4.4BSD/usr/src/contrib/kermit-5A.188/ckuus5.c
#ifndef NOICP
/* C K U U S 5 -- "User Interface" for Unix Kermit, part 5 */
/*
Author: Frank da Cruz (fdc@columbia.edu, FDCCU@CUVMA.BITNET),
Columbia University Center for Computing Activities.
First released January 1985.
Copyright (C) 1985, 1992, Trustees of Columbia University in the City of New
York. Permission is granted to any individual or institution to use this
software as long as it is not sold for profit. This copyright notice must be
retained. This software may not be included in commercial products without
written permission of Columbia University.
*/
/* Includes */
#include "ckcdeb.h"
#include "ckcasc.h"
#include "ckcker.h"
#include "ckuusr.h"
#include "ckcnet.h"
#ifndef NOCSETS
#include "ckcxla.h"
#endif /* NOCSETS */
#ifdef MAC
#include "ckmasm.h"
#endif /* MAC */
/* For formatted screens, "more?" prompting, etc. */
#define SCRNLEN 21 /* Screen length */
#define SCRNWID 79 /* Screen width */
#ifdef FT18
#define isxdigit(c) isdigit(c)
#endif /* FT18 */
#ifdef MAC /* Internal MAC file routines */
#define feof mac_feof
#define rewind mac_rewind
#define fgets mac_fgets
#define fopen mac_fopen
#define fclose mac_fclose
int mac_feof();
void mac_rewind();
char *mac_fgets();
FILE *mac_fopen();
int mac_fclose();
#endif /* MAC */
/* External variables */
extern int carrier, cdtimo, local, backgrd, bgset, sosi, suspend,
displa, binary, deblog, escape, xargs, flow, cmdmsk,
duplex, ckxech, pktlog, seslog, tralog, what,
keep, warn, tlevel, cwdf, nfuncs, unkcs, msgflg,
mdmtyp, zincnt, cmask, rcflag, success, xitsta, pflag, lf_opts, tnlm, tn_nlm;
extern char *ccntab[];
#ifndef NOFRILLS
extern int en_cwd, en_del, en_dir, en_fin, en_bye,
en_get, en_hos, en_sen, en_set, en_spa, en_typ, en_who;
#endif /* NOFRILLS */
extern long vernum;
extern int srvtim, srvdis, incase, inecho, intime, insilence, nvars, verwho;
extern char *protv, *fnsv, *cmdv, *userv, *ckxv, *ckzv, *ckzsys, *xlav,
*cknetv, *clcmds;
extern char *connv, *dialv, *loginv, *nvlook();
#ifndef NOSCRIPT
extern int secho;
#endif /* NOSCRIPT */
#ifndef NODIAL
extern int nmdm;
extern struct keytab mdmtab[];
#endif /* NODIAL */
#ifdef NETCONN
extern int tn_init, network, ttnproto;
#endif /* NETCONN */
#ifdef OS2
extern int tt_type, tt_arrow, tt_keypad, tt_wrap;
#endif /* OS2 */
extern int tt_crd;
#ifndef NOCSETS
extern int language, nfilc, tcsr, tcsl;
extern struct keytab fcstab[];
#ifndef MAC
extern struct keytab ttcstab[];
#endif /* MAC */
#endif /* NOCSETS */
extern int atcapr,
atenci, atenco, atdati, atdato, atleni, atleno, atblki, atblko,
attypi, attypo, atsidi, atsido, atsysi, atsyso, atdisi, atdiso;
extern long speed;
extern char *DIRCMD, *PWDCMD, *DELCMD;
#ifndef NOXMIT
extern int xmitf, xmitl, xmitp, xmitx, xmits, xmitw;
extern char xmitbuf[];
#endif /* NOXMIT */
extern char **xargv, *versio, *ckxsys, *dftty, *cmarg, *lp;
#ifdef DCMDBUF
extern char *cmdbuf, *atmbuf; /* Command buffers */
#ifndef NOSPL
extern char *savbuf; /* Command buffers */
#endif /* NOSPL */
#else
extern char cmdbuf[], atmbuf[]; /* Command buffers */
#ifndef NOSPL
extern char savbuf[]; /* Command buffers */
#endif /* NOSPL */
#endif /* DCMDBUF */
extern char toktab[], ttname[], psave[];
extern CHAR sstate;
extern int cmflgs, techo, terror, repars, ncmd;
extern struct keytab cmdtab[];
#ifndef MAC
#ifndef NOSETKEY
KEY *keymap;
MACRO *macrotab;
#endif /* NOSETKEY */
#endif /* MAC */
#ifndef NOSPL
extern struct mtab *mactab;
extern struct keytab vartab[], fnctab[];
extern int cmdlvl, maclvl, nmac, mecho, merror;
#endif /* NOSPL */
FILE *tfile[MAXTAKE]; /* TAKE file stack */
char *tfnam[MAXTAKE];
#ifndef NOSPL
/* Local declarations */
int nulcmd = 0; /* Flag for next cmd to be ignored */
/* Definitions for built-in macros */
/* First, the single line macros, installed with addmac()... */
/* IBM-LINEMODE macro */
char *m_ibm = "set parity mark, set dupl half, set handsh xon, set flow none";
/* FATAL macro */
char *m_fat = "if def \\%1 echo \\%1, if not = \\v(local) 0 hangup, stop 1";
#ifdef COMMENT
/*
Long macro definitions were formerly done like this. But some compilers
cannot handle continued string constants, others cannot handle string
constants that are this long. So these definitions have been broken up
into pieces and put into arrays, see below.
*/
char *m_forx = "if def _floop ass \\%9 \\fdef(_floop),else def \\%9,\
ass _floop { _getargs,\
define \\\\\\%1 \\%2,:top,if \\%5 \\\\\\%1 \\%3 goto bot,\
\\%6,:inc, incr \\\\\\%1 \\%4,goto top,:bot,_putargs,return},\
def break goto bot, def continue goto inc,\
do _floop \\%1 \\%2 \\%3 \\%4 { \\%5 },assign _floop \\fcont(\\%9)";
char *m_while = "if def _wloop ass \\%9 \\fdef(_wloop),\
ass _wloop {_getargs,:wtest,\\%1,\\%2,goto wtest,:wbot,_putargs,return},\
def break goto wbot, def continue goto wtest,\
do _wloop,assign _wloop \\fcont(\\%9)";
char *m_xif = "ass \\%9 \\fdef(_ify),ass _ify {_getargs, \\%1, _putargs},\
do _ify,ass _ify \\fcont(\\%9)";
#endif /* COMMENT */
/* Now the multiline macros, defined with addmmac()... */
/* FOR macro */
char *for_def[] = { "_assign _for\\v(cmdlevel) { _getargs,",
"define \\\\\\%1 \\%2,:top,if \\%5 \\\\\\%1 \\%3 goto bot,",
"\\%6,:inc,incr \\\\\\%1 \\%4,goto top,:bot,_putargs},",
"def break goto bot, def continue goto inc,",
"do _for\\v(cmdlevel) \\%1 \\%2 \\%3 \\%4 { \\%5 },_assign _for\\v(cmdlevel)",
""};
#ifdef COMMENT
/*
This one didn't work right. When an interior loop finished executing,
the definition of the enclosing loop was restored, but the new definition
could be in a different location in memory, so its macro execution pointer
could (and usually was) pointing at garbage.
*/
char *old_for_def[] = { "if def _floop ass \\%9 \\fdef(_floop),else def \\%9,",
"ass _floop { _getargs,",
"define \\\\\\%1 \\%2,:top,if \\%5 \\\\\\%1 \\%3 goto bot,",
"\\%6,:inc, incr \\\\\\%1 \\%4,goto top,:bot,_putargs,return},",
"def break goto bot, def continue goto inc,",
"do _floop \\%1 \\%2 \\%3 \\%4 { \\%5 },assign _floop \\fcont(\\%9)",
""};
#endif /* COMMENT */
/* WHILE macro */
char *whil_def[] = { "_assign _whi\\v(cmdlevel) {_getargs,",
":wtest,\\%1,\\%2,goto wtest,:wbot,_putargs},",
"def break goto wbot, def continue goto wtest,",
"do _whi\\v(cmdlevel),_assign _whi\\v(cmdlevel)",
""};
#ifdef COMMENT
/*
Same deal as FOR loop...
*/
char *old_whil_def[] = { "if def _wloop asg \\%9 \\fdef(_wloop),",
"asg _wloop {_getargs,:wtest,\\%1,\\%2,goto wtest,:wbot,_putargs,return},",
"def break goto wbot, def continue goto wtest,",
"do _wloop,assign _wloop \\fcont(\\%9)",
""};
#endif /* COMMENT */
/* XIF macro */
char *xif_def[] = {
"_assign _if\\v(cmdlevel) {_getargs,\\%1,_putargs},",
"do _if\\v(cmdlevel),_assign _if\\v(cmdlevel)",
""};
#ifdef COMMENT
/* Same deal */
char *old_xif_def[] = {
"asg \\%9 \\fdef(_ify),ass _ify {_getargs, \\%1, _putargs},",
"do _ify,ass _ify \\fcont(\\%9)",
""};
#endif /* COMMENT */
/* Variables declared here for use by other ckuus*.c modules */
/* Space is allocated here to save room in ckuusr.c */
#ifdef DCMDBUF
struct cmdptr *cmdstk;
int *ifcmd, *count, *iftest;
#else
struct cmdptr cmdstk[CMDSTKL];
int ifcmd[CMDSTKL], count[CMDSTKL], iftest[CMDSTKL];
#endif /* DCMDBUF */
char *m_arg[MACLEVEL][NARGS];
char *g_var[GVARS], *macp[MACLEVEL], *mrval[MACLEVEL];
int macargc[MACLEVEL];
char *macx[MACLEVEL];
extern char varnam[];
char **a_ptr[27]; /* Array pointers, for arrays a-z */
int a_dim[27]; /* Dimensions for each array */
char inpbuf[INPBUFSIZ] = { NUL }; /* Buffer for INPUT and REINPUT */
char inpbufa[2] = { NUL, NUL }; /* Null terminators for INPUT buffer */
char inchar[2] = { NUL, NUL }; /* Last character that was INPUT */
int incount = 0; /* INPUT character count */
char lblbuf[50]; /* Buffer for labels */
#endif /* NOSPL */
#ifdef DCMDBUF
char *line; /* Character buffer for anything */
#else
char line[LINBUFSIZ];
#endif /* DCMDBUF */
#ifdef CK_CURSES
#ifndef TRMBUFL
#define TRMBUFL 1024
#endif /* TRMBUFL */
#ifdef DCMDBUF
char *trmbuf; /* Character buffer for termcap */
#else
char trmbuf[TRMBUFL];
#endif /* DCMDBUF */
#endif /* CK_CURSES */
extern char pktfil[],
#ifdef DEBUG
debfil[],
#endif /* DEBUG */
#ifdef TLOG
trafil[],
#endif /* TLOG */
sesfil[],
cmdstr[];
#ifndef NOFRILLS
extern int rmailf, rprintf; /* REMOTE MAIL & PRINT items */
extern char optbuf[];
#endif /* NOFRILLS */
char *homdir = ""; /* Pointer to home directory string */
char tmpbuf[50], *tp; /* Temporary buffer */
char numbuf[20]; /* Buffer for numeric strings. */
char kermrc[100]; /* Name of initialization file */
int noinit = 0; /* Flag for skipping init file */
#ifndef NOSPL
_PROTOTYP( static long expon, (long, long) );
_PROTOTYP( static long gcd, (long, long) );
_PROTOTYP( static long fact, (long) );
int /* Initialize macro data structures. */
macini() { /* Allocate mactab and preset the first element. */
if (!(mactab = (struct mtab *) malloc(sizeof(struct mtab) * MAC_MAX)))
return(-1);
mactab[0].kwd = NULL;
mactab[0].mval = NULL;
mactab[0].flgs = 0;
return(0);
}
#endif /* NOSPL */
/* C M D I N I -- Initialize the interactive command parser */
VOID
cmdini() {
int i, x, y, z;
#ifndef NOSPL
/*
On stack in case of recursion!
*/
char vnambuf[VNAML]; /* Buffer for variable names */
#endif /* NOSPL */
#ifndef MAC
#ifndef NOSETKEY /* Allocate & initialize the keymap */
if (!(keymap = (KEY *) malloc(sizeof(KEY)*KMSIZE)))
fatal("cmdini: no memory for keymap");
if (!(macrotab = (MACRO *) malloc(sizeof(MACRO)*KMSIZE)))
fatal("cmdini: no memory for macrotab");
for ( i = 0; i < KMSIZE; i++ ) {
keymap[i] = i;
macrotab[i] = NULL;
}
#ifdef OS2
keymapinit();
#endif /* OS2 */
#endif /* NOSETKEY */
#endif /* MAC */
#ifdef DCMDBUF
if (cmsetup() < 0) fatal("Can't allocate command buffers!");
#ifndef NOSPL
if (!(cmdstk = (struct cmdptr *) malloc(sizeof(struct cmdptr)*CMDSTKL)))
fatal("cmdini: no memory for cmdstk");
if (!(ifcmd = (int *) malloc(sizeof(int)*CMDSTKL)))
fatal("cmdini: no memory for ifcmd");
if (!(count = (int *) malloc(sizeof(int)*CMDSTKL)))
fatal("cmdini: no memory for count");
if (!(iftest = (int *) malloc(sizeof(int)*CMDSTKL)))
fatal("cmdini: no memory for iftest");
#endif /* NOSPL */
#ifdef CK_CURSES
/*
Termcap buffer for fullscreen display, UNIX only. VMS does it another way.
The fullscreen display is not supported on AOS/VS or OS-9, etc, yet, and
the Mac has its own built-in fullscreen display.
