it */ if (ibc == 0 || /* If input buffer about empty */ obc == OBUFL) { /* or output buffer full */ debug(F101,"CONNECT CKCPUTC obc","",obc); x = conxo(obc,obuf); /* dump the buffer, */ obp = obuf; /* reset the pointer */ obc = 0; /* and the counter. */ return(x); /* Return conxo's return code */ } else return(0); } /* C K C G E T C -- C-Kermit CONNECT Get Character */ /* Buffered read from communication device. Returns the next character, refilling the buffer if necessary. On error, returns ttinc's return code (see ttinc() description). Dummy argument for compatible calling conventions with ttinc() so a pointer to this function can be passed to tn_doop(). */ int ckcgetc(dummy) int dummy; { int c, n; #ifdef CK_SSL extern int ssl_active_flag, tls_active_flag; #endif /* CK_SSL */ #ifdef CK_ENCRYPTION /* No buffering for possibly encrypted connections */ if (network && IS_TELNET() && TELOPT_ME(TELOPT_AUTHENTICATION)) return(ttinc(0)); #endif /* CK_ENCRYPTION */ #ifdef CK_SSL if (ssl_active_flag || tls_active_flag) return(ttinc(0)); #endif /* CK_SSL */ if (ibc < 1) { /* Need to refill buffer? */ ibc = 0; /* Yes, reset count */ ibp = ibuf; /* and buffer pointer */ c = ttinc(0); /* Read one character, blocking */ if (c < 0) { /* If error, return error code */ return(c); } else { /* Otherwise, got one character */ *ibp++ = c; /* Advance buffer pointer */ ibc++; /* and count. */ } if ((n = ttchk()) > 0) { /* Any more waiting? */ if (n > (IBUFL - ibc)) /* Get them all at once. */ n = IBUFL - ibc; /* Don't overflow buffer */ if ((n = ttxin(n,(CHAR *)ibp)) > 0) { ibc += n; /* Advance counter */ } } else if (n < 0) { /* Error? */ return(n); /* Return the error code */ } ibp = ibuf; /* Point to beginning of buffer */ } c = *ibp++ & 0xff; /* Get next character from buffer */ ibc--; /* Reduce buffer count */ /* debug(F000,"CKCGETC","",c); */ return(c); /* Return the character */ } /* Keyboard handling, buffered for speed, which is needed when C-Kermit is in CONNECT mode between two other computers that are transferring data. */ static char *kbp; /* Keyboard input buffer pointer */ static int kbc; /* Keyboard input buffer count */ #ifdef CK_SMALL /* Keyboard input buffer length */ #define KBUFL 32 /* Small for PDP-11 UNIX */ #else #define KBUFL 257 /* Regular kernel size for others */ #endif /* CK_SMALL */ #ifdef DYNAMIC static char *kbuf = NULL; #else static char kbuf[KBUFL]; #endif /* DYNAMIC */ /* Macro for reading keystrokes. */ #define CONGKS() (((--kbc)>=0) ? ((int)(*kbp++) & 0377) : kbget()) /* Note that we call read() directly here, normally a no-no, but in this case we know it's UNIX and we're only doing what coninc(0) would have done, except we're reading a block of characters rather than just one. There is, at present, no conxin() analog to ttxin() for chunk reads, and instituting one would only add function-call overhead as it would only be a wrapper for a read() call anyway. Another note: We stick in this read() till the user types something. But we know they already did, since select() said so. Therefore something would need to be mighty wrong before we get stuck here. */ static int /* Keyboard buffer filler */ kbget() { #ifdef EINTR int tries = 10; /* If read() is interrupted, */ int ok = 0; while (tries-- > 0) { /* try a few times... */ #endif /* EINTR */ kbc = conchk(); /* How many chars waiting? */ debug(F101,"kbget kbc","",kbc); if (kbc < 1) kbc = 1; /* If none or dunno, wait for one. */ else if (kbc > KBUFL) /* If too many, */ kbc = KBUFL; /* only read this many. */ if ((kbc = read(0, kbuf, kbc)) < 1) { /* Now read it/them. */ debug(F101,"CONNECT kbget errno","",errno); /* Got an error. */ #ifdef EINTR if (errno == EINTR) /* Interrupted system call. */ continue; /* Try again, up to limit. */ else /* Something else. */ #endif /* EINTR */ return(-1); /* Pass along read() error. */ } #ifdef EINTR else { ok = 1; break; } } if (!ok) return(-1); #endif /* EINTR */ kbp = kbuf; /* Adjust buffer pointer, */ kbc--; /* count, */ return((int)(*kbp++) & 0377); /* and return first character. */ } #ifdef BEBOX /* * CreateSocketPair -- * * This procedure creates a connected socket pair * * Results: * 0 if OK, the error if not OK. * * Side effects: * None */ int socketpair(int *pair) { int servsock; int val; struct sockaddr_in serv_addr, cli_addr; extern char myipaddr[]; debug(F110,"socketpair",myipaddr,0); if (myipaddr[0] == 0) getlocalipaddr(); servsock = socket(AF_INET, SOCK_STREAM, 0); if (servsock == 0) { return h_errno; } debug(F111,"socketpair","socket",servsock); memset(&serv_addr, 0, sizeof(serv_addr)); serv_addr.sin_family = AF_INET; serv_addr.sin_addr.s_addr = htonl(INADDR_ANY); serv_addr.sin_port = htons(0); val = sizeof(serv_addr); if (bind(servsock, (struct sockaddr *) &serv_addr, val) < 0) { closesocket(servsock); return h_errno; } debug(F111,"socketpair","bind",0); listen(servsock, 1); debug(F111,"socketpair","listen",0); if (getsockname(servsock, (struct sockaddr *) &serv_addr, &val) < 0) { closesocket(servsock); return h_errno; } debug(F111,"socketpair","getsockname",0); pair[0] = socket(AF_INET, SOCK_STREAM, 0); if (pair[0] == 0) { closesocket(servsock); return h_errno; } debug(F111,"socketpair","socket",pair[0]); memset(&cli_addr, 0, sizeof(cli_addr)); cli_addr.sin_family = AF_INET; cli_addr.sin_addr.s_addr = inet_addr(myipaddr[0]?myipaddr:"127.0.0.1"); cli_addr.sin_port = serv_addr.sin_port; if (connect(pair[0],(struct sockaddr *) &cli_addr, sizeof(cli_addr)) < 0) { closesocket(pair[0]); closesocket(servsock); return h_errno; } debug(F111,"socketpair","connect",0); pair[1] = accept(servsock, (struct sockaddr *) &serv_addr, &val); if (pair[1] == 0) { closesocket(pair[0]); closesocket(servsock); return h_errno; } debug(F111,"socketpair","accept",pair[1]); closesocket(servsock); debug(F111,"socketpair","closesocket",0); return 0; } long kbdread(void * param) { int sock = (int) param; char ch; int rc = 0; debug(F111,"kbdread","sock",sock); while (rc >= 0) { rc = read(fileno(stdin), &ch, 1); /* Read a character. */ if (rc > 0) { rc = send(sock,&ch,1,0); /* debug(F000,"kbdread","send()",ch); */ printf("\r\ngot: %c rc = %d\r\n",ch,rc); } else msleep(100); } debug(F110,"kbdread","terminating",0); return(rc); } #endif /* BEBOX */ #ifdef CKLEARN static VOID learnchar(c) int c; { /* Learned script keyboard character */ int cc; char xbuf[8]; if (!learning || !learnfp) return; switch (learnst) { /* Learn state... */ case 0: /* Neutral */ case 1: /* Net */ if (learnbc > 0) { /* Have net characters? */ char buf[LEARNBUFSIZ]; int i, j, n; ULONG t; t = (ULONG) time(0); /* Calculate INPUT timeout */ j = t - learnt1; j += (j / 4) > 0 ? (j / 4) : 1; /* Add some slop */ if (j < 2) j = 2; /* 2 seconds minimum */ fputs("\nINPUT ",learnfp); /* Give INPUT command for them */ fputs(ckitoa(j),learnfp); fputs(" {",learnfp); learnt1 = t; n = LEARNBUFSIZ; if (learnbc < LEARNBUFSIZ) { /* Circular buffer */ n = learnbc; /* hasn't wrapped yet. */ learnbp = 0; } j = 0; /* Copy to linear buffer */ for (i = 0; i < n; i++) { /* Number of chars in circular buf */ cc = learnbuf[(learnbp + i) % LEARNBUFSIZ]; /* Later account for prompts that end with a newline? */ if (cc == CR && j > 0) { if (buf[j-1] != LF) j = 0; } buf[j++] = cc; } for (i = 0; i < j; i++) { /* Now copy out the buffer */ cc = buf[i]; /* interpreting control chars */ if (cc == 0) { /* We don't INPUT NULs */ continue; } else if (cc < SP || /* Controls need quoting */ (cc > 126 && cc < 160)) { ckmakmsg(xbuf,8,"\\{",ckitoa((int)cc),"}",NULL); fputs(xbuf,learnfp); } else { /* Plain character */ putc(cc,learnfp); } } fputs("}\nIF FAIL STOP 1 INPUT timeout",learnfp); learnbc = 0; } learnbp = 0; fputs("\nPAUSE 1\nOUTPUT ",learnfp); /* Emit OUTPUT and fall thru */ case 2: /* Already in Keyboard state */ if (c == 0) { fputs("\\N",learnfp); } else if (c == -7) { fputs("\\B",learnfp); } else if (c == -8) { fputs("\\L",learnfp); } else if (c < SP || (c > 126 && c < 160)) { ckmakmsg(xbuf,8,"\\{",ckitoa((int)c),"}",NULL); fputs(xbuf,learnfp); } else { putc(c,learnfp); } } } #endif /* CKLEARN */ static int printbar = 0; #define OUTXBUFSIZ 15 static CHAR inxbuf[OUTXBUFSIZ+1]; /* Host-to-screen expansion buffer */ static int inxcount = 0; /* and count */ static CHAR outxbuf[OUTXBUFSIZ+1]; /* Keyboard-to-host expansion buf */ static int outxcount = 0; /* and count */ int conect() { int rc = 0; /* Return code: 0 = fail, 1 = OK */ int i, x = 0, prev = -1; /* Reason code in cx_status */ #ifdef CKLEARN int crflag = 0; #endif /* CKLEARN */ register int c = -1, c2, csave; /* Characters */ #ifdef TNCODE int tx; /* For Telnet negotiations */ #endif /* TNCODE */ int apcrc = 0; /* For APC and transparent print */ int n, kbin, scrnout; /* select() items... */ fd_set in, out, err; /* File descriptor sets */ int gotnet = 0; /* Flag for net ready to read */ int gotkbd = 0; /* Flag for keyboard ready to read */ int oldprt = 0; /* Used with printing */ int msgflg = 0; char cbuf[2]; /* Ditto */ #ifdef BEBOX int tid = 0; /* Thread ID */ int pair[2]; /* Socket Pair */ CHAR ch; CHAR buf[64]; #endif /* BEBOX */ cx_status = CSX_INTERNAL; debok = 1; #ifdef BEBOX { /* Create a socket pair to be used for the keyboard input */ if (socketpair(pair)) { debug(F110,"conect","unable to create socket pair",0); return(-1); } debug(F111,"connect","socket pair[0]",pair[0]); debug(F111,"connect","socket pair[1]",pair[1]); /* Assign one end of the socket to kbin */ kbin = pair[0]; tid = spawn_thread(kbdread, "Kbd to Socket Pair", B_NORMAL_PRIORITY, (void *)pair[1] ); resume_thread(tid); debug(F110,"connect","tid",tid); } #else /* BEBOX */ kbin = fileno(stdin); /* stdin file descriptor */ #endif /* BEBOX */ scrnout = fileno(stdout); /* stdout file descriptor */ #ifdef CK_TRIGGER makestr(&triggerval,NULL); /* Reset trigger */ #endif /* CK_TRIGGER */ #ifdef XPRINT escbufc = 0; /* Reset esc-sequence buffer */ escbuf[0] = NUL; #endif /* XPRINT */ cbuf[1] = NUL; ttimoff(); /* Turn off any timer interrupts */ if (!local) { /* Be sure we're not in remote mode */ #ifdef NETCONN #ifdef NEWFTP if (ftpisconnected()) printf("Sorry, you can't CONNECT to an FTP server\n"); else #endif /* NEWFTP */ printf("Sorry, you must SET LINE or SET HOST first\n"); #else printf("Sorry, you must SET LINE first\n"); #endif /* NETCONN */ return(0); } if (speed < 0L && network == 0 && ttfdflg == 0) { printf("Sorry, you must SET SPEED first\n"); return(0); } #ifdef TCPSOCKET if (network && !ttpipe && (nettype != NET_TCPB && nettype != NET_PTY)) { printf("Sorry, network type not supported\n"); return(0); } #endif /* TCPSOCKET */ #ifdef DYNAMIC if (!ibuf) { if (!(ibuf = malloc(IBUFL+1))) { /* Allocate input line buffer */ printf("Sorry, CONNECT input buffer can't be allocated\n"); return(0); } else { ibp = ibuf; ibc = 0; } } if (!obuf) { if (!(obuf = malloc(OBUFL+1))) { /* Allocate output line buffer */ printf("Sorry, CONNECT output buffer can't be allocated\n"); return(0); } else { obp = obuf; obc = 0; } } if (!kbuf) { if (!(kbuf = malloc(KBUFL+1))) { /* Allocate keyboard input buffer */ printf("Sorry, CONNECT keyboard buffer can't be allocated\n"); return(0); } } if (!temp) { if (!