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android / platform / external / lzma / refs/heads/kitkat-cts-release / . / CPP / 7zip / Archive / 7z / 7zUpdate.cpp
blob: 4b4db06a1404ca17cd6375fd7f4ea1b95053bf51 [file] [log] [blame]
// 7zUpdate.cpp
#include "StdAfx.h"
#include "../../../../C/CpuArch.h"
#include "../../Common/LimitedStreams.h"
#include "../../Common/ProgressUtils.h"
#include "../../Common/CreateCoder.h"
#include "../../Compress/CopyCoder.h"
#include "../Common/ItemNameUtils.h"
#include "../Common/OutStreamWithCRC.h"
#include "7zDecode.h"
#include "7zEncode.h"
#include "7zFolderInStream.h"
#include "7zHandler.h"
#include "7zOut.h"
#include "7zUpdate.h"
namespace NArchive {
namespace N7z {
static const UInt64 k_LZMA = 0x030101;
static const UInt64 k_BCJ = 0x03030103;
static const UInt64 k_BCJ2 = 0x0303011B;
static const wchar_t *kMatchFinderForBCJ2_LZMA = L"BT2";
static const UInt32 kDictionaryForBCJ2_LZMA = 1 << 20;
static const UInt32 kAlgorithmForBCJ2_LZMA = 1;
static const UInt32 kNumFastBytesForBCJ2_LZMA = 64;
#ifdef MY_CPU_X86_OR_AMD64
#define USE_86_FILTER
#endif
static HRESULT WriteRange(IInStream *inStream, ISequentialOutStream *outStream,
UInt64 position, UInt64 size, ICompressProgressInfo *progress)
{
RINOK(inStream->Seek(position, STREAM_SEEK_SET, 0));
CLimitedSequentialInStream *streamSpec = new CLimitedSequentialInStream;
CMyComPtr<CLimitedSequentialInStream> inStreamLimited(streamSpec);
streamSpec->SetStream(inStream);
streamSpec->Init(size);
NCompress::CCopyCoder *copyCoderSpec = new NCompress::CCopyCoder;
CMyComPtr<ICompressCoder> copyCoder = copyCoderSpec;
RINOK(copyCoder->Code(inStreamLimited, outStream, NULL, NULL, progress));
return (copyCoderSpec->TotalSize == size ? S_OK : E_FAIL);
}
static int GetReverseSlashPos(const UString &name)
{
int slashPos = name.ReverseFind(L'/');
#ifdef _WIN32
int slash1Pos = name.ReverseFind(L'\\');
slashPos = MyMax(slashPos, slash1Pos);
#endif
return slashPos;
}
int CUpdateItem::GetExtensionPos() const
{
int slashPos = GetReverseSlashPos(Name);
int dotPos = Name.ReverseFind(L'.');
if (dotPos < 0 || (dotPos < slashPos && slashPos >= 0))
return Name.Length();
return dotPos + 1;
}
UString CUpdateItem::GetExtension() const
{
return Name.Mid(GetExtensionPos());
}
#define RINOZ(x) { int __tt = (x); if (__tt != 0) return __tt; }
#define RINOZ_COMP(a, b) RINOZ(MyCompare(a, b))
static int CompareBuffers(const CByteBuffer &a1, const CByteBuffer &a2)
{
size_t c1 = a1.GetCapacity();
size_t c2 = a2.GetCapacity();
RINOZ_COMP(c1, c2);
for (size_t i = 0; i < c1; i++)
RINOZ_COMP(a1[i], a2[i]);
return 0;
}
static int CompareCoders(const CCoderInfo &c1, const CCoderInfo &c2)
{
RINOZ_COMP(c1.NumInStreams, c2.NumInStreams);
RINOZ_COMP(c1.NumOutStreams, c2.NumOutStreams);
RINOZ_COMP(c1.MethodID, c2.MethodID);
return CompareBuffers(c1.Props, c2.Props);
}
static int CompareBindPairs(const CBindPair &b1, const CBindPair &b2)
{
RINOZ_COMP(b1.InIndex, b2.InIndex);
return MyCompare(b1.OutIndex, b2.OutIndex);
}
static int CompareFolders(const CFolder &f1, const CFolder &f2)
{
int s1 = f1.Coders.Size();
int s2 = f2.Coders.Size();
RINOZ_COMP(s1, s2);
int i;
for (i = 0; i < s1; i++)
RINOZ(CompareCoders(f1.Coders[i], f2.Coders[i]));
s1 = f1.BindPairs.Size();
s2 = f2.BindPairs.Size();
RINOZ_COMP(s1, s2);
for (i = 0; i < s1; i++)
RINOZ(CompareBindPairs(f1.BindPairs[i], f2.BindPairs[i]));