*/
#ifdef UNIX
if (!(trmbuf = malloc(TRMBUFL+1)))
fatal("cmdini: no memory for termcap buffer");
#endif /* UNIX */
#endif /* CK_CURSES */
if (!(line = malloc(LINBUFSIZ)))
fatal("cmdini: no memory for line");
#endif /* DCMDBUF */
#ifndef NOSPL
if (macini() < 0) fatal("Can't allocate macro buffers!");
#endif /* NOSPL */
#ifdef AMIGA
if (tlevel < 0)
concb(escape);
#endif /* AMIGA */
#ifndef NOSPL
cmdlvl = 0; /* Start at command level 0 */
cmdstk[cmdlvl].src = CMD_KB;
cmdstk[cmdlvl].lvl = 0;
#endif /* NOSPL */
tlevel = -1; /* Take file level = keyboard */
for (i = 0; i < MAXTAKE; i++) /* Initialize command file names */
tfnam[i] = NULL;
#ifdef MAC
cmsetp("Mac-Kermit>"); /* Set default prompt */
#else
cmsetp("C-Kermit>"); /* Set default prompt */
#endif /* MAC */
#ifndef NOSPL
initmac(); /* Initialize macro table */
/* Add one-line macros */
addmac("ibm-linemode",m_ibm); /* Add built-in macros. */
addmac("fatal",m_fat); /* FATAL macro. */
/* Add multiline macros */
addmmac("_forx",for_def); /* FOR macro. */
addmmac("_xif",xif_def); /* XIF macro. */
addmmac("_while",whil_def); /* WHILE macro. */
/* Fill in command line argument vector */
sprintf(vnambuf,"\\&@[%d]",xargs); /* Command line argument vector */
y = arraynam(vnambuf,&x,&z); /* goes in array \&@[] */
if (y > -1) {
dclarray((char)x,z); /* Declare the array */
for (i = 0; i < xargs; i++) { /* Fill it */
sprintf(vnambuf,"\\&@[%d]",i);
addmac(vnambuf,xargv[i]);
}
}
*vnambuf = NUL;
#endif /* NOSPL */
/* Get our home directory now. This needed in lots of places. */
homdir = zhome();
/* If skipping init file ('-Y' on Kermit command line), return now. */
if (noinit) return;
#ifdef OS2
/*
The -y init file must be fully specified or in the current directory.
KERMRC is looked for via INIT, PATH and DPATH in that order. Finally, our
own executable file path is taken and the .EXE suffix is replaced by .INI
and this is tried as initialization file.
*/
if (rcflag) {
strcpy(line, kermrc);
} else {
_searchenv(kermrc,"INIT",line);
if (line[0] == 0)
_searchenv(kermrc,"PATH",line);
if (line[0] == 0)
_searchenv(kermrc,"DPATH",line);
if (line[0] == 0) {
char *pgmptr = GetLoadPath();
if (pgmptr) {
lp = strrchr(pgmptr, '.');
strncpy(line, pgmptr, lp - pgmptr);
strcpy(line + (lp - pgmptr), ".ini");
}
}
}
if ((tfile[0] = fopen(line,"r")) != NULL) {
tlevel = 0;
if (tfnam[tlevel] = malloc(strlen(line)+1))
strcpy(tfnam[tlevel],line);
#ifndef NOSPL
cmdlvl++;
cmdstk[cmdlvl].src = CMD_TF;
cmdstk[cmdlvl].lvl = tlevel;
ifcmd[cmdlvl] = 0;
iftest[cmdlvl] = 0;
count[cmdlvl] = 0;
#endif /* NOSPL */
debug(F110,"init file",line,0);
} else {
debug(F100,"no init file","",0);
}
#else /* not OS2 */
lp = line;
lp[0] = '\0';
#ifdef GEMDOS
zkermini(line,rcflag, kermrc);
#else
#ifdef VMS
zkermini(line,LINBUFSIZ,kermrc);
#else /* not VMS */
if (rcflag) { /* If init file name from cmd line */
strcpy(lp,kermrc); /* use it */
} else { /* otherwise */
if (homdir) { /* look in home directory for it */
strcpy(lp,homdir);
if (lp[0] == '/') strcat(lp,"/");
}
strcat(lp,kermrc); /* and use the default name */
}
#endif /* VMS */
#endif /* GEMDOS */
#ifdef AMIGA
reqoff(); /* disable requestors */
#endif /* AMIGA */
debug(F110,"ini file is",line,0);
if ((tfile[0] = fopen(line,"r")) != NULL) {
tlevel = 0;
if (tfnam[tlevel] = malloc(strlen(line)+1))
strcpy(tfnam[tlevel],line);
#ifndef NOSPL
cmdlvl++;
ifcmd[cmdlvl] = 0;
iftest[cmdlvl] = 0;
count[cmdlvl] = 0;
debug(F101,"open ok","",cmdlvl);
cmdstk[cmdlvl].src = CMD_TF;
cmdstk[cmdlvl].lvl = tlevel;
#endif /* NOSPL */
debug(F110,"init file",line,0);
}
if (homdir && (tlevel < 0)) {
strcpy(lp,kermrc);
if ((tfile[0] = fopen(line,"r")) != NULL) {
tlevel = 0;
if (tfnam[tlevel] = malloc(strlen(line)+1))
strcpy(tfnam[tlevel],line);
#ifndef NOSPL
cmdlvl++;
cmdstk[cmdlvl].src = CMD_TF;
cmdstk[cmdlvl].lvl = tlevel;
ifcmd[cmdlvl] = 0;
iftest[cmdlvl] = 0;
count[cmdlvl] = 0;
#endif /* NOSPL */
}
}
#endif /* OS2 */
#ifdef AMIGA
reqpop(); /* Restore requestors */
#endif /* AMIGA */
}
#ifndef NOSPL
/*
G E T N C M
Get next command from current macro definition.
Moved to a separate routine in edit 181 to allow multiline GET
to work when issued in a macro.
Command is copied into string pointed to by argument s, max length n.
Returns:
0 if a string was copied, -1 if there was no string to copy.
*/
int
getncm(s,n) char *s; int n; {
int y, kp = 0, pp = 0;
char *s2;
s2 = s;
*s = NUL; /* Copy next cmd to command buffer. */
debug(F111,"getncm",s,n);
for (y = 0;
macp[maclvl] && *macp[maclvl] && y < n;
y++, s++, macp[maclvl]++) {
*s = *macp[maclvl]; /* Get next character */
debug(F000,"char","",*s);
/*
Allow braces around macro definition to prevent commas from being turned to
end-of-lines and also treat any commas within parens as text so that
multiple-argument functions won't cause the command to break prematurely.
*/
if (*s == '{') kp++; /* Count braces */
if (*s == '}') kp--;
if (*s == '(') pp++; /* Count parentheses. */
if (*s == ')') pp--;
if (*s == ',' && pp <= 0 && kp <= 0) {
macp[maclvl]++;
debug(F110,"next cmd",s,0);
kp = pp = 0;
break;
}
} /* Reached end. */
if (*s2 == NUL) { /* If nothing was copied, */
debug(F100,"getncm eom","",0);
popclvl(); /* pop command level. */
return(-1);
} else { /* otherwise, tack CR onto end */
*s++ = CR;
*s = '\0';
if (mecho && pflag)
printf("%s\n",s2);
debug(F101,"getncm returns ptr to",s2,0);
}
return(0);
}
#endif /* NOSPL */
/*
G E T N C T
Get next command from current TAKE file.
Moved to a separate routine in edit 181 to allow multiline GET
to work when issued in a macro.
Command is copied into string pointed to by argument s, max length n.
Returns:
0 if a string was copied,
-1 on EOF,
-2 on malloc failure
-3 if line not properly terminated
*/
int
getnct(s,n) char *s; int n; {
int i, j;
char c, *s2, *lp, *lp2;
s2 = s; /* Remember original pointer */
debug(F101,"getnct","",n);
if (!(lp2 = (char *) malloc(n+1))) { /* Get a temporary buffer */
debug(F101,"getnct malloc failure","",0);
return(-2);
}
lp = lp2; /* Make a working pointer */
/* (lp2 must not change!) */
while (1) { /* Loop to read lines from file */
if (fgets(lp2,n,tfile[tlevel]) == NULL) { /* EOF */
free(lp2); /* Free temporary storage */
*s = NUL; /* Make destination be empty */
return(-1); /* Return failure code */
}
debug(F110,"Line from TAKE file",lp2,0); /* Got a line */
if (techo && pflag) /* If TAKE ECHO ON, */
printf("%s",lp2); /* echo it. */
lp = lp2; /* Make a working pointer */
/* Trim trailing whitespace */
j = strlen(lp2) - 1; /* Position of line terminator */
if (j < 0) j = 0;
c = lp2[j]; /* Value of line terminator */
if (c < LF || c > CR) { /* It's not a terminator */
debug(F111,"getnct bad line",lp2,c);
if (feof(tfile[tlevel]) && j > 0 && j < n) {
printf("Warning: Last line of TAKE file lacks terminator\n");
c = lp2[++j] = '\n';
} else return(-3);
}
for (i = j - 1; i > -1; i--) /* Back up over spaces and tabs */
if (lp2[i] != SP && lp2[i] != HT && lp2[i] != NUL)
break;
lp2[i+1] = c; /* Move after last nonblank char */
lp2[i+2] = NUL; /* Terminate the string */
while (*s++ = *lp++) { /* Copy result to target buffer */
if (--n < 2) {
printf("?Command too long, maximum length: %d.\n",CMDBL);
free(lp2);
return(dostop());
}
/* Check for trailing comment, " ;" or " #" */
if ((s > s2 + 1) &&
(*(s-1) == ';' || *(s-1) == '#') &&
(*(s-2) == SP || *(s-2) == HT)) {
debug(F100,"Trailing comment","",0);
s -= 2; /* Got one, back up buffer pointer */
n += 2; /* and adjust free space count. */
while ((s >= s2) /* Trim whitespace again. */
&& (*s == SP || *s == HT))
s--, n++;
s++; /* Point after last character */
*s++ = c; /* Put back line terminator */
*s++ = NUL; /* and string terminator */
n -= 3; /* Adjust free count */
debug(F110,"Comment trimmed & terminated",s2,0);
break;
}
}
/* Check whether this line is continued */
debug(F000,"Last char in line","",*(s-3));
if (*(s - 3) != CMDQ && *(s - 3) != '-') /* Line continued? */
break; /* No, done. */
s -= 3; /* No, back up pointer */
debug(F100,"Got continue char","",0); /* and continue */
}
untab(s2); /* Done, convert tabs to spaces */
free(lp2); /* Free temporary storage */
return(0); /* Return success */
}
/* P A R S E R -- Top-level interactive command parser. */
/*
Call with:
m = 0 for normal behavior: keep parsing and executing commands
until an action command is parsed, then return with a
Kermit start-state as the value of this function.
m = 1 to parse only one command, can also be used to call parser()
recursively.
m = 2 to read but do not execute one command.
In all cases, parser() returns:
0 if no Kermit protocol action required
> 0 with a Kermit protocol start-state.
< 0 upon error.
*/
int
parser(m) int m; {
int tfcode, xx, yy, zz; /* Workers */
#ifndef NOSPL
int inlevel; /* Level we were called at */
#endif /* NOSPL */
char *cbp; /* Command buffer pointer */
#ifdef MAC
extern char *lfiles; /* Fake extern cast */
#endif /* MAC */
#ifdef AMIGA
reqres(); /* restore AmigaDOS requestors */
#endif /* AMIGA */
what = W_COMMAND; /* Now we're parsing commands. */
#ifndef NOSPL
if (cmdlvl == 0) /* If at top (interactive) level, */
#else
if (tlevel < 0)
#endif /* NOSPL */
concb((char)escape); /* put console in cbreak mode. */
#ifndef NOSPL
ifcmd[0] = 0; /* Command-level related variables */
iftest[0] = 0; /* initialize variables at top level */
count[0] = 0; /* of stack... */
inlevel = cmdlvl; /* Current macro level */
debug(F101,"&parser entry maclvl","",maclvl);
debug(F101,"&parser entry inlevel","",inlevel);
debug(F101,"&parser entry tlevel","",tlevel);
debug(F101,"&parser entry cmdlvl","",cmdlvl);
debug(F101,"&parser entry m","",m);
#endif /* NOSPL */
/*
sstate becomes nonzero when a command has been parsed that requires some
action from the protocol module. Any non-protocol actions, such as local
directory listing or terminal emulation, are invoked directly from below.
