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// This is a part of the Active Template Library.
// Copyright (C) 1996-2001 Microsoft Corporation
// All rights reserved.
//
// This source code is only intended as a supplement to the
// Active Template Library Reference and related
// electronic documentation provided with the library.
// See these sources for detailed information regarding the
// Active Template Library product.
#ifndef __STATREG_H__
#define __STATREG_H__
#pragma once
#ifndef __cplusplus
#error ATL requires C++ compilation (use a .cpp suffix)
#endif
#ifndef __ATLBASE_H__
#error statreg.h requires atlbase.h to be included first
#endif
#define E_ATL_REGISTRAR_DESC 0x0201
#define E_ATL_NOT_IN_MAP 0x0202
#define E_ATL_UNEXPECTED_EOS 0x0203
#define E_ATL_VALUE_SET_FAILED 0x0204
#define E_ATL_RECURSE_DELETE_FAILED 0x0205
#define E_ATL_EXPECTING_EQUAL 0x0206
#define E_ATL_CREATE_KEY_FAILED 0x0207
#define E_ATL_DELETE_KEY_FAILED 0x0208
#define E_ATL_OPEN_KEY_FAILED 0x0209
#define E_ATL_CLOSE_KEY_FAILED 0x020A
#define E_ATL_UNABLE_TO_COERCE 0x020B
#define E_ATL_BAD_HKEY 0x020C
#define E_ATL_MISSING_OPENKEY_TOKEN 0x020D
#define E_ATL_CONVERT_FAILED 0x020E
#define E_ATL_TYPE_NOT_SUPPORTED 0x020F
#define E_ATL_COULD_NOT_CONCAT 0x0210
#define E_ATL_COMPOUND_KEY 0x0211
#define E_ATL_INVALID_MAPKEY 0x0212
#define E_ATL_UNSUPPORTED_VT 0x0213
#define E_ATL_VALUE_GET_FAILED 0x0214
#define E_ATL_VALUE_TOO_LARGE 0x0215
#define E_ATL_MISSING_VALUE_DELIMETER 0x0216
#define E_ATL_DATA_NOT_BYTE_ALIGNED 0x0217
namespace ATL{const TCHAR chDirSep = _T('\\');const TCHAR chRightBracket = _T('}');const TCHAR chLeftBracket = _T('{');const TCHAR chQuote = _T('\'');const TCHAR chEquals = _T('=');const LPCTSTR szStringVal = _T("S");const LPCTSTR multiszStringVal = _T("M");const LPCTSTR szDwordVal = _T("D");const LPCTSTR szBinaryVal = _T("B");const LPCTSTR szValToken = _T("Val");const LPCTSTR szForceRemove = _T("ForceRemove");const LPCTSTR szNoRemove = _T("NoRemove");const LPCTSTR szDelete = _T("Delete");
// Implementation helper
class CExpansionVectorEqualHelper{public: static bool IsEqualKey(const LPTSTR k1, const LPTSTR k2) { if (lstrcmpi(k1, k2) == 0) return true; return false; }
// Not used
static bool IsEqualValue(const LPCOLESTR /*v1*/, const LPCOLESTR /*v2*/) { return false; }};
// Implementation helper
class CExpansionVector : public CSimpleMap<LPTSTR, LPOLESTR, CExpansionVectorEqualHelper >{public: ~CExpansionVector() { ClearReplacements(); }
BOOL Add(LPCTSTR lpszKey, LPCOLESTR lpszValue) { ATLASSERT(lpszKey != NULL && lpszValue != NULL); if (lpszKey == NULL || lpszValue == NULL) return FALSE;
HRESULT hRes = S_OK;
size_t cbKey = (lstrlen(lpszKey)+1)*sizeof(TCHAR); TCHAR* szKey = NULL; ATLTRY(szKey = new TCHAR[cbKey];)
size_t cbValue = (ocslen(lpszValue)+1)*sizeof(OLECHAR); LPOLESTR szValue = NULL; ATLTRY(szValue = new OLECHAR[cbValue];) if (szKey == NULL || szValue == NULL) hRes = E_OUTOFMEMORY; else { memcpy(szKey, lpszKey, cbKey); memcpy(szValue, lpszValue, cbValue); if (!CSimpleMap<LPTSTR, LPOLESTR, CExpansionVectorEqualHelper>::Add(szKey, szValue)) hRes = E_OUTOFMEMORY; } if (FAILED(hRes)) { delete []szKey; delete []szValue; } return SUCCEEDED(hRes); } HRESULT ClearReplacements() { for (int i = 0; i < GetSize(); i++) { delete []GetKeyAt(i); delete []GetValueAt(i); } RemoveAll(); return S_OK; }};
class CRegObject;
class CRegParser{public: CRegParser(CRegObject* pRegObj);
HRESULT PreProcessBuffer(LPTSTR lpszReg, LPTSTR* ppszReg); HRESULT RegisterBuffer(LPTSTR szReg, BOOL bRegister);
protected:
