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Too many arguments error


TheRiniii
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Question

Hello! 

Ineed little help... Anyone know's?

Build error:

1>------ Build started: Project: EterPack, Configuration: Debug Win32 ------
1>  EterPack.cpp
1>..\..\source\EterPack\EterPack.cpp(348): error C2660: 'CLZO::CompressEncryptedMemory' : function does not take 5 arguments
1>..\..\source\EterPack\EterPack.cpp(430): error C2660: 'CLZO::Decompress' : function does not take 4 arguments
1>..\..\source\EterPack\EterPack.cpp(575): error C2660: 'CLZO::Decompress' : function does not take 4 arguments
1>..\..\source\EterPack\EterPack.cpp(688): error C2660: 'CLZO::Decompress' : function does not take 4 arguments
1>..\..\source\EterPack\EterPack.cpp(802): error C2660: 'CLZO::Decompress' : function does not take 4 arguments
1>..\..\source\EterPack\EterPack.cpp(975): error C2660: 'CLZO::CompressEncryptedMemory' : function does not take 5 arguments
========== Build: 0 succeeded, 1 failed, 0 up-to-date, 0 skipped ==========

EterPack.cpp:

Spoiler
#include "StdAfx.h"

#include <windows.h>
#include <mmsystem.h>
#include <io.h>
#include <assert.h>

#include "EterPack.h"
#include "Inline.h"
#include "EterPackPolicy_CSHybridCrypt.h"

#pragma warning(push, 3)
#include <cryptopp/cryptlib.h>
#include <cryptopp/filters.h>
#include <cryptopp/modes.h>
#include <cryptopp/tiger.h>
#include <cryptopp/sha.h>
#include <cryptopp/ripemd.h>
#include <cryptopp/whrlpool.h>
#include <cryptopp/panama.h>

#include <cryptopp/cryptoppLibLink.h>
#pragma warning(pop)

#include "../EterBase/utils.h"
#include "../EterBase/Debug.h"
#include "../EterBase/CRC32.h"

#ifdef __THEMIDA__
#include <ThemidaSDK.h>
#endif

#include <iostream>
#include <fstream>

#define OUT_EXT ".rpm"
#define TWOCC 0x5B0C
#define OFFSET_KEY 0xd34dc0d3

void CMakePackLog::SetFileName(const char* c_szFileName)
{
	m_stFileName = c_szFileName;
	m_stFileName += ".log";
	m_stErrorFileName = c_szFileName;
	m_stErrorFileName += ".err";
}

CMakePackLog& CMakePackLog::GetSingleton()
{
	static CMakePackLog s_kMakePackLog;
	return s_kMakePackLog;
}

CMakePackLog::CMakePackLog()
{
	m_fp = NULL;
	m_fp_err = NULL;
}

CMakePackLog::~CMakePackLog()
{
	if (NULL != m_fp)
	{
		fclose(m_fp);
		m_fp = NULL;
	}
	if (NULL != m_fp_err)
	{
		fclose(m_fp_err);
		m_fp_err = NULL;
	}
}

bool CMakePackLog::__IsLogMode()
{
	if (m_stFileName.empty())
		return false;

	return true;
}

void CMakePackLog::Writef(const char* c_szFormat, ...)
{
	if (!__IsLogMode())
		return;

	va_list args;
	va_start(args, c_szFormat);

	char szBuf[1024];
	int nBufLen = _vsnprintf(szBuf, sizeof(szBuf), c_szFormat, args);
	szBuf[nBufLen++] = '\0';
	__Write(szBuf, nBufLen);
}

void CMakePackLog::Writenf(const char* c_szFormat, ...)
{
	if (!__IsLogMode())
		return;

	va_list args;
	va_start(args, c_szFormat);

	char szBuf[1024 + 1];
	int nBufLen = _vsnprintf(szBuf, sizeof(szBuf)-1, c_szFormat, args);
	if (nBufLen > 0)
	{
		szBuf[nBufLen++] = '\n';
		szBuf[nBufLen++] = '\0';
	}
	__Write(szBuf, nBufLen);
}

void CMakePackLog::Write(const char* c_szBuf)
{
	if (!__IsLogMode())
		return;

	__Write(c_szBuf, strlen(c_szBuf) + 1);
}

void CMakePackLog::__Write(const char* c_szBuf, int nBufLen)
{
	if (!__IsLogMode())
		return;

	if (NULL == m_fp)
		m_fp = fopen(m_stFileName.c_str(), "w");

	fwrite(c_szBuf, nBufLen, 1, m_fp);

	printf("%s", c_szBuf);
}



void CMakePackLog::WriteErrorf(const char* c_szFormat, ...)
{
	if (!__IsLogMode())
		return;

	va_list args;
	va_start(args, c_szFormat);

	char szBuf[1024];
	int nBufLen = _vsnprintf(szBuf, sizeof(szBuf), c_szFormat, args);
	szBuf[nBufLen++] = '\0';
	__WriteError(szBuf, nBufLen);
}

void CMakePackLog::WriteErrornf(const char* c_szFormat, ...)
{
	if (!__IsLogMode())
		return;

	va_list args;
	va_start(args, c_szFormat);

	char szBuf[1024 + 1];
	int nBufLen = _vsnprintf(szBuf, sizeof(szBuf)-1, c_szFormat, args);
	if (nBufLen > 0)
	{
		szBuf[nBufLen++] = '\n';
		szBuf[nBufLen++] = '\0';
	}
	__WriteError(szBuf, nBufLen);
}

void CMakePackLog::WriteError(const char* c_szBuf)
{
	if (!__IsLogMode())
		return;

	__WriteError(c_szBuf, strlen(c_szBuf) + 1);
}

void CMakePackLog::__WriteError(const char* c_szBuf, int nBufLen)
{
	if (!__IsLogMode())
		return;

	if (NULL == m_fp_err)
		m_fp_err = fopen(m_stErrorFileName.c_str(), "w");

	fwrite(c_szBuf, nBufLen, 1, m_fp_err);

	printf("Error: %s", c_szBuf);
}

void CMakePackLog::FlushError()
{
	std::wifstream iFile(m_stErrorFileName.c_str());
	std::istream_iterator <std::wstring, wchar_t> iit(iFile);
	std::istream_iterator <std::wstring, wchar_t> eos;

	std::vector <std::wstring> vText;

	std::copy(iit, eos, std::back_inserter(vText));

	std::ostream_iterator <std::wstring, wchar_t, std::char_traits <wchar_t> > oit(std::wcout);

	std::sort(vText.begin(), vText.end());
	std::copy(vText.begin(), vText.end(), oit);
}
#ifdef __MAKE_PACK__
FILE * CEterPack::ms_PackLogFile = NULL;
#endif
///////////////////////////////////////////////////////////////////////////////
CEterPack::CEterPack() : m_indexCount(0), m_indexData(NULL), m_FragmentSize(0), m_bEncrypted(false), m_bReadOnly(false), m_bDecrypedIV(false)
{
	m_pCSHybridCryptPolicy = new EterPackPolicy_CSHybridCrypt;