*/
#ifdef COMMENT
if (local && pflag) /* Just returned from connect? */
printf("\n");
#endif /* COMMENT */
sstate = 0; /* Start with no start state. */
#ifndef NOFRILLS
rmailf = rprintf = 0; /* MAIL and PRINT modifiers for SEND */
*optbuf = NUL; /* MAIL and PRINT options */
#endif /* NOFRILLS */
while (sstate == 0) { /* Parse cmds until action requested */
debug(F100,"top of parse loop","",0);
/* Take requested action if there was an error in the previous command */
#ifndef MAC
conint(trap,stptrap); /* In case we were just fg'd */
bgchk(); /* Check background status */
#endif /* MAC */
debug(F101,"tlevel","",tlevel);
#ifndef NOSPL /* In case we just reached top level */
debug(F101,"cmdlvl","",cmdlvl);
if (cmdlvl == 0) concb((char)escape);
#else
if (tlevel < 0) concb((char)escape);
#endif /* NOSPL */
#ifndef NOSPL
if (success == 0) {
if (cmdstk[cmdlvl].src == CMD_TF && terror) {
printf("Command error: take file terminated.\n");
popclvl();
if (cmdlvl == 0) return(0);
}
if (cmdstk[cmdlvl].src == CMD_MD && merror) {
printf("Command error: macro terminated.\n");
popclvl();
if (m && (cmdlvl < inlevel))
return((int) sstate);
}
}
nulcmd = (m == 2);
#else
if (success == 0 && tlevel > -1 && terror) {
printf("Command error: take file terminated.\n");
popclvl();
cmini(ckxech); /* Clear the cmd buffer. */
if (tlevel < 0) /* Just popped out of cmd files? */
return(0); /* End of init file or whatever. */
}
#endif /* NOSPL */
#ifdef MAC
/* Check for TAKE initiated by menu. */
if ((tlevel == -1) && lfiles)
startlfile();
#endif /* MAC */
/* If in TAKE file, check for EOF */
#ifndef NOSPL
#ifdef MAC
if
#else
while
#endif /* MAC */
((cmdstk[cmdlvl].src == CMD_TF) /* If end of take file */
&& (tlevel > -1)
&& feof(tfile[tlevel])) {
popclvl(); /* pop command level */
cmini(ckxech); /* and clear the cmd buffer. */
if (cmdlvl == 0) /* Just popped out of all cmd files? */
return(0); /* End of init file or whatever. */
}
#ifdef MAC
miniparser(1);
if (sstate == 'a') { /* if cmd-. cancel */
debug(F100, "parser: cancel take due to sstate", "", sstate);
sstate = '\0';
dostop();
return(0); /* End of init file or whatever. */
}
#endif /* MAC */
#else /* NOSPL */
if ((tlevel > -1) && feof(tfile[tlevel])) { /* If end of take */
popclvl(); /* Pop up one level. */
cmini(ckxech); /* and clear the cmd buffer. */
if (tlevel < 0) /* Just popped out of cmd files? */
return(0); /* End of init file or whatever. */
}
#endif /* NOSPL */
#ifndef NOSPL
if (cmdstk[cmdlvl].src == CMD_MD) { /* Executing a macro? */
debug(F100,"parser macro","",0);
maclvl = cmdstk[cmdlvl].lvl; /* Get current level */
debug(F101,"parser maclvl","",maclvl);
cbp = cmdbuf; /* Copy next cmd to command buffer. */
*cbp = NUL;
if (*savbuf) { /* In case then-part of 'if' command */
strcpy(cbp,savbuf); /* was saved, restore it. */
*savbuf = '\0';
} else { /* Else get next cmd from macro def */
if (getncm(cbp,CMDBL) < 0) {
if (m && (cmdlvl < inlevel))
return((int) sstate);
else /* if (!m) */ continue;
}
}
debug(F110,"cmdbuf from macro",cmdbuf,0);
} else if (cmdstk[cmdlvl].src == CMD_TF)
#else
if (tlevel > -1)
#endif /* NOSPL */
{
#ifndef NOSPL
if (*savbuf) { /* In case THEN-part of IF command */
strcpy(cmdbuf,savbuf); /* was saved, restore it. */
*savbuf = '\0';
} else
#endif /* NOSPL */
/* Get next line from TAKE file */
if ((tfcode = getnct(cmdbuf,CMDBL)) < 0) {
if (tfcode < -1) { /* Error */
printf("?Error in TAKE command file: %s\n",
(tfcode == -2) ? "Memory allocation failure" :
"Line too long or contains NUL characters"
);
popclvl();
}
continue; /* -1 means EOF */
}
/* If interactive, get next command from user. */
} else { /* User types it in. */
if (pflag) prompt(xxstring);
cmini(ckxech);
}
/* Now know where next command is coming from. Parse and execute it. */
repars = 1; /* 1 = command needs parsing */
displa = 0; /* Assume no file transfer display */
while (repars) { /* Parse this cmd until entered. */
debug(F101,"parser top of while loop","",0);
cmres(); /* Reset buffer pointers. */
xx = cmkey2(cmdtab,ncmd,"Command","",toktab,xxstring);
debug(F101,"top-level cmkey2","",xx);
if (xx == -5) {
yy = chktok(toktab);
debug(F101,"top-level cmkey token","",yy);
ungword();
switch (yy) {
#ifndef NOPUSH
case '!': xx = XXSHE; break; /* Shell escape */
#endif /* NOPUSH */
case '#': xx = XXCOM; break; /* Comment */
case ';': xx = XXCOM; break; /* Comment */
#ifndef NOSPL
case ':': xx = XXLBL; break; /* GOTO label */
#endif /* NOSPL */
#ifndef NOPUSH
case '@': xx = XXSHE; break; /* Shell (DCL) escape */
#endif /* NOPUSH */
default:
printf("\n?Invalid - %s\n",cmdbuf);
xx = -2;
}
}
#ifndef NOSPL
/* Special handling for IF..ELSE */
if (ifcmd[cmdlvl]) /* Count stmts after IF */
ifcmd[cmdlvl]++;
if (ifcmd[cmdlvl] > 2 && xx != XXELS && xx != XXCOM)
ifcmd[cmdlvl] = 0;
/* Execute the command and take action based on return code. */
if (nulcmd) { /* Ignoring this command? */
xx = XXCOM; /* Make this command a comment. */
}
#endif /* NOSPL */
zz = docmd(xx); /* Parse rest of command & execute. */
debug(F101,"docmd returns","",zz);
#ifdef MAC
if (tlevel > -1) {
if (sstate == 'a') { /* if cmd-. cancel */
debug(F110, "parser: cancel take, sstate:", "a", 0);
sstate = '\0';
dostop();
return(0); /* End of init file or whatever. */
}
}
#endif /* MAC */
switch (zz) {
case -4: /* EOF (e.g. on redirected stdin) */
doexit(GOOD_EXIT,xitsta); /* ...exit successfully */
case -1: /* Reparse needed */
repars = 1; /* Just set reparse flag and */
continue;
case -6: /* Invalid command given w/no args */
case -2: /* Invalid command given w/args */
#ifdef COMMENT
#ifndef NOSPL
/* This is going to be really ugly... */
yy = mlook(mactab,atmbuf,nmac); /* Look in macro table */
if (yy > -1) { /* If it's there */
if (zz == -2) { /* insert "do" */
char *mp;
mp = malloc((int)strlen(cmdbuf) + 5);
if (!mp) {
printf("?malloc error 1\n");
return(-2);
}
sprintf(mp,"do %s ",cmdbuf);
strcpy(cmdbuf,mp);
free(mp);
} else sprintf(cmdbuf,"do %s %c",atmbuf, CR);
if (ifcmd[cmdlvl] == 2) /* This one doesn't count! */
ifcmd[cmdlvl]--;
debug(F111,"stuff cmdbuf",cmdbuf,zz);
repars = 1; /* go for reparse */
continue;
} else {
char *p;
int n;
p = cmdbuf;
lp = line;
n = LINBUFSIZ;
if (cmflgs == 0) printf("\n");
if (xxstring(p,&lp,&n) > -1)
printf("?Invalid: %s\n",line);
else
printf("?Invalid: %s\n",cmdbuf);
} /* (fall thru...) */
#else
printf("?Invalid: %s\n",cmdbuf);
#endif /* NOSPL */
#else
printf("?Invalid: %s\n",cmdbuf);
#endif /* COMMENT */
case -9: /* Bad, error message already done */
success = 0;
debug(F110,"top-level cmkey failed",cmdbuf,0);
if (pflag == 0) /* if background, terminate */
fatal("Kermit command error in background execution");
cmini(ckxech); /* (fall thru) */
case -3: /* Empty command OK at top level */
repars = 0; /* Don't need to reparse. */
continue; /* Go back and get another command. */
default: /* Command was successful. */
#ifndef NOSPL
debug(F101,"parser preparing to continue","",maclvl);
#endif /* NOSPL */
repars = 0; /* Don't need to reparse. */
continue; /* Go back and get another command. */
}
}
#ifndef NOSPL
debug(F101,"parser breaks out of while loop","",maclvl);
if (m && (cmdlvl < inlevel)) return((int) sstate);
#endif /* NOSPL */
}
/* Got an action command, return start state. */
#ifdef COMMENT
/* This is done in ckcpro.w instead, no need to do it twice. */
/* Interrupts off only if remote */
if (!local) connoi();
#endif /* COMMENT */
return((int) sstate);
}
#ifndef NOSPL
/* OUTPUT command */
int /* This could easily become a macro */
#ifdef CK_ANSIC
xxout(char c)
#else
xxout(c) char c;
#endif /* CK_ANSIC */
/* xxout */ { /* Function to output a character. */
debug(F101,"xxout","",c);
if (local) /* If in local mode */
return(ttoc(c)); /* then to the external line */
else return(conoc(c)); /* otherwise to the console. */
}
/* Returns 0 on failure, 1 on success */
int
dooutput(s) char *s; {
int x, y, quote;
if (local) { /* Condition external line */
y = ttvt(speed,flow);
if (y < 0) return(0);
}
quote = 0; /* Initialize backslash (\) quote */
#ifdef COMMENT
/* This is done automatically in ttopen() now... */
#ifdef TNCODE
if (network && ttnproto == NP_TELNET) /* If telnet connection, */
if (!tn_init++) tn_ini(); /* initialize it if necessary */
#endif /* TNCODE */
#endif /* COMMENT */
while (x = *s++) { /* Loop through the string */
y = 0; /* Error code, 0 = no error. */
if (x == CMDQ) { /* Look for \b or \B in string */
quote++; /* Got \ */
continue; /* Get next character */
} else if (quote) { /* This character is quoted */
if (quote == 1 && (x == 'b' || x == 'B')) { /* If \b or \B */
debug(F100,"OUTPUT BREAK","",0);
ttsndb(); /* send BREAK signal */
quote = 0; /* Turn off quote flag */
continue; /* and not the b or B */
#ifdef CK_LBRK
} else if (quote == 1 && (x == 'l' || x == 'L')) { /* \l or \L */
debug(F100,"OUTPUT Long BREAK","",0);
ttsndlb(); /* send Long BREAK signal */
quote = 0; /* Turn off quote flag */
continue; /* and not the l or L */
#endif /* CK_LBRK */
} else { /* if \ not followed by b or B */
y = xxout(dopar(CMDQ)); /* output the backslash. */
quote = 0; /* Turn off quote flag */
}
} else quote = 0; /* Turn off quote flag */
y = xxout(dopar((char)x)); /* Output this character */
if (y < 0) {
printf("output error.\n");
return(0);
}
if (x == '\015') { /* User typed carriage return */
if (tnlm /* If TERMINAL NEWLINE-MODE is ON */
#ifdef TNCODE
|| (network && /* Or we have a network connection */
ttnproto == NP_TELNET && /* using TELNET protocol */
tn_nlm /* and TELNET NEWLINE-MODE is ON */
)
#endif /* TNCODE */
)
xxout(dopar('\012')); /* Send LF too (CR => CRLF) */
}
if (seslog && duplex)
if (zchout(ZSFILE,(char)x) < 0) seslog = 0;
}
return(1);
}
#endif /* NOSPL */
/* Display version herald and initial prompt */
VOID
herald() {
int x = 0;
if (bgset > 0 || (bgset != 0 && backgrd != 0)) x = 1;
debug(F101,"herald","",backgrd);
if (x == 0)
#ifdef datageneral
printf("%s,%s\nType ? or HELP for help\n",versio,ckxsys);
#else
printf("%s,%s\n\rType ? or HELP for help\n",versio,ckxsys);
#endif /* datageneral */
}
#ifndef NOSPL
/* M L O O K -- Lookup the macro name in the macro table */
/*
Call this way: v = mlook(table,word,n);
table - a 'struct mtab' table.
word - the target string to look up in the table.
n - the number of elements in the table.
The keyword table must be arranged in ascending alphabetical order, and
all letters must be lowercase.
Returns the table index, 0 or greater, if the name was found, or:
-3 if nothing to look up (target was null),
-2 if ambiguous,
-1 if not found.
A match is successful if the target matches a keyword exactly, or if
the target is a prefix of exactly one keyword. It is ambiguous if the
target matches two or more keywords from the table.
*/
int
mlook(table,cmd,n) struct mtab table[]; char *cmd; int n; {
int i, v, cmdlen;
/* Lowercase & get length of target, if it's null return code -3. */
if ((((cmdlen = lower(cmd))) == 0) || (n < 1)) return(-3);
/* Not null, look it up */
for (i = 0; i < n-1; i++) {
if (!strcmp(table[i].kwd,cmd) ||
((v = !strncmp(table[i].kwd,cmd,cmdlen)) &&
strncmp(table[i+1].kwd,cmd,cmdlen))) {
return(i);
}
if (v) return(-2);
}
/* Last (or only) element */
if (!strncmp(table[n-1].kwd,cmd,cmdlen)) {
return(n-1);
} else return(-1);
}
/* mxlook is like mlook, but an exact full-length match is required */
int
mxlook(table,cmd,n) char *cmd; struct mtab table[]; int n; {
int i, cmdlen;
if ((((cmdlen = lower(cmd))) == 0) || (n < 1)) return(-3);
for (i = 0; i < n; i++)
if (((int)strlen(table[i].kwd) == cmdlen) &&
(!strncmp(table[i].kwd,cmd,cmdlen))) return(i);
return(-1);
}
/*
This routine is for the benefit of those compilers that can't handle
long string constants or continued lines within them. Long predefined
macros like FOR, WHILE, and XIF have their contents broken up into
arrays of string pointers. This routine concatenates them back into a
single string again, and then calls the real addmac() routine to enter
the definition into the macro table.