void SkipWhiteSpace(); HRESULT NextToken(LPTSTR szToken); HRESULT AddValue(CRegKey& rkParent,LPCTSTR szValueName, LPTSTR szToken); BOOL CanForceRemoveKey(LPCTSTR szKey); BOOL HasSubKeys(HKEY hkey); BOOL HasValues(HKEY hkey); HRESULT RegisterSubkeys(LPTSTR szToken, HKEY hkParent, BOOL bRegister, BOOL bInRecovery = FALSE); BOOL IsSpace(TCHAR ch); LPTSTR m_pchCur;
CRegObject* m_pRegObj;
HRESULT GenerateError(UINT) {return DISP_E_EXCEPTION;} HRESULT HandleReplacements(LPTSTR& szToken); HRESULT SkipAssignment(LPTSTR szToken);
BOOL EndOfVar() { return chQuote == *m_pchCur && chQuote != *CharNext(m_pchCur); } static LPTSTR StrChr(LPTSTR lpsz, TCHAR ch); static HKEY HKeyFromString(LPTSTR szToken); static BYTE ChToByte(const TCHAR ch); static BOOL VTFromRegType(LPCTSTR szValueType, VARTYPE& vt); static LPCTSTR rgszNeverDelete[]; static const int cbNeverDelete; static const int MAX_VALUE = 4096; static const int MAX_TYPE = 4096; // Implementation Helper
class CParseBuffer { public: int nPos; int nSize; LPTSTR p; CParseBuffer(int nInitial) { if (nInitial < 100) nInitial = 1000; nPos = 0; nSize = nInitial; p = (LPTSTR) CoTaskMemAlloc(nSize*sizeof(TCHAR)); if (p != NULL) *p = NULL; } ~CParseBuffer() { CoTaskMemFree(p); } BOOL Append(const TCHAR* pch, int nChars) { ATLASSERT(p != NULL); if ((nPos + nChars + 1) >= nSize) { while ((nPos + nChars + 1) >= nSize) nSize *=2; LPTSTR pTemp = (LPTSTR) CoTaskMemRealloc(p, nSize*sizeof(TCHAR)); if (pTemp == NULL) return FALSE; p = pTemp; } memcpy(p + nPos, pch, int(nChars * sizeof(TCHAR))); nPos += nChars; *(p + nPos) = NULL; return TRUE; } BOOL AddChar(const TCHAR* pch) {#ifndef _UNICODE
int nChars = int(CharNext(pch) - pch);#else
int nChars = 1;#endif
return Append(pch, nChars);
} BOOL AddString(LPCOLESTR lpsz) { if (lpsz == NULL) return FALSE; USES_CONVERSION; LPCTSTR lpszT = OLE2CT(lpsz); if (lpszT == NULL) return FALSE; return Append(lpszT, (int)lstrlen(lpszT)); } LPTSTR Detach() { LPTSTR lp = p; p = NULL; nSize = nPos = 0; return lp; }
};};
#if defined(_ATL_DLL) | defined(_ATL_DLL_IMPL)
class ATL_NO_VTABLE CRegObject : public IRegistrar#else
class CRegObject : public IRegistrarBase#endif
{public:
#if defined(_ATL_DLL) | defined(_ATL_DLL_IMPL)
#else
STDMETHOD(QueryInterface)(const IID &,void ** ) { ATLASSERT(_T("statically linked in CRegObject is not a com object. Do not callthis function")); return E_NOTIMPL; }
STDMETHOD_(ULONG, AddRef)(void) { ATLASSERT(_T("statically linked in CRegObject is not a com object. Do not callthis function")); return 1; } STDMETHOD_(ULONG, Release)(void) { ATLASSERT(_T("statically linked in CRegObject is not a com object. Do not callthis function")); return 0; }#endif
~CRegObject(){ClearReplacements();} HRESULT FinalConstruct() {return S_OK;} void FinalRelease() {}
// Map based methods
HRESULT STDMETHODCALLTYPE AddReplacement(LPCOLESTR lpszKey, LPCOLESTR lpszItem); HRESULT STDMETHODCALLTYPE ClearReplacements(); LPCOLESTR StrFromMap(LPTSTR lpszKey);
// Register via a given mechanism
HRESULT STDMETHODCALLTYPE ResourceRegister(LPCOLESTR pszFileName, UINT nID, LPCOLESTR pszType); HRESULT STDMETHODCALLTYPE ResourceRegisterSz(LPCOLESTR pszFileName, LPCOLESTR pszID, LPCOLESTR pszType); HRESULT STDMETHODCALLTYPE ResourceUnregister(LPCOLESTR pszFileName, UINT nID, LPCOLESTR pszType); HRESULT STDMETHODCALLTYPE ResourceUnregisterSz(LPCOLESTR pszFileName, LPCOLESTR pszID, LPCOLESTR pszType); HRESULT STDMETHODCALLTYPE FileRegister(LPCOLESTR bstrFileName) { return CommonFileRegister(bstrFileName, TRUE); }
HRESULT STDMETHODCALLTYPE FileUnregister(LPCOLESTR bstrFileName) { return CommonFileRegister(bstrFileName, FALSE); }
HRESULT STDMETHODCALLTYPE StringRegister(LPCOLESTR bstrData) { return RegisterWithString(bstrData, TRUE); }
