p7zip-rar/CPP/7zip/Archive/Udf/UdfIn.h

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2017-10-11 12:40:22 +02:00
// Archive/UdfIn.h -- UDF / ECMA-167
#ifndef __ARCHIVE_UDF_IN_H
#define __ARCHIVE_UDF_IN_H
#include "../../../Common/IntToString.h"
#include "../../../Common/MyBuffer.h"
#include "../../../Common/MyCom.h"
#include "../../../Common/MyMap.h"
#include "../../../Common/MyString.h"
#include "../../IStream.h"
namespace NArchive {
namespace NUdf {
// ---------- ECMA Part 1 ----------
// ECMA 1/7.2.12
/*
struct CDString32
{
Byte Data[32];
void Parse(const Byte *buf);
// UString GetString() const;
};
*/
struct CDString128
{
Byte Data[128];
void Parse(const Byte *buf) { memcpy(Data, buf, sizeof(Data)); }
UString GetString() const;
};
struct CDString
{
CByteBuffer Data;
void Parse(const Byte *p, unsigned size);
UString GetString() const;
};
// ECMA 1/7.3
struct CTime
{
Byte Data[12];
unsigned GetType() const { return Data[1] >> 4; }
bool IsLocal() const { return GetType() == 1; }
int GetMinutesOffset() const
{
int t = (Data[0] | ((unsigned)Data[1] << 8)) & 0xFFF;
if ((t >> 11) != 0)
t -= (1 << 12);
return (t > (60 * 24) || t < -(60 * 24)) ? 0 : t;
}
unsigned GetYear() const { return (Data[2] | ((unsigned)Data[3] << 8)); }
void Parse(const Byte *buf);
};
// ECMA 1/7.4
/*
struct CRegId
{
Byte Flags;
char Id[23];
char Suffix[8];
void Parse(const Byte *buf);
};
*/
// ---------- ECMA Part 3: Volume Structure ----------
// ECMA 3/10.5
struct CPartition
{
// UInt16 Flags;
UInt16 Number;
// CRegId ContentsId;
// Byte ContentsUse[128];
// UInt32 AccessType;
UInt32 Pos;
UInt32 Len;
// CRegId ImplId;
// Byte ImplUse[128];
int VolIndex;
CMap32 Map;
CPartition(): VolIndex(-1) {}
// bool IsNsr() const { return (strncmp(ContentsId.Id, "+NSR0", 5) == 0); }
// bool IsAllocated() const { return ((Flags & 1) != 0); }
};
struct CLogBlockAddr
{
UInt32 Pos;
UInt16 PartitionRef;
void Parse(const Byte *buf);
};
enum EShortAllocDescType
{
SHORT_ALLOC_DESC_TYPE_RecordedAndAllocated = 0,
SHORT_ALLOC_DESC_TYPE_NotRecordedButAllocated = 1,
SHORT_ALLOC_DESC_TYPE_NotRecordedAndNotAllocated = 2,
SHORT_ALLOC_DESC_TYPE_NextExtent = 3
};
struct CShortAllocDesc
{
UInt32 Len;
UInt32 Pos;
// 4/14.14.1
// UInt32 GetLen() const { return Len & 0x3FFFFFFF; }
// UInt32 GetType() const { return Len >> 30; }
// bool IsRecAndAlloc() const { return GetType() == SHORT_ALLOC_DESC_TYPE_RecordedAndAllocated; }
void Parse(const Byte *buf);
};
/*
struct CADImpUse
{
UInt16 Flags;
UInt32 UdfUniqueId;
void Parse(const Byte *buf);
};
*/
struct CLongAllocDesc
{
UInt32 Len;
CLogBlockAddr Location;
// Byte ImplUse[6];
// CADImpUse adImpUse; // UDF
UInt32 GetLen() const { return Len & 0x3FFFFFFF; }
UInt32 GetType() const { return Len >> 30; }
bool IsRecAndAlloc() const { return GetType() == SHORT_ALLOC_DESC_TYPE_RecordedAndAllocated; }
void Parse(const Byte *buf);
};
struct CPartitionMap
{
Byte Type;
// Byte Len;
// Type - 1
// UInt16 VolSeqNumber;
UInt16 PartitionNumber;
// Byte Data[256];
int PartitionIndex;
};
// ECMA 4/14.6
enum EIcbFileType
{
ICB_FILE_TYPE_DIR = 4,
ICB_FILE_TYPE_FILE = 5
};
enum EIcbDescriptorType
{
ICB_DESC_TYPE_SHORT = 0,
ICB_DESC_TYPE_LONG = 1,
ICB_DESC_TYPE_EXTENDED = 2,
ICB_DESC_TYPE_INLINE = 3
};
struct CIcbTag
{
// UInt32 PriorDirectNum;
// UInt16 StrategyType;
// UInt16 StrategyParam;
// UInt16 MaxNumOfEntries;
Byte FileType;
// CLogBlockAddr ParentIcb;
UInt16 Flags;
bool IsDir() const { return FileType == ICB_FILE_TYPE_DIR; }
int GetDescriptorType() const { return Flags & 3; }
void Parse(const Byte *p);
};
// const Byte FILEID_CHARACS_Existance = (1 << 0);
const Byte FILEID_CHARACS_Parent = (1 << 3);
struct CFile
{
// UInt16 FileVersion;