*/
int
addmmac(nam,s) char *nam, *s[]; { /* Add a multiline macro definition */
int i, x, y; char *p;
x = 0; /* Length counter */
for (i = 0; (y = (int)strlen(s[i])) > 0; i++) { /* Add up total length */
debug(F111,"addmmac line",s[i],y);
x += y;
}
debug(F101,"addmmac lines","",i);
debug(F101,"addmmac loop exit","",y);
debug(F111,"addmmac length",nam,x);
if (x < 0) return(-1);
p = malloc(x+1); /* Allocate space for all of it. */
if (!p) {
printf("?addmmac malloc error: %s\n",nam);
debug(F110,"addmmac malloc error",nam,0);
return(-1);
}
*p = '\0'; /* Start off with null string. */
for (i = 0; *s[i]; i++) /* Concatenate them all together. */
strcat(p,s[i]);
y = (int)strlen(p); /* Final precaution. */
debug(F111,"addmmac constructed string",p,y);
if (y == x) {
y = addmac(nam,p); /* Add result to the macro table. */
} else {
debug(F100,"addmmac length mismatch","",0);
printf("\n!addmmac internal error!\n");
y = -1;
}
free(p); /* Free the temporary copy. */
return(y);
}
/* Here is the real addmac routine. */
int
addmac(nam,def) char *nam, *def; { /* Add a macro to the macro table */
int i, x, y, z, namlen, deflen;
char *p, c;
if (!nam) return(-1);
namlen = (int)strlen(nam); /* Get argument lengths */
debug(F111,"addmac nam",nam,namlen);
if (!def) { /* Watch out for null pointer */
deflen = 0;
debug(F111,"addmac def","(null pointer)",deflen);
} else {
deflen = (int)strlen(def);
debug(F111,"addmac def",def,deflen);
}
if (deflen < 0) return(-1); /* strlen() failure, fail. */
if (namlen < 1) return(-1); /* No name given, fail. */
if (*nam == CMDQ) nam++; /* Backslash quote? */
if (*nam == '%') { /* Yes, if it's a variable name, */
delmac(nam); /* Delete any old value. */
if (!(c = *(nam + 1))) return(-1); /* Variable name letter or digit */
if (deflen < 1) { /* Null definition */
p = NULL; /* Better not malloc or strcpy! */
} else { /* A substantial definition */
p = malloc(deflen + 1); /* Allocate space for it */
if (!p) {
printf("?addmac malloc error 2\n");
return(-1);
} else strcpy(p,def); /* Copy definition into new space */
}
/* Now p points to the definition, or is a null pointer */
if (p)
debug(F110,"addmac p",p,0);
else
debug(F110,"addmac p","(null pointer)",0);
if (c >= '0' && c <= '9') { /* Digit variable */
if (maclvl < 0) { /* Are we calling or in a macro? */
g_var[c] = p; /* No, it's a global "top level" one */
debug(F101,"addmac numeric global maclvl","",maclvl);
} else { /* Yes, it's a macro argument */
m_arg[maclvl][c - '0'] = p;
debug(F101,"addmac macro arg maclvl","",maclvl);
}
} else { /* It's a global variable */
if (c < 33 || c > GVARS) return(-1);
if (isupper(c)) c = tolower(c);
g_var[c] = p; /* Put pointer in global-var table */
debug(F100,"addmac global","",0);
}
return(0);
} else if (*nam == '&') { /* An array reference? */
char **q;
if ((y = arraynam(nam,&x,&z)) < 0) /* If syntax is bad */
return(-1); /* return -1. */
if (chkarray(x,z) < 0) /* If array not declared or */
return(-2); /* subscript out of range, ret -2 */
delmac(nam); /* Delete any current definition. */
x -= 96; /* Convert name letter to index. */
if ((q = a_ptr[x]) == NULL) /* If array not declared, */
return(-3); /* return -3. */
if (deflen > 0) {
if ((p = malloc(deflen+1)) == NULL) { /* Allocate space */
printf("addmac macro error 7: %s\n",nam);
return(-4); /* for new def, return -4 on fail. */
}
strcpy(p,def); /* Copy definition into new space. */
} else p = NULL;
q[z] = p; /* Store pointer to it. */
return(0); /* Done. */
} else debug(F110,"addmac macro def",nam,0);
/* Not a macro argument or a variable, so it's a macro definition */
lower(nam); /* Lowercase the name */
if (mxlook(mactab,nam,nmac) > -1) /* Look up, requiring exact match */
delmac(nam); /* if it's there, delete it. */
debug(F111,"addmac table size",nam,nmac);
for (y = 0; /* Find the alphabetical slot */
y < MAC_MAX && mactab[y].kwd != NULL && strcmp(nam,mactab[y].kwd) > 0;
y++) ;
if (y == MAC_MAX) { /* No more room. */
debug(F101,"addmac table overflow","",y);
return(-1);
} else debug(F111,"addmac position",nam,y);
if (mactab[y].kwd != NULL) { /* Must insert */
for (i = nmac; i > y; i--) { /* Move the rest down one slot */
mactab[i].kwd = mactab[i-1].kwd;
mactab[i].mval = mactab[i-1].mval;
mactab[i].flgs = mactab[i-1].flgs;
}
}
p = malloc(namlen + 1); /* Allocate space for name */
if (!p) {
printf("?addmac malloc error 3: %s\n",nam);
return(-1);
}
strcpy(p,nam); /* Copy name into new space */
mactab[y].kwd = p; /* Add pointer to table */
if (deflen > 0) { /* Same deal for definition */
p = malloc(deflen + 1); /* but watch out for null pointer */
if (p == NULL) {
printf("?addmac malloc error 5: %s\n", nam);
free(mactab[y].kwd);
mactab[y].kwd = NULL;
return(-1);
} else strcpy(p,def); /* Copy the definition */
} else p = NULL;
mactab[y].mval = p;
mactab[y].flgs = 0;
nmac++; /* Count this macro */
return(y);
}
int
delmac(nam) char *nam; { /* Delete the named macro */
int i, x, z;
char *p, c;
if (!nam) return(0); /* Watch out for null pointer */
debug(F110,"delmac nam",nam,0);
if (*nam == CMDQ) nam++;
if (*nam == '%') { /* If it's a variable name */
if (!(c = *(nam+1))) return(0); /* Get variable name letter or digit */
p = (char *)0; /* Initialize value pointer */
if (maclvl > -1 && c >= '0' && c <= '9') { /* Digit? */
p = m_arg[maclvl][c - '0']; /* Get pointer from macro-arg table */
m_arg[maclvl][c - '0'] = NULL; /* Zero the table pointer */
} else { /* It's a global variable */
if (c < 33 || c > GVARS) return(0);
p = g_var[c]; /* Get pointer from global-var table */
g_var[c] = NULL; /* Zero the table entry */
}
if (p) {
debug(F110,"delmac def",p,0);
free(p); /* Free the storage */
} else debug(F110,"delmac def","(null pointer)",0);
return(0);
}
if (*nam == '&') { /* An array reference? */
char **q;
if (arraynam(nam,&x,&z) < 0) /* If syntax is bad */
return(-1); /* return -1. */
x -= 96; /* Convert name to number. */
if ((q = a_ptr[x]) == NULL) /* If array not declared, */
return(-2); /* return -2. */
if (z > a_dim[x]) /* If subscript out of range, */
return(-3); /* return -3. */
if (q[z]) { /* If there is an old value, */
debug(F110,"delman def",q[z],0);
free(q[z]); /* delete it. */
q[z] = NULL;
} else debug(F110,"delmac def","(null pointer)",0);
}
/* Not a variable or an array, so it must be a macro. */
if ((x = mlook(mactab,nam,nmac)) < 0) { /* Look it up */
debug(F111,"delmac mlook",nam,x);
return(x);
}
if (mactab[x].kwd) /* Free the storage for the name */
free(mactab[x].kwd);
if (mactab[x].mval) /* and for the definition */
free(mactab[x].mval);
for (i = x; i < nmac; i++) { /* Now move up the others. */
mactab[i].kwd = mactab[i+1].kwd;
mactab[i].mval = mactab[i+1].mval;
mactab[i].flgs = mactab[i+1].flgs;
}
nmac--; /* One less macro */
mactab[nmac].kwd = NULL; /* Delete last item from table */
mactab[nmac].mval = NULL;
mactab[nmac].flgs = 0;
return(0);
}
VOID
initmac() { /* Init macro & variable tables */
int i, j;
nmac = 0; /* No macros */
for (i = 0; i < MAC_MAX; i++) { /* Initialize the macro table */
mactab[i].kwd = NULL;
mactab[i].mval = NULL;
mactab[i].flgs = 0;
}
for (i = 0; i < MACLEVEL; i++) { /* Init the macro argument tables */
mrval[i] = NULL;
for (j = 0; j < 10; j++) {
m_arg[i][j] = NULL;
}
}
for (i = 0; i < GVARS; i++) { /* And the global variables table */
g_var[i] = NULL;
}
for (i = 0; i < 26; i++) { /* And the table of arrays */
a_ptr[i] = (char **) NULL; /* Null pointer for each */
a_dim[i] = 0; /* and a dimension of zero */
}
}
int
popclvl() { /* Pop command level, return cmdlvl */
if (cmdlvl < 1) { /* If we're already at top level */
cmdlvl = 0; /* just make sure all the */
tlevel = -1; /* stack pointers are set right */
maclvl = -1; /* and return */
} else if (cmdstk[cmdlvl].src == CMD_TF) { /* Reading from TAKE file? */
if (tlevel > -1) { /* Yes, */
if (tfnam[tlevel]) {
free(tfnam[tlevel]);
tfnam[tlevel] = NULL;
}
fclose(tfile[tlevel--]); /* close it and pop take level */
cmdlvl--; /* pop command level */
} else tlevel = -1;
} else if (cmdstk[cmdlvl].src == CMD_MD) { /* In a macro? */
if (maclvl > -1) { /* Yes, */
debug(F111,"popclvl before",macx[maclvl],maclvl);
macp[maclvl] = ""; /* set macro pointer to null string */
*cmdbuf = '\0'; /* clear the command buffer */
if (mrval[maclvl+1]) { /* Free any deeper return values. */
free(mrval[maclvl+1]);
mrval[maclvl+1] = NULL;
}
maclvl--; /* pop macro level */
cmdlvl--; /* and command level */
debug(F111,"popclvl after ",
macx[maclvl] ? macx[maclvl] : "",maclvl);
} else maclvl = -1;
}
#ifndef MAC
if (cmdlvl < 1) { /* If back at top level */
conint(trap,stptrap); /* Fix interrupts */
bgchk(); /* Check background status */
concb((char)escape); /* Go into cbreak mode */
}
#endif /* MAC */
return(cmdlvl < 1 ? 0 : cmdlvl); /* Return command level */
}
#else /* No script programming language */
int popclvl() { /* Just close current take file. */
if (tlevel > -1) { /* if any... */
if (tfnam[tlevel]) {
free(tfnam[tlevel]);
tfnam[tlevel] = NULL;
}
fclose(tfile[tlevel--]);
}
if (tlevel == -1) { /* And if back at top level */
conint(trap,stptrap); /* check and set interrupts */
bgchk(); /* and background status */
concb((char)escape); /* and go back into cbreak mode. */
}
return(tlevel + 1);
}
#endif /* NOSPL */
/* STOP - get back to C-Kermit prompt, no matter where from. */
int
dostop() {
while ( popclvl() ) ; /* Pop all macros & take files */
#ifndef NOSPL
while (cmpop() > -1) ; /* And all recursive cmd pkg invocations */
#endif /* NOSPL */
cmini(ckxech); /* Clear the command buffer. */
return(0);
}
/* Close the given log */
int
doclslog(x) int x; {
int y;
switch (x) {
#ifdef DEBUG
case LOGD:
if (deblog == 0) {
printf("?Debugging log wasn't open\n");
return(0);
}
*debfil = '\0';
deblog = 0;
return(zclose(ZDFILE));
#endif /* DEBUG */
case LOGP:
if (pktlog == 0) {
printf("?Packet log wasn't open\n");
return(0);
}
*pktfil = '\0';
pktlog = 0;
return(zclose(ZPFILE));
case LOGS:
if (seslog == 0) {
printf("?Session log wasn't open\n");
return(0);
}
*sesfil = '\0';
seslog = 0;
return(zclose(ZSFILE));
#ifdef TLOG
case LOGT:
if (tralog == 0) {
printf("?Transaction log wasn't open\n");
return(0);
}
*trafil = '\0';
tralog = 0;
return(zclose(ZTFILE));
#endif /* TLOG */
#ifndef NOSPL
case LOGW: /* WRITE file */
case LOGR: /* READ file */
y = (x == LOGR) ? ZRFILE : ZWFILE;
if (chkfn(y) < 1) /* If no file to close */
return(1); /* succeed silently. */
return(zclose(y)); /* Otherwise, close the file. */
#endif /* NOSPL */
default:
printf("\n?Unexpected log designator - %ld\n", x);
return(0);
}
}
#ifndef NOSERVER
#ifndef NOFRILLS
static char *nm[] = { "disabled", "enabled" };
#endif /* NOFRILLS */
#endif /* NOSERVER */
static int slc = 0; /* Screen line count */
#ifndef NOSHOW
#ifndef NOFRILLS
#define xxdiff(v,sys) strncmp(v,sys,strlen(sys))
VOID
shover() {
printf("\nVersions:\n %s\n Numeric: %ld",versio,vernum);
if (verwho) printf("-%d",verwho);
printf(xxdiff(ckxv,ckxsys) ? "\n %s for%s\n" : "\n %s\n",ckxv,ckxsys);
printf(xxdiff(ckzv,ckzsys) ? " %s for%s\n" : " %s\n",ckzv,ckzsys);
printf(" %s\n",protv);
printf(" %s\n",fnsv);
printf(" %s\n %s\n",cmdv,userv);
#ifndef NOCSETS
printf(" %s\n",xlav);
#endif /* NOCSETS */
#ifndef MAC
printf(" %s\n",connv);
#endif /* MAC */
#ifndef NODIAL
printf(" %s\n",dialv);
#endif /* NODIAL */
#ifndef NOSCRIPT
printf(" %s\n",loginv);
#endif /* NOSCRIPT */
#ifdef NETCONN
printf(" %s\n",cknetv);
#endif /* NETCONN */
printf("\n");
}
VOID
shofea() {
#ifdef OS2
#ifdef M_I286
printf("\nOS/2 16-bit.\n");
#else
printf("\nOS/2 32-bit.\n");
#endif /* M_I286 */
#endif /* OS2 */
printf("\nSpecial features:\n");
#ifdef NETCONN
printf(" Network support (type SHOW NET for further info)\n");
#endif /* NETCONN */
#ifndef NOCSETS
printf(" Latin-1 (West European) character-set translation\n");
#ifdef LATIN2
printf(" Latin-2 (East European) character-set translation\n");
#endif /* LATIN2 */
#ifdef CYRILLIC
printf(" Cyrillic (Russian, Ukrainian, etc) character-set translation\n");
#endif /* CYRILLIC */
#ifdef KANJI
printf(" Kanji (Japanese) character-set translation\n");
#endif /* KANJI */
#endif /* NOCSETS */
#ifdef CK_CURSES
printf(" Fullscreen file transfer display\n");
#endif /* CK_CURSES */
printf("\nFeatures not included:\n");
#ifndef CK_CURSES
#ifndef MAC
printf(" No fullscreen file transfer display\n");
#endif /* MAC */
#endif /* CK_CURSES */
#ifdef NOSERVER
printf(" No server mode\n");
#endif /* NOSERVER */
#ifdef NODEBUG
printf(" No debugging\n");
#endif /* NODEBUG */
#ifdef NOTLOG
printf(" No transaction log\n");
#endif /* NOTLOG */
#ifdef NOHELP
printf(" No built-in help\n");
#endif /* NOHELP */
#ifndef NETCONN
printf(" No network support\n");
#endif /* NETCONN */
#ifdef NOMSEND
printf(" No MSEND command\n");
#endif /* NOMSEND */
#ifdef NODIAL
printf(" No DIAL command\n");
#else
#ifdef MINIDIAL
printf(" DIAL command for modems other than Hayes, CCITT, and Unknown\n");
#endif /* MINIDIAL */
#endif /* NODIAL */
#ifdef NOXMIT
printf(" No TRANSMIT command\n");
#endif /* NOXMIT */
#ifdef NOSCRIPT
printf(" No SCRIPT command\n");
#endif /* NOSCRIPT */
#ifdef NOSPL
printf(" No script programming features\n");
#endif /* NOSPL */
#ifdef NOCSETS
printf(" No character-set translation\n");
#else
#ifndef LATIN2
printf(" No Latin-2 character-set translation\n");
#endif /* LATIN2 */
#ifdef NOCYRIL
printf(" No Cyrillic character-set translation\n");
#endif /* NOCYRIL */
#ifndef KANJI
printf(" No Kanji character-set translation\n");
#endif /* KANJI */
#endif /* NOCSETS */
#ifdef NOCMDL
printf(" No command-line arguments\n");
#endif /* NOCMDL */
#ifdef NOFRILLS
printf(" No frills\n");
#endif /* NOFRILLS */
#ifdef NOPUSH
printf(" No escape to system\n");
#endif /* NOPUSH */
#ifdef NOJC
#ifdef UNIX
printf(" No UNIX job control\n");
#endif /* UNIX */
#endif /* NOJC */
#ifdef NOSETKEY
printf(" No SET KEY command\n");
#endif /* NOSETKEY */
#ifdef NOESCSEQ
printf(" No ANSI escape sequence recognition\n");
#endif /* NOESCSEQ */
#ifndef PARSENSE
printf(" No automatic parity detection\n");
#endif /* PARSENSE */
/*
Print all of Kermit's compile-time options, as well as C preprocessor
predefined symbols that might affect us...
