Leaked source code of windows server 2003
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

584 lines
15 KiB

#include "stock.h"
#pragma hdrstop
#include "cstrinout.h"
//+---------------------------------------------------------------------------
//
// Member: CConvertStr::Free
//
// Synopsis: Frees string if alloc'd and initializes to NULL.
//
//----------------------------------------------------------------------------
void
CConvertStr::Free()
{
if (_pstr != _ach && HIWORD64(_pstr) != 0 && !IsAtom())
{
delete [] _pstr;
}
_pstr = NULL;
}
//+---------------------------------------------------------------------------
//
// Member: CConvertStrW::Free
//
// Synopsis: Frees string if alloc'd and initializes to NULL.
//
//----------------------------------------------------------------------------
void
CConvertStrW::Free()
{
if (_pwstr != _awch && HIWORD64(_pwstr) != 0)
{
delete [] _pwstr;
}
_pwstr = NULL;
}
//+---------------------------------------------------------------------------
//
// Member: CStrInW::Init
//
// Synopsis: Converts a LPSTR function argument to a LPWSTR.
//
// Arguments: [pstr] -- The function argument. May be NULL or an atom
// (HIWORD64(pwstr) == 0).
//
// [cch] -- The number of characters in the string to
// convert. If -1, the string is assumed to be
// NULL terminated and its length is calculated.
//
// Modifies: [this]
//
//----------------------------------------------------------------------------
void
CStrInW::Init(LPCSTR pstr, int cch)
{
int cchBufReq;
_cwchLen = 0;
// Check if string is NULL or an atom.
if (HIWORD64(pstr) == 0)
{
_pwstr = (LPWSTR) pstr;
return;
}
ASSERT(cch == -1 || cch > 0);
//
// Convert string to preallocated buffer, and return if successful.
//
// Since the passed in buffer may not be null terminated, we have
// a problem if cch==ARRAYSIZE(_awch), because MultiByteToWideChar
// will succeed, and we won't be able to null terminate the string!
// Decrease our buffer by one for this case.
//
_cwchLen = MultiByteToWideChar(
CP_ACP, 0, pstr, cch, _awch, ARRAYSIZE(_awch)-1);
if (_cwchLen > 0)
{
// Some callers don't NULL terminate.
//
// We could check "if (-1 != cch)" before doing this,
// but always doing the null is less code.
//
_awch[_cwchLen] = 0;
if (0 == _awch[_cwchLen-1]) // account for terminator
_cwchLen--;
_pwstr = _awch;
return;
}
//
// Alloc space on heap for buffer.
//
cchBufReq = MultiByteToWideChar( CP_ACP, 0, pstr, cch, NULL, 0 );
// Again, leave room for null termination
cchBufReq++;
ASSERT(cchBufReq > 0);
_pwstr = new WCHAR[cchBufReq];
if (!_pwstr)
{
// On failure, the argument will point to the empty string.
_cwchLen = 0;
_awch[0] = 0;
_pwstr = _awch;
return;
}
ASSERT(HIWORD64(_pwstr));
_cwchLen = MultiByteToWideChar(
CP_ACP, 0, pstr, cch, _pwstr, cchBufReq );
#if DBG == 1 /* { */
if (0 == _cwchLen)
{
int errcode = GetLastError();
ASSERT(0 && "MultiByteToWideChar failed in unicode wrapper.");
}
#endif /* } */
// Again, make sure we're always null terminated
ASSERT(_cwchLen < cchBufReq);
_pwstr[_cwchLen] = 0;
if (0 == _pwstr[_cwchLen-1]) // account for terminator
_cwchLen--;
}
//+---------------------------------------------------------------------------
//
// Member: CStrIn::CStrIn
//
// Synopsis: Inits the class.
//
// NOTE: Don't inline this function or you'll increase code size
// by pushing -1 on the stack for each call.
//
//----------------------------------------------------------------------------
CStrIn::CStrIn(LPCWSTR pwstr) : CConvertStr(CP_ACP)
{
Init(pwstr, -1);
}
CStrIn::CStrIn(UINT uCP, LPCWSTR pwstr) : CConvertStr(uCP)
{
Init(pwstr, -1);
}
//+---------------------------------------------------------------------------
//
// Member: CStrIn::Init
//
// Synopsis: Converts a LPWSTR function argument to a LPSTR.
//
// Arguments: [pwstr] -- The function argument. May be NULL or an atom
// (HIWORD(pwstr) == 0).
//
// [cwch] -- The number of characters in the string to
// convert. If -1, the string is assumed to be
// NULL terminated and its length is calculated.
//
// Modifies: [this]
//
// Note: We ignore AreFileApisANSI() and always use CP_ACP.
