lzma/CPP/7zip/UI/Common/HashCalc.cpp - nest-cam/4320010/lzma - Git at Google

 // HashCalc.cpp

 #include "StdAfx.h"

 #include "../../../../C/Alloc.h"

 #include "../../../Common/StringToInt.h"

 #include "../../Common/FileStreams.h"
 #include "../../Common/StreamUtils.h"

 #include "EnumDirItems.h"
 #include "HashCalc.h"

 using namespace NWindows;

 class CHashMidBuf
 {
   void *_data;
 public:
   CHashMidBuf(): _data(0) {}
   operator void *() { return _data; }
   bool Alloc(size_t size)
   {
     if (_data != 0)
       return false;
     _data = ::MidAlloc(size);
     return _data != 0;
   }
   ~CHashMidBuf() { ::MidFree(_data); }
 };

 struct CEnumDirItemCallback_Hash: public IEnumDirItemCallback
 {
   IHashCallbackUI *Callback;

   HRESULT ScanProgress(UInt64 numFolders, UInt64 numFiles, UInt64 totalSize, const wchar_t *path, bool isDir)
   {
     return Callback->ScanProgress(numFolders, numFiles, totalSize, path, isDir);
   }
 };

 static const wchar_t *k_DefaultHashMethod = L"CRC32";

 HRESULT CHashBundle::SetMethods(DECL_EXTERNAL_CODECS_LOC_VARS const UStringVector &hashMethods)
 {
   UStringVector names = hashMethods;
   if (names.IsEmpty())
     names.Add(k_DefaultHashMethod);

   CRecordVector<CMethodId> ids;
   CObjectVector<COneMethodInfo> methods;

   unsigned i;
   for (i = 0; i < names.Size(); i++)
   {
     COneMethodInfo m;
     RINOK(m.ParseMethodFromString(names[i]));

     if (m.MethodName.IsEmpty())
       m.MethodName = k_DefaultHashMethod;

     if (m.MethodName == L"*")
     {
       CRecordVector<CMethodId> tempMethods;
       GetHashMethods(EXTERNAL_CODECS_LOC_VARS tempMethods);
       methods.Clear();
       ids.Clear();
       FOR_VECTOR (t, tempMethods)
       {
         int index = ids.AddToUniqueSorted(tempMethods[t]);
         if (ids.Size() != methods.Size())
           methods.Insert(index, m);
       }
       break;
     }
     else
     {
       // m.MethodName.RemoveChar(L'-');
       CMethodId id;
       if (!FindHashMethod(EXTERNAL_CODECS_LOC_VARS m.MethodName, id))
         return E_NOTIMPL;
       int index = ids.AddToUniqueSorted(id);
       if (ids.Size() != methods.Size())
         methods.Insert(index, m);
     }
   }

   for (i = 0; i < ids.Size(); i++)
   {
     CMyComPtr<IHasher> hasher;
     UString name;
     RINOK(CreateHasher(EXTERNAL_CODECS_LOC_VARS ids[i], name, hasher));
     if (!hasher)
       throw "Can't create hasher";
     const COneMethodInfo &m = methods[i];
     {
       CMyComPtr<ICompressSetCoderProperties> scp;
       hasher.QueryInterface(IID_ICompressSetCoderProperties, &scp);
       if (scp)
       {
         RINOK(m.SetCoderProps(scp, NULL));
       }
     }
     UInt32 digestSize = hasher->GetDigestSize();
     if (digestSize > k_HashCalc_DigestSize_Max)
       return E_NOTIMPL;
     CHasherState &h = Hashers.AddNew();
     h.Hasher = hasher;
     h.Name = name;
     h.DigestSize = digestSize;
     for (int i = 0; i < k_HashCalc_NumGroups; i++)
       memset(h.Digests[i], 0, digestSize);
   }
   return S_OK;
 }

 void CHashBundle::InitForNewFile()
 {
   CurSize = 0;
   FOR_VECTOR (i, Hashers)
   {
     CHasherState &h = Hashers[i];
     h.Hasher->Init();
     memset(h.Digests[k_HashCalc_Index_Current], 0, h.DigestSize);
   }
 }

 void CHashBundle::Update(const void *data, UInt32 size)
 {
   CurSize += size;
   FOR_VECTOR (i, Hashers)
     Hashers[i].Hasher->Update(data, size);
 }

 void CHashBundle::SetSize(UInt64 size)
 {
   CurSize = size;
 }

 static void AddDigests(Byte *dest, const Byte *src, UInt32 size)
 {
   unsigned next = 0;
   for (UInt32 i = 0; i < size; i++)
   {
     next += (unsigned)dest[i] + (unsigned)src[i];
     dest[i] = (Byte)next;
     next >>= 8;
   }
 }

 void CHashBundle::Final(bool isDir, bool isAltStream, const UString &path)
 {
   if (isDir)
     NumDirs++;
   else if (isAltStream)
   {
     NumAltStreams++;
     AltStreamsSize += CurSize;
   }
   else
   {
     NumFiles++;
     FilesSize += CurSize;
   }

