/**
* \file configfile.c
*
* configuration/rc/ini file handling.
*
* @addtogroup autoopts
* @{
*/
/*
* This file is part of AutoOpts, a companion to AutoGen.
* AutoOpts is free software.
* AutoOpts is Copyright (C) 1992-2018 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 sha256 sums:
*
* 8584710e9b04216a394078dc156b781d0b47e1729104d666658aecef8ee32e95 COPYING.gplv3
* 4379e7444a0e2ce2b12dd6f5a52a27a4d02d39d247901d3285c88cf0d37f477b COPYING.lgplv3
* 13aa749a5b0a454917a944ed8fffc530b784f5ead522b1aacaf4ec8aa55a6239 COPYING.mbsd
*/
/**
* Skip over some unknown attribute
* @param[in] txt start of skpped text
* @returns character after skipped text
*/
inline static char const *
skip_unkn(char const * txt)
{
txt = BRK_END_XML_TOKEN_CHARS(txt);
return (*txt == NUL) ? NULL : txt;
}
/*=export_func configFileLoad
*
* what: parse a configuration file
* arg: + char const * + fname + the file to load +
*
* ret_type: const tOptionValue *
* ret_desc: An allocated, compound value structure
*
* doc:
* This routine will load a named configuration file and parse the
* text as a hierarchically valued option. The option descriptor
* created from an option definition file is not used via this interface.
* The returned value is "named" with the input file name and is of
* type "@code{OPARG_TYPE_HIERARCHY}". It may be used in calls to
* @code{optionGetValue()}, @code{optionNextValue()} and
* @code{optionUnloadNested()}.
*
* err:
* If the file cannot be loaded or processed, @code{NULL} is returned and
* @var{errno} is set. It may be set by a call to either @code{open(2)}
* @code{mmap(2)} or other file system calls, or it may be:
* @itemize @bullet
* @item
* @code{ENOENT} - the file was not found.
* @item
* @code{ENOMSG} - the file was empty.
* @item
* @code{EINVAL} - the file contents are invalid -- not properly formed.
* @item
* @code{ENOMEM} - not enough memory to allocate the needed structures.
* @end itemize
=*/
const tOptionValue *
configFileLoad(char const * fname)
{
tmap_info_t cfgfile;
tOptionValue * res = NULL;
tOptionLoadMode save_mode = option_load_mode;
char * txt = text_mmap(fname, PROT_READ, MAP_PRIVATE, &cfgfile);
if (TEXT_MMAP_FAILED_ADDR(txt))
return NULL; /* errno is set */
option_load_mode = OPTION_LOAD_COOKED;
res = optionLoadNested(txt, fname, strlen(fname));
if (res == NULL) {
int err = errno;
text_munmap(&cfgfile);
errno = err;
} else
text_munmap(&cfgfile);
option_load_mode = save_mode;
return res;
}
/*=export_func optionFindValue
*
* what: find a hierarcicaly valued option instance
* arg: + const tOptDesc * + odesc + an option with a nested arg type +
* arg: + char const * + name + name of value to find +
* arg: + char const * + val + the matching value +
*
* ret_type: const tOptionValue *
* ret_desc: a compound value structure
*
* doc:
* This routine will find an entry in a nested value option or configurable.
* It will search through the list and return a matching entry.
*
* err:
* The returned result is NULL and errno is set:
* @itemize @bullet
* @item
* @code{EINVAL} - the @code{pOptValue} does not point to a valid
* hierarchical option value.
* @item
* @code{ENOENT} - no entry matched the given name.
* @end itemize
=*/
const tOptionValue *
optionFindValue(const tOptDesc * odesc, char const * name, char const * val)
{
const tOptionValue * res = NULL;
if ( (odesc == NULL)
|| (OPTST_GET_ARGTYPE(odesc->fOptState) != OPARG_TYPE_HIERARCHY)) {
errno = EINVAL;
}
else if (odesc->optCookie == NULL) {
errno = ENOENT;
}
else do {
tArgList * argl = odesc->optCookie;
int argct = argl->useCt;
void ** poptv = (void **)(argl->apzArgs);
if (argct == 0) {
errno = ENOENT;
break;
}
if (name == NULL) {
res = (tOptionValue *)*poptv;
break;
}
while (--argct >= 0) {
const tOptionValue * ov = *(poptv++);
const tOptionValue * rv = optionGetValue(ov, name);
if (rv == NULL)
continue;
if (val == NULL) {
res = ov;
break;
}
}
if (res == NULL)
errno = ENOENT;
} while (false);
return res;
}
/*=export_func optionFindNextValue
*
* FIXME: the handling of 'pzName' and 'pzVal' is just wrong.