return 0;
}
/*
static int CompareFiles(const CFileItem &f1, const CFileItem &f2)
{
return MyStringCompareNoCase(f1.Name, f2.Name);
}
*/
struct CFolderRepack
{
int FolderIndex;
int Group;
CNum NumCopyFiles;
};
static int CompareFolderRepacks(const CFolderRepack *p1, const CFolderRepack *p2, void *param)
{
RINOZ_COMP(p1->Group, p2->Group);
int i1 = p1->FolderIndex;
int i2 = p2->FolderIndex;
const CArchiveDatabaseEx &db = *(const CArchiveDatabaseEx *)param;
RINOZ(CompareFolders(
db.Folders[i1],
db.Folders[i2]));
return MyCompare(i1, i2);
/*
RINOZ_COMP(
db.NumUnpackStreamsVector[i1],
db.NumUnpackStreamsVector[i2]);
if (db.NumUnpackStreamsVector[i1] == 0)
return 0;
return CompareFiles(
db.Files[db.FolderStartFileIndex[i1]],
db.Files[db.FolderStartFileIndex[i2]]);
*/
}
////////////////////////////////////////////////////////////
static int CompareEmptyItems(const int *p1, const int *p2, void *param)
{
const CObjectVector<CUpdateItem> &updateItems = *(const CObjectVector<CUpdateItem> *)param;
const CUpdateItem &u1 = updateItems[*p1];
const CUpdateItem &u2 = updateItems[*p2];
if (u1.IsDir != u2.IsDir)
return (u1.IsDir) ? 1 : -1;
if (u1.IsDir)
{
if (u1.IsAnti != u2.IsAnti)
return (u1.IsAnti ? 1 : -1);
int n = MyStringCompareNoCase(u1.Name, u2.Name);
return -n;
}
if (u1.IsAnti != u2.IsAnti)
return (u1.IsAnti ? 1 : -1);
return MyStringCompareNoCase(u1.Name, u2.Name);
}
static const char *g_Exts =
" lzma 7z ace arc arj bz bz2 deb lzo lzx gz pak rpm sit tgz tbz tbz2 tgz cab ha lha lzh rar zoo"
" zip jar ear war msi"
" 3gp avi mov mpeg mpg mpe wmv"
" aac ape fla flac la mp3 m4a mp4 ofr ogg pac ra rm rka shn swa tta wv wma wav"
" swf "
" chm hxi hxs"
" gif jpeg jpg jp2 png tiff bmp ico psd psp"
" awg ps eps cgm dxf svg vrml wmf emf ai md"
" cad dwg pps key sxi"
" max 3ds"
" iso bin nrg mdf img pdi tar cpio xpi"
" vfd vhd vud vmc vsv"
" vmdk dsk nvram vmem vmsd vmsn vmss vmtm"
" inl inc idl acf asa h hpp hxx c cpp cxx rc java cs pas bas vb cls ctl frm dlg def"
" f77 f f90 f95"
" asm sql manifest dep "
" mak clw csproj vcproj sln dsp dsw "
" class "
" bat cmd"
" xml xsd xsl xslt hxk hxc htm html xhtml xht mht mhtml htw asp aspx css cgi jsp shtml"
" awk sed hta js php php3 php4 php5 phptml pl pm py pyo rb sh tcl vbs"
" text txt tex ans asc srt reg ini doc docx mcw dot rtf hlp xls xlr xlt xlw ppt pdf"
" sxc sxd sxi sxg sxw stc sti stw stm odt ott odg otg odp otp ods ots odf"
" abw afp cwk lwp wpd wps wpt wrf wri"
" abf afm bdf fon mgf otf pcf pfa snf ttf"
" dbf mdb nsf ntf wdb db fdb gdb"
" exe dll ocx vbx sfx sys tlb awx com obj lib out o so "
" pdb pch idb ncb opt";
int GetExtIndex(const char *ext)
{
int extIndex = 1;
const char *p = g_Exts;
for (;;)
{
char c = *p++;
if (c == 0)
return extIndex;
if (c == ' ')
continue;
int pos = 0;
for (;;)
{
char c2 = ext[pos++];
if (c2 == 0 && (c == 0 || c == ' '))
return extIndex;
if (c != c2)
break;
c = *p++;
}
extIndex++;
for (;;)
{
if (c == 0)
return extIndex;
if (c == ' ')
break;
c = *p++;
}
}
}
struct CRefItem
{
const CUpdateItem *UpdateItem;
UInt32 Index;
UInt32 ExtensionPos;
UInt32 NamePos;
int ExtensionIndex;
CRefItem(UInt32 index, const CUpdateItem &ui, bool sortByType):
UpdateItem(&ui),
Index(index),
ExtensionPos(0),
NamePos(0),
ExtensionIndex(0)
{
if (sortByType)
{
int slashPos = GetReverseSlashPos(ui.Name);
NamePos = ((slashPos >= 0) ? (slashPos + 1) : 0);
int dotPos = ui.Name.ReverseFind(L'.');
