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freebsd_amp_hwpstate/eBones/lib/libkrb/kparse.c

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/*
* Copyright 1988 by the Massachusetts Institute of Technology.
* For copying and distribution information, please see the file
* <Copyright.MIT>.
*
* Purpose:
* This module was developed to parse the "~/.klogin" files for
* Kerberos-authenticated rlogin/rcp/rsh services. However, it is
* general purpose and can be used to parse any such parameter file.
*
* The parameter file should consist of one or more entries, with each
* entry on a separate line and consisting of zero or more
* "keyword=value" combinations. The keyword is case insensitive, but
* the value is not. Any string may be enclosed in quotes, and
* c-style "\" literals are supported. A comma may be used to
* separate the k/v combinations, and multiple commas are ignored.
* Whitespace (blank or tab) may be used freely and is ignored.
*
* Full error processing is available. When PS_BAD_KEYWORD or
* PS_SYNTAX is returned from fGetParameterSet(), the string ErrorMsg
* contains a meaningful error message.
*
* Keywords and their default values are programmed by an external
* table.
*
* Routines:
* fGetParameterSet() parse one line of the parameter file
* fGetKeywordValue() parse one "keyword=value" combo
* fGetToken() parse one token
*
*
* from: kparse.c,v 4.5 89/01/21 17:20:39 jtkohl Exp $
* $Id$
*/
#if 0
#ifndef lint
static char rcsid[] =
"$Id$";
#endif lint
#endif
#include <stdlib.h>
#include <stdio.h>
#include <ctype.h>
#include <kparse.h>
#ifndef FALSE
#define FALSE 0
#define TRUE 1
#endif
#define MAXKEY 80
#define MAXVALUE 80
int fUngetChar(int ch, FILE *fp);
int fGetChar(FILE *fp);
int fGetLiteral(FILE *fp);
int LineNbr=1; /* current line nbr in parameter file */
char ErrorMsg[80]; /* meaningful only when KV_SYNTAX, PS_SYNTAX,
* or PS_BAD_KEYWORD is returned by
* fGetKeywordValue or fGetParameterSet */
int
fGetParameterSet( fp,parm,parmcount )
FILE *fp;
parmtable parm[];
int parmcount;
{
int rc,i;
char keyword[MAXKEY];
char value[MAXVALUE];
while (TRUE) {
rc=fGetKeywordValue(fp,keyword,MAXKEY,value,MAXVALUE);
switch (rc) {
case KV_EOF:
return(PS_EOF);
case KV_EOL:
return(PS_OKAY);
case KV_SYNTAX:
return(PS_SYNTAX);
case KV_OKAY:
/*
* got a reasonable keyword/value pair. Search the
* parameter table to see if we recognize the keyword; if
* not, return an error. If we DO recognize it, make sure
* it has not already been given. If not already given,
* save the value.
*/
for (i=0; i<parmcount; i++) {
if (strcmp(strutol(keyword),parm[i].keyword)==0) {
if (parm[i].value) {
sprintf(ErrorMsg,"duplicate keyword \"%s\" found",
keyword);
return(PS_BAD_KEYWORD);
}
parm[i].value = strsave( value );
break;
}
}
if (i >= parmcount) {
sprintf(ErrorMsg, "unrecognized keyword \"%s\" found",
keyword);
return(PS_BAD_KEYWORD);
}
break;
default:
sprintf(ErrorMsg,
"panic: bad return (%d) from fGetToken()",rc);
break;
}
}
}
/*
* Routine: ParmCompare
*
* Purpose:
* ParmCompare checks a specified value for a particular keyword.
* fails if keyword not found or keyword found but the value was
* different. Like strcmp, ParmCompare returns 0 for a match found, -1
* otherwise
*/
int
ParmCompare( parm, parmcount, keyword, value )
parmtable parm[];
int parmcount;
char *keyword;
char *value;
{
int i;
for (i=0; i<parmcount; i++) {
if (strcmp(parm[i].keyword,keyword)==0) {
if (parm[i].value) {
return(strcmp(parm[i].value,value));
} else {
return(strcmp(parm[i].defvalue,value));
}
}
}
return(-1);
}
void
FreeParameterSet(parm,parmcount)
parmtable parm[];
int parmcount;
{
int i;
for (i=0; i<parmcount; i++) {
if (parm[i].value) {
free(parm[i].value);
parm[i].value = (char *)NULL;
}
}
}
int
fGetKeywordValue( fp, keyword, klen, value, vlen )
FILE *fp;
char *keyword;
int klen;
char *value;
int vlen;
{
int rc;
int gotit;
*keyword = *value = '\0'; /* preset strings to NULL */
/*
* Looking for a keyword.
