p7zip-rar/CPP/7zip/Archive/ComHandler.cpp
2017-10-11 12:40:22 +02:00

887 lines
21 KiB
C++

// ComHandler.cpp
#include "StdAfx.h"
#include "../../../C/Alloc.h"
#include "../../../C/CpuArch.h"
#include "../../Common/IntToString.h"
#include "../../Common/ComTry.h"
#include "../../Common/MyCom.h"
#include "../../Common/MyBuffer.h"
#include "../../Common/MyString.h"
#include "../../Windows/PropVariant.h"
#include "../Common/LimitedStreams.h"
#include "../Common/ProgressUtils.h"
#include "../Common/RegisterArc.h"
#include "../Common/StreamUtils.h"
#include "../Compress/CopyCoder.h"
#define Get16(p) GetUi16(p)
#define Get32(p) GetUi32(p)
namespace NArchive {
namespace NCom {
#define SIGNATURE { 0xD0, 0xCF, 0x11, 0xE0, 0xA1, 0xB1, 0x1A, 0xE1 }
static const Byte kSignature[] = SIGNATURE;
enum EType
{
k_Type_Common,
k_Type_Msi,
k_Type_Msp,
k_Type_Doc,
k_Type_Ppt,
k_Type_Xls,
};
static const char * const kExtensions[] =
{
"compound"
, "msi"
, "msp"
, "doc"
, "ppt"
, "xls"
};
namespace NFatID
{
static const UInt32 kFree = 0xFFFFFFFF;
static const UInt32 kEndOfChain = 0xFFFFFFFE;
static const UInt32 kFatSector = 0xFFFFFFFD;
static const UInt32 kMatSector = 0xFFFFFFFC;
static const UInt32 kMaxValue = 0xFFFFFFFA;
}
namespace NItemType
{
static const Byte kEmpty = 0;
static const Byte kStorage = 1;
static const Byte kStream = 2;
static const Byte kLockBytes = 3;
static const Byte kProperty = 4;
static const Byte kRootStorage = 5;
}
static const UInt32 kNameSizeMax = 64;
struct CItem
{
Byte Name[kNameSizeMax];
// UInt16 NameSize;
// UInt32 Flags;
FILETIME CTime;
FILETIME MTime;
UInt64 Size;
UInt32 LeftDid;
UInt32 RightDid;
UInt32 SonDid;
UInt32 Sid;
Byte Type;
bool IsEmpty() const { return Type == NItemType::kEmpty; }
bool IsDir() const { return Type == NItemType::kStorage || Type == NItemType::kRootStorage; }
void Parse(const Byte *p, bool mode64bit);
};
struct CRef
{
int Parent;
UInt32 Did;
};
class CDatabase
{
UInt32 NumSectorsInMiniStream;
CObjArray<UInt32> MiniSids;
HRESULT AddNode(int parent, UInt32 did);
public:
CObjArray<UInt32> Fat;
UInt32 FatSize;
CObjArray<UInt32> Mat;
UInt32 MatSize;
CObjectVector<CItem> Items;
CRecordVector<CRef> Refs;
UInt32 LongStreamMinSize;
unsigned SectorSizeBits;
unsigned MiniSectorSizeBits;
Int32 MainSubfile;
UInt64 PhySize;
EType Type;
bool IsNotArcType() const
{
return
Type != k_Type_Msi &&
Type != k_Type_Msp;
}
void UpdatePhySize(UInt64 val)
{
if (PhySize < val)
PhySize = val;
}
HRESULT ReadSector(IInStream *inStream, Byte *buf, unsigned sectorSizeBits, UInt32 sid);
HRESULT ReadIDs(IInStream *inStream, Byte *buf, unsigned sectorSizeBits, UInt32 sid, UInt32 *dest);
HRESULT Update_PhySize_WithItem(unsigned index);
void Clear();
bool IsLargeStream(UInt64 size) const { return size >= LongStreamMinSize; }