}

CEterPack::~CEterPack()
{
	Destroy();

	delete m_pCSHybridCryptPolicy;
	m_pCSHybridCryptPolicy = NULL;
}

void CEterPack::Destroy()
{
	m_bReadOnly = false;
	m_bEncrypted = false;
	m_indexCount = 0;
	m_DataPositionMap.clear();

	for (int i = 0; i < FREE_INDEX_MAX_SIZE + 1; ++i)
		m_FreeIndexList[i].clear();

	SAFE_DELETE_ARRAY(m_indexData);

	m_FragmentSize = 0;

	memset(m_dbName, 0, sizeof(m_dbName));
	memset(m_indexFileName, 0, sizeof(m_indexFileName));
}

const std::string& CEterPack::GetPathName()
{
	return m_stPathName;
}

bool CEterPack::Create(CEterFileDict& rkFileDict, const char * dbname, const char* pathName, bool bReadOnly, const BYTE* iv)
{
	if (iv)
	{
		m_stIV_Panama.assign((const char*)iv, 32);
		m_bDecrypedIV = false;
	}

	m_stPathName = pathName;

	strncpy(m_dbName, dbname, DBNAME_MAX_LEN);

	strncpy(m_indexFileName, dbname, MAX_PATH);
	strcat(m_indexFileName, OUT_EXT);

	m_stDataFileName = dbname;
	m_stDataFileName += OUT_EXT;

	m_bReadOnly = bReadOnly;

	// bReadOnly ¸ðµå°¡ ¾Æ´Ï°í µ¥ÀÌÅÍ º£À̽º°¡ ¿­¸°´Ù¸é »ý¼º ½ÇÆÐ
	if (!CreateIndexFile())
		return false;

	if (!CreateDataFile())
		return false;

	bool bOverwrite = (iv != NULL);
	__BuildIndex(rkFileDict, bOverwrite);

	if (m_bReadOnly)
	{
		//m_bIsDataLoaded = true;		
		//if (!m_file.Create(m_stDataFileName.c_str(), (const void**)&m_file_data, 0, 0))
		//	return false;
	}
	else
	{
		DecryptIndexFile();
	}

	return true;
}

bool CEterPack::DecryptIV(DWORD dwPanamaKey)
{
	if (m_stIV_Panama.length() != 32)
		return false;

	if (m_bDecrypedIV) // ÀÌ¹Ì ¾Ïȣȭ°¡ Ç®·ÈÀ¸¸é ´Ù½Ã ó¸® ¾ÈÇÔ
		return true;

	DWORD* ivs = (DWORD*)&m_stIV_Panama[0];
	for (int i = 0; i != m_stIV_Panama.length() / sizeof(DWORD); ++i)
	{
		ivs[i] ^= dwPanamaKey + i * 16777619;
	}

	m_bDecrypedIV = true;
	return true;
}

bool CEterPack::DecryptIndexFile()
{
	if (!m_bEncrypted)
		return true;

	CFileBase file;

	if (!file.Create(m_indexFileName, CFileBase::FILEMODE_WRITE))
		return false;

	file.Write(&eterpack::c_IndexCC, sizeof(DWORD));
	file.Write(&eterpack::c_Version, sizeof(DWORD));
	file.Write(&m_indexCount, sizeof(long));
	file.Write(m_indexData, sizeof(TEterPackIndex)* m_indexCount);

	file.Close();

	m_bEncrypted = false;
	return true;
}

static DWORD s_adwEterPackKey[] = { 0, 0, 0, 0 };
static DWORD s_adwEterPackSecurityKey[] = { 0, 0, 0, 0 };

bool CEterPack::EncryptIndexFile()
{
	CMappedFile file;
	LPCVOID pvData;

	if (NULL == file.Create(m_indexFileName, &pvData, 0, 0))
	{
		TraceError("EncryptIndex: Cannot open pack index file! %s", m_dbName);
		return false;
	}

	BYTE * pbData = new BYTE[file.Size()];
	memcpy(pbData, pvData, file.Size());

	CLZObject zObj;

	if (!CLZO::Instance().CompressEncryptedMemory(zObj, pbData, file.Size(), 1, s_adwEterPackKey))
	{
		TraceError("EncryptIndex: Cannot encrypt! %s", m_dbName);
		SAFE_DELETE_ARRAY(pbData);
		return false;
	}

	file.Destroy();

	while (!DeleteFile(m_indexFileName));

	FILE * fp;

	fp = fopen(m_indexFileName, "wb");

	if (!fp)
	{
		TraceError("EncryptIndex: Cannot open file for writing! %s", m_dbName);
		SAFE_DELETE_ARRAY(pbData);
		return false;
	}

	if (1 != fwrite(zObj.GetBuffer(), zObj.GetSize(), 1, fp))
	{
		TraceError("Encryptindex: Cannot write to file! %s", m_indexFileName);
		SAFE_DELETE_ARRAY(pbData);
		fclose(fp);
		return false;
	}

	fclose(fp);

	m_bEncrypted = true;
	delete[] pbData;
	return true;
}

bool CEterPack::__BuildIndex(CEterFileDict& rkFileDict, bool bOverwrite)
{
	//DWORD dwBeginTime = ELTimer_GetMSec();
	CMappedFile file;
	LPCVOID pvData;
	CLZObject zObj;

	if (NULL == file.Create(m_indexFileName, &pvData, 0, 0))
	{
		TraceError("Cannot open pack index file! %s", m_dbName);
		return false;
	}

	if (file.Size() < eterpack::c_HeaderSize)
	{
		TraceError("Pack index file header error! %s", m_dbName);
		return false;
	}
	//---------------------------
	char* tData = (char*)pvData;
	DWORD twocc = *(WORD *)tData;
	if (twocc != TWOCC)
	{
		TraceError("Pack file header error! (TWOCC MISMATCH) %s", m_dbName);
		return false;
	}
	tData += sizeof(WORD);
	m_dataOff = ((*(DWORD*)tData) ^ OFFSET_KEY) + sizeof(WORD)+sizeof(DWORD);
	tData += sizeof(DWORD);
	pvData = (LPCVOID)tData;
	//---------------------------
	DWORD fourcc = *(DWORD *)pvData;