HRESULT STDMETHODCALLTYPE StringUnregister(LPCOLESTR bstrData) { return RegisterWithString(bstrData, FALSE); }
protected:
HRESULT CommonFileRegister(LPCOLESTR pszFileName, BOOL bRegister); HRESULT RegisterFromResource(LPCOLESTR pszFileName, LPCTSTR pszID, LPCTSTR pszType, BOOL bRegister); HRESULT RegisterWithString(LPCOLESTR pszData, BOOL bRegister);
static HRESULT GenerateError(UINT) {return DISP_E_EXCEPTION;}
CExpansionVector m_RepMap; CComObjectThreadModel::AutoCriticalSection m_csMap;};
inline HRESULT STDMETHODCALLTYPE CRegObject::AddReplacement(LPCOLESTR lpszKey, LPCOLESTR lpszItem){ if (lpszKey == NULL || lpszItem == NULL) return E_INVALIDARG; m_csMap.Lock(); USES_CONVERSION; BOOL bRet = m_RepMap.Add(OLE2CT(lpszKey), lpszItem); m_csMap.Unlock(); return bRet ? S_OK : E_OUTOFMEMORY;}
inline HRESULT CRegObject::RegisterFromResource(LPCOLESTR bstrFileName, LPCTSTR szID, LPCTSTR szType, BOOL bRegister){ USES_CONVERSION;
HRESULT hr; CRegParser parser(this); HINSTANCE hInstResDll; HRSRC hrscReg; HGLOBAL hReg; DWORD dwSize; LPSTR szRegA; LPTSTR szReg;
hInstResDll = LoadLibraryEx(OLE2CT(bstrFileName), NULL, LOAD_LIBRARY_AS_DATAFILE);
if (NULL == hInstResDll) { ATLTRACE(atlTraceRegistrar, 0, _T("Failed to LoadLibrary on %s\n"), bstrFileName); hr = AtlHresultFromLastError(); goto ReturnHR; }
hrscReg = FindResource((HMODULE)hInstResDll, szID, szType);
if (NULL == hrscReg) { ATLTRACE(atlTraceRegistrar, 0, (HIWORD(szID) == NULL) ? _T("Failed to FindResource on ID:%d TYPE:%s\n") : _T("Failed to FindResource on ID:%s TYPE:%s\n"), szID, szType); hr = AtlHresultFromLastError(); goto ReturnHR; }
hReg = LoadResource((HMODULE)hInstResDll, hrscReg);
if (NULL == hReg) { ATLTRACE(atlTraceRegistrar, 0, _T("Failed to LoadResource\n")); hr = AtlHresultFromLastError(); goto ReturnHR; }
dwSize = SizeofResource((HMODULE)hInstResDll, hrscReg); szRegA = (LPSTR)hReg; if (szRegA[dwSize] != NULL) { szRegA = (LPSTR)_alloca(dwSize+1); memcpy(szRegA, (void*)hReg, dwSize+1); szRegA[dwSize] = NULL; }
szReg = A2T(szRegA);
hr = parser.RegisterBuffer(szReg, bRegister);
ReturnHR:
if (NULL != hInstResDll) FreeLibrary((HMODULE)hInstResDll); return hr;}
inline HRESULT STDMETHODCALLTYPE CRegObject::ResourceRegister(LPCOLESTR szFileName, UINT nID, LPCOLESTR szType){ USES_CONVERSION; return RegisterFromResource(szFileName, MAKEINTRESOURCE(nID), OLE2CT(szType), TRUE);}
inline HRESULT STDMETHODCALLTYPE CRegObject::ResourceRegisterSz(LPCOLESTR szFileName, LPCOLESTR szID, LPCOLESTR szType){ USES_CONVERSION; if (szID == NULL || szType == NULL) return E_INVALIDARG; return RegisterFromResource(szFileName, OLE2CT(szID), OLE2CT(szType), TRUE);}
inline HRESULT STDMETHODCALLTYPE CRegObject::ResourceUnregister(LPCOLESTR szFileName, UINT nID, LPCOLESTR szType){ USES_CONVERSION; return RegisterFromResource(szFileName, MAKEINTRESOURCE(nID), OLE2CT(szType), FALSE);}
inline HRESULT STDMETHODCALLTYPE CRegObject::ResourceUnregisterSz(LPCOLESTR szFileName, LPCOLESTR szID, LPCOLESTR szType){ USES_CONVERSION; if (szID == NULL || szType == NULL) return E_INVALIDARG;
return RegisterFromResource(szFileName, OLE2CT(szID), OLE2CT(szType), FALSE);}
inline HRESULT CRegObject::RegisterWithString(LPCOLESTR bstrData, BOOL bRegister){ USES_CONVERSION; CRegParser parser(this);
LPCTSTR szReg = OLE2CT(bstrData); if (szReg == NULL) return E_OUTOFMEMORY;
HRESULT hr = parser.RegisterBuffer((LPTSTR)szReg, bRegister);
return hr;}
inline HRESULT CRegObject::ClearReplacements(){ m_csMap.Lock(); HRESULT hr = m_RepMap.ClearReplacements(); m_csMap.Unlock(); return hr;}
inline LPCOLESTR CRegObject::StrFromMap(LPTSTR lpszKey){ USES_CONVERSION; m_csMap.Lock(); LPCOLESTR lpsz = m_RepMap.Lookup(lpszKey); if (lpsz == NULL) // not found!!