if (dotPos < 0 || (dotPos < slashPos && slashPos >= 0))
ExtensionPos = ui.Name.Length();
else
{
ExtensionPos = dotPos + 1;
UString us = ui.Name.Mid(ExtensionPos);
if (!us.IsEmpty())
{
us.MakeLower();
int i;
AString s;
for (i = 0; i < us.Length(); i++)
{
wchar_t c = us[i];
if (c >= 0x80)
break;
s += (char)c;
}
if (i == us.Length())
ExtensionIndex = GetExtIndex(s);
else
ExtensionIndex = 0;
}
}
}
}
};
static int CompareUpdateItems(const CRefItem *p1, const CRefItem *p2, void *param)
{
const CRefItem &a1 = *p1;
const CRefItem &a2 = *p2;
const CUpdateItem &u1 = *a1.UpdateItem;
const CUpdateItem &u2 = *a2.UpdateItem;
int n;
if (u1.IsDir != u2.IsDir)
return (u1.IsDir) ? 1 : -1;
if (u1.IsDir)
{
if (u1.IsAnti != u2.IsAnti)
return (u1.IsAnti ? 1 : -1);
n = MyStringCompareNoCase(u1.Name, u2.Name);
return -n;
}
bool sortByType = *(bool *)param;
if (sortByType)
{
RINOZ_COMP(a1.ExtensionIndex, a2.ExtensionIndex);
RINOZ(MyStringCompareNoCase(u1.Name + a1.ExtensionPos, u2.Name + a2.ExtensionPos));
RINOZ(MyStringCompareNoCase(u1.Name + a1.NamePos, u2.Name + a2.NamePos));
if (!u1.MTimeDefined && u2.MTimeDefined) return 1;
if (u1.MTimeDefined && !u2.MTimeDefined) return -1;
if (u1.MTimeDefined && u2.MTimeDefined) RINOZ_COMP(u1.MTime, u2.MTime);
RINOZ_COMP(u1.Size, u2.Size);
}
return MyStringCompareNoCase(u1.Name, u2.Name);
}
struct CSolidGroup
{
CRecordVector<UInt32> Indices;
};
static wchar_t *g_ExeExts[] =
{
L"dll",
L"exe",
L"ocx",
L"sfx",
L"sys"
};
static bool IsExeExt(const UString &ext)
{
for (int i = 0; i < sizeof(g_ExeExts) / sizeof(g_ExeExts[0]); i++)
if (ext.CompareNoCase(g_ExeExts[i]) == 0)
return true;
return false;
}
#ifdef USE_86_FILTER
static inline void GetMethodFull(UInt64 methodID, UInt32 numInStreams, CMethodFull &methodResult)
{
methodResult.Id = methodID;
methodResult.NumInStreams = numInStreams;
methodResult.NumOutStreams = 1;
}
static void MakeExeMethod(const CCompressionMethodMode &method,
bool bcj2Filter, CCompressionMethodMode &exeMethod)
{
exeMethod = method;
if (bcj2Filter)
{
CMethodFull methodFull;
GetMethodFull(k_BCJ2, 4, methodFull);
exeMethod.Methods.Insert(0, methodFull);
GetMethodFull(k_LZMA, 1, methodFull);
{
CProp prop;
prop.Id = NCoderPropID::kAlgorithm;
prop.Value = kAlgorithmForBCJ2_LZMA;
methodFull.Props.Add(prop);
}
{
CProp prop;
prop.Id = NCoderPropID::kMatchFinder;
prop.Value = kMatchFinderForBCJ2_LZMA;
methodFull.Props.Add(prop);
}
{
CProp prop;
prop.Id = NCoderPropID::kDictionarySize;
prop.Value = kDictionaryForBCJ2_LZMA;
methodFull.Props.Add(prop);
}
{
CProp prop;
prop.Id = NCoderPropID::kNumFastBytes;
prop.Value = kNumFastBytesForBCJ2_LZMA;
methodFull.Props.Add(prop);
}
{
CProp prop;
prop.Id = NCoderPropID::kNumThreads;
prop.Value = (UInt32)1;
methodFull.Props.Add(prop);
}
exeMethod.Methods.Add(methodFull);
exeMethod.Methods.Add(methodFull);
CBind bind;
bind.OutCoder = 0;
bind.InStream = 0;
bind.InCoder = 1;
bind.OutStream = 0;
exeMethod.Binds.Add(bind);
bind.InCoder = 2;
bind.OutStream = 1;
exeMethod.Binds.Add(bind);
bind.InCoder = 3;
bind.OutStream = 2;
exeMethod.Binds.Add(bind);
}
else
{
CMethodFull methodFull;
GetMethodFull(k_BCJ, 1, methodFull);
exeMethod.Methods.Insert(0, methodFull);
CBind bind;
bind.OutCoder = 0;
bind.InStream = 0;
bind.InCoder = 1;
bind.OutStream = 0;
exeMethod.Binds.Add(bind);
}
}
#endif
static void FromUpdateItemToFileItem(const CUpdateItem &ui,
