Source code of Windows XP (NT5)
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#include "StdAfx.h"
#include "ADMTScript.h"
#include "MigrationBase.h"
#include <LM.h>
#include "Error.h"
#include "VarSetAccounts.h"
#include "VarSetServers.h"
#include "FixHierarchy.h"
using namespace _com_util;
namespace MigrationBase
{
void GetNamesFromData(VARIANT& vntData, StringSet& setNames);
void GetNamesFromVariant(VARIANT* pvnt, StringSet& setNames);
void GetNamesFromString(BSTR bstr, StringSet& setNames);
void GetNamesFromStringArray(SAFEARRAY* psa, StringSet& setNames);
void GetNamesFromVariantArray(SAFEARRAY* psa, StringSet& setNames);
void GetNamesFromFile(VARIANT& vntData, StringSet& setNames);
void GetNamesFromFile(LPCTSTR pszFileName, StringSet& setNames);
void GetNamesFromStringA(LPCSTR pchString, DWORD cchString, StringSet& setNames);
void GetNamesFromStringW(LPCWSTR pchString, DWORD cchString, StringSet& setNames);
_bstr_t RemoveTrailingDollarSign(LPCTSTR pszName);
}
using namespace MigrationBase;
//---------------------------------------------------------------------------
// MigrationBase Class
//---------------------------------------------------------------------------
// Constructor
CMigrationBase::CMigrationBase() :
m_nRecurseMaintain(0),
m_Mutex(ADMT_MUTEX)
{
}
// Destructor
CMigrationBase::~CMigrationBase()
{
}
// InitSourceDomainAndContainer Method
void CMigrationBase::InitSourceDomainAndContainer()
{
m_SourceDomain.Initialize(m_spInternal->SourceDomain);
m_SourceContainer = m_SourceDomain.GetContainer(m_spInternal->SourceOu);
}
// InitTargetDomainAndContainer Method
void CMigrationBase::InitTargetDomainAndContainer()
{
m_TargetDomain.Initialize(m_spInternal->TargetDomain);
m_TargetContainer = m_TargetDomain.GetContainer(m_spInternal->TargetOu);
// verify target domain is in native mode
if (m_TargetDomain.NativeMode() == false)
{
AdmtThrowError(
GUID_NULL, GUID_NULL,
E_INVALIDARG, IDS_E_TARGET_DOMAIN_NOT_NATIVE_MODE,
(LPCTSTR)m_TargetDomain.Name()
);
}
VerifyTargetContainerPathLength();
}
// VerifyInterIntraForest Method
void CMigrationBase::VerifyInterIntraForest()
{
// if the source and target domains have the same forest name then they are intra-forest
bool bIntraForest = m_spInternal->IntraForest ? true : false;
if (m_SourceDomain.ForestName() == m_TargetDomain.ForestName())
{
// intra-forest must be set to true to match the domains
if (!bIntraForest)
{
AdmtThrowError(
GUID_NULL, GUID_NULL,
E_INVALIDARG, IDS_E_NOT_INTER_FOREST,
(LPCTSTR)m_SourceDomain.Name(), (LPCTSTR)m_TargetDomain.Name()
);
}
}
else
{
// intra-forest must be set to false to match the domains
if (bIntraForest)
{
AdmtThrowError(
GUID_NULL, GUID_NULL,
E_INVALIDARG, IDS_E_NOT_INTRA_FOREST,
(LPCTSTR)m_SourceDomain.Name(), (LPCTSTR)m_TargetDomain.Name()
);
}
}
}
// DoOption Method
void CMigrationBase::DoOption(long lOptions, VARIANT& vntInclude, VARIANT& vntExclude)
{
m_setIncludeNames.clear();
m_setExcludeNames.clear();
InitRecurseMaintainOption(lOptions);
GetExcludeNames(vntExclude, m_setExcludeNames);
switch (lOptions & 0xFF)
{
case admtNone:
{
DoNone();
