reactos/base/shell/cmd/dir.c
Katayama Hirofumi MZ a9760098f7
[CMD] Correctly parse drive-decorated pathname (#2382)
Correctly interpret the drive-decorated pathnames (C: or D:dir1 etc). CORE-15871
2020-02-26 22:28:02 +09:00

1990 lines
67 KiB
C

/*
* DIR.C - dir internal command.
*
*
* History:
*
* 01/29/97 (Tim Norman)
* started.
*
* 06/13/97 (Tim Norman)
* Fixed code.
*
* 07/12/97 (Tim Norman)
* Fixed bug that caused the root directory to be unlistable
*
* 07/12/97 (Marc Desrochers)
* Changed to use maxx, maxy instead of findxy()
*
* 06/08/98 (Rob Lake)
* Added compatibility for /w in dir
*
* 06/09/98 (Rob Lake)
* Compatibility for dir/s started
* Tested that program finds directories off root fine
*
* 06/10/98 (Rob Lake)
* do_recurse saves the cwd and also stores it in Root
* build_tree adds the cwd to the beginning of its' entries
* Program runs fine, added print_tree -- works fine.. as EXE,
* program won't work properly as COM.
*
* 06/11/98 (Rob Lake)
* Found problem that caused COM not to work
*
* 06/12/98 (Rob Lake)
* debugged...
* added free mem routine
*
* 06/13/98 (Rob Lake)
* debugged the free mem routine
* debugged whole thing some more
* Notes:
* ReadDir stores Root name and _Read_Dir does the hard work
* PrintDir prints Root and _Print_Dir does the hard work
* KillDir kills Root _after_ _Kill_Dir does the hard work
* Integrated program into DIR.C(this file) and made some same
* changes throughout
*
* 06/14/98 (Rob Lake)
* Cleaned up code a bit, added comments
*
* 06/16/98 (Rob Lake)
* Added error checking to my previously added routines
*
* 06/17/98 (Rob Lake)
* Rewrote recursive functions, again! Most other recursive
* functions are now obsolete -- ReadDir, PrintDir, _Print_Dir,
* KillDir and _Kill_Dir. do_recurse does what PrintDir did
* and _Read_Dir did what it did before along with what _Print_Dir
* did. Makes /s a lot faster!
* Reports 2 more files/dirs that MS-DOS actually reports
* when used in root directory(is this because dir defaults
* to look for read only files?)
* Added support for /b, /a and /l
* Made error message similar to DOS error messages
* Added help screen
*
* 06/20/98 (Rob Lake)
* Added check for /-(switch) to turn off previously defined
* switches.
* Added ability to check for DIRCMD in environment and
* process it
*
* 06/21/98 (Rob Lake)
* Fixed up /B
* Now can dir *.ext/X, no spaces!
*
* 06/29/98 (Rob Lake)
* error message now found in command.h
*
* 07/08/1998 (John P. Price)
* removed extra returns; closer to MSDOS
* fixed wide display so that an extra return is not displayed
* when there is five filenames in the last line.
*
* 07/12/98 (Rob Lake)
* Changed error messages
*
* 27-Jul-1998 (John P Price <linux-guru@gcfl.net>)
* added config.h include
*
*
* 04-Dec-1998 (Eric Kohl)
* Converted source code to Win32, except recursive dir ("dir /s").
*
* 10-Dec-1998 (Eric Kohl)
* Fixed recursive dir ("dir /s").
*
* 14-Dec-1998 (Eric Kohl)
* Converted to Win32 directory functions and
* fixed some output bugs. There are still some more ;)
*
* 10-Jan-1999 (Eric Kohl)
* Added "/N" and "/4" options, "/O" is a dummy.
* Added locale support.
*
* 20-Jan-1999 (Eric Kohl)
* Redirection safe!
*
* 01-Mar-1999 (Eric Kohl)
* Replaced all runtime io functions by their Win32 counterparts.
*
* 23-Feb-2001 (Carl Nettelblad <cnettel@hem.passagen.se>)
* dir /s now works in deeper trees
*
* 28-Jan-2004 (Michael Fritscher <michael@fritscher.net>)
* Fix for /p, so it is working under Windows in GUI-mode, too.
*
* 30-Apr-2004 (Filip Navara <xnavara@volny.cz>)
* Fix /w to print long names.
*
* 27-Feb-2005 (Konstantinos Paliouras <squarious@gmail.com>)
* Implemented all the switches that were missing, and made
* the ROS dir very similar to windows dir. Major part of
* the code is rewritten. /p is removed, to be rewritten in
* the main cmd code.
*
* 1-Jul-2004 (Brandon Turner <turnerb7@msu.edu>)
* Added /p back in using ConOutPrintfPaging
*
* 3-Feb-2007 (Paolo Devoti devotip at gmail)
* Removed variables formerly in use to handle pagination
* Pagination belongs to ConOutPrintfPaging
* Removed already commented out code of old pagination
*
* 25-Aug-2015 (Pierre Schweitzer)
* Implemented /R switch
*
* 6-Aug-2018 (Hermes Belusca-Maito and Katayama Hirofumi MZ)
* Fix handling of patterns containing trailing dots.
*/
#include "precomp.h"
#ifdef INCLUDE_CMD_DIR
/* Time Field enumeration */
enum ETimeField
{
TF_CREATIONDATE = 0,
TF_MODIFIEDDATE = 1,
TF_LASTACCESSEDDATE = 2
};
/* Ordered by enumeration */
enum EOrderBy
{
ORDER_NAME = 0,
ORDER_SIZE = 1,
ORDER_DIRECTORY = 2,
ORDER_EXTENSION = 3,
ORDER_TIME = 4
};
/* The struct for holding the switches */
typedef struct _DirSwitchesFlags
{
BOOL bBareFormat; /* Bare Format */
BOOL bTSeparator; /* Thousands separator */
BOOL bWideList; /* Wide list format */
BOOL bWideListColSort; /* Wide list format but sorted by column */
BOOL bLowerCase; /* Uses lower case */
BOOL bNewLongList; /* New long list */
BOOL bPause; /* Pause per page */
BOOL bUser; /* Displays the owner of file */
BOOL bRecursive; /* Displays files in specified directory and all sub */
BOOL bShortName; /* Displays the sort name of files if exist */
BOOL b4Digit; /* Four digit year */
BOOL bDataStreams; /* Displays alternate data streams */
struct
{
DWORD dwAttribVal; /* The desired state of attribute */
DWORD dwAttribMask; /* Which attributes to check */
} stAttribs; /* Displays files with this attributes only */
struct
{
enum EOrderBy eCriteria[3]; /* Criterias used to order by */
BOOL bCriteriaRev[3]; /* If the criteria is in reversed order */
short sCriteriaCount; /* The quantity of criterias */
} stOrderBy; /* Ordered by criterias */
struct
{
enum ETimeField eTimeField; /* The time field that will be used for */
} stTimeField; /* The time field to display or use for sorting */
} DIRSWITCHFLAGS, *LPDIRSWITCHFLAGS;
typedef struct _DIRFINDSTREAMNODE
{
WIN32_FIND_STREAM_DATA stStreamInfo;
struct _DIRFINDSTREAMNODE *ptrNext;
} DIRFINDSTREAMNODE, *PDIRFINDSTREAMNODE;
typedef struct _DIRFINDINFO
{
WIN32_FIND_DATA stFindInfo;
PDIRFINDSTREAMNODE ptrHead;
} DIRFINDINFO, *PDIRFINDINFO;
typedef struct _DIRFINDLISTNODE
{
DIRFINDINFO stInfo;
struct _DIRFINDLISTNODE *ptrNext;
} DIRFINDLISTNODE, *PDIRFINDLISTNODE;
typedef BOOL
(WINAPI *PGETFREEDISKSPACEEX)(LPCTSTR, PULARGE_INTEGER, PULARGE_INTEGER, PULARGE_INTEGER);
/* Globally save the # of dirs, files and bytes,
* probably later pass them to functions. Rob Lake */
static ULONG recurse_dir_cnt;
static ULONG recurse_file_cnt;
static ULONGLONG recurse_bytes;
/*
* help
*
* displays help screen for dir
* Rob Lake
*/
static VOID
DirHelp(VOID)
{
ConOutResPaging(TRUE, STRING_DIR_HELP1);
