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tdelibs/kdecore/ksycoca.cpp

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/* This file is part of the KDE libraries
* Copyright (C) 1999-2000 Waldo Bastian <bastian@kde.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License version 2 as published by the Free Software Foundation;
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
**/
#include "config.h"
#include "ksycoca.h"
#include "ksycocatype.h"
#include "ksycocafactory.h"
#include <tqdatastream.h>
#include <tqfile.h>
#include <tqbuffer.h>
#include <kapplication.h>
#include <dcopclient.h>
#include <kglobal.h>
#include <kdebug.h>
#include <kprocess.h>
#include <kstandarddirs.h>
#include <assert.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#ifdef HAVE_SYS_MMAN_H
#include <sys/mman.h>
#endif
#ifdef Q_OS_SOLARIS
extern "C"
{
extern int madvise(caddr_t, size_t, int);
}
#endif
#ifndef MAP_FAILED
#define MAP_FAILED ((void *) -1)
#endif
template class TQPtrList<KSycocaFactory>;
// The following limitations are in place:
// Maximum length of a single string: 8192 bytes
// Maximum length of a string list: 1024 strings
// Maximum number of entries: 8192
//
// The purpose of these limitations is to limit the impact
// of database corruption.
class KSycocaPrivate {
public:
KSycocaPrivate() {
database = 0;
readError = false;
updateSig = 0;
autoRebuild = true;
}
TQFile *database;
TQStringList changeList;
TQString language;
bool readError;
bool autoRebuild;
TQ_UINT32 updateSig;
TQStringList allResourceDirs;
};
int KSycoca::version()
{
return KSYCOCA_VERSION;
}
// Read-only constructor
KSycoca::KSycoca()
: DCOPObject("ksycoca"), m_lstFactories(0), m_str(0), bNoDatabase(false),
m_sycoca_size(0), m_sycoca_mmap(0), m_timeStamp(0)
{
d = new KSycocaPrivate;
// Register app as able to receive DCOP messages
if (kapp && !kapp->dcopClient()->isAttached())
{
kapp->dcopClient()->attach();
}
// We register with DCOP _before_ we try to open the database.
// This way we can be relative sure that the KDE framework is
// up and running (kdeinit, dcopserver, klaucnher, kded) and
// that the database is up to date.
openDatabase();
_self = this;
}
bool KSycoca::openDatabase( bool openDummyIfNotFound )
{
bool result = true;
m_sycoca_mmap = 0;
m_str = 0;
TQString path;
TQCString ksycoca_env = getenv("KDESYCOCA");
if (ksycoca_env.isEmpty())
path = KGlobal::dirs()->saveLocation("cache") + "ksycoca";
else
path = TQFile::decodeName(ksycoca_env);
kdDebug(7011) << "Trying to open ksycoca from " << path << endl;
TQFile *database = new TQFile(path);
bool bOpen = database->open( IO_ReadOnly );
if (!bOpen)
{
path = locate("services", "ksycoca");
if (!path.isEmpty())
{
kdDebug(7011) << "Trying to open global ksycoca from " << path << endl;
delete database;
database = new TQFile(path);
bOpen = database->open( IO_ReadOnly );
}
}
if (bOpen)
{
fcntl(database->handle(), F_SETFD, FD_CLOEXEC);
m_sycoca_size = database->size();
#ifdef HAVE_MMAP
m_sycoca_mmap = (const char *) mmap(0, m_sycoca_size,
PROT_READ, MAP_SHARED,
database->handle(), 0);
/* POSIX mandates only MAP_FAILED, but we are paranoid so check for
null pointer too. */
if (m_sycoca_mmap == (const char*) MAP_FAILED || m_sycoca_mmap == 0)
{
kdDebug(7011) << "mmap failed. (length = " << m_sycoca_size << ")" << endl;
#endif
m_str = new TQDataStream(database);
#ifdef HAVE_MMAP
}
else
{
#ifdef HAVE_MADVISE
(void) madvise((char*)m_sycoca_mmap, m_sycoca_size, MADV_WILLNEED);
#endif
TQByteArray b_array;
b_array.setRawData(m_sycoca_mmap, m_sycoca_size);
TQBuffer *buffer = new TQBuffer( b_array );
buffer->open(IO_ReadWrite);
m_str = new TQDataStream( buffer);
}
#endif
bNoDatabase = false;
}
else
{
kdDebug(7011) << "Could not open ksycoca" << endl;
// No database file
delete database;
database = 0;
bNoDatabase = true;
if (openDummyIfNotFound)
{
// We open a dummy database instead.