(temp = malloc(TMPLEN+1))) { /* Allocate temporary buffer */ printf("Sorry, CONNECT temporary buffer can't be allocated\n"); return(0); } } #else obp = obuf; obc = 0; #endif /* DYNAMIC */ kbp = kbuf; /* Always clear these. */ *kbp = NUL; /* No need to preserve them between */ kbc = 0; /* CONNECT sessions. */ #ifdef DEBUG if (deblog) { debug(F101,"CONNECT conect entry ttyfd","",ttyfd); debug(F101,"CONNECT conect entry ibc","",ibc); debug(F101,"CONNECT conect entry obc","",obc); debug(F101,"CONNECT conect entry kbc","",kbc); #ifdef CK_TRIGGER debug(F110,"CONNECT conect trigger",tt_trigger[0],0); #endif /* CK_TRIGGER */ if (ttyfd > -1) { n = ttchk(); debug(F101,"CONNECT conect entry ttchk","",n); } } #endif /* DEBUG */ if (ttyfd < 0) { /* If communication device not open */ #ifdef TTLEBUF int n = le_inbuf(); debug(F111,"CONNECT le_inbuf()","ttyfd < 0",n); if (n > 0) { while (n--) { CHAR ch; le_getchar(&ch); conoc(ch); } return(0); } #endif /* TTLEBUF */ debug(F101,"CONNECT ttnproto","",ttnproto); debug(F111,"CONNECT opening",ttname,0); /* Open it now */ if (ttopen(ttname, &local, network ? -nettype : mdmtyp, 0 ) < 0) { ckmakmsg(temp,TMPLEN,"Sorry, can't open ",ttname,NULL,NULL); perror(temp); debug(F110,"CONNECT open failure",ttname,0); return(0); } #ifdef IKS_OPTION /* If peer is in Kermit server mode, return now. */ if (TELOPT_SB(TELOPT_KERMIT).kermit.u_start) { cx_status = CSX_IKSD; return(0); } #endif /* IKS_OPTION */ } dohangup = 0; /* Hangup not requested yet */ msgflg = !quiet #ifdef CK_APC && !apcactive #endif /* CK_APC */ ; if (msgflg) { #ifdef NETCONN if (network) { #ifdef CK_ENCRYPTION extern int me_encrypt, u_encrypt; if (ck_tn_encrypting() && ck_tn_decrypting()) printf("SECURE connection to host %s",ttname); else #endif /* CK_ENCRYPTION */ if (ttpipe || ttpty) printf("Connecting via command \"%s\"",ttname); else printf("Connecting to host %s",ttname); } else { #endif /* NETCONN */ printf("Connecting to %s",ttname); if (speed > -1L) printf(", speed %ld",speed); #ifdef NETCONN } #endif /* NETCONN */ if (tt_escape) { printf("\r\n"); shoesc(escape); printf("Type the escape character followed by C to get back,\r\n"); printf("or followed by ? to see other options.\r\n"); } else { printf(".\r\n\nESCAPE CHARACTER IS DISABLED\r\n\n"); } if (seslog) { extern int slogts; char * s = ""; switch (sessft) { case XYFT_D: s = "debug"; break; case XYFT_T: s = slogts ? "timestamped-text" : "text"; break; default: s = "binary"; } printf("Session Log: %s, %s (%d) \r\n",sesfil,s,sessft); } if (debses) printf("Debugging Display...)\r\n"); } /* Condition console terminal and communication line */ if (conbin((char)escape) < 0) { printf("Sorry, can't condition console terminal\n"); fflush(stdout); return(0); } debug(F101,"CONNECT cmask","",cmask); debug(F101,"CONNECT cmdmsk","",cmdmsk); debug(F101,"CONNECT speed before ttvt","",speed); if ((n = ttvt(speed,flow)) < 0) { /* Enter "virtual terminal" mode */ if (!network) { debug(F101,"CONNECT ttvt","",n); tthang(); /* Hang up and close the device. */ ttclos(0); dologend(); if (ttopen(ttname, /* Open it again... */ &local, network ? -nettype : mdmtyp, 0 ) < 0) { cx_status = CSX_INTERNAL; ckmakmsg(temp,TMPLEN,"Sorry, can't reopen ",ttname,NULL,NULL); perror(temp); return(0); } #ifdef IKS_OPTION if (TELOPT_SB(TELOPT_KERMIT).kermit.u_start) { cx_status = CSX_IKSD; return(0); } #endif /* IKS_OPTION */ if (ttvt(speed,flow) < 0) { /* Try virtual terminal mode again. */ conres(); /* Failure this time is fatal. */ printf("Sorry, Can't condition communication line\n"); cx_status = CSX_INTERNAL; return(0); } } } debug(F101,"CONNECT ttvt ok, escape","",escape); /* Despite ttvt() this is still needed in HP-UX */ /* because of the HP-9000 key.*/ signal(SIGINT, SIG_IGN); signal(SIGQUIT, SIG_IGN); debug(F101,"CONNECT carrier-watch","",carrier); if ((!network #ifdef TN_COMPORT || istncomport() #endif /* TN_COMPORT */ ) && (carrier != CAR_OFF)) { int x; x = ttgmdm(); debug(F100,"CONNECT ttgmdm","",x); if ((x > -1) && !(x & BM_DCD)) { #ifndef NOHINTS extern int hints; #endif /* NOHINTS */ debug(F100,"CONNECT ttgmdm CD test fails","",x); conres(); printf("?Carrier required but not detected.\n"); #ifndef NOHINTS cx_status = CSX_CARRIER; if (!hints) return(0); printf("***********************************\n"); printf(" Hint: To CONNECT to a serial device that\n"); printf(" is not presenting the Carrier Detect signal,\n"); printf(" first tell C-Kermit to:\n\n"); printf(" SET CARRIER-WATCH OFF\n\n"); printf("***********************************\n\n"); #endif /* NOHINTS */ return(0); } debug(F100,"CONNECT ttgmdm ok","",0); } /* Now we are connected. */ if (msgflg || printbar) printf("----------------------------------------------------\r\n"); fflush(stdout); #ifndef NOCSETS /* Set up character set translations */ unicode = 0; /* Assume Unicode won't be involved */ tcs = 0; /* "Transfer" or "Other" charset */ sxo = rxo = NULL; /* Initialize byte-to-byte functions */ sxi = rxi = NULL; if (tcsr != tcsl) { /* Remote and local sets differ... */ #ifdef UNICODE if (tcsr == FC_UTF8 || /* Remote charset is UTF-8 */ tcsl == FC_UTF8) { /* or local one is. */ xuf = xl_ufc[tcsl]; /* Incoming Unicode to local */ if (xuf || tcsl == FC_UTF8) { tcs = (tcsr == FC_UTF8) ? tcsl : tcsr; /* The "other" set */ xfu = xl_fcu[tcs]; /* Local byte to remote Unicode */ if (xfu) unicode = (tcsr == FC_UTF8) ? 1 : 2; } tcssize = fcsinfo[tcs].size; /* Size of other character set. */ } else { #endif /* UNICODE */ tcs = gettcs(tcsr,tcsl); /* Get intermediate set. */ sxo = xls[tcs][tcsl]; /* translation function */ rxo = xlr[tcs][tcsr]; /* pointers for output functions */ sxi = xls[tcs][tcsr]; /* and for input functions. */ rxi = xlr[tcs][tcsl]; #ifdef UNICODE } #endif /* UNICODE */ } /* This is to prevent use of zmstuff() and zdstuff() by translation functions. They only work with disk i/o, not with communication i/o. Luckily Russian translation functions don't do any stuffing... */ langsv = language; #ifndef NOCYRIL if (language != L_RUSSIAN) #endif /* NOCYRIL */ language = L_USASCII; #ifdef COMMENT #ifdef DEBUG if (deblog) { debug(F101,"CONNECT tcs","",tcs); debug(F101,"CONNECT tcsl","",tcsl); debug(F101,"CONNECT tcsr","",tcsr); debug(F101,"CONNECT fcsinfo[tcsl].size","",fcsinfo[tcsl].size); debug(F101,"CONNECT fcsinfo[tcsr].size","",fcsinfo[tcsr].size); debug(F101,"CONNECT unicode","",unicode); } #endif /* DEBUG */ #endif /* COMMENT */ #ifdef CK_XYZ #ifndef XYZ_INTERNAL { extern int binary; /* See about ZMODEM autodownloads */ char * s; s = binary ? ptab[PROTO_Z].p_b_rcmd : ptab[PROTO_Z].p_t_rcmd; if (!s) s = ""; zmdlok = (*s != NUL); /* OK if we have external commands */ } #endif /* XYZ_INTERNAL */ #endif /* CK_XYZ */ #ifndef NOESCSEQ /* We need to activate the escape-sequence recognition