- Correct initialisation of TeamsGameOver (on mobile it doesn't get reset between plays, so ones set to true, prevents game to be finished next time)
// ArchiveCommandLine.cpp
#include "StdAfx.h"
#ifdef _WIN32
#include <io.h>
#endif
#include <stdio.h>
#include "Common/ListFileUtils.h"
#include "Common/StringConvert.h"
#include "Common/StringToInt.h"
#include "Windows/FileName.h"
#include "Windows/FileDir.h"
#ifdef _WIN32
#include "Windows/FileMapping.h"
#include "Windows/Synchronization.h"
#endif
#include "ArchiveCommandLine.h"
#include "UpdateAction.h"
#include "Update.h"
#include "SortUtils.h"
#include "EnumDirItems.h"
extern bool g_CaseSensitive;
#if _MSC_VER >= 1400
#define MY_isatty_fileno(x) _isatty(_fileno(x))
#else
#define MY_isatty_fileno(x) isatty(fileno(x))
#endif
#define MY_IS_TERMINAL(x) (MY_isatty_fileno(x) != 0);
using namespace NCommandLineParser;
using namespace NWindows;
using namespace NFile;
namespace NKey {
enum Enum
{
kHelp1 = 0,
kHelp2,
kHelp3,
kDisableHeaders,
kDisablePercents,
kArchiveType,
kYes,
kPassword,
kProperty,
kOutputDir,
kWorkingDir,
kInclude,
kExclude,
kArInclude,
kArExclude,
kNoArName,
kUpdate,
kVolume,
kRecursed,
kSfx,
kStdIn,
kStdOut,
kOverwrite,
kEmail,
kShowDialog,
kLargePages,
kCharSet,
kTechMode,
kShareForWrite,
kCaseSensitive
};
}
static const wchar_t kRecursedIDChar = 'R';
static const wchar_t *kRecursedPostCharSet = L"0-";
namespace NRecursedPostCharIndex {
enum EEnum
{
kWildCardRecursionOnly = 0,
kNoRecursion = 1
};
}
static const char kImmediateNameID = '!';
static const char kMapNameID = '#';
static const char kFileListID = '@';
static const char kSomeCludePostStringMinSize = 2; // at least <@|!><N>ame must be
static const char kSomeCludeAfterRecursedPostStringMinSize = 2; // at least <@|!><N>ame must be
static const wchar_t *kOverwritePostCharSet = L"asut";
NExtract::NOverwriteMode::EEnum k_OverwriteModes[] =
{
NExtract::NOverwriteMode::kWithoutPrompt,
NExtract::NOverwriteMode::kSkipExisting,
NExtract::NOverwriteMode::kAutoRename,
NExtract::NOverwriteMode::kAutoRenameExisting
};
static const CSwitchForm kSwitchForms[] =
{
{ L"?", NSwitchType::kSimple, false },
{ L"H", NSwitchType::kSimple, false },
{ L"-HELP", NSwitchType::kSimple, false },
{ L"BA", NSwitchType::kSimple, false },
{ L"BD", NSwitchType::kSimple, false },
{ L"T", NSwitchType::kUnLimitedPostString, false, 1 },
{ L"Y", NSwitchType::kSimple, false },
{ L"P", NSwitchType::kUnLimitedPostString, false, 0 },
{ L"M", NSwitchType::kUnLimitedPostString, true, 1 },
{ L"O", NSwitchType::kUnLimitedPostString, false, 1 },
{ L"W", NSwitchType::kUnLimitedPostString, false, 0 },
{ L"I", NSwitchType::kUnLimitedPostString, true, kSomeCludePostStringMinSize},
{ L"X", NSwitchType::kUnLimitedPostString, true, kSomeCludePostStringMinSize},
{ L"AI", NSwitchType::kUnLimitedPostString, true, kSomeCludePostStringMinSize},
{ L"AX", NSwitchType::kUnLimitedPostString, true, kSomeCludePostStringMinSize},
{ L"AN", NSwitchType::kSimple, false },
{ L"U", NSwitchType::kUnLimitedPostString, true, 1},
{ L"V", NSwitchType::kUnLimitedPostString, true, 1},
{ L"R", NSwitchType::kPostChar, false, 0, 0, kRecursedPostCharSet },
{ L"SFX", NSwitchType::kUnLimitedPostString, false, 0 },
{ L"SI", NSwitchType::kUnLimitedPostString, false, 0 },
{ L"SO", NSwitchType::kSimple, false, 0 },
{ L"AO", NSwitchType::kPostChar, false, 1, 1, kOverwritePostCharSet},
{ L"SEML", NSwitchType::kUnLimitedPostString, false, 0},
{ L"AD", NSwitchType::kSimple, false },
{ L"SLP", NSwitchType::kUnLimitedPostString, false, 0},
{ L"SCS", NSwitchType::kUnLimitedPostString, false, 0},
{ L"SLT", NSwitchType::kSimple, false },
