/* Copyright (C) 2004 J.F.Dockes
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the
* Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef TEST_RCLCONFIG
#include "autoconfig.h"
#include <unistd.h>
#include <fcntl.h>
#include <stdio.h>
#include <errno.h>
#include <langinfo.h>
#include <limits.h>
#include <sys/param.h>
#include <algorithm>
#include <list>
using std::list;
#include <sys/types.h>
#include <sys/stat.h>
#ifdef __FreeBSD__
#include <osreldate.h>
#endif
#include <iostream>
#include <sstream>
#include <cstdlib>
#include <cstring>
using namespace std;
#include "cstr.h"
#include "pathut.h"
#include "rclconfig.h"
#include "conftree.h"
#include "debuglog.h"
#include "smallut.h"
#include "textsplit.h"
#include "readfile.h"
#include "fstreewalk.h"
#include "cpuconf.h"
typedef pair<int,int> RclPII;
// Static, logically const, RclConfig members are initialized once from the
// first object build during process initialization.
// We default to a case- and diacritics-less index for now
bool o_index_stripchars = true;
bool o_uptodate_test_use_mtime = false;
string RclConfig::o_localecharset;
string RclConfig::o_origcwd;
bool ParamStale::needrecompute()
{
LOGDEB2(("ParamStale:: needrecompute. parent gen %d mine %d\n",
parent->m_keydirgen, savedkeydirgen));
if (active && parent->m_keydirgen != savedkeydirgen) {
LOGDEB2(("ParamState:: needrecompute. conffile %p\n", conffile));
savedkeydirgen = parent->m_keydirgen;
string newvalue;
if (!conffile)
return false;
conffile->get(paramname, newvalue, parent->m_keydir);
if (newvalue.compare(savedvalue)) {
savedvalue = newvalue;
LOGDEB2(("ParamState:: needrecompute. return true newvalue [%s]\n",
newvalue.c_str()));
return true;
}
}
return false;
}
void ParamStale::init(ConfNull *cnf)
{
conffile = cnf;
active = false;
if (conffile)
active = conffile->hasNameAnywhere(paramname);
savedkeydirgen = -1;
}
ParamStale::ParamStale(RclConfig *rconf, const string& nm)
: parent(rconf), conffile(0), paramname(nm),
active(false), savedkeydirgen(-1)
{
}
void RclConfig::zeroMe() {
m_ok = false;
m_keydirgen = 0;
m_conf = 0;
mimemap = 0;
mimeconf = 0;
mimeview = 0;
m_fields = 0;
m_ptrans = 0;
m_stopsuffixes = 0;
m_maxsufflen = 0;
m_oldstpsuffstate.init(0);
m_stpsuffstate.init(0);
m_skpnstate.init(0);
m_rmtstate.init(0);
m_xmtstate.init(0);
m_mdrstate.init(0);
}
bool RclConfig::isDefaultConfig() const
{
string defaultconf = path_cat(path_canon(path_home()), ".recoll/");
string specifiedconf = path_canon(m_confdir);
path_catslash(specifiedconf);
return !defaultconf.compare(specifiedconf);
}
RclConfig::RclConfig(const string *argcnf)
: m_oldstpsuffstate(this, "recoll_noindex"),
m_stpsuffstate(this, "noContentSuffixes"),
m_skpnstate(this, "skippedNames"),
m_rmtstate(this, "indexedmimetypes"),
m_xmtstate(this, "excludedmimetypes"),
m_mdrstate(this, "metadatacmds")
{
zeroMe();
if (o_origcwd.empty()) {
char buf[MAXPATHLEN];
if (getcwd(buf, MAXPATHLEN)) {
o_origcwd = string(buf);
} else {
fprintf(stderr, "recollxx: can't retrieve current working directory: relative path translations will fail\n");
}
}
// Compute our data dir name, typically /usr/local/share/recoll
const char *cdatadir = getenv("RECOLL_DATADIR");
if (cdatadir == 0) {
// If not in environment, use the compiled-in constant.
m_datadir = RECOLL_DATADIR;
} else {
m_datadir = cdatadir;
}
// We only do the automatic configuration creation thing for the default
// config dir, not if it was specified through -c or RECOLL_CONFDIR
bool autoconfdir = false;
// Command line config name overrides environment
if (argcnf && !argcnf->empty()) {
m_confdir = path_absolute(*argcnf);
if (m_confdir.empty()) {
m_reason =
string("Cant turn [") + *argcnf + "] into absolute path";
return;
}
} else {
const char *cp = getenv("RECOLL_CONFDIR");
if (cp) {
m_confdir = path_canon(cp);
} else {
autoconfdir = true;
m_confdir = path_cat(path_home(), ".recoll/");
}
}
// Note: autoconfdir and isDefaultConfig() are normally the same. We just
// want to avoid the imperfect test in isDefaultConfig() if we actually know
// this is the default conf
if (!autoconfdir && !isDefaultConfig()) {
if (access(m_confdir.c_str(), 0) < 0) {
m_reason = "Explicitly specified configuration "
"directory must exist"
" (won't be automatically created). Use mkdir first";
return;
}
}
if (access(m_confdir.c_str(), 0) < 0) {
if (!initUserConfig())
return;
}
// This can't change once computed inside a process. It would be
// nicer to move this to a static class initializer to avoid
// possible threading issues but this doesn't work (tried) as
// things would not be ready. In practise we make sure that this
// is called from the main thread at once, by constructing a config
// from recollinit
if (o_localecharset.empty()) {
const char *cp;
cp = nl_langinfo(CODESET);
// We don't keep US-ASCII. It's better to use a superset
// Ie: me have a C locale and some french file names, and I
// can't imagine a version of iconv that couldn't translate
// from iso8859?