CFileItem &file, CFileItem2 &file2)
{
file.Name = NItemName::MakeLegalName(ui.Name);
if (ui.AttribDefined)
file.SetAttrib(ui.Attrib);
file2.CTime = ui.CTime; file2.CTimeDefined = ui.CTimeDefined;
file2.ATime = ui.ATime; file2.ATimeDefined = ui.ATimeDefined;
file2.MTime = ui.MTime; file2.MTimeDefined = ui.MTimeDefined;
file2.IsAnti = ui.IsAnti;
file2.StartPosDefined = false;
file.Size = ui.Size;
file.IsDir = ui.IsDir;
file.HasStream = ui.HasStream();
}
class CFolderOutStream2:
public ISequentialOutStream,
public CMyUnknownImp
{
COutStreamWithCRC *_crcStreamSpec;
CMyComPtr<ISequentialOutStream> _crcStream;
const CArchiveDatabaseEx *_db;
const CBoolVector *_extractStatuses;
CMyComPtr<ISequentialOutStream> _outStream;
UInt32 _startIndex;
int _currentIndex;
bool _fileIsOpen;
UInt64 _rem;
void OpenFile();
void CloseFile();
HRESULT CloseFileAndSetResult();
HRESULT ProcessEmptyFiles();
public:
MY_UNKNOWN_IMP
CFolderOutStream2()
{
_crcStreamSpec = new COutStreamWithCRC;
_crcStream = _crcStreamSpec;
}
HRESULT Init(const CArchiveDatabaseEx *db, UInt32 startIndex,
const CBoolVector *extractStatuses, ISequentialOutStream *outStream);
void ReleaseOutStream();
HRESULT CheckFinishedState() const { return (_currentIndex == _extractStatuses->Size()) ? S_OK: E_FAIL; }
STDMETHOD(Write)(const void *data, UInt32 size, UInt32 *processedSize);
};
HRESULT CFolderOutStream2::Init(const CArchiveDatabaseEx *db, UInt32 startIndex,
const CBoolVector *extractStatuses, ISequentialOutStream *outStream)
{
_db = db;
_startIndex = startIndex;
_extractStatuses = extractStatuses;
_outStream = outStream;
_currentIndex = 0;
_fileIsOpen = false;
return ProcessEmptyFiles();
}
void CFolderOutStream2::ReleaseOutStream()
{
_outStream.Release();
_crcStreamSpec->ReleaseStream();
}
void CFolderOutStream2::OpenFile()
{
_crcStreamSpec->SetStream((*_extractStatuses)[_currentIndex] ? _outStream : NULL);
_crcStreamSpec->Init(true);
_fileIsOpen = true;
_rem = _db->Files[_startIndex + _currentIndex].Size;
}
void CFolderOutStream2::CloseFile()
{
_crcStreamSpec->ReleaseStream();
_fileIsOpen = false;
_currentIndex++;
}
HRESULT CFolderOutStream2::CloseFileAndSetResult()
{
const CFileItem &file = _db->Files[_startIndex + _currentIndex];
CloseFile();
return (file.IsDir || !file.CrcDefined || file.Crc == _crcStreamSpec->GetCRC()) ? S_OK: S_FALSE;
}
HRESULT CFolderOutStream2::ProcessEmptyFiles()
{
while (_currentIndex < _extractStatuses->Size() && _db->Files[_startIndex + _currentIndex].Size == 0)
{
OpenFile();
RINOK(CloseFileAndSetResult());
}
return S_OK;
}
STDMETHODIMP CFolderOutStream2::Write(const void *data, UInt32 size, UInt32 *processedSize)
{
if (processedSize != NULL)
*processedSize = 0;
while (size != 0)
{
if (_fileIsOpen)
{
UInt32 cur = size < _rem ? size : (UInt32)_rem;
RINOK(_crcStream->Write(data, cur, &cur));
if (cur == 0)
break;
data = (const Byte *)data + cur;
size -= cur;
_rem -= cur;
if (processedSize != NULL)
*processedSize += cur;
if (_rem == 0)
{
RINOK(CloseFileAndSetResult());
RINOK(ProcessEmptyFiles());
continue;
}
}
else
{
RINOK(ProcessEmptyFiles());
if (_currentIndex == _extractStatuses->Size())
{
// we don't support partial extracting
return E_FAIL;
}
OpenFile();
}
}
return S_OK;
}
class CThreadDecoder: public CVirtThread
{
public:
HRESULT Result;
CMyComPtr<IInStream> InStream;
CFolderOutStream2 *FosSpec;
CMyComPtr<ISequentialOutStream> Fos;
UInt64 StartPos;