{ L"SSW", NSwitchType::kSimple, false },
{ L"SSC", NSwitchType::kPostChar, false, 0, 0, L"-" }
};
static const CCommandForm g_CommandForms[] =
{
{ L"A", false },
{ L"U", false },
{ L"D", false },
{ L"T", false },
{ L"E", false },
{ L"X", false },
{ L"L", false },
{ L"B", false },
{ L"I", false }
};
static const int kNumCommandForms = sizeof(g_CommandForms) / sizeof(g_CommandForms[0]);
static const wchar_t *kUniversalWildcard = L"*";
static const int kMinNonSwitchWords = 1;
static const int kCommandIndex = 0;
// ---------------------------
// exception messages
static const char *kUserErrorMessage = "Incorrect command line";
static const char *kIncorrectListFile = "Incorrect item in listfile.\nCheck charset encoding and -scs switch.";
static const char *kIncorrectWildCardInListFile = "Incorrect wildcard in listfile";
static const char *kIncorrectWildCardInCommandLine = "Incorrect wildcard in command line";
static const char *kTerminalOutError = "I won't write compressed data to a terminal";
static const char *kSameTerminalError = "I won't write data and program's messages to same terminal";
static void ThrowException(const char *errorMessage)
{
throw CArchiveCommandLineException(errorMessage);
};
static void ThrowUserErrorException()
{
ThrowException(kUserErrorMessage);
};
// ---------------------------
bool CArchiveCommand::IsFromExtractGroup() const
{
switch(CommandType)
{
case NCommandType::kTest:
case NCommandType::kExtract:
case NCommandType::kFullExtract:
return true;
default:
return false;
}
}
NExtract::NPathMode::EEnum CArchiveCommand::GetPathMode() const
{
switch(CommandType)
{
case NCommandType::kTest:
case NCommandType::kFullExtract:
return NExtract::NPathMode::kFullPathnames;
default:
return NExtract::NPathMode::kNoPathnames;
}
}
bool CArchiveCommand::IsFromUpdateGroup() const
{
return (CommandType == NCommandType::kAdd ||
CommandType == NCommandType::kUpdate ||
CommandType == NCommandType::kDelete);
}
static NRecursedType::EEnum GetRecursedTypeFromIndex(int index)
{
switch (index)
{
case NRecursedPostCharIndex::kWildCardRecursionOnly:
return NRecursedType::kWildCardOnlyRecursed;
case NRecursedPostCharIndex::kNoRecursion:
return NRecursedType::kNonRecursed;
default:
return NRecursedType::kRecursed;
}
}
static bool ParseArchiveCommand(const UString &commandString, CArchiveCommand &command)
{
UString commandStringUpper = commandString;
commandStringUpper.MakeUpper();
UString postString;
int commandIndex = ParseCommand(kNumCommandForms, g_CommandForms, commandStringUpper,
postString) ;
if (commandIndex < 0)
return false;
command.CommandType = (NCommandType::EEnum)commandIndex;
return true;
}
// ------------------------------------------------------------------
// filenames functions
static bool AddNameToCensor(NWildcard::CCensor &wildcardCensor,
const UString &name, bool include, NRecursedType::EEnum type)
{
bool isWildCard = DoesNameContainWildCard(name);
bool recursed = false;
switch (type)
{
case NRecursedType::kWildCardOnlyRecursed:
recursed = isWildCard;
break;
case NRecursedType::kRecursed:
recursed = true;
break;
case NRecursedType::kNonRecursed:
recursed = false;
break;
}
wildcardCensor.AddItem(include, name, recursed);
return true;
}
static void AddToCensorFromListFile(NWildcard::CCensor &wildcardCensor,
LPCWSTR fileName, bool include, NRecursedType::EEnum type, UINT codePage)
{
UStringVector names;
if (!ReadNamesFromListFile(fileName, names, codePage))
throw kIncorrectListFile;
for (int i = 0; i < names.Size(); i++)
if (!AddNameToCensor(wildcardCensor, names[i], include, type))
throw kIncorrectWildCardInListFile;
}