// The 646 thing is for solaris.
if (cp && *cp && strcmp(cp, "US-ASCII")
#ifdef sun
&& strcmp(cp, "646")
#endif
) {
o_localecharset = string(cp);
} else {
// Use cp1252 instead of iso-8859-1, it's a superset.
o_localecharset = string(cstr_cp1252);
}
LOGDEB1(("RclConfig::getDefCharset: localecharset [%s]\n",
o_localecharset.c_str()));
}
const char *cp;
// Additional config directory, values override user ones
if ((cp = getenv("RECOLL_CONFTOP"))) {
m_cdirs.push_back(cp);
}
// User config
m_cdirs.push_back(m_confdir);
// Additional config directory, overrides system's, overridden by user's
if ((cp = getenv("RECOLL_CONFMID"))) {
m_cdirs.push_back(cp);
}
// Base/installation config
m_cdirs.push_back(path_cat(m_datadir, "examples"));
string cnferrloc;
for (vector<string>::const_iterator it = m_cdirs.begin();
it != m_cdirs.end(); it++) {
if (it != m_cdirs.begin())
cnferrloc += string(" or ");
cnferrloc += *it;
}
// Read and process "recoll.conf"
if (!updateMainConfig())
return;
// Other files
mimemap = new ConfStack<ConfTree>("mimemap", m_cdirs, true);
if (mimemap == 0 || !mimemap->ok()) {
m_reason = string("No or bad mimemap file in: ") + cnferrloc;
return;
}
mimeconf = new ConfStack<ConfSimple>("mimeconf", m_cdirs, true);
if (mimeconf == 0 || !mimeconf->ok()) {
m_reason = string("No/bad mimeconf in: ") + cnferrloc;
return;
}
mimeview = new ConfStack<ConfSimple>("mimeview", m_cdirs, false);
if (mimeview == 0)
mimeview = new ConfStack<ConfSimple>("mimeview", m_cdirs, true);
if (mimeview == 0 || !mimeview->ok()) {
m_reason = string("No/bad mimeview in: ") + cnferrloc;
return;
}
if (!readFieldsConfig(cnferrloc))
return;
// Default is no threading
m_thrConf = create_vector<RclPII>
(RclPII(-1, 0))(RclPII(-1, 0))(RclPII(-1, 0));
m_ptrans = new ConfSimple(path_cat(m_confdir, "ptrans").c_str());
m_ok = true;
setKeyDir(cstr_null);
m_oldstpsuffstate.init(mimemap);
m_stpsuffstate.init(m_conf);
m_skpnstate.init(m_conf);
m_rmtstate.init(m_conf);
m_xmtstate.init(m_conf);
m_mdrstate.init(m_conf);
return;
}
bool RclConfig::updateMainConfig()
{
ConfStack<ConfTree> *newconf =
new ConfStack<ConfTree>("recoll.conf", m_cdirs, true);
if (newconf == 0 || !newconf->ok()) {
if (m_conf)
return false;
string where;
stringsToString(m_cdirs, where);
m_reason = string("No/bad main configuration file in: ") + where;
m_ok = false;
m_skpnstate.init(0);
m_rmtstate.init(0);
m_xmtstate.init(0);
m_mdrstate.init(0);
return false;
}
delete m_conf;
m_conf = newconf;
m_skpnstate.init(m_conf);
m_rmtstate.init(m_conf);
m_xmtstate.init(m_conf);
m_mdrstate.init(m_conf);
setKeyDir(cstr_null);
bool nocjk = false;
if (getConfParam("nocjk", &nocjk) && nocjk == true) {
TextSplit::cjkProcessing(false);
} else {
int ngramlen;
if (getConfParam("cjkngramlen", &ngramlen)) {
TextSplit::cjkProcessing(true, (unsigned int)ngramlen);
} else {
TextSplit::cjkProcessing(true);
}
}
bool nonum = false;
if (getConfParam("nonumbers", &nonum) && nonum == true) {
TextSplit::noNumbers();
}
bool fnmpathname = true;
if (getConfParam("skippedPathsFnmPathname", &fnmpathname)
&& fnmpathname == false) {
FsTreeWalker::setNoFnmPathname();
}
static int m_index_stripchars_init = 0;
if (!m_index_stripchars_init) {
getConfParam("indexStripChars", &o_index_stripchars);
getConfParam("testmodifusemtime", &o_uptodate_test_use_mtime);
m_index_stripchars_init = 1;
}
return true;
}
ConfNull *RclConfig::cloneMainConfig()
{
ConfNull *conf = new ConfStack<ConfTree>("recoll.conf", m_cdirs, false);
if (conf == 0 || !conf->ok()) {
m_reason = string("Can't read config");
return 0;
}
return conf;
}
// Remember what directory we're under (for further conf->get()s), and
// prefetch a few common values.
void RclConfig::setKeyDir(const string &dir)
{
if (!dir.compare(m_keydir))
return;
m_keydirgen++;
m_keydir = dir;
if (m_conf == 0)
return;
if (!m_conf->get("defaultcharset", m_defcharset, m_keydir))
m_defcharset.erase();
}
bool RclConfig::getConfParam(const string &name, int *ivp, bool shallow) const
{
string value;
if (!getConfParam(name, value, shallow))
return false;
errno = 0;
long lval = strtol(value.c_str(), 0, 0);
if (lval == 0 && errno)
return 0;
if (ivp)
*ivp = int(lval);
return true;
}
bool RclConfig::getConfParam(const string &name, bool *bvp, bool shallow) const
{
if (!bvp)
return false;
*bvp = false;
string s;
if (!getConfParam(name, s, shallow))
return false;
*bvp = stringToBool(s);
return true;
}
bool RclConfig::getConfParam(const string &name, vector<string> *svvp,
bool shallow) const
{
if (!svvp)
return false;
svvp->clear();
string s;
if (!getConfParam(name, s, shallow))
return false;
return stringToStrings(s, *svvp);
}
bool RclConfig::getConfParam(const string &name, vector<int> *vip,
bool shallow) const
{
if (!vip)
return false;
vip->clear();
vector<string> vs;
if (!getConfParam(name, &vs, shallow))
return false;
vip->reserve(vs.size());
for (unsigned int i = 0; i < vs.size(); i++) {
char *ep;
vip->push_back(strtol(vs[i].c_str(), &ep, 0));
if (ep == vs[i].c_str()) {
LOGDEB(("RclConfig::getConfParam: bad int value in [%s]\n",
name.c_str()));
return false;
}
}
return true;
}
void RclConfig::initThrConf()
{
// Default is no threading
m_thrConf = create_vector<RclPII>
(RclPII(-1, 0))(RclPII(-1, 0))(RclPII(-1, 0));
vector<int> vq;
vector<int> vt;
if (!getConfParam("thrQSizes", &vq)) {
LOGINFO(("RclConfig::initThrConf: no thread info (queues)\n"));
goto out;
}
// If the first queue size is 0, autoconf is requested.