UString GetItemPath(UInt32 index) const;
UInt64 GetItemPackSize(UInt64 size) const
{
UInt64 mask = ((UInt64)1 << (IsLargeStream(size) ? SectorSizeBits : MiniSectorSizeBits)) - 1;
return (size + mask) & ~mask;
}
bool GetMiniCluster(UInt32 sid, UInt64 &res) const
{
unsigned subBits = SectorSizeBits - MiniSectorSizeBits;
UInt32 fid = sid >> subBits;
if (fid >= NumSectorsInMiniStream)
return false;
res = (((UInt64)MiniSids[fid] + 1) << subBits) + (sid & ((1 << subBits) - 1));
return true;
}
HRESULT Open(IInStream *inStream);
};
HRESULT CDatabase::ReadSector(IInStream *inStream, Byte *buf, unsigned sectorSizeBits, UInt32 sid)
{
UpdatePhySize(((UInt64)sid + 2) << sectorSizeBits);
RINOK(inStream->Seek((((UInt64)sid + 1) << sectorSizeBits), STREAM_SEEK_SET, NULL));
return ReadStream_FALSE(inStream, buf, (size_t)1 << sectorSizeBits);
}
HRESULT CDatabase::ReadIDs(IInStream *inStream, Byte *buf, unsigned sectorSizeBits, UInt32 sid, UInt32 *dest)
{
RINOK(ReadSector(inStream, buf, sectorSizeBits, sid));
UInt32 sectorSize = (UInt32)1 << sectorSizeBits;
for (UInt32 t = 0; t < sectorSize; t += 4)
*dest++ = Get32(buf + t);
return S_OK;
}
static void GetFileTimeFromMem(const Byte *p, FILETIME *ft)
{
ft->dwLowDateTime = Get32(p);
ft->dwHighDateTime = Get32(p + 4);
}
void CItem::Parse(const Byte *p, bool mode64bit)
{
memcpy(Name, p, kNameSizeMax);
// NameSize = Get16(p + 64);
Type = p[66];
LeftDid = Get32(p + 68);
RightDid = Get32(p + 72);
SonDid = Get32(p + 76);
// Flags = Get32(p + 96);
GetFileTimeFromMem(p + 100, &CTime);
GetFileTimeFromMem(p + 108, &MTime);
Sid = Get32(p + 116);
Size = Get32(p + 120);
if (mode64bit)
Size |= ((UInt64)Get32(p + 124) << 32);
}
void CDatabase::Clear()
{
PhySize = 0;
Fat.Free();
MiniSids.Free();
Mat.Free();
Items.Clear();
Refs.Clear();
}
static const UInt32 kNoDid = 0xFFFFFFFF;
HRESULT CDatabase::AddNode(int parent, UInt32 did)
{
if (did == kNoDid)
return S_OK;
if (did >= (UInt32)Items.Size())
return S_FALSE;
const CItem &item = Items[did];
if (item.IsEmpty())
return S_FALSE;
CRef ref;
ref.Parent = parent;
ref.Did = did;
int index = Refs.Add(ref);
if (Refs.Size() > Items.Size())
return S_FALSE;
RINOK(AddNode(parent, item.LeftDid));
RINOK(AddNode(parent, item.RightDid));
if (item.IsDir())
{
RINOK(AddNode(index, item.SonDid));
}
return S_OK;
}
static const wchar_t kCharOpenBracket = L'[';
static const wchar_t kCharCloseBracket = L']';
static UString CompoundNameToFileName(const UString &s)
{
UString res;
for (unsigned i = 0; i < s.Len(); i++)
{
wchar_t c = s[i];
if (c < 0x20)
{
res += kCharOpenBracket;
wchar_t buf[32];
ConvertUInt32ToString(c, buf);
res += buf;
res += kCharCloseBracket;
}
else
res += c;
}
return res;
}
static const char k_Msi_Chars[] =
"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz._";
// static const char *k_Msi_ID = ""; // "{msi}";