ATLTRACE(atlTraceRegistrar, 0, _T("Map Entry not found\n")); m_csMap.Unlock(); return lpsz;}
inline HRESULT CRegObject::CommonFileRegister(LPCOLESTR bstrFileName, BOOL bRegister){ USES_CONVERSION;
CRegParser parser(this);
HANDLE hFile = CreateFile(OLE2CT(bstrFileName), GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_READONLY, NULL); if (INVALID_HANDLE_VALUE == hFile) { ATLTRACE(atlTraceRegistrar, 0, _T("Failed to CreateFile on %s\n"), OLE2CT(bstrFileName)); return AtlHresultFromLastError(); }
HRESULT hRes = S_OK; DWORD cbRead; DWORD cbFile = GetFileSize(hFile, NULL); // No HiOrder DWORD required
char* szReg = (char*)_alloca(cbFile + 1); if (ReadFile(hFile, szReg, cbFile, &cbRead, NULL) == 0) { ATLTRACE(atlTraceRegistrar, 0, _T("Read Failed on file%s\n"), OLE2CT(bstrFileName)); hRes = AtlHresultFromLastError(); } if (SUCCEEDED(hRes)) { szReg[cbRead] = NULL; LPTSTR szConverted = A2T(szReg); hRes = parser.RegisterBuffer(szConverted, bRegister); } CloseHandle(hFile); return hRes;}
__declspec(selectany) LPCTSTR CRegParser::rgszNeverDelete[] ={ _T("AppID"), _T("CLSID"), _T("Component Categories"), _T("FileType"), _T("Interface"), _T("Hardware"), _T("Mime"), _T("SAM"), _T("SECURITY"), _T("SYSTEM"), _T("Software"), _T("TypeLib")};
__declspec(selectany) const int CRegParser::cbNeverDelete = sizeof(rgszNeverDelete) / sizeof(LPCTSTR*);
inline BOOL CRegParser::VTFromRegType(LPCTSTR szValueType, VARTYPE& vt){ struct typemap { LPCTSTR lpsz; VARTYPE vt; }; static const typemap map[] = { {szStringVal, VT_BSTR}, {multiszStringVal, VT_BSTR | VT_BYREF}, {szDwordVal, VT_UI4}, {szBinaryVal, VT_UI1} };
for (int i=0;i<sizeof(map)/sizeof(typemap);i++) { if (!lstrcmpi(szValueType, map[i].lpsz)) { vt = map[i].vt; return TRUE; } }
return FALSE;
}
inline BYTE CRegParser::ChToByte(const TCHAR ch){ switch (ch) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': return (BYTE) (ch - '0'); case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': return (BYTE) (10 + (ch - 'A')); case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': return (BYTE) (10 + (ch - 'a')); default: ATLASSERT(FALSE); ATLTRACE(atlTraceRegistrar, 0, _T("Bogus value %c passed as binary Hex value\n"), ch); return 0; }}
inline HKEY CRegParser::HKeyFromString(LPTSTR szToken){ struct keymap { LPCTSTR lpsz; HKEY hkey; }; static const keymap map[] = { {_T("HKCR"), HKEY_CLASSES_ROOT}, {_T("HKCU"), HKEY_CURRENT_USER}, {_T("HKLM"), HKEY_LOCAL_MACHINE}, {_T("HKU"), HKEY_USERS}, {_T("HKPD"), HKEY_PERFORMANCE_DATA}, {_T("HKDD"), HKEY_DYN_DATA}, {_T("HKCC"), HKEY_CURRENT_CONFIG}, {_T("HKEY_CLASSES_ROOT"), HKEY_CLASSES_ROOT}, {_T("HKEY_CURRENT_USER"), HKEY_CURRENT_USER}, {_T("HKEY_LOCAL_MACHINE"), HKEY_LOCAL_MACHINE}, {_T("HKEY_USERS"), HKEY_USERS}, {_T("HKEY_PERFORMANCE_DATA"), HKEY_PERFORMANCE_DATA}, {_T("HKEY_DYN_DATA"), HKEY_DYN_DATA}, {_T("HKEY_CURRENT_CONFIG"), HKEY_CURRENT_CONFIG} };
for (int i=0;i<sizeof(map)/sizeof(keymap);i++) { if (!lstrcmpi(szToken, map[i].lpsz)) return map[i].hkey; } return NULL;}
inline LPTSTR CRegParser::StrChr(LPTSTR lpsz, TCHAR ch){ LPTSTR p = NULL; while (*lpsz) { if (*lpsz == ch) { p = lpsz; break; } lpsz = CharNext(lpsz); } return p;}