	BYTE * pbData;
	UINT uiFileSize;

	if (fourcc == eterpack::c_IndexCC)
	{
		pbData = (BYTE *)pvData;
		uiFileSize = file.Size();
	}
	else if (fourcc == CLZObject::ms_dwFourCC)
	{
		m_bEncrypted = true;

		if (!CLZO::Instance().Decompress(zObj, (const BYTE *)pvData, 1, s_adwEterPackKey))
			return false;

		if (zObj.GetSize() < eterpack::c_HeaderSize)
			return false;

		pbData = zObj.GetBuffer();
		uiFileSize = zObj.GetSize();
	}
	else
	{
		TraceError("Pack index file fourcc error! %s", m_dbName);
		return false;
	}

	pbData += sizeof(DWORD);

	DWORD ver = *(DWORD *)pbData;
	pbData += sizeof(DWORD);

	if (ver != eterpack::c_Version)
	{
		TraceError("Pack index file version error! %s", m_dbName);
		return false;
	}

	m_indexCount = *(long *)pbData;
	pbData += sizeof(long);

	if (uiFileSize < eterpack::c_HeaderSize + sizeof(TEterPackIndex)* m_indexCount)
	{
		TraceError("Pack index file size error! %s, indexCount %d", m_dbName, m_indexCount);
		return false;
	}

	//Tracef("Loading Pack file %s elements: %d ... ", m_dbName, m_indexCount);

	m_indexData = new TEterPackIndex[m_indexCount];
	memcpy(m_indexData, pbData, sizeof(TEterPackIndex)* m_indexCount);

	TEterPackIndex * index = m_indexData;

	for (int i = 0; i < m_indexCount; ++i, ++index)
	{
		if (!index->filename_crc)
		{
			PushFreeIndex(index);
		}
		else
		{
			if (index->real_data_size > index->data_size)
				m_FragmentSize += index->real_data_size - index->data_size;

			m_DataPositionMap.insert(TDataPositionMap::value_type(index->filename_crc, index));

			if (bOverwrite) // ¼­¹ö ¿¬µ¿ ÆÐÅ· ÆÄÀÏÀº ³ªÁß¿¡ µé¾î¿ÀÁö¸¸ ÃÖ»óÀ§·Î µî·ÏÇؾßÇÑ´Ù
				rkFileDict.UpdateItem(this, index);
			else
				rkFileDict.InsertItem(this, index);
		}
	}

	//Tracef("Done. (spent %dms)\n", ELTimer_GetMSec() - dwBeginTime);
	return true;
}
//
//void CEterPack::UpdateLastAccessTime()
//{
//	m_tLastAccessTime = time(NULL);
//}
//
//void CEterPack::ClearDataMemoryMap()
//{
//	// m_fileÀÌ data fileÀÌ´Ù...
//	m_file.Destroy();
//	m_tLastAccessTime = 0;
//	m_bIsDataLoaded = false;
//}

bool CEterPack::Get(CMappedFile& out_file, const char * filename, LPCVOID * data)
{
	TEterPackIndex * index = FindIndex(filename);

	if (!index)
	{
		return false;
	}

	//UpdateLastAccessTime();
	//if (!m_bIsDataLoaded)
	//{
	//	if (!m_file.Create(m_stDataFileName.c_str(), (const void**)&m_file_data, 0, 0))
	//		return false;
	//	
	//	m_bIsDataLoaded = true;
	//}

	// ±âÁ¸¿¡´Â CEterPack¿¡¼­ epk¸¦ memory map¿¡ ¿Ã·Á³õ°í, ¿äûÀÌ ¿À¸é ±× ºÎºÐÀ» ¸µÅ©Çؼ­ ³Ñ°Ü Áá¾ú´Âµ¥,
	// ÀÌÁ¦´Â ¿äûÀÌ ¿À¸é, ÇÊ¿äÇÑ ºÎºÐ¸¸ memory map¿¡ ¿Ã¸®°í, ¿äûÀÌ ³¡³ª¸é ÇØÁ¦ÇÏ°Ô ÇÔ.
	out_file.Create(m_stDataFileName.c_str(), data, index->data_position + m_dataOff, index->data_size);

	bool bIsSecurityCheckRequired = (index->compressed_type == COMPRESSED_TYPE_SECURITY ||
		index->compressed_type == COMPRESSED_TYPE_PANAMA);

	if (bIsSecurityCheckRequired)
	{
#ifdef CHECKSUM_CHECK_MD5
		MD5_CTX context;
		GenerateMD5Hash((BYTE*)(*data), index->data_size, context);

		if (memcmp(index->MD5Digest, context.digest, 16) != 0)
		{
			return false;
		}
#else
#ifdef ENABLE_CRC32_CHECK
		DWORD dwCrc32 = GetCRC32((const char*)(*data), index->data_size);

		if (index->data_crc != dwCrc32)
		{
			return false;
		}
#endif
#endif
	}


	if (COMPRESSED_TYPE_COMPRESS == index->compressed_type)
	{
		CLZObject * zObj = new CLZObject;

		if (!CLZO::Instance().Decompress(*zObj, static_cast<const BYTE *>(*data), 0))
		{
			TraceError("Failed to decompress : %s", filename);
			delete zObj;
			return false;
		}

		out_file.BindLZObject(zObj);
		*data = zObj->GetBuffer();
	}
	else if (COMPRESSED_TYPE_SECURITY == index->compressed_type)
	{
		CLZObject * zObj = new CLZObject;

		if (!CLZO::Instance().Decompress(*zObj, static_cast<const BYTE *>(*data), 2, s_adwEterPackSecurityKey))
		{
			TraceError("Failed to encrypt : %s", filename);
			delete zObj;
			return false;
		}

		out_file.BindLZObject(zObj);
		*data = zObj->GetBuffer();
	}
	else if (COMPRESSED_TYPE_PANAMA == index->compressed_type)
	{
		CLZObject * zObj = new CLZObject;
		__Decrypt_Panama(filename, static_cast<const BYTE*>(*data), index->data_size, *zObj);
		out_file.BindLZObjectWithBufferedSize(zObj);
		*data = zObj->GetBuffer();
	}
	else if (COMPRESSED_TYPE_HYBRIDCRYPT == index->compressed_type || COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB == index->compressed_type)
	{
#ifdef __THEMIDA__
		VM_START
#endif