break;
}
case admtData:
{
GetNamesFromData(vntInclude, m_setIncludeNames);
DoNames();
break;
}
case admtFile:
{
GetNamesFromFile(vntInclude, m_setIncludeNames);
DoNames();
break;
}
case admtDomain:
{
m_setIncludeNames.clear();
DoDomain();
break;
}
default:
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_INVALID_OPTION);
break;
}
}
}
// DoNone Method
void CMigrationBase::DoNone()
{
}
// DoNames Method
void CMigrationBase::DoNames()
{
}
// DoDomain Method
void CMigrationBase::DoDomain()
{
}
// InitRecurseMaintainOption Method
void CMigrationBase::InitRecurseMaintainOption(long lOptions)
{
switch (lOptions & 0xFF)
{
case admtData:
case admtFile:
{
if (lOptions & 0xFF00)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_DATA_OPTION_FLAGS_NOT_ALLOWED);
}
m_nRecurseMaintain = 0;
break;
}
case admtDomain:
{
m_nRecurseMaintain = 0;
if (lOptions & admtRecurse)
{
++m_nRecurseMaintain;
if (lOptions & admtMaintainHierarchy)
{
++m_nRecurseMaintain;
}
}
break;
}
default:
{
m_nRecurseMaintain = 0;
break;
}
}
}
// GetExcludeNames Method
void CMigrationBase::GetExcludeNames(VARIANT& vntExclude, StringSet& setExcludeNames)
{
try
{
switch (V_VT(&vntExclude))
{
case VT_EMPTY:
case VT_ERROR:
{
setExcludeNames.clear();
break;
}
case VT_BSTR:
{
GetNamesFromFile(V_BSTR(&vntExclude), setExcludeNames);
break;
}
case VT_BSTR|VT_BYREF:
{
BSTR* pbstr = V_BSTRREF(&vntExclude);
if (pbstr)
{
GetNamesFromFile(*pbstr, setExcludeNames);
}
break;
}
case VT_BSTR|VT_ARRAY:
{
GetNamesFromStringArray(V_ARRAY(&vntExclude), setExcludeNames);
break;
}
case VT_BSTR|VT_ARRAY|VT_BYREF:
{
SAFEARRAY** ppsa = V_ARRAYREF(&vntExclude);
if (ppsa)
{
GetNamesFromStringArray(*ppsa, setExcludeNames);
}
break;
}
case VT_VARIANT|VT_BYREF:
{
VARIANT* pvnt = V_VARIANTREF(&vntExclude);
if (pvnt)
{
GetExcludeNames(*pvnt, setExcludeNames);
}
break;
}
case VT_VARIANT|VT_ARRAY:
{
GetNamesFromVariantArray(V_ARRAY(&vntExclude), setExcludeNames);
break;
}
case VT_VARIANT|VT_ARRAY|VT_BYREF:
{
SAFEARRAY** ppsa = V_ARRAYREF(&vntExclude);
if (ppsa)
{
GetNamesFromVariantArray(*ppsa, setExcludeNames);
}
break;
}
default:
{
_com_issue_error(E_INVALIDARG);
break;
}
}
}
catch (_com_error& ce)
{
AdmtThrowError(GUID_NULL, GUID_NULL, ce.Error(), IDS_E_INVALID_EXCLUDE_DATA_TYPE);
}
catch (...)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_FAIL, IDS_E_INVALID_EXCLUDE_DATA_TYPE);
}
}
// FillInVarSetForUsers Method
void CMigrationBase::FillInVarSetForUsers(CDomainAccounts& rUsers, CVarSet& rVarSet)
{
CVarSetAccounts aAccounts(rVarSet);
for (CDomainAccounts::iterator it = rUsers.begin(); it != rUsers.end(); it++)
{
aAccounts.AddAccount(_T("User"), it->GetADsPath(), it->GetName(), it->GetUserPrincipalName());
}
}
// FillInVarSetForGroups Method
void CMigrationBase::FillInVarSetForGroups(CDomainAccounts& rGroups, CVarSet& rVarSet)
{
CVarSetAccounts aAccounts(rVarSet);
for (CDomainAccounts::iterator it = rGroups.begin(); it != rGroups.end(); it++)
{
aAccounts.AddAccount(_T("Group"), it->GetADsPath(), it->GetName());
}
}
// FillInVarSetForComputers Method