* return an exception for EOF or BAD_QSTRING
* ignore leading WHITEspace
* ignore any number of leading commas
* newline means we have all the parms for this
* statement; give an indication that there is
* nothing more on this line.
* stop looking if we find QSTRING, STRING, or NUMBER
* return syntax error for any other PUNKtuation
*/
gotit = FALSE;
do {
rc = fGetToken(fp,keyword,klen);
switch (rc) {
case GTOK_WHITE:
break;
case GTOK_EOF:
return(KV_EOF);
case GTOK_BAD_QSTRING:
sprintf(ErrorMsg,"unterminated string \"%s found",keyword);
return(KV_SYNTAX);
case GTOK_PUNK:
if (strcmp("\n",keyword)==0) {
return(KV_EOL);
} else if (strcmp(",",keyword)!=0) {
sprintf(ErrorMsg,"expecting rvalue, found \'%s\'",keyword);
}
break;
case GTOK_STRING:
case GTOK_QSTRING:
case GTOK_NUMBER:
gotit = TRUE;
break;
default:
sprintf(ErrorMsg,"panic: bad return (%d) from fGetToken()",rc);
return(KV_SYNTAX);
}
} while (!gotit);
/*
* now we expect an equal sign.
* skip any whitespace
* stop looking if we find an equal sign
* anything else causes a syntax error
*/
gotit = FALSE;
do {
rc = fGetToken(fp,value,vlen);
switch (rc) {
case GTOK_WHITE:
break;
case GTOK_BAD_QSTRING:
sprintf(ErrorMsg,
"expecting \'=\', found unterminated string \"%s",
value);
return(KV_SYNTAX);
case GTOK_PUNK:
if (strcmp("=",value)==0) {
gotit = TRUE;
} else {
if (strcmp("\n",value)==0) {
sprintf(ErrorMsg,"expecting \"=\", found newline");
fUngetChar('\n',fp);
} else {
sprintf(ErrorMsg,
"expecting rvalue, found \'%s\'",keyword);
}
return(KV_SYNTAX);
}
break;
case GTOK_STRING:
case GTOK_QSTRING:
case GTOK_NUMBER:
sprintf(ErrorMsg,"expecting \'=\', found \"%s\"",value);
return(KV_SYNTAX);
case GTOK_EOF:
sprintf(ErrorMsg,"expecting \'=\', found EOF");
return(KV_SYNTAX);
default:
sprintf(ErrorMsg,
"panic: bad return (%d) from fGetToken()",rc);
return(KV_SYNTAX);
}
} while ( !gotit );
/*
* got the keyword and equal sign, now get a value.
* ignore any whitespace
* any punctuation is a syntax error
*/
gotit = FALSE;
do {
rc = fGetToken(fp,value,vlen);
switch (rc) {
case GTOK_WHITE:
break;
case GTOK_EOF:
sprintf(ErrorMsg,"expecting rvalue, found EOF");
return(KV_SYNTAX);
case GTOK_BAD_QSTRING:
sprintf(ErrorMsg,"unterminated quoted string \"%s",value);
return(KV_SYNTAX);
case GTOK_PUNK:
if (strcmp("\n",value)==0) {
sprintf(ErrorMsg,"expecting rvalue, found newline");
fUngetChar('\n',fp);
} else {
sprintf(ErrorMsg,
"expecting rvalue, found \'%s\'",value);
}
return(KV_SYNTAX);
break;
case GTOK_STRING:
case GTOK_QSTRING:
case GTOK_NUMBER:
gotit = TRUE;
return(KV_OKAY);
default:
sprintf(ErrorMsg,
"panic: bad return (%d) from fGetToken()",rc);
return(KV_SYNTAX);
}
} while ( !gotit );
/*NOTREACHED*/
return(0); /*just to shut up -Wall MRVM*/
}
/*
* Routine Name: fGetToken
*
* Function: read the next token from the specified file.
* A token is defined as a group of characters
* terminated by a white space char (SPACE, CR,
* LF, FF, TAB). The token returned is stripped of
* both leading and trailing white space, and is
* terminated by a NULL terminator. An alternate
* definition of a token is a string enclosed in
* single or double quotes.
*
* Explicit Parameters:
* fp pointer to the input FILE
* dest pointer to destination buffer
* maxlen length of the destination buffer. The buffer
* length INCLUDES the NULL terminator.
*
* Implicit Parameters: stderr where the "token too long" message goes
*
* External Procedures: fgetc
*
* Side Effects: None
*
* Return Value: A token classification value, as
* defined in kparse.h. Note that the
* classification for end of file is
* always zero.