static void AddCommandLineWildCardToCensr(NWildcard::CCensor &wildcardCensor,
const UString &name, bool include, NRecursedType::EEnum recursedType)
{
if (!AddNameToCensor(wildcardCensor, name, include, recursedType))
throw kIncorrectWildCardInCommandLine;
}
static void AddToCensorFromNonSwitchesStrings(
int startIndex,
NWildcard::CCensor &wildcardCensor,
const UStringVector &nonSwitchStrings, NRecursedType::EEnum type,
bool thereAreSwitchIncludes, UINT codePage)
{
if(nonSwitchStrings.Size() == startIndex && (!thereAreSwitchIncludes))
AddCommandLineWildCardToCensr(wildcardCensor, kUniversalWildcard, true, type);
for(int i = startIndex; i < nonSwitchStrings.Size(); i++)
{
const UString &s = nonSwitchStrings[i];
if (s[0] == kFileListID)
AddToCensorFromListFile(wildcardCensor, s.Mid(1), true, type, codePage);
else
AddCommandLineWildCardToCensr(wildcardCensor, s, true, type);
}
}
#ifdef _WIN32
static void ParseMapWithPaths(NWildcard::CCensor &wildcardCensor,
const UString &switchParam, bool include,
NRecursedType::EEnum commonRecursedType)
{
int splitPos = switchParam.Find(L':');
if (splitPos < 0)
ThrowUserErrorException();
UString mappingName = switchParam.Left(splitPos);
UString switchParam2 = switchParam.Mid(splitPos + 1);
splitPos = switchParam2.Find(L':');
if (splitPos < 0)
ThrowUserErrorException();
UString mappingSize = switchParam2.Left(splitPos);
UString eventName = switchParam2.Mid(splitPos + 1);
UInt64 dataSize64 = ConvertStringToUInt64(mappingSize, NULL);
UInt32 dataSize = (UInt32)dataSize64;
{
CFileMapping fileMapping;
if (!fileMapping.Open(FILE_MAP_READ, false, GetSystemString(mappingName)))
ThrowException("Can not open mapping");
LPVOID data = fileMapping.MapViewOfFile(FILE_MAP_READ, 0, dataSize);
if (data == NULL)
ThrowException("MapViewOfFile error");
try
{
const wchar_t *curData = (const wchar_t *)data;
if (*curData != 0)
ThrowException("Incorrect mapping data");
UInt32 numChars = dataSize / sizeof(wchar_t);
UString name;
for (UInt32 i = 1; i < numChars; i++)
{
wchar_t c = curData[i];
if (c == L'\0')
{
AddCommandLineWildCardToCensr(wildcardCensor,
name, include, commonRecursedType);
name.Empty();
}
else
name += c;
}
if (!name.IsEmpty())
ThrowException("data error");
}
catch(...)
{
UnmapViewOfFile(data);
throw;
}
UnmapViewOfFile(data);
}
{
NSynchronization::CManualResetEvent event;
if (event.Open(EVENT_MODIFY_STATE, false, GetSystemString(eventName)) == S_OK)
event.Set();
}
}
#endif
static void AddSwitchWildCardsToCensor(NWildcard::CCensor &wildcardCensor,
const UStringVector &strings, bool include,
NRecursedType::EEnum commonRecursedType, UINT codePage)
{
for(int i = 0; i < strings.Size(); i++)
{
const UString &name = strings[i];
NRecursedType::EEnum recursedType;
int pos = 0;
if (name.Length() < kSomeCludePostStringMinSize)
ThrowUserErrorException();
if (::MyCharUpper(name[pos]) == kRecursedIDChar)
{
pos++;
int index = UString(kRecursedPostCharSet).Find(name[pos]);
recursedType = GetRecursedTypeFromIndex(index);
if (index >= 0)
pos++;
}
else
recursedType = commonRecursedType;
if (name.Length() < pos + kSomeCludeAfterRecursedPostStringMinSize)
ThrowUserErrorException();
UString tail = name.Mid(pos + 1);
if (name[pos] == kImmediateNameID)
AddCommandLineWildCardToCensr(wildcardCensor, tail, include, recursedType);
else if (name[pos] == kFileListID)
AddToCensorFromListFile(wildcardCensor, tail, include, recursedType, codePage);
#ifdef _WIN32
else if (name[pos] == kMapNameID)
ParseMapWithPaths(wildcardCensor, tail, include, recursedType);
#endif
else
ThrowUserErrorException();
}
}
#ifdef _WIN32
// This code converts all short file names to long file names.
