// 7zIn.cpp
#include "StdAfx.h"
#include "7zIn.h"
#include "7zDecode.h"
#include "../../Common/StreamObjects.h"
#include "../../Common/StreamUtils.h"
extern "C"
{
#include "../../../../C/7zCrc.h"
}
// define FORMAT_7Z_RECOVERY if you want to recover multivolume archives with empty StartHeader
#ifndef _SFX
#define FORMAT_7Z_RECOVERY
#endif
namespace NArchive {
namespace N7z {
class CInArchiveException {};
static void ThrowException() { throw CInArchiveException(); }
static inline void ThrowEndOfData() { ThrowException(); }
static inline void ThrowUnsupported() { ThrowException(); }
static inline void ThrowIncorrect() { ThrowException(); }
static inline void ThrowUnsupportedVersion() { ThrowException(); }
/*
class CInArchiveException
{
public:
enum CCauseType
{
kUnsupportedVersion = 0,
kUnsupported,
kIncorrect,
kEndOfData,
} Cause;
CInArchiveException(CCauseType cause): Cause(cause) {};
};
static void ThrowException(CInArchiveException::CCauseType c) { throw CInArchiveException(c); }
static void ThrowEndOfData() { ThrowException(CInArchiveException::kEndOfData); }
static void ThrowUnsupported() { ThrowException(CInArchiveException::kUnsupported); }
static void ThrowIncorrect() { ThrowException(CInArchiveException::kIncorrect); }
static void ThrowUnsupportedVersion() { ThrowException(CInArchiveException::kUnsupportedVersion); }
*/
class CStreamSwitch
{
CInArchive *_archive;
bool _needRemove;
public:
CStreamSwitch(): _needRemove(false) {}
~CStreamSwitch() { Remove(); }
void Remove();
void Set(CInArchive *archive, const Byte *data, size_t size);
void Set(CInArchive *archive, const CByteBuffer &byteBuffer);
void Set(CInArchive *archive, const CObjectVector<CByteBuffer> *dataVector);
};
void CStreamSwitch::Remove()
{
if (_needRemove)
{
_archive->DeleteByteStream();
_needRemove = false;
}
}
void CStreamSwitch::Set(CInArchive *archive, const Byte *data, size_t size)
{
Remove();
_archive = archive;
_archive->AddByteStream(data, size);
_needRemove = true;
}
void CStreamSwitch::Set(CInArchive *archive, const CByteBuffer &byteBuffer)
{
Set(archive, byteBuffer, byteBuffer.GetCapacity());
}
void CStreamSwitch::Set(CInArchive *archive, const CObjectVector<CByteBuffer> *dataVector)
{
Remove();
Byte external = archive->ReadByte();
if (external != 0)
{
int dataIndex = (int)archive->ReadNum();
if (dataIndex < 0 || dataIndex >= dataVector->Size())
ThrowIncorrect();
Set(archive, (*dataVector)[dataIndex]);
}
}
#if defined(_M_IX86) || defined(_M_X64) || defined(_M_AMD64) || defined(__i386__) || defined(__x86_64__)
#define SZ_LITTLE_ENDIAN_UNALIGN
#endif
#ifdef SZ_LITTLE_ENDIAN_UNALIGN
static inline UInt16 GetUInt16FromMem(const Byte *p) { return *(const UInt16 *)p; }
static inline UInt32 GetUInt32FromMem(const Byte *p) { return *(const UInt32 *)p; }
static inline UInt64 GetUInt64FromMem(const Byte *p) { return *(const UInt64 *)p; }
#else
static inline UInt16 GetUInt16FromMem(const Byte *p) { return p[0] | ((UInt16)p[1] << 8); }
static inline UInt32 GetUInt32FromMem(const Byte *p) { return p[0] | ((UInt32)p[1] << 8) | ((UInt32)p[2] << 16) | ((UInt32)p[3] << 24); }
static inline UInt64 GetUInt64FromMem(const Byte *p) { return GetUInt32FromMem(p) | ((UInt64)GetUInt32FromMem(p + 4) << 32); }
#endif
Byte CInByte2::ReadByte()
{
if (_pos >= _size)
ThrowEndOfData();
return _buffer[_pos++];