			CLZObject * zObj = new CLZObject;

		if (!m_pCSHybridCryptPolicy->DecryptMemory(string(filename), static_cast<const BYTE*>(*data), index->data_size, *zObj))
		{
			return false;
		}

		out_file.BindLZObjectWithBufferedSize(zObj);
		if (COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB == index->compressed_type)
		{
			BYTE* pSDBData;
			int   iSDBSize;

			if (!m_pCSHybridCryptPolicy->GetSupplementaryDataBlock(string(filename), pSDBData, iSDBSize))
			{
				return false;
			}

			*data = out_file.AppendDataBlock(pSDBData, iSDBSize);
		}
		else
		{
			*data = zObj->GetBuffer();
		}
#ifdef __THEMIDA__
		VM_END
#endif
	}
	return true;
}

bool CEterPack::Get2(CMappedFile& out_file, const char * filename, TEterPackIndex * index, LPCVOID * data)
{
	if (!index)
	{
		return false;
	}

	//UpdateLastAccessTime();
	//if (!m_bIsDataLoaded)
	//{
	//	if (!m_file.Create(m_stDataFileName.c_str(), (const void**)&m_file_data, 0, 0))
	//		return false;
	//	
	//	m_bIsDataLoaded = true;
	//}
	out_file.Create(m_stDataFileName.c_str(), data, index->data_position + m_dataOff, index->data_size);

	bool bIsSecurityCheckRequired = (index->compressed_type == COMPRESSED_TYPE_SECURITY ||
		index->compressed_type == COMPRESSED_TYPE_PANAMA);

	if (bIsSecurityCheckRequired)
	{
#ifdef CHECKSUM_CHECK_MD5
		MD5_CTX context;
		GenerateMD5Hash((BYTE*)(*data), index->data_size, context);

		if (memcmp(index->MD5Digest, context.digest, 16) != 0)
		{
			return false;
		}
#else
		DWORD dwCrc32 = GetCRC32((const char*)(*data), index->data_size);

		if (index->data_crc != dwCrc32)
		{
			return false;
		}
#endif
	}


	if (COMPRESSED_TYPE_COMPRESS == index->compressed_type)
	{
		CLZObject * zObj = new CLZObject;

		if (!CLZO::Instance().Decompress(*zObj, static_cast<const BYTE *>(*data), 0))
		{
			TraceError("Failed to decompress : %s", filename);
			delete zObj;
			return false;
		}

		out_file.BindLZObject(zObj);
		*data = zObj->GetBuffer();
	}
	else if (COMPRESSED_TYPE_SECURITY == index->compressed_type)
	{
		CLZObject * zObj = new CLZObject;

		if (!CLZO::Instance().Decompress(*zObj, static_cast<const BYTE *>(*data), 2, s_adwEterPackSecurityKey))
		{
			TraceError("Failed to encrypt : %s", filename);
			delete zObj;
			return false;
		}

		out_file.BindLZObject(zObj);
		*data = zObj->GetBuffer();
	}
	else if (COMPRESSED_TYPE_PANAMA == index->compressed_type)
	{
		CLZObject * zObj = new CLZObject;
		__Decrypt_Panama(filename, static_cast<const BYTE*>(*data), index->data_size, *zObj);
		out_file.BindLZObjectWithBufferedSize(zObj);
		*data = zObj->GetBuffer();
	}
	else if (COMPRESSED_TYPE_HYBRIDCRYPT == index->compressed_type || COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB == index->compressed_type)
	{
#ifdef __THEMIDA__
		VM_START
#endif

			CLZObject * zObj = new CLZObject;

		if (!m_pCSHybridCryptPolicy->DecryptMemory(string(filename), static_cast<const BYTE*>(*data), index->data_size, *zObj))
		{
			return false;
		}

		out_file.BindLZObjectWithBufferedSize(zObj);

		if (COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB == index->compressed_type)
		{
			BYTE* pSDBData;
			int   iSDBSize;

			if (!m_pCSHybridCryptPolicy->GetSupplementaryDataBlock(string(filename), pSDBData, iSDBSize))
			{
				return false;
			}

			*data = out_file.AppendDataBlock(pSDBData, iSDBSize);
		}
		else
		{
			*data = zObj->GetBuffer();
		}
#ifdef __THEMIDA__
		VM_END
#endif
	}

	return true;
}


bool CEterPack::Delete(TEterPackIndex * pIndex)
{
	CFileBase fileIndex;

	if (!fileIndex.Create(m_indexFileName, CFileBase::FILEMODE_WRITE))
		return false;

	PushFreeIndex(pIndex);
	WriteIndex(fileIndex, pIndex);
	return true;
}

bool CEterPack::Delete(const char * filename)
{
	TEterPackIndex * pIndex = FindIndex(filename);

	if (!pIndex)
		return false;

	return Delete(pIndex);
}

bool CEterPack::Extract()
{
	CMappedFile dataMapFile;
	LPCVOID		data;

	if (!dataMapFile.Create(m_stDataFileName.c_str(), &data, 0, 0))
		return false;

	CLZObject zObj;

	for (TDataPositionMap::iterator i = m_DataPositionMap.begin();
		i != m_DataPositionMap.end();
		++i)
	{
		TEterPackIndex* index = i->second;
		CFileBase writeFile;

		inlinePathCreate(index->filename);
		printf("%s\n", index->filename);

		writeFile.Create(index->filename, CFileBase::FILEMODE_WRITE);

		if (COMPRESSED_TYPE_COMPRESS == index->compressed_type)
		{
			if (!CLZO::Instance().Decompress(zObj, (const BYTE *)data + index->data_position, 0))
			{
				printf("cannot decompress");
				return false;
			}

			writeFile.Write(zObj.GetBuffer(), zObj.GetSize());
			zObj.Clear();
		}
		else if (COMPRESSED_TYPE_SECURITY == index->compressed_type)
		{
			if (!CLZO::Instance().Decompress(zObj, (const BYTE *)data + index->data_position, 2, s_adwEterPackSecurityKey))
			{
				printf("cannot decompress");
				return false;
			}

			writeFile.Write(zObj.GetBuffer(), zObj.GetSize());
			zObj.Clear();
		}
		else if (COMPRESSED_TYPE_PANAMA == index->compressed_type)
		{
			__Decrypt_Panama(index->filename, (const BYTE *)data + index->data_position, index->data_size, zObj);
			writeFile.Write(zObj.GetBuffer(), zObj.GetBufferSize());
			zObj.Clear();
		}
		else if (COMPRESSED_TYPE_HYBRIDCRYPT == index->compressed_type || COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB == index->compressed_type)
		{
#ifdef __THEMIDA__
			VM_START
#endif
			if (!m_pCSHybridCryptPolicy->DecryptMemory(string(index->filename), (const BYTE *)data + index->data_position, index->data_size, zObj))
				return false;

			if (COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB == index->compressed_type)
			{
				dataMapFile.BindLZObjectWithBufferedSize(&zObj);

