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|
// VhdHandler.cpp
#include "StdAfx.h"
#include "../../../C/CpuArch.h"
#include "../../Common/ComTry.h"
#include "../../Common/IntToString.h"
#include "../../Windows/PropVariant.h"
#include "../Common/LimitedStreams.h"
#include "../Common/RegisterArc.h"
#include "../Common/StreamUtils.h"
#include "HandlerCont.h"
#define Get16(p) GetBe16(p)
#define Get32(p) GetBe32(p)
#define Get64(p) GetBe64(p)
#define G32(_offs_, dest) dest = Get32(p + (_offs_));
#define G64(_offs_, dest) dest = Get64(p + (_offs_));
using namespace NWindows;
namespace NArchive {
namespace NVhd {
#define SIGNATURE { 'c', 'o', 'n', 'e', 'c', 't', 'i', 'x', 0, 0 }
static const unsigned kSignatureSize = 10;
static const Byte kSignature[kSignatureSize] = SIGNATURE;
static const UInt32 kUnusedBlock = 0xFFFFFFFF;
static const UInt32 kDiskType_Fixed = 2;
static const UInt32 kDiskType_Dynamic = 3;
static const UInt32 kDiskType_Diff = 4;
static const char * const kDiskTypes[] =
{
"0"
, "1"
, "Fixed"
, "Dynamic"
, "Differencing"
};
struct CFooter
{
// UInt32 Features;
// UInt32 FormatVersion;
UInt64 DataOffset;
UInt32 CTime;
UInt32 CreatorApp;
UInt32 CreatorVersion;
UInt32 CreatorHostOS;
// UInt64 OriginalSize;
UInt64 CurrentSize;
UInt32 DiskGeometry;
UInt32 Type;
Byte Id[16];
Byte SavedState;
bool IsFixed() const { return Type == kDiskType_Fixed; }
bool ThereIsDynamic() const { return Type == kDiskType_Dynamic || Type == kDiskType_Diff; }
// bool IsSupported() const { return Type == kDiskType_Fixed || Type == kDiskType_Dynamic || Type == kDiskType_Diff; }
UInt32 NumCyls() const { return DiskGeometry >> 16; }
UInt32 NumHeads() const { return (DiskGeometry >> 8) & 0xFF; }
UInt32 NumSectorsPerTrack() const { return DiskGeometry & 0xFF; }
AString GetTypeString() const;
bool Parse(const Byte *p);
};
AString CFooter::GetTypeString() const
{
if (Type < ARRAY_SIZE(kDiskTypes))
return kDiskTypes[Type];
char s[16];
ConvertUInt32ToString(Type, s);
return s;
}
static bool CheckBlock(const Byte *p, unsigned size, unsigned checkSumOffset, unsigned zeroOffset)
{
UInt32 sum = 0;
unsigned i;
for (i = 0; i < checkSumOffset; i++)
sum += p[i];
for (i = checkSumOffset + 4; i < size; i++)
sum += p[i];
if (~sum != Get32(p + checkSumOffset))
return false;
for (i = zeroOffset; i < size; i++)
if (p[i] != 0)
return false;
return true;
}
static const unsigned kSectorSize_Log = 9;
static const unsigned kSectorSize = 1 << kSectorSize_Log;
static const unsigned kHeaderSize = 512;
bool CFooter::Parse(const Byte *p)
{
if (memcmp(p, kSignature, kSignatureSize) != 0)
return false;
// G32(0x08, Features);
// G32(0x0C, FormatVersion);
G64(0x10, DataOffset);
G32(0x18, CTime);
G32(0x1C, CreatorApp);
G32(0x20, CreatorVersion);
G32(0x24, CreatorHostOS);
// G64(0x28, OriginalSize);
G64(0x30, CurrentSize);
G32(0x38, DiskGeometry);
