Esempio n. 1
0
bool FileSystem::CopyFile(const char* srcFilename, const char* dstFilename)
{
	DiskFile infile;
	if (!infile.Open(srcFilename, DiskFile::omRead))
	{
		return false;
	}

	DiskFile outfile;
	if (!outfile.Open(dstFilename, DiskFile::omWrite))
	{
		return false;
	}

	CharBuffer buffer(1024 * 50);

	int cnt = buffer.Size();
	while (cnt == buffer.Size())
	{
		cnt = (int)infile.Read(buffer, buffer.Size());
		outfile.Write(buffer, cnt);
	}

	infile.Close();
	outfile.Close();

	return true;
}
Esempio n. 2
0
bool FileSystem::LoadFileIntoBuffer(const char* filename, CharBuffer& buffer, bool addTrailingNull)
{
	DiskFile file;
	if (!file.Open(filename, DiskFile::omRead))
	{
		return false;
	}

	// obtain file size.
	file.Seek(0, DiskFile::soEnd);
	int size  = (int)file.Position();
	file.Seek(0);

	// allocate memory to contain the whole file.
	buffer.Reserve(size + (addTrailingNull ? 1 : 0));

	// copy the file into the buffer.
	file.Read(buffer, size);
	file.Close();

	if (addTrailingNull)
	{
		buffer[size] = 0;
	}

	return true;
}
Esempio n. 3
0
void ParRenamer::CheckRegularFile(const char* destDir, const char* filename)
{
	debug("Computing hash for %s", filename);

	DiskFile file;
	if (!file.Open(filename, DiskFile::omRead))
	{
		PrintMessage(Message::mkError, "Could not open file %s", filename);
		return;
	}

	// load first 16K of the file into buffer
	static const int blockSize = 16*1024;
	CharBuffer buffer(blockSize);

	int readBytes = (int)file.Read(buffer, buffer.Size());
	if (readBytes != buffer.Size() && file.Error())
	{
		PrintMessage(Message::mkError, "Could not read file %s", filename);
		return;
	}

	file.Close();

	Par2::MD5Hash hash16k;
	Par2::MD5Context context;
	context.Update(buffer, readBytes);
	context.Final(hash16k);

	debug("file: %s; hash16k: %s", FileSystem::BaseFileName(filename), hash16k.print().c_str());

	for (FileHash& fileHash : m_fileHashList)
	{
		if (!strcmp(fileHash.GetHash(), hash16k.print().c_str()))
		{
			debug("Found correct filename: %s", fileHash.GetFilename());
			fileHash.SetFileExists(true);

			BString<1024> dstFilename("%s%c%s", destDir, PATH_SEPARATOR, fileHash.GetFilename());

			if (!FileSystem::FileExists(dstFilename) && !IsSplittedFragment(filename, fileHash.GetFilename()))
			{
				RenameFile(filename, dstFilename);
			}

			break;
		}
	}
}
Esempio n. 4
0
int RarVolume::DetectRarVersion(DiskFile& file)
{
	static char RAR3_SIGNATURE[] = { 0x52, 0x61, 0x72, 0x21, 0x1A, 0x07, 0x00 };
	static char RAR5_SIGNATURE[] = { 0x52, 0x61, 0x72, 0x21, 0x1A, 0x07, 0x01, 0x00 };

	char fileSignature[8];

	int cnt = 0;
	cnt = (int)file.Read(fileSignature, sizeof(fileSignature));

	bool rar5 = cnt == sizeof(fileSignature) && !strcmp(RAR5_SIGNATURE, fileSignature);
	bool rar3 = !rar5 && cnt == sizeof(fileSignature) && !strcmp(RAR3_SIGNATURE, fileSignature);

	return rar3 ? 3 : rar5 ? 5 : 0;
}
Esempio n. 5
0
RarVolume::RarBlock RarVolume::ReadRar3Block(DiskFile& file)
{
	RarBlock block {0};
	uint8 salt[8];

	if (m_encrypted &&
		!(file.Read(salt, sizeof(salt)) == sizeof(salt) &&
		  DecryptRar3Prepare(salt) && DecryptInit(128)))
	{
		return {0};
	}

	uint8 buf[7];