}
void CInByte2::ReadBytes(Byte *data, size_t size)
{
if (size > _size - _pos)
ThrowEndOfData();
for (size_t i = 0; i < size; i++)
data[i] = _buffer[_pos++];
}
void CInByte2::SkeepData(UInt64 size)
{
if (size > _size - _pos)
ThrowEndOfData();
}
void CInByte2::SkeepData()
{
SkeepData(ReadNumber());
}
UInt64 CInByte2::ReadNumber()
{
if (_pos >= _size)
ThrowEndOfData();
Byte firstByte = _buffer[_pos++];
Byte mask = 0x80;
UInt64 value = 0;
for (int i = 0; i < 8; i++)
{
if ((firstByte & mask) == 0)
{
UInt64 highPart = firstByte & (mask - 1);
value += (highPart << (i * 8));
return value;
}
if (_pos >= _size)
ThrowEndOfData();
value |= ((UInt64)_buffer[_pos++] << (8 * i));
mask >>= 1;
}
return value;
}
CNum CInByte2::ReadNum()
{
UInt64 value = ReadNumber();
if (value > kNumMax)
ThrowUnsupported();
return (CNum)value;
}
UInt32 CInByte2::ReadUInt32()
{
if (_pos + 4 > _size)
ThrowEndOfData();
UInt32 res = GetUInt32FromMem(_buffer + _pos);
_pos += 4;
return res;
}
UInt64 CInByte2::ReadUInt64()
{
if (_pos + 8 > _size)
ThrowEndOfData();
UInt64 res = GetUInt64FromMem(_buffer + _pos);
_pos += 8;
return res;
}
void CInByte2::ReadString(UString &s)
{
const Byte *buf = _buffer + _pos;
size_t rem = (_size - _pos) / 2 * 2;
{
size_t i;
for (i = 0; i < rem; i += 2)
if (buf[i] == 0 && buf[i + 1] == 0)
break;
if (i == rem)
ThrowEndOfData();
rem = i;
}
int len = (int)(rem / 2);
if (len < 0 || (size_t)len * 2 != rem)
ThrowUnsupported();
wchar_t *p = s.GetBuffer(len);
int i;
for (i = 0; i < len; i++, buf += 2)
p[i] = (wchar_t)GetUInt16FromMem(buf);
p[i] = 0;
s.ReleaseBuffer(len);
_pos += rem + 2;
}
static inline bool TestSignatureCandidate(const Byte *p)
{
for (int i = 0; i < kSignatureSize; i++)
if (p[i] != kSignature[i])
return false;
return (p[0x1A] == 0 && p[0x1B] == 0);
}
HRESULT CInArchive::FindAndReadSignature(IInStream *stream, const UInt64 *searchHeaderSizeLimit)
{
UInt32 processedSize;
RINOK(ReadStream(stream, _header, kHeaderSize, &processedSize));
if (processedSize != kHeaderSize)
return S_FALSE;
if (TestSignatureCandidate(_header))
return S_OK;
CByteBuffer byteBuffer;
const UInt32 kBufferSize = (1 << 16);
byteBuffer.SetCapacity(kBufferSize);
Byte *buffer = byteBuffer;
UInt32 numPrevBytes = kHeaderSize - 1;
memcpy(buffer, _header + 1, numPrevBytes);
UInt64 curTestPos = _arhiveBeginStreamPosition + 1;
for (;;)
{
if (searchHeaderSizeLimit != NULL)
if (curTestPos - _arhiveBeginStreamPosition > *searchHeaderSizeLimit)
break;
UInt32 numReadBytes = kBufferSize - numPrevBytes;
RINOK(stream->Read(buffer + numPrevBytes, numReadBytes, &processedSize));
UInt32 numBytesInBuffer = numPrevBytes + processedSize;
if (numBytesInBuffer < kHeaderSize)
break;
UInt32 numTests = numBytesInBuffer - kHeaderSize + 1;
for(UInt32 pos = 0; pos < numTests; pos++, curTestPos++)
{
if (TestSignatureCandidate(buffer + pos))
{
memcpy(_header, buffer + pos, kHeaderSize);
_arhiveBeginStreamPosition = curTestPos;
return stream->Seek(curTestPos + kHeaderSize, STREAM_SEEK_SET, NULL);
}
}
numPrevBytes = numBytesInBuffer - numTests;
memmove(buffer, buffer + numTests, numPrevBytes);
}
return S_FALSE;
}
// S_FALSE means that file is not archive
HRESULT CInArchive::Open(IInStream *stream, const UInt64 *searchHeaderSizeLimit)
{
Close();
RINOK(stream->Seek(0, STREAM_SEEK_CUR, &_arhiveBeginStreamPosition))