inline CRegParser::CRegParser(CRegObject* pRegObj){ m_pRegObj = pRegObj; m_pchCur = NULL;}
inline BOOL CRegParser::IsSpace(TCHAR ch){ switch (ch) { case _T(' '): case _T('\t'): case _T('\r'): case _T('\n'): return TRUE; }
return FALSE;}
inline void CRegParser::SkipWhiteSpace(){ while(IsSpace(*m_pchCur)) m_pchCur = CharNext(m_pchCur);}
inline HRESULT CRegParser::NextToken(LPTSTR szToken){ USES_CONVERSION;
SkipWhiteSpace();
// NextToken cannot be called at EOS
if (NULL == *m_pchCur) return GenerateError(E_ATL_UNEXPECTED_EOS);
// handle quoted value / key
if (chQuote == *m_pchCur) { LPCTSTR szOrig = szToken;
m_pchCur = CharNext(m_pchCur);
while (NULL != *m_pchCur && !EndOfVar()) { if (chQuote == *m_pchCur) // If it is a quote that means we must skip it
m_pchCur = CharNext(m_pchCur);
LPTSTR pchPrev = m_pchCur; m_pchCur = CharNext(m_pchCur);
if (szToken + sizeof(WORD) >= MAX_VALUE + szOrig) return GenerateError(E_ATL_VALUE_TOO_LARGE); for (int i = 0; pchPrev+i < m_pchCur; i++, szToken++) *szToken = *(pchPrev+i); }
if (NULL == *m_pchCur) { ATLTRACE(atlTraceRegistrar, 0, _T("NextToken : Unexpected End of File\n")); return GenerateError(E_ATL_UNEXPECTED_EOS); }
*szToken = NULL; m_pchCur = CharNext(m_pchCur); }
else { // Handle non-quoted ie parse up till first "White Space"
while (NULL != *m_pchCur && !IsSpace(*m_pchCur)) { LPTSTR pchPrev = m_pchCur; m_pchCur = CharNext(m_pchCur); for (int i = 0; pchPrev+i < m_pchCur; i++, szToken++) *szToken = *(pchPrev+i); }
*szToken = NULL; } return S_OK;}
inline HRESULT CRegParser::AddValue(CRegKey& rkParent,LPCTSTR szValueName, LPTSTR szToken){ USES_CONVERSION; HRESULT hr;
TCHAR szTypeToken[MAX_TYPE]; VARTYPE vt = VT_EMPTY; LONG lRes = ERROR_SUCCESS; UINT nIDRes = 0;
if (FAILED(hr = NextToken(szTypeToken))) return hr; if (!VTFromRegType(szTypeToken, vt)) { ATLTRACE(atlTraceRegistrar, 0, _T("%s Type not supported\n"), szTypeToken); return GenerateError(E_ATL_TYPE_NOT_SUPPORTED); }
TCHAR szValue[MAX_VALUE]; SkipWhiteSpace(); if (FAILED(hr = NextToken(szValue))) return hr; ULONG ulVal;
switch (vt) { case VT_BSTR: lRes = rkParent.SetStringValue(szValueName, szValue); ATLTRACE(atlTraceRegistrar, 2, _T("Setting Value %s at %s\n"), szValue, !szValueName ? _T("default") : szValueName); break; case VT_BSTR | VT_BYREF: { ATLTRACE(atlTraceRegistrar, 2, _T("Setting Value %s at %s\n"), szValue, !szValueName ? _T("default") : szValueName); int nLen = lstrlen(szValue); TCHAR* pszDestValue = (TCHAR*) _alloca(nLen * sizeof(TCHAR)); if (pszDestValue != NULL) { TCHAR* p = pszDestValue; TCHAR* q = szValue; nLen = 0; while (*q != NULL) { TCHAR* r = CharNext(q); if (*q == '\\' && *r == '0') { *p++ = NULL; q = CharNext(r); } else { *p = *q;#ifndef _UNICODE
if (IsDBCSLeadByte(*q)) { p++; q++; *p = *q; }#endif