G32(0x3C, Type);
if (Type < kDiskType_Fixed ||
Type > kDiskType_Diff)
return false;
memcpy(Id, p + 0x44, 16);
SavedState = p[0x54];
// if (DataOffset > ((UInt64)1 << 62)) return false;
// if (CurrentSize > ((UInt64)1 << 62)) return false;
return CheckBlock(p, kHeaderSize, 0x40, 0x55);
}
struct CParentLocatorEntry
{
UInt32 Code;
UInt32 DataSpace;
UInt32 DataLen;
UInt64 DataOffset;
bool Parse(const Byte *p)
{
G32(0x00, Code);
G32(0x04, DataSpace);
G32(0x08, DataLen);
G64(0x10, DataOffset);
return Get32(p + 0x0C) == 0; // Reserved
}
};
struct CDynHeader
{
// UInt64 DataOffset;
UInt64 TableOffset;
// UInt32 HeaderVersion;
UInt32 NumBlocks;
unsigned BlockSizeLog;
UInt32 ParentTime;
Byte ParentId[16];
bool RelativeNameWasUsed;
UString ParentName;
UString RelativeParentNameFromLocator;
CParentLocatorEntry ParentLocators[8];
bool Parse(const Byte *p);
UInt32 NumBitMapSectors() const
{
UInt32 numSectorsInBlock = (1 << (BlockSizeLog - kSectorSize_Log));
return (numSectorsInBlock + kSectorSize * 8 - 1) / (kSectorSize * 8);
}
void Clear()
{
RelativeNameWasUsed = false;
ParentName.Empty();
RelativeParentNameFromLocator.Empty();
}
};
bool CDynHeader::Parse(const Byte *p)
{
if (memcmp(p, "cxsparse", 8) != 0)
return false;
// G64(0x08, DataOffset);
G64(0x10, TableOffset);
// G32(0x18, HeaderVersion);
G32(0x1C, NumBlocks);
{
UInt32 blockSize = Get32(p + 0x20);
unsigned i;
for (i = kSectorSize_Log;; i++)
{
if (i > 31)
return false;
if (((UInt32)1 << i) == blockSize)
break;
}
BlockSizeLog = i;
}
G32(0x38, ParentTime);
if (Get32(p + 0x3C) != 0) // reserved
return false;
memcpy(ParentId, p + 0x28, 16);
{
const unsigned kNameLen = 256;
wchar_t *s = ParentName.GetBuf(kNameLen);
unsigned i;
for (i = 0; i < kNameLen; i++)
{
wchar_t c = Get16(p + 0x40 + i * 2);
if (c == 0)
break;
s[i] = c;
}
s[i] = 0;
ParentName.ReleaseBuf_SetLen(i);
}
for (unsigned i = 0; i < 8; i++)
if (!ParentLocators[i].Parse(p + 0x240 + i * 24))
return false;
return CheckBlock(p, 1024, 0x24, 0x240 + 8 * 24);
}
class CHandler: public CHandlerImg
{
UInt64 _posInArcLimit;
UInt64 _startOffset;
UInt64 _phySize;
CFooter Footer;
CDynHeader Dyn;
CRecordVector<UInt32> Bat;
CByteBuffer BitMap;
UInt32 BitMapTag;
UInt32 NumUsedBlocks;
// CMyComPtr<IInStream> Stream;
CMyComPtr<IInStream> ParentStream;
CHandler *Parent;
UString _errorMessage;
// bool _unexpectedEnd;
void AddErrorMessage(const wchar_t *s)
{
if (!_errorMessage.IsEmpty())
_errorMessage.Add_LF();
_errorMessage += s;
}
void UpdatePhySize(UInt64 value)
{
if (_phySize < value)
_phySize = value;
}
void Reset_PosInArc() { _posInArc = (UInt64)0 - 1; }
HRESULT Seek(UInt64 offset);
HRESULT InitAndSeek();
HRESULT ReadPhy(UInt64 offset, void *data, UInt32 size);
bool NeedParent() const { return Footer.Type == kDiskType_Diff; }
UInt64 GetPackSize() const
{ return Footer.ThereIsDynamic() ? ((UInt64)NumUsedBlocks << Dyn.BlockSizeLog) : Footer.CurrentSize; }