const UInt64 *PackSizes;
const CFolder *Folder;
#ifndef _NO_CRYPTO
CMyComPtr<ICryptoGetTextPassword> GetTextPassword;
#endif
DECL_EXTERNAL_CODECS_VARS
CDecoder Decoder;
#ifndef _7ZIP_ST
bool MtMode;
UInt32 NumThreads;
#endif
CThreadDecoder():
Decoder(true)
{
#ifndef _7ZIP_ST
MtMode = false;
NumThreads = 1;
#endif
FosSpec = new CFolderOutStream2;
Fos = FosSpec;
Result = E_FAIL;
}
virtual void Execute();
};
void CThreadDecoder::Execute()
{
try
{
#ifndef _NO_CRYPTO
bool passwordIsDefined;
#endif
Result = Decoder.Decode(
EXTERNAL_CODECS_VARS
InStream,
StartPos,
PackSizes,
*Folder,
Fos,
NULL
#ifndef _NO_CRYPTO
, GetTextPassword, passwordIsDefined
#endif
#ifndef _7ZIP_ST
, MtMode, NumThreads
#endif
);
}
catch(...)
{
Result = E_FAIL;
}
if (Result == S_OK)
Result = FosSpec->CheckFinishedState();
FosSpec->ReleaseOutStream();
}
bool static Is86FilteredFolder(const CFolder &f)
{
for (int i = 0; i < f.Coders.Size(); i++)
{
CMethodId m = f.Coders[i].MethodID;
if (m == k_BCJ || m == k_BCJ2)
return true;
}
return false;
}
#ifndef _NO_CRYPTO
class CCryptoGetTextPassword:
public ICryptoGetTextPassword,
public CMyUnknownImp
{
public:
UString Password;
MY_UNKNOWN_IMP
STDMETHOD(CryptoGetTextPassword)(BSTR *password);
};
STDMETHODIMP CCryptoGetTextPassword::CryptoGetTextPassword(BSTR *password)
{
return StringToBstr(Password, password);
}
#endif
static const int kNumGroupsMax = 4;
#ifdef USE_86_FILTER
static bool Is86Group(int group) { return (group & 1) != 0; }
#endif
static bool IsEncryptedGroup(int group) { return (group & 2) != 0; }
static int GetGroupIndex(bool encrypted, int bcjFiltered)
{ return (encrypted ? 2 : 0) + (bcjFiltered ? 1 : 0); }
HRESULT Update(
DECL_EXTERNAL_CODECS_LOC_VARS
IInStream *inStream,
const CArchiveDatabaseEx *db,
const CObjectVector<CUpdateItem> &updateItems,
COutArchive &archive,
CArchiveDatabase &newDatabase,
ISequentialOutStream *seqOutStream,
IArchiveUpdateCallback *updateCallback,
const CUpdateOptions &options
#ifndef _NO_CRYPTO
, ICryptoGetTextPassword *getDecoderPassword
#endif
)
{
UInt64 numSolidFiles = options.NumSolidFiles;
if (numSolidFiles == 0)
numSolidFiles = 1;
/*
CMyComPtr<IOutStream> outStream;
RINOK(seqOutStream->QueryInterface(IID_IOutStream, (void **)&outStream));
if (!outStream)
return E_NOTIMPL;
*/
UInt64 startBlockSize = db != 0 ? db->ArchiveInfo.StartPosition: 0;
if (startBlockSize > 0 && !options.RemoveSfxBlock)
{
RINOK(WriteRange(inStream, seqOutStream, 0, startBlockSize, NULL));
}
CRecordVector<int> fileIndexToUpdateIndexMap;
CRecordVector<CFolderRepack> folderRefs;
UInt64 complexity = 0;
UInt64 inSizeForReduce2 = 0;
bool needEncryptedRepack = false;
if (db != 0)
{
fileIndexToUpdateIndexMap.Reserve(db->Files.Size());
int i;
for (i = 0; i < db->Files.Size(); i++)
fileIndexToUpdateIndexMap.Add(-1);
for (i = 0; i < updateItems.Size(); i++)
{
int index = updateItems[i].IndexInArchive;
if (index != -1)
fileIndexToUpdateIndexMap[index] = i;
}
for (i = 0; i < db->Folders.Size(); i++)
{
CNum indexInFolder = 0;
CNum numCopyItems = 0;
CNum numUnpackStreams = db->NumUnpackStreamsVector[i];
UInt64 repackSize = 0;
for (CNum fi = db->FolderStartFileIndex[i]; indexInFolder < numUnpackStreams; fi++)
{
const CFileItem &file = db->Files[fi];
if (file.HasStream)
{
indexInFolder++;
int updateIndex = fileIndexToUpdateIndexMap[fi];
if (updateIndex >= 0 && !updateItems[updateIndex].NewData)
{
numCopyItems++;