//kdDebug(7011) << "No database, opening a dummy one." << endl;
TQBuffer *buffer = new TQBuffer( TQByteArray() );
buffer->open(IO_ReadWrite);
m_str = new TQDataStream( buffer);
(*m_str) << (TQ_INT32) KSYCOCA_VERSION;
(*m_str) << (TQ_INT32) 0;
}
else
{
result = false;
}
}
m_lstFactories = new KSycocaFactoryList();
m_lstFactories->setAutoDelete( true );
d->database = database;
return result;
}
// Read-write constructor - only for KBuildSycoca
KSycoca::KSycoca( bool /* dummy */ )
: DCOPObject("ksycoca_building"), m_lstFactories(0), m_str(0), bNoDatabase(false),
m_sycoca_size(0), m_sycoca_mmap(0)
{
d = new KSycocaPrivate;
m_lstFactories = new KSycocaFactoryList();
m_lstFactories->setAutoDelete( true );
_self = this;
}
static void delete_ksycoca_self() {
delete KSycoca::_self;
}
KSycoca * KSycoca::self()
{
if (!_self) {
qAddPostRoutine(delete_ksycoca_self);
_self = new KSycoca();
}
return _self;
}
KSycoca::~KSycoca()
{
closeDatabase();
delete d;
_self = 0L;
}
void KSycoca::closeDatabase()
{
TQIODevice *device = 0;
if (m_str)
device = m_str->device();
#ifdef HAVE_MMAP
if (device && m_sycoca_mmap)
{
TQBuffer *buf = (TQBuffer *) device;
buf->buffer().resetRawData(m_sycoca_mmap, m_sycoca_size);
// Solaris has munmap(char*, size_t) and everything else should
// be happy with a char* for munmap(void*, size_t)
munmap((char*) m_sycoca_mmap, m_sycoca_size);
m_sycoca_mmap = 0;
}
#endif
delete m_str;
m_str = 0;
delete device;
if (d->database != device)
delete d->database;
device = 0;
d->database = 0;
// It is very important to delete all factories here
// since they cache information about the database file
delete m_lstFactories;
m_lstFactories = 0L;
}
void KSycoca::addFactory( KSycocaFactory *factory )
{
assert(m_lstFactories);
m_lstFactories->append(factory);
}
bool KSycoca::isChanged(const char *type)
{
return self()->d->changeList.tqcontains(type);
}
void KSycoca::notifyDatabaseChanged(const TQStringList &changeList)
{
d->changeList = changeList;
//kdDebug(7011) << "got a notifyDatabaseChanged signal !" << endl;
// kded tells us the database file changed
// Close the database and forget all about what we knew
// The next call to any public method will recreate
// everything that's needed.
closeDatabase();
// Now notify applications
emit databaseChanged();
}
TQDataStream * KSycoca::findEntry(int offset, KSycocaType &type)
{
if ( !m_str )
openDatabase();
//kdDebug(7011) << TQString("KSycoca::_findEntry(offset=%1)").arg(offset,8,16) << endl;
m_str->device()->at(offset);
TQ_INT32 aType;
(*m_str) >> aType;
type = (KSycocaType) aType;
//kdDebug(7011) << TQString("KSycoca::found type %1").arg(aType) << endl;
return m_str;
}
bool KSycoca::checkVersion(bool abortOnError)
{
if ( !m_str )
{
if( !openDatabase(false /* don't open dummy db if not found */) )
return false; // No database found
// We should never get here... if a database was found then m_str shouldn't be 0L.
assert(m_str);
}
m_str->device()->at(0);
TQ_INT32 aVersion;
(*m_str) >> aVersion;
if ( aVersion < KSYCOCA_VERSION )
{
kdWarning(7011) << "Found version " << aVersion << ", expecting version " << KSYCOCA_VERSION << " or higher." << endl;
if (!abortOnError) return false;
kdError(7011) << "Outdated database ! Stop kded and restart it !" << endl;
abort();
}
return true;
}
TQDataStream * KSycoca::findFactory(KSycocaFactoryId id)
{
// The constructor found no database, but we want one
if (bNoDatabase)
{
closeDatabase(); // close the dummy one
// Check if new database already available
if ( !openDatabase(false /* no dummy one*/) )
{
static bool triedLaunchingKdeinit = false;
if (!triedLaunchingKdeinit) // try only once
{
triedLaunchingKdeinit = true;
kdDebug(7011) << "findFactory: we have no database.... launching kdeinit" << endl;
KApplication::startKdeinit();
// Ok, the new database should be here now, open it.
