void CCollection::WriteToFileAddShared(CryptoPP::RSASSA_PKCS1v15_SHA_Signer* pSignKey)
{
	using namespace CryptoPP;
	CString sFileName;
	sFileName.Format(_T("%s%s"), m_sCollectionName, COLLECTION_FILEEXTENSION);
	
	CString sFilePath;
	sFilePath.Format(_T("%s\\%s"), thePrefs.GetIncomingDir(), sFileName);

	if(m_bTextFormat)
	{
		CStdioFile data;
		if(data.Open(sFilePath, CFile::modeCreate | CFile::modeWrite | CFile::shareDenyWrite | CFile::typeText))
		{
			try
			{
				POSITION pos = m_CollectionFilesMap.GetStartPosition();
				CCollectionFile* pCollectionFile;
				CSKey key;
				while( pos != NULL )
				{
					m_CollectionFilesMap.GetNextAssoc( pos, key, pCollectionFile );
					CString sLink;
					sLink.Format(_T("%s\n"), ::CreateED2kLink(pCollectionFile, true)); 
					data.WriteString(sLink);
				}
				data.Close();
			}
			catch(CFileException* error)
			{
				error->Delete();
				return;
			}
			catch(...)
			{
				ASSERT( false );
				data.Close();
				return;
			}
		}
	}
	else
	{
		CSafeFile data;
		if(data.Open(sFilePath, CFile::modeCreate | CFile::modeReadWrite | CFile::shareDenyWrite | CFile::typeBinary))
		{
			try
			{
				//Version
				data.WriteUInt32(1);

				uint32 uTagCount = 1;

				//NumberHeaderTags
				if(!m_sCollectionAuthorName.IsEmpty())
					uTagCount += 2;


				data.WriteUInt32(uTagCount);

				CTag collectionName(FT_FILENAME, m_sCollectionName);
				collectionName.WriteTagToFile(&data, utf8strRaw);

				if(m_pabyCollectionAuthorKey != NULL){
					CTag collectionAuthor(FT_COLLECTIONAUTHOR, m_sCollectionAuthorName);
					collectionAuthor.WriteTagToFile(&data, utf8strRaw);

					CTag collectionAuthorKey(FT_COLLECTIONAUTHORKEY, m_nKeySize, m_pabyCollectionAuthorKey);
					collectionAuthorKey.WriteTagToFile(&data, utf8strRaw);
				}

				//Total Files
				data.WriteUInt32(m_CollectionFilesMap.GetSize());

				POSITION pos = m_CollectionFilesMap.GetStartPosition();
				CCollectionFile* pCollectionFile;
				CSKey key;
				while( pos != NULL )
				{
					m_CollectionFilesMap.GetNextAssoc( pos, key, pCollectionFile );
					pCollectionFile->WriteCollectionInfo(&data);
				}

				if (pSignKey != NULL){
					uint32 nPos = (uint32)data.GetPosition();
					data.SeekToBegin();
					BYTE* pBuffer = new BYTE[nPos];
					VERIFY( data.Read(pBuffer, nPos) == nPos);

					SecByteBlock sbbSignature(pSignKey->SignatureLength());
					AutoSeededRandomPool rng;
					pSignKey->SignMessage(rng, pBuffer ,nPos , sbbSignature.begin());
					BYTE abyBuffer2[500];
					ArraySink asink(abyBuffer2, 500);
					asink.Put(sbbSignature.begin(), sbbSignature.size());
					int nResult = (uint8)asink.TotalPutLength();

					data.Write(abyBuffer2, nResult);

					delete[] pBuffer;
		
				}
				data.Close();
			}
			catch(CFileException* error)
			{
				error->Delete();
				return;
			}
			catch(...)
			{
				ASSERT( false );
				data.Close();
				return;
			}
		}
	}

	theApp.sharedfiles->AddFileFromNewlyCreatedCollection(thePrefs.GetIncomingDir(), sFileName);
}
Beispiel #2
0
// this function is only allowed to be called right after successfully calculating the hashset (!)
// will delete the hashset, after saving to free the memory
bool CAICHRecoveryHashSet::SaveHashSet(){
	if (m_eStatus != AICH_HASHSETCOMPLETE){
		ASSERT( false );
		return false;
	}
	if ( !m_pHashTree.m_bHashValid || m_pHashTree.m_nDataSize != m_pOwner->GetFileSize()){
		ASSERT( false );
		return false;
	}
	CSingleLock lockKnown2Met(&m_mutKnown2File, false);
	if (!lockKnown2Met.Lock(5000)){
		return false;
	}

