/**
* \file load.c
* Time-stamp: "2010-12-18 11:46:07 bkorb"
*
* This file contains the routines that deal with processing text strings
* for options, either from a NUL-terminated string passed in or from an
* rc/ini file.
*
* This file is part of AutoOpts, a companion to AutoGen.
* AutoOpts is free software.
* AutoOpts is Copyright (c) 1992-2011 by Bruce Korb - all rights reserved
*
* AutoOpts is available under any one of two licenses. The license
* in use must be one of these two and the choice is under the control
* of the user of the license.
*
* The GNU Lesser General Public License, version 3 or later
* See the files "COPYING.lgplv3" and "COPYING.gplv3"
*
* The Modified Berkeley Software Distribution License
* See the file "COPYING.mbsd"
*
* These files have the following md5sums:
*
* 43b91e8ca915626ed3818ffb1b71248b pkg/libopts/COPYING.gplv3
* 06a1a2e4760c90ea5e1dad8dfaac4d39 pkg/libopts/COPYING.lgplv3
* 66a5cedaf62c4b2637025f049f9b826f pkg/libopts/COPYING.mbsd
*/
/* = = = START-STATIC-FORWARD = = = */
static ag_bool
insertProgramPath(char * pzBuf, int bufSize, char const * pzName,
char const * pzProgPath);
static ag_bool
insertEnvVal(char * pzBuf, int bufSize, char const * pzName,
char const * pzProgPath);
static char*
assembleArgValue(char* pzTxt, tOptionLoadMode mode);
/* = = = END-STATIC-FORWARD = = = */
/*=export_func optionMakePath
* private:
*
* what: translate and construct a path
* arg: + char* + pzBuf + The result buffer +
* arg: + int + bufSize + The size of this buffer +
* arg: + char const* + pzName + The input name +
* arg: + char const* + pzProgPath + The full path of the current program +
*
* ret-type: ag_bool
* ret-desc: AG_TRUE if the name was handled, otherwise AG_FALSE.
* If the name does not start with ``$'', then it is handled
* simply by copying the input name to the output buffer and
* resolving the name with either
* @code{canonicalize_file_name(3GLIBC)} or @code{realpath(3C)}.
*
* doc:
*
* This routine will copy the @code{pzName} input name into the
* @code{pzBuf} output buffer, not exceeding @code{bufSize} bytes. If the
* first character of the input name is a @code{'$'} character, then there
* is special handling:
* @*
* @code{$$} is replaced with the directory name of the @code{pzProgPath},
* searching @code{$PATH} if necessary.
* @*
* @code{$@} is replaced with the AutoGen package data installation directory
* (aka @code{pkgdatadir}).
* @*
* @code{$NAME} is replaced by the contents of the @code{NAME} environment
* variable. If not found, the search fails.
*
* Please note: both @code{$$} and @code{$NAME} must be at the start of the
* @code{pzName} string and must either be the entire string or be followed
* by the @code{'/'} (backslash on windows) character.
*
* err: @code{AG_FALSE} is returned if:
* @*
* @bullet{} The input name exceeds @code{bufSize} bytes.
* @*
* @bullet{} @code{$$}, @code{$@@} or @code{$NAME} is not the full string
* and the next character is not '/'.
* @*
* @bullet{} libopts was built without PKGDATADIR defined and @code{$@@}
* was specified.
* @*
* @bullet{} @code{NAME} is not a known environment variable
* @*
* @bullet{} @code{canonicalize_file_name} or @code{realpath} return
* errors (cannot resolve the resulting path).
=*/
ag_bool
optionMakePath(char * pzBuf, int bufSize, char const * pzName,
char const * pzProgPath)
{
size_t name_len = strlen(pzName);
if ((bufSize <= name_len) || (name_len == 0))
return AG_FALSE;
/*
* IF not an environment variable, just copy the data
*/
if (*pzName != '$') {
char const* pzS = pzName;
char* pzD = pzBuf;
int ct = bufSize;
for (;;) {
if ( (*(pzD++) = *(pzS++)) == NUL)
break;
if (--ct <= 0)
return AG_FALSE;
}
}
/*
* IF the name starts with "$$", then it must be "$$" or
* it must start with "$$/". In either event, replace the "$$"
* with the path to the executable and append a "/" character.