if (vq.size() > 0 && vq[0] == 0) {
LOGDEB(("RclConfig::initThrConf: autoconf requested\n"));
CpuConf cpus;
if (!getCpuConf(cpus) || cpus.ncpus < 1) {
LOGERR(("RclConfig::initThrConf: could not retrieve cpu conf\n"));
cpus.ncpus = 1;
}
// Arbitrarily set threads config based on number of CPUS. This also
// depends on the IO setup actually, so we're bound to be wrong...
if (cpus.ncpus == 1) {
// Somewhat counter-intuitively (because of possible IO//)
// it seems that the best config here is no threading
} else if (cpus.ncpus < 4) {
// Untested so let's guess...
m_thrConf = create_vector<RclPII>
(RclPII(2, 2))(RclPII(2, 2))(RclPII(2, 1));
} else if (cpus.ncpus < 6) {
m_thrConf = create_vector<RclPII>
(RclPII(2, 4))(RclPII(2, 2))(RclPII(2, 1));
} else {
m_thrConf = create_vector<RclPII>
(RclPII(2, 5))(RclPII(2, 3))(RclPII(2, 1));
}
goto out;
} else if (vq.size() > 0 && vq[0] < 0) {
// threads disabled by config
goto out;
}
if (!getConfParam("thrTCounts", &vt) ) {
LOGINFO(("RclConfig::initThrConf: no thread info (threads)\n"));
goto out;
}
if (vq.size() != 3 || vt.size() != 3) {
LOGINFO(("RclConfig::initThrConf: bad thread info vector sizes\n"));
goto out;
}
// Normal case: record info from config
m_thrConf.clear();
for (unsigned int i = 0; i < 3; i++) {
m_thrConf.push_back(RclPII(vq[i], vt[i]));
}
out:
ostringstream sconf;
for (unsigned int i = 0; i < 3; i++) {
sconf << "(" << m_thrConf[i].first << ", " << m_thrConf[i].second <<
") ";
}
LOGDEB(("RclConfig::initThrConf: chosen config (ql,nt): %s\n",
sconf.str().c_str()));
}
pair<int,int> RclConfig::getThrConf(ThrStage who) const
{
if (m_thrConf.size() != 3) {
LOGERR(("RclConfig::getThrConf: bad data in rclconfig\n"));
return pair<int,int>(-1,-1);
}
return m_thrConf[who];
}
vector<string> RclConfig::getTopdirs() const
{
vector<string> tdl;
if (!getConfParam("topdirs", &tdl)) {
LOGERR(("RclConfig::getTopdirs: no top directories in config or "
"bad list format\n"));
return tdl;
}
for (vector<string>::iterator it = tdl.begin(); it != tdl.end(); it++) {
*it = path_tildexpand(*it);
*it = path_canon(*it);
}
return tdl;
}
// Get charset to be used for transcoding to utf-8 if unspecified by doc
// For document contents:
// If defcharset was set (from the config or a previous call, this
// is done in setKeydir), use it.
// Else, try to guess it from the locale
// Use cp1252 (as a superset of iso8859-1) as ultimate default
//
// For filenames, same thing except that we do not use the config file value
// (only the locale).
const string& RclConfig::getDefCharset(bool filename) const
{
if (filename) {
return o_localecharset;
} else {
return m_defcharset.empty() ? o_localecharset : m_defcharset;
}
}
// Get all known document mime values. We get them from the mimeconf
// 'index' submap.
// It's quite possible that there are other mime types in the index
// (defined in mimemap and not mimeconf, or output by "file -i"). We
// just ignore them, because there may be myriads, and their contents
// are not indexed.
//
// This unfortunately means that searches by file names and mime type
// filtering don't work well together.
vector<string> RclConfig::getAllMimeTypes() const
{
return mimeconf ? mimeconf->getNames("index") : vector<string>();
}
// Things for suffix comparison. We define a string class and string
// comparison with suffix-only sensitivity
class SfString {
public:
SfString(const string& s) : m_str(s) {}
bool operator==(const SfString& s2) {
string::const_reverse_iterator r1 = m_str.rbegin(), re1 = m_str.rend(),
r2 = s2.m_str.rbegin(), re2 = s2.m_str.rend();
while (r1 != re1 && r2 != re2) {
if (*r1 != *r2) {
return 0;
}
++r1; ++r2;
}
return 1;
}
string m_str;
};
class SuffCmp {
public:
int operator()(const SfString& s1, const SfString& s2) {
//cout << "Comparing " << s1.m_str << " and " << s2.m_str << endl;
string::const_reverse_iterator
r1 = s1.m_str.rbegin(), re1 = s1.m_str.rend(),
r2 = s2.m_str.rbegin(), re2 = s2.m_str.rend();
while (r1 != re1 && r2 != re2) {
if (*r1 != *r2) {
return *r1 < *r2 ? 1 : 0;
}
++r1; ++r2;
}
return 0;
}
};
typedef multiset<SfString, SuffCmp> SuffixStore;
#define STOPSUFFIXES ((SuffixStore *)m_stopsuffixes)
bool RclConfig::inStopSuffixes(const string& fni)
{
LOGDEB2(("RclConfig::inStopSuffixes(%s)\n", fni.c_str()));
// Beware: both needrecompute() need to be called always hence the
// bizarre way we do things
bool needrecompute = m_stpsuffstate.needrecompute();
needrecompute = m_oldstpsuffstate.needrecompute() || needrecompute;
if (needrecompute || m_stopsuffixes == 0) {
// Need to initialize the suffixes
delete STOPSUFFIXES;
if ((m_stopsuffixes = new SuffixStore) == 0) {
LOGERR(("RclConfig::inStopSuffixes: out of memory\n"));
return false;
}
// Let the old customisation have priority: if recoll_noindex
// from mimemap is set, it the user's (the default value is
// gone). Else use the new variable
vector<string> stoplist;
if (!m_oldstpsuffstate.savedvalue.empty()) {
stringToStrings(m_oldstpsuffstate.savedvalue, stoplist);
} else {
stringToStrings(m_stpsuffstate.savedvalue, stoplist);
}
for (vector<string>::const_iterator it = stoplist.begin();
it != stoplist.end(); it++) {
STOPSUFFIXES->insert(SfString(stringtolower(*it)));
if (m_maxsufflen < it->length())
m_maxsufflen = it->length();
}
}
// Only need a tail as long as the longest suffix.