}
/* Check whether this is a dot-directory "." or "..", speed-optimized */
FORCEINLINE
BOOL
IsDotDirectory(
IN LPCTSTR pszPath)
{
return ( pszPath[0] == _T('.') &&
( pszPath[1] == 0 || /* pszPath[1] == _T('\\') || */
(pszPath[1] == _T('.') && (pszPath[2] == 0 /* || pszPath[2] == _T('\\') */))
) );
}
FORCEINLINE
BOOL
IsDotDirectoryN(
IN const TCHAR* pPath,
IN SIZE_T Length)
{
return ((Length == 1 && pPath[0] == _T('.')) ||
(Length == 2 && pPath[0] == _T('.') && pPath[1] == _T('.')));
}
/*
* DirReadParameters
*
* Parse the parameters and switches of the command line and exports them
*/
static BOOL
DirReadParam(LPTSTR Line, /* [IN] The line with the parameters & switches */
LPTSTR** params, /* [OUT] The parameters after parsing */
LPINT entries, /* [OUT] The number of parameters after parsing */
LPDIRSWITCHFLAGS lpFlags) /* [IN/OUT] The flags after calculating switches */
{
TCHAR cCurSwitch; /* The current switch */
TCHAR cCurChar; /* Current examined character */
TCHAR cCurUChar; /* Current upper examined character */
BOOL bNegative; /* Negative switch */
BOOL bPNegative; /* Negative switch parameter */
BOOL bIntoQuotes; /* A flag showing if we are in quotes (") */
LPTSTR ptrStart; /* A pointer to the first character of a parameter */
LPTSTR ptrEnd; /* A pointer to the last character of a parameter */
BOOL bOrderByNoPar; /* A flag to indicate /O with no switch parameter */
LPTSTR temp;
/* Initialize parameter array */
*params = NULL;
*entries = 0;
/* Initialize variables; */
cCurSwitch = _T(' ');
bNegative = FALSE;
bPNegative = FALSE;
/* We suppose that switch parameters
were given to avoid setting them to default
if the switch was not given */
bOrderByNoPar = FALSE;
/* Main Loop (see README_DIR.txt) */
/* scan the command line char per char, and we process its char */
while (*Line)
{
/* we save current character as it is and its upper case */
cCurChar = *Line;
cCurUChar = _totupper(*Line);
/* 1st section (see README_DIR.txt) */
/* When a switch is expecting */
if (cCurSwitch == _T('/'))
{
while (_istspace(*Line))
Line++;
bNegative = (*Line == _T('-'));
Line += bNegative;
cCurChar = *Line;
cCurUChar = _totupper(*Line);
if ((cCurUChar == _T('A')) ||(cCurUChar == _T('T')) || (cCurUChar == _T('O')))
{
/* If positive, prepare for parameters... if negative, reset to defaults */
switch (cCurUChar)
{
case _T('A'):
lpFlags->stAttribs.dwAttribVal = 0L;
lpFlags->stAttribs.dwAttribMask = 0L;
if (bNegative)
lpFlags->stAttribs.dwAttribMask = FILE_ATTRIBUTE_HIDDEN | FILE_ATTRIBUTE_SYSTEM;
break;
case _T('T'):
if (bNegative)
lpFlags->stTimeField.eTimeField = TF_MODIFIEDDATE;
break;
case _T('O'):
bOrderByNoPar = !bNegative;
lpFlags->stOrderBy.sCriteriaCount = 0;
break;
}
if (!bNegative)
{
/* Positive switch, so it can take parameters. */
cCurSwitch = cCurUChar;
Line++;
/* Skip optional leading colon */
if (*Line == _T(':'))
Line++;
continue;
}
}
else if (cCurUChar == _T('L'))
lpFlags->bLowerCase = ! bNegative;
else if (cCurUChar == _T('B'))
lpFlags->bBareFormat = ! bNegative;
else if (cCurUChar == _T('C'))
lpFlags->bTSeparator = ! bNegative;
else if (cCurUChar == _T('W'))
lpFlags->bWideList = ! bNegative;
else if (cCurUChar == _T('D'))
lpFlags->bWideListColSort = ! bNegative;
else if (cCurUChar == _T('N'))
lpFlags->bNewLongList = ! bNegative;
else if (cCurUChar == _T('P'))
lpFlags->bPause = ! bNegative;
else if (cCurUChar == _T('Q'))
lpFlags->bUser = ! bNegative;
else if (cCurUChar == _T('S'))
lpFlags->bRecursive = ! bNegative;
else if (cCurUChar == _T('X'))
lpFlags->bShortName = ! bNegative;
else if (cCurUChar == _T('R'))
lpFlags->bDataStreams = ! bNegative;
else if (cCurChar == _T('4'))
lpFlags->b4Digit = ! bNegative;
else if (cCurChar == _T('?'))
{
DirHelp();
return FALSE;
}
else
{
error_invalid_switch ((TCHAR)_totupper(*Line));
return FALSE;
}
/* Make sure there's no extra characters at the end of the switch */
if (Line[1] && Line[1] != _T('/') && !_istspace(Line[1]))
{
error_parameter_format(Line[1]);
return FALSE;
}
cCurSwitch = _T(' ');
}
else if (cCurSwitch == _T(' '))
{
/* 2nd section (see README_DIR.txt) */
/* We are expecting parameter or the unknown */
if (cCurChar == _T('/'))
cCurSwitch = _T('/');
else if (_istspace(cCurChar))
/* do nothing */;
else
{
/* This is a file/directory name parameter. Find its end */
ptrStart = Line;
bIntoQuotes = FALSE;
while (*Line)
{
if (!bIntoQuotes && (*Line == _T('/') || _istspace(*Line)))
break;
bIntoQuotes ^= (*Line == _T('"'));
Line++;
}
ptrEnd = Line;
/* Copy it to the entries list */
temp = cmd_alloc((ptrEnd - ptrStart + 1) * sizeof(TCHAR));
if (!temp)
return FALSE;
memcpy(temp, ptrStart, (ptrEnd - ptrStart) * sizeof(TCHAR));
temp[ptrEnd - ptrStart] = _T('\0');
StripQuotes(temp);
if (!add_entry(entries, params, temp))
{
cmd_free(temp);
freep(*params);
return FALSE;
}
cmd_free(temp);
continue;
}
}
else
{
/* 3rd section (see README_DIR.txt) */
/* We are waiting for switch parameters */
/* Check if there are no more switch parameters */
if ((cCurChar == _T('/')) || _istspace(cCurChar))
{
/* Wrong decision path, reprocess current character */
cCurSwitch = _T(' ');
continue;
}
/* Process parameter switch */
switch (cCurSwitch)
{
case _T('A'): /* Switch parameters for /A (attributes filter) */
if (cCurChar == _T('-'))
bPNegative = TRUE;
else if (cCurUChar == _T('D'))
{
lpFlags->stAttribs.dwAttribMask |= FILE_ATTRIBUTE_DIRECTORY;
if (bPNegative)
lpFlags->stAttribs.dwAttribVal &= ~FILE_ATTRIBUTE_DIRECTORY;
else
lpFlags->stAttribs.dwAttribVal |= FILE_ATTRIBUTE_DIRECTORY;
}
else if (cCurUChar == _T('R'))
{
lpFlags->stAttribs.dwAttribMask |= FILE_ATTRIBUTE_READONLY;
if (bPNegative)
lpFlags->stAttribs.dwAttribVal &= ~FILE_ATTRIBUTE_READONLY;
else
lpFlags->stAttribs.dwAttribVal |= FILE_ATTRIBUTE_READONLY;
}
else if (cCurUChar == _T('H'))
{
lpFlags->stAttribs.dwAttribMask |= FILE_ATTRIBUTE_HIDDEN;
if (bPNegative)
lpFlags->stAttribs.dwAttribVal &= ~FILE_ATTRIBUTE_HIDDEN;
else
lpFlags->stAttribs.dwAttribVal |= FILE_ATTRIBUTE_HIDDEN;
}
else if (cCurUChar == _T('A'))
{
lpFlags->stAttribs.dwAttribMask |= FILE_ATTRIBUTE_ARCHIVE;
if (bPNegative)
lpFlags->stAttribs.dwAttribVal &= ~FILE_ATTRIBUTE_ARCHIVE;
else
lpFlags->stAttribs.dwAttribVal |= FILE_ATTRIBUTE_ARCHIVE;
}
else if (cCurUChar == _T('S'))
{
lpFlags->stAttribs.dwAttribMask |= FILE_ATTRIBUTE_SYSTEM;
if (bPNegative)
lpFlags->stAttribs.dwAttribVal &= ~FILE_ATTRIBUTE_SYSTEM;
else
lpFlags->stAttribs.dwAttribVal |= FILE_ATTRIBUTE_SYSTEM;
}
else
{
error_parameter_format((TCHAR)_totupper (*Line));
return FALSE;
}
break;
case _T('T'): /* Switch parameters for /T (time field) */
if (cCurUChar == _T('C'))
lpFlags->stTimeField.eTimeField= TF_CREATIONDATE ;