UString GetParentSequence() const
{
const CHandler *p = this;
UString res;
while (p && p->NeedParent())
{
if (!res.IsEmpty())
res.AddAscii(" -> ");
UString mainName;
UString anotherName;
if (Dyn.RelativeNameWasUsed)
{
mainName = p->Dyn.RelativeParentNameFromLocator;
anotherName = p->Dyn.ParentName;
}
else
{
mainName = p->Dyn.ParentName;
anotherName = p->Dyn.RelativeParentNameFromLocator;
}
res += mainName;
if (mainName != anotherName && !anotherName.IsEmpty())
{
res.Add_Space();
res += L'(';
res += anotherName;
res += L')';
}
p = p->Parent;
}
return res;
}
bool AreParentsOK() const
{
const CHandler *p = this;
while (p->NeedParent())
{
p = p->Parent;
if (!p)
return false;
}
return true;
}
HRESULT Open3();
HRESULT Open2(IInStream *stream, CHandler *child, IArchiveOpenCallback *openArchiveCallback, unsigned level);
HRESULT Open2(IInStream *stream, IArchiveOpenCallback *openArchiveCallback)
{
return Open2(stream, NULL, openArchiveCallback, 0);
}
void CloseAtError();
public:
INTERFACE_IInArchive_Img(;)
STDMETHOD(GetStream)(UInt32 index, ISequentialInStream **stream);
STDMETHOD(Read)(void *data, UInt32 size, UInt32 *processedSize);
};
HRESULT CHandler::Seek(UInt64 offset) { return Stream->Seek(_startOffset + offset, STREAM_SEEK_SET, NULL); }
HRESULT CHandler::InitAndSeek()
{
if (ParentStream)
{
RINOK(Parent->InitAndSeek());
}
_virtPos = _posInArc = 0;
BitMapTag = kUnusedBlock;
BitMap.Alloc(Dyn.NumBitMapSectors() << kSectorSize_Log);
return Seek(0);
}
HRESULT CHandler::ReadPhy(UInt64 offset, void *data, UInt32 size)
{
if (offset + size > _posInArcLimit)
return S_FALSE;
if (offset != _posInArc)
{
_posInArc = offset;
RINOK(Seek(offset));
}
HRESULT res = ReadStream_FALSE(Stream, data, size);
if (res == S_OK)
_posInArc += size;
else
Reset_PosInArc();
return res;
}
HRESULT CHandler::Open3()
{
// Fixed archive uses only footer
UInt64 startPos;
RINOK(Stream->Seek(0, STREAM_SEEK_CUR, &startPos));
_startOffset = startPos;
Byte header[kHeaderSize];
RINOK(ReadStream_FALSE(Stream, header, kHeaderSize));
bool headerIsOK = Footer.Parse(header);
_size = Footer.CurrentSize;
if (headerIsOK && !Footer.ThereIsDynamic())
{
// fixed archive
if (startPos < Footer.CurrentSize)
return S_FALSE;
_posInArcLimit = Footer.CurrentSize;
_phySize = Footer.CurrentSize + kHeaderSize;
_startOffset = startPos - Footer.CurrentSize;
_posInArc = _phySize;
return S_OK;
}
UInt64 fileSize;
RINOK(Stream->Seek(0, STREAM_SEEK_END, &fileSize));
if (fileSize < kHeaderSize)
return S_FALSE;
const UInt32 kDynSize = 1024;
Byte buf[kDynSize];
RINOK(Stream->Seek(fileSize - kHeaderSize, STREAM_SEEK_SET, NULL));
RINOK(ReadStream_FALSE(Stream, buf, kHeaderSize));
if (!headerIsOK)
{
if (!Footer.Parse(buf))
return S_FALSE;
_size = Footer.CurrentSize;
if (Footer.ThereIsDynamic())
return S_FALSE; // we can't open Dynamic Archive backward.