   Byte pre[16];
   memset(pre, 0, sizeof(pre));
   if (isDir)
     pre[0] = 1;

   FOR_VECTOR (i, Hashers)
   {
     CHasherState &h = Hashers[i];
     if (!isDir)
     {
       h.Hasher->Final(h.Digests[0]);
       if (!isAltStream)
         AddDigests(h.Digests[k_HashCalc_Index_DataSum], h.Digests[0], h.DigestSize);
     }

     h.Hasher->Init();
     h.Hasher->Update(pre, sizeof(pre));
     h.Hasher->Update(h.Digests[0], h.DigestSize);

     for (unsigned k = 0; k < path.Len(); k++)
     {
       wchar_t c = path[k];
       Byte temp[2] = { (Byte)(c & 0xFF), (Byte)((c >> 8) & 0xFF) };
       h.Hasher->Update(temp, 2);
     }

     Byte tempDigest[k_HashCalc_DigestSize_Max];
     h.Hasher->Final(tempDigest);
     if (!isAltStream)
       AddDigests(h.Digests[k_HashCalc_Index_NamesSum], tempDigest, h.DigestSize);
     AddDigests(h.Digests[k_HashCalc_Index_StreamsSum], tempDigest, h.DigestSize);
   }
 }


 HRESULT HashCalc(
     DECL_EXTERNAL_CODECS_LOC_VARS
     const NWildcard::CCensor &censor,
     const CHashOptions &options,
     UString &errorInfo,
     IHashCallbackUI *callback)
 {
   CDirItems dirItems;

   UInt64 numErrors = 0;
   UInt64 totalBytes = 0;
   if (options.StdInMode)
   {
     CDirItem di;
     di.Size = (UInt64)(Int64)-1;
     di.Attrib = 0;
     di.MTime.dwLowDateTime = 0;
     di.MTime.dwHighDateTime = 0;
     di.CTime = di.ATime = di.MTime;
     dirItems.Items.Add(di);
   }
   else
   {
     CEnumDirItemCallback_Hash enumCallback;
     enumCallback.Callback = callback;
     RINOK(callback->StartScanning());
     dirItems.ScanAltStreams = options.AltStreamsMode;
     HRESULT res = EnumerateItems(censor,
         options.PathMode,
         UString(),
         dirItems, &enumCallback);
     totalBytes = dirItems.TotalSize;
     FOR_VECTOR (i, dirItems.ErrorPaths)
     {
       RINOK(callback->CanNotFindError(fs2us(dirItems.ErrorPaths[i]), dirItems.ErrorCodes[i]));
     }
     numErrors = dirItems.ErrorPaths.Size();
     if (res != S_OK)
     {
       if (res != E_ABORT)
         errorInfo = L"Scanning error";
       return res;
     }
     RINOK(callback->FinishScanning());
   }

   unsigned i;
   CHashBundle hb;
   RINOK(hb.SetMethods(EXTERNAL_CODECS_LOC_VARS options.Methods));
   hb.Init();
   hb.NumErrors = numErrors;

   if (options.StdInMode)
   {
     RINOK(callback->SetNumFiles(1));
   }
   else
   {
     RINOK(callback->SetTotal(totalBytes));
   }

   const UInt32 kBufSize = 1 << 15;
   CHashMidBuf buf;
   if (!buf.Alloc(kBufSize))
     return E_OUTOFMEMORY;

   UInt64 completeValue = 0;