void CMigrationBase::FillInVarSetForComputers(CDomainAccounts& rComputers, bool bMigrateOnly, bool bMoveToTarget, bool bReboot, long lRebootDelay, CVarSet& rVarSet)
{
CVarSetAccounts aAccounts(rVarSet);
CVarSetServers aServers(rVarSet);
for (CDomainAccounts::iterator it = rComputers.begin(); it != rComputers.end(); it++)
{
// remove trailing '$'
// ADMT doesn't accept true SAM account name
_bstr_t strName = RemoveTrailingDollarSign(it->GetSamAccountName());
aAccounts.AddAccount(_T("Computer"), strName);
aServers.AddServer(strName, bMigrateOnly, bMoveToTarget, bReboot, lRebootDelay);
}
}
// VerifyRenameConflictPrefixSuffixValid Method
void CMigrationBase::VerifyRenameConflictPrefixSuffixValid()
{
int nTotalPrefixSuffixLength = 0;
long lRenameOption = m_spInternal->RenameOption;
if ((lRenameOption == admtRenameWithPrefix) || (lRenameOption == admtRenameWithSuffix))
{
_bstr_t strPrefixSuffix = m_spInternal->RenamePrefixOrSuffix;
nTotalPrefixSuffixLength += strPrefixSuffix.length();
}
long lConflictOption = m_spInternal->ConflictOptions & 0x0F;
if ((lConflictOption == admtRenameConflictingWithSuffix) || (lConflictOption == admtRenameConflictingWithPrefix))
{
_bstr_t strPrefixSuffix = m_spInternal->ConflictPrefixOrSuffix;
nTotalPrefixSuffixLength += strPrefixSuffix.length();
}
if (nTotalPrefixSuffixLength > MAXIMUM_PREFIX_SUFFIX_LENGTH)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_PREFIX_SUFFIX_TOO_LONG, MAXIMUM_PREFIX_SUFFIX_LENGTH);
}
}
// VerifyCanAddSidHistory Method
void CMigrationBase::VerifyCanAddSidHistory()
{
#define F_WORKS 0x00000000
#define F_WRONGOS 0x00000001
#define F_NO_REG_KEY 0x00000002
#define F_NO_AUDITING_SOURCE 0x00000004
#define F_NO_AUDITING_TARGET 0x00000008
#define F_NO_LOCAL_GROUP 0x00000010
try
{
long lErrorFlags = 0;
IAccessCheckerPtr spAccessChecker(__uuidof(AccessChecker));
spAccessChecker->CanUseAddSidHistory(m_SourceDomain.Name(), m_TargetDomain.Name(), &lErrorFlags);
if (lErrorFlags != 0)
{
_bstr_t strError;
CComBSTR str;
if (lErrorFlags & F_NO_AUDITING_SOURCE)
{
str.LoadString(IDS_E_NO_AUDITING_SOURCE);
strError += str.operator BSTR();
}
if (lErrorFlags & F_NO_AUDITING_TARGET)
{
str.LoadString(IDS_E_NO_AUDITING_TARGET);
strError += str.operator BSTR();
}
if (lErrorFlags & F_NO_LOCAL_GROUP)
{
str.LoadString(IDS_E_NO_SID_HISTORY_LOCAL_GROUP);
strError += str.operator BSTR();
}
if (lErrorFlags & F_NO_REG_KEY)
{
str.LoadString(IDS_E_NO_SID_HISTORY_REGISTRY_ENTRY);
strError += str.operator BSTR();
}
AdmtThrowError(GUID_NULL, GUID_NULL, E_FAIL, IDS_E_SID_HISTORY_CONFIGURATION, (LPCTSTR)strError);
}
}
catch (_com_error& ce)
{
AdmtThrowError(GUID_NULL, GUID_NULL, ce, IDS_E_CAN_ADD_SID_HISTORY);
}
catch (...)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_FAIL, IDS_E_CAN_ADD_SID_HISTORY);
}
}
// VerifyTargetContainerPathLength Method
void CMigrationBase::VerifyTargetContainerPathLength()
{
_bstr_t strPath = GetTargetContainer().GetPath();
if (strPath.length() > 999)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_TARGET_CONTAINER_PATH_TOO_LONG);
}
}
// VerifyPasswordServer Method
void CMigrationBase::VerifyPasswordOption()
{