	if (!Read(file, nullptr, &buf, sizeof(buf))) return {0};
	block.crc = ((uint16)buf[1] << 8) + buf[0];
	block.type = buf[2];
	block.flags = ((uint16)buf[4] << 8) + buf[3];
	uint16 size = ((uint16)buf[6] << 8) + buf[5];

	uint32 blocksize = size;
	if (m_encrypted)
	{
		// Align to 16 bytes
		blocksize = (blocksize + ((~blocksize + 1) & (16 - 1)));
	}

	block.trailsize = blocksize - sizeof(buf);

	uint8 addbuf[4];
	if ((block.flags & RAR3_BLOCK_ADDSIZE) && !Read(file, nullptr, &addbuf, sizeof(addbuf)))
	{
		return {0};
	}
	block.addsize = ((uint32)addbuf[3] << 24) + ((uint32)addbuf[2] << 16) + ((uint32)addbuf[1] << 8) + addbuf[0];

	if (block.flags & RAR3_BLOCK_ADDSIZE)
	{
		blocksize += (uint32)block.addsize;
		block.trailsize = blocksize - sizeof(buf) - 4;
	}

	static int num = 0;
	debug("%i) %llu, %i, %i, %i, %u, %llu", ++num, (long long)block.crc, (int)block.type, (int)block.flags, (int)size, (int)block.addsize, (long long)block.trailsize);

	return block;
}
Esempio n. 6
0
bool RarVolume::Read(DiskFile& file, RarBlock* block, void* buffer, int64 size)
{
	if (m_encrypted)
	{
		if (!DecryptRead(file, buffer, size)) return false;
	}
	else
	{
		if (file.Read(buffer, size) != size) return false;
	}

	if (block)
	{
		block->trailsize -= size;
	}

	return true;
}
Esempio n. 7
0
void ParRenamer::CheckParFile(const char* destDir, const char* filename)
{
	debug("Checking par2-header for %s", filename);

	DiskFile file;
	if (!file.Open(filename, DiskFile::omRead))
	{
		PrintMessage(Message::mkError, "Could not open file %s", filename);
		return;
	}

	// load par2-header
	Par2::PACKET_HEADER header;

	int readBytes = (int)file.Read(&header, sizeof(header));
	if (readBytes != sizeof(header) && file.Error())
	{
		PrintMessage(Message::mkError, "Could not read file %s", filename);
		return;
	}

	file.Close();

	// Check the packet header
	if (Par2::packet_magic != header.magic ||          // not par2-file
		sizeof(Par2::PACKET_HEADER) > header.length || // packet length is too small
		0 != (header.length & 3) ||              // packet length is not a multiple of 4
		FileSystem::FileSize(filename) < (int)header.length)       // packet would extend beyond the end of the file
	{
		// not par2-file or damaged header, ignoring the file
		return;
	}

	BString<100> setId = header.setid.print().c_str();
	for (char* p = setId; *p; p++) *p = tolower(*p); // convert string to lowercase

	debug("Storing: %s; setid: %s", FileSystem::BaseFileName(filename), *setId);

	m_parInfoList.emplace_back(filename, setId);
}
Esempio n. 8
0
bool RarVolume::DecryptRead(DiskFile& file, void* buffer, int64 size)
{
	while (size > 0)
	{
		if (m_decryptPos >= 16)
		{
			uint8 buf[16];
			if (file.Read(&buf, sizeof(buf)) != sizeof(buf)) return false;
			m_decryptPos = 0;
			if (!DecryptBuf(buf, m_decryptBuf)) return false;
		}

		uint8 remainingBuf = 16 - m_decryptPos;
		uint8 len = size <= remainingBuf ? (uint8)size : remainingBuf;
		memcpy(buffer, m_decryptBuf + m_decryptPos, len);
		m_decryptPos += len;
		size -= len;
		buffer = (char*)buffer + len;
	}

	return true;
}
Esempio n. 9
0
RarVolume::RarBlock RarVolume::ReadRar5Block(DiskFile& file)
{
	RarBlock block {0};
	uint64 buf = 0;

	if (m_encrypted &&
		!(file.Read(m_decryptIV, sizeof(m_decryptIV)) == sizeof(m_decryptIV) &&
		  DecryptInit(256)))
	{
		return {0};
	}

	if (!Read32(file, nullptr, &block.crc)) return {0};

	if (!ReadV(file, nullptr, &buf)) return {0};
	uint32 size = (uint32)buf;
	block.trailsize = size;