*
* what: find a hierarcicaly valued option instance
* arg: + const tOptDesc * + odesc + an option with a nested arg type +
* arg: + const tOptionValue * + pPrevVal + the last entry +
* arg: + char const * + name + name of value to find +
* arg: + char const * + value + the matching value +
*
* ret_type: const tOptionValue *
* ret_desc: a compound value structure
*
* doc:
* This routine will find the next entry in a nested value option or
* configurable. It will search through the list and return the next entry
* that matches the criteria.
*
* err:
* The returned result is NULL and errno is set:
* @itemize @bullet
* @item
* @code{EINVAL} - the @code{pOptValue} does not point to a valid
* hierarchical option value.
* @item
* @code{ENOENT} - no entry matched the given name.
* @end itemize
=*/
tOptionValue const *
optionFindNextValue(const tOptDesc * odesc, const tOptionValue * pPrevVal,
char const * pzName, char const * pzVal)
{
bool old_found = false;
tOptionValue * res = NULL;
(void)pzName;
(void)pzVal;
if ( (odesc == NULL)
|| (OPTST_GET_ARGTYPE(odesc->fOptState) != OPARG_TYPE_HIERARCHY)) {
errno = EINVAL;
}
else if (odesc->optCookie == NULL) {
errno = ENOENT;
}
else do {
tArgList * argl = odesc->optCookie;
int ct = argl->useCt;
void ** poptv = (void **)argl->apzArgs;
while (--ct >= 0) {
tOptionValue * pOV = *(poptv++);
if (old_found) {
res = pOV;
break;
}
if (pOV == pPrevVal)
old_found = true;
}
if (res == NULL)
errno = ENOENT;
} while (false);
return res;
}
/*=export_func optionGetValue
*
* what: get a specific value from a hierarcical list
* arg: + const tOptionValue * + pOptValue + a hierarchcal value +
* arg: + char const * + valueName + name of value to get +
*
* ret_type: const tOptionValue *
* ret_desc: a compound value structure
*
* doc:
* This routine will find an entry in a nested value option or configurable.
* If "valueName" is NULL, then the first entry is returned. Otherwise,
* the first entry with a name that exactly matches the argument will be
* returned. If there is no matching value, NULL is returned and errno is
* set to ENOENT. If the provided option value is not a hierarchical value,
* NULL is also returned and errno is set to EINVAL.
*
* err:
* The returned result is NULL and errno is set:
* @itemize @bullet
* @item
* @code{EINVAL} - the @code{pOptValue} does not point to a valid
* hierarchical option value.
* @item
* @code{ENOENT} - no entry matched the given name.
* @end itemize
=*/
tOptionValue const *
optionGetValue(tOptionValue const * oov, char const * vname)
{
tArgList * arg_list;
tOptionValue * res = NULL;
if ((oov == NULL) || (oov->valType != OPARG_TYPE_HIERARCHY)) {
errno = EINVAL;
return res;
}
arg_list = oov->v.nestVal;
if (arg_list->useCt > 0) {
int ct = arg_list->useCt;
void ** ovlist = (void **)(arg_list->apzArgs);
if (vname == NULL) {
res = (tOptionValue *)*ovlist;
} else do {
tOptionValue * opt_val = *(ovlist++);
if (strcmp(opt_val->pzName, vname) == 0) {
res = opt_val;
break;
}
} while (--ct > 0);
}
if (res == NULL)
errno = ENOENT;
return res;
}
/*=export_func optionNextValue
*
* what: get the next value from a hierarchical list
* arg: + const tOptionValue * + pOptValue + a hierarchcal list value +
* arg: + const tOptionValue * + pOldValue + a value from this list +
*
* ret_type: const tOptionValue *
* ret_desc: a compound value structure
*
* doc:
* This routine will return the next entry after the entry passed in. At the
* end of the list, NULL will be returned. If the entry is not found on the
* list, NULL will be returned and "@var{errno}" will be set to EINVAL.
* The "@var{pOldValue}" must have been gotten from a prior call to this
* routine or to "@code{opitonGetValue()}".
