Example #1
0
void HGTController::decompressDiff(uint64 size, UTIL::FS::FileHandle &fhSrc, UTIL::FS::FileHandle &fhDest)
{
	uint64 done = 0;

	uint32 buffSize = 10*1024;
	char buff[10*1024] = {0};

	UTIL::MISC::BZ2Worker worker(UTIL::MISC::BZ2_DECOMPRESS);

	fhSrc.read(done, [&worker, &fhDest](const unsigned char* buff, uint32 size) -> bool
	{
		UTIL::FS::FileHandle* pFile = &fhDest;

		worker.write((const char*)buff, size, [pFile](const unsigned char* tbuff, uint32 tsize) -> bool
		{
			pFile->write((const char*)tbuff, tsize);
			return false;
		});

		return false;
	});

	worker.end([&fhDest](const unsigned char* tbuff, uint32 tsize) -> bool
	{
		fhDest.write((const char*)tbuff, tsize);
		return false;
	});
}
Example #2
0
bool SMTController::makeThreads()
{
	for (uint32 x=0; x<m_uiNumber; x++)
	{
		gcString file("{0}", m_szFile);

		UTIL::FS::FileHandle* fh = new UTIL::FS::FileHandle();

		if (x != 0)
			file += gcString(".part_{0}", x);

		try
		{
			fh->open(file.c_str(), UTIL::FS::FILE_WRITE);

			//due to the first thread being the proper MCF we have to allow for the header.
			if (x == 0)
				fh->seek(MCFCore::MCFHeader::getSizeS());
		}
		catch (gcException &except)
		{
			safe_delete(fh);
			onErrorEvent(except);
			return false;
		}

		SMTWorkerInfo* temp = new SMTWorkerInfo(this, x, fh, file.c_str());
		m_vWorkerList.push_back(temp);
		temp->workThread->start();

		m_iRunningWorkers++;
	}

	return true;
}
Example #3
0
bool MCF::fixMD5AndCRC()
{
	gcString empty("d41d8cd98f00b204e9800998ecf8427e");
	bool fixed = false;

	UTIL::FS::FileHandle handle;
	getReadHandle(handle);

	for (size_t x=0; x<m_pFileList.size(); x++)
	{
		if (m_pFileList[x]->isSaved() == false)
			continue;

		if (m_pFileList[x]->isCompressed() && empty == m_pFileList[x]->getCCsum())
		{
			fixed = true;
			m_pFileList[x]->generateMD5(handle);
		}

		fixed = true;
		m_pFileList[x]->generateCRC(handle);
	}	

	handle.close();

	if (fixed)
	{
		saveMCF_Header();
		return true;
	}

	return false;
}
Example #4
0
void MCF::parseMCF()
{
	gcTrace("");

	if (m_bStopped)
		return;

	UTIL::FS::FileHandle hFile;
	getReadHandle(hFile);

	m_pFileList.clear();

	MCFCore::MCFHeader tempHeader;
	tempHeader.readFromFile(hFile);
	setHeader(&tempHeader);

	hFile.seek(tempHeader.getXmlStart());

	uint32 xmlBuffLen = tempHeader.getXmlSize()+1;
	UTIL::MISC::Buffer xmlBuff(xmlBuffLen, true);

	hFile.read(xmlBuff, tempHeader.getXmlSize());


	if (getHeader()->getFlags() & MCFCore::MCFHeaderI::FLAG_NOTCOMPRESSED)
	{
		parseXml(xmlBuff, xmlBuffLen);
	}
	else
	{
		UTIL::MISC::BZ2Worker worker(UTIL::MISC::BZ2_DECOMPRESS);

		worker.write(xmlBuff, xmlBuffLen, true);
		worker.doWork();

		if (worker.getLastStatus() != BZ_STREAM_END)
			throw gcException(ERR_BZ2, worker.getLastStatus(), "Failed to decompress mcf header xml");

		size_t bz2BuffLen = worker.getReadSize();

		if (bz2BuffLen == 0)
			throw gcException(ERR_BZ2, worker.getLastStatus(), "Failed to decompress mcf header xml (zero size)");