repackSize += file.Size;
}
}
}
if (numCopyItems == 0)
continue;
CFolderRepack rep;
rep.FolderIndex = i;
rep.NumCopyFiles = numCopyItems;
const CFolder &f = db->Folders[i];
bool isEncrypted = f.IsEncrypted();
rep.Group = GetGroupIndex(isEncrypted, Is86FilteredFolder(f));
folderRefs.Add(rep);
if (numCopyItems == numUnpackStreams)
complexity += db->GetFolderFullPackSize(i);
else
{
complexity += repackSize;
if (repackSize > inSizeForReduce2)
inSizeForReduce2 = repackSize;
if (isEncrypted)
needEncryptedRepack = true;
}
}
folderRefs.Sort(CompareFolderRepacks, (void *)db);
}
UInt64 inSizeForReduce = 0;
int i;
for (i = 0; i < updateItems.Size(); i++)
{
const CUpdateItem &ui = updateItems[i];
if (ui.NewData)
{
complexity += ui.Size;
if (numSolidFiles != 1)
inSizeForReduce += ui.Size;
else if (ui.Size > inSizeForReduce)
inSizeForReduce = ui.Size;
}
}
if (inSizeForReduce2 > inSizeForReduce)
inSizeForReduce = inSizeForReduce2;
const UInt32 kMinReduceSize = (1 << 16);
if (inSizeForReduce < kMinReduceSize)
inSizeForReduce = kMinReduceSize;
RINOK(updateCallback->SetTotal(complexity));
CLocalProgress *lps = new CLocalProgress;
CMyComPtr<ICompressProgressInfo> progress = lps;
lps->Init(updateCallback, true);
CThreadDecoder threadDecoder;
if (!folderRefs.IsEmpty())
{
#ifdef EXTERNAL_CODECS
threadDecoder._codecsInfo = codecsInfo;
threadDecoder._externalCodecs = *externalCodecs;
#endif
RINOK(threadDecoder.Create());
}
CObjectVector<CSolidGroup> groups;
for (i = 0; i < kNumGroupsMax; i++)
groups.Add(CSolidGroup());
{
// ---------- Split files to 2 groups ----------
bool useFilters = options.UseFilters;
const CCompressionMethodMode &method = *options.Method;
if (method.Methods.Size() != 1 || method.Binds.Size() != 0)
useFilters = false;
for (i = 0; i < updateItems.Size(); i++)
{
const CUpdateItem &ui = updateItems[i];
if (!ui.NewData || !ui.HasStream())
continue;
bool filteredGroup = false;
if (useFilters)
{
int dotPos = ui.Name.ReverseFind(L'.');
if (dotPos >= 0)
filteredGroup = IsExeExt(ui.Name.Mid(dotPos + 1));
}
groups[GetGroupIndex(method.PasswordIsDefined, filteredGroup)].Indices.Add(i);
}
}
#ifndef _NO_CRYPTO
CCryptoGetTextPassword *getPasswordSpec = NULL;
if (needEncryptedRepack)
{
getPasswordSpec = new CCryptoGetTextPassword;
threadDecoder.GetTextPassword = getPasswordSpec;
if (options.Method->PasswordIsDefined)
getPasswordSpec->Password = options.Method->Password;
else
{
if (!getDecoderPassword)
return E_NOTIMPL;
CMyComBSTR password;
RINOK(getDecoderPassword->CryptoGetTextPassword(&password));
getPasswordSpec->Password = password;
}
}
#endif
// ---------- Compress ----------
RINOK(archive.Create(seqOutStream, false));
RINOK(archive.SkipPrefixArchiveHeader());
int folderRefIndex = 0;
lps->ProgressOffset = 0;
for (int groupIndex = 0; groupIndex < kNumGroupsMax; groupIndex++)
{
const CSolidGroup &group = groups[groupIndex];
CCompressionMethodMode method;
#ifdef USE_86_FILTER
if (Is86Group(groupIndex))
MakeExeMethod(*options.Method, options.MaxFilter, method);
else
#endif
method = *options.Method;
if (IsEncryptedGroup(groupIndex))
{
if (!method.PasswordIsDefined)
{
#ifndef _NO_CRYPTO
if (getPasswordSpec)
method.Password = getPasswordSpec->Password;
#endif
method.PasswordIsDefined = true;
}
}
else
{
method.PasswordIsDefined = false;
method.Password.Empty();
}
CEncoder encoder(method);
for (; folderRefIndex < folderRefs.Size(); folderRefIndex++)