*/
printf("\nCompiler options:\n");
#ifdef DEBUG
#ifdef IFDEBUG
prtopt(" IFDEBUG");
#else
prtopt(" DEBUG");
#endif /* IFDEBUG */
#endif /* DEBUG */
#ifdef TLOG
prtopt(" TLOG");
#endif /* TLOG */
#ifdef NODIAL
prtopt(" NODIAL");
#endif /* NODIAL */
#ifdef MINIDIAL
prtopt(" MINIDIAL");
#endif /* MINIDIAL */
#ifdef DYNAMIC
prtopt(" DYNAMIC");
#endif /* IFDEBUG */
#ifndef NOSPL
sprintf(line," CMDDEP=%d",CMDDEP);
prtopt(line);
#endif /* NOSPL */
#ifdef UNIX
prtopt(" UNIX");
#endif /* UNIX */
#ifdef VMS
prtopt(" VMS");
#endif /* VMS */
#ifdef vms
prtopt(" vms");
#endif /* vms */
#ifdef VMSSHARE
prtopt(" VMSSHARE");
#endif /* VMSSHARE */
#ifdef datageneral
prtopt(" datageneral");
#endif /* datageneral */
#ifdef apollo
prtopt(" apollo");
#endif /* apollo */
#ifdef aegis
prtopt(" aegis");
#endif /* aegis */
#ifdef A986
prtopt(" A986");
#endif /* A986 */
#ifdef AMIGA
prtopt(" AMIGA");
#endif /* AMIGA */
#ifdef CONVEX9
prtopt(" CONVEX9");
#endif /* CONVEX9 */
#ifdef MAC
prtopt(" MAC");
#endif /* MAC */
#ifdef AUX
prtopt(" AUX");
#endif /* AUX */
#ifdef OS2
prtopt(" OS2");
#endif /* OS2 */
#ifdef OS9
prtopt(" OS9");
#endif /* OS9 */
#ifdef MSDOS
prtopt(" MSDOS");
#endif /* MSDOS */
#ifdef DIRENT
prtopt(" DIRENT");
#endif /* DIRENT */
#ifdef SDIRENT
prtopt(" SDIRENT");
#endif /* SDIRENT */
#ifdef NDIR
prtopt(" NDIR");
#endif /* NDIR */
#ifdef XNDIR
prtopt(" XNDIR");
#endif /* XNDIR */
#ifdef MATCHDOT
prtopt(" MATCHDOT");
#endif /* MATCHDOT */
#ifdef SAVEDUID
prtopt(" SAVEDUID");
#endif /* SAVEDUID */
#ifdef NOCCTRAP
prtopt(" NOCCTRAP");
#endif /* NOCCTRAP */
#ifdef SUNX25
prtopt(" SUNX25");
#endif /* SUNX25 */
#ifdef DECNET
prtopt(" DECNET");
#endif /* DECNET */
#ifdef ATT7300
prtopt(" ATT7300");
#endif /* ATT7300 */
#ifdef ATT6300
prtopt(" ATT6300");
#endif /* ATT6300 */
#ifdef HDBUUCP
prtopt(" HDBUUCP");
#endif /* HDBUUCP */
#ifdef NOUUCP
prtopt(" NOUUCP");
#endif /* NOUUCP */
#ifdef LONGFN
prtopt(" LONGFN");
#endif /* LONGFN */
#ifdef RDCHK
prtopt(" RDCHK");
#endif /* RDCHK */
#ifdef NAP
prtopt(" NAP");
#endif /* NAP */
#ifdef NAPHACK
prtopt(" NAPHACK");
#endif /* NAPHACK */
#ifdef NOIEXTEN
prtopt(" NOIEXTEN");
#endif /* NOIEXTEN */
#ifdef EXCELAN
prtopt(" EXCELAN");
#endif /* EXCELAN */
#ifdef PARAMH
prtopt(" PARAMH");
#endif /* PARAMH */
#ifdef INTERLAN
prtopt(" INTERLAN");
#endif /* INTERLAN */
#ifdef NOFILEH
prtopt(" NOFILEH");
#endif /* NOFILEH */
#ifdef NOSYSIOCTLH
prtopt(" NOSYSIOCTLH");
#endif /* NOSYSIOCTLH */
#ifdef DCLPOPEN
prtopt(" DCLPOPEN");
#endif /* DCLPOPEN */
#ifdef NOSETBUF
prtopt(" NOSETBUF");
#endif /* NOSETBUF */
#ifdef NOFDZERO
prtopt(" NOFDZERO");
#endif /* NOFDZERO */
#ifdef NOPOPEN
prtopt(" NOPOPEN");
#endif /* NOPOPEN */
#ifdef NOPARTIAL
prtopt(" NOPARTIAL");
#endif /* NOPARTIAL */
#ifdef NOSETREU
prtopt(" NOSETREU");
#endif /* NOSETREU */
#ifdef _POSIX_SOURCE
prtopt(" _POSIX_SOURCE");
#endif /* _POSIX_SOURCE */
#ifdef LCKDIR
prtopt(" LCKDIR");
#endif /* LCKDIR */
#ifdef ACUCNTRL
prtopt(" ACUCNTRL");
#endif /* ACUCNTRL */
#ifdef BSD4
prtopt(" BSD4");
#endif /* BSD4 */
#ifdef BSD44
prtopt(" BSD44");
#endif /* BSD44 */
#ifdef BSD41
prtopt(" BSD41");
#endif /* BSD41 */
#ifdef BSD43
prtopt(" BSD43");
#endif /* BSD43 */
#ifdef BSD29
prtopt(" BSD29");
#endif /* BSD29 */
#ifdef V7
prtopt(" V7");
#endif /* V7 */
#ifdef AIX370
prtopt(" AIX370");
#endif /* AIX370 */
#ifdef RTAIX
prtopt(" RTAIX");
#endif /* RTAIX */
#ifdef HPUX
prtopt(" HPUX");
#endif /* HPUX */
#ifdef HPUXPRE65
prtopt(" HPUXPRE65");
#endif /* HPUXPRE65 */
#ifdef DGUX
prtopt(" DGUX");
#endif /* DGUX */
#ifdef DGUX430
prtopt(" DGUX430");
#endif /* DGUX430 */
#ifdef DGUX540
prtopt(" DGUX540");
#endif /* DGUX540 */
#ifdef sony_news
prtopt(" sony_news");
#endif /* sony_news */
#ifdef CIE
prtopt(" CIE");
#endif /* CIE */
#ifdef XENIX
prtopt(" XENIX");
#endif /* XENIX */
#ifdef SCO_XENIX
prtopt(" SCO_XENIX");
#endif /* SCO_XENIX */
#ifdef ISIII
prtopt(" ISIII");
#endif /* ISIII */
#ifdef I386IX
prtopt(" I386IX");
#endif /* I386IX */
#ifdef RTU
prtopt(" RTU");
#endif /* RTU */
#ifdef PROVX1
prtopt(" PROVX1");
#endif /* PROVX1 */
#ifdef TOWER1
prtopt(" TOWER1");
#endif /* TOWER1 */
#ifdef UTEK
prtopt(" UTEK");
#endif /* UTEK */
#ifdef ZILOG
prtopt(" ZILOG");
#endif /* ZILOG */
#ifdef TRS16
prtopt(" TRS16");
#endif /* TRS16 */
#ifdef MINIX
prtopt(" MINIX");
#endif /* MINIX */
#ifdef C70
prtopt(" C70");
#endif /* C70 */
#ifdef AIXPS2
prtopt(" AIXPS2");
#endif /* AIXPS2 */
#ifdef AIXRS
prtopt(" AIXRS");
#endif /* AIXRS */
#ifdef UTSV
prtopt(" UTSV");
#endif /* UTSV */
#ifdef ATTSV
prtopt(" ATTSV");
#endif /* ATTSV */
#ifdef SVR3
prtopt(" SVR3");
#endif /* SVR3 */
#ifdef SVR4
prtopt(" SVR4");
#endif /* SVR4 */
#ifdef DELL_SVR4
prtopt(" DELL_SVR4");
#endif /* DELL_SVR4 */
#ifdef ICL_SVR4
prtopt(" ICL_SVR4");
#endif /* ICL_SVR4 */
#ifdef OSF
prtopt(" OSF");
#endif /* OSF */
#ifdef PTX
prtopt(" PTX");
#endif /* PTX */
#ifdef POSIX
prtopt(" POSIX");
#endif /* POSIX */
#ifdef SOLARIS
prtopt(" SOLARIS");
#endif /* SOLARIS */
#ifdef SUNOS4
prtopt(" SUNOS4");
#endif /* SUNOS4 */
#ifdef SUN4S5
prtopt(" SUN4S5");
#endif /* SUN4S5 */
#ifdef ENCORE
prtopt(" ENCORE");
#endif /* ENCORE */
#ifdef ultrix
prtopt(" ultrix");
#endif
#ifdef sxaE50
prtopt(" sxaE50");
#endif
#ifdef mips
prtopt(" mips");
#endif
#ifdef MIPS
prtopt(" MIPS");
#endif
#ifdef vax
prtopt(" vax");
#endif
#ifdef VAX
prtopt(" VAX");
#endif
#ifdef sun
prtopt(" sun");
#endif
#ifdef sun3
prtopt(" sun3");
#endif
#ifdef sun386
prtopt(" sun386");
#endif
#ifdef _SUN
prtopt(" _SUN");
#endif
#ifdef sun4
prtopt(" sun4");
#endif
#ifdef sparc
prtopt(" sparc");
#endif
#ifdef NEXT
prtopt(" NEXT");
#endif
#ifdef NeXT
prtopt(" NeXT");
#endif
#ifdef sgi
prtopt(" sgi");
#endif
#ifdef M_SYS5
prtopt(" M_SYS5");
#endif
#ifdef __SYSTEM_FIVE
prtopt(" __SYSTEM_FIVE");
#endif
#ifdef sysV
prtopt(" sysV");
#endif
#ifdef M_XENIX /* SCO Xenix V and UNIX/386 */
prtopt(" M_XENIX");
#endif
#ifdef M_UNIX
prtopt(" M_UNIX");
#endif
#ifdef M_I386
prtopt(" M_I386");
#endif
#ifdef _M_I386
prtopt(" _M_I386");
#endif
#ifdef i386
prtopt(" i386");
#endif
#ifdef i286
prtopt(" i286");
#endif
#ifdef M_I286
prtopt(" M_I286");
#endif
#ifdef mc68000
prtopt(" mc68000");
#endif
#ifdef mc68010
prtopt(" mc68010");
#endif
#ifdef mc68020
prtopt(" mc68020");
#endif
#ifdef mc68030
prtopt(" mc68030");
#endif
#ifdef mc68040
prtopt(" mc68040");
#endif
#ifdef M_68000
prtopt(" M_68000");
#endif
#ifdef M_68010
prtopt(" M_68010");
#endif
#ifdef M_68020
prtopt(" M_68020");
#endif
#ifdef M_68030
prtopt(" M_68030");
#endif
#ifdef M_68040
prtopt(" M_68040");
#endif
#ifdef m68k
prtopt(" m68k");
#endif
#ifdef m88k
prtopt(" m88k");
#endif
#ifdef pdp11
prtopt(" pdp11");
#endif
#ifdef iAPX
prtopt(" iAPX");
#endif
#ifdef __hp9000s800
prtopt(" __hp9000s800");
#endif
#ifdef __hp9000s500
prtopt(" __hp9000s500");
#endif
#ifdef __hp9000s300
prtopt(" __hp9000s300");
#endif
#ifdef __hp9000s200
prtopt(" __hp9000s200");
#endif
#ifdef AIX
prtopt(" AIX");
#endif
#ifdef _AIXFS
prtopt(" _AIXFS");
#endif
#ifdef u370
prtopt(" u370");
#endif
#ifdef u3b
prtopt(" u3b");
#endif
#ifdef u3b2
prtopt(" u3b2");
#endif
#ifdef multimax
prtopt(" multimax");
#endif
#ifdef balance
prtopt(" balance");
#endif
#ifdef ibmrt
prtopt(" ibmrt");
#endif
#ifdef _IBMRT
prtopt(" _IBMRT");
#endif
#ifdef ibmrs6000
prtopt(" ibmrs6000");
#endif
#ifdef _AIX
prtopt(" _AIX");
#endif /* _AIX */
#ifdef _IBMR2
prtopt(" _IBMR2");
#endif
#ifdef __STRICT_BSD__
prtopt(" __STRICT_BSD__");
#endif
#ifdef __STRICT_ANSI__
prtopt(" __STRICT_ANSI__");
#endif
#ifdef _ANSI_C_SOURCE
prtopt(" _ANSI_C_SOURCE");
#endif
#ifdef __STDC__
prtopt(" __STDC__");
#endif
#ifdef __GNUC__ /* gcc in ansi mode */
prtopt(" __GNUC__");
#endif
#ifdef GNUC /* gcc in traditional mode */
prtopt(" GNUC");
#endif
#ifdef CK_ANSIC
prtopt(" CK_ANSIC");
#endif
#ifdef CK_ANSILIBS
prtopt(" CK_ANSILIBS");
#endif
#ifdef _XOPEN_SOURCE
prtopt(" _XOPEN_SOURCE");
#endif
#ifdef _ALL_SOURCE
prtopt(" _ALL_SOURCE");
#endif
#ifdef _SC_JOB_CONTROL
prtopt(" _SC_JOB_CONTROL");
#endif
#ifdef _POSIX_JOB_CONTROL
prtopt(" _POSIX_JOB_CONTROL");
#endif
#ifdef SVR3JC
prtopt(" SVR3JC");
#endif
#ifdef _386BSD
prtopt(" _386BSD");
#endif
#ifdef _BSD
prtopt(" _BSD");
#endif
#ifdef TERMIOX
prtopt(" TERMIOX");
#endif /* TERMIOX */
#ifdef STERMIOX
prtopt(" STERMIOX");
#endif /* STERMIOX */
#ifdef CK_CURSES
prtopt(" CK_CURSES");
#endif /* CK_CURSES */
#ifdef CK_DTRCD
prtopt(" CK_DTRCD");
#endif /* CK_DTRCD */
#ifdef CK_DTRCTS
prtopt(" CK_DTRCTS");
#endif /* CK_DTRCTS */
#ifdef CK_RTSCTS
prtopt(" CK_RTSCTS");
#endif /* CK_RTSCTS */
prtopt((char *)0);
printf("\n\n");
}
#endif /* NOFRILLS */
#endif /* NOSHOW */
#ifdef VMS
int
sholbl() {
printf("VMS Labeled File Features:\n");
printf(" acl %s (ACL info %s)\n",
lf_opts & LBL_ACL ? "on " : "off",
lf_opts & LBL_ACL ? "preserved" : "discarded");
printf(" backup-date %s (backup date/time %s)\n",
lf_opts & LBL_BCK ? "on " : "off",
lf_opts & LBL_BCK ? "preserved" : "discarded");
printf(" name %s (original filename %s)\n",
lf_opts & LBL_NAM ? "on " : "off",
lf_opts & LBL_NAM ? "preserved" : "discarded");
printf(" owner %s (original file owner id %s)\n",
lf_opts & LBL_OWN ? "on " : "off",
lf_opts & LBL_OWN ? "preserved" : "discarded");
printf(" path %s (original file's disk:[directory] %s)\n",
lf_opts & LBL_PTH ? "on " : "off",
lf_opts & LBL_PTH ? "preserved" : "discarded");
}
#endif /* VMS */
#ifndef NOSHOW
VOID
shotcs(cs1,cs2) int cs1, cs2; { /* Show terminal character set */
#ifndef NOCSETS
#ifndef MAC
int y;
char *s;
#ifdef CK_ANSIC
int gettcs(int, int);
#else
int gettcs();
#endif /* CK_ANSIC */
printf(" Terminal character-set");
if (cs1 == cs2) {
printf(": transparent\n");
} else {
s = "unknown";
for (y = 0; y <= nfilc; y++) /* Look up name in keyword table */
if (ttcstab[y].kwval == cs2) {
if (ttcstab[y].flgs & CM_INV) /* Skip synonyms */
continue;
s = ttcstab[y].kwd;
break;
}
printf("s:\n Remote: %s\n Local: ",s);
s = "unknown";
for (y = 0; y <= nfilc; y++)
if (ttcstab[y].kwval == cs1) {
if (ttcstab[y].flgs & CM_INV) /* Skip synonyms */
continue;
s = ttcstab[y].kwd;
break;
}
printf("%s",s);
if (cs2 != cs1) {
switch(gettcs(cs2,cs1)) {
case TC_USASCII: s = "ascii"; break;
case TC_1LATIN: s = "latin1-iso"; break;
case TC_2LATIN: s = "latin2-iso"; break;
case TC_CYRILL: s = "cyrillic-iso"; break;
case TC_JEUC: s = "japanese-euc"; break;
default: s = "transparent"; break;
}
printf("\n Via: %s\n",s);
}
}
#endif /* MAC */
#endif /* NOCSETS */
}
#endif /* NOSHOW */
#ifndef NOSHOW
int
doshow(x) int x; {
int y, i; long zz;
char *s;
#ifndef NOSETKEY
if (x == SHKEY) { /* SHOW KEY */
int c;
KEY ch;
CHAR *s;
if ((y = cmcfm()) < 0) return(y);
#ifdef MAC
printf("Not implemented\n");
return(0);
#else /* Not MAC */
printf(" Press key: ");
#ifdef UNIX
#ifdef NOSETBUF
fflush(stdout);
#endif /* NOSETBUF */
#endif /* UNIX */
conbin((char)escape); /* Put terminal in binary mode */
c = congks(0); /* Get character or scan code */
concb((char)escape); /* Restore terminal to cbreak mode */
if (c < 0) { /* Check for error */
printf("?Error reading key\n");
return(0);
}
#ifndef OS2
/*
Do NOT mask when it can be a raw scan code, perhaps > 255
*/
c &= cmdmsk; /* Apply command mask */
#endif /* OS2 */
printf("\n Key code \\%d => ",c);
if (macrotab[c]) { /* See if there's a macro */
printf("String: "); /* If so, display its definition */
s = macrotab[c];
while (ch = *s++)
if (ch < 32 || ch == 127
/*
Systems whose native character sets have graphic characters in C1...