				BYTE* pSDBData;
				int   iSDBSize;

				if (!m_pCSHybridCryptPolicy->GetSupplementaryDataBlock(string(index->filename), pSDBData, iSDBSize))
					return false;

				dataMapFile.AppendDataBlock(pSDBData, iSDBSize);
				writeFile.Write(dataMapFile.AppendDataBlock(pSDBData, iSDBSize), dataMapFile.Size());
			}
			else
			{
				writeFile.Write(zObj.GetBuffer(), zObj.GetBufferSize());
			}
			zObj.Clear();
#ifdef __THEMIDA__
			VM_END
#endif
		}
		else if (COMPRESSED_TYPE_NONE == index->compressed_type)
			writeFile.Write((const char *)data + index->data_position, index->data_size);

		writeFile.Destroy();
	}
	return true;
}

bool CEterPack::GetNames(std::vector<std::string>* retNames)
{
	CMappedFile dataMapFile;
	LPCVOID		data;

	if (!dataMapFile.Create(m_stDataFileName.c_str(), &data, 0, 0))
		return false;

	CLZObject zObj;

	for (TDataPositionMap::iterator i = m_DataPositionMap.begin();
		i != m_DataPositionMap.end();
		++i)
	{
		TEterPackIndex* index = i->second;

		inlinePathCreate(index->filename);

		retNames->push_back(index->filename);
	}
	return true;
}

bool CEterPack::Put(const char * filename, const char * sourceFilename, BYTE packType, const std::string& strRelateMapName)
{
	CMappedFile mapFile;
	LPCVOID		data;

	if (sourceFilename)
	{
		if (!mapFile.Create(sourceFilename, &data, 0, 0))
		{
			return false;
		}
	}
	else if (!mapFile.Create(filename, &data, 0, 0))
	{
		return false;
	}

	BYTE*  pMappedData = (BYTE*)data;
	int	   iMappedDataSize = mapFile.Size();

	if (packType == COMPRESSED_TYPE_HYBRIDCRYPT || packType == COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB)
	{
#ifdef __THEMIDA__
		VM_START
#endif
			m_pCSHybridCryptPolicy->GenerateCryptKey(string(filename));

		if (packType == COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB)
		{
			if (!m_pCSHybridCryptPolicy->GenerateSupplementaryDataBlock(string(filename), strRelateMapName, (const BYTE*)data, mapFile.Size(), pMappedData, iMappedDataSize))
			{
				return false;
			}
		}
#ifdef __THEMIDA__
		VM_END
#endif
	}

	return Put(filename, pMappedData, iMappedDataSize, packType);
}

#ifdef CHECKSUM_CHECK_MD5
void CEterPack::GenerateMD5Hash(BYTE* pData, int nLength, IN OUT MD5_CTX& mdContext)
{
	MD5Init(&mdContext);

	const int nBlockSize = 1024;

	int nLoopCnt = nLength / nBlockSize;
	int nRemainder = nLength % nBlockSize;
	int i;

	for (i = 0; i < nLoopCnt; ++i)
	{
		MD5Update(&mdContext, reinterpret_cast<BYTE*>(pData + i*nBlockSize), nBlockSize);
	}

	if (nRemainder > 0)
		MD5Update(&mdContext, reinterpret_cast<BYTE*>(pData + i*nBlockSize), nRemainder);

	MD5Final(&mdContext);
}
#endif
bool CEterPack::Put(const char * filename, LPCVOID data, long len, BYTE packType)
{
	if (m_bEncrypted)
	{
		TraceError("EterPack::Put : Cannot put to encrypted pack (filename: %s, DB: %s)", filename, m_dbName);
		return false;
	}

	CFileBase fileIndex;

	if (!fileIndex.Create(m_indexFileName, CFileBase::FILEMODE_WRITE))
	{
		return false;
	}

	CFileBase fileData;

	if (!fileData.Create(m_stDataFileName.c_str(), CFileBase::FILEMODE_WRITE))
	{
		return false;
	}

	TEterPackIndex * pIndex;
	pIndex = FindIndex(filename);

	CLZObject zObj;
	std::string encryptStr;

	if (packType == COMPRESSED_TYPE_SECURITY ||
		packType == COMPRESSED_TYPE_COMPRESS)
	{
		if (packType == COMPRESSED_TYPE_SECURITY)
		{
			if (!CLZO::Instance().CompressEncryptedMemory(zObj, data, len, 2, s_adwEterPackSecurityKey))
			{
				return false;
			}
		}
		else
		{
			if (!CLZO::Instance().CompressMemory(zObj, data, len))
			{
				return false;
			}
		}

		data = zObj.GetBuffer();
		len = zObj.GetSize();
	}
	else if (packType == COMPRESSED_TYPE_PANAMA)
	{
		if (!__Encrypt_Panama(filename, (const BYTE *)data, len, zObj))
		{
			return false;
		}

		data = zObj.GetBuffer();
		len = zObj.GetBufferSize();
	}
	else if (packType == COMPRESSED_TYPE_HYBRIDCRYPT || packType == COMPRESSED_TYPE_HYBRIDCRYPT_WITHSDB)
	{
#ifdef __THEMIDA__
		VM_START
#endif

		if (!m_pCSHybridCryptPolicy->EncryptMemory(string(filename), (const BYTE *)data, len, zObj))
		{
			return false;
		}

		data = zObj.GetBuffer();
		len = zObj.GetBufferSize();
#ifdef __THEMIDA__
		VM_END
#endif

	}


#ifdef CHECKSUM_CHECK_MD5
	MD5_CTX context;
	GenerateMD5Hash((BYTE*)(data), len, context);
#else
	DWORD data_crc;
	data_crc = GetCRC32((const char *)data, len);
#endif

	// ±âÁ¸ µ¥ÀÌÅÍ°¡ ÀÖÀ¸¸é..
	if (pIndex)
	{
		// ±âÁ¸ data Å©±â°¡ ³ÖÀ» µ¥ÀÌÅÍ Å©±â¸¦ ¼ö¿ëÇÒ ¼ö ÀÖ´Ù¸é
		if (pIndex->real_data_size >= len)
		{
			++m_map_indexRefCount[pIndex->id];