		UTIL::MISC::Buffer bz2Buff(bz2BuffLen);

		worker.read(bz2Buff, bz2BuffLen);
		parseXml(bz2Buff, bz2BuffLen);
	}
}
Example #5
0
void MCF::makeCRC()
{
	printf("Making crc's\n");

	UTIL::FS::FileHandle hFile;
	getReadHandle(hFile);

	for (size_t x=0; x<m_pFileList.size(); x++)
	{
		if (!m_pFileList[x] || !m_pFileList[x]->isSaved())
			continue;

		m_pFileList[x]->generateCRC(hFile);
	}

	hFile.close();

	saveMCF_Header();
}
Example #6
0
int32 FileSystemJSBinding::OpenFileForWrite(gcString file)
{
	UTIL::FS::Path path = UTIL::FS::PathWithFile(file);
	UTIL::FS::recMakeFolder(path);

	UTIL::FS::FileHandle* handle = new UTIL::FS::FileHandle();

	try
	{
		handle->open(path, UTIL::FS::FILE_WRITE);
		m_vFileHandles.push_back(handle);
		return m_vFileHandles.size() - 1;
	}
	catch (gcException &e)
	{
		safe_delete(handle);
		Warning("Failed to to open file in scriptcore: {0}\n", e);
	}

	return 0;
}
Example #7
0
void SMTController::postProcessing()
{
	if (m_uiNumber == 1)
		return;

	UTIL::FS::FileHandle fhSource;
	UTIL::FS::FileHandle fhSink;

	UTIL::FS::Path path(m_szFile, "", true);

	uint64 sinkSize = UTIL::FS::getFileSize(path);

	try
	{
		fhSink.open(path, UTIL::FS::FILE_APPEND);
	}
	catch (gcException &)
	{
		return;
	}

	char buff[BLOCKSIZE];

	for (size_t x=1; x<m_vWorkerList.size(); x++)
	{
		SMTWorkerInfo *worker = m_vWorkerList[x];

		uint64 fileSize = UTIL::FS::getFileSize(UTIL::FS::PathWithFile(worker->file));
		uint64 done = 0;

		uint32 readSize = BLOCKSIZE;

		try
		{
			fhSource.open(worker->file.c_str(), UTIL::FS::FILE_READ);
			while (fileSize > done)
			{
				if ((fileSize-done) < (uint64)readSize)
					readSize = (uint32)(fileSize-done);

				fhSource.read(buff, readSize);
				fhSink.write(buff, readSize);

				done += readSize;
			}
			fhSource.close();
		}
		catch (gcException &)
		{
		}

		for (size_t y=0; y<worker->vFileList.size(); y++)
		{
			uint32 index = worker->vFileList[y];
			MCFCore::MCFFile *temp = m_rvFileList[index];

			if (!temp)
				continue;

			temp->setOffSet( temp->getOffSet() + sinkSize );
		}

		sinkSize += fileSize;
		UTIL::FS::delFile(UTIL::FS::PathWithFile(worker->file));
	}

	if (m_bCreateDiff == false)
		return;
}
Example #8
0
void MCF::getWriteHandle(UTIL::FS::FileHandle& handle)
{
	assert(m_uiFileOffset == 0);
	handle.open(m_szFile.c_str(), UTIL::FS::FILE_WRITE, m_uiFileOffset);
}
Example #9
0
void MCF::getReadHandle(UTIL::FS::FileHandle& handle)
{
	handle.open(m_szFile.c_str(), UTIL::FS::FILE_READ, m_uiFileOffset);
}
Example #10
0
int32 MCF::verifyAll(const char* tempPath)
{
	if (!tempPath)
	{
		printf("Temp path is null.\n");
		return 3;
	}

	if (!m_sHeader->isValid())
	{
		printf("Mcf header is invalid.\n");
		return 1;
	}

	uint32 count = 0;
	for (size_t x=0; x<m_pFileList.size(); x++)
	{
		if (!m_pFileList[x]->isSaved())
			continue;

		count++;
	}

	if (count == 0)
	{
		printf("No files in the mcf are saved.\n");
		return 2;
	}

	UTIL::FS::FileHandle fh(getFile(), UTIL::FS::FILE_READ);

	uint32 badCount = 0;
	bool placeholder = false;

	for (size_t x=0; x<m_pFileList.size(); x++)
	{
		if (!m_pFileList[x]->isSaved())
			continue;