   RINOK(callback->BeforeFirstFile(hb));

   for (i = 0; i < dirItems.Items.Size(); i++)
   {
     CMyComPtr<ISequentialInStream> inStream;
     UString path;
     bool isDir = false;
     bool isAltStream = false;
     if (options.StdInMode)
     {
       inStream = new CStdInFileStream;
     }
     else
     {
       CInFileStream *inStreamSpec = new CInFileStream;
       inStream = inStreamSpec;
       const CDirItem &dirItem = dirItems.Items[i];
       isDir = dirItem.IsDir();
       isAltStream = dirItem.IsAltStream;
       path = dirItems.GetLogPath(i);
       if (!isDir)
       {
         UString phyPath = dirItems.GetPhyPath(i);
         if (!inStreamSpec->OpenShared(us2fs(phyPath), options.OpenShareForWrite))
         {
           HRESULT res = callback->OpenFileError(phyPath, ::GetLastError());
           hb.NumErrors++;
           if (res != S_FALSE)
             return res;
           continue;
         }
       }
     }
     RINOK(callback->GetStream(path, isDir));
     UInt64 fileSize = 0;

     hb.InitForNewFile();
     if (!isDir)
     {
       for (UInt32 step = 0;; step++)
       {
         if ((step & 0xFF) == 0)
           RINOK(callback->SetCompleted(&completeValue));
         UInt32 size;
         RINOK(inStream->Read(buf, kBufSize, &size));
         if (size == 0)
           break;
         hb.Update(buf, size);
         fileSize += size;
         completeValue += size;
       }
     }
     hb.Final(isDir, isAltStream, path);
     RINOK(callback->SetOperationResult(fileSize, hb, !isDir));
     RINOK(callback->SetCompleted(&completeValue));
   }
   return callback->AfterLastFile(hb);
 }


 static inline char GetHex(Byte value)
 {
   return (char)((value < 10) ? ('0' + value) : ('A' + (value - 10)));
 }

 void AddHashHexToString(char *dest, const Byte *data, UInt32 size)
 {
   dest[size * 2] = 0;
   if (!data)
   {
     for (UInt32 i = 0; i < size; i++)
     {
       dest[0] = ' ';
       dest[1] = ' ';
       dest += 2;
     }
     return;
   }
   int step = 2;
   if (size <= 8)
   {
     step = -2;
     dest += size * 2 - 2;
   }
   for (UInt32 i = 0; i < size; i++)
   {
     Byte b = data[i];
     dest[0] = GetHex((Byte)((b >> 4) & 0xF));
     dest[1] = GetHex((Byte)(b & 0xF));
     dest += step;
   }
 }
	// HashCalc.cpp

	#include "StdAfx.h"

	#include "../../../../C/Alloc.h"

	#include "../../../Common/StringToInt.h"

	#include "../../Common/FileStreams.h"
	#include "../../Common/StreamUtils.h"

	#include "EnumDirItems.h"
	#include "HashCalc.h"

	using namespace NWindows;

	class CHashMidBuf
	{
	void *_data;
	public:
	CHashMidBuf(): _data(0) {}
	operator void *() { return _data; }
	bool Alloc(size_t size)
	{
	if (_data != 0)
	return false;
	_data = ::MidAlloc(size);
	return _data != 0;
	}
	~CHashMidBuf() { ::MidFree(_data); }
	};

	struct CEnumDirItemCallback_Hash: public IEnumDirItemCallback
	{
	IHashCallbackUI *Callback;

	HRESULT ScanProgress(UInt64 numFolders, UInt64 numFiles, UInt64 totalSize, const wchar_t *path, bool isDir)
	{
	return Callback->ScanProgress(numFolders, numFiles, totalSize, path, isDir);
	}
	};

	static const wchar_t *k_DefaultHashMethod = L"CRC32";

	HRESULT CHashBundle::SetMethods(DECL_EXTERNAL_CODECS_LOC_VARS const UStringVector &hashMethods)
	{
	UStringVector names = hashMethods;
	if (names.IsEmpty())
	names.Add(k_DefaultHashMethod);

	CRecordVector<CMethodId> ids;
	CObjectVector<COneMethodInfo> methods;

	unsigned i;
	for (i = 0; i < names.Size(); i++)
	{
	COneMethodInfo m;
	RINOK(m.ParseMethodFromString(names[i]));

	if (m.MethodName.IsEmpty())
	m.MethodName = k_DefaultHashMethod;