static void ConvertToLongName(const UString &prefix, UString &name)
{
if (name.IsEmpty() || DoesNameContainWildCard(name))
return;
NFind::CFileInfoW fileInfo;
if (NFind::FindFile(prefix + name, fileInfo))
name = fileInfo.Name;
}
static void ConvertToLongNames(const UString &prefix, CObjectVector<NWildcard::CItem> &items)
{
for (int i = 0; i < items.Size(); i++)
{
NWildcard::CItem &item = items[i];
if (item.Recursive || item.PathParts.Size() != 1)
continue;
ConvertToLongName(prefix, item.PathParts.Front());
}
}
static void ConvertToLongNames(const UString &prefix, NWildcard::CCensorNode &node)
{
ConvertToLongNames(prefix, node.IncludeItems);
ConvertToLongNames(prefix, node.ExcludeItems);
int i;
for (i = 0; i < node.SubNodes.Size(); i++)
ConvertToLongName(prefix, node.SubNodes[i].Name);
// mix folders with same name
for (i = 0; i < node.SubNodes.Size(); i++)
{
NWildcard::CCensorNode &nextNode1 = node.SubNodes[i];
for (int j = i + 1; j < node.SubNodes.Size();)
{
const NWildcard::CCensorNode &nextNode2 = node.SubNodes[j];
if (nextNode1.Name.CompareNoCase(nextNode2.Name) == 0)
{
nextNode1.IncludeItems += nextNode2.IncludeItems;
nextNode1.ExcludeItems += nextNode2.ExcludeItems;
node.SubNodes.Delete(j);
}
else
j++;
}
}
for (i = 0; i < node.SubNodes.Size(); i++)
{
NWildcard::CCensorNode &nextNode = node.SubNodes[i];
ConvertToLongNames(prefix + nextNode.Name + wchar_t(NFile::NName::kDirDelimiter), nextNode);
}
}
static void ConvertToLongNames(NWildcard::CCensor &censor)
{
for (int i = 0; i < censor.Pairs.Size(); i++)
{
NWildcard::CPair &pair = censor.Pairs[i];
ConvertToLongNames(pair.Prefix, pair.Head);
}
}
#endif
static NUpdateArchive::NPairAction::EEnum GetUpdatePairActionType(int i)
{
switch(i)
{
case NUpdateArchive::NPairAction::kIgnore: return NUpdateArchive::NPairAction::kIgnore;
case NUpdateArchive::NPairAction::kCopy: return NUpdateArchive::NPairAction::kCopy;
case NUpdateArchive::NPairAction::kCompress: return NUpdateArchive::NPairAction::kCompress;
case NUpdateArchive::NPairAction::kCompressAsAnti: return NUpdateArchive::NPairAction::kCompressAsAnti;
}
throw 98111603;
}
const UString kUpdatePairStateIDSet = L"PQRXYZW";
const int kUpdatePairStateNotSupportedActions[] = {2, 2, 1, -1, -1, -1, -1};
const UString kUpdatePairActionIDSet = L"0123"; //Ignore, Copy, Compress, Create Anti
const wchar_t *kUpdateIgnoreItselfPostStringID = L"-";
const wchar_t kUpdateNewArchivePostCharID = '!';
static bool ParseUpdateCommandString2(const UString &command,
NUpdateArchive::CActionSet &actionSet, UString &postString)
{
for(int i = 0; i < command.Length();)
{
wchar_t c = MyCharUpper(command[i]);
int statePos = kUpdatePairStateIDSet.Find(c);
if (statePos < 0)
{
postString = command.Mid(i);
return true;
}
i++;
if (i >= command.Length())
return false;
int actionPos = kUpdatePairActionIDSet.Find(::MyCharUpper(command[i]));
if (actionPos < 0)
return false;
actionSet.StateActions[statePos] = GetUpdatePairActionType(actionPos);
if (kUpdatePairStateNotSupportedActions[statePos] == actionPos)
return false;
i++;
}
postString.Empty();
return true;
}
static void ParseUpdateCommandString(CUpdateOptions &options,
const UStringVector &updatePostStrings,