	CString fullpath = thePrefs.GetMuleDirectory(EMULE_CONFIGDIR);
	fullpath.Append(KNOWN2_MET_FILENAME);
	CSafeFile file;
	CFileException fexp;
	if (!file.Open(fullpath,CFile::modeCreate|CFile::modeReadWrite|CFile::modeNoTruncate|CFile::osSequentialScan|CFile::typeBinary|CFile::shareDenyNone, &fexp)){
		if (fexp.m_cause != CFileException::fileNotFound){
			CString strError(_T("Failed to load ") KNOWN2_MET_FILENAME _T(" file"));
			TCHAR szError[MAX_CFEXP_ERRORMSG];
			if (fexp.GetErrorMessage(szError, ARRSIZE(szError))){
				strError += _T(" - ");
				strError += szError;
			}
			theApp.QueueLogLine(true, _T("%s"), strError);
		}
		return false;
	}
	try {
		//setvbuf(file.m_pStream, NULL, _IOFBF, 16384);
		uint8 header = file.ReadUInt8();
		if (header != KNOWN2_MET_VERSION){
			AfxThrowFileException(CFileException::endOfFile, 0, file.GetFileName());
		}
		// first we check if the hashset we want to write is already stored
		if (m_liAICHHashsStored.Find(m_pHashTree.m_Hash) != NULL)
		{
			theApp.QueueDebugLogLine(false, _T("AICH Hashset to write should be already present in known2.met - %s"), m_pHashTree.m_Hash.GetString());
			// this hashset if already available, no need to save it again
			return true;
		}		
		/*CAICHHash CurrentHash;	
		while (file.GetPosition() < nExistingSize){
			CurrentHash.Read(&file);
			if (m_pHashTree.m_Hash == CurrentHash){
				// this hashset if already available, no need to save it again
				return true;
			}
			nHashCount = file.ReadUInt32();
			if (file.GetPosition() + nHashCount*HASHSIZE > nExistingSize){
				AfxThrowFileException(CFileException::endOfFile, 0, file.GetFileName());
			}
			// skip the rest of this hashset
			file.Seek(nHashCount*HASHSIZE, CFile::current);
		}*/

		// write hashset
		uint32 nExistingSize = (UINT)file.GetLength();
		file.SeekToEnd();

		m_pHashTree.m_Hash.Write(&file);
		uint32 nHashCount = (uint32)((PARTSIZE/EMBLOCKSIZE + ((PARTSIZE % EMBLOCKSIZE != 0)? 1 : 0)) * (m_pHashTree.m_nDataSize/PARTSIZE));
		if (m_pHashTree.m_nDataSize % PARTSIZE != 0)
			nHashCount += (uint32)((m_pHashTree.m_nDataSize % PARTSIZE)/EMBLOCKSIZE + (((m_pHashTree.m_nDataSize % PARTSIZE) % EMBLOCKSIZE != 0)? 1 : 0));
		file.WriteUInt32(nHashCount);
		if (!m_pHashTree.WriteLowestLevelHashs(&file, 0, true, true)){
			// thats bad... really
			file.SetLength(nExistingSize);
			theApp.QueueDebugLogLine(true, _T("Failed to save HashSet: WriteLowestLevelHashs() failed!"));
			return false;
		}
		if (file.GetLength() != nExistingSize + (nHashCount+1)*HASHSIZE + 4){
			// thats even worse
			file.SetLength(nExistingSize);
			theApp.QueueDebugLogLine(true, _T("Failed to save HashSet: Calculated and real size of hashset differ!"));
			return false;
		}
		CAICHRecoveryHashSet::AddStoredAICHHash(m_pHashTree.m_Hash);
		theApp.QueueDebugLogLine(false, _T("Successfully saved eMuleAC Hashset, %u Hashs + 1 Masterhash written"), nHashCount);
	    file.Flush();
	    file.Close();
	}
	catch(CFileException* error){
		if (error->m_cause == CFileException::endOfFile)
			theApp.QueueLogLine(true, GetResString(IDS_ERR_MET_BAD), KNOWN2_MET_FILENAME);
		else{
			TCHAR buffer[MAX_CFEXP_ERRORMSG];
			error->GetErrorMessage(buffer, ARRSIZE(buffer));
			theApp.QueueLogLine(true,GetResString(IDS_ERR_SERVERMET_UNKNOWN),buffer);
		}
		error->Delete();
		return false;
	}
	FreeHashSet();
	return true;
}
Beispiel #3
0
int CAICHSyncThread::Run()
{
	CUnregThreadAssist	uta(m_nThreadID);