*/
int
fGetToken(fp, dest, maxlen)
FILE *fp;
char *dest;
int maxlen;
{
int ch='\0';
int len=0;
char *p = dest;
int digits;
ch=fGetChar(fp);
/*
* check for a quoted string. If found, take all characters
* that fit until a closing quote is found. Note that this
* algorithm will not behave well for a string which is too long.
*/
if (ISQUOTE(ch)) {
int done = FALSE;
do {
ch = fGetChar(fp);
done = ((maxlen<++len)||ISLINEFEED(ch)||(ch==EOF)
||ISQUOTE(ch));
if (ch=='\\')
ch = fGetLiteral(fp);
if (!done)
*p++ = ch;
else if ((ch!=EOF) && !ISQUOTE(ch))
fUngetChar(ch,fp);
} while (!done);
*p = '\0';
if (ISLINEFEED(ch)) return(GTOK_BAD_QSTRING);
return(GTOK_QSTRING);
}
/*
* Not a quoted string. If its a token character (rules are
* defined via the ISTOKENCHAR macro, in kparse.h) take it and all
* token chars following it until we run out of space.
*/
digits=TRUE;
if (ISTOKENCHAR(ch)) {
while ( (ISTOKENCHAR(ch)) && len<maxlen-1 ) {
if (!isdigit(ch)) digits=FALSE;
*p++ = ch;
len++;
ch = fGetChar(fp);
};
*p = '\0';
if (ch!=EOF) {
fUngetChar(ch,fp);
}
if (digits) {
return(GTOK_NUMBER);
} else {
return(GTOK_STRING);
}
}
/*
* Neither a quoted string nor a token character. Return a string
* with just that one character in it.
*/
if (ch==EOF) {
return(GTOK_EOF);
}
if (!ISWHITESPACE(ch)) {
*p++ = ch;
*p='\0';
} else {
*p++ = ' '; /* white space is always the
* blank character */
*p='\0';
/*
* The character is a white space. Flush all additional white
* space.
*/
while (ISWHITESPACE(ch) && ((ch=fGetChar(fp)) != EOF))
;
if (ch!=EOF) {
fUngetChar(ch,fp);
}
return(GTOK_WHITE);
}
return(GTOK_PUNK);
}
/*
* fGetLiteral is called after we find a '\' in the input stream. A
* string of numbers following the backslash are converted to the
* appropriate value; hex (0xn), octal (0n), and decimal (otherwise)
* are all supported. If the char after the \ is not a number, we
* special case certain values (\n, \f, \r, \b) or return a literal
* otherwise (useful for \", for example).
*/
int
fGetLiteral(fp)
FILE *fp;
{
int ch;
int n=0;
int base;
ch = fGetChar(fp);
if (!isdigit(ch)) {
switch (ch) {
case 'n': return('\n');
case 'f': return('\f');
case 'r': return('\r');
case 'b': return('\b');
default: return(ch);
}
}
/*
* got a number. might be decimal (no prefix), octal (prefix 0),
* or hexadecimal (prefix 0x). Set the base appropriately.
*/
if (ch!='0') {
base=10; /* its a decimal number */
} else {
/*
* found a zero, its either hex or octal
*/
ch = fGetChar(fp);
if ((ch!='x') && (ch!='X')) {
base=010;
} else {
ch = fGetChar(fp);
base=0x10;
}
}
switch (base) {
case 010: /* octal */
while (ISOCTAL(ch)) {
n = (n*base) + ch - '0';
ch = fGetChar(fp);
}
break;
case 10: /* decimal */
while (isdigit(ch)) {
n = (n*base) + ch - '0';
ch = fGetChar(fp);
}
break;
case 0x10: /* hexadecimal */
while (isxdigit(ch)) {
if (isdigit(ch)) {
n = (n*base) + ch - '0';
} else {
n = (n*base) + toupper(ch) - 'A' + 0xA ;
}
ch = fGetChar(fp);
}
break;
default:
fprintf(stderr,"fGetLiteral() died real bad. Fix gettoken.c.");
exit(1);
break;
}
fUngetChar(ch,fp);
return(n);
}
/*
* exactly the same as ungetc(3) except that the line number of the
* input file is maintained.
*/
int
fUngetChar(ch,fp)
int ch;
FILE *fp;
{
if (ch=='\n') LineNbr--;
return(ungetc(ch,fp));
}
/*
* exactly the same as fgetc(3) except that the line number of the
* input file is maintained.
*/
int
fGetChar(fp)
FILE *fp;
{
int ch = fgetc(fp);
if (ch=='\n') LineNbr++;
return(ch);
}
/*
* Routine Name: strsave
*
* Function: return a pointer to a saved copy of the
* input string. the copy will be allocated
* as large as necessary.