*
* err:
* The returned result is NULL and errno is set:
* @itemize @bullet
* @item
* @code{EINVAL} - the @code{pOptValue} does not point to a valid
* hierarchical option value or @code{pOldValue} does not point to a
* member of that option value.
* @item
* @code{ENOENT} - the supplied @code{pOldValue} pointed to the last entry.
* @end itemize
=*/
tOptionValue const *
optionNextValue(tOptionValue const * ov_list,tOptionValue const * oov )
{
tArgList * arg_list;
tOptionValue * res = NULL;
int err = EINVAL;
if ((ov_list == NULL) || (ov_list->valType != OPARG_TYPE_HIERARCHY)) {
errno = EINVAL;
return NULL;
}
arg_list = ov_list->v.nestVal;
{
int ct = arg_list->useCt;
void ** o_list = (void **)(arg_list->apzArgs);
while (ct-- > 0) {
tOptionValue * nov = *(o_list++);
if (nov == oov) {
if (ct == 0) {
err = ENOENT;
} else {
err = 0;
res = (tOptionValue *)*o_list;
}
break;
}
}
}
if (err != 0)
errno = err;
return res;
}
/**
* Load a file containing presetting information (a configuration file).
*/
static void
file_preset(tOptions * opts, char const * fname, int dir)
{
tmap_info_t cfgfile;
tOptState optst = OPTSTATE_INITIALIZER(PRESET);
opt_state_mask_t st_flags = optst.flags;
opt_state_mask_t fl_save = opts->fOptSet;
char * ftext =
text_mmap(fname, PROT_READ|PROT_WRITE, MAP_PRIVATE, &cfgfile);
if (TEXT_MMAP_FAILED_ADDR(ftext))
return;
/*
* While processing config files, we ignore errors.
*/
opts->fOptSet &= ~OPTPROC_ERRSTOP;
if (dir == DIRECTION_CALLED) {
st_flags = OPTST_DEFINED;
dir = DIRECTION_PROCESS;
}
/*
* IF this is called via "optionProcess", then we are presetting.
* This is the default and the PRESETTING bit will be set.
* If this is called via "optionFileLoad", then the bit is not set
* and we consider stuff set herein to be "set" by the client program.
*/
if ((opts->fOptSet & OPTPROC_PRESETTING) == 0)
st_flags = OPTST_SET;
do {
optst.flags = st_flags;
ftext = SPN_WHITESPACE_CHARS(ftext);
if (IS_VAR_FIRST_CHAR(*ftext)) {
ftext = handle_cfg(opts, &optst, ftext, dir);
} else switch (*ftext) {
case '<':
if (IS_VAR_FIRST_CHAR(ftext[1]))
ftext = handle_struct(opts, &optst, ftext, dir);
else switch (ftext[1]) {
case '?':
ftext = handle_directive(opts, ftext);
break;
case '!':
ftext = handle_comment(ftext);
break;
case '/':
ftext = strchr(ftext + 2, '>');
if (ftext++ != NULL)
break;
/* FALLTHROUGH */
default:
ftext = NULL;
}
if (ftext == NULL)
goto all_done;
break;
case '[':
ftext = handle_section(opts, ftext);
break;
case '#':
ftext = strchr(ftext + 1, NL);
break;
default:
goto all_done; /* invalid format */
}
} while (ftext != NULL);
all_done:
text_munmap(&cfgfile);
opts->fOptSet = fl_save;
}
/**
* "txt" points to a "<!" sequence.
* Theoretically, we should ensure that it begins with "<!--",
* but actually I don't care that much. It ends with "-->".
*/
static char *
handle_comment(char * txt)
{
char * pz = strstr(txt, "-->");
if (pz != NULL)
pz += 3;
return pz;
}
/**
* "txt" points to the start of some value name.
* The end of the entry is the end of the line that is not preceded by
* a backslash escape character. The string value is always processed
* in "cooked" mode.
*/
static char *
handle_cfg(tOptions * opts, tOptState * ost, char * txt, int dir)
{
char * pzName = txt++;
char * pzEnd = strchr(txt, NL);
if (pzEnd == NULL)
return txt + strlen(txt);
txt = SPN_VALUE_NAME_CHARS(txt);
txt = SPN_WHITESPACE_CHARS(txt);
if (txt > pzEnd) {
name_only:
*pzEnd++ = NUL;
load_opt_line(opts, ost, pzName, dir, OPTION_LOAD_UNCOOKED);
return pzEnd;
}
/*
* Either the first character after the name is a ':' or '=',
* or else we must have skipped over white space. Anything else
* is an invalid format and we give up parsing the text.