feature when: (a) translation is elected, AND (b) the local and/or remote set is a 7-bit set other than US ASCII; Or: SET SESSION-LOG is TEXT (so we can strip escape sequences out of the log); Or: SET TERMINAL APC is not OFF (handled in the next statement). */ escseq = (tcs != TC_TRANSP) && /* Not transparent */ (fcsinfo[tcsl].size == 128 || fcsinfo[tcsr].size == 128) && /* 7 bits */ (fcsinfo[tcsl].code != FC_USASCII); /* But not ASCII */ #endif /* NOESCSEQ */ #endif /* NOCSETS */ #ifndef NOESCSEQ if (!escseq) { /* 2009/10/22 */ if (seslog && !sessft) escseq = 1; } #ifdef CK_APC escseq = escseq || (apcstatus & APC_ON); apcactive = 0; /* An APC command is not active */ apclength = 0; /* ... */ #endif /* CK_APC */ #ifdef XPRINT escseq |= tt_print; #endif /* XPRINT */ /* Initial state of recognizer */ inesc[0] = ES_NORMAL; /* Remote to screen */ inesc[1] = ES_NORMAL; /* Keyboard to remote */ debug(F101,"CONNECT escseq","",escseq); #endif /* NOESCSEQ */ if (ttyfd > -1) { /* (just in case...) */ what = W_CONNECT; /* Keep track of what we're doing */ active = 1; } #ifdef CKLEARN if (learning) { /* Learned script active... */ learnbp = 0; /* INPUT buffer pointer */ learnbc = 0; /* INPUT buffer count */ learnst = 0; /* State (0 = neutral, none) */ learnt1 = (ULONG) time(0); } #endif /* CKLEARN */ #ifdef CKTIDLE idlelimit = tt_idlelimit; #endif /* CKTIDLE */ while (active) { /* Big loop... */ debug(F100,"CONNECT top of loop","",0); FD_ZERO(&in); /* Clear select() structs */ FD_ZERO(&out); FD_ZERO(&err); gotkbd = 0; gotnet = ttpeek(); /* Something sitting in ckutio buf */ debug(F101,"CONNECT ttpeek","",gotnet); if ( #ifndef NOSETKEY !kmptr /* Check for key macro active */ #else 1 #endif /* NOSETKEY */ ) { if (obc) { /* No key macro - set up for select */ FD_SET(ttyfd, &out); /* Have stuff to send to net */ } else { FD_SET(kbin, &in); /* Need to read stuff from keyboard */ } #ifdef BEBOX if (!(ibc || gotnet > 0)) FD_SET(ttyfd, &in); /* Need to read stuff from net */ #else /* BEBOX */ if (ibc || gotnet > 0) { FD_SET(scrnout, &out); /* Have stuff to put on screen */ } else { FD_SET(ttyfd, &in); /* Need to read stuff from net */ } #endif /* BEBOX */ FD_SET(ttyfd, &err); #ifdef CK_FORWARD_X fwdx_init_fd_set(&in); #endif /* CK_FORWARD_X */ /* Wait till the first one of the above is ready for i/o */ /* or TERM IDLE-SEND is active and we time out. */ errno = 0; #ifdef CKTIDLE /* This really could be moved out of the loop... */ if (idlelimit) { /* Idle timeout set */ struct timeval tv; if (idlelimit > 0) { /* Positive = sec */ tv.tv_sec = (long) idlelimit; tv.tv_usec = 0L; } else { /* Negative = millisec */ long u = (0 - idlelimit); tv.tv_sec = u / 1000L; tv.tv_usec = ((u % 1000L) * 1000L); } #ifdef INTSELECT c = select(FD_SETSIZE,(int *)&in,(int *)&out,(int *)&err, &tv); #else c = select(FD_SETSIZE, &in, &out, &err, &tv); #endif /* INTSELECT */ } else #endif /* CKTIDLE */ #ifdef INTSELECT c = select(FD_SETSIZE, (int *)&in, (int *)&out, (int *)&err, 0); #else c = select(FD_SETSIZE, &in, &out, &err, 0); #endif /* INTSELECT */ if (c < 1) { #ifdef CKTIDLE if (c == 0) { /* Timeout */ debug(F101,"CONNECT select() timeout","",tt_idleact); switch (tt_idleact) { case IDLE_HANG: { /* Hang up */ int x = 0; #ifndef NODIAL if (dialmhu) x = mdmhup(); if (x < 1) #endif /* NODIAL */ tthang(); /* fall thru deliberately... */ } case IDLE_RET: /* Return to command mode */ cx_status = CSX_IDLE; active = 0; continue; case IDLE_OUT: /* OUTPUT a string */ if (tt_idlestr) { int len = strlen(tt_idlestr); if (len > 0) ttol((CHAR *)tt_idlestr,len); else ttoc(NUL); /* No string, send a NUL */ } else ttoc(NUL); /* No string, send a NUL */ continue; case IDLE_EXIT: /* Exit from Kermit */ doexit(GOOD_EXIT,xitsta); #ifdef TNCODE case IDLE_TAYT: /* Send Telnet Are You There? */ if (network && IS_TELNET()) { tnopt[0] = (CHAR) IAC; tnopt[1] = (CHAR) TN_AYT; tnopt[2] = NUL; if (ttol((CHAR *)tnopt,2) < 0) active = 0; } continue; case IDLE_TNOP: /* Send Telnet NOP */ if (network && IS_TELNET()) { tnopt[0] = (CHAR) IAC; tnopt[1] = (CHAR) TN_NOP; tnopt[2] = NUL; if (ttol((CHAR *)tnopt,2) < 0) active = 0; } continue; #endif /* TNCODE */ } } #endif /* CKTIDLE */ debug(F101,"CONNECT select() errno","",errno); /* A too-big first arg to select() gets EBADF */ #ifdef EINTR if (c == -1) { if (errno == EINTR) { continue; } } #endif /* EINTR */ sleep(1); continue; } #ifndef BEBOX #ifdef DEBUG if (FD_ISSET(scrnout, &out)) { debug(F100,"CONNECT SELECT scrnout","",0); } #endif /* DEBUG */ #endif /* BEBOX */ #ifdef CK_FORWARD_X fwdx_check_sockets(&in); #endif /* CK_FORWARD_X */ if (FD_ISSET(ttyfd, &in)) { /* Read from net? */ debug(F110,"CONNECT SELECT ttyfd","in",0); FD_CLR(ttyfd, &in); gotnet = 1; /* Net is ready */ } if (FD_ISSET(kbin, &in)) { /* Read from keyboard? */ debug(F100,"CONNECT SELECT kbin","",0); FD_CLR(kbin, &in); gotkbd = 1; /* Keyboard is ready */ } if (FD_ISSET(ttyfd, &err)) { debug(F110,"CONNECT SELECT ttyfd","err",0); FD_CLR(ttyfd, &err); #ifdef NETPTY #ifdef HAVE_PTYTRAP /* Special handling for HP-UX pty i/o */ if (ttpty) { if (pty_trap_handler(ttyfd) > 0) { ttclos(0); goto conret1; } continue; } #endif /* HAVE_PTYTRAP */ #endif /* NETPTY */ gotnet = 1; /* Net is ready (don't set if pty) */ } } #ifdef DEBUG if (deblog) { debug(F101,"CONNECT gotkbd","",gotkbd); debug(F101,"CONNECT kbc","",kbc); #ifdef COMMENT #ifndef NOSETKEY debug(F101,"CONNECT kmptr","",kmptr); #endif /* NOSETKEY */ #endif /* COMMENT */ } #endif /* DEBUG */ while (gotkbd || kbc > 0 /* If we have keyboard chars */ #ifndef NOSETKEY || kmptr #endif /* NOSETKEY */ ) { #ifndef NOSETKEY if (kmptr) { /* Have current macro? */ debug(F100,"CONNECT kmptr non NULL","",0); if ((c = (CHAR) *kmptr++) == NUL) { /* Get char from it */ debug(F100,"CONNECT macro empty, continuing","",0); kmptr = NULL; /* If no more chars, */ continue; /* Reset pointer and continue */ } debug(F000,"CONNECT char from macro","",c); } else { /* No macro... */ #endif /* NOSETKEY */ #ifdef BEBOX { int rc = 0; if ((rc = recv(kbin,buf,1,0)) > 0) c = buf[0]; else c = -1; debug(F111,"recv","rc",rc); printf("\r\nrecv: %c rc=%d\r\n",buf[0],rc); } #else /* BEBOX */ c = CONGKS(); /* Yes, read from keyboard */ #endif /* BEBOX */ gotkbd = 0; /* Turn off select() result flag */ #ifndef NOSETKEY } #endif /* NOSETKEY */ if (c == -1) { #ifdef EINTR if (errno == EINTR) continue; #endif /* EINTR */ cx_status = CSX_IOERROR; conoc(BEL); goto conret0; } c &= cmdmsk; /* Do any requested masking */ #ifndef NOSETKEY /* Note: kmptr is NULL if we got character c from the keyboard, and it is not NULL if it came from a macro. In the latter case, we must avoid expanding it again. */ if (!kmptr && macrotab[c]) { /* Macro definition for c? */ debug(F000,"CONNECT macro key",macrotab[c],c); kmptr = macrotab[c]; /* Yes, set up macro pointer */ continue; /* and restart the loop, */ } else c = keymap[c]; /* else use single-char keymap */ #endif /* NOSETKEY */ if ( #ifndef NOSETKEY !kmptr && #endif /* NOSETKEY */ (tt_escape && ((c & 0xff) == escape))) { /* Escape char? */ debug(F000,"CONNECT got escape","",c); #ifdef BEBOX if (recv(kbin,buf,1,0)>=0) c = buf[0]; else c = -1; #else /* BEBOX */ c = CONGKS() & 0x7f; /* Read argument */ #endif /* BEBOX */ doesc((char) c); /* Handle it */ continue; /* Back to loop */ } csave = c; /* Save it before translation */ /* for local echoing. */ #ifdef CKLEARN crflag = (c == CR); /* Remember if it was CR. */ #endif /* CKLEARN */ #ifndef NOCSETS if (inesc[1] == ES_NORMAL) { /* If not inside escape seq.. */ /* Translate character sets */ #ifdef UNICODE int x; if (unicode == 1) { /* Remote is UTF-8 */ outxcount = b_to_u((CHAR)c,outxbuf,OUTXBUFSIZ,tcssize); outxbuf[outxcount] = NUL; } else if (unicode == 2) { /* Local is UTF-8 */ x = u_to_b((CHAR)c); if (x < 0) continue; outxbuf[0] = (unsigned)(x & 0xff); outxcount = 1; outxbuf[outxcount] = NUL; } else { #endif /* UNICODE */ if (sxo) c = (*sxo)((char)c); /* Local-intermediate */ if (rxo) c = (*rxo)((char)c); /* Intermediate-remote */ outxbuf[0] = c; outxcount = 1; outxbuf[outxcount] = NUL; #ifdef UNICODE } #endif /* UNICODE */ } else { outxbuf[0] = c; outxcount = 1; outxbuf[outxcount] = NUL; } if (escseq) apcrc = chkaes((char)c,1); #else /* NOCSETS */ outxbuf[0] = c; outxcount = 1; outxbuf[outxcount] = NUL; #endif /* NOCSETS */ debug(F111,"OUTXBUF",outxbuf,outxcount); for (i = 0; i < outxcount; i++) { c = outxbuf[i]; /* If Shift-In/Shift-Out is selected and we have a 7-bit connection, handle shifting here. */ if (sosi) { /* Shift-In/Out selected? */ if (cmask == 0177) { /* In 7-bit environment? */ if (c & 0200) { /* 8-bit character? */ if (outshift == 0) { /* If not shifted, */ ttoc(dopar(SO)); /* shift. */ outshift = 1; } } else { if (outshift == 1) { /* 7-bit character */ ttoc(dopar(SI)); /* If shifted, */ outshift = 0; /* unshift. */ } } } if (c == SO) outshift = 1; /* User typed SO */ if (c == SI) outshift = 0; /* User typed SI */ } c &= cmask; /* Apply Kermit-to-host mask now. */ if (c == '\015') { /* Carriage Return */ int stuff = -1; if (tnlm) { /* TERMINAL NEWLINE ON */ stuff = LF; /* Stuff LF */ #ifdef TNCODE } else if (network && /* TELNET NEWLINE ON/OFF/RAW */ IS_TELNET()) { switch (!TELOPT_ME(TELOPT_BINARY) ? tn_nlm : tn_b_nlm){ case TNL_CRLF: stuff = LF; break; case TNL_CRNUL: stuff = NUL; break; } #endif /* TNCODE */ } if (stuff > -1) { ttoc(dopar('\015')); /* Send CR */ if (duplex) conoc('\015'); /* Maybe echo CR */ c = stuff; /* Char to stuff */ csave = c; } } #ifdef TNCODE /* If user types the 0xff character (TELNET IAC), it must be doubled. */ else /* Not CR */ if ((dopar((CHAR) c) == IAC) && /* IAC (0xff) */ network && IS_TELNET()) { /* Send one now */ ttoc((char)IAC); /* and the other one just below. */ } #endif /* TNCODE */ /* Send the character */ x = ttoc((char)dopar((CHAR) c)); if (x > -1) { #ifdef CKLEARN if (learning) { /* Learned script active */ if (crflag) { /* User typed CR */ learnchar(CR); /* Handle CR */ learnst = 0; /* Shift to Neutral */ } else { learnchar(c); /* Not CR */ learnst = 2; /* Change state to Keyboard */ } } #endif /* CKLEARN */ if (duplex) { /* If half duplex, must echo */ if (debses) conol(dbchr(csave)); /* the original char */ else /* not the translated one */ conoc((char)csave); if (seslog) { /* And maybe log it too */ c2 = csave; if (sessft == 0 && csave == '\r') c2 = '\n'; LOGCHAR((char)c2); } } } else { perror("\r\nCan't send character"); cx_status = CSX_IOERROR; active = 0; break; } } } if (FD_ISSET(ttyfd, &out)) { FD_CLR(ttyfd, &out); } while (gotnet > 0 || ibc > 0) { gotnet = 0; prev = c; c = ckcgetc(0); /* Get next character */ if (c < 0) { /* Failed... */ ckcputf(); /* Flush CONNECT output buffer */ if (msgflg) { printf("\r\nCommunications disconnect "); #ifdef COMMENT if (c == -3 #ifdef ultrix /* This happens on Ultrix if there's no carrier */ && errno != EIO #endif /* ultrix */ #ifdef UTEK /* This happens on UTEK if there's no carrier */ && errno != EWOULDBLOCK #endif /* UTEK */ ) perror("\r\nCan't read character"); #endif /* COMMENT */ } #ifdef NOSETBUF fflush(stdout); #endif /* NOSETBUF */ dologend(); tthang(); /* Hang up the connection */ debug(F111,"CONNECT i/o error 1",ck_errstr(),errno); cx_status = CSX_HOSTDISC; goto conret0; } #ifdef TNCODE tx = 0; if ((c == NUL) && network && IS_TELNET()) { if (prev == CR) { /* Discard of if peer */ if (!TELOPT_U(TELOPT_BINARY)) { /* not in binary mode */ debug(F111,"CONNECT NUL",ckitoa(prev),c); ckcputf(); /* Flush screen output buffer */ break; } } } debug(F111,"CONNECT","c",c); debug(F111,"CONNECT","network",network); debug(F111,"CONNECT","IS_TELNET",IS_TELNET()); if ((c == IAC) && network && IS_TELNET()) { #ifdef CK_ENCRYPTION int x_auth = TELOPT_ME(TELOPT_AUTHENTICATION); #else int x_auth = 0; #endif /* CK_ENCRYPTION */ int me_bin = TELOPT_ME(TELOPT_BINARY); int u_bin = TELOPT_U(TELOPT_BINARY); debug(F100,"CONNECT got IAC","",0); ckcputf(); /* Dump screen-output buffer */ if ((tx = tn_doop((CHAR)(c & 0xff),duplex,ckcgetc)) == 0) { if (me_bin != TELOPT_ME(TELOPT_BINARY)) { me_bin = TELOPT_ME(TELOPT_BINARY); } else if (u_bin != TELOPT_U(TELOPT_BINARY)) { u_bin = TELOPT_U(TELOPT_BINARY); #ifdef CK_ENCRYPTION /* Here we have to push back any bytes we have read using block reads, so we can read them again using single-character reads, so they can be decrypted in case there was a switch to encryption in the block. Note that we can't handle switches in the encryption state itself this way -- which would be nice, since it would eliminate the need for single-character reads. Why? Because if a series of characters has already been decrypted that shouldn't have been, then (a) it's ruined, and (b) so is the state of the decryption machine. Too bad. */ } else if (TELOPT_ME(TELOPT_AUTHENTICATION) != 0 && TELOPT_ME(TELOPT_AUTHENTICATION) != x_auth ) { if (ttpushback((CHAR *)ibp,ibc) > -1) { ibc = 0; ibp = ibuf; } #endif /* CK_ENCRYPTION */ } continue; } else if (tx == -1) { /* I/O error */ if (msgflg) printf("\r\nCommunications disconnect "); #ifdef NOSETBUF fflush(stdout); #endif /* NOSETBUF */ dologend(); debug(F111,"CONNECT i/o error 2",ck_errstr(),errno); cx_status = CSX_IOERROR; goto conret0; } else if (tx == -2) { /* I/O error */ if (msgflg) printf("\r\nConnection closed by peer"); #ifdef NOSETBUF fflush(stdout); #endif /* NOSETBUF */ dologend(); debug(F111,"CONNECT i/o error 3",ck_errstr(),errno); cx_status = CSX_IOERROR; goto conret0; } else if (tx == -3) { /* I/O error */ if (msgflg) printf("\r\nConnection closed due to telnet policy"); #ifdef NOSETBUF fflush(stdout); #endif /* NOSETBUF */ dologend(); debug(F111,"CONNECT i/o error 4",ck_errstr(),errno); cx_status = CSX_IOERROR; goto conret0; } else if ((tx == 1) && (!duplex)) { /* ECHO change */ duplex = 1; /* Turn on local echo */ continue; } else if ((tx == 2) && (duplex)) { /* ECHO change */ duplex = 0; continue; } else if (tx == 3) { /* Quoted IAC */ c = parity ? 127 : 255; } #ifdef IKS_OPTION else if (tx == 4) { /* IKS State Change */ if (TELOPT_SB(TELOPT_KERMIT).kermit.u_start && !tcp_incoming ) { /* here we need to print a msg that the other */ /* side is in SERVER mode and that REMOTE */ /* commands should be used. And CONNECT mode */ /* should be ended. */ cx_status = CSX_IKSD; active = 0; } } #endif /* IKS_OPTION */ else if (tx == 6) { /* DO LOGOUT was received */ if (msgflg) printf("\r\nRemote Logout "); #ifdef NOSETBUF fflush(stdout); #endif /* NOSETBUF */ debug(F100,"CONNECT Remote Logout","",0); cx_status = CSX_TRIGGER; goto conret0; } else continue; /* Negotiation OK, get next char. */ } else if (parity) c &= 0x7f; /* I'm echoing for the remote */ if (TELOPT_ME(TELOPT_ECHO) && tn_rem_echo) ttoc((char)c); #endif /* TNCODE */ #ifdef CKLEARN /* Learned script: Record incoming chars if not in Keyboard state */ if (learning && learnst != 2) { /* Learned script active */ learnbuf[learnbp++] = c; /* Save for INPUT command */ if (learnbp >= LEARNBUFSIZ) /* in circular buffer */ learnbp = 0; /* wrapping if at end. */ learnbc++; /* Count this byte. */ learnst = 1; /* State is Net. */ } #endif /* CKLEARN */ if (debses) { /* Output character to screen */ char *s; /* Debugging display... */ s = dbchr(c); /* Make char into string */ while (*s) { /* Output each char from string */ ckcputc(*s); if (seslog) /* And maybe log it. */ LOGCHAR((char)*s); s++; } } else { /* Regular display ... */ c &= cmask; /* Apply Kermit-to-remote mask */ if (seslog && sessft) /* If binary session log */ LOGCHAR((char)c); /* log the character now. */ #ifndef NOXFER #ifdef CK_AUTODL /* Autodownload. Check for Kermit S packet prior to translation, since that can change the packet and make it unrecognizable (as when the terminal character set is an ISO 646 one)... Ditto for Zmodem start packet. */ if (autodl /* Autodownload enabled? */ #ifdef IKS_OPTION || TELOPT_SB(TELOPT_KERMIT).kermit.me_start #endif /* IKS_OPTION */ ) { int k = 0; if (kstartactive || c == stchr /* Kermit S or I packet? */ #ifdef COMMENT || adl_kmode == ADLSTR /* Not used in C-Kermit */ #endif /* COMMENT */ ) k = kstart((CHAR)c); #ifdef CK_XYZ if (!k && zmdlok) /* Or an "sz" start? */ k = zstart((CHAR)c); #endif /* CK_XYZ */ if (k) { int ksign = 0; debug(F101,"CONNECT autodownload k","",k); if (k < 0) { /* Minus-Protocol? */ #ifdef NOSERVER goto noserver; /* Need server mode for this */ #else ksign = 1; /* Remember */ k = 0 - k; /* Convert to actual protocol */ justone = 1; /* Flag for protocol module */ #endif /* NOSERVER */ } else justone = 0; k--; /* Adjust [kz]start's return value */ if (k == PROTO_K #ifdef CK_XYZ || k == PROTO_Z #endif /* CK_XYZ */ ) { /* Damage the packet so that it doesn't trigger */ /* autodownload detection downstream. */ if (k == PROTO_K) { int i, len = strlen((char *)ksbuf); for (i = 0; i < len; i++) ckcputc(BS); } #ifdef CK_XYZ else { int i; for (i = 0; i < 3; i++) ckcputc(CAN); } #endif /* CK_XYZ */ #ifndef NOICP /* sprintf is safe here (builtin keywords) */ sprintf(apcbuf, "set proto %s, %s, set proto %s", ptab[k].p_name, ksign ? "server" : "receive", ptab[protocol].p_name ); apclength = strlen(apcbuf); debug(F111,"CONNECT ksbuf",ksbuf,k); debug(F110,"CONNECT autodownload",apcbuf,0); apcactive = APC_LOCAL; ckcputf(); /* Force screen update */ cx_status = CSX_APC; goto conret1; #else /* Here's another way that doesn't require APC, but then we'll have to change all the other CONNECT modules, and then the mainline code that calls them. */ { extern char sstate; sstate = ksign ? 