		try
		{
			m_pFileList[x]->verifyMcf(fh, placeholder);
		}
		catch (gcException &e)
		{
			printf("%s", gcString("{0}: Failed to verify Mcf with file: {1}\n", m_pFileList[x]->getName(), e).c_str());
			badCount++;
			continue;
		}

		if (!m_pFileList[x]->isComplete())
		{
			printf("%s", gcString("{0}: Failed mcf verify\n", m_pFileList[x]->getName()).c_str());
			badCount++;
			continue;
		}

		gcString t("{0}{1}{2}", tempPath?tempPath:".", DIRS_STR, m_pFileList[x]->getFullPath());
		UTIL::FS::Path path(t, "", true);
		UTIL::FS::recMakeFolder(path);

		UTIL::MISC::Buffer buff(10*1024);

		try
		{
			UTIL::FS::FileHandle file(path, UTIL::FS::FILE_WRITE);
			fh.seek(m_pFileList[x]->getOffSet());
#ifdef WIN32
			size_t size = 0;
#endif
			if (m_pFileList[x]->isCompressed())
			{
				uint64 done = m_pFileList[x]->getCSize();
				UTIL::MISC::BZ2Worker bz(UTIL::MISC::BZ2_DECOMPRESS);

				fh.read(done, [&bz, &file](const unsigned char* buff, uint32 size) -> bool
				{
					UTIL::FS::FileHandle* pFile = &file;

					bz.write((const char*)buff, size, [pFile](const unsigned char* tbuff, uint32 tsize) -> bool
					{
						pFile->write((const char*)tbuff, tsize);
						return false;
					});

					return false;
				});

				bz.end([&file](const unsigned char* tbuff, uint32 tsize) -> bool
				{
					file.write((const char*)tbuff, tsize);
					return false;
				});
			}
			else
			{
				uint64 done = m_pFileList[x]->getSize();

				fh.read(done, [&file](const unsigned char* buff, uint32 size) -> bool
				{
					file.write((const char*)buff, size);
					return false;
				});
			}
		}
		catch (gcException &e)
		{
			printf("%s", gcString("{0}: Failed to save file: {1}\n", m_pFileList[x]->getName(), e).c_str());
			badCount++;

			UTIL::FS::delFile(path);
			continue;
		}

		m_pFileList[x]->setDir(tempPath);
		m_pFileList[x]->verifyFile();
		m_pFileList[x]->setDir("");

		if (!m_pFileList[x]->isComplete())
		{
			printf("%s", gcString("{0}: Failed file verify\n", m_pFileList[x]->getName()).c_str());
			badCount++;
		}

		UTIL::FS::delFile(path);
	}

	UTIL::FS::delEmptyFolders(tempPath);

	return (int32)badCount*-1;
}
Example #11
0
bool UploadDump(const char* file, const char* user, int build, int branch, DelegateI<Prog_s&>* progress, const char* szTracer)
{
	if (build == 0)
		build = 9999;

	if (branch == 0)
		branch = BUILDID_PUBLIC;

	g_Logger.write("---------------------------------------\r\n");

	time_t ltime; /* calendar time */
	ltime=time(nullptr); /* get current cal time */

	
#if defined(WIN32) && !defined(__MINGW32__)
	char buff[255] = {0};

	struct tm t;
	localtime_s(&t, &ltime);
	asctime_s(buff, 255, &t);
#else
	struct tm *t = localtime(&ltime);
	char* buff = asctime(t);
#endif

	g_Logger.write("%s\r\n", buff);
	g_Logger.write("---------------------------------------\r\n");

	g_Logger.write("Uploaded crash dump: [%s]\r\n", file);


	gcString dump(file);
	gcString tracer(szTracer);
	gcString log(dump + ".log");

	if (PrepDumpForUpload(dump) == false)
	{
		g_Logger.write("Failed to prepare crash dump.\r\n");
		return false;
	}
	else
	{
		g_Logger.write("Prepared crash dump to: [%s]\r\n", dump.c_str());
	}

	if (!tracer.empty())
	{
		try
		{
			auto valid = false;
			UTIL::FS::FileHandle fh;

			std::function<void(const char*, uint32)> write = [&fh, &valid, log](const char* szData, uint32 nSize)
			{
				if (!valid)
					fh.open(log.c_str(), UTIL::FS::FILE_WRITE);

				valid = true;
				fh.write(szData, nSize);
			};