*/
if ((*txt == '=') || (*txt == ':')) {
txt = SPN_WHITESPACE_CHARS(txt+1);
if (txt > pzEnd)
goto name_only;
} else if (! IS_WHITESPACE_CHAR(txt[-1]))
return NULL;
/*
* IF the value is continued, remove the backslash escape and push "pzEnd"
* on to a newline *not* preceded by a backslash.
*/
if (pzEnd[-1] == '\\') {
char * pcD = pzEnd-1;
char * pcS = pzEnd;
for (;;) {
char ch = *(pcS++);
switch (ch) {
case NUL:
pcS = NULL;
/* FALLTHROUGH */
case NL:
*pcD = NUL;
pzEnd = pcS;
goto copy_done;
case '\\':
if (*pcS == NL)
ch = *(pcS++);
/* FALLTHROUGH */
default:
*(pcD++) = ch;
}
} copy_done:;
} else {
/*
* The newline was not preceded by a backslash. NUL it out
*/
*(pzEnd++) = NUL;
}
/*
* "pzName" points to what looks like text for one option/configurable.
* It is NUL terminated. Process it.
*/
load_opt_line(opts, ost, pzName, dir, OPTION_LOAD_UNCOOKED);
return pzEnd;
}
/**
* "txt" points to a "<?" sequence.
* We handle "<?program" and "<?auto-options" directives.
* All others are treated as comments.
*
* @param[in,out] opts program option descriptor
* @param[in] txt scanning pointer
* @returns the next character to look at
*/
static char *
handle_directive(tOptions * opts, char * txt)
{
# define DIRECTIVE_TABLE \
_dt_(zCfgProg, program_directive) \
_dt_(zCfgAO_Flags, aoflags_directive)
typedef char * (directive_func_t)(tOptions *, char *);
# define _dt_(_s, _fn) _fn,
static directive_func_t * dir_disp[] = {
DIRECTIVE_TABLE
};
# undef _dt_
# define _dt_(_s, _fn) 1 +
static int const dir_ct = DIRECTIVE_TABLE 0;
static char const * dir_names[DIRECTIVE_TABLE 0];
# undef _dt_
int ix;
if (dir_names[0] == NULL) {
ix = 0;
# define _dt_(_s, _fn) dir_names[ix++] = _s;
DIRECTIVE_TABLE;
# undef _dt_
}
for (ix = 0; ix < dir_ct; ix++) {
size_t len = strlen(dir_names[ix]);
if ( (strncmp(txt, dir_names[ix], len) == 0)
&& (! IS_VALUE_NAME_CHAR(txt[len])) )
return dir_disp[ix](opts, txt + len);
}
/*
* We don't know what this is. Skip it.
*/
txt = strchr(txt+2, '>');
if (txt != NULL)
txt++;
return txt;
# undef DIRECTIVE_TABLE
}
/**
* handle AutoOpts mode flags.
*
* @param[in,out] opts program option descriptor
* @param[in] txt scanning pointer
* @returns the next character to look at
*/
static char *
aoflags_directive(tOptions * opts, char * txt)
{
char * pz;
pz = SPN_WHITESPACE_CHARS(txt+1);
txt = strchr(pz, '>');
if (txt != NULL) {
size_t len = (unsigned)(txt - pz);
char * ftxt = AGALOC(len + 1, "aoflags");
memcpy(ftxt, pz, len);
ftxt[len] = NUL;
set_usage_flags(opts, ftxt);
AGFREE(ftxt);
txt++;
}
return txt;
}
/**
* handle program segmentation of config file.
*
* @param[in,out] opts program option descriptor
* @param[in] txt scanning pointer
* @returns the next character to look at
*/
static char *
program_directive(tOptions * opts, char * txt)
{
size_t name_len = strlen(opts->pzProgName);
for (;; txt += zCfgProg_LEN) {
txt = SPN_WHITESPACE_CHARS(txt);
if ( (strneqvcmp(txt, opts->pzProgName, (int)name_len) == 0)
&& (IS_END_XML_TOKEN_CHAR(txt[name_len])) )
return txt + name_len;
txt = strstr(txt, zCfgProg);
if (txt == NULL)
return txt;
}
for (;;) {
if (*txt == NUL)
return NULL;
if (*(txt++) == '>')
return txt;
}
}
/**
* "txt" points to a '[' character.