else if (cCurUChar == _T('A'))
lpFlags->stTimeField.eTimeField= TF_LASTACCESSEDDATE ;
else if (cCurUChar == _T('W'))
lpFlags->stTimeField.eTimeField= TF_MODIFIEDDATE ;
else
{
error_parameter_format((TCHAR)_totupper (*Line));
return FALSE;
}
break;
case _T('O'): /* Switch parameters for /O (order) */
/* Ok a switch parameter was given */
bOrderByNoPar = FALSE;
if (cCurChar == _T('-'))
bPNegative = TRUE;
else if (cCurUChar == _T('N'))
{
if (lpFlags->stOrderBy.sCriteriaCount < 3) lpFlags->stOrderBy.sCriteriaCount++;
lpFlags->stOrderBy.bCriteriaRev[lpFlags->stOrderBy.sCriteriaCount - 1] = bPNegative;
lpFlags->stOrderBy.eCriteria[lpFlags->stOrderBy.sCriteriaCount - 1] = ORDER_NAME;
}
else if (cCurUChar == _T('S'))
{
if (lpFlags->stOrderBy.sCriteriaCount < 3) lpFlags->stOrderBy.sCriteriaCount++;
lpFlags->stOrderBy.bCriteriaRev[lpFlags->stOrderBy.sCriteriaCount - 1] = bPNegative;
lpFlags->stOrderBy.eCriteria[lpFlags->stOrderBy.sCriteriaCount - 1] = ORDER_SIZE;
}
else if (cCurUChar == _T('G'))
{
if (lpFlags->stOrderBy.sCriteriaCount < 3) lpFlags->stOrderBy.sCriteriaCount++;
lpFlags->stOrderBy.bCriteriaRev[lpFlags->stOrderBy.sCriteriaCount - 1] = bPNegative;
lpFlags->stOrderBy.eCriteria[lpFlags->stOrderBy.sCriteriaCount - 1] = ORDER_DIRECTORY;
}
else if (cCurUChar == _T('E'))
{
if (lpFlags->stOrderBy.sCriteriaCount < 3) lpFlags->stOrderBy.sCriteriaCount++;
lpFlags->stOrderBy.bCriteriaRev[lpFlags->stOrderBy.sCriteriaCount - 1] = bPNegative;
lpFlags->stOrderBy.eCriteria[lpFlags->stOrderBy.sCriteriaCount - 1] = ORDER_EXTENSION;
}
else if (cCurUChar == _T('D'))
{
if (lpFlags->stOrderBy.sCriteriaCount < 3) lpFlags->stOrderBy.sCriteriaCount++;
lpFlags->stOrderBy.bCriteriaRev[lpFlags->stOrderBy.sCriteriaCount - 1] = bPNegative;
lpFlags->stOrderBy.eCriteria[lpFlags->stOrderBy.sCriteriaCount - 1] = ORDER_TIME;
}
else
{
error_parameter_format((TCHAR)_totupper (*Line));
return FALSE;
}
}
/* We check if we calculated the negative value and release the flag */
if ((cCurChar != _T('-')) && bPNegative)
bPNegative = FALSE;
}
Line++;
}
/* /O with no switch parameters acts like /O:GN */
if (bOrderByNoPar)
{
lpFlags->stOrderBy.sCriteriaCount = 2;
lpFlags->stOrderBy.eCriteria[0] = ORDER_DIRECTORY;
lpFlags->stOrderBy.bCriteriaRev[0] = FALSE;
lpFlags->stOrderBy.eCriteria[1] = ORDER_NAME;
lpFlags->stOrderBy.bCriteriaRev[1] = FALSE;
}
return TRUE;
}
/* Print either with or without paging, depending on /P switch */
static BOOL
DirPrintf(LPDIRSWITCHFLAGS lpFlags, LPTSTR szFormat, ...)
{
BOOL Done = TRUE;
va_list arg_ptr;
va_start(arg_ptr, szFormat);
if (lpFlags->bPause)
Done = ConPrintfVPaging(&StdOutPager, FALSE, szFormat, arg_ptr);
else
ConPrintfV(StdOut, szFormat, arg_ptr);
va_end(arg_ptr);
return Done;
}
/*
* PrintDirectoryHeader
*
* print the header for the dir command
*/
static BOOL
PrintDirectoryHeader(LPCTSTR szPath, LPDIRSWITCHFLAGS lpFlags)
{
TCHAR szMsg[RC_STRING_MAX_SIZE];
LPCTSTR szFullDir;
TCHAR szRootName[MAX_PATH];
TCHAR szVolName[80];
DWORD dwSerialNr;
if (lpFlags->bBareFormat)
return TRUE;
szFullDir = szPath;
/* Get the media ID of the drive */
if (!GetVolumePathName(szFullDir, szRootName, ARRAYSIZE(szRootName)) ||
!GetVolumeInformation(szRootName, szVolName, ARRAYSIZE(szVolName),
&dwSerialNr, NULL, NULL, NULL, 0))
{
return TRUE;
}
/* Print drive info */
if (szVolName[0] != _T('\0'))
{
LoadString(CMD_ModuleHandle, STRING_DIR_HELP2, szMsg, ARRAYSIZE(szMsg));
DirPrintf(lpFlags, szMsg, _totupper(szRootName[0]), szVolName);
}
else
{
LoadString(CMD_ModuleHandle, STRING_DIR_HELP3, szMsg, ARRAYSIZE(szMsg));
DirPrintf(lpFlags, szMsg, _totupper(szRootName[0]));
}
/* Print the volume serial number if the return was successful */
LoadString(CMD_ModuleHandle, STRING_DIR_HELP4, szMsg, ARRAYSIZE(szMsg));
DirPrintf(lpFlags, szMsg, HIWORD(dwSerialNr), LOWORD(dwSerialNr));
return TRUE;
}
static VOID
DirPrintFileDateTime(TCHAR *lpDate,
TCHAR *lpTime,
LPWIN32_FIND_DATA lpFile,
LPDIRSWITCHFLAGS lpFlags)
{
FILETIME ft;
SYSTEMTIME dt;
/* Select the right time field */
switch (lpFlags->stTimeField.eTimeField)
{
case TF_CREATIONDATE:
if (!FileTimeToLocalFileTime(&lpFile->ftCreationTime, &ft))
return;
FileTimeToSystemTime(&ft, &dt);
break;
case TF_LASTACCESSEDDATE :
if (!FileTimeToLocalFileTime(&lpFile->ftLastAccessTime, &ft))
return;
FileTimeToSystemTime(&ft, &dt);
break;
case TF_MODIFIEDDATE:
if (!FileTimeToLocalFileTime(&lpFile->ftLastWriteTime, &ft))
return;
FileTimeToSystemTime(&ft, &dt);
break;
}
FormatDate(lpDate, &dt, lpFlags->b4Digit);
FormatTime(lpTime, &dt);
}
INT
FormatDate(TCHAR *lpDate, LPSYSTEMTIME dt, BOOL b4Digit)
{
/* Format date */
WORD wYear = b4Digit ? dt->wYear : dt->wYear%100;
switch (nDateFormat)
{
case 0: /* mmddyy */
default:
return _stprintf(lpDate, _T("%02d%c%02d%c%0*d"),
dt->wMonth, cDateSeparator,
dt->wDay, cDateSeparator,
b4Digit?4:2, wYear);
break;
case 1: /* ddmmyy */
return _stprintf(lpDate, _T("%02d%c%02d%c%0*d"),
dt->wDay, cDateSeparator, dt->wMonth,
cDateSeparator, b4Digit?4:2, wYear);
break;
case 2: /* yymmdd */
return _stprintf(lpDate, _T("%0*d%c%02d%c%02d"),
b4Digit?4:2, wYear, cDateSeparator,
dt->wMonth, cDateSeparator, dt->wDay);
break;
}
}
INT
FormatTime(TCHAR *lpTime, LPSYSTEMTIME dt)
{
/* Format Time */
switch (nTimeFormat)
{
case 0: /* 12 hour format */
default:
return _stprintf(lpTime,_T("%02d%c%02u %cM"),
(dt->wHour == 0 ? 12 : (dt->wHour <= 12 ? dt->wHour : dt->wHour - 12)),
cTimeSeparator,
dt->wMinute, (dt->wHour <= 11 ? _T('A') : _T('P')));
break;
case 1: /* 24 hour format */
return _stprintf(lpTime, _T("%02d%c%02u"),
dt->wHour, cTimeSeparator, dt->wMinute);
break;
}
}
static VOID
GetUserDiskFreeSpace(LPCTSTR lpRoot,
PULARGE_INTEGER lpFreeSpace)
{
PGETFREEDISKSPACEEX pGetFreeDiskSpaceEx;
HINSTANCE hInstance;
DWORD dwSecPerCl;
DWORD dwBytPerSec;
DWORD dwFreeCl;
DWORD dwTotCl;
ULARGE_INTEGER TotalNumberOfBytes, TotalNumberOfFreeBytes;
lpFreeSpace->QuadPart = 0;
hInstance = GetModuleHandle(_T("KERNEL32"));
if (hInstance != NULL)
{
pGetFreeDiskSpaceEx = (PGETFREEDISKSPACEEX)GetProcAddress(hInstance,
#ifdef _UNICODE
"GetDiskFreeSpaceExW");
#else
"GetDiskFreeSpaceExA");
#endif
if (pGetFreeDiskSpaceEx != NULL)
{
if (pGetFreeDiskSpaceEx(lpRoot, lpFreeSpace, &TotalNumberOfBytes, &TotalNumberOfFreeBytes) != FALSE)
return;
}
}
GetDiskFreeSpace(lpRoot,
&dwSecPerCl,
&dwBytPerSec,
&dwFreeCl,
&dwTotCl);
lpFreeSpace->QuadPart = dwSecPerCl * dwBytPerSec * dwFreeCl;
}
/*
* print_summary: prints dir summary
* Added by Rob Lake 06/17/98 to compact code
* Just copied Tim's Code and patched it a bit
*/
static INT
PrintSummary(LPCTSTR szPath,
ULONG ulFiles,
ULONG ulDirs,
ULONGLONG u64Bytes,
LPDIRSWITCHFLAGS lpFlags,
BOOL TotalSummary)
{