*/
#ifndef NEXT /* NeXT */
#ifndef AUX /* Macintosh */
#ifndef XENIX /* IBM PC */
#ifndef OS2 /* IBM PC */
|| (ch > 127 && ch < 160)
#endif /* OS2 */
#endif /* XENIX */
#endif /* AUX */
#endif /* NEXT */
)
printf("\\{%d}",ch); /* Display control characters */
else putchar((char) ch); /* in backslash notation */
printf("\n");
} else { /* No macro, show single character */
printf("Character: ");
ch = keymap[c];
if (ch < 32 || ch == 127 || ch > 255
#ifndef NEXT
#ifndef AUX
#ifndef XENIX
#ifndef OS2
|| (ch > 127 && ch < 160)
#endif /* OS2 */
#endif /* XENIX */
#endif /* AUX */
#endif /* NEXT */
)
printf("\\%d",(unsigned int) ch);
else printf("%c \\%d",ch,(unsigned int) ch);
}
if (ch == (KEY) c)
printf(" (self, no translation)\n");
else printf("\n");
return(1);
#endif /* MAC */
}
#endif /* NOSETKEY */
#ifndef NOSPL
if (x == SHMAC) { /* SHOW MACRO */
x = cmfld("Macro name, or carriage return to see them all","",&s,
NULL);
if (x == -3) /* This means they want see all */
*line = '\0';
else if (x < 0) /* Otherwise negative = parse error */
return(x);
else /* 0 or greater */
strcpy(line,s); /* means they typed something */
if ((y = cmcfm()) < 0) return(y); /* Get confirmation */
if (*line) {
slc = 0; /* Initial SHO MAC line number */
x = mlook(mactab,s,nmac); /* Look up what they typed */
switch (x) {
case -3: /* Nothing to look up */
return(0);
case -1: /* Not found */
printf("%s - not found\n",s);
return(0);
case -2: /* Ambiguous, matches more than one */
y = (int)strlen(line);
slc = 1;
for (x = 0; x < nmac; x++)
if (!strncmp(mactab[x].kwd,line,y))
if (shomac(mactab[x].kwd,mactab[x].mval) < 0) break;
return(1);
default: /* Matches one exactly */
shomac(mactab[x].kwd,mactab[x].mval);
return(1);
}
} else { /* They want to see them all */
printf("Macros:\n");
slc = 1;
for (y = 0; y < nmac; y++)
if (shomac(mactab[y].kwd,mactab[y].mval) < 0) break;
return(1);
}
}
#endif /* NOSPL */
/*
Other SHOW commands only have two fields. Get command confirmation here,
then handle with big switch() statement.
*/
if ((y = cmcfm()) < 0) return(y);
switch (x) {
#ifdef SUNX25
case SHPAD:
shopad();
break;
#endif /* SUNX25 */
#ifdef NETCONN
case SHNET:
shonet();
break;
#endif /* NETCONN */
case SHPAR:
shopar();
break;
case SHATT:
shoatt();
break;
#ifndef NOSPL
case SHCOU:
printf(" %d\n",count[cmdlvl]);
break;
#endif /* NOSPL */
#ifndef NOSERVER
case SHSER: /* Show Server */
#ifndef NOFRILLS
printf("Function Status:\n");
printf(" GET %s\n",nm[en_get]);
printf(" SEND %s\n",nm[en_sen]);
printf(" REMOTE CD/CWD %s\n",nm[en_cwd]);
printf(" REMOTE DELETE %s\n",nm[en_del]);
printf(" REMOTE DIRECTORY %s\n",nm[en_dir]);
printf(" REMOTE HOST %s\n",nm[en_hos]);
printf(" REMOTE SET %s\n",nm[en_set]);
printf(" REMOTE SPACE %s\n",nm[en_spa]);
printf(" REMOTE TYPE %s\n",nm[en_typ]);
printf(" REMOTE WHO %s\n",nm[en_who]);
printf(" BYE %s\n",nm[en_bye]);
printf(" FINISH %s\n",nm[en_fin]);
#endif /* NOFRILLS */
printf("Server timeout: %d\n",srvtim);
printf("Server display: %s\n\n", srvdis ? "on" : "off");
break;
#endif /* NOSERVER */
case SHSTA: /* Status of last command */
printf( " %s\n", success ? "SUCCESS" : "FAILURE" );
return(0); /* Don't change it */
#ifdef MAC
case SHSTK: { /* Stack for MAC debugging */
long sp;
sp = -1;
loadA0 ((char *)&sp); /* set destination address */
SPtoaA0(); /* move SP to destination */
printf("Stack at 0x%x\n", sp);
show_queue(); /* more debugging */
break;
}
#endif /* MAC */
case SHTER:
printf(" Command bytesize: %d bits\n",
(cmdmsk == 0377) ? 8 : 7);
printf(" Terminal bytesize: %d bits\n",
(cmask == 0377) ? 8 : 7);
#ifdef OS2
printf(" Terminal type: %s\n",
(tt_type == TT_VT102) ? "VT102" : "VT52");
#endif /* OS2 */
printf(" Terminal echo: %s\n", duplex ? "local" : "remote");
printf(" Terminal locking-shift: %s\n", sosi ? "on" : "off");
printf(" Terminal newline-mode: %s\n", tnlm ? "on" : "off");
printf(" Terminal cr-display: %s\n",
tt_crd ? "crlf" : "normal");
#ifdef OS2
/* Should show cursor and colors here too... */
printf(" Terminal arrow-keys: %s\n",
tt_arrow ? "cursor" : "application");
printf(" Terminal keypad-mode: %s\n",
tt_keypad ? "numeric" : "application");
printf(" Terminal wrap: %s\n", tt_wrap ? "on" : "off");
#endif /* OS2 */
#ifndef NOCSETS
shotcs(tcsl,tcsr);
#endif /* NOCSETS */
printf(" CONNECT-mode escape character: %d (Ctrl-%c, %s)\n",
escape,ctl(escape),(escape == 127 ? "DEL" : ccntab[escape]));
#ifdef UNIX
printf(" Suspend: %s\n", suspend ? "on" : "off");
#endif /* UNIX */
break;
#ifndef NOFRILLS
case SHVER:
shover();
break;
#endif /* NOFRILLS */
#ifndef NOSPL
case SHBUI: /* Built-in variables */
i = 0;
for (y = 0; y < nvars; y++) {
printf(" \\v(%s) = %s\n",vartab[y].kwd,nvlook(vartab[y].kwd));
if (++i > SCRNLEN) { /* More than a screenful... */
if (!askmore())
break;
else
i = 0;
}
}
break;
case SHFUN: /* Functions */
for (y = 0; y < nfuncs; y++)
printf(" \\f%s()\n",fnctab[y].kwd);
break;
case SHVAR: /* Global variables */
x = 0; /* Variable count */
slc = 1; /* Screen line count for "more?" */
for (y = 33; y < GVARS; y++)
if (g_var[y]) {
if (x++ == 0) printf("Global variables:\n");
sprintf(line," \\%%%c",y);
if (shomac(line,g_var[y]) < 0) break;
}
if (!x) printf(" No variables defined\n");
break;
case SHARG: /* Args */
if (maclvl > -1) {
printf("Macro arguments at level %d\n",maclvl);
for (y = 0; y < 10; y++)
if (m_arg[maclvl][y])
printf(" \\%%%d = %s\n",y,m_arg[maclvl][y]);
} else {
printf(" No macro arguments at top level\n");
}
break;
case SHARR: /* Arrays */
x = 0;
for (y = 0; y < 27; y++)
if (a_ptr[y]) {
if (x == 0) printf("Declared arrays:\n");
x = 1;
printf(" \\&%c[%d]\n",(y == 0) ? 64 : y + 96, a_dim[y]);
}
if (!x) printf(" No arrays declared\n");
break;
#endif /* NOSPL */
case SHPRO: /* Protocol parameters */
shoparp();
printf("\n");
break;
case SHCOM: /* Communication parameters */
printf("\n");
shoparc();
#ifndef NODIAL
printf("\n");
#ifdef NETCONN
if (!network)
#endif /* NETCONN */
shodial();
#endif /* NODIAL */
printf("\n");
shomdm();
printf("\n");
break;
case SHFIL: /* File parameters */
shoparf();
printf("\n");
break;
#ifndef NOCSETS
case SHLNG: /* Languages */
shoparl();
break;
#endif /* NOCSETS */
#ifndef NOSPL
case SHSCR: /* Scripts */
printf(" Take Echo: %s\n", techo ? "On" : "Off");
printf(" Take Error: %s\n", terror ? "On" : "Off");
printf(" Macro Echo: %s\n", mecho ? "On" : "Off");
printf(" Macro Error: %s\n", merror ? "On" : "Off");
printf(" Input Case: %s\n", incase ? "Observe" : "Ignore");
printf(" Input Echo: %s\n", inecho ? "On" : "Off");
printf(" Input Silence: %d\n", insilence);
printf(" Input Timeout: %s\n", intime ? "Quit" : "Proceed");
#ifndef NOSCRIPT
printf(" Script Echo: %s\n", secho ? "On" : "Off");
#endif /* NOSCRIPT */
break;
#endif /* NOSPL */
#ifndef NOXMIT
case SHXMI:
printf(" File type: %s\n", binary ? "binary" : "text");
#ifndef NOCSETS
shotcs(tcsl,tcsr);
#endif /* NOCSETS */
printf(" Terminal echo: %s\n", duplex ? "local" : "remote");
printf(" Transmit EOF: ");
if (*xmitbuf == NUL) {
printf("none\n");
} else {
char *p;
p = xmitbuf;
while (*p) {
if (*p < SP)
printf("^%c",ctl(*p));
else
printf("%c",*p);
p++;
}
printf("\n");
}
if (xmitf)
printf(" Transmit Fill: %d (fill character for blank lines)\n",
xmitf);
else printf(" Transmit Fill: none\n");
printf(" Transmit Linefeed: %s\n",
xmitl ? "on (send linefeeds too)" : "off");
if (xmitp)
printf(" Transmit Prompt: %d (host line end character)\n",xmitp);
else printf(" Transmit Prompt: none\n");
printf(" Transmit Echo: %s\n",
xmitx ? "on" : "off");
printf(" Transmit Locking-Shift: %s\n",xmits ? "on" : "off");
printf(" Transmit Pause: %d milliseconds\n", xmitw);
break;
#endif /* NOXMIT */
case SHMOD: /* SHOW MODEM */
shmdmlin();
printf("\n");
shomdm();
break;
#ifndef MAC
case SHDFLT:
zsyscmd(PWDCMD);
break;
#endif /* MAC */
case SHESC:
printf(" Escape character: Ctrl-%c (ASCII %d, %s)\r\n",
ctl(escape), escape, (escape == 127 ? "DEL" : ccntab[escape]));
break;
#ifndef NODIAL
case SHDIA:
shmdmlin();
printf(", speed: ");
if ((zz = ttgspd()) < 0) {
printf("unknown\n");
} else {
if (zz == 8880) printf("75/1200\n"); else printf("%ld\n",zz);
}
doshodial();
if (carrier == CAR_OFF) s = "off";
else if (carrier == CAR_ON) s = "on";
else if (carrier == CAR_AUT) s = "auto";
else s = "unknown";
printf(" Carrier: %s", s);
if (carrier == CAR_ON) {
if (cdtimo) printf(", timeout: %d sec", cdtimo);
else printf(", timeout: none");
}
if (local
#ifdef NETCONN
&& !network
#endif /* NETCONN */
) {
printf("\n%s modem signals:\n",ttname);
shomdm();
} else printf("\n");
break;
#endif /* NODIAL */
#ifdef VMS
case SHLBL: /* Labeled file info */
sholbl();
break;
#endif /* VMS */
case SHCSE: /* Character sets */
#ifdef NOCSETS
printf(
" Character set translation is not supported in this version of C-Kermit\n");
#else
shocharset();
printf("\n Unknown-Char-Set: %s\n",
unkcs ? "Keep" : "Discard");
shotcs(tcsl,tcsr);
printf("\n");
#endif /* NOCSETS */
break;
#ifndef NOFRILLS
case SHFEA: /* Features */
shofea();
break;
#endif /* NOFRILLS */
default:
printf("\nNothing to show...\n");
return(-2);
}
return(success = 1);
}
VOID
shmdmlin() { /* Briefly show modem & line */
int i;
#ifndef NODIAL
#ifndef MINIDIAL
extern int tbmodel;
_PROTOTYP( char * gtbmodel, (void) );
#endif /* MINIDIAL */
#endif /* NODIAL */
if (local)
printf(" Line: %s, Modem: ",ttname);
else
printf(" Communication device not yet selected with SET LINE\n Modem: ");
#ifndef NODIAL
for (i = 0; i < nmdm; i++) {
if (mdmtab[i].kwval == mdmtyp) {
printf("%s",mdmtab[i].kwd);
break;
}
}
#ifndef MINIDIAL
if (tbmodel) printf(" (%s)",gtbmodel()); /* Telebit model info */
#endif /* MINIDIAL */
#else
printf("(disabled)");
#endif /* NODIAL */
}
#endif /* NOSHOW */
#ifdef GEMDOS
isxdigit(c) int c; {
return(isdigit(c) ||
(c >= 'a' && c <= 'f') ||
(c >= 'A' && c <= 'F'));
}
#endif /* GEMDOS */
#ifndef NOSHOW
#ifndef NOSPL
int /* SHO MACROS */
shomac(s1, s2) char *s1, *s2; {
int x, n, pp;