	if (!ReadV(file, &block, &buf)) return {0};
	block.type = (uint8)buf;

	if (!ReadV(file, &block, &buf)) return {0};
	block.flags = (uint16)buf;

	block.addsize = 0;
	if ((block.flags & RAR5_BLOCK_EXTRADATA) && !ReadV(file, &block, &block.addsize)) return {0};

	uint64 datasize = 0;
	if ((block.flags & RAR5_BLOCK_DATAAREA) && !ReadV(file, &block, &datasize)) return {0};
	block.trailsize += datasize;

	static int num = 0;
	debug("%i) %llu, %i, %i, %i, %u, %llu", ++num, (long long)block.crc, (int)block.type, (int)block.flags, (int)size, (int)block.addsize, (long long)block.trailsize);

	return block;
}
Esempio n. 10
0
void NntpProcessor::SendSegment()
{
	detail("[%i] Sending segment %s (%i=%lli:%i)", m_id, *m_filename, m_part, (long long)m_offset, m_size);

	if (m_speed > 0)
	{
		m_start = Util::GetCurrentTicks();
	}

	BString<1024> fullFilename("%s/%s", m_dataDir, *m_filename);
	BString<1024> cacheFileDir("%s/%s", m_cacheDir, *m_filename);
	BString<1024> cacheFileName("%i=%lli-%i", m_part, (long long)m_offset, m_size);
	BString<1024> cacheFullFilename("%s/%s", *cacheFileDir, *cacheFileName);
	BString<1024> cacheKey("%s/%s", *m_filename, *cacheFileName);

	const char* cachedData = nullptr;
	int cachedSize;
	if (m_cache)
	{
		m_cache->Find(cacheKey, cachedData, cachedSize);
	}

	DiskFile cacheFile;
	bool readCache = !cachedData && m_cacheDir && cacheFile.Open(cacheFullFilename, DiskFile::omRead);
	bool writeCache = !cachedData && m_cacheDir && !readCache;
	StringBuilder cacheMem;
	if (m_cache && !cachedData)
	{
		cacheMem.Reserve((int)(m_size * 1.1));
	}

	CString errmsg;
	if (writeCache && !FileSystem::ForceDirectories(cacheFileDir, errmsg))
	{
		error("Could not create directory %s: %s", *cacheFileDir, *errmsg);
	}

	if (writeCache && !cacheFile.Open(cacheFullFilename, DiskFile::omWrite))
	{
		error("Could not create file %s: %s", *cacheFullFilename, *FileSystem::GetLastErrorMessage());
	}

	if (!cachedData && !readCache && !FileSystem::FileExists(fullFilename))
	{
		m_connection->WriteLine(CString::FormatStr("430 Article not found\r\n"));
		return;
	}

	YEncoder encoder(fullFilename, m_part, m_offset, m_size, 
		[proc = this, writeCache, &cacheFile, &cacheMem](const char* buf, int size)
		{
			if (proc->m_cache)
			{
				cacheMem.Append(buf);
			}
			if (writeCache)
			{
				cacheFile.Write(buf, size);
			}
			proc->SendData(buf, size);
		});

	if (!cachedData && !readCache && !encoder.OpenFile(errmsg))
	{
		m_connection->WriteLine(CString::FormatStr("403 %s\r\n", *errmsg));
		return;
	}

	m_connection->WriteLine(CString::FormatStr("%i, 0 %s\r\n", m_sendHeaders ? 222 : 220, m_messageid));
	if (m_sendHeaders)
	{
		m_connection->WriteLine(CString::FormatStr("Message-ID: %s\r\n", m_messageid));
		m_connection->WriteLine(CString::FormatStr("Subject: \"%s\"\r\n", FileSystem::BaseFileName(m_filename)));
		m_connection->WriteLine("\r\n");
	}

	if (cachedData)
	{
		SendData(cachedData, cachedSize);
	}
	else if (readCache)
	{
		cacheFile.Seek(0, DiskFile::soEnd);
		int size = (int)cacheFile.Position();
		CharBuffer buf(size);
		cacheFile.Seek(0);
		if (cacheFile.Read((char*)buf, size) != size)
		{
			error("Could not read file %s: %s", *cacheFullFilename, *FileSystem::GetLastErrorMessage());
		}
		if (m_cache)
		{
			cacheMem.Append(buf, size);
		}
		SendData(buf, size);
	}
	else
	{
		encoder.WriteSegment();
	}

	if (!cachedData && cacheMem.Length() > 0)
	{
		m_cache->Append(cacheKey, cacheMem, cacheMem.Length());
	}

	m_connection->WriteLine(".\r\n");
}
bool Par1Repairer::LoadRecoveryFile(string filename) {
	// Skip the file if it has already been processed
	if (diskfilemap.Find(filename) != 0) {
		return true;
	}