int pos = MAX(0, int(fni.length() - m_maxsufflen));
string fn(fni, pos);
stringtolower(fn);
SuffixStore::const_iterator it = STOPSUFFIXES->find(fn);
if (it != STOPSUFFIXES->end()) {
LOGDEB2(("RclConfig::inStopSuffixes: Found (%s) [%s]\n",
fni.c_str(), (*it).m_str.c_str()));
return true;
} else {
LOGDEB2(("RclConfig::inStopSuffixes: not found [%s]\n", fni.c_str()));
return false;
}
}
string RclConfig::getMimeTypeFromSuffix(const string& suff) const
{
string mtype;
mimemap->get(suff, mtype, m_keydir);
return mtype;
}
string RclConfig::getSuffixFromMimeType(const string &mt) const
{
string suffix;
vector<string>sfs = mimemap->getNames(cstr_null);
string mt1;
for (vector<string>::const_iterator it = sfs.begin();
it != sfs.end(); it++) {
if (mimemap->get(*it, mt1, cstr_null))
if (!stringicmp(mt, mt1))
return *it;
}
return cstr_null;
}
/** Get list of file categories from mimeconf */
bool RclConfig::getMimeCategories(vector<string>& cats) const
{
if (!mimeconf)
return false;
cats = mimeconf->getNames("categories");
return true;
}
bool RclConfig::isMimeCategory(string& cat) const
{
vector<string>cats;
getMimeCategories(cats);
for (vector<string>::iterator it = cats.begin(); it != cats.end(); it++) {
if (!stringicmp(*it,cat))
return true;
}
return false;
}
/** Get list of mime types for category from mimeconf */
bool RclConfig::getMimeCatTypes(const string& cat, vector<string>& tps) const
{
tps.clear();
if (!mimeconf)
return false;
string slist;
if (!mimeconf->get(cat, slist, "categories"))
return false;
stringToStrings(slist, tps);
return true;
}
string RclConfig::getMimeHandlerDef(const string &mtype, bool filtertypes)
{
string hs;
if (filtertypes) {
if(m_rmtstate.needrecompute()) {
m_restrictMTypes.clear();
stringToStrings(stringtolower((const string&)m_rmtstate.savedvalue),
m_restrictMTypes);
}
if (m_xmtstate.needrecompute()) {
m_excludeMTypes.clear();
stringToStrings(stringtolower((const string&)m_xmtstate.savedvalue),
m_excludeMTypes);
}
if (!m_restrictMTypes.empty() &&
!m_restrictMTypes.count(stringtolower(mtype))) {
LOGDEB2(("RclConfig::getMimeHandlerDef: not in mime type list\n"));
return hs;
}
if (!m_excludeMTypes.empty() &&
m_excludeMTypes.count(stringtolower(mtype))) {
LOGDEB2(("RclConfig::getMimeHandlerDef: in excluded mime list\n"));
return hs;
}
}
if (!mimeconf->get(mtype, hs, "index")) {
LOGDEB1(("getMimeHandler: no handler for '%s'\n", mtype.c_str()));
}
return hs;
}
const vector<MDReaper>& RclConfig::getMDReapers()
{
string hs;
if (m_mdrstate.needrecompute()) {
m_mdreapers.clear();
// New value now stored in m_mdrstate.savedvalue
string& sreapers = m_mdrstate.savedvalue;
if (sreapers.empty())
return m_mdreapers;
string value;
ConfSimple attrs;
valueSplitAttributes(sreapers, value, attrs);
vector<string> nmlst = attrs.getNames(cstr_null);
for (vector<string>::const_iterator it = nmlst.begin();
it != nmlst.end(); it++) {
MDReaper reaper;
reaper.fieldname = fieldCanon(*it);
string s;
attrs.get(*it, s);
stringToStrings(s, reaper.cmdv);
m_mdreapers.push_back(reaper);
}
}
return m_mdreapers;
}
bool RclConfig::getGuiFilterNames(vector<string>& cats) const
{
if (!mimeconf)
return false;
cats = mimeconf->getNamesShallow("guifilters");
return true;
}
bool RclConfig::getGuiFilter(const string& catfiltername, string& frag) const
{
frag.clear();
if (!mimeconf)
return false;
if (!mimeconf->get(catfiltername, frag, "guifilters"))
return false;
return true;
}
bool RclConfig::valueSplitAttributes(const string& whole, string& value,
ConfSimple& attrs)
{
/* There is currently no way to escape a semi-colon */
string::size_type semicol0 = whole.find_first_of(";");
value = whole.substr(0, semicol0);
trimstring(value);
string attrstr;
if (semicol0 != string::npos && semicol0 < whole.size() - 1) {
attrstr = whole.substr(semicol0+1);
}
// Handle additional attributes. We substitute the semi-colons
// with newlines and use a ConfSimple
if (!attrstr.empty()) {
for (string::size_type i = 0; i < attrstr.size(); i++) {
if (attrstr[i] == ';')
attrstr[i] = '\n';
}
attrs.reparse(attrstr);
} else {
attrs.clear();
}
return true;
}
bool RclConfig::getMissingHelperDesc(string& out) const
{
string fmiss = path_cat(getConfDir(), "missing");
out.clear();
if (!file_to_string(fmiss, out))
return false;
return true;
}
void RclConfig::storeMissingHelperDesc(const string &s)
{
string fmiss = path_cat(getConfDir(), "missing");
FILE *fp = fopen(fmiss.c_str(), "w");
if (fp) {
if (s.size() > 0 && fwrite(s.c_str(), s.size(), 1, fp) != 1) {
LOGERR(("storeMissingHelperDesc: fwrite failed\n"));
}
fclose(fp);
}
}
// Read definitions for field prefixes, aliases, and hierarchy and arrange
// things for speed (theses are used a lot during indexing)
bool RclConfig::readFieldsConfig(const string& cnferrloc)
{
LOGDEB2(("RclConfig::readFieldsConfig\n"));
m_fields = new ConfStack<ConfSimple>("fields", m_cdirs, true);
if (m_fields == 0 || !m_fields->ok()) {
m_reason = string("No/bad fields file in: ") + cnferrloc;
return false;
}
// Build a direct map avoiding all indirections for field to
// prefix translation
// Add direct prefixes from the [prefixes] section
vector<string>tps = m_fields->getNames("prefixes");
for (vector<string>::const_iterator it = tps.begin();
it != tps.end(); it++) {
string val;
m_fields->get(*it, val, "prefixes");
ConfSimple attrs;
FieldTraits ft;
if (!valueSplitAttributes(val, ft.pfx, attrs)) {
LOGERR(("readFieldsConfig: bad config line for [%s]: [%s]\n",
it->c_str(), val.c_str()));
return 0;
}
string tval;
if (attrs.get("wdfinc", tval))
ft.wdfinc = atoi(tval.c_str());
if (attrs.get("boost", tval))
ft.boost = atof(tval.c_str());
if (attrs.get("pfxonly", tval))
ft.pfxonly = stringToBool(tval);
m_fldtotraits[stringtolower(*it)] = ft;
LOGDEB2(("readFieldsConfig: [%s] -> [%s] %d %.1f\n",
it->c_str(), ft.pfx.c_str(), ft.wdfinc, ft.boost));
}
// Add prefixes for aliases and build alias-to-canonic map while
// we're at it. Having the aliases in the prefix map avoids an
// additional indirection at index time.