// The reason is that nobody uses SetFileApisToOEM() except
// console apps, and once you set file APIs to OEM, you
// cannot call shell/user/gdi APIs, since they assume ANSI
// regardless of the FileApis setting. So you end up in
// this horrible messy state where the filename APIs interpret
// the strings as OEM but SHELL32 interprets the strings
// as ANSI and you end up with a big mess.
//
//----------------------------------------------------------------------------
void
CStrIn::Init(LPCWSTR pwstr, int cwch)
{
int cchBufReq;
#if DBG == 1 /* { */
int errcode;
#endif /* } */
_cchLen = 0;
// Check if string is NULL or an atom.
if (HIWORD64(pwstr) == 0 || IsAtom())
{
_pstr = (LPSTR) pwstr;
return;
}
if ( cwch == 0 )
{
*_ach = '\0';
_pstr = _ach;
return;
}
//
// Convert string to preallocated buffer, and return if successful.
//
_cchLen = WideCharToMultiByte(
_uCP, 0, pwstr, cwch, _ach, ARRAYSIZE(_ach)-1, NULL, NULL);
if (_cchLen > 0)
{
// This is DBCS safe since byte before _cchLen is last character
_ach[_cchLen] = 0;
// this may not be safe if the last character
// was a multibyte character...
if (_ach[_cchLen-1]==0)
_cchLen--; // account for terminator
_pstr = _ach;
return;
}
cchBufReq = WideCharToMultiByte(
CP_ACP, 0, pwstr, cwch, NULL, 0, NULL, NULL);
cchBufReq++;
ASSERT(cchBufReq > 0);
_pstr = new char[cchBufReq];
if (!_pstr)
{
// On failure, the argument will point to the empty string.
_cchLen = 0;
_ach[0] = 0;
_pstr = _ach;
return;
}
ASSERT(HIWORD64(_pstr));
_cchLen = WideCharToMultiByte(
_uCP, 0, pwstr, cwch, _pstr, cchBufReq, NULL, NULL);
#if DBG == 1 /* { */
if (_cchLen < 0)
{
errcode = GetLastError();
ASSERT(0 && "WideCharToMultiByte failed in unicode wrapper.");
}
#endif /* } */
// Again, make sure we're always null terminated
ASSERT(_cchLen < cchBufReq);
_pstr[_cchLen] = 0;
if (0 == _pstr[_cchLen-1]) // account for terminator
_cchLen--;
}
//+---------------------------------------------------------------------------
//
// Member: CStrInMulti::CStrInMulti
//
// Synopsis: Converts mulitple LPWSTRs to a multiple LPSTRs.
//
// Arguments: [pwstr] -- The strings to convert.
//
// Modifies: [this]
//
//----------------------------------------------------------------------------
CStrInMulti::CStrInMulti(LPCWSTR pwstr)
{
LPCWSTR pwstrT;
// We don't handle atoms because we don't need to.
ASSERT(HIWORD64(pwstr));
//
// Count number of characters to convert.
//
pwstrT = pwstr;
if (pwstr)
{
do {
while (*pwstrT++)
;
} while (*pwstrT++);
}
Init(pwstr, (int)(pwstrT - pwstr));
}
//+---------------------------------------------------------------------------
//
// Member: CPPFIn::CPPFIn
//
// Synopsis: Inits the class. Truncates the filename to MAX_PATH
// so Win9x DBCS won't fault. Win9x SBCS silently truncates
// to MAX_PATH, so we're bug-for-bug compatible.
//
//----------------------------------------------------------------------------
CPPFIn::CPPFIn(LPCWSTR pwstr)
{
SHUnicodeToAnsi(pwstr, _ach, ARRAYSIZE(_ach));
}
//+---------------------------------------------------------------------------
//
// Member: CStrOut::CStrOut
//
// Synopsis: Allocates enough space for an out buffer.
//
// Arguments: [pwstr] -- The Unicode buffer to convert to when destroyed.
// May be NULL.
//
// [cwchBuf] -- The size of the buffer in characters.
//
// Modifies: [this].
//
//----------------------------------------------------------------------------
CStrOut::CStrOut(LPWSTR pwstr, int cwchBuf) : CConvertStr(CP_ACP)
{
Init(pwstr, cwchBuf);
}
CStrOut::CStrOut(UINT uCP, LPWSTR pwstr, int cwchBuf) : CConvertStr(uCP)
{
Init(pwstr, cwchBuf);
}
void
CStrOut::Init(LPWSTR pwstr, int cwchBuf)
{
ASSERT(cwchBuf >= 0);
_pwstr = pwstr;
_cwchBuf = cwchBuf;
if (!pwstr)
{
// Force cwchBuf = 0 because many callers (in particular, registry
// munging functions) pass garbage as the length because they know
// it will be ignored.
_cwchBuf = 0;
_pstr = NULL;
return;
}
ASSERT(HIWORD64(pwstr));
// Initialize buffer in case Windows API returns an error.