* The "traditional" [PROG_NAME] segmentation of the config file.
* Do not ever mix with the "<?program prog-name>" variation.
* The templates reject program names over 16 characters.
*
* @param[in,out] opts program option descriptor
* @param[in] txt scanning pointer
* @returns the next character to look at
*/
static char *
handle_section(tOptions * opts, char * txt)
{
size_t len = strlen(opts->pzPROGNAME);
if ( (strncmp(txt+1, opts->pzPROGNAME, len) == 0)
&& (txt[len+1] == ']'))
return strchr(txt + len + 2, NL);
if (len > 16)
return NULL;
{
char z[24] = "[";
memcpy(z+1, opts->pzPROGNAME, len);
z[++len] = ']';
z[++len] = NUL;
txt = strstr(txt, z);
}
if (txt != NULL)
txt = strchr(txt, NL);
return txt;
}
/**
* parse XML encodings
*/
static int
parse_xml_encoding(char ** ppz)
{
# define XMLTABLE \
_xmlNm_(amp, '&') \
_xmlNm_(lt, '<') \
_xmlNm_(gt, '>') \
_xmlNm_(ff, '\f') \
_xmlNm_(ht, '\t') \
_xmlNm_(cr, '\r') \
_xmlNm_(vt, '\v') \
_xmlNm_(bel, '\a') \
_xmlNm_(nl, NL) \
_xmlNm_(space, ' ') \
_xmlNm_(quot, '"') \
_xmlNm_(apos, '\'')
static struct {
char const * const nm_str;
unsigned short nm_len;
short nm_val;
} const xml_names[] = {
# define _xmlNm_(_n, _v) { #_n ";", sizeof(#_n), _v },
XMLTABLE
# undef _xmlNm_
# undef XMLTABLE
};
static int const nm_ct = sizeof(xml_names) / sizeof(xml_names[0]);
int base = 10;
char * pz = *ppz;
if (*pz == '#') {
pz++;
goto parse_number;
}
if (IS_DEC_DIGIT_CHAR(*pz)) {
unsigned long v;
parse_number:
switch (*pz) {
case 'x': case 'X':
/*
* Some forms specify hex with: &#xNN;
*/
base = 16;
pz++;
break;
case '0':
/*
*  is hex and  is decimal. Cool.
* Ya gotta love it.
*/
if (pz[1] == '0')
base = 16;
break;
}
v = strtoul(pz, &pz, base);
if ((*pz != ';') || (v > 0x7F))
return NUL;
*ppz = pz + 1;
return (int)v;
}
{
int ix = 0;
do {
if (strncmp(pz, xml_names[ix].nm_str, xml_names[ix].nm_len)
== 0) {
*ppz = pz + xml_names[ix].nm_len;
return xml_names[ix].nm_val;
}
} while (++ix < nm_ct);
}
return NUL;
}
/**
* Find the end marker for the named section of XML.
* Trim that text there, trimming trailing white space for all modes
* except for OPTION_LOAD_UNCOOKED.
*/
static char *
trim_xml_text(char * intxt, char const * pznm, tOptionLoadMode mode)
{
size_t nm_len = strlen(pznm);
char * etext;
{
char z[64], *pz = z;
if (nm_len + 4 >= sizeof(z))
pz = AGALOC(nm_len + 4, "scan name");
pz[0] = '<';
pz[1] = '/';
memcpy(pz+2, pznm, nm_len);
nm_len += 2;
pz[nm_len++] = '>';
pz[nm_len] = NUL;
*intxt = ' ';
etext = strstr(intxt, pz);
if (pz != z) AGFREE(pz);
}
if (etext == NULL)
return etext;
{
char * result = etext + nm_len;
if (mode != OPTION_LOAD_UNCOOKED)
etext = SPN_WHITESPACE_BACK(intxt, etext);
*etext = NUL;
return result;
}
}
/**
*/
static void
cook_xml_text(char * pzData)
{
char * pzs = pzData;
char * pzd = pzData;
char bf[4];
bf[2] = NUL;
for (;;) {
int ch = ((int)*(pzs++)) & 0xFF;
switch (ch) {
case NUL:
*pzd = NUL;
return;
case '&':
ch = parse_xml_encoding(&pzs);
*(pzd++) = (char)ch;
if (ch == NUL)
return;
break;
case '%':
bf[0] = *(pzs++);
bf[1] = *(pzs++);
if ((bf[0] == NUL) || (bf[1] == NUL)) {
*pzd = NUL;
return;
}
ch = (int)strtoul(bf, NULL, 16);
/* FALLTHROUGH */
default:
*(pzd++) = (char)ch;
}
}
}
/**
* "txt" points to a '<' character, followed by an alpha.