_posInArcLimit = Footer.CurrentSize;
_phySize = Footer.CurrentSize + kHeaderSize;
_startOffset = fileSize - kHeaderSize - Footer.CurrentSize;
_posInArc = _phySize;
return S_OK;
}
_phySize = kHeaderSize;
_posInArc = fileSize - startPos;
_posInArcLimit = _posInArc - kHeaderSize;
bool headerAndFooterAreEqual = false;
if (memcmp(header, buf, kHeaderSize) == 0)
{
headerAndFooterAreEqual = true;
_phySize = fileSize - _startOffset;
}
RINOK(ReadPhy(Footer.DataOffset, buf, kDynSize));
if (!Dyn.Parse(buf))
return S_FALSE;
UpdatePhySize(Footer.DataOffset + kDynSize);
for (int i = 0; i < 8; i++)
{
const CParentLocatorEntry &locator = Dyn.ParentLocators[i];
const UInt32 kNameBufSizeMax = 1024;
if (locator.DataLen < kNameBufSizeMax &&
locator.DataOffset < _posInArcLimit &&
locator.DataOffset + locator.DataLen <= _posInArcLimit)
{
if (locator.Code == 0x57327275 && (locator.DataLen & 1) == 0)
{
// "W2ru" locator
// Path is encoded as little-endian UTF-16
Byte nameBuf[kNameBufSizeMax];
UString tempString;
unsigned len = (locator.DataLen >> 1);
{
wchar_t *s = tempString.GetBuf(len);
RINOK(ReadPhy(locator.DataOffset, nameBuf, locator.DataLen));
unsigned j;
for (j = 0; j < len; j++)
{
wchar_t c = GetUi16(nameBuf + j * 2);
if (c == 0)
break;
s[j] = c;
}
s[j] = 0;
tempString.ReleaseBuf_SetLen(j);
}
if (tempString[0] == L'.' && tempString[1] == L'\\')
tempString.DeleteFrontal(2);
Dyn.RelativeParentNameFromLocator = tempString;
}
}
if (locator.DataLen != 0)
UpdatePhySize(locator.DataOffset + locator.DataLen);
}
if (Dyn.NumBlocks >= (UInt32)1 << 31)
return S_FALSE;
if (Footer.CurrentSize == 0)
{
if (Dyn.NumBlocks != 0)
return S_FALSE;
}
else if (((Footer.CurrentSize - 1) >> Dyn.BlockSizeLog) + 1 != Dyn.NumBlocks)
return S_FALSE;
Bat.ClearAndReserve(Dyn.NumBlocks);
UInt32 bitmapSize = Dyn.NumBitMapSectors() << kSectorSize_Log;
while ((UInt32)Bat.Size() < Dyn.NumBlocks)
{
RINOK(ReadPhy(Dyn.TableOffset + (UInt64)Bat.Size() * 4, buf, kSectorSize));
UpdatePhySize(Dyn.TableOffset + kSectorSize);
for (UInt32 j = 0; j < kSectorSize; j += 4)
{
UInt32 v = Get32(buf + j);
if (v != kUnusedBlock)
{
UInt32 blockSize = (UInt32)1 << Dyn.BlockSizeLog;
UpdatePhySize(((UInt64)v << kSectorSize_Log) + bitmapSize + blockSize);
NumUsedBlocks++;
}
Bat.AddInReserved(v);
if ((UInt32)Bat.Size() >= Dyn.NumBlocks)
break;
}
}
if (headerAndFooterAreEqual)
return S_OK;
if (_startOffset + _phySize + kHeaderSize > fileSize)
{
// _unexpectedEnd = true;
_posInArcLimit = _phySize;
_phySize += kHeaderSize;
return S_OK;
}
RINOK(ReadPhy(_phySize, buf, kHeaderSize));
if (memcmp(header, buf, kHeaderSize) == 0)
{
_posInArcLimit = _phySize;
_phySize += kHeaderSize;
return S_OK;
}
if (_phySize == 0x800)
{
/* WHY does empty archive contain additional empty sector?