tps = m_fields->getNames("aliases");
for (vector<string>::const_iterator it = tps.begin();
it != tps.end(); it++){
string canonic = stringtolower(*it); // canonic name
FieldTraits ft;
map<string, FieldTraits>::const_iterator pit =
m_fldtotraits.find(canonic);
if (pit != m_fldtotraits.end()) {
ft = pit->second;
}
string aliases;
m_fields->get(canonic, aliases, "aliases");
vector<string> l;
stringToStrings(aliases, l);
for (vector<string>::const_iterator ait = l.begin();
ait != l.end(); ait++) {
if (pit != m_fldtotraits.end())
m_fldtotraits[stringtolower(*ait)] = ft;
m_aliastocanon[stringtolower(*ait)] = canonic;
}
}
// Query aliases map
tps = m_fields->getNames("queryaliases");
for (vector<string>::const_iterator it = tps.begin();
it != tps.end(); it++){
string canonic = stringtolower(*it); // canonic name
string aliases;
m_fields->get(canonic, aliases, "queryaliases");
vector<string> l;
stringToStrings(aliases, l);
for (vector<string>::const_iterator ait = l.begin();
ait != l.end(); ait++) {
m_aliastoqcanon[stringtolower(*ait)] = canonic;
}
}
#if 0
for (map<string, FieldTraits>::const_iterator it = m_fldtotraits.begin();
it != m_fldtotraits.end(); it++) {
LOGDEB(("readFieldsConfig: [%s] -> [%s] %d %.1f\n",
it->c_str(), it->second.pfx.c_str(), it->second.wdfinc,
it->second.boost));
}
#endif
vector<string> sl = m_fields->getNames("stored");
if (!sl.empty()) {
for (vector<string>::const_iterator it = sl.begin();
it != sl.end(); it++) {
string fld = fieldCanon(stringtolower(*it));
m_storedFields.insert(fld);
}
}
// Extended file attribute to field translations
vector<string>xattrs = m_fields->getNames("xattrtofields");
for (vector<string>::const_iterator it = xattrs.begin();
it != xattrs.end(); it++) {
string val;
m_fields->get(*it, val, "xattrtofields");
m_xattrtofld[*it] = val;
}
return true;
}
// Return specifics for field name:
bool RclConfig::getFieldTraits(const string& _fld, const FieldTraits **ftpp,
bool isquery) const
{
string fld = isquery ? fieldQCanon(_fld) : fieldCanon(_fld);
map<string, FieldTraits>::const_iterator pit = m_fldtotraits.find(fld);
if (pit != m_fldtotraits.end()) {
*ftpp = &pit->second;
LOGDEB1(("RclConfig::getFieldTraits: [%s]->[%s]\n",
_fld.c_str(), pit->second.pfx.c_str()));
return true;
} else {
LOGDEB1(("RclConfig::getFieldTraits: no prefix for field [%s]\n",
fld.c_str()));
*ftpp = 0;
return false;
}
}
set<string> RclConfig::getIndexedFields() const
{
set<string> flds;
if (m_fields == 0)
return flds;
vector<string> sl = m_fields->getNames("prefixes");
flds.insert(sl.begin(), sl.end());
return flds;
}
string RclConfig::fieldCanon(const string& f) const
{
string fld = stringtolower(f);
map<string, string>::const_iterator it = m_aliastocanon.find(fld);
if (it != m_aliastocanon.end()) {
LOGDEB1(("RclConfig::fieldCanon: [%s] -> [%s]\n",
f.c_str(), it->second.c_str()));
return it->second;
}
LOGDEB1(("RclConfig::fieldCanon: [%s] -> [%s]\n", f.c_str(), fld.c_str()));
return fld;
}
string RclConfig::fieldQCanon(const string& f) const
{
string fld = stringtolower(f);
map<string, string>::const_iterator it = m_aliastoqcanon.find(fld);
if (it != m_aliastoqcanon.end()) {
LOGDEB1(("RclConfig::fieldQCanon: [%s] -> [%s]\n",
f.c_str(), it->second.c_str()));
return it->second;
}
return fieldCanon(f);
}
vector<string> RclConfig::getFieldSectNames(const string &sk, const char* patrn)
const
{
if (m_fields == 0)
return vector<string>();
return m_fields->getNames(sk, patrn);
}
bool RclConfig::getFieldConfParam(const string &name, const string &sk,
string &value) const
{
if (m_fields == 0)
return false;
return m_fields->get(name, value, sk);
}
string RclConfig::getMimeViewerAllEx() const
{
string hs;
if (mimeview == 0)
return hs;
mimeview->get("xallexcepts", hs, "");
return hs;
}
bool RclConfig::setMimeViewerAllEx(const string& allex)
{
if (mimeview == 0)
return false;
if (!mimeview->set("xallexcepts", allex, "")) {
m_reason = string("RclConfig:: cant set value. Readonly?");
return false;
}
return true;
}
string RclConfig::getMimeViewerDef(const string &mtype, const string& apptag,
bool useall) const
{
LOGDEB2(("RclConfig::getMimeViewerDef: mtype [%s] apptag [%s]\n",
mtype.c_str(), apptag.c_str()));
string hs;
if (mimeview == 0)
return hs;
if (useall) {
// Check for exception
string excepts = getMimeViewerAllEx();
vector<string> vex;
stringToTokens(excepts, vex);
bool isexcept = false;
for (vector<string>::iterator it = vex.begin();
it != vex.end(); it++) {
vector<string> mita;
stringToTokens(*it, mita, "|");
if ((mita.size() == 1 && apptag.empty() && mita[0] == mtype) ||
(mita.size() == 2 && mita[1] == apptag && mita[0] == mtype)) {
// Exception to x-all
isexcept = true;
break;
}
}
if (isexcept == false) {
mimeview->get("application/x-all", hs, "view");
return hs;
}
// Fallthrough to normal case.