'x' : 'v'; proto(); } #endif /* NOICP */ } } } #ifdef NOSERVER noserver: #endif /* NOSERVER */ #endif /* CK_AUTODL */ #endif /* NOXFER */ if (sosi) { /* Handle SI/SO */ if (c == SO) { /* Shift Out */ inshift = 1; continue; } else if (c == SI) { /* Shift In */ inshift = 0; continue; } if (inshift) c |= 0200; } inxbuf[0] = c; /* In case there is no translation */ inxcount = 1; /* ... */ #ifndef NOCSETS if (inesc[0] == ES_NORMAL /* If not in an escape sequence */ && !printing /* and not in transparent print */ ) { /* Translate character sets */ #ifdef UNICODE int x; if (unicode == 1) { /* Remote is UTF-8 */ x = u_to_b((CHAR)c); if (x == -1) continue; else if (x == -2) { /* LS or PS */ inxbuf[0] = CR; inxbuf[1] = LF; inxcount = 2; } else if (x == -9) { /* UTF-8 error */ inxbuf[0] = '?'; inxbuf[1] = u_to_b2(); inxcount = 2; } else { inxbuf[0] = (unsigned)(x & 0xff); } c = inxbuf[0]; } else if (unicode == 2) { /* Local is UTF-8 */ inxcount = b_to_u((CHAR)c,inxbuf,OUTXBUFSIZ,tcssize); c = inxbuf[0]; } else { #endif /* UNICODE */ if (sxi) c = (*sxi)((CHAR)c); if (rxi) c = (*rxi)((CHAR)c); inxbuf[0] = c; #ifdef UNICODE } #endif /* UNICODE */ } #endif /* NOCSETS */ #ifndef NOESCSEQ if (escseq) { /* If handling escape sequences */ oldprt = printing; /* remember printer state */ apcrc = chkaes((char)c,0); /* and update escseq state. */ if (printing && !oldprt) /* If printer was turned on */ continue; /* don't print final char of escseq */ } #ifdef CK_APC /* If we are handling APCs, we have several possibilities at this point: 1. Ordinary character to be written to the screen. 2. An Esc; we can't write it because it might be the beginning of an APC. 3. The character following an Esc, in which case we write Esc, then char, but only if we have not just entered an APC sequence. */ if (escseq && (apcstatus & APC_ON)) { if (inesc[0] == ES_GOTESC) /* Don't write ESC yet */ continue; else if (oldesc[0] == ES_GOTESC && !apcactive) { ckcputc(ESC); /* Write saved ESC */ if (seslog && !sessft) LOGCHAR((char)ESC); } else if (apcrc) { /* We have an APC */ debug(F111,"CONNECT APC complete",apcbuf,apclength); ckcputf(); /* Force screen update */ cx_status = CSX_APC; goto conret1; } } #endif /* CK_APC */ #endif /* NOESCSEQ */ debug(F111,"INXBUF",inxbuf,inxcount); for (i = 0; i < inxcount; i++) { /* Loop thru */ c = inxbuf[i]; /* input expansion buffer... */ if ( #ifdef CK_APC !apcactive && /* Don't display APC sequences */ #endif /* CK_APC */ !printing /* or transparent print material */ ) { c &= cmdmsk; /* Apply command mask. */ /* Handle bare carriage returns and linefeeds */ if (c == CR && tt_crd) { /* SET TERM CR-DISPLA CRLF? */ ckcputc(c); /* Yes, output CR */ if (seslog && !sessft) LOGCHAR((char)c); c = LF; /* and insert a linefeed */ } if (c == LF && tt_lfd) { /* SET TERM CR-DISPLA CRLF? */ ckcputc(CR); /* Yes, output CR */ if (seslog && !sessft) LOGCHAR((char)CR); } #ifndef NOESCSEQ if (dontprint) { /* Do transparent printing. */ dontprint = 0; continue; } else #endif /* NOESCSEQ */ ckcputc(c); /* Write character to screen */ } if (seslog && !sessft) { /* Handle session log. */ LOGCHAR((char)c); } #ifdef XPRINT if (printing && !inesc[0]) { /* zchout() can't be used because */ /* it's buffered differently. */ cbuf[0] = c; zsoutx(ZMFILE,(char *)cbuf,1); } #endif /* XPRINT */ #ifdef CK_TRIGGER /* Check for trigger string */ if (tt_trigger[0]) { int i; if ((i = autoexitchk((CHAR)c)) > -1) { makestr(&triggerval,tt_trigger[i]); ckcputf(); /* Force screen update */ #ifdef NOSETBUF fflush(stdout); /* I mean really force it */ #endif /* NOSETBUF */ cx_status = CSX_TRIGGER; goto conret1; } } #endif /* CK_TRIGGER */ } } } #ifndef BEBOX if (FD_ISSET(scrnout, &out)) { FD_CLR(scrnout, &out); } #endif /* BEBOX */ } /* End of big loop */ conret1: /* Come here to succeed */ rc = 1; conret0: /* Common exit point */ #ifdef BEBOX { long ret_val; closesocket(pair[0]); closesocket(pair[1]); x = kill(tid,SIGKILLTHR); /* Kill thread */ wait_for_thread (tid, &ret_val); } #endif /* BEBOX */ #ifdef CKLEARN if (learning && learnfp) fputs("\n",learnfp); #endif /* CKLEARN */ conres(); if (dohangup > 0) { #ifdef NETCONN if (network #ifdef TNCODE && !TELOPT_ME(TELOPT_COMPORT) #endif /* TNCODE */ ) ttclos(0); #endif /* NETCONN */ #ifndef COMMENT /* This is bad because if they said SET MODEM HANGUP-METHOD MODEM-COMMAND, they mean it -- we shouldn't fall back on tthang() if mdmhup() fails, because maybe they have some special kind of connection. On the other hand, making this change prevents dialing from working at all in some cases. Further study needed. */ #ifndef NODIAL if (dohangup > 1) /* User asked for it */ if (mdmhup() < 1) /* Maybe hang up via modem */ #endif /* NODIAL */ tthang(); /* And make sure we don't hang up */ #else if (!network) { /* Serial connection. */ #ifndef NODIAL if (dialmhu) /* Hang up the way they said to. */ mdmhup(); else #endif /* NODIAL */ tthang(); } #endif /* COMMENT */ dologend(); dohangup = 0; /* again unless requested again. */ } if (quitnow) /* Exit now if requested. */ doexit(GOOD_EXIT,xitsta); if (msgflg #ifdef CK_APC && !apcactive #endif /* CK_APC */ ) printf("(Back at %s)", *myhost ? myhost : "local UNIX system"); #ifdef CK_APC if (!apcactive) #endif /* CK_APC */ printf("\n"); what = W_NOTHING; /* So console modes set right. */ #ifndef NOCSETS language = langsv; /* Restore language */ #endif /* NOCSETS */ #ifdef CK_APC debug(F101,"CONNECT exit apcactive","",apcactive); debug(F101,"CONNECT exit justone","",justone); #endif /* CK_APC */ if (msgflg) { #ifdef CK_APC if (apcactive == APC_LOCAL) printf("\n"); #endif /* CK_APC */ printf("----------------------------------------------------\n"); printbar = 1; } else printbar = 0; fflush(stdout); return(rc); } /* H C O N N E -- Give help message for connect. */ #define CXM_SER 1 /* Serial connections only */ #define CXM_NET 2 /* Network only (but not Telnet) */ #define CXM_TEL 4 /* Telnet only */ static struct hmsgtab { char * hmsg; int hflags; } hlpmsg[] = { {" ? or H for this message", 0}, {" 0 (zero) to send the NUL (0) character", 0}, {" B to send a BREAK signal (0.275sec)", CXM_SER}, #ifdef NETCONN {" B to send a network BREAK", CXM_NET}, {" B to send a Telnet BREAK", CXM_TEL}, #endif /* NETCONN */ #ifdef CK_LBRK {" L to send a Long BREAK (1.5sec)", CXM_SER}, #endif /* CK_LBRK */ #ifdef NETCONN {" I to send a network interrupt packet", CXM_NET}, {" I to send a Telnet Interrupt request", CXM_TEL}, #ifdef