TCHAR szMsg[RC_STRING_MAX_SIZE];
TCHAR szBuffer[64];
ULARGE_INTEGER uliFree;
/* Here we check if we didn't find anything */
if (!(ulFiles + ulDirs))
{
if (!lpFlags->bRecursive || (TotalSummary && lpFlags->bRecursive))
error_file_not_found();
return 1;
}
/* In bare format we don't print results */
if (lpFlags->bBareFormat)
return 0;
/* Print recursive specific results */
/* Take this code offline to fix /S does not print double info */
if (TotalSummary && lpFlags->bRecursive)
{
ConvertULargeInteger(u64Bytes, szBuffer, ARRAYSIZE(szBuffer), lpFlags->bTSeparator);
LoadString(CMD_ModuleHandle, STRING_DIR_HELP5, szMsg, ARRAYSIZE(szMsg));
DirPrintf(lpFlags, szMsg, ulFiles, szBuffer);
}
else
{
/* Print File Summary */
/* Condition to print summary is:
If we are not in bare format and if we have results! */
ConvertULargeInteger(u64Bytes, szBuffer, ARRAYSIZE(szBuffer), lpFlags->bTSeparator);
LoadString(CMD_ModuleHandle, STRING_DIR_HELP8, szMsg, ARRAYSIZE(szMsg));
DirPrintf(lpFlags, szMsg, ulFiles, szBuffer);
}
/* Print total directories and free space */
if (!lpFlags->bRecursive || TotalSummary)
{
GetUserDiskFreeSpace(szPath, &uliFree);
ConvertULargeInteger(uliFree.QuadPart, szBuffer, ARRAYSIZE(szBuffer), lpFlags->bTSeparator);
LoadString(CMD_ModuleHandle, STRING_DIR_HELP6, szMsg, ARRAYSIZE(szMsg));
DirPrintf(lpFlags, szMsg, ulDirs, szBuffer);
}
return 0;
}
/*
* getExt
*
* Get the extension of a filename
*/
TCHAR* getExt(const TCHAR* file)
{
static TCHAR *NoExt = _T("");
TCHAR* lastdot = _tcsrchr(file, _T('.'));
return (lastdot != NULL ? lastdot + 1 : NoExt);
}
/*
* getName
*
* Get the name of the file without extension
*/
static LPTSTR
getName(const TCHAR* file, TCHAR * dest)
{
INT_PTR iLen;
LPTSTR end;
/* Check for dot-directories "." and ".." */
if (IsDotDirectory(file))
{
_tcscpy(dest, file);
return dest;
}
end = _tcsrchr(file, _T('.'));
if (!end)
iLen = _tcslen(file);
else
iLen = (end - file);
_tcsncpy(dest, file, iLen);
*(dest + iLen) = _T('\0');
return dest;
}
/*
* DirPrintNewList
*
* The function that prints in new style
*/
static VOID
DirPrintNewList(PDIRFINDINFO ptrFiles[], /* [IN]Files' Info */
DWORD dwCount, /* [IN] The quantity of files */
LPCTSTR szCurPath, /* [IN] Full path of current directory */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags used */
{
DWORD i;
TCHAR szSize[30];
TCHAR szShortName[15];
TCHAR szDate[20];
TCHAR szTime[20];
INT iSizeFormat;
ULARGE_INTEGER u64FileSize;
PDIRFINDSTREAMNODE ptrCurStream;
for (i = 0; i < dwCount && !CheckCtrlBreak(BREAK_INPUT); i++)
{
/* Calculate size */
if (ptrFiles[i]->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT)
{
/* Junction */
iSizeFormat = -14;
_tcscpy(szSize, _T("<JUNCTION>"));
}
else if (ptrFiles[i]->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
/* Directory */
iSizeFormat = -14;
_tcscpy(szSize, _T("<DIR>"));
}
else
{
/* File */
iSizeFormat = 14;
u64FileSize.HighPart = ptrFiles[i]->stFindInfo.nFileSizeHigh;
u64FileSize.LowPart = ptrFiles[i]->stFindInfo.nFileSizeLow;
ConvertULargeInteger(u64FileSize.QuadPart, szSize, 20, lpFlags->bTSeparator);
}
/* Calculate short name */
szShortName[0] = _T('\0');
if (lpFlags->bShortName)
_stprintf(szShortName, _T(" %-12s"), ptrFiles[i]->stFindInfo.cAlternateFileName);
/* Format date and time */
DirPrintFileDateTime(szDate, szTime, &ptrFiles[i]->stFindInfo, lpFlags);
/* Print the line */
DirPrintf(lpFlags, _T("%10s %-6s %*s%s %s\n"),
szDate,
szTime,
iSizeFormat,
szSize,
szShortName,
ptrFiles[i]->stFindInfo.cFileName);
/* Now, loop on the streams */
ptrCurStream = ptrFiles[i]->ptrHead;
while (ptrCurStream)
{
ConvertULargeInteger(ptrCurStream->stStreamInfo.StreamSize.QuadPart, szSize, 20, lpFlags->bTSeparator);
/* Print the line */
DirPrintf(lpFlags, _T("%10s %-6s %*s%s %s%s\n"),
L"",
L"",
16,
szSize,
L"",
ptrFiles[i]->stFindInfo.cFileName,
ptrCurStream->stStreamInfo.cStreamName);
ptrCurStream = ptrCurStream->ptrNext;
}
}
}
/*
* DirPrintWideList
*
* The function that prints in wide list
*/
static VOID
DirPrintWideList(PDIRFINDINFO ptrFiles[], /* [IN] Files' Info */
DWORD dwCount, /* [IN] The quantity of files */
LPCTSTR szCurPath, /* [IN] Full path of current directory */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags used */
{
SHORT iScreenWidth;
USHORT iColumns;
USHORT iLines;
UINT_PTR iLongestName;
TCHAR szTempFname[MAX_PATH];
DWORD i;
DWORD j;
DWORD temp;
/* Calculate longest name */
iLongestName = 1;
for (i = 0; i < dwCount; i++)
{
if (ptrFiles[i]->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
/* Directories need 2 additional characters for brackets */
if ((_tcslen(ptrFiles[i]->stFindInfo.cFileName) + 2) > iLongestName)
iLongestName = _tcslen(ptrFiles[i]->stFindInfo.cFileName) + 2;
}
else
{
if (_tcslen(ptrFiles[i]->stFindInfo.cFileName) > iLongestName)
iLongestName = _tcslen(ptrFiles[i]->stFindInfo.cFileName);
}
}
/* Count the highest number of columns */
GetScreenSize(&iScreenWidth, NULL);
iColumns = (USHORT)(iScreenWidth / iLongestName);
/* Check if there is enough space for spaces between names */
if (((iLongestName * iColumns) + iColumns) >= (UINT)iScreenWidth)
iColumns --;
/* A last check at iColumns to avoid division by zero */
if (!iColumns) iColumns = 1;
/* Calculate the lines that will be printed */
iLines = (USHORT)((dwCount + iColumns - 1) / iColumns);
for (i = 0; i < iLines && !CheckCtrlBreak(BREAK_INPUT); i++)
{
for (j = 0; j < iColumns; j++)
{
if (lpFlags->bWideListColSort)
{
/* Print Column sorted */
temp = (j * iLines) + i;
}
else
{
/* Print Line sorted */
temp = (i * iColumns) + j;
}
if (temp >= dwCount) break;
if (ptrFiles[temp]->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
_stprintf(szTempFname, _T("[%s]"), ptrFiles[temp]->stFindInfo.cFileName);
else
_stprintf(szTempFname, _T("%s"), ptrFiles[temp]->stFindInfo.cFileName);
DirPrintf(lpFlags, _T("%-*s"), iLongestName + 1, szTempFname);
}
/* Add a new line after the last item in the column */
DirPrintf(lpFlags, _T("\n"));
}
}
/*
* DirPrintOldList
*
* The function that prints in old style
*/
static VOID
DirPrintOldList(PDIRFINDINFO ptrFiles[], /* [IN] Files' Info */
DWORD dwCount, /* [IN] The quantity of files */
LPCTSTR szCurPath, /* [IN] Full path of current directory */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags used */
{
DWORD i; /* An indexer for "for"s */
TCHAR szName[10]; /* The name of file */
TCHAR szExt[5]; /* The extension of file */
TCHAR szDate[30],szTime[30]; /* Used to format time and date */
TCHAR szSize[30]; /* The size of file */
int iSizeFormat; /* The format of size field */
ULARGE_INTEGER u64FileSize; /* The file size */
for (i = 0; i < dwCount && !CheckCtrlBreak(BREAK_INPUT); i++)
{