	if (m.MethodName == L"*")
	{
	CRecordVector<CMethodId> tempMethods;
	GetHashMethods(EXTERNAL_CODECS_LOC_VARS tempMethods);
	methods.Clear();
	ids.Clear();
	FOR_VECTOR (t, tempMethods)
	{
	int index = ids.AddToUniqueSorted(tempMethods[t]);
	if (ids.Size() != methods.Size())
	methods.Insert(index, m);
	}
	break;
	}
	else
	{
	// m.MethodName.RemoveChar(L'-');
	CMethodId id;
	if (!FindHashMethod(EXTERNAL_CODECS_LOC_VARS m.MethodName, id))
	return E_NOTIMPL;
	int index = ids.AddToUniqueSorted(id);
	if (ids.Size() != methods.Size())
	methods.Insert(index, m);
	}
	}

	for (i = 0; i < ids.Size(); i++)
	{
	CMyComPtr<IHasher> hasher;
	UString name;
	RINOK(CreateHasher(EXTERNAL_CODECS_LOC_VARS ids[i], name, hasher));
	if (!hasher)
	throw "Can't create hasher";
	const COneMethodInfo &m = methods[i];
	{
	CMyComPtr<ICompressSetCoderProperties> scp;
	hasher.QueryInterface(IID_ICompressSetCoderProperties, &scp);
	if (scp)
	{
	RINOK(m.SetCoderProps(scp, NULL));
	}
	}
	UInt32 digestSize = hasher->GetDigestSize();
	if (digestSize > k_HashCalc_DigestSize_Max)
	return E_NOTIMPL;
	CHasherState &h = Hashers.AddNew();
	h.Hasher = hasher;
	h.Name = name;
	h.DigestSize = digestSize;
	for (int i = 0; i < k_HashCalc_NumGroups; i++)
	memset(h.Digests[i], 0, digestSize);
	}
	return S_OK;
	}

	void CHashBundle::InitForNewFile()
	{
	CurSize = 0;
	FOR_VECTOR (i, Hashers)
	{
	CHasherState &h = Hashers[i];
	h.Hasher->Init();
	memset(h.Digests[k_HashCalc_Index_Current], 0, h.DigestSize);
	}
	}

	void CHashBundle::Update(const void *data, UInt32 size)
	{
	CurSize += size;
	FOR_VECTOR (i, Hashers)
	Hashers[i].Hasher->Update(data, size);
	}

	void CHashBundle::SetSize(UInt64 size)
	{
	CurSize = size;
	}

	static void AddDigests(Byte dest, const Byte src, UInt32 size)
	{
	unsigned next = 0;
	for (UInt32 i = 0; i < size; i++)
	{
	next += (unsigned)dest[i] + (unsigned)src[i];
	dest[i] = (Byte)next;
	next >>= 8;
	}
	}

	void CHashBundle::Final(bool isDir, bool isAltStream, const UString &path)
	{
	if (isDir)
	NumDirs++;
	else if (isAltStream)
	{
	NumAltStreams++;
	AltStreamsSize += CurSize;
	}
	else
	{
	NumFiles++;
	FilesSize += CurSize;
	}

	Byte pre[16];
	memset(pre, 0, sizeof(pre));
	if (isDir)
	pre[0] = 1;

	FOR_VECTOR (i, Hashers)
	{
	CHasherState &h = Hashers[i];
	if (!isDir)
	{
	h.Hasher->Final(h.Digests[0]);
	if (!isAltStream)
	AddDigests(h.Digests[k_HashCalc_Index_DataSum], h.Digests[0], h.DigestSize);
	}

	h.Hasher->Init();
	h.Hasher->Update(pre, sizeof(pre));
	h.Hasher->Update(h.Digests[0], h.DigestSize);

	for (unsigned k = 0; k < path.Len(); k++)
	{
	wchar_t c = path[k];
	Byte temp[2] = { (Byte)(c & 0xFF), (Byte)((c >> 8) & 0xFF) };
	h.Hasher->Update(temp, 2);
	}

	Byte tempDigest[k_HashCalc_DigestSize_Max];
	h.Hasher->Final(tempDigest);
	if (!isAltStream)
	AddDigests(h.Digests[k_HashCalc_Index_NamesSum], tempDigest, h.DigestSize);
	AddDigests(h.Digests[k_HashCalc_Index_StreamsSum], tempDigest, h.DigestSize);
	}
	}


	HRESULT HashCalc(
	DECL_EXTERNAL_CODECS_LOC_VARS
	const NWildcard::CCensor &censor,
	const CHashOptions &options,
	UString &errorInfo,
	IHashCallbackUI *callback)
	{
	CDirItems dirItems;