pp = 0; /* Parenthesis counter */
if (!s1)
return(0);
else
printf("\n%s = ",s1); /* Print blank line and macro name */
slc++; /* Count the line */
n = (int)strlen(s1) + 4; /* Width of current line */
if (!s2) s2 = "(null definition)";
while (x = *s2++) { /* Loop thru definition */
if (x == '(') pp++; /* Treat commas within parens */
if (x == ')') pp--; /* as ordinary text */
if (pp < 0) pp = 0; /* Outside parens, */
if (x == ',' && pp == 0) { /* comma becomes comma-dash-NL. */
putchar(',');
putchar('-');
x = '\n';
}
putchar(x); /* Output the character */
if (x == '\n') { /* If it was a newline */
#ifdef UNIX
#ifdef NOSETBUF
fflush(stdout);
#endif /* NOSETBUF */
#endif /* UNIX */
putchar(' '); /* Indent the next line 1 space */
while(*s2 == ' ') s2++; /* skip past leading blanks */
n = 2; /* restart the character counter */
slc++; /* and increment the line counter. */
} else if (++n > SCRNWID) { /* If line is too wide */
putchar('-'); /* output a dash */
putchar(NL); /* and a newline */
#ifdef UNIX
#ifdef NOSETBUF
fflush(stdout);
#endif /* NOSETBUF */
#endif /* UNIX */
n = 1; /* and restart the char counter */
slc++; /* and increment the line counter */
}
if (n < 3 && slc > SCRNLEN) { /* If new line and screen is full */
if (!askmore()) return(-1); /* ask if they want more. */
n = 1; /* They do, start a new line */
slc = 0; /* and restart line counter */
}
}
putchar(NL); /* End of definition */
if (++slc > SCRNLEN) {
if (!askmore()) return(-1);
slc = 0;
}
return(0);
}
#endif /* NOSPL */
#endif /* NOSHOW */
#ifndef NOSHOW
int
shoatt() {
printf("Attributes: %s\n", atcapr ? "On" : "Off");
if (!atcapr) return(0);
printf(" Blocksize: %s\n", atblki ? "On" : "Off");
printf(" Date: %s\n", atdati ? "On" : "Off");
printf(" Disposition: %s\n", atdisi ? "On" : "Off");
printf(" Encoding (Character Set): %s\n", atenci ? "On" : "Off");
printf(" Length: %s\n", atleni ? "On" : "Off");
printf(" Type (text/binary): %s\n", attypi ? "On" : "Off");
printf(" System ID: %s\n", atsidi ? "On" : "Off");
printf(" System Info: %s\n", atsysi ? "On" : "Off");
return(0);
}
#endif /* NOSHOW */
#ifndef NOSPL
/* Evaluate an arithmetic expression. */
/* Code adapted from ev, by Howie Kaye of Columbia U & others. */
static int xerror;
static char *cp;
static long tokval;
static char curtok;
static long expval;
#define LONGBITS (8*sizeof (long))
#define NUMBER 'N'
#define EOT 'E'
/*
Replacement for strchr() and index(), neither of which seem to be universal.
*/
static char *
#ifdef CK_ANSIC
windex(char * s, char c)
#else
windex(s,c) char *s, c;
#endif /* CK_ANSIC */
/* windex */ {
while (*s != NUL && *s != c) s++;
if (*s == c) return(s); else return(NULL);
}
/*
g e t t o k
Returns the next token. If token is a NUMBER, sets tokval appropriately.
*/
static char
gettok() {
while (isspace(*cp)) cp++ ;
switch(*cp) {
case '$': /* ??? */
case '+': /* Add */
case '-': /* Subtract or Negate */
case '@': /* Greatest Common Divisor */
case '*': /* Multiply */
case '/': /* Divide */
case '%': /* Modulus */
case '<': /* Left shift */
case '>': /* Right shift */
case '&': /* And */
case '|': /* Or */
case '#': /* Exclusive Or */
case '~': /* Not */
case '^': /* Exponent */
case '!': /* Factorial */
case '(': /* Parens for grouping */
case ')': return(*cp++); /* operator, just return it */
case '\n':
case '\0': return(EOT); /* end of line, return that */
}
if (isxdigit(*cp)) { /* digit, must be a number */
char tbuf[80],*tp; /* buffer to accumulate number */
int radix = 10; /* default radix */
for (tp=tbuf; isxdigit(*cp); cp++)
*tp++ = isupper(*cp) ? tolower(*cp) : *cp;
*tp = '\0'; /* end number */
switch(isupper(*cp) ? tolower(*cp) : *cp) { /* examine break char */
case 'h':
case 'x': radix = 16; cp++; break; /* if radix signifier... */
case 'o':
case 'q': radix = 8; cp++; break;
case 't': radix = 2; cp++; break;
}
for (tp=tbuf,tokval=0; *tp != '\0'; tp++) {
int dig;
dig = *tp - '0'; /* convert number */
if (dig > 10) dig -= 'a'-'0'-10;
if (dig >= radix) {
xerror = 1;
if (cmdlvl == 0)
printf("invalid digit '%c' in number\n",*tp);
return(NUMBER);
}
tokval = radix*tokval + dig;
}
return(NUMBER);
}
if (cmdlvl == 0)
printf("Invalid character '%c' in input\n",*cp);
xerror = 1;
cp++;
return(gettok());
}
static long
#ifdef CK_ANSIC
expon(long x, long y)
#else
expon(x,y) long x,y;
#endif /* CK_ANSIC */
/* expon */ {
long result = 1;
int sign = 1;
if (y < 0) return(0);
if (x < 0) {
x = -x;
if (y & 1) sign = -1;
}
while (y != 0) {
if (y & 1) result *= x;
y >>= 1;
if (y != 0) x *= x;
}
return(result * sign);
}
/*
* factor ::= simple | simple ^ factor
*
*/
_PROTOTYP( static VOID simple, (void) );
static VOID
factor() {
long oldval;
simple();
if (curtok == '^') {
oldval = expval;
curtok = gettok();
factor();
expval = expon(oldval,expval);
}
}
/*
* termp ::= NULL | {*,/,%,&} factor termp
*
*/
static VOID
termp() {
while (curtok == '*' || curtok == '/' || curtok == '%' || curtok == '&') {
long oldval;
char op;
op = curtok;
curtok = gettok(); /* skip past operator */
oldval = expval;
factor();
switch(op) {
case '*': expval = oldval * expval; break;
case '/':
if (expval == 0) expval = -1; /* don't divide by 0 */
else expval = oldval / expval; break;
case '%': expval = oldval % expval; break;
case '&': expval = oldval & expval; break;
}
}
}
static long
#ifdef CK_ANSIC
fact(long x)
#else
fact(x) long x;
#endif /* CK_ANSIC */
/* fact */ { /* factorial */
long result = 1;
while (x > 1)
result *= x--;
return(result);
}
/*
* term ::= factor termp
*
*/
static VOID
term() {
factor();
termp();
}
static long
#ifdef CK_ANSIC
gcd(long x, long y)
#else
gcd(x,y) long x,y;
#endif /* CK_ANSIC */
/* gcd */ { /* Greatest Common Divisor */
int nshift = 0;
if (x < 0) x = -x;
if (y < 0) y = -y; /* validate arguments */
if (x == 0 || y == 0) return(x + y); /* this is bogus */
while (!((x & 1) | (y & 1))) { /* get rid of powers of 2 */
nshift++;
x >>= 1;
y >>= 1;
}
while (x != 1 && y != 1 && x != 0 && y != 0) {
while (!(x & 1)) x >>= 1; /* eliminate unnecessary */
while (!(y & 1)) y >>= 1; /* powers of 2 */
if (x < y) { /* force x to be larger */
long t;
t = x;
x = y;
y = t;
}
x -= y;
}
if (x == 0 || y == 0) return((x + y) << nshift); /* gcd is non-zero one */
else return((long) 1 << nshift); /* else gcd is 1 */
}
/*
* exprp ::= NULL | {+,-,|,...} term exprp
*
*/
static VOID
exprp() {
while (windex("+-|<>#@",curtok) != NULL) {
long oldval;
char op;
op = curtok;
curtok = gettok(); /* skip past operator */
oldval = expval;
term();
switch(op) {
case '+' : expval = oldval + expval; break;
case '-' : expval = oldval - expval; break;
case '|' : expval = oldval | expval; break;
case '#' : expval = oldval ^ expval; break;
case '@' : expval = gcd(oldval,expval); break;
case '<' : expval = oldval << expval; break;
case '>' : expval = oldval >> expval; break;
}
}
}
/*
* expr ::= term exprp
*
*/
static VOID
expr() {
term();
exprp();
}
static long
xparse() {
curtok = gettok();
expr();
#ifdef COMMENT
if (curtok == '$') {
curtok = gettok();
if (curtok != NUMBER) {
if (cmdlvl == 0) printf("illegal radix\n");
return(0);
}
curtok = gettok();
}
#endif /* COMMENT */
if (curtok != EOT) {
if (cmdlvl == 0)
printf("extra characters after expression\n");
xerror = 1;
}
return(expval);
}
char *
evala(s) char *s; {
char *p; /* Return pointer */
long v; /* Numeric value */
xerror = 0; /* Start out with no error */
cp = s; /* Make the argument global */
v = xparse(); /* Parse the string */
p = numbuf; /* Convert long number to string */
sprintf(p,"%ld",v);
return(xerror ? "" : p); /* Return empty string on error */
}
/*
* simplest ::= NUMBER | ( expr )
*
*/
static VOID
simplest() {
if (curtok == NUMBER) expval = tokval;
else if (curtok == '(') {
curtok = gettok(); /* skip over paren */
expr();
if (curtok != ')') {
if (cmdlvl == 0) printf("missing right parenthesis\n");
xerror = 1;
}
}
else {
if (cmdlvl == 0) printf("operator unexpected\n");
xerror = 1;
}
curtok = gettok();
}
/*
* simpler ::= simplest | simplest !
*
*/
static VOID
simpler() {
simplest();
if (curtok == '!') {
curtok = gettok();
expval = fact(expval);
}
}
/*
* simple ::= {-,~} simpler | simpler
*
*/
static VOID
simple() {
if (curtok == '-' || curtok == '~') {
int op = curtok;
curtok = gettok(); /* skip over - sign */
simpler(); /* parse the factor again */
expval = op == '-' ? -expval : ~expval;
} else simpler();
}
#endif /* NOSPL */
#ifndef NOSPL
/* D C L A R R A Y -- Declare an array */
int /* Declare an array of size n */
#ifdef CK_ANSIC
dclarray(char a, int n)
#else
dclarray(a,n) char a; int n;
#endif /* CK_ANSIC */
/* dclarray */ {
char **p; int i, n2;
if (a > 63 && a < 96) a += 32; /* Convert to lowercase */
if (a < 96 || a > 122) return(-1); /* Verify name */
a -= 96; /* Convert name to number */
if ((p = a_ptr[a]) != NULL) { /* Delete old array of same name */
n2 = a_dim[a];
for (i = 0; i <= n2; i++) /* First delete its elements */
if (p[i]) free(p[i]);
free(a_ptr[a]); /* Then the element list */
a_ptr[a] = (char **) NULL; /* Remove pointer to element list */
a_dim[a] = 0; /* Set dimension at zero. */
}
if (n == 0) return(0); /* If dimension 0, just deallocate. */
p = (char **) malloc((n+1) * sizeof(char **)); /* Allocate for new array */
if (p == NULL) return(-1); /* Check */
a_ptr[a] = p; /* Save pointer to member list */
a_dim[a] = n; /* Save dimension */
for (i = 0; i <= n; i++) /* Initialize members to null */
p[i] = NULL;
return(0);
}
/* A R R A Y N A M -- Parse an array name */
/*
Call with pointer to string that starts with the array reference.
String may begin with either \& or just &.
On success,
Returns letter ID (always lowercase) in argument c,
which can also be accent grave (` = 96; '@' is converted to grave);
Dimension or subscript in argument n;
IMPORTANT: These arguments must be provided by the caller as addresses
of ints (not chars), for example:
char *s; int x, y;
arraynam(s,&x,&y);
On failure, returns a negative number, with args n and c set to zero.