RINOK(FindAndReadSignature(stream, searchHeaderSizeLimit));
_stream = stream;
return S_OK;
}
void CInArchive::Close()
{
_stream.Release();
}
void CInArchive::ReadArchiveProperties(CInArchiveInfo & /* archiveInfo */)
{
for (;;)
{
if (ReadID() == NID::kEnd)
break;
SkeepData();
}
}
void CInArchive::GetNextFolderItem(CFolder &folder)
{
CNum numCoders = ReadNum();
folder.Coders.Clear();
folder.Coders.Reserve((int)numCoders);
CNum numInStreams = 0;
CNum numOutStreams = 0;
CNum i;
for (i = 0; i < numCoders; i++)
{
folder.Coders.Add(CCoderInfo());
CCoderInfo &coder = folder.Coders.Back();
{
Byte mainByte = ReadByte();
int idSize = (mainByte & 0xF);
Byte longID[15];
ReadBytes(longID, idSize);
if (idSize > 8)
ThrowUnsupported();
UInt64 id = 0;
for (int j = 0; j < idSize; j++)
id |= (UInt64)longID[idSize - 1 - j] << (8 * j);
coder.MethodID = id;
if ((mainByte & 0x10) != 0)
{
coder.NumInStreams = ReadNum();
coder.NumOutStreams = ReadNum();
}
else
{
coder.NumInStreams = 1;
coder.NumOutStreams = 1;
}
if ((mainByte & 0x20) != 0)
{
CNum propertiesSize = ReadNum();
coder.Properties.SetCapacity((size_t)propertiesSize);
ReadBytes((Byte *)coder.Properties, (size_t)propertiesSize);
}
if ((mainByte & 0x80) != 0)
ThrowUnsupported();
}
numInStreams += coder.NumInStreams;
numOutStreams += coder.NumOutStreams;
}
CNum numBindPairs;
numBindPairs = numOutStreams - 1;
folder.BindPairs.Clear();
folder.BindPairs.Reserve(numBindPairs);
for (i = 0; i < numBindPairs; i++)
{
CBindPair bindPair;
bindPair.InIndex = ReadNum();
bindPair.OutIndex = ReadNum();
folder.BindPairs.Add(bindPair);
}
CNum numPackedStreams = numInStreams - numBindPairs;
folder.PackStreams.Reserve(numPackedStreams);
if (numPackedStreams == 1)
{
for (CNum j = 0; j < numInStreams; j++)
if (folder.FindBindPairForInStream(j) < 0)
{
folder.PackStreams.Add(j);
break;
}
}
else
for(i = 0; i < numPackedStreams; i++)
folder.PackStreams.Add(ReadNum());
}
void CInArchive::WaitAttribute(UInt64 attribute)
{
for (;;)
{
UInt64 type = ReadID();
if (type == attribute)
return;
if (type == NID::kEnd)
ThrowIncorrect();
SkeepData();
}
}
void CInArchive::ReadHashDigests(int numItems,
CRecordVector<bool> &digestsDefined,
CRecordVector<UInt32> &digests)
{
ReadBoolVector2(numItems, digestsDefined);
digests.Clear();
digests.Reserve(numItems);
for(int i = 0; i < numItems; i++)
{
UInt32 crc = 0;
if (digestsDefined[i])
crc = ReadUInt32();
digests.Add(crc);
}
}
void CInArchive::ReadPackInfo(
UInt64 &dataOffset,
CRecordVector<UInt64> &packSizes,
CRecordVector<bool> &packCRCsDefined,
CRecordVector<UInt32> &packCRCs)
{
dataOffset = ReadNumber();
CNum numPackStreams = ReadNum();
WaitAttribute(NID::kSize);
packSizes.Clear();
packSizes.Reserve(numPackStreams);
for (CNum i = 0; i < numPackStreams; i++)
packSizes.Add(ReadNumber());
UInt64 type;
for (;;)
{
type = ReadID();
if (type == NID::kEnd)
break;
if (type == NID::kCRC)
{
ReadHashDigests(numPackStreams, packCRCsDefined, packCRCs);
continue;
}
SkeepData();
}
if (packCRCsDefined.IsEmpty())
{
packCRCsDefined.Reserve(numPackStreams);
packCRCsDefined.Clear();
packCRCs.Reserve(numPackStreams);
packCRCs.Clear();
for(CNum i = 0; i < numPackStreams; i++)
{
packCRCsDefined.Add(false);
packCRCs.Add(0);
}
}
}
void CInArchive::ReadUnPackInfo(
const CObjectVector<CByteBuffer> *dataVector,
CObjectVector<CFolder> &folders)
{