if (m_spInternal->PasswordOption == admtCopyPassword)
{
_bstr_t strServer = m_spInternal->PasswordServer;
// a password server must be specified for copy password option
if (strServer.length() == 0)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_PASSWORD_DC_NOT_SPECIFIED);
}
//
// verify that password server exists and is a domain controller
//
_bstr_t strPrefixedServer;
if (_tcsncmp(strServer, _T("\\\\"), 2) == 0)
{
strPrefixedServer = strServer;
}
else
{
strPrefixedServer = _T("\\\\") + strServer;
}
PSERVER_INFO_101 psiInfo;
NET_API_STATUS nasStatus = NetServerGetInfo(strPrefixedServer, 101, (LPBYTE*)&psiInfo);
if (nasStatus != NERR_Success)
{
AdmtThrowError(GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(nasStatus), IDS_E_PASSWORD_DC_NOT_FOUND, (LPCTSTR)strServer);
}
UINT uMsgId = 0;
if (psiInfo->sv101_platform_id != PLATFORM_ID_NT)
{
uMsgId = IDS_E_PASSWORD_DC_NOT_NT;
}
else if (!(psiInfo->sv101_type & SV_TYPE_DOMAIN_CTRL) && !(psiInfo->sv101_type & SV_TYPE_DOMAIN_BAKCTRL))
{
uMsgId = IDS_E_PASSWORD_DC_NOT_DC;
}
NetApiBufferFree(psiInfo);
if (uMsgId)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, uMsgId, (LPCTSTR)strServer);
}
//
// verify that password server is configured properly
//
IPasswordMigrationPtr spPasswordMigration(__uuidof(PasswordMigration));
spPasswordMigration->EstablishSession(strServer, m_TargetDomain.DomainControllerName());
}
}
// PerformMigration Method
void CMigrationBase::PerformMigration(CVarSet& rVarSet)
{
IPerformMigrationTaskPtr spMigrator(__uuidof(Migrator));
try
{
spMigrator->PerformMigrationTask(IUnknownPtr(rVarSet.GetInterface()), 0);
}
catch (_com_error& ce)
{
if (ce.Error() == MIGRATOR_E_PROCESSES_STILL_RUNNING)
{
AdmtThrowError(GUID_NULL, GUID_NULL, ce.Error(), IDS_E_ADMT_PROCESS_RUNNING);
}
else
{
throw;
}
}
}
// FixObjectsInHierarchy Method
void CMigrationBase::FixObjectsInHierarchy(LPCTSTR pszType)
{
CFixObjectsInHierarchy fix;
fix.SetObjectType(pszType);
long lOptions = m_spInternal->ConflictOptions;
long lOption = lOptions & 0x0F;
long lFlags = lOptions & 0xF0;
fix.SetFixReplaced((lOption == admtReplaceConflicting) && (lFlags & admtMoveReplacedAccounts));
fix.SetSourceContainerPath(m_SourceContainer.GetPath());
fix.SetTargetContainerPath(m_TargetContainer.GetPath());
fix.FixObjects();
}
//---------------------------------------------------------------------------
namespace MigrationBase
{
// GetNamesFromData Method
void GetNamesFromData(VARIANT& vntData, StringSet& setNames)
{
try
{
GetNamesFromVariant(&vntData, setNames);
}
catch (_com_error& ce)
{
AdmtThrowError(GUID_NULL, GUID_NULL, ce.Error(), IDS_E_INVALID_DATA_OPTION_DATA_TYPE);
}
catch (...)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_FAIL, IDS_E_INVALID_DATA_OPTION_DATA_TYPE);
}
}
// GetNamesFromVariant Method
void GetNamesFromVariant(VARIANT* pvntData, StringSet& setNames)
{
switch (V_VT(pvntData))
{
case VT_BSTR:
{
GetNamesFromString(V_BSTR(pvntData), setNames);
break;
}
case VT_BSTR|VT_BYREF:
{
BSTR* pbstr = V_BSTRREF(pvntData);
if (pbstr)
{
GetNamesFromString(*pbstr, setNames);
}
break;
}
case VT_BSTR|VT_ARRAY:
{