			// ±æÀÌ°¡ Ʋ¸®°Å³ª, checksumÀÌ Æ²¸± ¶§¸¸ ÀúÀå ÇÑ´Ù.
			if ((pIndex->data_size != len) ||
#ifdef CHECKSUM_CHECK_MD5
				(memcmp(pIndex->MD5Digest, context.digest, 16) != 0))
#else
				(pIndex->data_crc != data_crc) )
#endif
			{
#ifdef __MAKE_PACK__
				if (ms_PackLogFile)
					fprintf(ms_PackLogFile, "Overwrite[%d/%d] %s\n", bCompress, bSecurity, pIndex->filename);
				printf("Overwrite[%d/%d] %s\n", bCompress, bSecurity, pIndex->filename);
#endif
				pIndex->data_size = len;
#ifdef CHECKSUM_CHECK_MD5
				memcpy(pIndex->MD5Digest, context.digest, 16);

#else
				pIndex->data_crc = data_crc;
#endif

				pIndex->compressed_type = packType;

				CMakePackLog::GetSingleton().Writef("Overwrite[type:%u] %s\n", pIndex->compressed_type, pIndex->filename);

				WriteIndex(fileIndex, pIndex);
				WriteData(fileData, pIndex, data);
			}

			return true;
		}

		// ±âÁ¸ µ¥ÀÌÅÍ Å©±â°¡ »õ·Î µé¾î°¥ °Í º¸´Ù Àû´Ù¸é, »õ·Î À妽º¸¦ ÇÒ´çÇØ
		// ³Ö¾î¾ß ÇÑ´Ù. ¿ø·¡ ÀÖ´ø À妽º´Â ºñ¿ö µÐ´Ù.
		PushFreeIndex(pIndex);
		WriteIndex(fileIndex, pIndex);
	}

	// »õ µ¥ÀÌÅÍ
	pIndex = NewIndex(fileIndex, filename, len);
	pIndex->data_size = len;

#ifdef CHECKSUM_CHECK_MD5
	memcpy(pIndex->MD5Digest, context.digest, 16);
#else
	pIndex->data_crc = data_crc;
#endif


	pIndex->data_position = GetNewDataPosition(fileData);
	pIndex->compressed_type = packType;

	WriteIndex(fileIndex, pIndex);
	WriteNewData(fileData, pIndex, data);

	++m_map_indexRefCount[pIndex->id];

#ifdef __MAKE_PACK__
	if (ms_PackLogFile)
		fprintf(ms_PackLogFile, "Write[%d/%d] %s\n", bCompress, bSecurity, pIndex->filename);
	printf("Write[%d/%d] %s, position %ld realsize %ld size %ld\n",
		bCompress, bSecurity, pIndex->filename, pIndex->data_position, pIndex->real_data_size, pIndex->data_size);
#endif
	CMakePackLog::GetSingleton().Writef("Write[type:%u] %s\n", pIndex->compressed_type, pIndex->filename);

	return true;
}

long CEterPack::GetFragmentSize()
{
	return m_FragmentSize;
}

// Private methods
bool CEterPack::CreateIndexFile()
{
	FILE * fp;

	if (NULL != (fp = fopen(m_indexFileName, "rb")))
	{
		fclose(fp);
		return true;
	}
	else if (m_bReadOnly)
		return false;

	//
	// ÆÄÀÏÀÌ ¾øÀ¸¹Ç·Î »õ·Î ¸¸µç´Ù.
	//
	fp = fopen(m_indexFileName, "wb");

	if (!fp)
		return false;

	fwrite(&eterpack::c_IndexCC, sizeof(DWORD), 1, fp);
	fwrite(&eterpack::c_Version, sizeof(DWORD), 1, fp);
	fwrite(&m_indexCount, sizeof(long), 1, fp);

	fclose(fp);
	return true;
}


void CEterPack::WriteIndex(CFileBase & file, TEterPackIndex * index)
{
	file.Seek(sizeof(DWORD)+sizeof(DWORD));
	file.Write(&m_indexCount, sizeof(long));
	file.Seek(eterpack::c_HeaderSize + (index->id * sizeof(TEterPackIndex)));

	if (!file.Write(index, sizeof(TEterPackIndex)))
	{
		assert(!"WriteIndex: fwrite failed");
		return;
	}
}

/*
*	Free Block À̶õ µ¥ÀÌÅÍ¿¡¼­ Áö¿öÁø ºÎºÐÀ» ¸»ÇÑ´Ù.
*	Free Block µéÀº °¢°¢ FREE_INDEX_BLOCK_SIZE (32768) ´ÜÀ§·Î ³ª´©¾îÁ®
*	¸®½ºÆ®·Î °ü¸®µÈ´Ù.
*
*	¿¹¸¦ µé¾î 128k ÀÇ µ¥ÀÌÅÍ´Â
*	128 * 1024 / FREE_INDEX_BLOCK_SIZE = 4 À̹ǷÎ
*	ÃÖÁ¾ ÀûÀ¸·Î´Â m_FreeIndexList[4] ¿¡ µé¾î°£´Ù.
*
*	FREE_INDEX_BLOCK_SIZE ÀÇ ÃÖ´ë °ªÀº FREE_INDEX_MAX_SIZE(512) ÀÌ´Ù.
*	µû¶ó¼­ 16MB ÀÌ»óÀÇ µ¥ÀÌÅÍ´Â ¹«Á¶°Ç ¹è¿­ÀÇ 512 À§Ä¡¿¡ µé¾î°£´Ù.
*/
int CEterPack::GetFreeBlockIndex(long size)
{
	return min(FREE_INDEX_MAX_SIZE, size / FREE_INDEX_BLOCK_SIZE);
}

void CEterPack::PushFreeIndex(TEterPackIndex* index)
{
	if (index->filename_crc != 0)
	{
		TDataPositionMap::iterator i = m_DataPositionMap.find(index->filename_crc);

		if (i != m_DataPositionMap.end())
			m_DataPositionMap.erase(i);

		index->filename_crc = 0;
		memset(index->filename, 0, sizeof(index->filename));
	}

	int blockidx = GetFreeBlockIndex(index->real_data_size);
	m_FreeIndexList[blockidx].push_back(index);
	m_FragmentSize += index->real_data_size;
	//printf("FreeIndex: size %d: blockidx: %d\n", index->real_data_size, blockidx);
}

long CEterPack::GetNewIndexPosition(CFileBase & file)
{
	long pos = (file.Size() - eterpack::c_HeaderSize) / sizeof(TEterPackIndex);
	++m_indexCount;
	return (pos);
}