{
const CFolderRepack &rep = folderRefs[folderRefIndex];
if (rep.Group != groupIndex)
break;
int folderIndex = rep.FolderIndex;
if (rep.NumCopyFiles == db->NumUnpackStreamsVector[folderIndex])
{
UInt64 packSize = db->GetFolderFullPackSize(folderIndex);
RINOK(WriteRange(inStream, archive.SeqStream,
db->GetFolderStreamPos(folderIndex, 0), packSize, progress));
lps->ProgressOffset += packSize;
const CFolder &folder = db->Folders[folderIndex];
CNum startIndex = db->FolderStartPackStreamIndex[folderIndex];
for (int j = 0; j < folder.PackStreams.Size(); j++)
{
newDatabase.PackSizes.Add(db->PackSizes[startIndex + j]);
// newDatabase.PackCRCsDefined.Add(db.PackCRCsDefined[startIndex + j]);
// newDatabase.PackCRCs.Add(db.PackCRCs[startIndex + j]);
}
newDatabase.Folders.Add(folder);
}
else
{
CStreamBinder sb;
RINOK(sb.CreateEvents());
CMyComPtr<ISequentialOutStream> sbOutStream;
CMyComPtr<ISequentialInStream> sbInStream;
sb.CreateStreams(&sbInStream, &sbOutStream);
CBoolVector extractStatuses;
CNum numUnpackStreams = db->NumUnpackStreamsVector[folderIndex];
CNum indexInFolder = 0;
for (CNum fi = db->FolderStartFileIndex[folderIndex]; indexInFolder < numUnpackStreams; fi++)
{
bool needExtract = false;
if (db->Files[fi].HasStream)
{
indexInFolder++;
int updateIndex = fileIndexToUpdateIndexMap[fi];
if (updateIndex >= 0 && !updateItems[updateIndex].NewData)
needExtract = true;
}
extractStatuses.Add(needExtract);
}
RINOK(threadDecoder.FosSpec->Init(db, db->FolderStartFileIndex[folderIndex], &extractStatuses, sbOutStream));
sbOutStream.Release();
threadDecoder.InStream = inStream;
threadDecoder.Folder = &db->Folders[folderIndex];
threadDecoder.StartPos = db->GetFolderStreamPos(folderIndex, 0);
threadDecoder.PackSizes = &db->PackSizes[db->FolderStartPackStreamIndex[folderIndex]];
threadDecoder.Start();
int startPackIndex = newDatabase.PackSizes.Size();
CFolder newFolder;
RINOK(encoder.Encode(
EXTERNAL_CODECS_LOC_VARS
sbInStream, NULL, &inSizeForReduce, newFolder,
archive.SeqStream, newDatabase.PackSizes, progress));
threadDecoder.WaitFinish();
RINOK(threadDecoder.Result);
for (; startPackIndex < newDatabase.PackSizes.Size(); startPackIndex++)
lps->OutSize += newDatabase.PackSizes[startPackIndex];
lps->InSize += newFolder.GetUnpackSize();
newDatabase.Folders.Add(newFolder);
}
newDatabase.NumUnpackStreamsVector.Add(rep.NumCopyFiles);
CNum numUnpackStreams = db->NumUnpackStreamsVector[folderIndex];
CNum indexInFolder = 0;
for (CNum fi = db->FolderStartFileIndex[folderIndex]; indexInFolder < numUnpackStreams; fi++)
{
CFileItem file;
CFileItem2 file2;
db->GetFile(fi, file, file2);
if (file.HasStream)
{
indexInFolder++;
int updateIndex = fileIndexToUpdateIndexMap[fi];
if (updateIndex >= 0)
{
const CUpdateItem &ui = updateItems[updateIndex];
if (ui.NewData)
continue;
if (ui.NewProps)
{
CFileItem uf;
FromUpdateItemToFileItem(ui, uf, file2);
uf.Size = file.Size;
uf.Crc = file.Crc;
uf.CrcDefined = file.CrcDefined;
uf.HasStream = file.HasStream;
file = uf;
}
newDatabase.AddFile(file, file2);
}
}
}
}
int numFiles = group.Indices.Size();
if (numFiles == 0)
continue;
CRecordVector<CRefItem> refItems;
refItems.Reserve(numFiles);
bool sortByType = (numSolidFiles > 1);
for (i = 0; i < numFiles; i++)
refItems.Add(CRefItem(group.Indices[i], updateItems[group.Indices[i]], sortByType));
refItems.Sort(CompareUpdateItems, (void *)&sortByType);