*/
int
arraynam(ss,c,n) char *ss; int *c; int *n; {
int i, y, pp;
char x;
char *s, *p, *sx, *vnp;
char vnbuf[VNAML+1]; /* On stack to allow for */
char ssbuf[VNAML+1]; /* recursive calls... */
char sxbuf[VNAML+1];
*c = *n = 0; /* Initialize return values */
for (i = 0; i < (int)strlen(ss); i++) /* Check length */
if (ss[i] == ']')
break;
if (i > VNAML) {
printf("?Array reference too long - %s\n",ss);
return(-9);
}
strncpy(vnbuf,ss,VNAML);
vnp = vnbuf;
if (vnbuf[0] == CMDQ && vnbuf[1] == '&') vnp++;
if (*vnp != '&') {
printf("?Not an array - %s\n",vnbuf);
return(-9);
}
x = *(vnp + 1); /* Fold case of array name */
/* We don't use isupper & tolower here on purpose because these */
/* would produce undesired effects with accented letters. */
if (x > 63 && x < 91) x = *(vnp +1) = x + 32;
if ((x < 96) || (x > 122) || (*(vnp+2) != '[')) {
printf("?Invalid format for array name - %s\n",vnbuf);
return(-9);
}
*c = x; /* Return the array name */
s = vnp+3; /* Get dimension */
p = ssbuf;
pp = 1; /* Bracket counter */
for (i = 0; i < VNAML && *s != NUL; i++) { /* Copy up to ] */
if (*s == '[') pp++;
if (*s == ']' && --pp == 0) break;
*p++ = *s++;
}
if (*s != ']') {
printf("?No closing bracket on array dimension - %s\n",vnbuf);
return(-9);
}
*p = NUL; /* Terminate subscript with null */
p = ssbuf; /* Point to beginning of subscript */
sx = sxbuf; /* Where to put expanded subscript */
y = VNAML-1;
xxstring(p,&sx,&y); /* Convert variables, etc. */
if (!chknum(sxbuf)) { /* Make sure it's all digits */
printf("?Array dimension or subscript must be numeric - %s\n",sxbuf);
return(-9);
}
if ((y = atoi(sxbuf)) < 0) {
if (cmflgs == 0) printf("\n");
printf("?Array dimension or subscript must be positive or zero - %s\n",
sxbuf);
return(-9);
}
*n = y; /* Return the subscript or dimension */
return(0);
}
int
chkarray(a,i) int a, i; { /* Check if array is declared */
int x; /* and if subscript is in range */
if (a == 64) a = 96; /* Convert atsign to grave accent */
x = a - 96; /* Values must be in range 96-122 */
if (x < 0 || x > 26) return(-2); /* Not in range */
if (a_ptr[x] == NULL) return(-1); /* Not declared */
if (i > a_dim[x]) return(-2); /* Declared but out of range. */
return(a_dim[x]); /* All ok, return dimension */
}
char *
arrayval(a,i) int a, i; { /* Return value of \&a[i] */
int x; char **p; /* (possibly NULL) */
if (a == 64) a = 96; /* Convert atsign to grave accent */
x = a - 96; /* Values must be in range 96-122 */
if (x < 0 || x > 26) return(NULL); /* Not in range */
if ((p = a_ptr[x]) == NULL) /* Array not declared */
return(NULL);
if (i > a_dim[x]) /* Subscript out of range. */
return(NULL);
return(p[i]); /* All ok, return pointer to value. */
}
#endif /* NOSPL */
#ifndef NOSPL
/* P A R S E V A R -- Parse a variable name or array reference. */
/*
Call with:
s = pointer to candidate variable name or array reference.
*c = address of integer in which to return variable ID.
*i = address of integer in which to return array subscript.
Returns:
-2: syntax error in variable name or array reference.
1: successful parse of a simple variable, with ID in c.
2: successful parse of an array reference, w/ID in c and subscript in i.
*/
int
parsevar(s,c,i) char *s; int *c, *i; {
char *p;
int x,y,z;
p = s;
if (*s == CMDQ) s++; /* Point after backslash */
if (*s != '%' && *s != '&') { /* Make sure it's % or & */
printf("?Not a variable name - %s\n",p);
return(-9);
}
if ((int)strlen(s) < 2) {
printf("?Incomplete variable name - %s\n",p);
return(-9);
}
if (*s == '%' && *(s+2) != '\0') {
printf("?Only one character after '%%' in variable name, please\n");
return(-9);
}
if (*s == '&' && *(s+2) != '[') {
printf("?Array subscript expected - %s\n",p);
return(-9);
}
if (*s == '%') { /* Simple variable. */
y = *(s+1); /* Get variable ID letter/char */
if (isupper(y)) y -= ('a'-'A'); /* Convert upper to lower case */
*c = y; /* Set the return values. */
*i = -1; /* No array subscript. */
return(1); /* Return 1 = simple variable */
}
if (*s == '&') { /* Array reference. */
if (arraynam(s,&x,&z) < 0) { /* Go parse it. */
printf("?Invalid array reference - %s\n",p);
return(-9);
}
if (chkarray(x,z) < 0) { /* Check if declared, etc. */
printf("?Array not declared or subscript out of range\n");
return(-9);
}
*c = x; /* Return array letter */
*i = z; /* and subscript. */
return(2);
}
return(-2); /* None of the above. */
}
#define VALN 20
/* Get the numeric value of a variable */
/*
Call with pointer to variable name, pointer to int for return value.
Returns:
0 on success with second arg containing the value.
-1 on failure (bad variable syntax, variable not defined or not numeric).
*/
int
varval(s,v) char *s; int *v; {
char valbuf[VALN+1]; /* s is pointer to variable name */
char *p;
int y;
p = valbuf; /* Expand variable into valbuf. */
y = VALN;
if (xxstring(s,&p,&y) < 0) return(-1);
p = valbuf; /* Make sure value is numeric */
if (!chknum(p)) return(-1);
*v = atoi(p); /* Convert numeric string to int */
return(0);
}
/* Increment or decrement a variable */
/* Returns -1 on failure, 0 on success, with 4th argument set to result */
int
incvar(s,x,z,r) char *s; int x, z, *r; { /* Increment a numeric variable */
char valbuf[VALN+1]; /* s is pointer to variable name */
/* x is amount to increment by */
int n; /* z != 0 means add */
/* z = 0 means subtract */
if (varval(s,&n) < 0) /* Convert numeric string to int */
return(-1);
if (z) /* Increment it by the given amount */
n += x;
else /* or decrement as requested. */
n -= x;
sprintf(valbuf,"%d",n); /* Convert back to numeric string */
addmac(s,valbuf); /* Replace old variable */
*r = n; /* Return the integer value */
return(0);
}
#endif /* NOSPL */
/* Functions moved here from ckuusr.c to even out the module sizes... */
#ifndef NOSPL /* Need xwords() function to break */
#define XWORDS /* string up into words. */
#endif /* NOSPL */
#ifndef NODIAL
#ifndef XWORDS
#define XWORDS
#endif /* XWORDS */
#endif /* NODIAL */
#ifdef XWORDS
/*
Breaks string s up into a list of up to max words.
Pointers to each word go into the array list[].
If list is NULL, then they are added to the macro table.
*/
VOID
xwords(s,max,list) char *s; int max; char *list[]; {
char *p;
int b, k, y, z;
#ifndef NOSPL
int macro;
macro = (list == NULL);
debug(F101,"xwords macro","",macro);
#endif /* NOSPL */
p = s; /* Pointer to beginning of string */
b = 0; /* Flag for outer brace removal */
k = 0; /* Flag for in-word */
y = 0; /* Brace nesting level */
z = 0; /* Argument counter, 0 thru max */
while (1) { /* Go thru argument list */
if (!s || (*s == '\0')) { /* No more characters? */
if (k != 0) {
if (z == max) break; /* Only go up to max. */
z++; /* Count it. */
#ifndef NOSPL
if (macro) {
varnam[1] = z + '0'; /* Assign last argument */
addmac(varnam,p);
} else
#endif /* NOSPL */
list[z] = p;
break; /* And get out. */
} else break;
}
if (k == 0 && (*s == SP || *s == HT)) { /* Eat leading blanks */
s++;
continue;
} else if (*s == '{') { /* An opening brace */
if (k == 0 && y == 0) { /* If leading brace */
p = s+1; /* point past it */
b = 1; /* and flag that we did this */
}
k = 1; /* Flag that we're in a word */
y++; /* Count the brace. */
} else if (*s == '}') { /* A closing brace. */
y--; /* Count it. */
if (y == 0 && b != 0) { /* If it matches the leading brace */
*s = SP; /* change it to a space */
b = 0; /* and we're not in braces any more */
} else if (y < 0) k = 1; /* otherwise just start a new word. */
} else if (*s != SP && *s != HT) { /* Nonspace means we're in a word */
if (k == 0) p = s; /* Mark the beginning */
k = 1; /* Set in-word flag */
}
/* If we're not inside a braced quantity, and we are in a word, and */
/* we have hit whitespace, then we have an argument to assign. */
if ((y < 1) && (k != 0) && (*s == SP || *s == HT)) {
*s = '\0'; /* terminate the arg with null */
k = 0; /* say we're not in a word any more */
y = 0; /* start braces off clean again */
if (z == max) break; /* Only go up to max. */
z++; /* count this arg */
#ifndef NOSPL
if (macro) {
varnam[1] = z + '0'; /* compute its name */
addmac(varnam,p); /* add it to the macro table */
} else
#endif /* NOSPL */
list[z] = p;
p = s+1;
}
s++; /* Point past this character */
}
if ((z == 0) && (y > 1)) { /* Extra closing brace(s) at end */
z++;
#ifndef NOSPL
if (macro) {
varnam[1] = z + '0'; /* compute its name */
addmac(varnam,p); /* Add rest of line to last arg */
} else
#endif /* NOSPL */
list[z] = p;
}
#ifndef NOSPL
if (macro) macargc[maclvl] = z + 1; /* Set \v(argc) variable */
#endif /* NOSPL */
return;
}
#endif /* XWORDS */
#ifndef NOSPL
/* D O D O -- Do a macro */
/*
Call with x = macro table index, s = pointer to arguments.
Returns 0 on failure, 1 on success.
*/
int
dodo(x,s) int x; char *s; {
int y;
debug(F101,"dodo maclvl","",maclvl);
if (++maclvl > MACLEVEL) { /* Make sure we have storage */
debug(F101,"dodo maclvl too deep","",maclvl);
--maclvl;
printf("Macros nested too deeply\n");
return(0);
}
macp[maclvl] = mactab[x].mval; /* Point to the macro body */
macx[maclvl] = mactab[x].mval; /* Remember where the beginning is */
debug(F111,"do macro",macp[maclvl],maclvl);
cmdlvl++; /* Entering a new command level */
if (cmdlvl > CMDSTKL) { /* Too many macros + TAKE files? */
debug(F101,"dodo cmdlvl too deep","",cmdlvl);
cmdlvl--;
printf("?TAKE files and DO commands nested too deeply\n");
return(0);
}
#ifdef VMS
conres(); /* So Ctrl-C, etc, will work. */
#endif /* VMS */
ifcmd[cmdlvl] = 0;
iftest[cmdlvl] = 0;
count[cmdlvl] = 0;
cmdstk[cmdlvl].src = CMD_MD; /* Say we're in a macro */
cmdstk[cmdlvl].lvl = maclvl; /* and remember the macro level */
mrval[maclvl] = NULL; /* Initialize return value */
debug(F110,"do macro",mactab[x].kwd,0);
/* Clear old %0..%9 arguments */
addmac("%0",mactab[x].kwd); /* Define %0 = name of macro */
varnam[0] = '%';
varnam[2] = '\0';
for (y = 1; y < 10; y++) { /* Clear args %1..%9 */
varnam[1] = y + '0';
delmac(varnam);
}
/* Assign the new args one word per arg, allowing braces to group words */
xwords(s,9,NULL);
return(1);
}
/* Insert "literal" quote around each comma-separated command to prevent */
/* its premature expansion. Only do this if object command is surrounded */
/* by braces. */
static char* flit = "\\flit(";
int
litcmd(src,dest) char **src, **dest; {
int bc = 0, pp = 0;
char *s, *lp, *ss;
s = *src;
lp = *dest;
while (*s == SP) s++; /* strip extra leading spaces */
if (*s == '{') {
pp = 0; /* paren counter */
bc = 1; /* count leading brace */
*lp++ = *s++; /* copy it */
while (*s == SP) s++; /* strip interior leading spaces */
ss = flit; /* point to "\flit(" */
while (*lp++ = *ss++) ; /* copy it */
lp--; /* back up over null */
while (*s) { /* go thru rest of text */
ss = flit; /* point back to start of "\flit(" */
if (*s == '{') bc++; /* count brackets */
if (*s == '(') pp++; /* and parens */
if (*s == ')') pp--;
if (*s == '}') { /* Closing brace. */
if (--bc == 0) { /* Final one? */
*lp++ = ')'; /* Add closing paren for "\flit()" */
*lp++ = *s++;
break;
}
}
if (*s == ',' && pp == 0) { /* comma not inside of parens */
*lp++ = ')'; /* closing ) of \flit( */
*lp++ = ','; /* insert the comma */
while (*lp++ = *ss++) ; /* start new "\flit(" */
lp--; /* back up over null */
s++; /* skip over comma in source string */
while (*s++ == SP); /* eat leading spaces again. */
s--; /* back up over nonspace */
continue;
}
*lp++ = *s++; /* Copy anything but comma here. */
}
*lp = NUL;
} else { /* No brackets around, */
while (*lp++ = *s++) ; /* just copy. */
lp--;
}
*src = s;
*dest = lp;
if (bc) return(-1);
else return(0);
}
#endif /* NOSPL */
int
docd() { /* Do the CD command */
int x;
char *s;
#ifdef GEMDOS
if ((x = cmdir("Name of local directory, or carriage return",homdir,&s,
NULL)) < 0 )
#else
if ((x = cmdir("Name of local directory, or carriage return",homdir,&s,
xxstring)) < 0 )
#endif /* GEMDOS */
return(x);
if (x == 2) {
printf("?Wildcards not allowed in directory name\n");
return(-9);
}
strcpy(line,s); /* Make a safe copy */
s = line;
if ((x = cmcfm()) < 0) /* Get confirmation */
return(x);
if (! zchdir(s)) {
cwdf = 0;
perror(s);
} else cwdf = 1;
#ifdef OS2
printf("%s\n", zgtdir());
#else /* Not OS2 */
#ifndef MAC
zsyscmd(PWDCMD); /* assume this works... */
#endif /* MAC */
#endif /* OS2 */
return(cwdf);
}
VOID
fixcmd() { /* Fix command parser after interruption */
dostop(); /* Back to top level (also calls conint()). */
bgchk(); /* Check background status */
if (*psave) { /* If old prompt saved, */
cmsetp(psave); /* restore it. */
*psave = NUL;
}
success = 0; /* Tell parser last command failed */
}
VOID
prtopt(s) char *s; { /* Print an option */
static int x = 0; /* (used by SHOW VER) */
int y; /* Does word wrap. */
if (!s) { x = 0; return; } /* Call with null pointer to */
y = (int)strlen(s); /* reset horizontal position. */
x += y;
if (x > 79) {
printf("\n%s",s);
x = y;
} else printf("%s",s);
}
#endif /* NOICP */