}
if (apptag.empty() || !mimeview->get(mtype + string("|") + apptag,
hs, "view"))
mimeview->get(mtype, hs, "view");
return hs;
}
bool RclConfig::getMimeViewerDefs(vector<pair<string, string> >& defs) const
{
if (mimeview == 0)
return false;
vector<string>tps = mimeview->getNames("view");
for (vector<string>::const_iterator it = tps.begin();
it != tps.end();it++) {
defs.push_back(pair<string, string>(*it, getMimeViewerDef(*it, "", 0)));
}
return true;
}
bool RclConfig::setMimeViewerDef(const string& mt, const string& def)
{
if (mimeview == 0)
return false;
bool status;
if (!def.empty())
status = mimeview->set(mt, def, "view");
else
status = mimeview->erase(mt, "view");
if (!status) {
m_reason = string("RclConfig:: cant set value. Readonly?");
return false;
}
return true;
}
bool RclConfig::mimeViewerNeedsUncomp(const string &mimetype) const
{
string s;
vector<string> v;
if (mimeview != 0 && mimeview->get("nouncompforviewmts", s, "") &&
stringToStrings(s, v) &&
find_if(v.begin(), v.end(), StringIcmpPred(mimetype)) != v.end())
return false;
return true;
}
string RclConfig::getMimeIconPath(const string &mtype, const string &apptag)
const
{
string iconname;
if (!apptag.empty())
mimeconf->get(mtype + string("|") + apptag, iconname, "icons");
if (iconname.empty())
mimeconf->get(mtype, iconname, "icons");
if (iconname.empty())
iconname = "document";
string iconpath;
#if defined (__FreeBSD__) && __FreeBSD_version < 500000
// gcc 2.95 dies if we call getConfParam here ??
if (m_conf) m_conf->get(string("iconsdir"), iconpath, m_keydir);
#else
getConfParam("iconsdir", iconpath);
#endif
if (iconpath.empty()) {
iconpath = path_cat(m_datadir, "images");
} else {
iconpath = path_tildexpand(iconpath);
}
return path_cat(iconpath, iconname) + ".png";
}
string RclConfig::getDbDir() const
{
string dbdir;
if (!getConfParam("dbdir", dbdir)) {
LOGERR(("RclConfig::getDbDir: no db directory in configuration\n"));
} else {
dbdir = path_tildexpand(dbdir);
// If not an absolute path, compute relative to config dir
if (dbdir.at(0) != '/') {
LOGDEB1(("Dbdir not abs, catting with confdir\n"));
dbdir = path_cat(getConfDir(), dbdir);
}
}
LOGDEB1(("RclConfig::getDbDir: dbdir: [%s]\n", dbdir.c_str()));
return path_canon(dbdir);
}
void RclConfig::urlrewrite(const string& dbdir, string& url) const
{
LOGDEB2(("RclConfig::urlrewrite: dbdir [%s] url [%s]\n",
dbdir.c_str(), url.c_str()));
// Do path translations exist for this index ?
if (m_ptrans == 0 || !m_ptrans->hasSubKey(dbdir)) {
LOGDEB2(("RclConfig::urlrewrite: no paths translations (m_ptrans %p)\n",
m_ptrans));
return;
}
string path = fileurltolocalpath(url);
if (path.empty()) {
LOGDEB2(("RclConfig::urlrewrite: not file url\n"));
return;
}
// For each translation check if the prefix matches the input path,
// replace and return the result if it does.
vector<string> opaths = m_ptrans->getNames(dbdir);
for (vector<string>::const_iterator it = opaths.begin();
it != opaths.end(); it++) {
if (it->size() <= path.size() && !path.compare(0, it->size(), *it)) {
string npath;
// This call always succeeds because the key comes from getNames()
if (m_ptrans->get(*it, npath, dbdir)) {
path = path.replace(0, it->size(), npath);
url = "file://" + path;
}
break;
}
}
}
bool RclConfig::sourceChanged() const
{
if (m_conf && m_conf->sourceChanged())
return true;
if (mimemap && mimemap->sourceChanged())
return true;
if (mimeconf && mimeconf->sourceChanged())
return true;
if (mimeview && mimeview->sourceChanged())
return true;
if (m_fields && m_fields->sourceChanged())
return true;
if (m_ptrans && m_ptrans->sourceChanged())
return true;
return false;
}
string RclConfig::getStopfile() const
{
return path_cat(getConfDir(), "stoplist.txt");
}
string RclConfig::getPidfile() const
{
return path_cat(getConfDir(), "index.pid");
}
// The index status file is fast changing, so it's possible to put it outside
// of the config directory (for ssds, not sure this is really useful).
string RclConfig::getIdxStatusFile() const
{
string path;
if (!getConfParam("idxstatusfile", path)) {
return path_cat(getConfDir(), "idxstatus.txt");
} else {
path = path_tildexpand(path);
// If not an absolute path, compute relative to config dir
if (path.at(0) != '/') {
path = path_cat(getConfDir(), path);
}
return path_canon(path);
}
}
string RclConfig::getWebQueueDir() const
{
string webqueuedir;
if (!getConfParam("webqueuedir", webqueuedir))
webqueuedir = "~/.recollweb/ToIndex/";
webqueuedir = path_tildexpand(webqueuedir);
return webqueuedir;
}
vector<string>& RclConfig::getSkippedNames()
{
if (m_skpnstate.needrecompute()) {
stringToStrings(m_skpnstate.savedvalue, m_skpnlist);
}
return m_skpnlist;
}
vector<string> RclConfig::getSkippedPaths() const
{
vector<string> skpl;
getConfParam("skippedPaths", &skpl);
// Always add the dbdir and confdir to the skipped paths. This is
// especially important for the rt monitor which will go into a loop if we
// don't do this.