/* Broke 8.3 format */
if (*ptrFiles[i]->stFindInfo.cAlternateFileName )
{
/* If the file is long named then we read the alter name */
getName( ptrFiles[i]->stFindInfo.cAlternateFileName, szName);
_tcscpy(szExt, getExt( ptrFiles[i]->stFindInfo.cAlternateFileName));
}
else
{
/* If the file is not long name we read its original name */
getName( ptrFiles[i]->stFindInfo.cFileName, szName);
_tcscpy(szExt, getExt( ptrFiles[i]->stFindInfo.cFileName));
}
/* Calculate size */
if (ptrFiles[i]->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
/* Directory, no size it's a directory */
iSizeFormat = -17;
_tcscpy(szSize, _T("<DIR>"));
}
else
{
/* File */
iSizeFormat = 17;
u64FileSize.HighPart = ptrFiles[i]->stFindInfo.nFileSizeHigh;
u64FileSize.LowPart = ptrFiles[i]->stFindInfo.nFileSizeLow;
ConvertULargeInteger(u64FileSize.QuadPart, szSize, 20, lpFlags->bTSeparator);
}
/* Format date and time */
DirPrintFileDateTime(szDate,szTime,&ptrFiles[i]->stFindInfo,lpFlags);
/* Print the line */
DirPrintf(lpFlags, _T("%-8s %-3s %*s %s %s\n"),
szName, /* The file's 8.3 name */
szExt, /* The file's 8.3 extension */
iSizeFormat, /* print format for size column */
szSize, /* The size of file or "<DIR>" for dirs */
szDate, /* The date of file/dir */
szTime); /* The time of file/dir */
}
}
/*
* DirPrintBareList
*
* The function that prints in bare format
*/
static VOID
DirPrintBareList(PDIRFINDINFO ptrFiles[], /* [IN] Files' Info */
DWORD dwCount, /* [IN] The number of files */
LPCTSTR szCurPath, /* [IN] Full path of current directory */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags used */
{
DWORD i;
for (i = 0; i < dwCount && !CheckCtrlBreak(BREAK_INPUT); i++)
{
if (IsDotDirectory(ptrFiles[i]->stFindInfo.cFileName))
{
/* At bare format we don't print the dot-directories "." and ".." */
continue;
}
if (lpFlags->bRecursive)
{
/* At recursive mode we print full path of file */
DirPrintf(lpFlags, _T("%s\\%s\n"), szCurPath, ptrFiles[i]->stFindInfo.cFileName);
}
else
{
/* If we are not in recursive mode we print the file names */
DirPrintf(lpFlags, _T("%s\n"), ptrFiles[i]->stFindInfo.cFileName);
}
}
}
/*
* DirPrintFiles
*
* The functions that prints the files list
*/
static VOID
DirPrintFiles(PDIRFINDINFO ptrFiles[], /* [IN] Files' Info */
DWORD dwCount, /* [IN] The quantity of files */
LPCTSTR szCurPath, /* [IN] Full path of current directory */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags used */
{
TCHAR szMsg[RC_STRING_MAX_SIZE];
TCHAR szTemp[MAX_PATH]; /* A buffer to format the directory header */
/* Print trailing backslash for root directory of drive */
_tcscpy(szTemp, szCurPath);
if (_tcslen(szTemp) == 2 && szTemp[1] == _T(':'))
_tcscat(szTemp, _T("\\"));
/* Condition to print header:
We are not printing in bare format
and if we are in recursive mode... we must have results */
if (!lpFlags->bBareFormat && !(lpFlags->bRecursive && (dwCount <= 0)))
{
LoadString(CMD_ModuleHandle, STRING_DIR_HELP7, szMsg, ARRAYSIZE(szMsg));
if (!DirPrintf(lpFlags, szMsg, szTemp))
return;
}
if (lpFlags->bBareFormat)
{
/* Bare format */
DirPrintBareList(ptrFiles, dwCount, szCurPath, lpFlags);
}
else if (lpFlags->bShortName)
{
/* New list style / Short names */
DirPrintNewList(ptrFiles, dwCount, szCurPath, lpFlags);
}
else if (lpFlags->bWideListColSort || lpFlags->bWideList)
{
/* Wide list */
DirPrintWideList(ptrFiles, dwCount, szCurPath, lpFlags);
}
else if (lpFlags->bNewLongList )
{
/* New list style*/
DirPrintNewList(ptrFiles, dwCount, szCurPath, lpFlags);
}
else
{
/* If nothing is selected old list is the default */
DirPrintOldList(ptrFiles, dwCount, szCurPath, lpFlags);
}
}
/*
* CompareFiles
*
* Compares 2 files based on the order criteria
*/
static BOOL
CompareFiles(PDIRFINDINFO lpFile1, /* [IN] A pointer to WIN32_FIND_DATA of file 1 */
PDIRFINDINFO lpFile2, /* [IN] A pointer to WIN32_FIND_DATA of file 2 */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags that we use to list */
{
ULARGE_INTEGER u64File1;
ULARGE_INTEGER u64File2;
int i;
long iComp = 0; /* The comparison result */
/* Calculate criteria by order given from user */
for (i = 0; i < lpFlags->stOrderBy.sCriteriaCount; i++)
{
/* Calculate criteria */
switch (lpFlags->stOrderBy.eCriteria[i])
{
case ORDER_SIZE: /* Order by size /o:s */
/* concat the 32bit integers to a 64bit */
u64File1.LowPart = lpFile1->stFindInfo.nFileSizeLow;
u64File1.HighPart = lpFile1->stFindInfo.nFileSizeHigh;
u64File2.LowPart = lpFile2->stFindInfo.nFileSizeLow;
u64File2.HighPart = lpFile2->stFindInfo.nFileSizeHigh;
/* In case that difference is too big for a long */
if (u64File1.QuadPart < u64File2.QuadPart)
iComp = -1;
else if (u64File1.QuadPart > u64File2.QuadPart)
iComp = 1;
else
iComp = 0;
break;
case ORDER_DIRECTORY: /* Order by directory attribute /o:g */
iComp = ((lpFile2->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)-
(lpFile1->stFindInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY));
break;
case ORDER_EXTENSION: /* Order by extension name /o:e */
iComp = _tcsicmp(getExt(lpFile1->stFindInfo.cFileName),getExt(lpFile2->stFindInfo.cFileName));
break;
case ORDER_NAME: /* Order by filename /o:n */
iComp = _tcsicmp(lpFile1->stFindInfo.cFileName, lpFile2->stFindInfo.cFileName);
break;
case ORDER_TIME: /* Order by file's time /o:t */
/* We compare files based on the time field selected by /t */
switch (lpFlags->stTimeField.eTimeField)
{
case TF_CREATIONDATE:
/* concat the 32bit integers to a 64bit */
u64File1.LowPart = lpFile1->stFindInfo.ftCreationTime.dwLowDateTime;
u64File1.HighPart = lpFile1->stFindInfo.ftCreationTime.dwHighDateTime ;
u64File2.LowPart = lpFile2->stFindInfo.ftCreationTime.dwLowDateTime;
u64File2.HighPart = lpFile2->stFindInfo.ftCreationTime.dwHighDateTime ;
break;
case TF_LASTACCESSEDDATE :
/* concat the 32bit integers to a 64bit */
u64File1.LowPart = lpFile1->stFindInfo.ftLastAccessTime.dwLowDateTime;
u64File1.HighPart = lpFile1->stFindInfo.ftLastAccessTime.dwHighDateTime ;
u64File2.LowPart = lpFile2->stFindInfo.ftLastAccessTime.dwLowDateTime;
u64File2.HighPart = lpFile2->stFindInfo.ftLastAccessTime.dwHighDateTime ;
break;
case TF_MODIFIEDDATE:
/* concat the 32bit integers to a 64bit */
u64File1.LowPart = lpFile1->stFindInfo.ftLastWriteTime.dwLowDateTime;
u64File1.HighPart = lpFile1->stFindInfo.ftLastWriteTime.dwHighDateTime ;
u64File2.LowPart = lpFile2->stFindInfo.ftLastWriteTime.dwLowDateTime;
u64File2.HighPart = lpFile2->stFindInfo.ftLastWriteTime.dwHighDateTime ;
break;
}
/* In case that difference is too big for a long */
if (u64File1.QuadPart < u64File2.QuadPart)
iComp = -1;
else if (u64File1.QuadPart > u64File2.QuadPart)
iComp = 1;
else
iComp = 0;
break;
}
/* Reverse if desired */