CRecordVector<UInt32> indices;
indices.Reserve(numFiles);
for (i = 0; i < numFiles; i++)
{
UInt32 index = refItems[i].Index;
indices.Add(index);
/*
const CUpdateItem &ui = updateItems[index];
CFileItem file;
if (ui.NewProps)
FromUpdateItemToFileItem(ui, file);
else
file = db.Files[ui.IndexInArchive];
if (file.IsAnti || file.IsDir)
return E_FAIL;
newDatabase.Files.Add(file);
*/
}
for (i = 0; i < numFiles;)
{
UInt64 totalSize = 0;
int numSubFiles;
UString prevExtension;
for (numSubFiles = 0; i + numSubFiles < numFiles &&
numSubFiles < numSolidFiles; numSubFiles++)
{
const CUpdateItem &ui = updateItems[indices[i + numSubFiles]];
totalSize += ui.Size;
if (totalSize > options.NumSolidBytes)
break;
if (options.SolidExtension)
{
UString ext = ui.GetExtension();
if (numSubFiles == 0)
prevExtension = ext;
else
if (ext.CompareNoCase(prevExtension) != 0)
break;
}
}
if (numSubFiles < 1)
numSubFiles = 1;
CFolderInStream *inStreamSpec = new CFolderInStream;
CMyComPtr<ISequentialInStream> solidInStream(inStreamSpec);
inStreamSpec->Init(updateCallback, &indices[i], numSubFiles);
CFolder folderItem;
int startPackIndex = newDatabase.PackSizes.Size();
RINOK(encoder.Encode(
EXTERNAL_CODECS_LOC_VARS
solidInStream, NULL, &inSizeForReduce, folderItem,
archive.SeqStream, newDatabase.PackSizes, progress));
for (; startPackIndex < newDatabase.PackSizes.Size(); startPackIndex++)
lps->OutSize += newDatabase.PackSizes[startPackIndex];
lps->InSize += folderItem.GetUnpackSize();
// for ()
// newDatabase.PackCRCsDefined.Add(false);
// newDatabase.PackCRCs.Add(0);
newDatabase.Folders.Add(folderItem);
CNum numUnpackStreams = 0;
for (int subIndex = 0; subIndex < numSubFiles; subIndex++)
{
const CUpdateItem &ui = updateItems[indices[i + subIndex]];
CFileItem file;
CFileItem2 file2;
if (ui.NewProps)
FromUpdateItemToFileItem(ui, file, file2);
else
db->GetFile(ui.IndexInArchive, file, file2);
if (file2.IsAnti || file.IsDir)
return E_FAIL;
/*
CFileItem &file = newDatabase.Files[
startFileIndexInDatabase + i + subIndex];
*/
if (!inStreamSpec->Processed[subIndex])
{
continue;
// file.Name += L".locked";
}
file.Crc = inStreamSpec->CRCs[subIndex];
file.Size = inStreamSpec->Sizes[subIndex];
if (file.Size != 0)
{
file.CrcDefined = true;
file.HasStream = true;
numUnpackStreams++;
}
else
{
file.CrcDefined = false;
file.HasStream = false;
}
newDatabase.AddFile(file, file2);
}
// numUnpackStreams = 0 is very bad case for locked files
// v3.13 doesn't understand it.
newDatabase.NumUnpackStreamsVector.Add(numUnpackStreams);
i += numSubFiles;
}
}
if (folderRefIndex != folderRefs.Size())
return E_FAIL;
/*
folderRefs.ClearAndFree();
fileIndexToUpdateIndexMap.ClearAndFree();
groups.ClearAndFree();
*/
{
// ---------- Write Folders & Empty Files ----------
CRecordVector<int> emptyRefs;
for (i = 0; i < updateItems.Size(); i++)
{
const CUpdateItem &ui = updateItems[i];
if (ui.NewData)
{
if (ui.HasStream())
continue;
}
else if (ui.IndexInArchive != -1 && db->Files[ui.IndexInArchive].HasStream)
continue;
emptyRefs.Add(i);
}
emptyRefs.Sort(CompareEmptyItems, (void *)&updateItems);
for (i = 0; i < emptyRefs.Size(); i++)
{
const CUpdateItem &ui = updateItems[emptyRefs[i]];
CFileItem file;
CFileItem2 file2;
if (ui.NewProps)
FromUpdateItemToFileItem(ui, file, file2);
else
db->GetFile(ui.IndexInArchive, file, file2);
newDatabase.AddFile(file, file2);
}
}
newDatabase.ReserveDown();
return S_OK;
}
}}