We skip that sector and check footer again. */
unsigned i;
for (i = 0; i < kSectorSize && buf[i] == 0; i++);
if (i == kSectorSize)
{
RINOK(ReadPhy(_phySize + kSectorSize, buf, kHeaderSize));
if (memcmp(header, buf, kHeaderSize) == 0)
{
_phySize += kSectorSize;
_posInArcLimit = _phySize;
_phySize += kHeaderSize;
return S_OK;
}
}
}
_posInArcLimit = _phySize;
_phySize += kHeaderSize;
AddErrorMessage(L"Can't find footer");
return S_OK;
}
STDMETHODIMP CHandler::Read(void *data, UInt32 size, UInt32 *processedSize)
{
if (processedSize)
*processedSize = 0;
if (_virtPos >= Footer.CurrentSize)
return S_OK;
{
const UInt64 rem = Footer.CurrentSize - _virtPos;
if (size > rem)
size = (UInt32)rem;
}
if (size == 0)
return S_OK;
UInt32 blockIndex = (UInt32)(_virtPos >> Dyn.BlockSizeLog);
UInt32 blockSectIndex = Bat[blockIndex];
UInt32 blockSize = (UInt32)1 << Dyn.BlockSizeLog;
UInt32 offsetInBlock = (UInt32)_virtPos & (blockSize - 1);
size = MyMin(blockSize - offsetInBlock, size);
HRESULT res = S_OK;
if (blockSectIndex == kUnusedBlock)
{
if (ParentStream)
{
RINOK(ParentStream->Seek(_virtPos, STREAM_SEEK_SET, NULL));
res = ParentStream->Read(data, size, &size);
}
else
memset(data, 0, size);
}
else
{
UInt64 newPos = (UInt64)blockSectIndex << kSectorSize_Log;
if (BitMapTag != blockIndex)
{
RINOK(ReadPhy(newPos, BitMap, (UInt32)BitMap.Size()));
BitMapTag = blockIndex;
}
RINOK(ReadPhy(newPos + BitMap.Size() + offsetInBlock, data, size));
for (UInt32 cur = 0; cur < size;)
{
const UInt32 rem = MyMin(0x200 - (offsetInBlock & 0x1FF), size - cur);
UInt32 bmi = offsetInBlock >> kSectorSize_Log;
if (((BitMap[bmi >> 3] >> (7 - (bmi & 7))) & 1) == 0)
{
if (ParentStream)
{
RINOK(ParentStream->Seek(_virtPos + cur, STREAM_SEEK_SET, NULL));
RINOK(ReadStream_FALSE(ParentStream, (Byte *)data + cur, rem));
}
else
{
const Byte *p = (const Byte *)data + cur;
for (UInt32 i = 0; i < rem; i++)
if (p[i] != 0)
return S_FALSE;
}
}
offsetInBlock += rem;
cur += rem;
}
}
if (processedSize)
*processedSize = size;
_virtPos += size;
return res;
}
enum
{
kpidParent = kpidUserDefined,
kpidSavedState
};
static const CStatProp kArcProps[] =
{
{ NULL, kpidSize, VT_UI8},
{ NULL, kpidOffset, VT_UI8},
{ NULL, kpidCTime, VT_FILETIME},
{ NULL, kpidClusterSize, VT_UI8},
{ NULL, kpidMethod, VT_BSTR},
{ "Parent", kpidParent, VT_BSTR},
{ NULL, kpidCreatorApp, VT_BSTR},
{ NULL, kpidHostOS, VT_BSTR},
{ "Saved State", kpidSavedState, VT_BOOL},
{ NULL, kpidId, VT_BSTR}
};
static const Byte kProps[] =
{
kpidSize,
kpidPackSize,
kpidCTime
/*
{ kpidNumCyls, VT_UI4},
{ kpidNumHeads, VT_UI4},
{ kpidSectorsPerTrack, VT_UI4}
*/
};
IMP_IInArchive_Props
IMP_IInArchive_ArcProps_WITH_NAME
// VHD start time: 2000-01-01
static const UInt64 kVhdTimeStartValue = (UInt64)3600 * 24 * (399 * 365 + 24 * 4);
static void VhdTimeToFileTime(UInt32 vhdTime, NCOM::CPropVariant &prop)
{
FILETIME ft, utc;
UInt64 v = (kVhdTimeStartValue + vhdTime) * 10000000;
ft.dwLowDateTime = (DWORD)v;
ft.dwHighDateTime = (DWORD)(v >> 32);
// specification says that it's UTC time, but Virtual PC 6 writes local time. Why?