	if ( !theApp.emuledlg->IsRunning() )
		return 0;
	// we need to keep a lock on this file while the thread is running
	CSingleLock lockKnown2Met(&CAICHHashSet::m_mutKnown2File);
	lockKnown2Met.Lock();
	
	CSafeFile file;
	bool bJustCreated = ConvertToKnown2ToKnown264(&file);
	
	// we collect all masterhashs which we find in the known2.met and store them in a list
	CList<CAICHHash> liKnown2Hashs;
	CString fullpath = thePrefs.GetMuleDirectory(EMULE_CONFIGDIR);
	fullpath.Append(KNOWN2_MET_FILENAME);
	
	CFileException fexp;
	uint32 nLastVerifiedPos = 0;

	if (!bJustCreated && !file.Open(fullpath,CFile::modeCreate|CFile::modeReadWrite|CFile::modeNoTruncate|CFile::osSequentialScan|CFile::typeBinary|CFile::shareDenyNone, &fexp)){
		if (fexp.m_cause != CFileException::fileNotFound){
			CString strError(_T("Failed to load ") KNOWN2_MET_FILENAME _T(" file"));
			TCHAR szError[MAX_CFEXP_ERRORMSG];
			if (fexp.GetErrorMessage(szError, ARRSIZE(szError))){
				strError += _T(" - ");
				strError += szError;
			}
			LogError(LOG_STATUSBAR, _T("%s"), strError);
		}
		return false;
	}
	try {
		if (file.GetLength() >= 1){
			uint8 header = file.ReadUInt8();
			if (header != KNOWN2_MET_VERSION){
				AfxThrowFileException(CFileException::endOfFile, 0, file.GetFileName());
			}
			//setvbuf(file.m_pStream, NULL, _IOFBF, 16384);
			uint32 nExistingSize = (UINT)file.GetLength();
			uint32 nHashCount;
			while (file.GetPosition() < nExistingSize){
				liKnown2Hashs.AddTail(CAICHHash(&file));
				nHashCount = file.ReadUInt32();
				if (file.GetPosition() + nHashCount*CAICHHash::GetHashSize() > nExistingSize){
					AfxThrowFileException(CFileException::endOfFile, 0, file.GetFileName());
				}
				// skip the rest of this hashset
				file.Seek(nHashCount*CAICHHash::GetHashSize(), CFile::current);
				nLastVerifiedPos = (UINT)file.GetPosition();
			}
		}
		else
			file.WriteUInt8(KNOWN2_MET_VERSION);
	}
	catch(CFileException* error){
		if (error->m_cause == CFileException::endOfFile){
			LogError(LOG_STATUSBAR,GetResString(IDS_ERR_MET_BAD), KNOWN2_MET_FILENAME);
			// truncate the file to the size to the last verified valid pos
			try{
				file.SetLength(nLastVerifiedPos);
				if (file.GetLength() == 0){
					file.SeekToBegin();
					file.WriteUInt8(KNOWN2_MET_VERSION);
				}
			}
			catch(CFileException* error2){
				error2->Delete();
			}
		}
		else{
			TCHAR buffer[MAX_CFEXP_ERRORMSG];
			error->GetErrorMessage(buffer, ARRSIZE(buffer));
			LogError(LOG_STATUSBAR,GetResString(IDS_ERR_SERVERMET_UNKNOWN),buffer);
		}
		error->Delete();
		return false;
	}
	