	DiskFile *diskfile = new DiskFile;

	// Open the file
	if (!diskfile->Open(filename)) {
		// If we could not open the file, ignore the error and
		// proceed to the next file
		delete diskfile;
		return true;
	}

	if (noiselevel > CommandLine::nlSilent) {
		string path;
		string name;
		DiskFile::SplitFilename(filename, path, name);
		cout << "Loading \"" << name << "\"." << endl;
	}

	parlist.push_back(filename);

	bool havevolume = false;
	u32 volumenumber = 0;

	// How big is the file
	u64 filesize = diskfile->FileSize();
	if (filesize >= sizeof(PAR1FILEHEADER)) {
		// Allocate a buffer to read data into
		size_t buffersize = (size_t)min((u64)1048576, filesize);
		u8 *buffer = new u8[buffersize];

		do {
			PAR1FILEHEADER fileheader;
			if (!diskfile->Read(0, &fileheader, sizeof(fileheader)))
				break;

			// Is this really a PAR file?
			if (fileheader.magic != par1_magic)
				break;

			// Is the version number correct?
			if (fileheader.fileversion != 0x00010000)
				break;

			ignore16kfilehash = (fileheader.programversion == smartpar11);

			// Prepare to carry out MD5 Hash check of the Control Hash
			MD5Context context;
			u64 offset = offsetof(PAR1FILEHEADER, sethash);

			// Process until the end of the file is reached
			while (offset < filesize) {
				// How much data should we read?
				size_t want = (size_t)min((u64)buffersize, filesize-offset);
				if (!diskfile->Read(offset, buffer, want))
					break;

				context.Update(buffer, want);

				offset += want;
			}

			// Did we read the whole file
			if (offset < filesize)
				break;

			// Compute the hash value
			MD5Hash hash;
			context.Final(hash);

			// Is it correct?
			if (hash != fileheader.controlhash)
				break;

			// Check that the volume number is ok
			if (fileheader.volumenumber >= 256)
				break;

			// Are there any files?
			if (fileheader.numberoffiles == 0 ||
					fileheader.filelistoffset < sizeof(PAR1FILEHEADER) ||
					fileheader.filelistsize == 0)
				break;

			// Verify that the file list and data offsets are ok
			if ((fileheader.filelistoffset + fileheader.filelistsize > filesize)
					||
					(fileheader.datasize && (fileheader.dataoffset < sizeof(fileheader) || fileheader.dataoffset + fileheader.datasize > filesize))
					||
					(fileheader.datasize && ((fileheader.filelistoffset <= fileheader.dataoffset && fileheader.dataoffset < fileheader.filelistoffset+fileheader.filelistsize) || (fileheader.dataoffset <= fileheader.filelistoffset && fileheader.filelistoffset < fileheader.dataoffset + fileheader.datasize))))
				break;

			// Check the size of the file list
			if (fileheader.filelistsize > 200000)
				break;

			// If we already have a copy of the file list, make sure this one has the same size
			if (filelist != 0 && filelistsize != fileheader.filelistsize)
				break;

			// Allocate a buffer to hold a copy of the file list
			unsigned char *temp = new unsigned char[(size_t)fileheader.filelistsize];

			// Read the file list into the buffer
			if (!diskfile->Read(fileheader.filelistoffset, temp, (size_t)fileheader.filelistsize)) {
				delete [] temp;
				break;
			}

			// If we already have a copy of the file list, make sure this copy is identical
			if (filelist != 0) {
				bool match = (0 == memcmp(filelist, temp, filelistsize));
				delete [] temp;

				if (!match)
					break;
			} else {
				// Prepare to scan the file list
				unsigned char *current = temp;
				size_t remaining = (size_t)fileheader.filelistsize;
				unsigned int fileindex = 0;