WaitAttribute(NID::kFolder);
CNum numFolders = ReadNum();
{
CStreamSwitch streamSwitch;
streamSwitch.Set(this, dataVector);
folders.Clear();
folders.Reserve(numFolders);
for(CNum i = 0; i < numFolders; i++)
{
folders.Add(CFolder());
GetNextFolderItem(folders.Back());
}
}
WaitAttribute(NID::kCodersUnPackSize);
CNum i;
for (i = 0; i < numFolders; i++)
{
CFolder &folder = folders[i];
CNum numOutStreams = folder.GetNumOutStreams();
folder.UnPackSizes.Reserve(numOutStreams);
for (CNum j = 0; j < numOutStreams; j++)
folder.UnPackSizes.Add(ReadNumber());
}
for (;;)
{
UInt64 type = ReadID();
if (type == NID::kEnd)
return;
if (type == NID::kCRC)
{
CRecordVector<bool> crcsDefined;
CRecordVector<UInt32> crcs;
ReadHashDigests(numFolders, crcsDefined, crcs);
for(i = 0; i < numFolders; i++)
{
CFolder &folder = folders[i];
folder.UnPackCRCDefined = crcsDefined[i];
folder.UnPackCRC = crcs[i];
}
continue;
}
SkeepData();
}
}
void CInArchive::ReadSubStreamsInfo(
const CObjectVector<CFolder> &folders,
CRecordVector<CNum> &numUnPackStreamsInFolders,
CRecordVector<UInt64> &unPackSizes,
CRecordVector<bool> &digestsDefined,
CRecordVector<UInt32> &digests)
{
numUnPackStreamsInFolders.Clear();
numUnPackStreamsInFolders.Reserve(folders.Size());
UInt64 type;
for (;;)
{
type = ReadID();
if (type == NID::kNumUnPackStream)
{
for(int i = 0; i < folders.Size(); i++)
numUnPackStreamsInFolders.Add(ReadNum());
continue;
}
if (type == NID::kCRC || type == NID::kSize)
break;
if (type == NID::kEnd)
break;
SkeepData();
}
if (numUnPackStreamsInFolders.IsEmpty())
for(int i = 0; i < folders.Size(); i++)
numUnPackStreamsInFolders.Add(1);
int i;
for(i = 0; i < numUnPackStreamsInFolders.Size(); i++)
{
// v3.13 incorrectly worked with empty folders
// v4.07: we check that folder is empty
CNum numSubstreams = numUnPackStreamsInFolders[i];
if (numSubstreams == 0)
continue;
UInt64 sum = 0;
for (CNum j = 1; j < numSubstreams; j++)
if (type == NID::kSize)
{
UInt64 size = ReadNumber();
unPackSizes.Add(size);
sum += size;
}
unPackSizes.Add(folders[i].GetUnPackSize() - sum);
}
if (type == NID::kSize)
type = ReadID();
int numDigests = 0;
int numDigestsTotal = 0;
for(i = 0; i < folders.Size(); i++)
{
CNum numSubstreams = numUnPackStreamsInFolders[i];
if (numSubstreams != 1 || !folders[i].UnPackCRCDefined)
numDigests += numSubstreams;
numDigestsTotal += numSubstreams;
}
for (;;)
{
if (type == NID::kCRC)
{
CRecordVector<bool> digestsDefined2;
CRecordVector<UInt32> digests2;
ReadHashDigests(numDigests, digestsDefined2, digests2);
int digestIndex = 0;
for (i = 0; i < folders.Size(); i++)
{
CNum numSubstreams = numUnPackStreamsInFolders[i];
const CFolder &folder = folders[i];
if (numSubstreams == 1 && folder.UnPackCRCDefined)
{
digestsDefined.Add(true);
digests.Add(folder.UnPackCRC);
}
else
for (CNum j = 0; j < numSubstreams; j++, digestIndex++)
{
digestsDefined.Add(digestsDefined2[digestIndex]);
digests.Add(digests2[digestIndex]);
}
}
}
else if (type == NID::kEnd)
{
if (digestsDefined.IsEmpty())
{
digestsDefined.Clear();
digests.Clear();
for (int i = 0; i < numDigestsTotal; i++)
{
digestsDefined.Add(false);
digests.Add(0);
}
}
return;
}
else
SkeepData();
type = ReadID();
}
}
void CInArchive::ReadStreamsInfo(
const CObjectVector<CByteBuffer> *dataVector,
UInt64 &dataOffset,
CRecordVector<UInt64> &packSizes,