	// now we check that all files which are in the sharedfilelist have a corresponding hash in out list
	// those how don'T are added to the hashinglist
	CList<CAICHHash> liUsedHashs;	
	CSingleLock sharelock(&theApp.sharedfiles->m_mutWriteList);
	sharelock.Lock();

	for (int i = 0; i < theApp.sharedfiles->GetCount(); i++){
		CKnownFile* pCurFile = theApp.sharedfiles->GetFileByIndex(i);
		if (pCurFile != NULL && !pCurFile->IsPartFile() ){
			if (theApp.emuledlg==NULL || !theApp.emuledlg->IsRunning()) // in case of shutdown while still hashing
				return 0;
			if (pCurFile->GetAICHHashset()->GetStatus() == AICH_HASHSETCOMPLETE){
				bool bFound = false;
				for (POSITION pos = liKnown2Hashs.GetHeadPosition();pos != 0;)
				{
					CAICHHash current_hash = liKnown2Hashs.GetNext(pos);
					if (current_hash == pCurFile->GetAICHHashset()->GetMasterHash()){
						bFound = true;
						liUsedHashs.AddTail(current_hash);
						//theApp.QueueDebugLogLine(false, _T("%s - %s"), current_hash.GetString(), pCurFile->GetFileName());
#ifdef _DEBUG
						// in debugmode we load and verify all hashsets
						ASSERT( pCurFile->GetAICHHashset()->LoadHashSet() );
//			 			pCurFile->GetAICHHashset()->DbgTest();
						pCurFile->GetAICHHashset()->FreeHashSet();
#endif
						break;
					}
				}
				if (bFound) // hashset is available, everything fine with this file
					continue;
			}
			pCurFile->GetAICHHashset()->SetStatus(AICH_ERROR);
			m_liToHash.AddTail(pCurFile);
		}
	}
	sharelock.Unlock();

	// removed all unused AICH hashsets from known2.met
	if (liUsedHashs.GetCount() != liKnown2Hashs.GetCount() && 
		(!thePrefs.IsRememberingDownloadedFiles() || thePrefs.DoPartiallyPurgeOldKnownFiles()))
	{
		file.SeekToBegin();
		try {
			uint8 header = file.ReadUInt8();
			if (header != KNOWN2_MET_VERSION){
				AfxThrowFileException(CFileException::endOfFile, 0, file.GetFileName());
			}

			uint32 nExistingSize = (UINT)file.GetLength();
			uint32 nHashCount;
			ULONGLONG posWritePos = file.GetPosition();
			ULONGLONG posReadPos = file.GetPosition();
			uint32 nPurgeCount = 0;
			uint32 nPurgeBecauseOld = 0;
			while (file.GetPosition() < nExistingSize){
				CAICHHash aichHash(&file);
				nHashCount = file.ReadUInt32();
				if (file.GetPosition() + nHashCount*CAICHHash::GetHashSize() > nExistingSize){
					AfxThrowFileException(CFileException::endOfFile, 0, file.GetFileName());
				}
				if (!thePrefs.IsRememberingDownloadedFiles() && liUsedHashs.Find(aichHash) == NULL)
				{
					// unused hashset skip the rest of this hashset
					file.Seek(nHashCount*CAICHHash::GetHashSize(), CFile::current);
					nPurgeCount++;
				}
				else if (thePrefs.IsRememberingDownloadedFiles() && theApp.knownfiles->ShouldPurgeAICHHashset(aichHash))
				{
					ASSERT( thePrefs.DoPartiallyPurgeOldKnownFiles() );
					// also unused (purged) hashset skip the rest of this hashset
					file.Seek(nHashCount*CAICHHash::GetHashSize(), CFile::current);
					nPurgeCount++;
					nPurgeBecauseOld++;
				}
				else if(nPurgeCount == 0){
					// used Hashset, but it does not need to be moved as nothing changed yet
					file.Seek(nHashCount*CAICHHash::GetHashSize(), CFile::current);
					posWritePos = file.GetPosition();
				}
				else{
					// used Hashset, move position in file
					BYTE* buffer = new BYTE[nHashCount*CAICHHash::GetHashSize()];
					file.Read(buffer, nHashCount*CAICHHash::GetHashSize());
					posReadPos = file.GetPosition();
					file.Seek(posWritePos, CFile::begin);
					file.Write(aichHash.GetRawHash(), CAICHHash::GetHashSize());
					file.WriteUInt32(nHashCount);
					file.Write(buffer, nHashCount*CAICHHash::GetHashSize());
					delete[] buffer;
					posWritePos = file.GetPosition();
					file.Seek(posReadPos, CFile::begin); 
				}
			}
			posReadPos = file.GetPosition();
			file.SetLength(posWritePos);
			theApp.QueueDebugLogLine(false, _T("Cleaned up known2.met, removed %u hashsets and purged %u hashsets of old known files (%s)")
				, nPurgeCount - nPurgeBecauseOld, nPurgeBecauseOld, CastItoXBytes(posReadPos-posWritePos)); 