TNCODE {" A to send Telnet Are-You-There?", CXM_TEL}, #endif /* TNCODE */ #endif /* NETCONN */ {" U to hangup and close the connection", 0}, {" Q to hangup and quit Kermit", 0}, {" S for status", 0}, #ifdef NOPUSH {" ! to push to local shell (disabled)", 0}, {" Z to suspend (disabled)", 0}, #else {" ! to push to local shell", 0}, #ifdef NOJC {" Z to suspend (disabled)", 0}, #else {" Z to suspend", 0}, #endif /* NOJC */ #endif /* NOPUSH */ {" \\ backslash code:", 0}, {" \\nnn decimal character code", 0}, {" \\Onnn octal character code", 0}, {" \\Xhh hexadecimal character code;", 0}, {" terminate with Carriage Return.", 0}, {" Type the escape character again to send the escape character itself,", 0}, {" or press the space-bar to resume the CONNECT session.", 0}, {NULL, 0} }; int hconne() { int c, i, cxtype; if (network) cxtype = IS_TELNET() ? CXM_TEL : CXM_NET; else cxtype = CXM_SER; conol("\r\n----------------------------------------------------\r\n"); conoll("Press:"); conol(" C to return to "); conoll(*myhost ? myhost : "the C-Kermit prompt"); for (i = 0; hlpmsg[i].hmsg; i++) { if (!(hlpmsg[i].hflags) || (hlpmsg[i].hflags == cxtype)) conoll(hlpmsg[i].hmsg); } conol("Press a key>"); /* Prompt for command. */ c = CONGKS() & 0177; /* Get character, strip any parity. */ /* No key mapping or translation here */ if (c != CMDQ) conoll(""); conoll("----------------------------------------------------"); return(c); /* Return it. */ } /* D O E S C -- Process an escape character argument */ VOID #ifdef CK_ANSIC doesc(char c) #else doesc(c) char c; #endif /* CK_ANSIC */ /* doesc */ { CHAR d; debug(F101,"CONNECT doesc","",c); while (1) { if (c == escape) { /* Send escape character */ d = dopar((CHAR) c); ttoc((char) d); return; } else /* Or else look it up below. */ if (isupper(c)) c = tolower(c); switch(c) { case 'c': /* Escape back to prompt */ case '\03': cx_status = CSX_ESCAPE; #ifdef NOICP conoll(""); conoll(""); conoll( " WARNING: This version of C-Kermit has no command processor to escape" ); conoll( " back to. To return to your local system, log out from the remote and/or" ); conoll( " use the escape character followed by the letter U to close (hang Up) the" ); conoll( " connection. Resuming your session..." ); conoll(""); return; #else active = 0; conol("\r\n"); return; #endif /* NOICP */ case 'b': /* Send a BREAK signal */ case '\02': #ifdef CKLEARN learnchar(-7); #endif /* CKLEARN */ ttsndb(); return; #ifdef NETCONN case 'i': /* Send Interrupt */ case '\011': #ifdef TCPSOCKET if (network && IS_TELNET()) { /* TELNET */ temp[0] = (CHAR) IAC; /* I Am a Command */ temp[1] = (CHAR) TN_IP; /* Interrupt Process */ temp[2] = NUL; ttol((CHAR *)temp,2); } else #endif /* TCPSOCKET */ conoc(BEL); return; #ifdef TCPSOCKET case 'a': /* "Are You There?" */ case '\01': if (network && IS_TELNET()) { temp[0] = (CHAR) IAC; /* I Am a Command */ temp[1] = (CHAR) TN_AYT; /* Are You There? */ temp[2] = NUL; ttol((CHAR *)temp,2); } else conoc(BEL); return; #endif /* TCPSOCKET */ #endif /* NETCONN */ #ifdef CK_LBRK case 'l': /* Send a Long BREAK signal */ #ifdef CKLEARN learnchar(-8); #endif /* CKLEARN */ ttsndlb(); return; #endif /* CK_LBRK */ case 'u': /* Hangup */ /* case '\010': */ /* No, too dangerous */ cx_status = CSX_USERDISC; dohangup = 2; active = 0; conol("\r\nHanging up "); return; case 'q': /* Quit */ cx_status = CSX_USERDISC; dohangup = 2; quitnow = 1; active = 0; conol("\r\n"); return; case 's': /* Status */ conoll(""); conoll("----------------------------------------------------"); #ifdef PTYORPIPE if (ttpipe) ckmakmsg(temp,TMPLEN," Pipe: \"",ttname,"\"",NULL); else if (ttpty) ckmakmsg(temp,TMPLEN," Pty: \"",ttname,"\"",NULL); else #endif /* PTYORPIPE */ ckmakmsg(temp, TMPLEN, " ", (network ? "Host" : "Device"), ": ", ttname ); conoll(temp); /* The following sprintf's are safe, temp[] size is at least 200 */ if (!network && speed >= 0L) { sprintf(temp,"Speed %ld", speed); conoll(temp); } sprintf(temp," Terminal echo: %s", duplex ? "local" : "remote"); conoll(temp); sprintf(temp," Terminal bytesize: %d", (cmask == 0177) ? 7 : 8); conoll(temp); sprintf(temp," Command bytesize: %d", (cmdmsk == 0177) ? 7 : 8); conoll(temp); if (hwparity) sprintf(temp," Parity[hardware]: %s",parnam(hwparity)); else sprintf(temp," Parity: %s", parnam(parity)); conoll(temp); #ifndef NOXFER sprintf(temp," Autodownload: %s", autodl ? "on" : "off"); conoll(temp); #endif /* NOXFER */ ckmakmsg(temp, /* (would not be safe for sprintf) */ TMPLEN, " Session log: ", *sesfil ? sesfil : "(none)", NULL, NULL ); conoll(temp); #ifndef NOSHOW if (!network) shomdm(); #endif /* NOSHOW */ #ifdef CKLOGDIAL { long z; z = dologshow(0); if (z > -1L) { sprintf(temp," Elapsed time: %s",hhmmss(z)); conoll(temp); } } #endif /* CKLOGDIAL */ conoll("----------------------------------------------------"); return; case 'h': /* Help */ case '?': /* Help */ c = hconne(); continue; case '0': /* Send a null */ c = '\0'; d = dopar((CHAR) c); ttoc((char) d); return; case 'z': case '\032': /* Suspend */ #ifndef NOPUSH if (!nopush) stptrap(0); else conoc(BEL); #else conoc(BEL); #endif /* NOPUSH */ return; case '@': /* Start inferior command processor */ case '!': #ifndef NOPUSH if (!nopush) { conres(); /* Put console back to normal */ zshcmd(""); /* Fork a shell. */ if (conbin((char)escape) < 0) { cx_status = CSX_INTERNAL; printf("Error resuming CONNECT session\n"); active = 0; } } else conoc(BEL); #else conoc(BEL); #endif /* NOPUSH */ return; case SP: /* Space, ignore */ return; default: /* Other */ if (c == CMDQ) { /* Backslash escape */ int x; ecbp = ecbuf; *ecbp++ = c; while (((c = (CONGKS() & cmdmsk)) != '\r') && (c != '\n')) *ecbp++ = c; *ecbp = NUL; ecbp = ecbuf; x = xxesc(&ecbp); /* Interpret it */ if (x >= 0) { /* No key mapping here */ c = dopar((CHAR) x); ttoc((char) c); return; } else { /* Invalid backslash code. */ conoc(BEL); return; } } conoc(BEL); return; /* Invalid esc arg, beep */ } } } #endif /* NOLOCAL */