CRecordVector<bool> &packCRCsDefined,
CRecordVector<UInt32> &packCRCs,
CObjectVector<CFolder> &folders,
CRecordVector<CNum> &numUnPackStreamsInFolders,
CRecordVector<UInt64> &unPackSizes,
CRecordVector<bool> &digestsDefined,
CRecordVector<UInt32> &digests)
{
for (;;)
{
UInt64 type = ReadID();
if (type > ((UInt32)1 << 30))
ThrowIncorrect();
switch((UInt32)type)
{
case NID::kEnd:
return;
case NID::kPackInfo:
{
ReadPackInfo(dataOffset, packSizes, packCRCsDefined, packCRCs);
break;
}
case NID::kUnPackInfo:
{
ReadUnPackInfo(dataVector, folders);
break;
}
case NID::kSubStreamsInfo:
{
ReadSubStreamsInfo(folders, numUnPackStreamsInFolders,
unPackSizes, digestsDefined, digests);
break;
}
default:
ThrowIncorrect();
}
}
}
void CInArchive::ReadBoolVector(int numItems, CBoolVector &v)
{
v.Clear();
v.Reserve(numItems);
Byte b = 0;
Byte mask = 0;
for(int i = 0; i < numItems; i++)
{
if (mask == 0)
{
b = ReadByte();
mask = 0x80;
}
v.Add((b & mask) != 0);
mask >>= 1;
}
}
void CInArchive::ReadBoolVector2(int numItems, CBoolVector &v)
{
Byte allAreDefined = ReadByte();
if (allAreDefined == 0)
{
ReadBoolVector(numItems, v);
return;
}
v.Clear();
v.Reserve(numItems);
for (int i = 0; i < numItems; i++)
v.Add(true);
}
void CInArchive::ReadTime(const CObjectVector<CByteBuffer> &dataVector,
CObjectVector<CFileItem> &files, UInt32 type)
{
CBoolVector boolVector;
ReadBoolVector2(files.Size(), boolVector);
CStreamSwitch streamSwitch;
streamSwitch.Set(this, &dataVector);
for(int i = 0; i < files.Size(); i++)
{
CFileItem &file = files[i];
CArchiveFileTime fileTime;
fileTime.dwLowDateTime = 0;
fileTime.dwHighDateTime = 0;
bool defined = boolVector[i];
if (defined)
{
fileTime.dwLowDateTime = ReadUInt32();
fileTime.dwHighDateTime = ReadUInt32();
}
switch(type)
{
case NID::kCreationTime:
file.IsCreationTimeDefined = defined;
if (defined)
file.CreationTime = fileTime;
break;
case NID::kLastWriteTime:
file.IsLastWriteTimeDefined = defined;
if (defined)
file.LastWriteTime = fileTime;
break;
case NID::kLastAccessTime:
file.IsLastAccessTimeDefined = defined;
if (defined)
file.LastAccessTime = fileTime;
break;
}
}
}
HRESULT CInArchive::ReadAndDecodePackedStreams(
DECL_EXTERNAL_CODECS_LOC_VARS
UInt64 baseOffset,
UInt64 &dataOffset, CObjectVector<CByteBuffer> &dataVector
#ifndef _NO_CRYPTO
, ICryptoGetTextPassword *getTextPassword
#endif
)
{
CRecordVector<UInt64> packSizes;
CRecordVector<bool> packCRCsDefined;
CRecordVector<UInt32> packCRCs;
CObjectVector<CFolder> folders;
CRecordVector<CNum> numUnPackStreamsInFolders;
CRecordVector<UInt64> unPackSizes;
CRecordVector<bool> digestsDefined;
CRecordVector<UInt32> digests;
ReadStreamsInfo(NULL,
dataOffset,
packSizes,
packCRCsDefined,
packCRCs,
folders,
numUnPackStreamsInFolders,
unPackSizes,
digestsDefined,
digests);
// database.ArchiveInfo.DataStartPosition2 += database.ArchiveInfo.StartPositionAfterHeader;
CNum packIndex = 0;
CDecoder decoder(
#ifdef _ST_MODE
false
#else
true
#endif
);
UInt64 dataStartPos = baseOffset + dataOffset;
for(int i = 0; i < folders.Size(); i++)
{
const CFolder &folder = folders[i];
dataVector.Add(CByteBuffer());
CByteBuffer &data = dataVector.Back();
UInt64 unPackSize64 = folder.GetUnPackSize();
size_t unPackSize = (size_t)unPackSize64;
if (unPackSize != unPackSize64)
ThrowUnsupported();
data.SetCapacity(unPackSize);
