#ifndef lint
static char rcsid[] = "@(#$Id: indexer.cpp,v 1.55 2007-05-22 07:40:00 dockes Exp $ (C) 2004 J.F.Dockes";
#endif
/*
* 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.
*/
#ifdef HAVE_CONFIG_H
#include "autoconfig.h"
#endif
#include <stdio.h>
#include <sys/stat.h>
#include <unistd.h>
#include <errno.h>
#include <strings.h>
#include <fnmatch.h>
#include <iostream>
#include <list>
#include <map>
#include <algorithm>
#include "pathut.h"
#include "conftree.h"
#include "rclconfig.h"
#include "fstreewalk.h"
#include "rcldb.h"
#include "readfile.h"
#include "indexer.h"
#include "csguess.h"
#include "transcode.h"
#include "debuglog.h"
#include "internfile.h"
#include "smallut.h"
#include "wipedir.h"
#ifdef RCL_USE_ASPELL
#include "rclaspell.h"
#endif
#ifndef NO_NAMESPACES
using namespace std;
#endif /* NO_NAMESPACES */
#ifndef deleteZ
#define deleteZ(X) {delete X;X = 0;}
#endif
DbIndexer::~DbIndexer() {
// Maybe clean up temporary directory
if (m_tmpdir.length()) {
wipedir(m_tmpdir);
if (rmdir(m_tmpdir.c_str()) < 0) {
LOGERR(("DbIndexer::~DbIndexer: cannot clear temp dir %s\n",
m_tmpdir.c_str()));
}
}
m_db.close();
}
// Index each directory in the topdirs for a given db
bool DbIndexer::indexDb(bool resetbefore, list<string> *topdirs)
{
if (!init(resetbefore))
return false;
if (m_updater) {
m_updater->status.reset();
m_updater->status.dbtotdocs = m_db.docCnt();
}
m_walker.setSkippedPaths(m_config->getSkippedPaths());
for (list<string>::const_iterator it = topdirs->begin();
it != topdirs->end(); it++) {
LOGDEB(("DbIndexer::index: Indexing %s into %s\n", it->c_str(),
m_dbdir.c_str()));
// Set the current directory in config so that subsequent
// getConfParams() will get local values
m_config->setKeyDir(*it);
int abslen;
if (m_config->getConfParam("idxabsmlen", &abslen))
m_db.setAbstractParams(abslen, -1, -1);
// Set up skipped patterns for this subtree. This probably should be
// done in the directory change code in processone() instead.
m_walker.setSkippedNames(m_config->getSkippedNames());
// Walk the directory tree
if (m_walker.walk(*it, *this) != FsTreeWalker::FtwOk) {
LOGERR(("DbIndexer::index: error while indexing %s: %s\n",
it->c_str(), m_walker.getReason().c_str()));
return false;
}
}
if (m_updater) {
m_updater->status.fn.erase();
m_updater->status.phase = DbIxStatus::DBIXS_PURGE;
m_updater->update();
}
// Get rid of all database entries that don't exist in the
// filesystem anymore.
m_db.purge();
createStemmingDatabases();
createAspellDict();
// The close would be done in our destructor, but we want status here
if (m_updater) {
m_updater->status.phase = DbIxStatus::DBIXS_CLOSING;
m_updater->status.fn.erase();
m_updater->update();
}
if (!m_db.close()) {
LOGERR(("DbIndexer::index: error closing database in %s\n",
m_dbdir.c_str()));
return false;
}
if (!m_missingExternal.empty()) {
string missing;
stringsToString(m_missingExternal, missing);
LOGERR(("DbIndexer::index missing helper program(s): %s\n",
missing.c_str()));
}
return true;
}
// Create stemming databases. We also remove those which are not
// configured.