			DumpTracerToFile(tracer, write);

			if (!valid)
				log = "";
		}
		catch (...)
		{
			log = "";
		}

		if (!log.empty())
			PrepDumpForUpload(log);

#ifdef WIN32
		//Let desura exit now.
		gcString tracerEventName("Global\\{0}Event", tracer);

		auto hHandle = OpenEvent(EVENT_MODIFY_STATE, FALSE, tracerEventName.c_str());

		if (hHandle)
		{
			SetEvent(hHandle);
			CloseHandle(hHandle);
		}
#endif
	}

	std::string os = UTIL::OS::getOSString();

	HttpHandle hh(DUMP_UPLOAD_URL);

	if (progress)
		hh->getProgressEvent() += progress;

	hh->setUserAgent(DUMP_UPLOAD_AGENT);

	hh->cleanUp();
	hh->addPostText("os", os.c_str());
	hh->addPostText("build", build);
	hh->addPostText("appid", branch);

	if (user)
		hh->addPostText("user", user);

	hh->addPostFile("crashfile", dump.c_str());

	if (!log.empty())
		hh->addPostFile("crashlog", log.c_str());

	try
	{
		hh->postWeb();
	}
	catch (gcException &except)
	{
		g_Logger.write("Failed to upload crash: %s [%d.%d].\r\n", except.getErrMsg(), except.getErrId(), except.getSecErrId());
		return false;
	}

	XML::gcXMLDocument doc(const_cast<char*>(hh->getData()), hh->getDataSize());

	try
	{
		doc.ProcessStatus("crashupload");
		g_Logger.write("Uploaded dump\r\n");
		UTIL::FS::delFile(UTIL::FS::Path(dump, "", true));		
	}
	catch (gcException &)
	{
		g_Logger.write("Bad status returned from upload crash dump.\r\n");

		gcString res;
		res.assign(hh->getData(), hh->getDataSize());

		g_Logger.write("Result: \r\n\r\n%s\r\n\r\n", res.c_str());
		return false;	
	}

	return true;
}
gcException IPCToolMain::installTool(gcRefPtr<UserCore::ToolInfo> info)
{
	gcString exe(info->getExe());
	gcString args(info->getArgs());

	if (!UTIL::FS::isValidFile(exe.c_str()))
		return gcException(ERR_INVALIDFILE);

	if (exe.size() > 0 && args == "GAME_LIBRARY")
	{
		size_t pos = exe.find_last_of(".bz2");

		if (pos == (exe.size()-1))
		{
			UTIL::FS::Path pd(exe.c_str(), "", true);
			pd += UTIL::FS::File(info->getName());

			gcString dest = pd.getFullPath();
			uint64 size = UTIL::FS::getFileSize(exe.c_str());

			try
			{
				UTIL::FS::FileHandle srcFh(exe.c_str(), UTIL::FS::FILE_READ);
				UTIL::FS::FileHandle destFh(dest.c_str(), UTIL::FS::FILE_WRITE);

				UTIL::MISC::BZ2Worker bz2(UTIL::MISC::BZ2_DECOMPRESS);

				srcFh.read(size, [&bz2, &destFh](const unsigned char* buff, uint32 size) -> bool
				{
					UTIL::FS::FileHandle *pDest = &destFh;

					bz2.write((const char*)buff, size, [&pDest](const unsigned char* buff, uint32 size) -> bool
					{
						pDest->write((const char*)buff, size);
						return false;
					});

					return false;
				});
			}
			catch (gcException &e)
			{
				return e;
			}

			info->overridePath(dest.c_str());
			UTIL::FS::delFile(exe.c_str());	
		}
		else
		{
			info->overridePath(exe.c_str());
		}
	}
	else if (args.find("PRECHECK_") == 0)
	{
		info->setInstalled();
	}
	else
	{
		return gcException(ERR_TOOLINSTALL, gcString("Un-supported tool install [{0}]", info->getName()));
	}

	return gcException(ERR_COMPLETED);
}