static const wchar_t k_Msi_SpecChar = L'!';
static const unsigned k_Msi_NumBits = 6;
static const unsigned k_Msi_NumChars = 1 << k_Msi_NumBits;
static const unsigned k_Msi_CharMask = k_Msi_NumChars - 1;
static const unsigned k_Msi_StartUnicodeChar = 0x3800;
static const unsigned k_Msi_UnicodeRange = k_Msi_NumChars * (k_Msi_NumChars + 1);
static bool IsMsiName(const Byte *p)
{
UInt32 c = Get16(p);
return
c >= k_Msi_StartUnicodeChar &&
c <= k_Msi_StartUnicodeChar + k_Msi_UnicodeRange;
}
static bool AreEqualNames(const Byte *rawName, const char *asciiName)
{
for (unsigned i = 0; i < kNameSizeMax / 2; i++)
{
wchar_t c = Get16(rawName + i * 2);
wchar_t c2 = (Byte)asciiName[i];
if (c != c2)
return false;
if (c == 0)
return true;
}
return false;
}
static bool CompoundMsiNameToFileName(const UString &name, UString &res)
{
res.Empty();
for (unsigned i = 0; i < name.Len(); i++)
{
wchar_t c = name[i];
if (c < k_Msi_StartUnicodeChar || c > k_Msi_StartUnicodeChar + k_Msi_UnicodeRange)
return false;
/*
if (i == 0)
res += k_Msi_ID;
*/
c -= k_Msi_StartUnicodeChar;
unsigned c0 = (unsigned)c & k_Msi_CharMask;
unsigned c1 = (unsigned)c >> k_Msi_NumBits;
if (c1 <= k_Msi_NumChars)
{
res += (wchar_t)(Byte)k_Msi_Chars[c0];
if (c1 == k_Msi_NumChars)
break;
res += (wchar_t)(Byte)k_Msi_Chars[c1];
}
else
res += k_Msi_SpecChar;
}
return true;
}
static UString ConvertName(const Byte *p, bool &isMsi)
{
isMsi = false;
UString s;
for (unsigned i = 0; i < kNameSizeMax; i += 2)
{
wchar_t c = Get16(p + i);
if (c == 0)
break;
s += c;
}
UString msiName;
if (CompoundMsiNameToFileName(s, msiName))
{
isMsi = true;
return msiName;
}
return CompoundNameToFileName(s);
}
static UString ConvertName(const Byte *p)
{
bool isMsi;
return ConvertName(p, isMsi);
}
UString CDatabase::GetItemPath(UInt32 index) const
{
UString s;
while (index != kNoDid)
{
const CRef &ref = Refs[index];
const CItem &item = Items[ref.Did];
if (!s.IsEmpty())
s.InsertAtFront(WCHAR_PATH_SEPARATOR);
s.Insert(0, ConvertName(item.Name));
index = ref.Parent;
}
return s;
}
HRESULT CDatabase::Update_PhySize_WithItem(unsigned index)
{
const CItem &item = Items[index];
bool isLargeStream = (index == 0 || IsLargeStream(item.Size));
if (!isLargeStream)
return S_OK;
unsigned bsLog = isLargeStream ? SectorSizeBits : MiniSectorSizeBits;
// streamSpec->Size = item.Size;
UInt32 clusterSize = (UInt32)1 << bsLog;
UInt64 numClusters64 = (item.Size + clusterSize - 1) >> bsLog;
if (numClusters64 >= ((UInt32)1 << 31))
return S_FALSE;
UInt32 sid = item.Sid;
UInt64 size = item.Size;
if (size != 0)
{
for (;; size -= clusterSize)
{
// if (isLargeStream)
{
if (sid >= FatSize)
return S_FALSE;
UpdatePhySize(((UInt64)sid + 2) << bsLog);
sid = Fat[sid];
}
if (size <= clusterSize)
break;
}
}
if (sid != NFatID::kEndOfChain)
return S_FALSE;