// Byte FileCharacteristics;
// CByteBuffer ImplUse;
CDString Id;
int ItemIndex;
CFile(): /* FileVersion(0), FileCharacteristics(0), */ ItemIndex(-1) {}
UString GetName() const { return Id.GetString(); }
};
struct CMyExtent
{
UInt32 Pos;
UInt32 Len;
unsigned PartitionRef;
UInt32 GetLen() const { return Len & 0x3FFFFFFF; }
UInt32 GetType() const { return Len >> 30; }
bool IsRecAndAlloc() const { return GetType() == SHORT_ALLOC_DESC_TYPE_RecordedAndAllocated; }
};
struct CItem
{
CIcbTag IcbTag;
// UInt32 Uid;
// UInt32 Gid;
// UInt32 Permissions;
// UInt16 FileLinkCount;
// Byte RecordFormat;
// Byte RecordDisplayAttr;
// UInt32 RecordLen;
UInt64 Size;
UInt64 NumLogBlockRecorded;
CTime ATime;
CTime MTime;
// CTime AttrtTime;
// UInt32 CheckPoint;
// CLongAllocDesc ExtendedAttrIcb;
// CRegId ImplId;
// UInt64 UniqueId;
bool IsInline;
CByteBuffer InlineData;
CRecordVector<CMyExtent> Extents;
CUIntVector SubFiles;
void Parse(const Byte *buf);
bool IsRecAndAlloc() const
{
FOR_VECTOR (i, Extents)
if (!Extents[i].IsRecAndAlloc())
return false;
return true;
}
UInt64 GetChunksSumSize() const
{
if (IsInline)
return InlineData.Size();
UInt64 size = 0;
FOR_VECTOR (i, Extents)
size += Extents[i].GetLen();
return size;
}
bool CheckChunkSizes() const { return GetChunksSumSize() == Size; }
bool IsDir() const { return IcbTag.IsDir(); }
};
struct CRef
{
int Parent;
unsigned FileIndex;
};
// ECMA 4 / 14.1
struct CFileSet
{
CTime RecodringTime;
// UInt16 InterchangeLevel;
// UInt16 MaxInterchangeLevel;
// UInt32 FileSetNumber;
// UInt32 FileSetDescNumber;
// CDString32 Id;
// CDString32 CopyrightId;
// CDString32 AbstractId;
CLongAllocDesc RootDirICB;
// CRegId DomainId;
// CLongAllocDesc SystemStreamDirICB;
CRecordVector<CRef> Refs;
};
// ECMA 3/10.6
struct CLogVol
{
CDString128 Id;
UInt32 BlockSize;
// CRegId DomainId;
// Byte ContentsUse[16];
CLongAllocDesc FileSetLocation; // UDF
// CRegId ImplId;
// Byte ImplUse[128];
CObjectVector<CPartitionMap> PartitionMaps;
CObjectVector<CFileSet> FileSets;
UString GetName() const { return Id.GetString(); }
};
struct CProgressVirt
{
virtual HRESULT SetTotal(UInt64 numBytes) PURE;
virtual HRESULT SetCompleted(UInt64 numFiles, UInt64 numBytes) PURE;
virtual HRESULT SetCompleted() PURE;
};
class CInArchive
{
IInStream *_stream;
CProgressVirt *_progress;
HRESULT Read(int volIndex, int partitionRef, UInt32 blockPos, UInt32 len, Byte *buf);
HRESULT Read(int volIndex, const CLongAllocDesc &lad, Byte *buf);
HRESULT ReadFromFile(int volIndex, const CItem &item, CByteBuffer &buf);
HRESULT ReadFileItem(int volIndex, int fsIndex, const CLongAllocDesc &lad, int numRecurseAllowed);
HRESULT ReadItem(int volIndex, int fsIndex, const CLongAllocDesc &lad, int numRecurseAllowed);
HRESULT Open2();
HRESULT FillRefs(CFileSet &fs, unsigned fileIndex, int parent, int numRecurseAllowed);
UInt64 _processedProgressBytes;
UInt64 _fileNameLengthTotal;
int _numRefs;
UInt32 _numExtents;
UInt64 _inlineExtentsSize;
bool CheckExtent(int volIndex, int partitionRef, UInt32 blockPos, UInt32 len) const;
public:
CObjectVector<CPartition> Partitions;
CObjectVector<CLogVol> LogVols;
CObjectVector<CItem> Items;
CObjectVector<CFile> Files;
unsigned SecLogSize;
UInt64 PhySize;
UInt64 FileSize;
bool IsArc;
bool Unsupported;
bool UnexpectedEnd;
bool NoEndAnchor;
void UpdatePhySize(UInt64 val)
{
if (PhySize < val)
PhySize = val;
}
HRESULT Open(IInStream *inStream, CProgressVirt *progress);
void Clear();
UString GetComment() const;
UString GetItemPath(int volIndex, int fsIndex, int refIndex,
bool showVolName, bool showFsName) const;
bool CheckItemExtents(int volIndex, const CItem &item) const;
};
API_FUNC_IsArc IsArc_Udf(const Byte *p, size_t size);
}}
#endif