LocalFileTimeToFileTime(&ft, &utc);
prop = utc;
}
static void StringToAString(char *dest, UInt32 val)
{
for (int i = 24; i >= 0; i -= 8)
{
Byte b = (Byte)((val >> i) & 0xFF);
if (b < 0x20 || b > 0x7F)
break;
*dest++ = b;
}
*dest = 0;
}
static void ConvertByteToHex(unsigned value, char *s)
{
for (int i = 0; i < 2; i++)
{
unsigned t = value & 0xF;
value >>= 4;
s[1 - i] = (char)((t < 10) ? ('0' + t) : ('A' + (t - 10)));
}
}
STDMETHODIMP CHandler::GetArchiveProperty(PROPID propID, PROPVARIANT *value)
{
COM_TRY_BEGIN
NCOM::CPropVariant prop;
switch (propID)
{
case kpidMainSubfile: prop = (UInt32)0; break;
case kpidCTime: VhdTimeToFileTime(Footer.CTime, prop); break;
case kpidClusterSize: if (Footer.ThereIsDynamic()) prop = (UInt32)1 << Dyn.BlockSizeLog; break;
case kpidShortComment:
case kpidMethod:
{
AString s = Footer.GetTypeString();
if (NeedParent())
{
s += " -> ";
const CHandler *p = this;
while (p && p->NeedParent())
p = p->Parent;
if (!p)
s += '?';
else
s += p->Footer.GetTypeString();
}
prop = s;
break;
}
case kpidCreatorApp:
{
char s[16];
StringToAString(s, Footer.CreatorApp);
AString res = s;
res.Trim();
ConvertUInt32ToString(Footer.CreatorVersion >> 16, s);
res.Add_Space();
res += s;
res += '.';
ConvertUInt32ToString(Footer.CreatorVersion & 0xFFFF, s);
res += s;
prop = res;
break;
}
case kpidHostOS:
{
if (Footer.CreatorHostOS == 0x5769326B)
prop = "Windows";
else
{
char s[16];
StringToAString(s, Footer.CreatorHostOS);
prop = s;
}
break;
}
case kpidId:
{
char s[32 + 4];
for (int i = 0; i < 16; i++)
ConvertByteToHex(Footer.Id[i], s + i * 2);
s[32] = 0;
prop = s;
break;
}
case kpidSavedState: prop = Footer.SavedState ? true : false; break;
case kpidParent: if (NeedParent()) prop = GetParentSequence(); break;
case kpidOffset: prop = _startOffset; break;
case kpidPhySize: prop = _phySize; break;
/*
case kpidErrorFlags:
{
UInt32 flags = 0;
if (_unexpectedEnd)
flags |= kpv_ErrorFlags_UnexpectedEndOfArc;
if (flags != 0)
prop = flags;
break;
}
*/
case kpidError: if (!_errorMessage.IsEmpty()) prop = _errorMessage; break;
}
prop.Detach(value);
return S_OK;
COM_TRY_END
}
HRESULT CHandler::Open2(IInStream *stream, CHandler *child, IArchiveOpenCallback *openArchiveCallback, unsigned level)
{
Close();
Stream = stream;
if (level > (1 << 12)) // Maybe we need to increase that limit
return S_FALSE;
RINOK(Open3());
if (child && memcmp(child->Dyn.ParentId, Footer.Id, 16) != 0)
return S_FALSE;
if (Footer.Type != kDiskType_Diff)
return S_OK;
bool useRelative;
UString name;
if (!Dyn.RelativeParentNameFromLocator.IsEmpty())
{
useRelative = true;
name = Dyn.RelativeParentNameFromLocator;
}
else
{
useRelative = false;
name = Dyn.ParentName;
}
Dyn.RelativeNameWasUsed = useRelative;