skpl.push_back(getDbDir());
skpl.push_back(getConfDir());
// And the web queue dir
skpl.push_back(getWebQueueDir());
for (vector<string>::iterator it = skpl.begin(); it != skpl.end(); it++) {
*it = path_tildexpand(*it);
*it = path_canon(*it);
}
sort(skpl.begin(), skpl.end());
vector<string>::iterator uit = unique(skpl.begin(), skpl.end());
skpl.resize(uit - skpl.begin());
return skpl;
}
vector<string> RclConfig::getDaemSkippedPaths() const
{
vector<string> dskpl;
getConfParam("daemSkippedPaths", &dskpl);
for (vector<string>::iterator it = dskpl.begin(); it != dskpl.end(); it++) {
*it = path_tildexpand(*it);
*it = path_canon(*it);
}
vector<string> skpl1 = getSkippedPaths();
vector<string> skpl;
if (dskpl.empty()) {
skpl = skpl1;
} else {
sort(dskpl.begin(), dskpl.end());
merge(dskpl.begin(), dskpl.end(), skpl1.begin(), skpl1.end(),
skpl.begin());
vector<string>::iterator uit = unique(skpl.begin(), skpl.end());
skpl.resize(uit - skpl.begin());
}
return skpl;
}
// Look up an executable filter. We look in $RECOLL_FILTERSDIR,
// filtersdir in config file, then let the system use the PATH
string RclConfig::findFilter(const string &icmd) const
{
// If the path is absolute, this is it
if (icmd[0] == '/')
return icmd;
string cmd;
const char *cp;
// Filters dir from environment ?
if ((cp = getenv("RECOLL_FILTERSDIR"))) {
cmd = path_cat(cp, icmd);
if (access(cmd.c_str(), X_OK) == 0)
return cmd;
}
// Filters dir as configuration parameter?
if (getConfParam(string("filtersdir"), cmd)) {
cmd = path_cat(cmd, icmd);
if (access(cmd.c_str(), X_OK) == 0)
return cmd;
}
// Filters dir as datadir subdir. Actually the standard case, but
// this is normally the same value found in config file (previous step)
cmd = path_cat(m_datadir, "filters");
cmd = path_cat(cmd, icmd);
if (access(cmd.c_str(), X_OK) == 0)
return cmd;
// Last resort for historical reasons: check in personal config
// directory
cmd = path_cat(getConfDir(), icmd);
if (access(cmd.c_str(), X_OK) == 0)
return cmd;
// Let the shell try to find it...
return icmd;
}
/**
* Return decompression command line for given mime type
*/
bool RclConfig::getUncompressor(const string &mtype, vector<string>& cmd) const
{
string hs;
mimeconf->get(mtype, hs, cstr_null);
if (hs.empty())
return false;
vector<string> tokens;
stringToStrings(hs, tokens);
if (tokens.empty()) {
LOGERR(("getUncompressor: empty spec for mtype %s\n", mtype.c_str()));
return false;
}
vector<string>::iterator it = tokens.begin();
if (tokens.size() < 2)
return false;
if (stringlowercmp("uncompress", *it++))
return false;
cmd.clear();
cmd.push_back(findFilter(*it++));
cmd.insert(cmd.end(), it, tokens.end());
return true;
}
static const char blurb0[] =
"# The system-wide configuration files for recoll are located in:\n"
"# %s\n"
"# The default configuration files are commented, you should take a look\n"
"# at them for an explanation of what can be set (you could also take a look\n"
"# at the manual instead).\n"
"# Values set in this file will override the system-wide values for the file\n"
"# with the same name in the central directory. The syntax for setting\n"
"# values is identical.\n"
;
// Use uni2ascii -a K to generate these from the utf-8 strings
// Swedish and Danish.
static const char swedish_ex[] = "unac_except_trans = \303\244\303\244 \303\204\303\244 \303\266\303\266 \303\226\303\266 \303\274\303\274 \303\234\303\274 \303\237ss \305\223oe \305\222oe \303\246ae \303\206ae \357\254\201fi \357\254\202fl \303\245\303\245 \303\205\303\245";
// German:
static const char german_ex[] = "unac_except_trans = \303\244\303\244 \303\204\303\244 \303\266\303\266 \303\226\303\266 \303\274\303\274 \303\234\303\274 \303\237ss \305\223oe \305\222oe \303\246ae \303\206ae \357\254\201fi \357\254\202fl";
// Create initial user config by creating commented empty files
static const char *configfiles[] = {"recoll.conf", "mimemap", "mimeconf",
"mimeview"};
static int ncffiles = sizeof(configfiles) / sizeof(char *);
bool RclConfig::initUserConfig()
{
// Explanatory text
const int bs = sizeof(blurb0)+PATH_MAX+1;
char blurb[bs];
string exdir = path_cat(m_datadir, "examples");
snprintf(blurb, bs, blurb0, exdir.c_str());
// Use protective 700 mode to create the top configuration
// directory: documents can be reconstructed from index data.