* The end of the entry is either the "/>" following the name, or else a
* "</name>" string.
*/
static char *
handle_struct(tOptions * opts, tOptState * ost, char * txt, int dir)
{
tOptionLoadMode mode = option_load_mode;
tOptionValue valu;
char * pzName = ++txt;
char * pzData;
char * pcNulPoint;
txt = SPN_VALUE_NAME_CHARS(txt);
pcNulPoint = txt;
valu.valType = OPARG_TYPE_STRING;
switch (*txt) {
case ' ':
case '\t':
txt = VOIDP(parse_attrs(
opts, SPN_WHITESPACE_CHARS(txt), &mode, &valu));
if (txt == NULL)
return txt;
if (*txt == '>')
break;
if (*txt != '/')
return NULL;
/* FALLTHROUGH */
case '/':
if (txt[1] != '>')
return NULL;
*txt = NUL;
txt += 2;
load_opt_line(opts, ost, pzName, dir, mode);
return txt;
case '>':
break;
default:
txt = strchr(txt, '>');
if (txt != NULL)
txt++;
return txt;
}
/*
* If we are here, we have a value. "txt" points to a closing angle
* bracket. Separate the name from the value for a moment.
*/
*pcNulPoint = NUL;
pzData = ++txt;
txt = trim_xml_text(txt, pzName, mode);
if (txt == NULL)
return txt;
/*
* Rejoin the name and value for parsing by "load_opt_line()".
* Erase any attributes parsed by "parse_attrs()".
*/
memset(pcNulPoint, ' ', (size_t)(pzData - pcNulPoint));
/*
* If we are getting a "string" value that is to be cooked,
* then process the XML-ish &xx; XML-ish and %XX hex characters.
*/
if ( (valu.valType == OPARG_TYPE_STRING)
&& (mode == OPTION_LOAD_COOKED))
cook_xml_text(pzData);
/*
* "pzName" points to what looks like text for one option/configurable.
* It is NUL terminated. Process it.
*/
load_opt_line(opts, ost, pzName, dir, mode);
return txt;
}
/**
* Load a configuration file. This may be invoked either from
* scanning the "homerc" list, or from a specific file request.
* (see "optionFileLoad()", the implementation for --load-opts)
*/
static void
intern_file_load(tOptions * opts)
{
uint32_t svfl;
int idx;
int inc;
char f_name[ AG_PATH_MAX+1 ];
if (opts->papzHomeList == NULL)
return;
svfl = opts->fOptSet;
inc = DIRECTION_PRESET;
/*
* Never stop on errors in config files.
*/
opts->fOptSet &= ~OPTPROC_ERRSTOP;
/*
* Find the last RC entry (highest priority entry)
*/
for (idx = 0; opts->papzHomeList[ idx+1 ] != NULL; ++idx) ;
/*
* For every path in the home list, ... *TWICE* We start at the last
* (highest priority) entry, work our way down to the lowest priority,
* handling the immediate options.
* Then we go back up, doing the normal options.
*/
for (;;) {
struct stat sb;
cch_t * path;
/*
* IF we've reached the bottom end, change direction
*/
if (idx < 0) {
inc = DIRECTION_PROCESS;
idx = 0;
}
path = opts->papzHomeList[ idx ];
/*
* IF we've reached the top end, bail out
*/
if (path == NULL)
break;
idx += inc;
if (! optionMakePath(f_name, (int)sizeof(f_name),
path, opts->pzProgPath))
continue;
/*
* IF the file name we constructed is a directory,
* THEN append the Resource Configuration file name
* ELSE we must have the complete file name
*/
if (stat(f_name, &sb) != 0)
continue; /* bogus name - skip the home list entry */
if (S_ISDIR(sb.st_mode)) {
size_t len = strlen(f_name);
size_t nln = strlen(opts->pzRcName) + 1;
char * pz = f_name + len;
if (len + 1 + nln >= sizeof(f_name))
continue;
if (pz[-1] != DIRCH)
*(pz++) = DIRCH;
memcpy(pz, opts->pzRcName, nln);
}
file_preset(opts, f_name, inc);
/*
* IF we are now to skip config files AND we are presetting,
* THEN change direction. We must go the other way.