CMyComPtr<IArchiveOpenVolumeCallback> openVolumeCallback;
openArchiveCallback->QueryInterface(IID_IArchiveOpenVolumeCallback, (void **)&openVolumeCallback);
if (openVolumeCallback)
{
CMyComPtr<IInStream> nextStream;
HRESULT res = openVolumeCallback->GetStream(name, &nextStream);
if (res == S_FALSE)
{
if (useRelative && Dyn.ParentName != Dyn.RelativeParentNameFromLocator)
{
res = openVolumeCallback->GetStream(Dyn.ParentName, &nextStream);
if (res == S_OK)
Dyn.RelativeNameWasUsed = false;
}
}
if (res != S_OK && res != S_FALSE)
return res;
if (res == S_FALSE || !nextStream)
{
UString s;
s.SetFromAscii("Missing volume : ");
s += name;
AddErrorMessage(s);
return S_OK;
}
Parent = new CHandler;
ParentStream = Parent;
res = Parent->Open2(nextStream, this, openArchiveCallback, level + 1);
if (res != S_OK)
{
Parent = NULL;
ParentStream.Release();
if (res == E_ABORT)
return res;
if (res != S_FALSE)
{
// we must show that error code
}
}
}
{
const CHandler *p = this;
while (p->NeedParent())
{
p = p->Parent;
if (!p)
{
AddErrorMessage(L"Can't open parent VHD file:");
AddErrorMessage(Dyn.ParentName);
break;
}
}
}
return S_OK;
}
void CHandler::CloseAtError()
{
_phySize = 0;
Bat.Clear();
NumUsedBlocks = 0;
Parent = NULL;
Stream.Release();
ParentStream.Release();
Dyn.Clear();
_errorMessage.Empty();
// _unexpectedEnd = false;
_imgExt = NULL;
}
STDMETHODIMP CHandler::Close()
{
CloseAtError();
return S_OK;
}
STDMETHODIMP CHandler::GetProperty(UInt32 /* index */, PROPID propID, PROPVARIANT *value)
{
COM_TRY_BEGIN
NCOM::CPropVariant prop;
switch (propID)
{
case kpidSize: prop = Footer.CurrentSize; break;
case kpidPackSize: prop = GetPackSize(); break;
case kpidCTime: VhdTimeToFileTime(Footer.CTime, prop); break;
case kpidExtension: prop = (_imgExt ? _imgExt : "img"); break;
/*
case kpidNumCyls: prop = Footer.NumCyls(); break;
case kpidNumHeads: prop = Footer.NumHeads(); break;
case kpidSectorsPerTrack: prop = Footer.NumSectorsPerTrack(); break;
*/
}
prop.Detach(value);
return S_OK;
COM_TRY_END
}
STDMETHODIMP CHandler::GetStream(UInt32 /* index */, ISequentialInStream **stream)
{
COM_TRY_BEGIN
*stream = 0;
if (Footer.IsFixed())
{
CLimitedInStream *streamSpec = new CLimitedInStream;
CMyComPtr<ISequentialInStream> streamTemp = streamSpec;
streamSpec->SetStream(Stream);
streamSpec->InitAndSeek(0, Footer.CurrentSize);
RINOK(streamSpec->SeekToStart());
*stream = streamTemp.Detach();
return S_OK;
}
if (!Footer.ThereIsDynamic() || !AreParentsOK())
return S_FALSE;
CMyComPtr<ISequentialInStream> streamTemp = this;
RINOK(InitAndSeek());
*stream = streamTemp.Detach();
return S_OK;
COM_TRY_END
}
REGISTER_ARC_I(
"VHD", "vhd", NULL, 0xDC,
kSignature,
0,
NArcInfoFlags::kUseGlobalOffset,
NULL)
}}
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