if (access(m_confdir.c_str(), 0) < 0 &&
mkdir(m_confdir.c_str(), 0700) < 0) {
m_reason += string("mkdir(") + m_confdir + ") failed: " +
strerror(errno);
return false;
}
string lang = localelang();
for (int i = 0; i < ncffiles; i++) {
string dst = path_cat(m_confdir, string(configfiles[i]));
if (access(dst.c_str(), 0) < 0) {
FILE *fp = fopen(dst.c_str(), "w");
if (fp) {
fprintf(fp, "%s\n", blurb);
if (!strcmp(configfiles[i], "recoll.conf")) {
// Add improved unac_except_trans for some languages
if (lang == "se" || lang == "dk" || lang == "no" ||
lang == "fi") {
fprintf(fp, "%s\n", swedish_ex);
} else if (lang == "de") {
fprintf(fp, "%s\n", german_ex);
}
}
fclose(fp);
} else {
m_reason += string("fopen ") + dst + ": " + strerror(errno);
return false;
}
}
}
return true;
}
void RclConfig::freeAll()
{
delete m_conf;
delete mimemap;
delete mimeconf;
delete mimeview;
delete m_fields;
delete m_ptrans;
delete STOPSUFFIXES;
// just in case
zeroMe();
}
void RclConfig::initFrom(const RclConfig& r)
{
zeroMe();
if (!(m_ok = r.m_ok))
return;
m_reason = r.m_reason;
m_confdir = r.m_confdir;
m_datadir = r.m_datadir;
m_keydir = r.m_keydir;
m_cdirs = r.m_cdirs;
if (r.m_conf)
m_conf = new ConfStack<ConfTree>(*(r.m_conf));
if (r.mimemap)
mimemap = new ConfStack<ConfTree>(*(r.mimemap));
if (r.mimeconf)
mimeconf = new ConfStack<ConfSimple>(*(r.mimeconf));
if (r.mimeview)
mimeview = new ConfStack<ConfSimple>(*(r.mimeview));
if (r.m_fields)
m_fields = new ConfStack<ConfSimple>(*(r.m_fields));
if (r.m_ptrans)
m_ptrans = new ConfSimple(*(r.m_ptrans));
m_fldtotraits = r.m_fldtotraits;
m_aliastocanon = r.m_aliastocanon;
m_aliastoqcanon = r.m_aliastoqcanon;
m_storedFields = r.m_storedFields;
m_xattrtofld = r.m_xattrtofld;
if (r.m_stopsuffixes)
m_stopsuffixes = new SuffixStore(*((SuffixStore*)r.m_stopsuffixes));
m_maxsufflen = r.m_maxsufflen;
m_defcharset = r.m_defcharset;
m_oldstpsuffstate.init(mimemap);
m_stpsuffstate.init(m_conf);
m_skpnstate.init(m_conf);
m_rmtstate.init(m_conf);
m_xmtstate.init(m_conf);
m_mdrstate.init(m_conf);
m_thrConf = r.m_thrConf;
}
#else // -> Test
#include <stdio.h>
#include <signal.h>
#include <iostream>
#include <vector>
#include <string>
using namespace std;
#include "debuglog.h"
#include "rclinit.h"
#include "rclconfig.h"
#include "cstr.h"
static char *thisprog;
static char usage [] = "\n"
"-c: check a few things in the configuration files\n"
"[-s subkey] -q param : query parameter value\n"
"-f : print some field data\n"
" : default: print parameters\n"
;
static void
Usage(void)
{
fprintf(stderr, "%s: usage: %s\n", thisprog, usage);
exit(1);
}
static int op_flags;
#define OPT_MOINS 0x1
#define OPT_s 0x2
#define OPT_q 0x4
#define OPT_c 0x8
#define OPT_f 0x10
int main(int argc, char **argv)
{
string pname, skey;
thisprog = argv[0];
argc--; argv++;
while (argc > 0 && **argv == '-') {
(*argv)++;
if (!(**argv))
/* Cas du "adb - core" */
Usage();
while (**argv)
switch (*(*argv)++) {
case 'c': op_flags |= OPT_c; break;
case 'f': op_flags |= OPT_f; break;
case 's': op_flags |= OPT_s; if (argc < 2) Usage();
skey = *(++argv);
argc--;
goto b1;
case 'q': op_flags |= OPT_q; if (argc < 2) Usage();
pname = *(++argv);
argc--;
goto b1;
default: Usage(); break;
}
b1: argc--; argv++;
}
if (argc != 0)
Usage();
string reason;
RclConfig *config = recollinit(0, 0, reason);
if (config == 0 || !config->ok()) {
cerr << "Configuration problem: " << reason << endl;
exit(1);
}
if (op_flags & OPT_s)
config->setKeyDir(skey);
if (op_flags & OPT_q) {
string value;
if (!config->getConfParam(pname, value)) {
fprintf(stderr, "getConfParam failed for [%s]\n", pname.c_str());
exit(1);
}
printf("[%s] -> [%s]\n", pname.c_str(), value.c_str());
} else if (op_flags & OPT_f) {
set<string> stored = config->getStoredFields();
set<string> indexed = config->getIndexedFields();
cout << "Stored fields: ";
for (set<string>::const_iterator it = stored.begin();
it != stored.end(); it++) {
cout << "[" << *it << "] ";
}
cout << endl;
cout << "Indexed fields: ";
for (set<string>::const_iterator it = indexed.begin();
it != indexed.end(); it++) {
const FieldTraits *ftp;
config->getFieldTraits(*it, &ftp);
if (ftp)
cout << "[" << *it << "]" << " -> [" << ftp->pfx << "] ";
else
cout << "[" << *it << "]" << " -> [" << "(none)" << "] ";
}
cout << endl;
} else if (op_flags & OPT_c) {
// Checking the configuration consistency
// Find and display category names
vector<string> catnames;
config->getMimeCategories(catnames);
cout << "Categories: ";
for (vector<string>::const_iterator it = catnames.begin();
it != catnames.end(); it++) {
cout << *it << " ";
}
cout << endl;
// Compute union of all types from each category. Check that there
// are no duplicates while we are at it.
set<string> allmtsfromcats;
for (vector<string>::const_iterator it = catnames.begin();
it != catnames.end(); it++) {
vector<string> cts;
config->getMimeCatTypes(*it, cts);
for (vector<string>::const_iterator it1 = cts.begin();
it1 != cts.end(); it1++) {
// Already in map -> duplicate
if (allmtsfromcats.find(*it1) != allmtsfromcats.end()) {
cout << "Duplicate: [" << *it1 << "]" << endl;
}
allmtsfromcats.insert(*it1);
}
}
// Retrieve complete list of mime types
vector<string> mtypes = config->getAllMimeTypes();
// And check that each mime type is found in exactly one category
for (vector<string>::const_iterator it = mtypes.begin();
it != mtypes.end(); it++) {
if (allmtsfromcats.find(*it) == allmtsfromcats.end()) {
cout << "Not found in catgs: [" << *it << "]" << endl;
}
}
// List mime types not in mimeview
for (vector<string>::const_iterator it = mtypes.begin();
it != mtypes.end(); it++) {
if (config->getMimeViewerDef(*it, "", false).empty()) {
cout << "No viewer: [" << *it << "]" << endl;
}
}
// Check that each mime type has an indexer
for (vector<string>::const_iterator it = mtypes.begin();
it != mtypes.end(); it++) {
if (config->getMimeHandlerDef(*it, false).empty()) {
cout << "No filter: [" << *it << "]" << endl;
}
}
// Check that each mime type has a defined icon
for (vector<string>::const_iterator it = mtypes.begin();
it != mtypes.end(); it++) {
if (config->getMimeIconPath(*it, "") == "document") {
cout << "No or generic icon: [" << *it << "]" << endl;
}
}
} else {
config->setKeyDir(cstr_null);
vector<string> names = config->getConfNames();
for (vector<string>::iterator it = names.begin();
it != names.end();it++) {
string value;
config->getConfParam(*it, value);
cout << *it << " -> [" << value << "]" << endl;
}
}
exit(0);
}
#endif // TEST_RCLCONFIG