p++; q++; } nLen ++; } *p = NULL; lRes = rkParent.SetMultiStringValue(szValueName, pszDestValue); } else { lRes = ERROR_OUTOFMEMORY; } } break; case VT_UI4: VarUI4FromStr(T2OLE(szValue), 0, 0, &ulVal); lRes = rkParent.SetDWORDValue(szValueName, ulVal); ATLTRACE(atlTraceRegistrar, 2, _T("Setting Value %d at %s\n"), ulVal, !szValueName ? _T("default") : szValueName); break; case VT_UI1: { int cbValue = lstrlen(szValue); if (cbValue & 0x00000001) { ATLTRACE(atlTraceRegistrar, 0, _T("Binary Data does not fall on BYTE boundries\n")); return E_FAIL; } int cbValDiv2 = cbValue/2; BYTE* rgBinary = (BYTE*)_alloca(cbValDiv2*sizeof(BYTE)); memset(rgBinary, 0, cbValDiv2); if (rgBinary == NULL) return E_FAIL; for (int irg = 0; irg < cbValue; irg++) rgBinary[(irg/2)] |= (ChToByte(szValue[irg])) << (4*(1 - (irg & 0x00000001))); lRes = RegSetValueEx(rkParent, szValueName, 0, REG_BINARY, rgBinary, cbValDiv2); break; } }
if (ERROR_SUCCESS != lRes) { nIDRes = E_ATL_VALUE_SET_FAILED; return AtlHresultFromWin32(lRes); }
if (FAILED(hr = NextToken(szToken))) return hr;
return S_OK;}
inline BOOL CRegParser::CanForceRemoveKey(LPCTSTR szKey){ for (int iNoDel = 0; iNoDel < cbNeverDelete; iNoDel++) if (!lstrcmpi(szKey, rgszNeverDelete[iNoDel])) return FALSE; // We cannot delete it
return TRUE;}
inline BOOL CRegParser::HasSubKeys(HKEY hkey){ DWORD cbSubKeys = 0;
if (RegQueryInfoKey(hkey, NULL, NULL, NULL, &cbSubKeys, NULL, NULL, NULL, NULL, NULL, NULL, NULL) != ERROR_SUCCESS) { ATLTRACE(atlTraceRegistrar, 0, _T("Should not be here!!\n")); ATLASSERT(FALSE); return FALSE; }
return cbSubKeys > 0;}
inline BOOL CRegParser::HasValues(HKEY hkey){ DWORD cbValues = 0;
LONG lResult = RegQueryInfoKey(hkey, NULL, NULL, NULL, NULL, NULL, NULL, &cbValues, NULL, NULL, NULL, NULL); if (ERROR_SUCCESS != lResult) { ATLTRACE(atlTraceRegistrar, 0, _T("RegQueryInfoKey Failed ")); ATLASSERT(FALSE); return FALSE; }
if (1 == cbValues) { DWORD cbMaxName= MAX_VALUE; TCHAR szValueName[MAX_VALUE]; // Check to see if the Value is default or named
lResult = RegEnumValue(hkey, 0, szValueName, &cbMaxName, NULL, NULL, NULL, NULL); if (ERROR_SUCCESS == lResult && (szValueName[0] != NULL)) return TRUE; // Named Value means we have a value
return FALSE; }
return cbValues > 0; // More than 1 means we have a non-default value
}
inline HRESULT CRegParser::SkipAssignment(LPTSTR szToken){ HRESULT hr; TCHAR szValue[MAX_VALUE];
if (*szToken == chEquals) { if (FAILED(hr = NextToken(szToken))) return hr; // Skip assignment
SkipWhiteSpace(); if (FAILED(hr = NextToken(szValue))) return hr; if (FAILED(hr = NextToken(szToken))) return hr; }
return S_OK;}
inline HRESULT CRegParser::PreProcessBuffer(LPTSTR lpszReg, LPTSTR* ppszReg){ USES_CONVERSION; ATLASSERT(lpszReg != NULL); ATLASSERT(ppszReg != NULL); *ppszReg = NULL; int nSize = lstrlen(lpszReg)*2; CParseBuffer pb(nSize); if (pb.p == NULL) return E_OUTOFMEMORY; m_pchCur = lpszReg; HRESULT hr = S_OK;
while (*m_pchCur != NULL) // look for end
{ if (*m_pchCur == _T('%')) { m_pchCur = CharNext(m_pchCur); if (*m_pchCur == _T('%')) { if (!pb.AddChar(m_pchCur)) { hr = E_OUTOFMEMORY; break; } } else { LPTSTR lpszNext = StrChr(m_pchCur, _T('%')); if (lpszNext == NULL) { ATLTRACE(atlTraceRegistrar, 0, _T("Error no closing % found\n")); hr = GenerateError(E_ATL_UNEXPECTED_EOS); break; } if ((lpszNext-m_pchCur) > 31) { hr = E_FAIL; break; } int nLength = int(lpszNext - m_pchCur); TCHAR buf[32]; lstrcpyn(buf, m_pchCur, nLength+1); LPCOLESTR lpszVar = m_pRegObj->StrFromMap(buf); if (lpszVar == NULL) { hr = GenerateError(E_ATL_NOT_IN_MAP); break; } if (!pb.AddString(lpszVar)) { hr = E_OUTOFMEMORY; break; }