*/
{
tOptDesc * od = opts->pOptDesc + opts->specOptIdx.save_opts + 1;
if (DISABLED_OPT(od) && PRESETTING(inc)) {
idx -= inc; /* go back and reprocess current file */
inc = DIRECTION_PROCESS;
}
}
} /* twice for every path in the home list, ... */
opts->fOptSet = svfl;
}
/*=export_func optionFileLoad
*
* what: Load the locatable config files, in order
*
* arg: + tOptions * + opts + program options descriptor +
* arg: + char const * + prog + program name +
*
* ret_type: int
* ret_desc: 0 -> SUCCESS, -1 -> FAILURE
*
* doc:
*
* This function looks in all the specified directories for a configuration
* file ("rc" file or "ini" file) and processes any found twice. The first
* time through, they are processed in reverse order (last file first). At
* that time, only "immediate action" configurables are processed. For
* example, if the last named file specifies not processing any more
* configuration files, then no more configuration files will be processed.
* Such an option in the @strong{first} named directory will have no effect.
*
* Once the immediate action configurables have been handled, then the
* directories are handled in normal, forward order. In that way, later
* config files can override the settings of earlier config files.
*
* See the AutoOpts documentation for a thorough discussion of the
* config file format.
*
* Configuration files not found or not decipherable are simply ignored.
*
* err: Returns the value, "-1" if the program options descriptor
* is out of date or indecipherable. Otherwise, the value "0" will
* always be returned.
=*/
int
optionFileLoad(tOptions * opts, char const * prog)
{
if (! SUCCESSFUL(validate_struct(opts, prog)))
return -1;
/*
* The pointer to the program name is "const". However, the
* structure is in writable memory, so we coerce the address
* of this pointer to point to writable memory.
*/
{
char const ** pp = VOIDP(&(opts->pzProgName));
*pp = prog;
}
intern_file_load(opts);
return 0;
}
/*=export_func optionLoadOpt
* private:
*
* what: Load an option rc/ini file
* arg: + tOptions * + opts + program options descriptor +
* arg: + tOptDesc * + odesc + the descriptor for this arg +
*
* doc:
* Processes the options found in the file named with
* odesc->optArg.argString.
=*/
void
optionLoadOpt(tOptions * opts, tOptDesc * odesc)
{
struct stat sb;
if (opts <= OPTPROC_EMIT_LIMIT)
return;
/*
* IF the option is not being disabled, THEN load the file. There must
* be a file. (If it is being disabled, then the disablement processing
* already took place. It must be done to suppress preloading of ini/rc
* files.)
*/
if ( DISABLED_OPT(odesc)
|| ((odesc->fOptState & OPTST_RESET) != 0))
return;
if (stat(odesc->optArg.argString, &sb) != 0) {
if ((opts->fOptSet & OPTPROC_ERRSTOP) == 0)
return;
fserr_exit(opts->pzProgName, "stat", odesc->optArg.argString);
/* NOT REACHED */
}
if (! S_ISREG(sb.st_mode)) {
if ((opts->fOptSet & OPTPROC_ERRSTOP) == 0)
return;
errno = EINVAL;
fserr_exit(opts->pzProgName, "stat", odesc->optArg.argString);
/* NOT REACHED */
}
file_preset(opts, odesc->optArg.argString, DIRECTION_CALLED);
}
/**
* Parse the various attributes of an XML-styled config file entry
*
* @returns NULL on failure, otherwise the scan point
*/
static char const *
parse_attrs(tOptions * opts, char const * txt, tOptionLoadMode * pMode,
tOptionValue * pType)
{
size_t len = 0;
for (;;) {
len = (size_t)(SPN_LOWER_CASE_CHARS(txt) - txt);
/*
* The enumeration used in this switch is derived from this switch
* statement itself. The "find_option_xat_attribute_cmd" function
* will return XAT_CMD_MEMBERS for the "txt" string value
* "members", etc.