				// Allocate a buffer to copy each file entry into so that
				// all fields will be correctly aligned in memory.
				PAR1FILEENTRY *fileentry = (PAR1FILEENTRY*)new u64[(remaining + sizeof(u64)-1)/sizeof(u64)];

				// Process until we run out of files or data
				while (remaining > 0 && fileindex < fileheader.numberoffiles) {
					// Copy fixed portion of file entry
					memcpy((void*)fileentry, (void*)current, sizeof(PAR1FILEENTRY));

					// Is there enough data remaining
					if (remaining < sizeof(fileentry->entrysize) ||
							remaining < fileentry->entrysize)
						break;

					// Check the length of the filename
					if (fileentry->entrysize <= sizeof(PAR1FILEENTRY))
						break;

					// Check the file size
					if (blocksize < fileentry->filesize)
						blocksize = fileentry->filesize;

					// Copy whole of file entry
					memcpy((void*)fileentry, (void*)current, (size_t)(u64)fileentry->entrysize);

					// Create source file and add it to the appropriate list
					Par1RepairerSourceFile *sourcefile = new Par1RepairerSourceFile(fileentry, searchpath);
					if (fileentry->status & INPARITYVOLUME) {
						sourcefiles.push_back(sourcefile);
					} else {
						extrafiles.push_back(sourcefile);
					}

					remaining -= (size_t)fileentry->entrysize;
					current += (size_t)fileentry->entrysize;

					fileindex++;
				}

				delete [] (u64*)fileentry;

				// Did we find the correct number of files
				if (fileindex < fileheader.numberoffiles) {
					vector<Par1RepairerSourceFile*>::iterator i = sourcefiles.begin();
					while (i != sourcefiles.end()) {
						Par1RepairerSourceFile *sourcefile = *i;
						delete sourcefile;
						++i;
					}
					sourcefiles.clear();

					i = extrafiles.begin();
					while (i != extrafiles.end()) {
						Par1RepairerSourceFile *sourcefile = *i;
						delete sourcefile;
						++i;
					}
					extrafiles.clear();

					delete [] temp;
					break;
				}

				filelist = temp;
				filelistsize = (u32)fileheader.filelistsize;
			}

			// Is this a recovery volume?
			if (fileheader.volumenumber > 0) {
				// Make sure there is data and that it is the correct size
				if (fileheader.dataoffset == 0 || fileheader.datasize != blocksize)
					break;

				// What volume number is this?
				volumenumber = (u32)(fileheader.volumenumber - 1);

				// Do we already have this volume?
				if (recoveryblocks.find(volumenumber) == recoveryblocks.end()) {
					// Create a data block
					DataBlock *datablock = new DataBlock;
					datablock->SetLength(blocksize);
					datablock->SetLocation(diskfile, fileheader.dataoffset);

					// Store it in the map
					recoveryblocks.insert(pair<u32, DataBlock*>(volumenumber, datablock));

					havevolume = true;
				}
			}
		} while (false);

		delete [] buffer;
	}

	// We have finished with the file for now
	diskfile->Close();

	if (noiselevel > CommandLine::nlQuiet) {
		if (havevolume) {
			cout << "Loaded recovery volume " << volumenumber << endl;
		} else {
			cout << "No new recovery volumes found" << endl;
		}
	}

	// Remember that the file was processed
	bool success = diskfilemap.Insert(diskfile);
	assert(success);

	return true;
}
Esempio n. 12
0
void ArticleWriter::CompleteFileParts()
{
	debug("Completing file parts");
	debug("ArticleFilename: %s", m_fileInfo->GetFilename());

	bool directWrite = (g_Options->GetDirectWrite() || m_fileInfo->GetForceDirectWrite()) && m_fileInfo->GetOutputInitialized();

	BString<1024> nzbName;
	BString<1024> nzbDestDir;
	BString<1024> filename;

	{
		GuardedDownloadQueue guard = DownloadQueue::Guard();
		nzbName = m_fileInfo->GetNzbInfo()->GetName();
		nzbDestDir = m_fileInfo->GetNzbInfo()->GetDestDir();
		filename = m_fileInfo->GetFilename();
	}