const NUpdateArchive::CActionSet &defaultActionSet)
{
for(int i = 0; i < updatePostStrings.Size(); i++)
{
const UString &updateString = updatePostStrings[i];
if(updateString.CompareNoCase(kUpdateIgnoreItselfPostStringID) == 0)
{
if(options.UpdateArchiveItself)
{
options.UpdateArchiveItself = false;
options.Commands.Delete(0);
}
}
else
{
NUpdateArchive::CActionSet actionSet = defaultActionSet;
UString postString;
if (!ParseUpdateCommandString2(updateString, actionSet, postString))
ThrowUserErrorException();
if(postString.IsEmpty())
{
if(options.UpdateArchiveItself)
options.Commands[0].ActionSet = actionSet;
}
else
{
if(MyCharUpper(postString[0]) != kUpdateNewArchivePostCharID)
ThrowUserErrorException();
CUpdateArchiveCommand uc;
UString archivePath = postString.Mid(1);
if (archivePath.IsEmpty())
ThrowUserErrorException();
uc.UserArchivePath = archivePath;
uc.ActionSet = actionSet;
options.Commands.Add(uc);
}
}
}
}
static const char kByteSymbol = 'B';
static const char kKiloSymbol = 'K';
static const char kMegaSymbol = 'M';
static const char kGigaSymbol = 'G';
static bool ParseComplexSize(const UString &src, UInt64 &result)
{
UString s = src;
s.MakeUpper();
const wchar_t *start = s;
const wchar_t *end;
UInt64 number = ConvertStringToUInt64(start, &end);
int numDigits = (int)(end - start);
if (numDigits == 0 || s.Length() > numDigits + 1)
return false;
if (s.Length() == numDigits)
{
result = number;
return true;
}
int numBits;
switch (s[numDigits])
{
case kByteSymbol:
result = number;
return true;
case kKiloSymbol:
numBits = 10;
break;
case kMegaSymbol:
numBits = 20;
break;
case kGigaSymbol:
numBits = 30;
break;
default:
return false;
}
if (number >= ((UInt64)1 << (64 - numBits)))
return false;
result = number << numBits;
return true;
}
static void SetAddCommandOptions(
NCommandType::EEnum commandType,
const CParser &parser,
CUpdateOptions &options)
{
NUpdateArchive::CActionSet defaultActionSet;
switch(commandType)
{
case NCommandType::kAdd:
defaultActionSet = NUpdateArchive::kAddActionSet;
break;
case NCommandType::kDelete:
defaultActionSet = NUpdateArchive::kDeleteActionSet;
break;
default:
defaultActionSet = NUpdateArchive::kUpdateActionSet;
}
options.UpdateArchiveItself = true;
options.Commands.Clear();
CUpdateArchiveCommand updateMainCommand;
updateMainCommand.ActionSet = defaultActionSet;
options.Commands.Add(updateMainCommand);
if(parser[NKey::kUpdate].ThereIs)
ParseUpdateCommandString(options, parser[NKey::kUpdate].PostStrings,
defaultActionSet);
if(parser[NKey::kWorkingDir].ThereIs)
{
const UString &postString = parser[NKey::kWorkingDir].PostStrings[0];
if (postString.IsEmpty())
NDirectory::MyGetTempPath(options.WorkingDir);
else
options.WorkingDir = postString;
}
options.SfxMode = parser[NKey::kSfx].ThereIs;
if (options.SfxMode)
options.SfxModule = parser[NKey::kSfx].PostStrings[0];
if (parser[NKey::kVolume].ThereIs)
{
const UStringVector &sv = parser[NKey::kVolume].PostStrings;
for (int i = 0; i < sv.Size(); i++)
{
UInt64 size;
if (!ParseComplexSize(sv[i], size))
ThrowException("Incorrect volume size");
options.VolumesSizes.Add(size);
}
}
}
static void SetMethodOptions(const CParser &parser, CObjectVector<CProperty> &properties)
{