GetNamesFromStringArray(V_ARRAY(pvntData), setNames);
break;
}
case VT_BSTR|VT_ARRAY|VT_BYREF:
{
SAFEARRAY** ppsa = V_ARRAYREF(pvntData);
if (ppsa)
{
GetNamesFromStringArray(*ppsa, setNames);
}
break;
}
case VT_VARIANT|VT_BYREF:
{
VARIANT* pvnt = V_VARIANTREF(pvntData);
if (pvnt)
{
GetNamesFromVariant(pvnt, setNames);
}
break;
}
case VT_VARIANT|VT_ARRAY:
{
GetNamesFromVariantArray(V_ARRAY(pvntData), setNames);
break;
}
case VT_VARIANT|VT_ARRAY|VT_BYREF:
{
SAFEARRAY** ppsa = V_ARRAYREF(pvntData);
if (ppsa)
{
GetNamesFromVariantArray(*ppsa, setNames);
}
break;
}
case VT_EMPTY:
{
// ignore empty variants
break;
}
default:
{
_com_issue_error(E_INVALIDARG);
break;
}
}
}
// GetNamesFromString Method
void GetNamesFromString(BSTR bstr, StringSet& setNames)
{
if (bstr)
{
UINT cch = SysStringLen(bstr);
if (cch > 0)
{
GetNamesFromStringW(bstr, cch, setNames);
}
}
}
// GetNamesFromStringArray Method
void GetNamesFromStringArray(SAFEARRAY* psa, StringSet& setNames)
{
BSTR* pbstr;
HRESULT hr = SafeArrayAccessData(psa, (void**)&pbstr);
if (SUCCEEDED(hr))
{
try
{
UINT uDimensionCount = psa->cDims;
for (UINT uDimension = 0; uDimension < uDimensionCount; uDimension++)
{
UINT uElementCount = psa->rgsabound[uDimension].cElements;
for (UINT uElement = 0; uElement < uElementCount; uElement++)
{
setNames.insert(_bstr_t(*pbstr++));
}
}
SafeArrayUnaccessData(psa);
}
catch (...)
{
SafeArrayUnaccessData(psa);
throw;
}
}
}
// GetNamesFromVariantArray Method
void GetNamesFromVariantArray(SAFEARRAY* psa, StringSet& setNames)
{
VARIANT* pvnt;
HRESULT hr = SafeArrayAccessData(psa, (void**)&pvnt);
if (SUCCEEDED(hr))
{
try
{
UINT uDimensionCount = psa->cDims;
for (UINT uDimension = 0; uDimension < uDimensionCount; uDimension++)
{
UINT uElementCount = psa->rgsabound[uDimension].cElements;
for (UINT uElement = 0; uElement < uElementCount; uElement++)
{
GetNamesFromVariant(pvnt++, setNames);
}
}
SafeArrayUnaccessData(psa);
}
catch (...)
{
SafeArrayUnaccessData(psa);
throw;
}
}
}
// GetNamesFromFile Method
//
// - the maximum file size this implementation can handle is 4,294,967,295 bytes
void GetNamesFromFile(VARIANT& vntData, StringSet& setNames)
{
bool bInvalidArg = false;
switch (V_VT(&vntData))
{
case VT_BSTR:
{
BSTR bstr = V_BSTR(&vntData);
if (bstr)
{
GetNamesFromFile(bstr, setNames);
}
else
{
bInvalidArg = true;
}
break;
}
case VT_BSTR|VT_BYREF:
{
BSTR* pbstr = V_BSTRREF(&vntData);
if (pbstr && *pbstr)
{
GetNamesFromFile(*pbstr, setNames);
}
else
{
bInvalidArg = true;
}
break;
}
case VT_VARIANT|VT_BYREF:
{
VARIANT* pvnt = V_VARIANTREF(&vntData);
if (pvnt)
{
GetNamesFromFile(*pvnt, setNames);
}
else
{
bInvalidArg = true;
}
break;
}
default:
{
bInvalidArg = true;
break;
}
}
if (bInvalidArg)
{
AdmtThrowError(GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_INVALID_FILE_OPTION_DATA_TYPE);
}
}
// GetNamesFromFile Method
//
// - the maximum file size this implementation can handle is 4,294,967,295 bytes
void GetNamesFromFile(LPCTSTR pszFileName, StringSet& setNames)
{
HRESULT hr = S_OK;
if (pszFileName)
{
HANDLE hFile = CreateFile(pszFileName, GENERIC_READ, 0, NULL, OPEN_EXISTING, 0, NULL);