if (lpFlags->stOrderBy.bCriteriaRev[i])
iComp *= -1;
/* If that criteria was enough for distinguishing
the files/dirs,there is no need to calculate the others*/
if (iComp != 0) break;
}
/* Translate the value of iComp to boolean */
return iComp > 0;
}
/*
* QsortFiles
*
* Sort files by the order criterias using quicksort method
*/
static VOID
QsortFiles(PDIRFINDINFO ptrArray[], /* [IN/OUT] The array with file info pointers */
int i, /* [IN] The index of first item in array */
int j, /* [IN] The index to last item in array */
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags that we will use to sort */
{
PDIRFINDINFO lpTemp; /* A temporary pointer */
BOOL Way;
if (i < j)
{
int First = i, Last = j, Temp;
Way = TRUE;
while (i != j)
{
if (Way == CompareFiles(ptrArray[i], ptrArray[j], lpFlags))
{
/* Swap the pointers of the array */
lpTemp = ptrArray[i];
ptrArray[i]= ptrArray[j];
ptrArray[j] = lpTemp;
/* Swap the indexes for inverting sorting */
Temp = i;
i = j;
j =Temp;
Way = !Way;
}
j += (!Way - Way);
}
QsortFiles(ptrArray,First, i-1, lpFlags);
QsortFiles(ptrArray,i+1,Last, lpFlags);
}
}
static VOID
DirNodeCleanup(PDIRFINDLISTNODE ptrStartNode,
PDWORD pdwCount)
{
PDIRFINDLISTNODE ptrNextNode;
PDIRFINDSTREAMNODE ptrFreeNode;
while (ptrStartNode)
{
ptrNextNode = ptrStartNode->ptrNext;
while (ptrStartNode->stInfo.ptrHead)
{
ptrFreeNode = ptrStartNode->stInfo.ptrHead;
ptrStartNode->stInfo.ptrHead = ptrFreeNode->ptrNext;
cmd_free(ptrFreeNode);
}
cmd_free(ptrStartNode);
ptrStartNode = ptrNextNode;
--(*pdwCount);
}
}
/*
* DirList
*
* The function that does everything except for printing results
*/
static INT
DirList(IN OUT LPTSTR szFullPath, /* [IN] The full path we are listing with trailing '\', where dir starts */
IN LPTSTR pszFilePart, /* [IN] Pointer in the szFullPath buffer where the file (pattern) part starts*/
LPDIRSWITCHFLAGS lpFlags) /* [IN] The flags of the listing */
{
HANDLE hSearch; /* The handle of the search */
HANDLE hRecSearch; /* The handle for searching recursively */
HANDLE hStreams; /* The handle for alternate streams */
WIN32_FIND_DATA wfdFileInfo; /* The info of file that found */
PDIRFINDINFO * ptrFileArray; /* An array of pointers with all the files */
PDIRFINDLISTNODE ptrStartNode; /* The pointer to the first node */
PDIRFINDLISTNODE ptrNextNode; /* A pointer used for relatives references */
TCHAR szSubPath[MAX_PATH]; /* The full path used for the recursive search */
LPTSTR pszSubFilePart;
TCHAR cPathSep;
DWORD dwCount; /* A counter of files found in directory */
DWORD dwCountFiles; /* Counter for files */
DWORD dwCountDirs; /* Counter for directories */
ULONGLONG u64CountBytes; /* Counter for bytes */
ULARGE_INTEGER u64Temp; /* A temporary counter */
WIN32_FIND_STREAM_DATA wfsdStreamInfo;
PDIRFINDSTREAMNODE * ptrCurNode; /* The pointer to the first stream */
static HANDLE (WINAPI *pFindFirstStreamW)(LPCWSTR, STREAM_INFO_LEVELS, LPVOID, DWORD);
static BOOL (WINAPI *pFindNextStreamW)(HANDLE, LPVOID);
/* Initialize variables */
ptrStartNode = NULL;
ptrNextNode = NULL;
dwCount = 0;
dwCountFiles = 0;
dwCountDirs = 0;
u64CountBytes = 0;
/* Prepare the linked list, first node is allocated */
ptrStartNode = cmd_alloc(sizeof(DIRFINDLISTNODE));
if (ptrStartNode == NULL)
{
WARN("Cannot allocate memory for ptrStartNode!\n");
return 1; /* Error cannot allocate memory for 1st object */
}
ptrStartNode->stInfo.ptrHead = NULL;
ptrNextNode = ptrStartNode;
/* Collect the results for the current directory */
hSearch = FindFirstFile(szFullPath, &wfdFileInfo);
if (hSearch != INVALID_HANDLE_VALUE)
{
do
{
if ((wfdFileInfo.dwFileAttributes & lpFlags->stAttribs.dwAttribMask) ==
(lpFlags->stAttribs.dwAttribMask & lpFlags->stAttribs.dwAttribVal))
{
ptrNextNode->ptrNext = cmd_alloc(sizeof(DIRFINDLISTNODE));
if (ptrNextNode->ptrNext == NULL)
{
WARN("Cannot allocate memory for ptrNextNode->ptrNext!\n");
DirNodeCleanup(ptrStartNode, &dwCount);
FindClose(hSearch);
return 1;
}
/* Copy the info of search at linked list */
memcpy(&ptrNextNode->ptrNext->stInfo.stFindInfo,
&wfdFileInfo,
sizeof(WIN32_FIND_DATA));
/* If lower case is selected do it here */
if (lpFlags->bLowerCase)
{
_tcslwr(ptrNextNode->ptrNext->stInfo.stFindInfo.cAlternateFileName);
_tcslwr(ptrNextNode->ptrNext->stInfo.stFindInfo.cFileName);
}
/* No streams (yet?) */
ptrNextNode->ptrNext->stInfo.ptrHead = NULL;
/* Alternate streams are only displayed with new long list */
if (lpFlags->bNewLongList && lpFlags->bDataStreams)
{
if (!pFindFirstStreamW)
{
pFindFirstStreamW = (PVOID)GetProcAddress(GetModuleHandle(_T("kernel32")), "FindFirstStreamW");
pFindNextStreamW = (PVOID)GetProcAddress(GetModuleHandle(_T("kernel32")), "FindNextStreamW");
}
/* Try to get stream information */
if (pFindFirstStreamW && pFindNextStreamW)
{
hStreams = pFindFirstStreamW(wfdFileInfo.cFileName, FindStreamInfoStandard, &wfsdStreamInfo, 0);
}
else
{
hStreams = INVALID_HANDLE_VALUE;
ERR("FindFirstStreamW not supported!\n");
}
if (hStreams != INVALID_HANDLE_VALUE)
{
/* We totally ignore first stream. It contains data about ::$DATA */
ptrCurNode = &ptrNextNode->ptrNext->stInfo.ptrHead;
while (pFindNextStreamW(hStreams, &wfsdStreamInfo))
{
*ptrCurNode = cmd_alloc(sizeof(DIRFINDSTREAMNODE));
if (*ptrCurNode == NULL)
{
WARN("Cannot allocate memory for *ptrCurNode!\n");
DirNodeCleanup(ptrStartNode, &dwCount);
FindClose(hStreams);
FindClose(hSearch);
return 1;
}
memcpy(&(*ptrCurNode)->stStreamInfo, &wfsdStreamInfo,
sizeof(WIN32_FIND_STREAM_DATA));
/* If lower case is selected do it here */
if (lpFlags->bLowerCase)
{
_tcslwr((*ptrCurNode)->stStreamInfo.cStreamName);
}
ptrCurNode = &(*ptrCurNode)->ptrNext;
}
FindClose(hStreams);
*ptrCurNode = NULL;
}
}
/* Continue at next node at linked list */
ptrNextNode = ptrNextNode->ptrNext;
dwCount++;
/* Grab statistics */
if (wfdFileInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
/* Directory */
dwCountDirs++;
}
else
{
/* File */
dwCountFiles++;
u64Temp.HighPart = wfdFileInfo.nFileSizeHigh;
u64Temp.LowPart = wfdFileInfo.nFileSizeLow;
u64CountBytes += u64Temp.QuadPart;
}
}
} while (FindNextFile(hSearch, &wfdFileInfo));
FindClose(hSearch);
}
/* Terminate list */
ptrNextNode->ptrNext = NULL;
/* Calculate and allocate space need for making an array of pointers */
ptrFileArray = cmd_alloc(sizeof(PDIRFINDINFO) * dwCount);
if (ptrFileArray == NULL)
{
WARN("Cannot allocate memory for ptrFileArray!\n");
DirNodeCleanup(ptrStartNode, &dwCount);
return 1;
}
/*
* Create an array of pointers from the linked list
* this will be used to sort and print data, rather than the list
*/
ptrNextNode = ptrStartNode;
dwCount = 0;
while (ptrNextNode->ptrNext)
{