bool DbIndexer::createStemmingDatabases()
{
string slangs;
if (m_config->getConfParam("indexstemminglanguages", slangs)) {
list<string> langs;
stringToStrings(slangs, langs);
// Get the list of existing stem dbs from the database (some may have
// been manually created, we just keep those from the config
list<string> dblangs = m_db.getStemLangs();
list<string>::const_iterator it;
for (it = dblangs.begin(); it != dblangs.end(); it++) {
if (find(langs.begin(), langs.end(), *it) == langs.end())
m_db.deleteStemDb(*it);
}
for (it = langs.begin(); it != langs.end(); it++) {
if (m_updater) {
m_updater->status.phase = DbIxStatus::DBIXS_STEMDB;
m_updater->status.fn = *it;
m_updater->update();
}
m_db.createStemDb(*it);
}
}
return true;
}
bool DbIndexer::init(bool resetbefore, bool rdonly)
{
if (m_tmpdir.empty() || access(m_tmpdir.c_str(), 0) < 0) {
string reason;
if (!maketmpdir(m_tmpdir, reason)) {
LOGERR(("DbIndexer: cannot create temporary directory: %s\n",
reason.c_str()));
return false;
}
}
Rcl::Db::OpenMode mode = rdonly ? Rcl::Db::DbRO :
resetbefore ? Rcl::Db::DbTrunc : Rcl::Db::DbUpd;
if (!m_db.open(m_dbdir, mode)) {
LOGERR(("DbIndexer: error opening database in %s\n", m_dbdir.c_str()));
return false;
}
int idxflushmb;
if (m_config->getConfParam("idxflushmb", &idxflushmb))
m_db.setFlushMb(idxflushmb);
return true;
}
bool DbIndexer::createStemDb(const string &lang)
{
if (!init(false, true))
return false;
return m_db.createStemDb(lang);
}
// The language for the aspell dictionary is handled internally by the aspell
// module, either from a configuration variable or the NLS environment.
bool DbIndexer::createAspellDict()
{
LOGDEB2(("DbIndexer::createAspellDict()\n"));
#ifdef RCL_USE_ASPELL
// For the benefit of the real-time indexer, we only initialize
// noaspell from the configuration once. It can then be set to
// true if dictionary generation fails, which avoids retrying
// it forever.
static int noaspell = -12345;
if (noaspell == -12345) {
noaspell = false;
m_config->getConfParam("noaspell", &noaspell);
}
if (noaspell)
return true;
if (!init(false, true))
return false;
Aspell aspell(m_config);
string reason;
if (!aspell.init(reason)) {
LOGERR(("DbIndexer::createAspellDict: aspell init failed: %s\n",
reason.c_str()));
noaspell = true;
return false;
}
LOGDEB(("DbIndexer::createAspellDict: creating dictionary\n"));
if (!aspell.buildDict(m_db, reason)) {
LOGERR(("DbIndexer::createAspellDict: aspell buildDict failed: %s\n",
reason.c_str()));
noaspell = true;
return false;
}
// The close would be done in our destructor, but we want status here
if (!m_db.close()) {
LOGERR(("DbIndexer::indexfiles: error closing database in %s\n",
m_dbdir.c_str()));
noaspell = true;
return false;
}
#endif
return true;
}
/**
* Index individual files, out of a full tree run. No database purging
*/
bool DbIndexer::indexFiles(const list<string> &filenames)
{
bool called_init = false;
list<string>::const_iterator it;
for (it = filenames.begin(); it != filenames.end(); it++) {
string dir = path_getfather(*it);
m_config->setKeyDir(dir);
int abslen;
if (m_config->getConfParam("idxabsmlen", &abslen))
m_db.setAbstractParams(abslen, -1, -1);
struct stat stb;
if (lstat(it->c_str(), &stb) != 0) {
LOGERR(("DbIndexer::indexFiles: lstat(%s): %s", it->c_str(),
strerror(errno)));
continue;
}
// If we get to indexing directory names one day, will need to test
// against dbdir here to avoid modification loops (with rclmon).
if (!S_ISREG(stb.st_mode)) {
LOGDEB2(("DbIndexer::indexFiles: %s: not a regular file\n",
it->c_str()));
continue;
}
static string lstdir;
static list<string> skpl;
if (lstdir.compare(dir)) {
LOGDEB(("Recomputing list of skipped names\n"));
skpl = m_config->getSkippedNames();
lstdir = dir;
}
if (!skpl.empty()) {
list<string>::const_iterator skit;
string fn = path_getsimple(*it);
for (skit = skpl.begin(); skit != skpl.end(); skit++) {
if (fnmatch(skit->c_str(), fn.c_str(), 0) == 0) {
LOGDEB(("Skipping [%s] :matches skip list\n", fn.c_str()));
goto skipped;
}
}
}
// Defer opening db until really needed.
if (!called_init) {
if (!init())
return false;
called_init = true;
}
if (processone(*it, &stb, FsTreeWalker::FtwRegular) !=
FsTreeWalker::FtwOk) {
LOGERR(("DbIndexer::indexFiles: processone failed\n"));
return false;
}
skipped:
false; // Need a statement here to make compiler happy ??