if (parser[NKey::kProperty].ThereIs)
{
// options.MethodMode.Properties.Clear();
for(int i = 0; i < parser[NKey::kProperty].PostStrings.Size(); i++)
{
CProperty property;
const UString &postString = parser[NKey::kProperty].PostStrings[i];
int index = postString.Find(L'=');
if (index < 0)
property.Name = postString;
else
{
property.Name = postString.Left(index);
property.Value = postString.Mid(index + 1);
}
properties.Add(property);
}
}
}
CArchiveCommandLineParser::CArchiveCommandLineParser():
parser(sizeof(kSwitchForms) / sizeof(kSwitchForms[0])) {}
void CArchiveCommandLineParser::Parse1(const UStringVector &commandStrings,
CArchiveCommandLineOptions &options)
{
try
{
parser.ParseStrings(kSwitchForms, commandStrings);
}
catch(...)
{
ThrowUserErrorException();
}
options.IsInTerminal = MY_IS_TERMINAL(stdin);
options.IsStdOutTerminal = MY_IS_TERMINAL(stdout);
options.IsStdErrTerminal = MY_IS_TERMINAL(stderr);
options.StdOutMode = parser[NKey::kStdOut].ThereIs;
options.EnableHeaders = !parser[NKey::kDisableHeaders].ThereIs;
options.HelpMode = parser[NKey::kHelp1].ThereIs || parser[NKey::kHelp2].ThereIs || parser[NKey::kHelp3].ThereIs;
#ifdef _WIN32
options.LargePages = false;
if (parser[NKey::kLargePages].ThereIs)
{
const UString &postString = parser[NKey::kLargePages].PostStrings.Front();
if (postString.IsEmpty())
options.LargePages = true;
}
#endif
}
struct CCodePagePair
{
const wchar_t *Name;
UINT CodePage;
};
static CCodePagePair g_CodePagePairs[] =
{
{ L"UTF-8", CP_UTF8 },
{ L"WIN", CP_ACP },
{ L"DOS", CP_OEMCP }
};
static const int kNumCodePages = sizeof(g_CodePagePairs) / sizeof(g_CodePagePairs[0]);
static bool ConvertStringToUInt32(const wchar_t *s, UInt32 &v)
{
const wchar_t *end;
UInt64 number = ConvertStringToUInt64(s, &end);
if (*end != 0)
return false;
if (number > (UInt32)0xFFFFFFFF)
return false;
v = (UInt32)number;
return true;
}
void CArchiveCommandLineParser::Parse2(CArchiveCommandLineOptions &options)
{
const UStringVector &nonSwitchStrings = parser.NonSwitchStrings;
int numNonSwitchStrings = nonSwitchStrings.Size();
if(numNonSwitchStrings < kMinNonSwitchWords)
ThrowUserErrorException();
if (!ParseArchiveCommand(nonSwitchStrings[kCommandIndex], options.Command))
ThrowUserErrorException();
options.TechMode = parser[NKey::kTechMode].ThereIs;
if (parser[NKey::kCaseSensitive].ThereIs)
g_CaseSensitive = (parser[NKey::kCaseSensitive].PostCharIndex < 0);
NRecursedType::EEnum recursedType;
if (parser[NKey::kRecursed].ThereIs)
recursedType = GetRecursedTypeFromIndex(parser[NKey::kRecursed].PostCharIndex);
else
recursedType = NRecursedType::kNonRecursed;
UINT codePage = CP_UTF8;
if (parser[NKey::kCharSet].ThereIs)
{
UString name = parser[NKey::kCharSet].PostStrings.Front();
name.MakeUpper();
int i;
for (i = 0; i < kNumCodePages; i++)
{
const CCodePagePair &pair = g_CodePagePairs[i];
if (name.Compare(pair.Name) == 0)
{
codePage = pair.CodePage;
break;
}
}
if (i >= kNumCodePages)
ThrowUserErrorException();
}
bool thereAreSwitchIncludes = false;
if (parser[NKey::kInclude].ThereIs)
{
thereAreSwitchIncludes = true;
AddSwitchWildCardsToCensor(options.WildcardCensor,
parser[NKey::kInclude].PostStrings, true, recursedType, codePage);
}
if (parser[NKey::kExclude].ThereIs)