ptrFileArray[dwCount] = &ptrNextNode->ptrNext->stInfo;
ptrNextNode = ptrNextNode->ptrNext;
dwCount++;
}
/* Sort Data if requested */
if (lpFlags->stOrderBy.sCriteriaCount > 0)
QsortFiles(ptrFileArray, 0, dwCount-1, lpFlags);
/* Print Data */
cPathSep = pszFilePart[-1];
pszFilePart[-1] = _T('\0'); /* Truncate to directory name only */
DirPrintFiles(ptrFileArray, dwCount, szFullPath, lpFlags);
if (lpFlags->bRecursive)
{
PrintSummary(szFullPath,
dwCountFiles,
dwCountDirs,
u64CountBytes,
lpFlags,
FALSE);
}
pszFilePart[-1] = cPathSep;
/* Free array */
cmd_free(ptrFileArray);
/* Free linked list */
DirNodeCleanup(ptrStartNode, &dwCount);
if (CheckCtrlBreak(BREAK_INPUT))
return 1;
/* Add statistics to recursive statistics */
recurse_dir_cnt += dwCountDirs;
recurse_file_cnt += dwCountFiles;
recurse_bytes += u64CountBytes;
/*
* Do the recursive job if requested.
* The recursion is done on ALL (independent of their attributes)
* directories of the current one.
*/
if (lpFlags->bRecursive)
{
/* The new search is involving any *.* file */
memcpy(szSubPath, szFullPath, (pszFilePart - szFullPath) * sizeof(TCHAR));
_tcscpy(&szSubPath[pszFilePart - szFullPath], _T("*.*"));
hRecSearch = FindFirstFile(szSubPath, &wfdFileInfo);
if (hRecSearch != INVALID_HANDLE_VALUE)
{
do
{
/* We search for directories other than "." and ".." */
if (!IsDotDirectory(wfdFileInfo.cFileName) &&
(wfdFileInfo.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
{
/* Concat the path and the directory to do recursive */
memcpy(szSubPath, szFullPath, (pszFilePart - szFullPath) * sizeof(TCHAR));
_tcscpy(&szSubPath[pszFilePart - szFullPath], wfdFileInfo.cFileName);
_tcscat(szSubPath, _T("\\"));
pszSubFilePart = &szSubPath[_tcslen(szSubPath)];
_tcscat(pszSubFilePart, pszFilePart);
/* We do the same for the directory */
if (DirList(szSubPath, pszSubFilePart, lpFlags) != 0)
{
FindClose(hRecSearch);
return 1;
}
}
} while (FindNextFile(hRecSearch, &wfdFileInfo));
}
FindClose(hRecSearch);
}
return 0;
}
static VOID
ResolvePattern(
IN LPTSTR pszPattern,
IN DWORD nBufferLength,
OUT LPTSTR pszFullPath,
OUT LPTSTR* ppszPatternPart OPTIONAL)
{
LPTSTR pCurDir, pNextDir, ptr;
LPTSTR pszPatternPart;
TCHAR szNewPattern[MAX_PATH];
/*
* We are going to use GetFullPathName() to properly determine the actual
* full path from the pattern. However, due to the fact GetFullPathName()
* strips parts of the file name component in case the pattern contains
* path specification with trailing dots, it is required to perform a
* pre-treatment on the pattern and a post-treatment on the obtained path.
* This is mandatory in order to use the correct file search criterion.
*
* One particular case is when the pattern specifies a dots-only directory
* followed by either the "." or ".." special directories. In this case the
* GetFullPathName() function may completely miss the dots-only directory.
* An example is given by the pattern (C-string notation) "\\...\\." .
* To cope with this problem we need to partially canonicalize the pattern
* by collapsing any "." or ".." special directory that immediately follows
* a dots-only directory. We collapse in addition consecutive backslashes.
*
* Finally, trailing dots are skipped by GetFullPathName(). Therefore
* a pattern that matches files with no extension, for example: "*." ,
* or: "dir\\noextfile." , are reduced to simply "*" or "dir\\noextfile",
* that match files with extensions. Or, a pattern specifying a trailing
* dots-only directory: "dir\\..." gets completely ignored and only the
* full path to "dir" is returned.
* To fix this second problem we need to restore the last part of the path
* pattern using the pattern that has been first partially canonicalized.
*
* Note however that the "." or ".." special directories are always
* interpreted correctly by GetFullPathName().
*/
/* Make a copy of the path pattern */
ASSERT(_tcslen(pszPattern) < ARRAYSIZE(szNewPattern));
_tcscpy(szNewPattern, pszPattern);
pszPattern = szNewPattern;
TRACE("Original pszPattern: %S\n", pszPattern);
/* Convert slashes into backslashes */
pNextDir = pszPattern;
while ((pNextDir = _tcschr(pNextDir, _T('/'))))
*pNextDir++ = _T('\\');
/*
* Find any dots-only directory and collapse any "." or ".." special
* directory that immediately follows it.
* Note that we just start looking after the first path separator. Indeed,
* dots-only directories that are not preceded by a path separator, and so
* appear first in the pattern, for example: "...\dir", or: "..." , are
* either correctly handled by GetFullPathName() because they are followed
* by a non-pathological directory, or because they are handled when we
* restore the trailing dots pattern piece in the next step.
*/
pNextDir = pszPattern;
while (pNextDir)
{
pCurDir = pNextDir;
/* Find the next path separator in the pattern */
pNextDir = _tcschr(pNextDir, _T('\\'));
if (!pNextDir)
break;
/* Ignore the special "." and ".." directories that are correctly handled */
if ((pNextDir - pCurDir == 0) || IsDotDirectoryN(pCurDir, pNextDir - pCurDir))
{
/* Found such a directory, ignore */
++pNextDir;
continue;
}
/* Check whether this is a dots-only directory */
for (ptr = pCurDir; ptr < pNextDir; ++ptr)
{
if (*ptr != _T('.'))
break;
}
if (ptr < pNextDir)
{
/* Not a dots-only directory, ignore */
++pNextDir;
continue;
}
/* Skip any consecutive backslashes */
for (ptr = pNextDir; *ptr == _T('\\'); ++ptr) ;
/* pCurDir is a dots-only directory, perform partial canonicalization */
/* Remove any following "." directory */
if (ptr[0] == _T('.') && (ptr[1] == _T('\\') || ptr[1] == 0))
{
memmove(pNextDir, ptr + 1, (_tcslen(ptr + 1) + 1) * sizeof(TCHAR));
}
/* Remove any following ".." directory */
else if (ptr[0] == _T('.') && ptr[1] == _T('.') && (ptr[2] == _T('\\') || ptr[2] == 0))
{
/* Skip any consecutive backslashes before the next directory */
for (ptr = ptr + 2; *ptr == _T('\\'); ++ptr) ;
memmove(pCurDir, ptr, (_tcslen(ptr) + 1) * sizeof(TCHAR));
pNextDir = pCurDir;
}
else
{
++pNextDir;
/* Collapse consecutive backslashes */
if (ptr > pNextDir)
memmove(pNextDir, ptr, (_tcslen(ptr) + 1) * sizeof(TCHAR));
}
}
/* An empty pattern means we enumerate all files in the current directory */
if (!*pszPattern)
_tcscpy(pszPattern, _T("*"));
TRACE("New pszPattern: %S\n", pszPattern);
/* Create the full path */
if (GetFullPathName(pszPattern, nBufferLength, pszFullPath, &pszPatternPart) == 0)
{
_tcscpy(pszFullPath, pszPattern);
pszPatternPart = NULL;
}
TRACE("pszFullPath (1): %S\n", pszFullPath);
TRACE("pszPatternPart (1): %S\n", pszPatternPart);
/*
* Restore the correct file name component in case the pattern contained
* trailing dots that have been skipped by GetFullPathName().