	BString<1024> infoFilename("%s%c%s", *nzbName, PATH_SEPARATOR, *filename);

	bool cached = m_fileInfo->GetCachedArticles() > 0;

	if (g_Options->GetRawArticle())
	{
		detail("Moving articles for %s", *infoFilename);
	}
	else if (directWrite && cached)
	{
		detail("Writing articles for %s", *infoFilename);
	}
	else if (directWrite)
	{
		detail("Checking articles for %s", *infoFilename);
	}
	else
	{
		detail("Joining articles for %s", *infoFilename);
	}

	// Ensure the DstDir is created
	CString errmsg;
	if (!FileSystem::ForceDirectories(nzbDestDir, errmsg))
	{
		m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
			"Could not create directory %s: %s", *nzbDestDir, *errmsg);
		return;
	}

	CString ofn;
	if (m_fileInfo->GetForceDirectWrite())
	{
		ofn.Format("%s%c%s", *nzbDestDir, PATH_SEPARATOR, *filename);
	}
	else
	{
		ofn = FileSystem::MakeUniqueFilename(nzbDestDir, *filename);
	}

	DiskFile outfile;
	BString<1024> tmpdestfile("%s.tmp", *ofn);

	if (!g_Options->GetRawArticle() && !directWrite)
	{
		FileSystem::DeleteFile(tmpdestfile);
		if (!outfile.Open(tmpdestfile, DiskFile::omWrite))
		{
			m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
				"Could not create file %s: %s", *tmpdestfile, *FileSystem::GetLastErrorMessage());
			return;
		}
	}
	else if (directWrite && cached)
	{
		if (!outfile.Open(m_outputFilename, DiskFile::omReadWrite))
		{
			m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
				"Could not open file %s: %s", *m_outputFilename, *FileSystem::GetLastErrorMessage());
			return;
		}
		tmpdestfile = *m_outputFilename;
	}
	else if (g_Options->GetRawArticle())
	{
		FileSystem::DeleteFile(tmpdestfile);
		if (!FileSystem::CreateDirectory(ofn))
		{
			m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
				"Could not create directory %s: %s", *ofn, *FileSystem::GetLastErrorMessage());
			return;
		}
	}

	if (outfile.Active())
	{
		SetWriteBuffer(outfile, 0);
	}

	uint32 crc = 0;

	{
		std::unique_ptr<ArticleCache::FlushGuard> flushGuard;
		if (cached)
		{
			flushGuard = std::make_unique<ArticleCache::FlushGuard>(g_ArticleCache->GuardFlush());
		}

		CharBuffer buffer;
		bool firstArticle = true;

		if (!g_Options->GetRawArticle() && !directWrite)
		{
			buffer.Reserve(1024 * 64);
		}

		for (ArticleInfo* pa : m_fileInfo->GetArticles())
		{
			if (pa->GetStatus() != ArticleInfo::aiFinished)
			{
				continue;
			}

			if (!g_Options->GetRawArticle() && !directWrite && pa->GetSegmentOffset() > -1 &&
				pa->GetSegmentOffset() > outfile.Position() && outfile.Position() > -1)
			{
				memset(buffer, 0, buffer.Size());
				if (!g_Options->GetSkipWrite())
				{
					while (pa->GetSegmentOffset() > outfile.Position() && outfile.Position() > -1 &&
						outfile.Write(buffer, std::min((int)(pa->GetSegmentOffset() - outfile.Position()), buffer.Size())));
				}
			}

			if (pa->GetSegmentContent())
			{
				if (!g_Options->GetSkipWrite())
				{
					outfile.Seek(pa->GetSegmentOffset());
					outfile.Write(pa->GetSegmentContent(), pa->GetSegmentSize());
				}
				pa->DiscardSegment();
			}
			else if (!g_Options->GetRawArticle() && !directWrite && !g_Options->GetSkipWrite())
			{
				DiskFile infile;
				if (pa->GetResultFilename() && infile.Open(pa->GetResultFilename(), DiskFile::omRead))
				{
					int cnt = buffer.Size();
					while (cnt == buffer.Size())
					{
						cnt = (int)infile.Read(buffer, buffer.Size());
						outfile.Write(buffer, cnt);
					}
					infile.Close();
				}
				else
				{
					m_fileInfo->SetFailedArticles(m_fileInfo->GetFailedArticles() + 1);
					m_fileInfo->SetSuccessArticles(m_fileInfo->GetSuccessArticles() - 1);
					m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
						"Could not find file %s for %s [%i/%i]",
						pa->GetResultFilename(), *infoFilename, pa->GetPartNumber(),
						(int)m_fileInfo->GetArticles()->size());
				}
			}
			else if (g_Options->GetRawArticle())
			{
				BString<1024> dstFileName("%s%c%03i", *ofn, PATH_SEPARATOR, pa->GetPartNumber());
				if (!FileSystem::MoveFile(pa->GetResultFilename(), dstFileName))
				{
					m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
						"Could not move file %s to %s: %s", pa->GetResultFilename(),
						*dstFileName, *FileSystem::GetLastErrorMessage());
				}
			}