}
// The close would be done in our destructor, but we want status here
if (!m_db.close()) {
LOGERR(("DbIndexer::indexfiles: error closing database in %s\n",
m_dbdir.c_str()));
return false;
}
return true;
}
/** Purge docs for given files out of the database */
bool DbIndexer::purgeFiles(const list<string> &filenames)
{
if (!init())
return false;
list<string>::const_iterator it;
for (it = filenames.begin(); it != filenames.end(); it++) {
if (!m_db.purgeFile(*it)) {
LOGERR(("DbIndexer::purgeFiles: Database error\n"));
return false;
}
}
// The close would be done in our destructor, but we want status here
if (!m_db.close()) {
LOGERR(("DbIndexer::purgefiles: error closing database in %s\n",
m_dbdir.c_str()));
return false;
}
return true;
}
/// This method gets called for every file and directory found by the
/// tree walker.
///
/// It checks with the db if the file has changed and needs to be
/// reindexed. If so, it calls internfile() which will identify the
/// file type and call an appropriate handler to convert the document into
/// internal format, which we then add to the database.
///
/// Accent and majuscule handling are performed by the db module when doing
/// the actual indexing work. The Rcl::Doc created by internfile()
/// mostly contains pretty raw utf8 data.
FsTreeWalker::Status
DbIndexer::processone(const std::string &fn, const struct stat *stp,
FsTreeWalker::CbFlag flg)
{
if (m_updater && !m_updater->update()) {
return FsTreeWalker::FtwStop;
}
// If we're changing directories, possibly adjust parameters (set
// the current directory in configuration object)
if (flg == FsTreeWalker::FtwDirEnter ||
flg == FsTreeWalker::FtwDirReturn) {
m_config->setKeyDir(fn);
int abslen;
if (m_config->getConfParam("idxabsmlen", &abslen))
m_db.setAbstractParams(abslen, -1, -1);
if (flg == FsTreeWalker::FtwDirReturn)
return FsTreeWalker::FtwOk;
}
// Check db up to date ? Doing this before file type
// identification means that, if usesystemfilecommand is switched
// from on to off it may happen that some files which are now
// without mime type will not be purged from the db, resulting
// in possible 'cannot intern file' messages at query time...
if (!m_db.needUpdate(fn, stp)) {
LOGDEB(("processone: up to date: %s\n", fn.c_str()));
if (m_updater) {
m_updater->status.fn = fn;
if (!m_updater->update()) {
return FsTreeWalker::FtwStop;
}
}
return FsTreeWalker::FtwOk;
}
FileInterner interner(fn, stp, m_config, m_tmpdir);
// File name transcoded to utf8 for indexation.