while (m_pchCur != lpszNext) m_pchCur = CharNext(m_pchCur); } } else { if (!pb.AddChar(m_pchCur)) { hr = E_OUTOFMEMORY; break; } }
m_pchCur = CharNext(m_pchCur); } if (SUCCEEDED(hr)) *ppszReg = pb.Detach(); return hr;}
inline HRESULT CRegParser::RegisterBuffer(LPTSTR szBuffer, BOOL bRegister){ TCHAR szToken[MAX_VALUE]; HRESULT hr = S_OK;
LPTSTR szReg; hr = PreProcessBuffer(szBuffer, &szReg); if (FAILED(hr)) return hr;
ATLTRACE(atlTraceRegistrar, 0, szReg); ATLTRACE(atlTraceRegistrar, 0, _T("\n"));
m_pchCur = szReg;
// Preprocess szReg
while (NULL != *m_pchCur) { if (FAILED(hr = NextToken(szToken))) break; HKEY hkBase; if ((hkBase = HKeyFromString(szToken)) == NULL) { ATLTRACE(atlTraceRegistrar, 0, _T("HKeyFromString failed on %s\n"), szToken); hr = GenerateError(E_ATL_BAD_HKEY); break; }
if (FAILED(hr = NextToken(szToken))) break;
if (chLeftBracket != *szToken) { ATLTRACE(atlTraceRegistrar, 0, _T("Syntax error, expecting a {, found a %s\n"), szToken); hr = GenerateError(E_ATL_MISSING_OPENKEY_TOKEN); break; } if (bRegister) { LPTSTR szRegAtRegister = m_pchCur; hr = RegisterSubkeys(szToken, hkBase, bRegister); if (FAILED(hr)) { ATLTRACE(atlTraceRegistrar, 0, _T("Failed to register, cleaning up!\n")); m_pchCur = szRegAtRegister; RegisterSubkeys(szToken, hkBase, FALSE); break; } } else { if (FAILED(hr = RegisterSubkeys(szToken, hkBase, bRegister))) break; }
SkipWhiteSpace(); } CoTaskMemFree(szReg); return hr;}
inline HRESULT CRegParser::RegisterSubkeys(LPTSTR szToken, HKEY hkParent, BOOL bRegister, BOOL bRecover){ CRegKey keyCur; LONG lRes; LPTSTR szKey = NULL; BOOL bDelete = TRUE; BOOL bInRecovery = bRecover; HRESULT hr = S_OK;
ATLTRACE(atlTraceRegistrar, 2, _T("Num Els = %d\n"), cbNeverDelete); if (FAILED(hr = NextToken(szToken))) return hr;
while (*szToken != chRightBracket) // Continue till we see a }
{ bDelete = TRUE; BOOL bTokenDelete = !lstrcmpi(szToken, szDelete);
if (!lstrcmpi(szToken, szForceRemove) || bTokenDelete) { if (FAILED(hr = NextToken(szToken))) break;
if (bRegister) { CRegKey rkForceRemove;
if (StrChr(szToken, chDirSep) != NULL) return GenerateError(E_ATL_COMPOUND_KEY);
if (CanForceRemoveKey(szToken)) { rkForceRemove.Attach(hkParent); // Error not returned. We will overwrite the values any way.
rkForceRemove.RecurseDeleteKey(szToken); rkForceRemove.Detach(); } if (bTokenDelete) { if (FAILED(hr = NextToken(szToken))) break; if (FAILED(hr = SkipAssignment(szToken))) break; goto EndCheck; } }
}
if (!lstrcmpi(szToken, szNoRemove)) { bDelete = FALSE; // set even for register
if (FAILED(hr = NextToken(szToken))) break; }
if (!lstrcmpi(szToken, szValToken)) // need to add a value to hkParent
{ TCHAR szValueName[_MAX_PATH];
if (FAILED(hr = NextToken(szValueName))) break; if (FAILED(hr = NextToken(szToken))) break;
if (*szToken != chEquals) return GenerateError(E_ATL_EXPECTING_EQUAL);
if (bRegister) { CRegKey rk;
rk.Attach(hkParent); hr = AddValue(rk, szValueName, szToken); rk.Detach();
if (FAILED(hr)) return hr;
goto EndCheck; } else { if (!bRecover && bDelete) { ATLTRACE(atlTraceRegistrar, 1, _T("Deleting %s\n"), szValueName); // We have to open the key for write to be able to delete.