*/
else switch (pzName[1]) {
case NUL:
return AG_FALSE;
case '$':
if (! insertProgramPath(pzBuf, bufSize, pzName, pzProgPath))
return AG_FALSE;
break;
case '@':
if (program_pkgdatadir[0] == NUL)
return AG_FALSE;
if (snprintf(pzBuf, bufSize, "%s%s", program_pkgdatadir, pzName + 2)
>= bufSize)
return AG_FALSE;
break;
default:
if (! insertEnvVal(pzBuf, bufSize, pzName, pzProgPath))
return AG_FALSE;
}
#if defined(HAVE_CANONICALIZE_FILE_NAME)
{
char * pz = canonicalize_file_name(pzBuf);
if (pz == NULL)
return AG_FALSE;
name_len = strlen(pz);
if (name_len >= bufSize) {
free(pz);
return AG_FALSE;
}
memcpy(pzBuf, pz, name_len + 1);
free(pz);
}
#elif defined(HAVE_REALPATH)
{
char z[PATH_MAX+1];
if (realpath(pzBuf, z) == NULL)
return AG_FALSE;
name_len = strlen(z);
if (name_len >= bufSize)
return AG_FALSE;
memcpy(pzBuf, z, name_len + 1);
}
#endif
return AG_TRUE;
}
static ag_bool
insertProgramPath(char * pzBuf, int bufSize, char const * pzName,
char const * pzProgPath)
{
char const* pzPath;
char const* pz;
int skip = 2;
switch (pzName[2]) {
case DIRCH:
skip = 3;
case NUL:
break;
default:
return AG_FALSE;
}
/*
* See if the path is included in the program name.
* If it is, we're done. Otherwise, we have to hunt
* for the program using "pathfind".
*/
if (strchr(pzProgPath, DIRCH) != NULL)
pzPath = pzProgPath;
else {
pzPath = pathfind(getenv("PATH"), (char*)pzProgPath, "rx");
if (pzPath == NULL)
return AG_FALSE;
}
pz = strrchr(pzPath, DIRCH);
/*
* IF we cannot find a directory name separator,
* THEN we do not have a path name to our executable file.
*/
if (pz == NULL)
return AG_FALSE;
pzName += skip;
/*
* Concatenate the file name to the end of the executable path.
* The result may be either a file or a directory.
*/
if ((pz - pzPath)+1 + strlen(pzName) >= bufSize)
return AG_FALSE;
memcpy(pzBuf, pzPath, (size_t)((pz - pzPath)+1));
strcpy(pzBuf + (pz - pzPath) + 1, pzName);
/*
* If the "pzPath" path was gotten from "pathfind()", then it was
* allocated and we need to deallocate it.
*/
if (pzPath != pzProgPath)
AGFREE(pzPath);
return AG_TRUE;
}
static ag_bool
insertEnvVal(char * pzBuf, int bufSize, char const * pzName,
char const * pzProgPath)
{
char* pzDir = pzBuf;
for (;;) {
int ch = (int)*++pzName;
if (! IS_VALUE_NAME_CHAR(ch))
break;
*(pzDir++) = (char)ch;
}
if (pzDir == pzBuf)
return AG_FALSE;
*pzDir = NUL;
pzDir = getenv(pzBuf);
/*
* Environment value not found -- skip the home list entry
*/
if (pzDir == NULL)
return AG_FALSE;
if (strlen(pzDir) + 1 + strlen(pzName) >= bufSize)
return AG_FALSE;
sprintf(pzBuf, "%s%s", pzDir, pzName);
return AG_TRUE;
}
LOCAL void
mungeString(char* pzTxt, tOptionLoadMode mode)
{
char* pzE;
if (mode == OPTION_LOAD_KEEP)
return;
if (IS_WHITESPACE_CHAR(*pzTxt)) {
char* pzS = pzTxt;
char* pzD = pzTxt;
while (IS_WHITESPACE_CHAR(*++pzS)) ;
while ((*(pzD++) = *(pzS++)) != NUL) ;
pzE = pzD-1;
} else
pzE = pzTxt + strlen(pzTxt);
while ((pzE > pzTxt) && IS_WHITESPACE_CHAR(pzE[-1])) pzE--;
*pzE = NUL;
if (mode == OPTION_LOAD_UNCOOKED)
return;
switch (*pzTxt) {
default: return;
case '"':
case '\'': break;
}
switch (pzE[-1]) {
default: return;
case '"':
case '\'': break;
}
(void)ao_string_cook(pzTxt, NULL);
}
static char*
assembleArgValue(char* pzTxt, tOptionLoadMode mode)
{
static char const zBrk[] = " \t\n:=";
char* pzEnd = strpbrk(pzTxt, zBrk);
int space_break;
/*
* Not having an argument to a configurable name is okay.
*/
if (pzEnd == NULL)
return pzTxt + strlen(pzTxt);
/*
* If we are keeping all whitespace, then the modevalue starts with the
* character that follows the end of the configurable name, regardless
* of which character caused it.
*/
if (mode == OPTION_LOAD_KEEP) {
*(pzEnd++) = NUL;
return pzEnd;
}
/*
* If the name ended on a white space character, remember that
* because we'll have to skip over an immediately following ':' or '='
* (and the white space following *that*).
*/
space_break = IS_WHITESPACE_CHAR(*pzEnd);
*(pzEnd++) = NUL;
while (IS_WHITESPACE_CHAR(*pzEnd)) pzEnd++;
if (space_break && ((*pzEnd == ':') || (*pzEnd == '=')))
while (IS_WHITESPACE_CHAR(*++pzEnd)) ;
return pzEnd;
}
/*
* Load an option from a block of text. The text must start with the
* configurable/option name and be followed by its associated value.