*/
/* Find the last path separator in the original szPath */
pNextDir = _tcsrchr(pszPattern, _T('\\'));
if (pNextDir)
{
/* Skip past the separator and look at the path */
++pNextDir;
}
else
{
/* The pattern is the path we need to look at */
pNextDir = pszPattern;
}
/*
* When pszPatternPart == NULL this means that pszFullPath should be a
* directory; however it might have happened that the original pattern
* was specifying a dots-only directory, that has been stripped off by
* GetFullPathName(). In both these cases we need to restore these as
* they are part of the actual directory path; the exception being if
* these are the special "." or ".." directories.
*/
if (_istalpha(pNextDir[0]) && pNextDir[1] == _T(':') && pNextDir[2] != _T('\\'))
{
/*
* The syntax "<drive_letter>:" without any trailing backslash actually
* means: "current directory on this drive".
*/
}
else if (pszPatternPart == NULL)
{
ASSERT(pszFullPath[_tcslen(pszFullPath)-1] == _T('\\'));
/* Anything NOT being "." or ".." (the special directories) must be fully restored */
if (*pNextDir && !IsDotDirectory(pNextDir))
{
pszPatternPart = &pszFullPath[_tcslen(pszFullPath)];
_tcscpy(pszPatternPart, pNextDir);
pszPatternPart = NULL;
}
}
else if (_tcscmp(pNextDir, pszPatternPart) != 0)
{
/*
* For example, pszPatternPart == "." or ".." and we do not need to
* do anything for these, or pszPatternPart == "dir\\noextfile." and
* we need to restore all the trailing points.
*/
TRACE("pszPatternPart: %S is DIFFERENT from file criterion: %S\n", pszPatternPart, pNextDir);
/* Anything NOT being "." or ".." (the special directories) must be fully restored */
if (*pNextDir && !IsDotDirectory(pNextDir))
{
/* Restore the correct file criterion */
_tcscpy(pszPatternPart, pNextDir);
}
}
TRACE("pszFullPath (2): %S\n", pszFullPath);
/*
* If no wildcard or file was specified and this is a directory,
* display all files in it.
*/
if (pszPatternPart == NULL || IsExistingDirectory(pszFullPath))
{
pszPatternPart = &pszFullPath[_tcslen(pszFullPath)];
if (pszPatternPart[-1] != _T('\\'))
*pszPatternPart++ = _T('\\');
_tcscpy(pszPatternPart, _T("*"));
}
TRACE("pszPatternPart (2): %S\n", pszPatternPart);
if (ppszPatternPart)
*ppszPatternPart = pszPatternPart;
}
/*
* dir
*
* internal dir command
*/
INT
CommandDir(LPTSTR rest)
{
TCHAR dircmd[MAX_PATH]; /* A variable to store the DIRCMD environment variable */
TCHAR prev_volume[MAX_PATH];
TCHAR szFullPath[MAX_PATH];
LPTSTR* params = NULL;
LPTSTR pszFilePart;
TCHAR cPathSep;
INT entries = 0;
UINT loop = 0;
DIRSWITCHFLAGS stFlags;
INT ret = 1;
BOOL ChangedVolume;
/* Initialize Switch Flags < Default switches are set here! > */
stFlags.b4Digit = TRUE;
stFlags.bBareFormat = FALSE;
stFlags.bDataStreams = FALSE;
stFlags.bLowerCase = FALSE;
stFlags.bNewLongList = TRUE;
stFlags.bPause = FALSE;
stFlags.bRecursive = FALSE;
stFlags.bShortName = FALSE;
stFlags.bTSeparator = TRUE;
stFlags.bUser = FALSE;
stFlags.bWideList = FALSE;
stFlags.bWideListColSort = FALSE;
stFlags.stTimeField.eTimeField = TF_MODIFIEDDATE;
stFlags.stAttribs.dwAttribMask = FILE_ATTRIBUTE_HIDDEN | FILE_ATTRIBUTE_SYSTEM;
stFlags.stAttribs.dwAttribVal = 0L;
stFlags.stOrderBy.sCriteriaCount = 0;
nErrorLevel = 0;
/* Read the parameters from the DIRCMD environment variable */
if (GetEnvironmentVariable (_T("DIRCMD"), dircmd, ARRAYSIZE(dircmd)))
{
if (!DirReadParam(dircmd, &params, &entries, &stFlags))
{
nErrorLevel = 1;
goto cleanup;
}
}
/* Read the parameters */
if (!DirReadParam(rest, &params, &entries, &stFlags) || CheckCtrlBreak(BREAK_INPUT))
{
nErrorLevel = 1;
goto cleanup;
}
/* Default to current directory */
if (entries == 0)
{
if (!add_entry(&entries, &params, _T("*")))
{
nErrorLevel = 1;
goto cleanup;
}
}
prev_volume[0] = _T('\0');
/* Reset paging state */
if (stFlags.bPause)
ConOutPrintfPaging(TRUE, _T(""));
for (loop = 0; loop < (UINT)entries; loop++)
{
if (CheckCtrlBreak(BREAK_INPUT))
{
nErrorLevel = 1;
goto cleanup;
}
recurse_dir_cnt = 0L;
recurse_file_cnt = 0L;
recurse_bytes = 0;
/* <Debug :>
Uncomment this to show the final state of switch flags*/
{
int i;
TRACE("Attributes mask/value %x/%x\n",stFlags.stAttribs.dwAttribMask,stFlags.stAttribs.dwAttribVal);
TRACE("(B) Bare format : %i\n", stFlags.bBareFormat);
TRACE("(C) Thousand : %i\n", stFlags.bTSeparator);
TRACE("(W) Wide list : %i\n", stFlags.bWideList);
TRACE("(D) Wide list sort by column : %i\n", stFlags.bWideListColSort);
TRACE("(L) Lowercase : %i\n", stFlags.bLowerCase);
TRACE("(N) New : %i\n", stFlags.bNewLongList);
TRACE("(O) Order : %i\n", stFlags.stOrderBy.sCriteriaCount);
for (i =0;i<stFlags.stOrderBy.sCriteriaCount;i++)
TRACE(" Order Criteria [%i]: %i (Reversed: %i)\n",i, stFlags.stOrderBy.eCriteria[i], stFlags.stOrderBy.bCriteriaRev[i]);
TRACE("(P) Pause : %i\n", stFlags.bPause);
TRACE("(Q) Owner : %i\n", stFlags.bUser);
TRACE("(R) Data stream : %i\n", stFlags.bDataStreams);
TRACE("(S) Recursive : %i\n", stFlags.bRecursive);
TRACE("(T) Time field : %i\n", stFlags.stTimeField.eTimeField);
TRACE("(X) Short names : %i\n", stFlags.bShortName);
TRACE("Parameter : %s\n", debugstr_aw(params[loop]));
}
/* Print the drive header if the volume changed */
ChangedVolume = TRUE;
if (!stFlags.bBareFormat &&
GetVolumePathName(params[loop], szFullPath, ARRAYSIZE(szFullPath)))
{
if (!_tcscmp(szFullPath, prev_volume))
ChangedVolume = FALSE;
else
_tcscpy(prev_volume, szFullPath);
}
/* Resolve the pattern */
ResolvePattern(params[loop], ARRAYSIZE(szFullPath), szFullPath, &pszFilePart);
/* Print the header */
cPathSep = pszFilePart[-1];
pszFilePart[-1] = _T('\0'); /* Truncate to directory name only */
if (ChangedVolume && !stFlags.bBareFormat &&
!PrintDirectoryHeader(szFullPath, &stFlags))
{
nErrorLevel = 1;
goto cleanup;
}
pszFilePart[-1] = cPathSep;
/* Perform the actual directory listing */
if (DirList(szFullPath, pszFilePart, &stFlags) != 0)
{
nErrorLevel = 1;
goto cleanup;
}
/* Print the footer */
pszFilePart[-1] = _T('\0'); /* Truncate to directory name only */
PrintSummary(szFullPath,
recurse_file_cnt,
recurse_dir_cnt,
recurse_bytes,
&stFlags,
TRUE);
}
ret = 0;
cleanup:
freep(params);
return ret;
}
#endif
/* EOF */