TEterPackIndex* CEterPack::NewIndex(CFileBase& file, const char* filename, long size)
{
	TEterPackIndex* index = NULL;
	int block_size = size + (DATA_BLOCK_SIZE - (size % DATA_BLOCK_SIZE));
	//	if ((index = FindIndex(filename))) // ÀÌ¹Ì À妽º°¡ Á¸ÀçÇÏ´ÂÁö È®ÀÎ
	//		return index;

	int blockidx = GetFreeBlockIndex(block_size);

	for (TFreeIndexList::iterator i = m_FreeIndexList[blockidx].begin();
		i != m_FreeIndexList[blockidx].end();
		++i)
	{
		if ((*i)->real_data_size >= size)
		{
			index = *i;
			m_FreeIndexList[blockidx].erase(i);

			assert(index->filename_crc == 0);
			break;
		}
	}

	if (!index)
	{
		index = new TEterPackIndex;
		index->real_data_size = block_size;
		index->id = GetNewIndexPosition(file);
	}

	strncpy(index->filename, filename, FILENAME_MAX_LEN);
	index->filename[FILENAME_MAX_LEN] = '\0';
	inlineConvertPackFilename(index->filename);

	index->filename_crc = GetCRC32(index->filename, strlen(index->filename));

	m_DataPositionMap.insert(TDataPositionMap::value_type(index->filename_crc, index));
	return index;
}

TEterPackIndex* CEterPack::FindIndex(const char * filename)
{
	static char tmpFilename[MAX_PATH + 1];
	strncpy(tmpFilename, filename, MAX_PATH);
	inlineConvertPackFilename(tmpFilename);

	DWORD filename_crc = GetCRC32(tmpFilename, strlen(tmpFilename));
	TDataPositionMap::iterator i = m_DataPositionMap.find(filename_crc);

	if (i == m_DataPositionMap.end())
		return NULL;

	return (i->second);
}

bool CEterPack::IsExist(const char * filename)
{
	return FindIndex(filename) ? true : false;
}

bool CEterPack::CreateDataFile()
{
	FILE * fp;

	if (NULL != (fp = fopen(m_stDataFileName.c_str(), "rb")))
	{
		fclose(fp);
		return true;
	}
	else if (m_bReadOnly)
		return false;

	fp = fopen(m_stDataFileName.c_str(), "wb");

	if (!fp)
		return false;

	fclose(fp);
	return true;
}

long CEterPack::GetNewDataPosition(CFileBase& file)
{
	return file.Size();
}

bool CEterPack::ReadData(CFileBase & file, TEterPackIndex* index, LPVOID data, long maxsize)
{
	if (index->data_size > maxsize)
		return false;

	file.Seek(index->data_position);
	file.Read(data, index->data_size);
	return true;
}

bool CEterPack::WriteData(CFileBase & file, TEterPackIndex* index, LPCVOID data)
{
	file.Seek(index->data_position);

	if (!file.Write(data, index->data_size))
	{
		assert(!"WriteData: fwrite data failed");
		return false;
	}

	return true;
}

bool CEterPack::WriteNewData(CFileBase& file, TEterPackIndex* index, LPCVOID data)
{
	file.Seek(index->data_position);

	if (!file.Write(data, index->data_size))
	{
		assert(!"WriteData: fwrite data failed");
		return false;
	}

	int empty_size = index->real_data_size - index->data_size;

	if (empty_size < 0)
	{
		printf("SYSERR: WriteNewData(): CRITICAL ERROR: empty_size lower than 0!\n");
		exit(1);
	}

	if (empty_size == 0)
		return true;

	char * empty_buf = (char *)calloc(empty_size, sizeof(char));

	if (!file.Write(empty_buf, empty_size))
	{
		assert(!"WriteData: fwrite empty data failed");
		return false;
	}

	free(empty_buf);
	return true;
}

TDataPositionMap & CEterPack::GetIndexMap()
{
	return m_DataPositionMap;
}

DWORD CEterPack::DeleteUnreferencedData()
{
	TDataPositionMap::iterator i = m_DataPositionMap.begin();
	DWORD dwCount = 0;

	while (i != m_DataPositionMap.end())
	{
		TEterPackIndex * pIndex = (i++)->second;

		if (0 == m_map_indexRefCount[pIndex->id])
		{
			printf("Unref File %s\n", pIndex->filename);
			Delete(pIndex);
			++dwCount;
		}
	}

	return dwCount;
}

const char * CEterPack::GetDBName()
{
	return m_dbName;
}

void CEterPack::__CreateFileNameKey_Panama(const char * filename, BYTE * key, unsigned int keySize)
{
	// Å° ¾Ïȣȭ
	if (keySize != 32)
		return;

	std::string SrcStringForKey(filename);
	unsigned int idx = GetCRC32(SrcStringForKey.c_str(), SrcStringForKey.length()) & 3;

	CryptoPP::HashTransformation* hm1 = NULL;
	CryptoPP::HashTransformation* hm2 = NULL;

	static CryptoPP::Tiger tiger;
	static CryptoPP::SHA1 sha1;
	static CryptoPP::RIPEMD128 ripemd128;
	static CryptoPP::Whirlpool whirlpool;

	switch (idx & 3)
	{
	case 0:
		hm1 = &whirlpool;
		break;

	case 1:
		hm1 = &tiger;
		break;

	case 2:
		hm1 = &sha1;
		break;

	case 3:
		hm1 = &ripemd128;
		break;
	}

	CryptoPP::StringSource(SrcStringForKey, true,
		new CryptoPP::HashFilter(*hm1,
		//new CryptoPP::HexEncoder(
		new CryptoPP::ArraySink(key, 16)
		//) // HexEncoder
		) // HashFilter
		); // StringSource