return S_OK;
}
// There is name "[!]MsiPatchSequence" in msp files
static const unsigned kMspSequence_Size = 18;
static const Byte kMspSequence[kMspSequence_Size] =
{ 0x40, 0x48, 0x96, 0x45, 0x6C, 0x3E, 0xE4, 0x45,
0xE6, 0x42, 0x16, 0x42, 0x37, 0x41, 0x27, 0x41,
0x37, 0x41 };
HRESULT CDatabase::Open(IInStream *inStream)
{
MainSubfile = -1;
Type = k_Type_Common;
const UInt32 kHeaderSize = 512;
Byte p[kHeaderSize];
PhySize = kHeaderSize;
RINOK(ReadStream_FALSE(inStream, p, kHeaderSize));
if (memcmp(p, kSignature, ARRAY_SIZE(kSignature)) != 0)
return S_FALSE;
if (Get16(p + 0x1A) > 4) // majorVer
return S_FALSE;
if (Get16(p + 0x1C) != 0xFFFE) // Little-endian
return S_FALSE;
unsigned sectorSizeBits = Get16(p + 0x1E);
bool mode64bit = (sectorSizeBits >= 12);
unsigned miniSectorSizeBits = Get16(p + 0x20);
SectorSizeBits = sectorSizeBits;
MiniSectorSizeBits = miniSectorSizeBits;
if (sectorSizeBits > 24 ||
sectorSizeBits < 7 ||
miniSectorSizeBits > 24 ||
miniSectorSizeBits < 2 ||
miniSectorSizeBits > sectorSizeBits)
return S_FALSE;
UInt32 numSectorsForFAT = Get32(p + 0x2C); // SAT
LongStreamMinSize = Get32(p + 0x38);
UInt32 sectSize = (UInt32)1 << sectorSizeBits;
CByteBuffer sect(sectSize);
unsigned ssb2 = sectorSizeBits - 2;
UInt32 numSidsInSec = (UInt32)1 << ssb2;
UInt32 numFatItems = numSectorsForFAT << ssb2;
if ((numFatItems >> ssb2) != numSectorsForFAT)
return S_FALSE;
FatSize = numFatItems;
{
UInt32 numSectorsForBat = Get32(p + 0x48); // master sector allocation table
const UInt32 kNumHeaderBatItems = 109;
UInt32 numBatItems = kNumHeaderBatItems + (numSectorsForBat << ssb2);
if (numBatItems < kNumHeaderBatItems || ((numBatItems - kNumHeaderBatItems) >> ssb2) != numSectorsForBat)
return S_FALSE;
CObjArray<UInt32> bat(numBatItems);
UInt32 i;
for (i = 0; i < kNumHeaderBatItems; i++)
bat[i] = Get32(p + 0x4c + i * 4);
UInt32 sid = Get32(p + 0x44);
for (UInt32 s = 0; s < numSectorsForBat; s++)
{
RINOK(ReadIDs(inStream, sect, sectorSizeBits, sid, bat + i));
i += numSidsInSec - 1;
sid = bat[i];
}
numBatItems = i;
Fat.Alloc(numFatItems);
UInt32 j = 0;
for (i = 0; i < numFatItems; j++, i += numSidsInSec)
{
if (j >= numBatItems)
return S_FALSE;
RINOK(ReadIDs(inStream, sect, sectorSizeBits, bat[j], Fat + i));
}
FatSize = numFatItems = i;
}
UInt32 numMatItems;
{
UInt32 numSectorsForMat = Get32(p + 0x40);
numMatItems = (UInt32)numSectorsForMat << ssb2;
if ((numMatItems >> ssb2) != numSectorsForMat)
return S_FALSE;
Mat.Alloc(numMatItems);
UInt32 i;
UInt32 sid = Get32(p + 0x3C); // short-sector table SID
for (i = 0; i < numMatItems; i += numSidsInSec)
{
RINOK(ReadIDs(inStream, sect, sectorSizeBits, sid, Mat + i));
if (sid >= numFatItems)
return S_FALSE;
sid = Fat[sid];
}
if (sid != NFatID::kEndOfChain)
return S_FALSE;
}
{
CByteBuffer used(numFatItems);