			if (m_format == Decoder::efYenc)
			{
				crc = firstArticle ? pa->GetCrc() : Crc32::Combine(crc, pa->GetCrc(), pa->GetSegmentSize());
				firstArticle = false;
			}
		}

		buffer.Clear();
	}

	if (outfile.Active())
	{
		outfile.Close();
		if (!directWrite && !FileSystem::MoveFile(tmpdestfile, ofn))
		{
			m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
				"Could not move file %s to %s: %s", *tmpdestfile, *ofn,
				*FileSystem::GetLastErrorMessage());
		}
	}

	if (directWrite)
	{
		if (!FileSystem::SameFilename(m_outputFilename, ofn) &&
			!FileSystem::MoveFile(m_outputFilename, ofn))
		{
			m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
				"Could not move file %s to %s: %s", *m_outputFilename, *ofn,
				*FileSystem::GetLastErrorMessage());
		}

		// if destination directory was changed delete the old directory (if empty)
		int len = strlen(nzbDestDir);
		if (!(!strncmp(nzbDestDir, m_outputFilename, len) &&
			(m_outputFilename[len] == PATH_SEPARATOR || m_outputFilename[len] == ALT_PATH_SEPARATOR)))
		{
			debug("Checking old dir for: %s", *m_outputFilename);
			BString<1024> oldDestDir;
			oldDestDir.Set(m_outputFilename, (int)(FileSystem::BaseFileName(m_outputFilename) - m_outputFilename));
			if (FileSystem::DirEmpty(oldDestDir))
			{
				debug("Deleting old dir: %s", *oldDestDir);
				FileSystem::RemoveDirectory(oldDestDir);
			}
		}
	}

	if (!directWrite)
	{
		for (ArticleInfo* pa : m_fileInfo->GetArticles())
		{
			if (pa->GetResultFilename())
			{
				FileSystem::DeleteFile(pa->GetResultFilename());
			}
		}
	}

	if (m_fileInfo->GetTotalArticles() == m_fileInfo->GetSuccessArticles())
	{
		m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkInfo, "Successfully downloaded %s", *infoFilename);
	}
	else if (m_fileInfo->GetMissedArticles() + m_fileInfo->GetFailedArticles() > 0)
	{
		m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkWarning,
			"%i of %i article downloads failed for \"%s\"",
			m_fileInfo->GetMissedArticles() + m_fileInfo->GetFailedArticles(),
			m_fileInfo->GetTotalArticles(), *infoFilename);
	}
	else
	{
		m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkInfo, "Partially downloaded %s", *infoFilename);
	}

	{
		GuardedDownloadQueue guard = DownloadQueue::Guard();

		m_fileInfo->SetCrc(crc);
		m_fileInfo->SetOutputFilename(ofn);

		if (strcmp(m_fileInfo->GetFilename(), filename))
		{
			// file was renamed during completion, need to move the file
			ofn = FileSystem::MakeUniqueFilename(nzbDestDir, m_fileInfo->GetFilename());
			if (!FileSystem::MoveFile(m_fileInfo->GetOutputFilename(), ofn))
			{
				m_fileInfo->GetNzbInfo()->PrintMessage(Message::mkError,
					"Could not rename file %s to %s: %s", m_fileInfo->GetOutputFilename(),
					*ofn, *FileSystem::GetLastErrorMessage());
			}
			m_fileInfo->SetOutputFilename(ofn);
		}

		if (strcmp(m_fileInfo->GetNzbInfo()->GetDestDir(), nzbDestDir))
		{
			// destination directory was changed during completion, need to move the file
			MoveCompletedFiles(m_fileInfo->GetNzbInfo(), nzbDestDir);
		}
	}
}