AddSwitchWildCardsToCensor(options.WildcardCensor,
parser[NKey::kExclude].PostStrings, false, recursedType, codePage);
int curCommandIndex = kCommandIndex + 1;
bool thereIsArchiveName = !parser[NKey::kNoArName].ThereIs &&
options.Command.CommandType != NCommandType::kBenchmark &&
options.Command.CommandType != NCommandType::kInfo;
if (thereIsArchiveName)
{
if(curCommandIndex >= numNonSwitchStrings)
ThrowUserErrorException();
options.ArchiveName = nonSwitchStrings[curCommandIndex++];
}
AddToCensorFromNonSwitchesStrings(
curCommandIndex, options.WildcardCensor,
nonSwitchStrings, recursedType, thereAreSwitchIncludes, codePage);
options.YesToAll = parser[NKey::kYes].ThereIs;
bool isExtractGroupCommand = options.Command.IsFromExtractGroup();
options.PasswordEnabled = parser[NKey::kPassword].ThereIs;
if(options.PasswordEnabled)
options.Password = parser[NKey::kPassword].PostStrings[0];
options.StdInMode = parser[NKey::kStdIn].ThereIs;
options.ShowDialog = parser[NKey::kShowDialog].ThereIs;
if(isExtractGroupCommand || options.Command.CommandType == NCommandType::kList)
{
if (options.StdInMode)
ThrowException("Reading archives from stdin is not implemented");
if (!options.WildcardCensor.AllAreRelative())
ThrowException("Cannot use absolute pathnames for this command");
NWildcard::CCensor archiveWildcardCensor;
if (parser[NKey::kArInclude].ThereIs)
{
AddSwitchWildCardsToCensor(archiveWildcardCensor,
parser[NKey::kArInclude].PostStrings, true, NRecursedType::kNonRecursed, codePage);
}
if (parser[NKey::kArExclude].ThereIs)
AddSwitchWildCardsToCensor(archiveWildcardCensor,
parser[NKey::kArExclude].PostStrings, false, NRecursedType::kNonRecursed, codePage);
if (thereIsArchiveName)
AddCommandLineWildCardToCensr(archiveWildcardCensor, options.ArchiveName, true, NRecursedType::kNonRecursed);
#ifdef _WIN32
ConvertToLongNames(archiveWildcardCensor);
#endif
archiveWildcardCensor.ExtendExclude();
CObjectVector<CDirItem> dirItems;
{
UStringVector errorPaths;
CRecordVector<DWORD> errorCodes;
HRESULT res = EnumerateItems(archiveWildcardCensor, dirItems, NULL, errorPaths, errorCodes);
if (res != S_OK || errorPaths.Size() > 0)
throw "cannot find archive";
}
UStringVector archivePaths;
int i;
for (i = 0; i < dirItems.Size(); i++)
{
const CDirItem &dirItem = dirItems[i];
if (!dirItem.IsDirectory())
archivePaths.Add(dirItem.FullPath);
}
if (archivePaths.Size() == 0)
throw "there is no such archive";
UStringVector archivePathsFull;
for (i = 0; i < archivePaths.Size(); i++)
{
UString fullPath;
NFile::NDirectory::MyGetFullPathName(archivePaths[i], fullPath);
archivePathsFull.Add(fullPath);
}
CIntVector indices;
SortFileNames(archivePathsFull, indices);
options.ArchivePathsSorted.Reserve(indices.Size());
options.ArchivePathsFullSorted.Reserve(indices.Size());
for (i = 0; i < indices.Size(); i++)
{
options.ArchivePathsSorted.Add(archivePaths[indices[i]]);
options.ArchivePathsFullSorted.Add(archivePathsFull[indices[i]]);
}
if (isExtractGroupCommand)
{
SetMethodOptions(parser, options.ExtractProperties);
if (options.StdOutMode && options.IsStdOutTerminal && options.IsStdErrTerminal)
throw kSameTerminalError;
if(parser[NKey::kOutputDir].ThereIs)
{