CSequentialOutStreamImp2 *outStreamSpec = new CSequentialOutStreamImp2;
CMyComPtr<ISequentialOutStream> outStream = outStreamSpec;
outStreamSpec->Init(data, unPackSize);
HRESULT result = decoder.Decode(
EXTERNAL_CODECS_LOC_VARS
_stream, dataStartPos,
&packSizes[packIndex], folder, outStream, NULL
#ifndef _NO_CRYPTO
, getTextPassword
#endif
#ifdef COMPRESS_MT
, false, 1
#endif
);
RINOK(result);
if (folder.UnPackCRCDefined)
if (CrcCalc(data, unPackSize) != folder.UnPackCRC)
ThrowIncorrect();
for (int j = 0; j < folder.PackStreams.Size(); j++)
dataStartPos += packSizes[packIndex++];
}
return S_OK;
}
HRESULT CInArchive::ReadHeader(
DECL_EXTERNAL_CODECS_LOC_VARS
CArchiveDatabaseEx &database
#ifndef _NO_CRYPTO
, ICryptoGetTextPassword *getTextPassword
#endif
)
{
UInt64 type = ReadID();
if (type == NID::kArchiveProperties)
{
ReadArchiveProperties(database.ArchiveInfo);
type = ReadID();
}
CObjectVector<CByteBuffer> dataVector;
if (type == NID::kAdditionalStreamsInfo)
{
HRESULT result = ReadAndDecodePackedStreams(
EXTERNAL_CODECS_LOC_VARS
database.ArchiveInfo.StartPositionAfterHeader,
database.ArchiveInfo.DataStartPosition2,
dataVector
#ifndef _NO_CRYPTO
, getTextPassword
#endif
);
RINOK(result);
database.ArchiveInfo.DataStartPosition2 += database.ArchiveInfo.StartPositionAfterHeader;
type = ReadID();
}
CRecordVector<UInt64> unPackSizes;
CRecordVector<bool> digestsDefined;
CRecordVector<UInt32> digests;
if (type == NID::kMainStreamsInfo)
{
ReadStreamsInfo(&dataVector,
database.ArchiveInfo.DataStartPosition,
database.PackSizes,
database.PackCRCsDefined,
database.PackCRCs,
database.Folders,
database.NumUnPackStreamsVector,
unPackSizes,
digestsDefined,
digests);
database.ArchiveInfo.DataStartPosition += database.ArchiveInfo.StartPositionAfterHeader;
type = ReadID();
}
else
{
for(int i = 0; i < database.Folders.Size(); i++)
{
database.NumUnPackStreamsVector.Add(1);
CFolder &folder = database.Folders[i];
unPackSizes.Add(folder.GetUnPackSize());
digestsDefined.Add(folder.UnPackCRCDefined);
digests.Add(folder.UnPackCRC);
}
}
database.Files.Clear();
if (type == NID::kEnd)
return S_OK;
if (type != NID::kFilesInfo)
ThrowIncorrect();
CNum numFiles = ReadNum();
database.Files.Reserve(numFiles);
CNum i;
for(i = 0; i < numFiles; i++)
database.Files.Add(CFileItem());
database.ArchiveInfo.FileInfoPopIDs.Add(NID::kSize);
if (!database.PackSizes.IsEmpty())
database.ArchiveInfo.FileInfoPopIDs.Add(NID::kPackInfo);
if (numFiles > 0 && !digests.IsEmpty())
database.ArchiveInfo.FileInfoPopIDs.Add(NID::kCRC);
CBoolVector emptyStreamVector;
emptyStreamVector.Reserve((int)numFiles);
for(i = 0; i < numFiles; i++)
emptyStreamVector.Add(false);
CBoolVector emptyFileVector;
CBoolVector antiFileVector;
CNum numEmptyStreams = 0;
for (;;)
{
UInt64 type = ReadID();
if (type == NID::kEnd)
break;
UInt64 size = ReadNumber();
bool isKnownType = true;
if (type > ((UInt32)1 << 30))
isKnownType = false;
else switch((UInt32)type)
{
case NID::kName:
{
CStreamSwitch streamSwitch;
streamSwitch.Set(this, &dataVector);
for(int i = 0; i < database.Files.Size(); i++)
_inByteBack->ReadString(database.Files[i].Name);
break;
}
case NID::kWinAttributes:
{
CBoolVector boolVector;
ReadBoolVector2(database.Files.Size(), boolVector);
CStreamSwitch streamSwitch;
streamSwitch.Set(this, &dataVector);
for(i = 0; i < numFiles; i++)
{