}
if (!openDatabase(false))
return 0L; // Still no database - uh oh
}
}
// rewind and check
if (!checkVersion(false))
{
kdWarning(7011) << "Outdated database found" << endl;
return 0L;
}
TQ_INT32 aId;
TQ_INT32 aOffset;
while(true)
{
(*m_str) >> aId;
//kdDebug(7011) << TQString("KSycoca::findFactory : found factory %1").arg(aId) << endl;
if (aId == 0)
{
kdError(7011) << "Error, KSycocaFactory (id = " << int(id) << ") not found!" << endl;
break;
}
(*m_str) >> aOffset;
if (aId == id)
{
//kdDebug(7011) << TQString("KSycoca::findFactory(%1) offset %2").arg((int)id).arg(aOffset) << endl;
m_str->device()->at(aOffset);
return m_str;
}
}
return 0;
}
TQString KSycoca::kfsstnd_prefixes()
{
if (bNoDatabase) return "";
if (!checkVersion(false)) return "";
TQ_INT32 aId;
TQ_INT32 aOffset;
// skip factories offsets
while(true)
{
(*m_str) >> aId;
if ( aId )
(*m_str) >> aOffset;
else
break; // just read 0
}
// We now point to the header
TQString prefixes;
KSycocaEntry::read(*m_str, prefixes);
(*m_str) >> m_timeStamp;
KSycocaEntry::read(*m_str, d->language);
(*m_str) >> d->updateSig;
KSycocaEntry::read(*m_str, d->allResourceDirs);
return prefixes;
}
TQ_UINT32 KSycoca::timeStamp()
{
if (!m_timeStamp)
(void) kfsstnd_prefixes();
return m_timeStamp;
}
TQ_UINT32 KSycoca::updateSignature()
{
if (!m_timeStamp)
(void) kfsstnd_prefixes();
return d->updateSig;
}
TQString KSycoca::language()
{
if (d->language.isEmpty())
(void) kfsstnd_prefixes();
return d->language;
}
TQStringList KSycoca::allResourceDirs()
{
if (!m_timeStamp)
(void) kfsstnd_prefixes();
return d->allResourceDirs;
}
TQString KSycoca::determineRelativePath( const TQString & _fullpath, const char *_resource )
{
TQString sRelativeFilePath;
TQStringList dirs = KGlobal::dirs()->resourceDirs( _resource );
TQStringList::ConstIterator dirsit = dirs.begin();
for ( ; dirsit != dirs.end() && sRelativeFilePath.isEmpty(); ++dirsit ) {
// might need canonicalPath() ...
if ( _fullpath.tqfind( *dirsit ) == 0 ) // path is dirs + relativePath
sRelativeFilePath = _fullpath.mid( (*dirsit).length() ); // skip appsdirs
}
if ( sRelativeFilePath.isEmpty() )
kdFatal(7011) << TQString("Couldn't tqfind %1 in any %2 dir !!!").arg( _fullpath ).arg( _resource) << endl;
//else
// debug code
//kdDebug(7011) << sRelativeFilePath << endl;
return sRelativeFilePath;
}
KSycoca * KSycoca::_self = 0L;
void KSycoca::flagError()
{
qWarning("ERROR: KSycoca database corruption!");
if (_self)
{
if (_self->d->readError)
return;
_self->d->readError = true;
if (_self->d->autoRebuild)
if(system("kbuildsycoca") < 0) // Rebuild the damned thing.
qWarning("ERROR: Running KSycoca failed.");
}
}
void KSycoca::disableAutoRebuild()
{
d->autoRebuild = false;
}
bool KSycoca::readError()
{
bool b = false;
if (_self)
{
b = _self->d->readError;
_self->d->readError = false;
}
return b;
}
void KSycocaEntry::read( TQDataStream &s, TQString &str )
{
TQ_UINT32 bytes;
s >> bytes; // read size of string
if ( bytes > 8192 ) { // null string or too big
if (bytes != 0xffffffff)
KSycoca::flagError();
str = TQString::null;
}
else if ( bytes > 0 ) { // not empty
int bt = bytes/2;
str.setLength( bt );
TQChar* ch = (TQChar *) str.tqunicode();
char t[8192];
char *b = t;
s.readRawBytes( b, bytes );
while ( bt-- ) {
*ch++ = (ushort) (((ushort)b[0])<<8) | (uchar)b[1];
b += 2;
}
} else {
str = "";
}
}
void KSycocaEntry::read( TQDataStream &s, TQStringList &list )
{
list.clear();
TQ_UINT32 count;
s >> count; // read size of list
if (count >= 1024)
{
KSycoca::flagError();
return;
}
for(TQ_UINT32 i = 0; i < count; i++)
{
TQString str;
read(s, str);
list.append( str );
if (s.atEnd())
{
KSycoca::flagError();
return;
}
}
}
void KSycoca::virtual_hook( int id, void* data )
{ DCOPObject::virtual_hook( id, data ); }
void KSycocaEntry::virtual_hook( int, void* )
{ /*BASE::virtual_hook( id, data );*/ }
#include "ksycoca.moc"