* That value may be processed in any of several ways. See "tOptionLoadMode"
* in autoopts.h.
*/
LOCAL void
loadOptionLine(
tOptions* pOpts,
tOptState* pOS,
char* pzLine,
tDirection direction,
tOptionLoadMode load_mode )
{
while (IS_WHITESPACE_CHAR(*pzLine)) pzLine++;
{
char* pzArg = assembleArgValue(pzLine, load_mode);
if (! SUCCESSFUL(longOptionFind(pOpts, pzLine, pOS)))
return;
if (pOS->flags & OPTST_NO_INIT)
return;
pOS->pzOptArg = pzArg;
}
switch (pOS->flags & (OPTST_IMM|OPTST_DISABLE_IMM)) {
case 0:
/*
* The selected option has no immediate action.
* THEREFORE, if the direction is PRESETTING
* THEN we skip this option.
*/
if (PRESETTING(direction))
return;
break;
case OPTST_IMM:
if (PRESETTING(direction)) {
/*
* We are in the presetting direction with an option we handle
* immediately for enablement, but normally for disablement.
* Therefore, skip if disabled.
*/
if ((pOS->flags & OPTST_DISABLED) == 0)
return;
} else {
/*
* We are in the processing direction with an option we handle
* immediately for enablement, but normally for disablement.
* Therefore, skip if NOT disabled.
*/
if ((pOS->flags & OPTST_DISABLED) != 0)
return;
}
break;
case OPTST_DISABLE_IMM:
if (PRESETTING(direction)) {
/*
* We are in the presetting direction with an option we handle
* immediately for disablement, but normally for disablement.
* Therefore, skip if NOT disabled.
*/
if ((pOS->flags & OPTST_DISABLED) != 0)
return;
} else {
/*
* We are in the processing direction with an option we handle
* immediately for disablement, but normally for disablement.
* Therefore, skip if disabled.
*/
if ((pOS->flags & OPTST_DISABLED) == 0)
return;
}
break;
case OPTST_IMM|OPTST_DISABLE_IMM:
/*
* The selected option is always for immediate action.
* THEREFORE, if the direction is PROCESSING
* THEN we skip this option.
*/
if (PROCESSING(direction))
return;
break;
}
/*
* Fix up the args.
*/
if (OPTST_GET_ARGTYPE(pOS->pOD->fOptState) == OPARG_TYPE_NONE) {
if (*pOS->pzOptArg != NUL)
return;
pOS->pzOptArg = NULL;
} else if (pOS->pOD->fOptState & OPTST_ARG_OPTIONAL) {
if (*pOS->pzOptArg == NUL)
pOS->pzOptArg = NULL;
else {
AGDUPSTR(pOS->pzOptArg, pOS->pzOptArg, "option argument");
pOS->flags |= OPTST_ALLOC_ARG;
}
} else {
if (*pOS->pzOptArg == NUL)
pOS->pzOptArg = zNil;
else {
AGDUPSTR(pOS->pzOptArg, pOS->pzOptArg, "option argument");
pOS->flags |= OPTST_ALLOC_ARG;
}
}
{
tOptionLoadMode sv = option_load_mode;
option_load_mode = load_mode;
handle_opt(pOpts, pOS);
option_load_mode = sv;
}
}
/*=export_func optionLoadLine
*
* what: process a string for an option name and value
*
* arg: tOptions*, pOpts, program options descriptor
* arg: char const*, pzLine, NUL-terminated text
*
* doc:
*
* This is a client program callable routine for setting options from, for
* example, the contents of a file that they read in. Only one option may
* appear in the text. It will be treated as a normal (non-preset) option.
*
* When passed a pointer to the option struct and a string, it will find
* the option named by the first token on the string and set the option
* argument to the remainder of the string. The caller must NUL terminate
* the string. Any embedded new lines will be included in the option
* argument. If the input looks like one or more quoted strings, then the
* input will be "cooked". The "cooking" is identical to the string
* formation used in AutoGen definition files (@pxref{basic expression}),
* except that you may not use backquotes.
*
* err: Invalid options are silently ignored. Invalid option arguments
* will cause a warning to print, but the function should return.
=*/
void
optionLoadLine(tOptions * pOpts, char const * pzLine)
{
tOptState st = OPTSTATE_INITIALIZER(SET);
char* pz;
AGDUPSTR(pz, pzLine, "user option line");
loadOptionLine(pOpts, &st, pz, DIRECTION_PROCESS, OPTION_LOAD_COOKED);
AGFREE(pz);
}
/*
* Local Variables:
* mode: C
* c-file-style: "stroustrup"
* indent-tabs-mode: nil
* End:
* end of autoopts/load.c */
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