options.OutputDir = parser[NKey::kOutputDir].PostStrings[0];
NFile::NName::NormalizeDirPathPrefix(options.OutputDir);
}
options.OverwriteMode = NExtract::NOverwriteMode::kAskBefore;
if(parser[NKey::kOverwrite].ThereIs)
options.OverwriteMode =
k_OverwriteModes[parser[NKey::kOverwrite].PostCharIndex];
else if (options.YesToAll)
options.OverwriteMode = NExtract::NOverwriteMode::kWithoutPrompt;
}
}
else if(options.Command.IsFromUpdateGroup())
{
CUpdateOptions &updateOptions = options.UpdateOptions;
if(parser[NKey::kArchiveType].ThereIs)
options.ArcType = parser[NKey::kArchiveType].PostStrings[0];
SetAddCommandOptions(options.Command.CommandType, parser, updateOptions);
SetMethodOptions(parser, updateOptions.MethodMode.Properties);
if (parser[NKey::kShareForWrite].ThereIs)
updateOptions.OpenShareForWrite = true;
options.EnablePercents = !parser[NKey::kDisablePercents].ThereIs;
if (options.EnablePercents)
{
if ((options.StdOutMode && !options.IsStdErrTerminal) ||
(!options.StdOutMode && !options.IsStdOutTerminal))
options.EnablePercents = false;
}
updateOptions.EMailMode = parser[NKey::kEmail].ThereIs;
if (updateOptions.EMailMode)
{
updateOptions.EMailAddress = parser[NKey::kEmail].PostStrings.Front();
if (updateOptions.EMailAddress.Length() > 0)
if (updateOptions.EMailAddress[0] == L'.')
{
updateOptions.EMailRemoveAfter = true;
updateOptions.EMailAddress.Delete(0);
}
}
updateOptions.StdOutMode = options.StdOutMode;
updateOptions.StdInMode = options.StdInMode;
if (updateOptions.StdOutMode && updateOptions.EMailMode)
throw "stdout mode and email mode cannot be combined";
if (updateOptions.StdOutMode && options.IsStdOutTerminal)
throw kTerminalOutError;
if(updateOptions.StdInMode)
updateOptions.StdInFileName = parser[NKey::kStdIn].PostStrings.Front();
#ifdef _WIN32
ConvertToLongNames(options.WildcardCensor);
#endif
}
else if(options.Command.CommandType == NCommandType::kBenchmark)
{
options.NumThreads = (UInt32)-1;
options.DictionarySize = (UInt32)-1;
options.NumIterations = 1;
if (curCommandIndex < numNonSwitchStrings)
{
if (!ConvertStringToUInt32(nonSwitchStrings[curCommandIndex++], options.NumIterations))
ThrowUserErrorException();
}
for (int i = 0; i < parser[NKey::kProperty].PostStrings.Size(); i++)
{
UString postString = parser[NKey::kProperty].PostStrings[i];
postString.MakeUpper();
if (postString.Length() < 2)
ThrowUserErrorException();
if (postString[0] == 'D')
{
int pos = 1;
if (postString[pos] == '=')
pos++;
UInt32 logSize;
if (!ConvertStringToUInt32((const wchar_t *)postString + pos, logSize))
ThrowUserErrorException();
if (logSize > 31)
ThrowUserErrorException();
options.DictionarySize = 1 << logSize;
}
else if (postString[0] == 'M' && postString[1] == 'T' )
{
int pos = 2;
if (postString[pos] == '=')
pos++;
if (postString[pos] != 0)
if (!ConvertStringToUInt32((const wchar_t *)postString + pos, options.NumThreads))
ThrowUserErrorException();
}
else if (postString[0] == 'M' && postString[1] == '=' )
{
int pos = 2;
if (postString[pos] != 0)
options.Method = postString.Mid(2);
}
else
ThrowUserErrorException();
}
}
else if(options.Command.CommandType == NCommandType::kInfo)
{
}
else
ThrowUserErrorException();
options.WildcardCensor.ExtendExclude();
}