for (UInt32 i = 0; i < numFatItems; i++)
used[i] = 0;
UInt32 sid = Get32(p + 0x30); // directory stream SID
for (;;)
{
if (sid >= numFatItems)
return S_FALSE;
if (used[sid])
return S_FALSE;
used[sid] = 1;
RINOK(ReadSector(inStream, sect, sectorSizeBits, sid));
for (UInt32 i = 0; i < sectSize; i += 128)
{
CItem item;
item.Parse(sect + i, mode64bit);
Items.Add(item);
}
sid = Fat[sid];
if (sid == NFatID::kEndOfChain)
break;
}
}
const CItem &root = Items[0];
{
UInt32 numSectorsInMiniStream;
{
UInt64 numSatSects64 = (root.Size + sectSize - 1) >> sectorSizeBits;
if (numSatSects64 > NFatID::kMaxValue)
return S_FALSE;
numSectorsInMiniStream = (UInt32)numSatSects64;
}
NumSectorsInMiniStream = numSectorsInMiniStream;
MiniSids.Alloc(numSectorsInMiniStream);
{
UInt64 matSize64 = (root.Size + ((UInt64)1 << miniSectorSizeBits) - 1) >> miniSectorSizeBits;
if (matSize64 > NFatID::kMaxValue)
return S_FALSE;
MatSize = (UInt32)matSize64;
if (numMatItems < MatSize)
return S_FALSE;
}
UInt32 sid = root.Sid;
for (UInt32 i = 0; ; i++)
{
if (sid == NFatID::kEndOfChain)
{
if (i != numSectorsInMiniStream)
return S_FALSE;
break;
}
if (i >= numSectorsInMiniStream)
return S_FALSE;
MiniSids[i] = sid;
if (sid >= numFatItems)
return S_FALSE;
sid = Fat[sid];
}
}
RINOK(AddNode(-1, root.SonDid));
unsigned numCabs = 0;
FOR_VECTOR (i, Refs)
{
const CItem &item = Items[Refs[i].Did];
if (item.IsDir() || numCabs > 1)
continue;
bool isMsiName;
const UString msiName = ConvertName(item.Name, isMsiName);
if (isMsiName && !msiName.IsEmpty())
{
// bool isThereExt = (msiName.Find(L'.') >= 0);
bool isMsiSpec = (msiName[0] == k_Msi_SpecChar);
if (msiName.Len() >= 4 && StringsAreEqualNoCase_Ascii(msiName.RightPtr(4), ".cab")
|| !isMsiSpec && msiName.Len() >= 3 && StringsAreEqualNoCase_Ascii(msiName.RightPtr(3), "exe")
// || !isMsiSpec && !isThereExt
)
{
numCabs++;
MainSubfile = i;
}
}
}
if (numCabs > 1)
MainSubfile = -1;
{
FOR_VECTOR (t, Items)
{
Update_PhySize_WithItem(t);
}
}
{
FOR_VECTOR (t, Items)
{
const CItem &item = Items[t];
if (IsMsiName(item.Name))
{
Type = k_Type_Msi;
if (memcmp(item.Name, kMspSequence, kMspSequence_Size) == 0)
{
Type = k_Type_Msp;
break;
}
continue;
}
if (AreEqualNames(item.Name, "WordDocument"))
{
Type = k_Type_Doc;
break;
}
if (AreEqualNames(item.Name, "PowerPoint Document"))
{
Type = k_Type_Ppt;
break;
}
if (AreEqualNames(item.Name, "Workbook"))
{
Type = k_Type_Xls;
break;
}
}
}
return S_OK;
}
class CHandler:
public IInArchive,
public IInArchiveGetStream,
public CMyUnknownImp
{
CMyComPtr<IInStream> _stream;
CDatabase _db;
public:
MY_UNKNOWN_IMP2(IInArchive, IInArchiveGetStream)
INTERFACE_IInArchive(;)
STDMETHOD(GetStream)(UInt32 index, ISequentialInStream **stream);
};
static const Byte kProps[] =
{
kpidPath,
kpidSize,
kpidPackSize,
kpidCTime,
kpidMTime
};