*
* Explicit Parameters: pointer to string to save
*
* Implicit Parameters: None
*
* External Procedures: malloc,strcpy,strlen
*
* Side Effects: None
*
* Return Value: pointer to copied string
*
*/
char *
strsave(p)
char *p;
{
return(strcpy(malloc(strlen(p)+1),p));
}
/*
* strutol changes all characters in a string to lower case, in place.
* the pointer to the beginning of the string is returned.
*/
char *
strutol( start )
char *start;
{
char *q;
for (q=start; *q; q++)
if (isupper(*q))
*q=tolower(*q);
return(start);
}
#ifdef GTOK_TEST /* mainline test routine for fGetToken() */
#define MAXTOKEN 100
char *pgm = "gettoken";
main(argc,argv)
int argc;
char **argv;
{
char *p;
int type;
FILE *fp;
if (--argc) {
fp = fopen(*++argv,"ra");
if (fp == (FILE *)NULL) {
fprintf(stderr,"can\'t open \"%s\"\n",*argv);
}
} else
fp = stdin;
p = malloc(MAXTOKEN);
while (type = fGetToken(fp,p,MAXTOKEN)) {
switch(type) {
case GTOK_BAD_QSTRING:
printf("BAD QSTRING!\t");
break;
case GTOK_EOF:
printf("EOF!\t");
break;
case GTOK_QSTRING:
printf("QSTRING\t");
break;
case GTOK_STRING:
printf("STRING\t");
break;
case GTOK_NUMBER:
printf("NUMBER\t");
break;
case GTOK_PUNK:
printf("PUNK\t");
break;
case GTOK_WHITE:
printf("WHITE\t");
break;
default:
printf("HUH?\t");
break;
}
if (*p=='\n')
printf("\\n\n");
else
printf("%s\n",p);
}
exit(0);
}
#endif
#ifdef KVTEST
main(argc,argv)
int argc;
char **argv;
{
int rc,ch;
FILE *fp;
char key[MAXKEY],valu[MAXVALUE];
char *filename;
if (argc != 2) {
fprintf(stderr,"usage: test <filename>\n");
exit(1);
}
if (!(fp=fopen(*++argv,"r"))) {
fprintf(stderr,"can\'t open input file \"%s\"\n",filename);
exit(1);
}
filename = *argv;
while ((rc=fGetKeywordValue(fp,key,MAXKEY,valu,MAXVALUE))!=KV_EOF){
switch (rc) {
case KV_EOL:
printf("%s, line %d: nada mas.\n",filename,LineNbr-1);
break;
case KV_SYNTAX:
printf("%s, line %d: syntax error: %s\n",
filename,LineNbr,ErrorMsg);
while ( ((ch=fGetChar(fp))!=EOF) && (ch!='\n') );
break;
case KV_OKAY:
printf("%s, line %d: okay, %s=\"%s\"\n",
filename,LineNbr,key,valu);
break;
default:
printf("panic: bad return (%d) from fGetKeywordValue\n",rc);
break;
}
}
printf("EOF");
fclose(fp);
exit(0);
}
#endif
#ifdef PSTEST
parmtable kparm[] = {
/* keyword, default, found value */
{ "user", "", (char *)NULL },
{ "realm", "Athena", (char *)NULL },
{ "instance", "", (char *)NULL }
};
main(argc,argv)
int argc;
char **argv;
{
int rc,i,ch;
FILE *fp;
char *filename;
if (argc != 2) {
fprintf(stderr,"usage: test <filename>\n");
exit(1);
}
if (!(fp=fopen(*++argv,"r"))) {
fprintf(stderr,"can\'t open input file \"%s\"\n",filename);
exit(1);
}
filename = *argv;
while ((rc=fGetParameterSet(fp,kparm,PARMCOUNT(kparm))) != PS_EOF) {
switch (rc) {
case PS_BAD_KEYWORD:
printf("%s, line %d: %s\n",filename,LineNbr,ErrorMsg);
while ( ((ch=fGetChar(fp))!=EOF) && (ch!='\n') );
break;
case PS_SYNTAX:
printf("%s, line %d: syntax error: %s\n",
filename,LineNbr,ErrorMsg);
while ( ((ch=fGetChar(fp))!=EOF) && (ch!='\n') );
break;
case PS_OKAY:
printf("%s, line %d: valid parameter set found:\n",
filename,LineNbr-1);
for (i=0; i<PARMCOUNT(kparm); i++) {
printf("\t%s = \"%s\"\n",kparm[i].keyword,
(kparm[i].value ? kparm[i].value
: kparm[i].defvalue));
}
break;
default:
printf("panic: bad return (%d) from fGetParameterSet\n",rc);
break;
}
FreeParameterSet(kparm,PARMCOUNT(kparm));
}
printf("EOF");
fclose(fp);
exit(0);
}
#endif
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