/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_desktop.hxx" #include "dp_misc.h" #include "dp_persmap.h" #include "rtl/strbuf.hxx" #ifndef DISABLE_BDB2PMAP #include #endif using namespace ::rtl; // the persistent map is used to manage a handful of key-value string pairs // this implementation replaces a rather heavy-weight berkeleydb integration // the file backing up a persistent map consists of line pairs with // - a key string (encoded with chars 0x00..0x0F being escaped) // - a value string (encoded with chars 0x00..0x0F being escaped) namespace dp_misc { static const char PmapMagic[4] = {'P','m','p','1'}; //______________________________________________________________________________ PersistentMap::PersistentMap( OUString const & url_, bool readOnly ) : m_MapFile( expandUnoRcUrl(url_) ) , m_bReadOnly( readOnly) , m_bIsOpen( false) , m_bToBeCreated( !readOnly) , m_bIsDirty( false) { #ifndef DISABLE_BDB2PMAP m_MapFileName = expandUnoRcUrl( url_); #endif open(); } //______________________________________________________________________________ PersistentMap::PersistentMap() : m_MapFile( OUString()) , m_bReadOnly( false) , m_bIsOpen( false) , m_bToBeCreated( false) , m_bIsDirty( false) {} //______________________________________________________________________________ PersistentMap::~PersistentMap() { if( m_bIsDirty) flush(); if( m_bIsOpen) m_MapFile.close(); } //______________________________________________________________________________ // replace 0x00..0x0F with "%0".."%F" // replace "%" with "%%" static OString encodeString( const OString& rStr) { const sal_Char* pChar = rStr.getStr(); const sal_Int32 nLen = rStr.getLength(); sal_Int32 i = nLen; // short circuit for the simple non-encoded case while( --i >= 0) { const sal_Char c = *(pChar++); if( (0x00 <= c) && (c <= 0x0F)) break; if( c == '%') break; } if( i < 0) return rStr; // escape chars 0x00..0x0F with "%0".."%F" OStringBuffer aEncStr( nLen + 32); aEncStr.append( pChar - (nLen-i), nLen - i); while( --i >= 0) { sal_Char c = *(pChar++); if( (0x00 <= c) && (c <= 0x0F)) { aEncStr.append( '%'); c += (c <= 0x09) ? '0' : 'A'-10; } else if( c == '%') aEncStr.append( '%'); aEncStr.append( c); } return aEncStr.makeStringAndClear(); } //______________________________________________________________________________ // replace "%0".."%F" with 0x00..0x0F // replace "%%" with "%" static OString decodeString( const sal_Char* pEncChars, int nLen) { const char* pChar = pEncChars; sal_Int32 i = nLen; // short circuit for the simple non-encoded case while( --i >= 0) if( *(pChar++) == '%') break; if( i < 0) return OString( pEncChars, nLen); // replace escaped chars with their decoded counterparts OStringBuffer aDecStr( nLen); pChar = pEncChars; for( i = nLen; --i >= 0;) { sal_Char c = *(pChar++); // handle escaped character if( c == '%') { --i; OSL_ASSERT( i >= 0); c = *(pChar++); if( ('0' <= c) && (c <= '9')) c -= '0'; else { OSL_ASSERT( ('A' <= c) && (c <= 'F')); c -= ('A'-10); } } aDecStr.append( c); } return aDecStr.makeStringAndClear(); } //______________________________________________________________________________ bool PersistentMap::open() { // open the existing file sal_uInt32 nOpenFlags = osl_File_OpenFlag_Read; if( !m_bReadOnly) nOpenFlags |= osl_File_OpenFlag_Write; const osl::File::RC rcOpen = m_MapFile.open( nOpenFlags); m_bIsOpen = (rcOpen == osl::File::E_None); // or create later if needed m_bToBeCreated &= (rcOpen == osl::File::E_NOENT) && !m_bIsOpen; #ifndef DISABLE_BDB2PMAP if( m_bToBeCreated) importFromBDB(); #endif // DISABLE_BDB2PMAP if( !m_bIsOpen) return m_bToBeCreated; const bool readOK = readAll(); return readOK; } //______________________________________________________________________________ bool PersistentMap::readAll() { // prepare for re-reading the map-file m_MapFile.setPos( osl_Pos_Absolut, 0); m_entries.clear(); // read header and check magic char aHeaderBytes[ sizeof(PmapMagic)]; sal_uInt64 nBytesRead = 0; m_MapFile.read( aHeaderBytes, sizeof(aHeaderBytes), nBytesRead); OSL_ASSERT( nBytesRead == sizeof(aHeaderBytes)); if( nBytesRead != sizeof(aHeaderBytes)) return false; // check header magic for( int i = 0; i < (int)sizeof(PmapMagic); ++i) if( aHeaderBytes[i] != PmapMagic[i]) return false; // read key value pairs and add them to the map ByteSequence aKeyLine; ByteSequence aValLine; for(;;) { // read key-value line pair // an empty key name indicates the end of the line pairs if( m_MapFile.readLine( aKeyLine) != osl::File::E_None) return false; if( !aKeyLine.getLength()) break; if( m_MapFile.readLine( aValLine) != osl::File::E_None) return false; // decode key and value strings const OString aKeyName = decodeString( (sal_Char*)aKeyLine.getConstArray(), aKeyLine.getLength()); const OString aValName = decodeString( (sal_Char*)aValLine.getConstArray(), aValLine.getLength()); // insert key-value pair into map add( aKeyName, aValName); // check end-of-file status sal_Bool bIsEOF = true; if( m_MapFile.isEndOfFile( &bIsEOF) != osl::File::E_None) return false; if( bIsEOF) break; } m_bIsDirty = false; return true; } //______________________________________________________________________________ void PersistentMap::flush( void) { if( !m_bIsDirty) return; OSL_ASSERT( !m_bReadOnly); if( m_bToBeCreated && !m_entries.empty()) { const sal_uInt32 nOpenFlags = osl_File_OpenFlag_Read | osl_File_OpenFlag_Write | osl_File_OpenFlag_Create; const osl::File::RC rcOpen = m_MapFile.open( nOpenFlags); m_bIsOpen = (rcOpen == osl::File::E_None); m_bToBeCreated = !m_bIsOpen; } if( !m_bIsOpen) return; // write header magic m_MapFile.setPos( osl_Pos_Absolut, 0); sal_uInt64 nBytesWritten = 0; m_MapFile.write( PmapMagic, sizeof(PmapMagic), nBytesWritten); // write key value pairs t_string2string_map::const_iterator it = m_entries.begin(); for(; it != m_entries.end(); ++it) { // write line for key const OString aKeyString = encodeString( (*it).first); const sal_Int32 nKeyLen = aKeyString.getLength(); m_MapFile.write( aKeyString.getStr(), nKeyLen, nBytesWritten); OSL_ASSERT( nKeyLen == (sal_Int32)nBytesWritten); m_MapFile.write( "\n", 1, nBytesWritten); // write line for value const OString& rValString = encodeString( (*it).second); const sal_Int32 nValLen = rValString.getLength(); m_MapFile.write( rValString.getStr(), nValLen, nBytesWritten); OSL_ASSERT( nValLen == (sal_Int32)nBytesWritten); m_MapFile.write( "\n", 1, nBytesWritten); } // write a file delimiter (an empty key-string) m_MapFile.write( "\n", 1, nBytesWritten); // truncate file here sal_uInt64 nNewFileSize; if( m_MapFile.getPos( nNewFileSize) == osl::File::E_None) m_MapFile.setSize( nNewFileSize); // flush to disk m_MapFile.sync(); // the in-memory map now matches to the file on disk m_bIsDirty = false; } //______________________________________________________________________________ bool PersistentMap::has( OString const & key ) const { return get( NULL, key ); } //______________________________________________________________________________ bool PersistentMap::get( OString * value, OString const & key ) const { t_string2string_map::const_iterator it = m_entries.find( key); if( it == m_entries.end()) return false; if( value) *value = it->second; return true; } //______________________________________________________________________________ void PersistentMap::add( OString const & key, OString const & value ) { if( m_bReadOnly) return; typedef std::pair InsertRC; InsertRC r = m_entries.insert( t_string2string_map::value_type(key,value)); m_bIsDirty = r.second; } //______________________________________________________________________________ void PersistentMap::put( OString const & key, OString const & value ) { add( key, value); // HACK: flush now as the extension manager does not seem // to properly destruct this object in some situations if( m_bIsDirty) flush(); } //______________________________________________________________________________ bool PersistentMap::erase( OString const & key, bool flush_immediately ) { if( m_bReadOnly) return false; size_t nCount = m_entries.erase( key); if( !nCount) return false; m_bIsDirty = true; if( flush_immediately) flush(); return true; } //______________________________________________________________________________ t_string2string_map PersistentMap::getEntries() const { // TODO: return by const reference instead? return m_entries; } //______________________________________________________________________________ #ifndef DISABLE_BDB2PMAP bool PersistentMap::importFromBDB() { if( m_bReadOnly) return false; // get the name of its BDB counterpart rtl::OUString aDBName = m_MapFileName; if( !aDBName.endsWithAsciiL( ".pmap", 5)) return false; aDBName = aDBName.replaceAt( aDBName.getLength()-5, 5, OUSTR(".db")); // open the corresponding BDB file for reading osl::File aDBFile( aDBName); osl::File::RC rc = aDBFile.open( osl_File_OpenFlag_Read); if( rc != osl::File::E_None) return false; sal_uInt64 nFileSize = 0; if( aDBFile.getSize( nFileSize) != osl::File::E_None) return false; // read the BDB file std::vector aRawBDB( nFileSize); for( sal_uInt64 nOfs = 0; nOfs < nFileSize;) { sal_uInt64 nBytesRead = 0; rc = aDBFile.read( (void*)&aRawBDB[nOfs], nFileSize - nOfs, nBytesRead); if( (rc != osl::File::E_None) || !nBytesRead) return false; nOfs += nBytesRead; } // check BDB file header for non_encrypted Hash format v4..9 if( nFileSize < 0x0100) return false; if( aRawBDB[24] != 0) // only not-encrypted migration return false; if( aRawBDB[25] != 8) // we expect a P_HASHMETA page return false; const bool bLE = (aRawBDB[12]==0x61 && aRawBDB[13]==0x15 && aRawBDB[14]==0x06); const bool bBE = (aRawBDB[15]==0x61 && aRawBDB[14]==0x15 && aRawBDB[13]==0x06); if( bBE == bLE) return false; if( (aRawBDB[16] < 4) || (9 < aRawBDB[16])) // version return false; const sal_uInt64 nPgSize = bLE ? (aRawBDB[20] + (aRawBDB[21]<<8) + (aRawBDB[22]<<16) + (aRawBDB[23]<<24)) : (aRawBDB[23] + (aRawBDB[22]<<8) + (aRawBDB[21]<<16) + (aRawBDB[20]<<24)); const int nPgCount = nFileSize / nPgSize; if( nPgCount * nPgSize != nFileSize) return false; // find PackageManager's new_style entries // using a simple heuristic for BDB_Hash pages int nEntryCount = 0; for( int nPgNo = 1; nPgNo < nPgCount; ++nPgNo) { // parse the next _db_page const sal_uInt8* const pPage = &aRawBDB[ nPgNo * nPgSize]; const sal_uInt8* const pEnd = pPage + nPgSize; const int nHfOffset = bLE ? (pPage[22] + (pPage[23]<<8)) : (pPage[23] + (pPage[22]<<8)); const sal_uInt8* pCur = pPage + nHfOffset; // iterate through the entries for(; pCur < pEnd; ++pCur) { if( pCur[0] != 0x01) continue; // get the value-candidate const sal_uInt8* pVal = pCur + 1; while( ++pCur < pEnd) if( (*pCur < ' ') || ((*pCur > 0x7F) && (*pCur != 0xFF))) break; if( pCur >= pEnd) break; if( (pCur[0] != 0x01) || (pCur[1] != 0xFF)) continue; const OString aVal( (sal_Char*)pVal, pCur - pVal); // get the key-candidate const sal_uInt8* pKey = pCur + 1; while( ++pCur < pEnd) if( (*pCur < ' ') || ((*pCur > 0x7F) && (*pCur != 0xFF))) break; if( (pCur < pEnd) && (*pCur > 0x01)) continue; const OString aKey( (sal_Char*)pKey, pCur - pKey); // add the key/value pair add( aKey, aVal); ++nEntryCount; } } return (nEntryCount > 0); } #endif // DISABLE_BDB2PMAP }