static const Byte kArcProps[] =
{
kpidExtension,
kpidClusterSize,
kpidSectorSize
};
IMP_IInArchive_Props
IMP_IInArchive_ArcProps
STDMETHODIMP CHandler::GetArchiveProperty(PROPID propID, PROPVARIANT *value)
{
COM_TRY_BEGIN
NWindows::NCOM::CPropVariant prop;
switch (propID)
{
case kpidExtension: prop = kExtensions[(unsigned)_db.Type]; break;
case kpidPhySize: prop = _db.PhySize; break;
case kpidClusterSize: prop = (UInt32)1 << _db.SectorSizeBits; break;
case kpidSectorSize: prop = (UInt32)1 << _db.MiniSectorSizeBits; break;
case kpidMainSubfile: if (_db.MainSubfile >= 0) prop = (UInt32)_db.MainSubfile; break;
case kpidIsNotArcType: if (_db.IsNotArcType()) prop = true; break;
}
prop.Detach(value);
return S_OK;
COM_TRY_END
}
STDMETHODIMP CHandler::GetProperty(UInt32 index, PROPID propID, PROPVARIANT *value)
{
COM_TRY_BEGIN
NWindows::NCOM::CPropVariant prop;
const CRef &ref = _db.Refs[index];
const CItem &item = _db.Items[ref.Did];
switch (propID)
{
case kpidPath: prop = _db.GetItemPath(index); break;
case kpidIsDir: prop = item.IsDir(); break;
case kpidCTime: prop = item.CTime; break;
case kpidMTime: prop = item.MTime; break;
case kpidPackSize: if (!item.IsDir()) prop = _db.GetItemPackSize(item.Size); break;
case kpidSize: if (!item.IsDir()) prop = item.Size; break;
}
prop.Detach(value);
return S_OK;
COM_TRY_END
}
STDMETHODIMP CHandler::Open(IInStream *inStream,
const UInt64 * /* maxCheckStartPosition */,
IArchiveOpenCallback * /* openArchiveCallback */)
{
COM_TRY_BEGIN
Close();
try
{
if (_db.Open(inStream) != S_OK)
return S_FALSE;
_stream = inStream;
}
catch(...) { return S_FALSE; }
return S_OK;
COM_TRY_END
}
STDMETHODIMP CHandler::Close()
{
_db.Clear();
_stream.Release();
return S_OK;
}
STDMETHODIMP CHandler::Extract(const UInt32 *indices, UInt32 numItems,
Int32 testMode, IArchiveExtractCallback *extractCallback)
{
COM_TRY_BEGIN
bool allFilesMode = (numItems == (UInt32)(Int32)-1);
if (allFilesMode)
numItems = _db.Refs.Size();
if (numItems == 0)
return S_OK;
UInt32 i;
UInt64 totalSize = 0;
for (i = 0; i < numItems; i++)
{
const CItem &item = _db.Items[_db.Refs[allFilesMode ? i : indices[i]].Did];
if (!item.IsDir())
totalSize += item.Size;
}
RINOK(extractCallback->SetTotal(totalSize));
UInt64 totalPackSize;
totalSize = totalPackSize = 0;
NCompress::CCopyCoder *copyCoderSpec = new NCompress::CCopyCoder();
CMyComPtr<ICompressCoder> copyCoder = copyCoderSpec;
CLocalProgress *lps = new CLocalProgress;
CMyComPtr<ICompressProgressInfo> progress = lps;
lps->Init(extractCallback, false);
for (i = 0; i < numItems; i++)
{
lps->InSize = totalPackSize;
lps->OutSize = totalSize;
RINOK(lps->SetCur());
Int32 index = allFilesMode ? i : indices[i];
const CItem &item = _db.Items[_db.Refs[index].Did];
CMyComPtr<ISequentialOutStream> outStream;
Int32 askMode = testMode ?