CFileItem &file = database.Files[i];
file.AreAttributesDefined = boolVector[i];
if (file.AreAttributesDefined)
file.Attributes = ReadUInt32();
}
break;
}
case NID::kStartPos:
{
CBoolVector boolVector;
ReadBoolVector2(database.Files.Size(), boolVector);
CStreamSwitch streamSwitch;
streamSwitch.Set(this, &dataVector);
for(i = 0; i < numFiles; i++)
{
CFileItem &file = database.Files[i];
file.IsStartPosDefined = boolVector[i];
if (file.IsStartPosDefined)
file.StartPos = ReadUInt64();
}
break;
}
case NID::kEmptyStream:
{
ReadBoolVector(numFiles, emptyStreamVector);
for (i = 0; i < (CNum)emptyStreamVector.Size(); i++)
if (emptyStreamVector[i])
numEmptyStreams++;
emptyFileVector.Reserve(numEmptyStreams);
antiFileVector.Reserve(numEmptyStreams);
for (i = 0; i < numEmptyStreams; i++)
{
emptyFileVector.Add(false);
antiFileVector.Add(false);
}
break;
}
case NID::kEmptyFile:
{
ReadBoolVector(numEmptyStreams, emptyFileVector);
break;
}
case NID::kAnti:
{
ReadBoolVector(numEmptyStreams, antiFileVector);
break;
}
case NID::kCreationTime:
case NID::kLastWriteTime:
case NID::kLastAccessTime:
{
ReadTime(dataVector, database.Files, (UInt32)type);
break;
}
default:
isKnownType = false;
}
if (isKnownType)
database.ArchiveInfo.FileInfoPopIDs.Add(type);
else
SkeepData(size);
}
CNum emptyFileIndex = 0;
CNum sizeIndex = 0;
for(i = 0; i < numFiles; i++)
{
CFileItem &file = database.Files[i];
file.HasStream = !emptyStreamVector[i];
if(file.HasStream)
{
file.IsDirectory = false;
file.IsAnti = false;
file.UnPackSize = unPackSizes[sizeIndex];
file.FileCRC = digests[sizeIndex];
file.IsFileCRCDefined = digestsDefined[sizeIndex];
sizeIndex++;
}
else
{
file.IsDirectory = !emptyFileVector[emptyFileIndex];
file.IsAnti = antiFileVector[emptyFileIndex];
emptyFileIndex++;
file.UnPackSize = 0;
file.IsFileCRCDefined = false;
}
}
return S_OK;
}
void CArchiveDatabaseEx::FillFolderStartPackStream()
{
FolderStartPackStreamIndex.Clear();
FolderStartPackStreamIndex.Reserve(Folders.Size());
CNum startPos = 0;
for(int i = 0; i < Folders.Size(); i++)
{
FolderStartPackStreamIndex.Add(startPos);
startPos += (CNum)Folders[i].PackStreams.Size();
}
}
void CArchiveDatabaseEx::FillStartPos()
{
PackStreamStartPositions.Clear();
PackStreamStartPositions.Reserve(PackSizes.Size());
UInt64 startPos = 0;
for(int i = 0; i < PackSizes.Size(); i++)
{
PackStreamStartPositions.Add(startPos);
startPos += PackSizes[i];
}
}
void CArchiveDatabaseEx::FillFolderStartFileIndex()
{
FolderStartFileIndex.Clear();
FolderStartFileIndex.Reserve(Folders.Size());
FileIndexToFolderIndexMap.Clear();
FileIndexToFolderIndexMap.Reserve(Files.Size());
int folderIndex = 0;
CNum indexInFolder = 0;
for (int i = 0; i < Files.Size(); i++)
{
const CFileItem &file = Files[i];
bool emptyStream = !file.HasStream;
if (emptyStream && indexInFolder == 0)
{
FileIndexToFolderIndexMap.Add(kNumNoIndex);
continue;
}
if (indexInFolder == 0)
{
// v3.13 incorrectly worked with empty folders
// v4.07: Loop for skipping empty folders
for (;;)
{
if (folderIndex >= Folders.Size())
ThrowIncorrect();
FolderStartFileIndex.Add(i); // check it
if (NumUnPackStreamsVector[folderIndex] != 0)
break;
folderIndex++;
}
}
FileIndexToFolderIndexMap.Add(folderIndex);
if (emptyStream)
continue;
indexInFolder++;
if (indexInFolder >= NumUnPackStreamsVector[folderIndex])
{
folderIndex++;