	// ¸¸µé¾îÁø Å°ÀÇ Ã¹¹ø° 4¹ÙÀÌÆ®·Î ´ÙÀ½ 16¹ÙÀÌÆ® Å° »ý¼º ¾Ë°í¸®Áò ¼±ÅÃ
	unsigned int idx2 = *(unsigned int*)key;

	switch (idx2 & 3)
	{
	case 0:
		hm2 = &sha1;
		break;

	case 1:
		hm2 = &ripemd128;
		break;

	case 2:
		hm2 = &whirlpool;
		break;

	case 3:
		hm2 = &tiger;
		break;
	}

	CryptoPP::StringSource(SrcStringForKey, true,
		new CryptoPP::HashFilter(*hm2,
		//new CryptoPP::HexEncoder(
		new CryptoPP::ArraySink(key + 16, 16)
		//) // HexEncoder
		) // HashFilter
		); // StringSource
	// Å° »ý¼º ¿Ï·á
}

bool CEterPack::__Encrypt_Panama(const char* filename, const BYTE* data, SIZE_T dataSize, CLZObject& zObj)
{
	if (32 != m_stIV_Panama.length())
	{
		// ÇØÄ¿°¡ ÀÌ ¸Þ¼¼Áö¸¦ º¸¸é ÈùÆ®¸¦ ¾òÀ»±îºÁ µð¹ö±×¿¡¼­¸¸ Ãâ·Â
#ifdef _DEBUG
		TraceError("IV not set (filename: %s)", filename);
#endif
		return false;
	}

	CryptoPP::PanamaCipher<CryptoPP::LittleEndian>::Encryption Encryptor;

	if (dataSize < Encryptor.MandatoryBlockSize())
	{
#ifdef _DEBUG
		TraceError("Type 3 pack file must be bigger than %u bytes (filename: %s)", Encryptor.MandatoryBlockSize(), filename);
#endif
		return false;
	}

	BYTE key[32];

	__CreateFileNameKey_Panama(filename, key, sizeof(key));
	Encryptor.SetKeyWithIV(key, sizeof(key), (const BYTE*)m_stIV_Panama.c_str(), 32);

	// MandatoryBlockSize¿¡ ³ª´©¾î ¶³¾îÁö°Ô ¸¸µé°í ÃÖ´ë 2048 ¹ÙÀÌÆ®¸¸
	DWORD cryptSize = dataSize - (dataSize % Encryptor.MandatoryBlockSize());
	cryptSize = cryptSize > 2048 ? 2048 : cryptSize;

	std::string tmp;

	tmp.reserve(cryptSize);

	CryptoPP::ArraySource(data, cryptSize, true,
		new CryptoPP::StreamTransformationFilter(Encryptor,
		new CryptoPP::StringSink(tmp)
		)
		);

	if (tmp.length() != cryptSize)
	{
#ifdef _DEBUG
		TraceError("Type 3 pack crypt buffer size error (out %u should be %u)", tmp.length(), cryptSize);
#endif
		return false;
	}

	zObj.AllocBuffer(dataSize);
	memcpy(zObj.GetBuffer(), tmp.c_str(), cryptSize);

	if (dataSize - cryptSize > 0)
		memcpy(zObj.GetBuffer() + cryptSize, data + cryptSize, dataSize - cryptSize);

	return true;
}

bool CEterPack::__Decrypt_Panama(const char* filename, const BYTE* data, SIZE_T dataSize, CLZObject& zObj)
{
	if (32 != m_stIV_Panama.length())
	{
		// ÇØÄ¿°¡ ÀÌ ¸Þ¼¼Áö¸¦ º¸¸é ÈùÆ®¸¦ ¾òÀ»±îºÁ µð¹ö±×¿¡¼­¸¸ Ãâ·Â
#ifdef _DEBUG
		TraceError("IV not set (filename: %s)", filename);
#endif
		return false;
	}

	CryptoPP::PanamaCipher<CryptoPP::LittleEndian>::Decryption Decryptor;

	BYTE key[32];

	__CreateFileNameKey_Panama(filename, key, sizeof(key));
	Decryptor.SetKeyWithIV(key, sizeof(key), (const BYTE*)m_stIV_Panama.c_str(), 32);

	// MandatoryBlockSize¿¡ ³ª´©¾î ¶³¾îÁö°Ô ¸¸µé°í ÃÖ´ë 2048 ¹ÙÀÌÆ®¸¸
	DWORD cryptSize = dataSize - (dataSize % Decryptor.MandatoryBlockSize());
	cryptSize = cryptSize > 2048 ? 2048 : cryptSize;

	std::string tmp;

	tmp.reserve(cryptSize);

	CryptoPP::ArraySource(data, cryptSize, true,
		new CryptoPP::StreamTransformationFilter(Decryptor,
		new CryptoPP::StringSink(tmp)
		)
		);

	if (tmp.length() != cryptSize)
	{
#ifdef _DEBUG
		TraceError("Type 3 pack crypt buffer size error (out %u should be %u)", tmp.length(), cryptSize);
#endif
		return false;
	}

	zObj.AllocBuffer(dataSize);
	memcpy(zObj.GetBuffer(), tmp.c_str(), cryptSize);

	if (dataSize - cryptSize > 0)
		memcpy(zObj.GetBuffer() + cryptSize, data + cryptSize, dataSize - cryptSize);

	return true;
}

EterPackPolicy_CSHybridCrypt* CEterPack::GetPackPolicy_HybridCrypt() const
{
	return  m_pCSHybridCryptPolicy;
}


/////////////////////////

void CEterFileDict::InsertItem(CEterPack* pkPack, TEterPackIndex* pkInfo)
{
	Item item;

	item.pkPack = pkPack;
	item.pkInfo = pkInfo;

	m_dict.insert(TDict::value_type(pkInfo->filename_crc, item));
}

void CEterFileDict::UpdateItem(CEterPack* pkPack, TEterPackIndex* pkInfo)
{
	Item item;

	item.pkPack = pkPack;
	item.pkInfo = pkInfo;

	TDict::iterator f = m_dict.find(pkInfo->filename_crc);
	if (f == m_dict.end())
		m_dict.insert(TDict::value_type(pkInfo->filename_crc, item));
	else
	{
		if (strcmp(f->second.pkInfo->filename, item.pkInfo->filename) == 0)
		{
			f->second = item;
		}
		else
		{
			TraceError("NAME_COLLISION: OLD: %s NEW: %s", f->second.pkInfo->filename, item.pkInfo->filename);
		}

	}
}

CEterFileDict::Item* CEterFileDict::GetItem(DWORD dwFileNameHash, const char * c_pszFileName)
{
	std::pair<TDict::iterator, TDict::iterator> iter_pair = m_dict.equal_range(dwFileNameHash);

	TDict::iterator iter = iter_pair.first;

	while (iter != iter_pair.second)
	{
		Item& item = iter->second;

		if (0 == strcmp(c_pszFileName, item.pkInfo->filename))
			return &item;

		++iter;
	}

	return NULL;
}

 

 

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