if (hFile != INVALID_HANDLE_VALUE)
{
DWORD dwFileSize = GetFileSize(hFile, NULL);
if (dwFileSize > 0)
{
HANDLE hFileMappingObject = CreateFileMapping(hFile, NULL, PAGE_READONLY, 0, 0, NULL);
if (hFileMappingObject != NULL)
{
LPVOID pvBase = MapViewOfFile(hFileMappingObject, FILE_MAP_READ, 0, 0, 0);
if (pvBase != NULL)
{
// if Unicode signature assume Unicode file
// otherwise it must be an ANSI file
LPCWSTR pwcs = (LPCWSTR)pvBase;
if ((dwFileSize >= 2) && (*pwcs == L'\xFEFF'))
{
GetNamesFromStringW(pwcs + 1, dwFileSize / sizeof(WCHAR) - 1, setNames);
}
else
{
GetNamesFromStringA((LPCSTR)pvBase, dwFileSize, setNames);
}
UnmapViewOfFile(pvBase);
}
else
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
CloseHandle(hFileMappingObject);
}
else
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
}
CloseHandle(hFile);
}
else
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
}
else
{
hr = E_INVALIDARG;
}
if (FAILED(hr))
{
AdmtThrowError(GUID_NULL, GUID_NULL, hr, IDS_E_INCLUDE_NAMES_FILE, pszFileName);
}
}
// GetNamesFromStringA Method
void GetNamesFromStringA(LPCSTR pchString, DWORD cchString, StringSet& setNames)
{
static const CHAR chSeparators[] = "\t\n\r";
LPCSTR pchStringEnd = &pchString[cchString];
for (LPCSTR pch = pchString; pch < pchStringEnd; pch++)
{
// skip space characters
while ((pch < pchStringEnd) && (*pch == ' '))
{
++pch;
}
// beginning of name
LPCSTR pchBeg = pch;
// scan for separator saving pointer to last non-whitespace character
LPCSTR pchEnd = pch;
while ((pch < pchStringEnd) && (strchr(chSeparators, *pch) == NULL))
{
if (*pch++ != ' ')
{
pchEnd = pch;
}
}
// insert name which doesn't contain any leading or trailing whitespace characters
if (pchEnd > pchBeg)
{
size_t cchName = pchEnd - pchBeg;
LPSTR pszName = (LPSTR) _alloca((cchName + 1) * sizeof(CHAR));
strncpy(pszName, pchBeg, cchName);
pszName[cchName] = '\0';
setNames.insert(_bstr_t(pszName));
}
}
}
// GetNamesFromStringW Method
void GetNamesFromStringW(LPCWSTR pchString, DWORD cchString, StringSet& setNames)
{
static const WCHAR chSeparators[] = L"\t\n\r";
LPCWSTR pchStringEnd = &pchString[cchString];
for (LPCWSTR pch = pchString; pch < pchStringEnd; pch++)
{
// skip space characters
while ((pch < pchStringEnd) && (*pch == L' '))
{
++pch;
}
// beginning of name
LPCWSTR pchBeg = pch;
// scan for separator saving pointer to last non-whitespace character
LPCWSTR pchEnd = pch;
while ((pch < pchStringEnd) && (wcschr(chSeparators, *pch) == NULL))
{
if (*pch++ != L' ')
{
pchEnd = pch;
}
}
// insert name which doesn't contain any leading or trailing whitespace characters
if (pchEnd > pchBeg)
{
_bstr_t strName(SysAllocStringLen(pchBeg, pchEnd - pchBeg), false);
setNames.insert(strName);
}
}
}
// RemoveTrailingDollarSign Method
_bstr_t RemoveTrailingDollarSign(LPCTSTR pszName)
{
LPTSTR psz = _T("");
if (pszName)
{
size_t cch = _tcslen(pszName);
if (cch > 0)
{
psz = reinterpret_cast<LPTSTR>(_alloca((cch + 1) * sizeof(_TCHAR)));
_tcscpy(psz, pszName);
LPTSTR p = &psz[cch - 1];
if (*p == _T('$'))
{
*p = _T('\0');
}
}
}
return psz;
}
} // namespace