string charset = m_config->getDefCharset(true);
// If this fails, the file name won't be indexed, no big deal
// Note that we used to do the full path here, but I ended up believing
// that it made more sense to use only the file name
string utf8fn;
transcode(path_getsimple(fn), utf8fn, charset, "UTF-8");
FileInterner::Status fis = FileInterner::FIAgain;
bool hadNullIpath = false;
Rcl::Doc doc;
char ascdate[20];
sprintf(ascdate, "%ld", long(stp->st_mtime));
while (fis == FileInterner::FIAgain) {
doc.erase();
string ipath;
fis = interner.internfile(doc, ipath);
if (fis == FileInterner::FIError) {
list<string> ext = interner.getMissingExternal();
m_missingExternal.merge(ext);
m_missingExternal.unique();
// We dont stop indexing for one bad doc
return FsTreeWalker::FtwOk;
}
// Set the date if this was not done in the document handler
if (doc.fmtime.empty()) {
doc.fmtime = ascdate;
}
// Internal access path for multi-document files
if (ipath.empty())
hadNullIpath = true;
else
doc.ipath = ipath;
// Note that the filter may have its own idea of the file name
// (ie: mail attachment)
if (doc.utf8fn.empty())
doc.utf8fn = utf8fn;
// Add document to database
if (!m_db.add(fn, doc, stp))
return FsTreeWalker::FtwError;
// Tell what we are doing and check for interrupt request
if (m_updater) {
if ((++(m_updater->status.docsdone) % 10) == 0) {
m_updater->status.fn = fn;
if (!ipath.empty())
m_updater->status.fn += "|" + ipath;
if (!m_updater->update()) {
return FsTreeWalker::FtwStop;
}
}
}
}
// If we had no instance with a null ipath, we create an empty
// document to stand for the file itself, to be used mainly for up
// to date checks. Typically this happens for an mbox file.
if (hadNullIpath == false) {
LOGDEB1(("Creating empty doc for file\n"));
Rcl::Doc fileDoc;
fileDoc.fmtime = ascdate;
fileDoc.utf8fn = utf8fn;
fileDoc.mimetype = interner.getMimetype();
if (!m_db.add(fn, fileDoc, stp))
return FsTreeWalker::FtwError;
}
return FsTreeWalker::FtwOk;
}
////////////////////////////////////////////////////////////////////////////
// ConIndexer methods: ConfIndexer is the top-level object, that can index
// multiple directories to multiple databases.
ConfIndexer::~ConfIndexer()
{
deleteZ(m_dbindexer);
}
bool ConfIndexer::index(bool resetbefore)
{
list<string> tdl = m_config->getTopdirs();
if (tdl.empty()) {
m_reason = "Top directory list (topdirs param.) not found in config"
"or Directory list parse error";
return false;
}
// Each top level directory to be indexed can be associated with a
// different database. We first group the directories by database:
// it is important that all directories for a database be indexed
// at once so that deleted file cleanup works
list<string>::iterator dirit;
map<string, list<string> > dbmap;
map<string, list<string> >::iterator dbit;
for (dirit = tdl.begin(); dirit != tdl.end(); dirit++) {
string dbdir;
string doctopdir = *dirit;
{ // Check top dirs. Must not be symlinks
struct stat st;
if (lstat(doctopdir.c_str(), &st) < 0) {
LOGERR(("ConfIndexer::index: cant stat %s\n",
doctopdir.c_str()));
m_reason = "Stat error for: " + doctopdir;
return false;
}
if (S_ISLNK(st.st_mode)) {
LOGERR(("ConfIndexer::index: no symlinks allowed in topdirs: %s\n",
doctopdir.c_str()));
m_reason = doctopdir + " is a symbolic link";
return false;
}
}
m_config->setKeyDir(doctopdir);
dbdir = m_config->getDbDir();
if (dbdir.empty()) {
LOGERR(("ConfIndexer::index: no database directory in "
"configuration for %s\n", doctopdir.c_str()));
m_reason = "No database directory set for " + doctopdir;
return false;
}
dbit = dbmap.find(dbdir);
if (dbit == dbmap.end()) {
list<string> l;
l.push_back(doctopdir);
dbmap[dbdir] = l;
} else {
dbit->second.push_back(doctopdir);
}
}
m_config->setKeyDir("");
// The dbmap now has dbdir as key and directory lists as values.
// Index each directory group in turn
for (dbit = dbmap.begin(); dbit != dbmap.end(); dbit++) {
//cout << dbit->first << " -> ";
//list<string>::const_iterator dit;
//for (dit = dbit->second.begin(); dit != dbit->second.end(); dit++) {
// cout << *dit << " ";
//}
//cout << endl;
m_dbindexer = new DbIndexer(m_config, dbit->first, m_updater);
if (!m_dbindexer->indexDb(resetbefore, &dbit->second)) {
deleteZ(m_dbindexer);
m_reason = "Failed indexing in " + dbit->first;
return false;
}
deleteZ(m_dbindexer);
}
return true;
}