_ach[0] = 0;
// Use preallocated buffer if big enough.
if (cwchBuf * 2 <= ARRAYSIZE(_ach))
{
_pstr = _ach;
return;
}
// Allocate buffer.
_pstr = new char[cwchBuf * 2];
if (!_pstr)
{
//
// On failure, the argument will point to a zero-sized buffer initialized
// to the empty string. This should cause the Windows API to fail.
//
ASSERT(cwchBuf > 0);
_pwstr[0] = 0;
_cwchBuf = 0;
_pstr = _ach;
return;
}
ASSERT(HIWORD64(_pstr));
_pstr[0] = 0;
}
//+---------------------------------------------------------------------------
//
// Member: CStrOutW::CStrOutW
//
// Synopsis: Allocates enough space for an out buffer.
//
// Arguments: [pstr] -- The MBCS buffer to convert to when destroyed.
// May be NULL.
//
// [cchBuf] -- The size of the buffer in characters.
//
// Modifies: [this].
//
//----------------------------------------------------------------------------
CStrOutW::CStrOutW(LPSTR pstr, int cchBuf)
{
ASSERT(cchBuf >= 0);
_pstr = pstr;
_cchBuf = cchBuf;
if (!pstr)
{
// Force cchBuf = 0 because many callers (in particular, registry
// munging functions) pass garbage as the length because they know
// it will be ignored.
_cchBuf = 0;
_pwstr = NULL;
return;
}
ASSERT(HIWORD64(pstr));
// Initialize buffer in case Windows API returns an error.
_awch[0] = 0;
// Use preallocated buffer if big enough.
if (cchBuf <= ARRAYSIZE(_awch))
{
_pwstr = _awch;
return;
}
// Allocate buffer.
_pwstr = new WCHAR[cchBuf];
if (!_pwstr)
{
//
// On failure, the argument will point to a zero-sized buffer initialized
// to the empty string. This should cause the Windows API to fail.
//
ASSERT(cchBuf > 0);
_pstr[0] = 0;
_cchBuf = 0;
_pwstr = _awch;
return;
}
ASSERT(HIWORD64(_pwstr));
_pwstr[0] = 0;
}
//+---------------------------------------------------------------------------
//
// Member: CStrOut::ConvertIncludingNul
//
// Synopsis: Converts the buffer from MBCS to Unicode
//
// Return: Character count INCLUDING the trailing '\0'
//
//----------------------------------------------------------------------------
int
CStrOut::ConvertIncludingNul()
{
int cch;
if (!_pstr)
return 0;
cch = SHAnsiToUnicodeCP(_uCP, _pstr, _pwstr, _cwchBuf);
#if DBG == 1 /* { */
if (cch == 0 && _cwchBuf > 0)
{
int errcode = GetLastError();
ASSERT(0 && "SHAnsiToUnicode failed in unicode wrapper.");
}
#endif /* } */
Free();
return cch;
}
//+---------------------------------------------------------------------------
//
// Member: CStrOutW::ConvertIncludingNul
//
// Synopsis: Converts the buffer from Unicode to MBCS
//
// Return: Character count INCLUDING the trailing '\0'
//
//----------------------------------------------------------------------------
int
CStrOutW::ConvertIncludingNul()
{
int cch;
if (!_pwstr)
return 0;
cch = SHUnicodeToAnsi(_pwstr, _pstr, _cchBuf);
#if DBG == 1 /* { */
if (cch == 0 && _cchBuf > 0)
{
int errcode = GetLastError();
ASSERT(0 && "SHUnicodeToAnsi failed in unicode wrapper.");
}
#endif /* } */
Free();
return cch;
}
//+---------------------------------------------------------------------------
//
// Member: CStrOut::ConvertExcludingNul
//
// Synopsis: Converts the buffer from MBCS to Unicode
//
// Return: Character count EXCLUDING the trailing '\0'
//
//----------------------------------------------------------------------------
int
CStrOut::ConvertExcludingNul()
{
int ret = ConvertIncludingNul();
if (ret > 0)
{
ret -= 1;
}
return ret;
}
//+---------------------------------------------------------------------------
//
// Member: CStrOut::~CStrOut
//
// Synopsis: Converts the buffer from MBCS to Unicode.
//
// Note: Don't inline this function, or you'll increase code size as
// both ConvertIncludingNul() and CConvertStr::~CConvertStr will be
// called inline.
//
//----------------------------------------------------------------------------
CStrOut::~CStrOut()
{
ConvertIncludingNul();
}
//+---------------------------------------------------------------------------
//
// Member: CStrOutW::~CStrOutW
//
// Synopsis: Converts the buffer from Unicode to MBCS.
//
// Note: Don't inline this function, or you'll increase code size as
// both ConvertIncludingNul() and CConvertStr::~CConvertStr will be
// called inline.
//
//----------------------------------------------------------------------------
CStrOutW::~CStrOutW()
{
ConvertIncludingNul();
}