			file.Flush();
			file.Close();
		}
		catch(CFileException* error){
			if (error->m_cause == CFileException::endOfFile){
				// we just parsed this files some ms ago, should never happen here
				ASSERT( false );
			}
			else{
				TCHAR buffer[MAX_CFEXP_ERRORMSG];
				error->GetErrorMessage(buffer, ARRSIZE(buffer));
				LogError(LOG_STATUSBAR,GetResString(IDS_ERR_SERVERMET_UNKNOWN),buffer);
			}
			error->Delete();
			return false;
		}
	}
	lockKnown2Met.Unlock();
	// warn the user if he just upgraded
	if (thePrefs.IsFirstStart() && !m_liToHash.IsEmpty() && !bJustCreated){
		LogWarning(GetResString(IDS_AICH_WARNUSER));
	}	
	if (!m_liToHash.IsEmpty()){
		theApp.QueueLogLine(true, GetResString(IDS_AICH_SYNCTOTAL), m_liToHash.GetCount() );
		theApp.emuledlg->sharedfileswnd->sharedfilesctrl.SetAICHHashing(m_liToHash.GetCount());
		// let first all normal hashing be done before starting out synchashing
		CSingleLock sLock1(&theApp.hashing_mut); // only one filehash at a time
		while (theApp.sharedfiles->GetHashingCount() != 0){
			Sleep(100);
		}
		sLock1.Lock();
		uint32 cDone = 0;
		for (POSITION pos = m_liToHash.GetHeadPosition();pos != 0; cDone++)
		{
			if (theApp.emuledlg==NULL || !theApp.emuledlg->IsRunning()){ // in case of shutdown while still hashing
				return 0;
			}
			theApp.emuledlg->sharedfileswnd->sharedfilesctrl.SetAICHHashing(m_liToHash.GetCount()-cDone);
			if (theApp.emuledlg->sharedfileswnd->sharedfilesctrl.m_hWnd != NULL)
				theApp.emuledlg->sharedfileswnd->sharedfilesctrl.ShowFilesCount();
			CKnownFile* pCurFile = m_liToHash.GetNext(pos);
			// just to be sure that the file hasnt been deleted lately
			if (!(theApp.knownfiles->IsKnownFile(pCurFile) && theApp.sharedfiles->GetFileByID(pCurFile->GetFileHash())) )
				continue;
			theApp.QueueLogLine(false, GetResString(IDS_AICH_CALCFILE), pCurFile->GetFileName());
			if(!pCurFile->CreateAICHHashSetOnly())
				theApp.QueueDebugLogLine(false, _T("Failed to create AICH Hashset while sync. for file %s"), pCurFile->GetFileName());
		}

		theApp.emuledlg->sharedfileswnd->sharedfilesctrl.SetAICHHashing(0);
		if (theApp.emuledlg->sharedfileswnd->sharedfilesctrl.m_hWnd != NULL)
			theApp.emuledlg->sharedfileswnd->sharedfilesctrl.ShowFilesCount();
		sLock1.Unlock();
	}

	theApp.QueueDebugLogLine(false, _T("AICHSyncThread finished"));
	return 0;
}