indexInFolder = 0;
}
}
}
HRESULT CInArchive::ReadDatabase2(
DECL_EXTERNAL_CODECS_LOC_VARS
CArchiveDatabaseEx &database
#ifndef _NO_CRYPTO
, ICryptoGetTextPassword *getTextPassword
#endif
)
{
database.Clear();
database.ArchiveInfo.StartPosition = _arhiveBeginStreamPosition;
database.ArchiveInfo.Version.Major = _header[6];
database.ArchiveInfo.Version.Minor = _header[7];
if (database.ArchiveInfo.Version.Major != kMajorVersion)
ThrowUnsupportedVersion();
UInt32 crcFromArchive = GetUInt32FromMem(_header + 8);
UInt64 nextHeaderOffset = GetUInt64FromMem(_header + 0xC);
UInt64 nextHeaderSize = GetUInt64FromMem(_header + 0x14);
UInt32 nextHeaderCRC = GetUInt32FromMem(_header + 0x1C);
UInt32 crc = CrcCalc(_header + 0xC, 20);
#ifdef FORMAT_7Z_RECOVERY
if (crcFromArchive == 0 && nextHeaderOffset == 0 && nextHeaderSize == 0 && nextHeaderCRC == 0)
{
UInt64 cur, cur2;
RINOK(_stream->Seek(0, STREAM_SEEK_CUR, &cur));
const int kCheckSize = 500;
Byte buf[kCheckSize];
RINOK(_stream->Seek(0, STREAM_SEEK_END, &cur2));
int checkSize = kCheckSize;
if (cur2 - cur < kCheckSize)
checkSize = (int)(cur2 - cur);
RINOK(_stream->Seek(-checkSize, STREAM_SEEK_END, &cur2));
UInt32 realProcessedSize;
RINOK(_stream->Read(buf, (UInt32)kCheckSize, &realProcessedSize));
int i;
for (i = (int)realProcessedSize - 2; i >= 0; i--)
if (buf[i] == 0x17 && buf[i + 1] == 0x6 || buf[i] == 0x01 && buf[i + 1] == 0x04)
break;
if (i < 0)
return S_FALSE;
nextHeaderSize = realProcessedSize - i;
nextHeaderOffset = cur2 - cur + i;
nextHeaderCRC = CrcCalc(buf + i, (size_t)nextHeaderSize);
RINOK(_stream->Seek(cur, STREAM_SEEK_SET, NULL));
}
#endif
#ifdef FORMAT_7Z_RECOVERY
crcFromArchive = crc;
#endif
database.ArchiveInfo.StartPositionAfterHeader = _arhiveBeginStreamPosition + kHeaderSize;
if (crc != crcFromArchive)
ThrowIncorrect();
if (nextHeaderSize == 0)
return S_OK;
if (nextHeaderSize > (UInt64)0xFFFFFFFF)
return S_FALSE;
RINOK(_stream->Seek(nextHeaderOffset, STREAM_SEEK_CUR, NULL));
CByteBuffer buffer2;
buffer2.SetCapacity((size_t)nextHeaderSize);
UInt32 realProcessedSize;
RINOK(_stream->Read(buffer2, (UInt32)nextHeaderSize, &realProcessedSize));
if (realProcessedSize != (UInt32)nextHeaderSize)
return S_FALSE;
if (CrcCalc(buffer2, (UInt32)nextHeaderSize) != nextHeaderCRC)
ThrowIncorrect();
CStreamSwitch streamSwitch;
streamSwitch.Set(this, buffer2);
CObjectVector<CByteBuffer> dataVector;
for (;;)
{
UInt64 type = ReadID();
if (type == NID::kHeader)
break;
if (type != NID::kEncodedHeader)
ThrowIncorrect();
HRESULT result = ReadAndDecodePackedStreams(
EXTERNAL_CODECS_LOC_VARS
database.ArchiveInfo.StartPositionAfterHeader,
database.ArchiveInfo.DataStartPosition2,
dataVector
#ifndef _NO_CRYPTO
, getTextPassword
#endif
);
RINOK(result);
if (dataVector.Size() == 0)
return S_OK;
if (dataVector.Size() > 1)
ThrowIncorrect();
streamSwitch.Remove();
streamSwitch.Set(this, dataVector.Front());
}
return ReadHeader(
EXTERNAL_CODECS_LOC_VARS
database
#ifndef _NO_CRYPTO
, getTextPassword
#endif
);
}
HRESULT CInArchive::ReadDatabase(
DECL_EXTERNAL_CODECS_LOC_VARS
CArchiveDatabaseEx &database
#ifndef _NO_CRYPTO
, ICryptoGetTextPassword *getTextPassword
#endif
)
{
try
{
return ReadDatabase2(
EXTERNAL_CODECS_LOC_VARS database
#ifndef _NO_CRYPTO
, getTextPassword
#endif
);
}
catch(CInArchiveException &) { return S_FALSE; }
}
}}