NExtract::NAskMode::kTest :
NExtract::NAskMode::kExtract;
RINOK(extractCallback->GetStream(index, &outStream, askMode));
if (item.IsDir())
{
RINOK(extractCallback->PrepareOperation(askMode));
RINOK(extractCallback->SetOperationResult(NExtract::NOperationResult::kOK));
continue;
}
totalPackSize += _db.GetItemPackSize(item.Size);
totalSize += item.Size;
if (!testMode && !outStream)
continue;
RINOK(extractCallback->PrepareOperation(askMode));
Int32 res = NExtract::NOperationResult::kDataError;
CMyComPtr<ISequentialInStream> inStream;
HRESULT hres = GetStream(index, &inStream);
if (hres == S_FALSE)
res = NExtract::NOperationResult::kDataError;
else if (hres == E_NOTIMPL)
res = NExtract::NOperationResult::kUnsupportedMethod;
else
{
RINOK(hres);
if (inStream)
{
RINOK(copyCoder->Code(inStream, outStream, NULL, NULL, progress));
if (copyCoderSpec->TotalSize == item.Size)
res = NExtract::NOperationResult::kOK;
}
}
outStream.Release();
RINOK(extractCallback->SetOperationResult(res));
}
return S_OK;
COM_TRY_END
}
STDMETHODIMP CHandler::GetNumberOfItems(UInt32 *numItems)
{
*numItems = _db.Refs.Size();
return S_OK;
}
STDMETHODIMP CHandler::GetStream(UInt32 index, ISequentialInStream **stream)
{
COM_TRY_BEGIN
*stream = 0;
UInt32 itemIndex = _db.Refs[index].Did;
const CItem &item = _db.Items[itemIndex];
CClusterInStream *streamSpec = new CClusterInStream;
CMyComPtr<ISequentialInStream> streamTemp = streamSpec;
streamSpec->Stream = _stream;
streamSpec->StartOffset = 0;
bool isLargeStream = (itemIndex == 0 || _db.IsLargeStream(item.Size));
int bsLog = isLargeStream ? _db.SectorSizeBits : _db.MiniSectorSizeBits;
streamSpec->BlockSizeLog = bsLog;
streamSpec->Size = item.Size;
UInt32 clusterSize = (UInt32)1 << bsLog;
UInt64 numClusters64 = (item.Size + clusterSize - 1) >> bsLog;
if (numClusters64 >= ((UInt32)1 << 31))
return E_NOTIMPL;
streamSpec->Vector.ClearAndReserve((unsigned)numClusters64);
UInt32 sid = item.Sid;
UInt64 size = item.Size;
if (size != 0)
{
for (;; size -= clusterSize)
{
if (isLargeStream)
{
if (sid >= _db.FatSize)
return S_FALSE;
streamSpec->Vector.AddInReserved(sid + 1);
sid = _db.Fat[sid];
}
else
{
UInt64 val = 0;
if (sid >= _db.MatSize || !_db.GetMiniCluster(sid, val) || val >= (UInt64)1 << 32)
return S_FALSE;
streamSpec->Vector.AddInReserved((UInt32)val);
sid = _db.Mat[sid];
}
if (size <= clusterSize)
break;
}
}
if (sid != NFatID::kEndOfChain)
return S_FALSE;
RINOK(streamSpec->InitAndSeek());
*stream = streamTemp.Detach();
return S_OK;
COM_TRY_END
}
REGISTER_ARC_I(
"Compound", "msi msp doc xls ppt", 0, 0xE5,
kSignature,
0,
0,
NULL)
}}