	UInt64 numErrors = 0;
	UInt64 totalBytes = 0;
	if (options.StdInMode)
	{
	CDirItem di;
	di.Size = (UInt64)(Int64)-1;
	di.Attrib = 0;
	di.MTime.dwLowDateTime = 0;
	di.MTime.dwHighDateTime = 0;
	di.CTime = di.ATime = di.MTime;
	dirItems.Items.Add(di);
	}
	else
	{
	CEnumDirItemCallback_Hash enumCallback;
	enumCallback.Callback = callback;
	RINOK(callback->StartScanning());
	dirItems.ScanAltStreams = options.AltStreamsMode;
	HRESULT res = EnumerateItems(censor,
	options.PathMode,
	UString(),
	dirItems, &enumCallback);
	totalBytes = dirItems.TotalSize;
	FOR_VECTOR (i, dirItems.ErrorPaths)
	{
	RINOK(callback->CanNotFindError(fs2us(dirItems.ErrorPaths[i]), dirItems.ErrorCodes[i]));
	}
	numErrors = dirItems.ErrorPaths.Size();
	if (res != S_OK)
	{
	if (res != E_ABORT)
	errorInfo = L"Scanning error";
	return res;
	}
	RINOK(callback->FinishScanning());
	}

	unsigned i;
	CHashBundle hb;
	RINOK(hb.SetMethods(EXTERNAL_CODECS_LOC_VARS options.Methods));
	hb.Init();
	hb.NumErrors = numErrors;

	if (options.StdInMode)
	{
	RINOK(callback->SetNumFiles(1));
	}
	else
	{
	RINOK(callback->SetTotal(totalBytes));
	}

	const UInt32 kBufSize = 1 << 15;
	CHashMidBuf buf;
	if (!buf.Alloc(kBufSize))
	return E_OUTOFMEMORY;

	UInt64 completeValue = 0;

	RINOK(callback->BeforeFirstFile(hb));

	for (i = 0; i < dirItems.Items.Size(); i++)
	{
	CMyComPtr<ISequentialInStream> inStream;
	UString path;
	bool isDir = false;
	bool isAltStream = false;
	if (options.StdInMode)
	{
	inStream = new CStdInFileStream;
	}
	else
	{
	CInFileStream *inStreamSpec = new CInFileStream;
	inStream = inStreamSpec;
	const CDirItem &dirItem = dirItems.Items[i];
	isDir = dirItem.IsDir();
	isAltStream = dirItem.IsAltStream;
	path = dirItems.GetLogPath(i);
	if (!isDir)
	{
	UString phyPath = dirItems.GetPhyPath(i);
	if (!inStreamSpec->OpenShared(us2fs(phyPath), options.OpenShareForWrite))
	{
	HRESULT res = callback->OpenFileError(phyPath, ::GetLastError());
	hb.NumErrors++;
	if (res != S_FALSE)
	return res;
	continue;
	}
	}
	}
	RINOK(callback->GetStream(path, isDir));
	UInt64 fileSize = 0;

	hb.InitForNewFile();
	if (!isDir)
	{
	for (UInt32 step = 0;; step++)
	{
	if ((step & 0xFF) == 0)
	RINOK(callback->SetCompleted(&completeValue));
	UInt32 size;
	RINOK(inStream->Read(buf, kBufSize, &size));
	if (size == 0)
	break;
	hb.Update(buf, size);
	fileSize += size;
	completeValue += size;
	}
	}
	hb.Final(isDir, isAltStream, path);
	RINOK(callback->SetOperationResult(fileSize, hb, !isDir));
	RINOK(callback->SetCompleted(&completeValue));
	}
	return callback->AfterLastFile(hb);
	}


	static inline char GetHex(Byte value)
	{
	return (char)((value < 10) ? ('0' + value) : ('A' + (value - 10)));
	}

	void AddHashHexToString(char dest, const Byte data, UInt32 size)
	{
	dest[size * 2] = 0;
	if (!data)
	{
	for (UInt32 i = 0; i < size; i++)
	{
	dest[0] = ' ';
	dest[1] = ' ';
	dest += 2;
	}
	return;
	}
	int step = 2;
	if (size <= 8)
	{
	step = -2;
	dest += size * 2 - 2;
	}
	for (UInt32 i = 0; i < size; i++)
	{
	Byte b = data[i];
	dest[0] = GetHex((Byte)((b >> 4) & 0xF));
	dest[1] = GetHex((Byte)(b & 0xF));
	dest += step;
	}
	}