CRegKey rkParent; lRes = rkParent.Open(hkParent, NULL, KEY_WRITE); if (lRes == ERROR_SUCCESS) { lRes = rkParent.DeleteValue(szValueName); if (lRes != ERROR_SUCCESS && lRes != ERROR_FILE_NOT_FOUND) { // Key not present is not an error
hr = AtlHresultFromWin32(lRes); break; } } else { hr = AtlHresultFromWin32(lRes); break; } } if (FAILED(hr = SkipAssignment(szToken))) break; continue; // can never have a subkey
} }
if (StrChr(szToken, chDirSep) != NULL) return GenerateError(E_ATL_COMPOUND_KEY);
if (bRegister) { lRes = keyCur.Open(hkParent, szToken, KEY_READ | KEY_WRITE); if (ERROR_SUCCESS != lRes) { // Failed all access try read only
lRes = keyCur.Open(hkParent, szToken, KEY_READ); if (ERROR_SUCCESS != lRes) { // Finally try creating it
ATLTRACE(atlTraceRegistrar, 2, _T("Creating key %s\n"), szToken); lRes = keyCur.Create(hkParent, szToken, REG_NONE, REG_OPTION_NON_VOLATILE, KEY_READ | KEY_WRITE); if (lRes != ERROR_SUCCESS) return AtlHresultFromWin32(lRes); } }
if (FAILED(hr = NextToken(szToken))) break;
if (*szToken == chEquals) { if (FAILED(hr = AddValue(keyCur, NULL, szToken))) // NULL == default
break; } } else { if (!bRecover) lRes = keyCur.Open(hkParent, szToken, KEY_READ); else lRes = ERROR_FILE_NOT_FOUND;
// Open failed set recovery mode
if (lRes != ERROR_SUCCESS) bRecover = true;
// TRACE out Key open status and if in recovery mode
#ifdef _DEBUG
if (!bRecover) ATLTRACE(atlTraceRegistrar, 1, _T("Opened Key %s\n"), szToken); else ATLTRACE(atlTraceRegistrar, 0, _T("Ignoring Open key on %s : In Recovery mode\n"), szToken);#endif //_DEBUG
// Remember Subkey
if (szKey == NULL) szKey = (LPTSTR)_alloca(sizeof(TCHAR)*_MAX_PATH); lstrcpyn(szKey, szToken, _MAX_PATH);
if (FAILED(hr = NextToken(szToken))) break; if (FAILED(hr = SkipAssignment(szToken))) break;
if (*szToken == chLeftBracket) { hr = RegisterSubkeys(szToken, keyCur.m_hKey, bRegister, bRecover); // In recover mode ignore error
if (FAILED(hr) && !bRecover) break; // Skip the }
if (FAILED(hr = NextToken(szToken))) break; }
#ifdef _DEBUG
if (bRecover != bInRecovery) ATLTRACE(atlTraceRegistrar, 0, _T("Ending Recovery Mode\n"));#endif
bRecover = bInRecovery; if (lRes == ERROR_FILE_NOT_FOUND) // Key already not present so not an error.
continue;
if (lRes != ERROR_SUCCESS) { // We are recovery mode continue on errors else break
if (bRecover) continue; else { hr = AtlHresultFromWin32(lRes); break; } }
// If in recovery mode
if (bRecover && HasSubKeys(keyCur)) { // See if the KEY is in the NeverDelete list and if so, don't
if (CanForceRemoveKey(szKey) && bDelete) { ATLTRACE(atlTraceRegistrar, 0, _T("Deleting non-empty subkey %s by force\n"), szKey); // Error not returned since we are in recovery mode. The error that caused recovery mode is returned
keyCur.RecurseDeleteKey(szKey); } continue; }
lRes = keyCur.Close(); if (lRes != ERROR_SUCCESS) return AtlHresultFromWin32(lRes);
if (bDelete) { ATLTRACE(atlTraceRegistrar, 0, _T("Deleting Key %s\n"), szKey); CRegKey rkParent; rkParent.Attach(hkParent); lRes = rkParent.DeleteSubKey(szKey); rkParent.Detach(); if (lRes != ERROR_SUCCESS) { hr = AtlHresultFromWin32(lRes); break; } } }
EndCheck:
if (bRegister) { if (*szToken == chLeftBracket && lstrlen(szToken) == 1) { if (FAILED(hr = RegisterSubkeys(szToken, keyCur.m_hKey, bRegister, FALSE))) break; if (FAILED(hr = NextToken(szToken))) break; } } }
return hr;}
}; //namespace ATL
#endif //__STATREG_H__
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