*/
switch (find_option_xat_attribute_cmd(txt, len)) {
case XAT_CMD_TYPE:
txt = parse_value(txt+len, pType);
break;
case XAT_CMD_WORDS:
txt = parse_keyword(opts, txt+len, pType);
break;
case XAT_CMD_MEMBERS:
txt = parse_set_mem(opts, txt+len, pType);
break;
case XAT_CMD_COOKED:
txt += len;
if (! IS_END_XML_TOKEN_CHAR(*txt))
goto invalid_kwd;
*pMode = OPTION_LOAD_COOKED;
break;
case XAT_CMD_UNCOOKED:
txt += len;
if (! IS_END_XML_TOKEN_CHAR(*txt))
goto invalid_kwd;
*pMode = OPTION_LOAD_UNCOOKED;
break;
case XAT_CMD_KEEP:
txt += len;
if (! IS_END_XML_TOKEN_CHAR(*txt))
goto invalid_kwd;
*pMode = OPTION_LOAD_KEEP;
break;
default:
case XAT_INVALID_CMD:
invalid_kwd:
pType->valType = OPARG_TYPE_NONE;
return skip_unkn(txt);
}
if (txt == NULL)
return NULL;
txt = SPN_WHITESPACE_CHARS(txt);
switch (*txt) {
case '/': pType->valType = OPARG_TYPE_NONE;
/* FALLTHROUGH */
case '>': return txt;
}
if (! IS_LOWER_CASE_CHAR(*txt))
return NULL;
}
}
/**
* "txt" points to the character after "words=".
* What should follow is a name of a keyword (enumeration) list.
*
* @param opts unused
* @param[in] txt keyword to skip over
* @param type unused value type
* @returns pointer after skipped text
*/
static char const *
parse_keyword(tOptions * opts, char const * txt, tOptionValue * typ)
{
(void)opts;
(void)typ;
return skip_unkn(txt);
}
/**
* "txt" points to the character after "members="
* What should follow is a name of a "set membership".
* A collection of bit flags.
*
* @param opts unused
* @param[in] txt keyword to skip over
* @param type unused value type
* @returns pointer after skipped text
*/
static char const *
parse_set_mem(tOptions * opts, char const * txt, tOptionValue * typ)
{
(void)opts;
(void)typ;
return skip_unkn(txt);
}
/**
* parse the type. The keyword "type" was found, now figure out
* the type that follows the type.
*
* @param[in] txt points to the '=' character after the "type" keyword.
* @param[out] typ where to store the type found
* @returns the next byte after the type name
*/
static char const *
parse_value(char const * txt, tOptionValue * typ)
{
size_t len = 0;
if (*(txt++) != '=')
goto woops;
len = (size_t)(SPN_OPTION_NAME_CHARS(txt) - txt);
if ((len == 0) || (! IS_END_XML_TOKEN_CHAR(txt[len]))) {
woops:
typ->valType = OPARG_TYPE_NONE;
return skip_unkn(txt + len);
}
/*
* The enumeration used in this switch is derived from this switch
* statement itself. The "find_option_value_type_cmd" function
* will return VTP_CMD_INTEGER for the "txt" string value
* "integer", etc.
*/
switch (find_option_value_type_cmd(txt, len)) {
default:
case VTP_INVALID_CMD: goto woops;
case VTP_CMD_STRING:
typ->valType = OPARG_TYPE_STRING;
break;
case VTP_CMD_INTEGER:
typ->valType = OPARG_TYPE_NUMERIC;
break;
case VTP_CMD_BOOL:
case VTP_CMD_BOOLEAN:
typ->valType = OPARG_TYPE_BOOLEAN;
break;
case VTP_CMD_KEYWORD:
typ->valType = OPARG_TYPE_ENUMERATION;
break;
case VTP_CMD_SET:
case VTP_CMD_SET_MEMBERSHIP:
typ->valType = OPARG_TYPE_MEMBERSHIP;
break;
case VTP_CMD_NESTED:
case VTP_CMD_HIERARCHY:
typ->valType = OPARG_TYPE_HIERARCHY;
}
return txt + len;
}
/** @}
*
* Local Variables:
* mode: C
* c-file-style: "stroustrup"
* indent-tabs-mode: nil
* End:
* end of autoopts/configfile.c */