#include "StdAfx.h" #include "ADMTScript.h" #include "DomainContainer.h" #include "Error.h" #include "AdsiHelpers.h" #include "NameCracker.h" #include #include #include #include #include #include #include #include #include #include #define NO_WBEM #include "T_SafeVector.h" #ifndef tstring typedef std::basic_string<_TCHAR> tstring; #endif using namespace _com_util; namespace _DomainContainer { tstring __stdcall CreateFilter(LPCTSTR pszFilter, const StringSet& setExcludeNames); bool __stdcall IsClass(LPCTSTR pszClass, const _variant_t& vntClass); #define MIN_NON_RESERVED_RID 1000 bool __stdcall IsUserRid(const _variant_t& vntSid); IDispatchPtr GetADsObject(_bstr_t strPath); void ReportADsError(HRESULT hr, const IID& iid = GUID_NULL); } // namespace _DomainContainer using namespace _DomainContainer; //--------------------------------------------------------------------------- // Domain Class //--------------------------------------------------------------------------- // Constructors and Destructor ---------------------------------------------- CDomain::CDomain() : m_bUpLevel(false), m_bNativeMode(false) { } CDomain::~CDomain() { } // Implementation ----------------------------------------------------------- // Initialize Method // // Initializes domain parameters such as DNS domain name, Flat (NETBIOS) domain name, // forest name, domain controller name. void CDomain::Initialize(_bstr_t strDomainName) { if (!strDomainName) { AdmtThrowError( GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_DOMAIN_NAME_NOT_SPECIFIED ); } // retrieve name of a domain controller in the domain m_strDcName = GetDcName(strDomainName); // retrieve domain information PDSROLE_PRIMARY_DOMAIN_INFO_BASIC ppdib; DWORD dwError = DsRoleGetPrimaryDomainInformation( m_strDcName, DsRolePrimaryDomainInfoBasic, (BYTE**)&ppdib ); if (dwError != NO_ERROR) { AdmtThrowError( GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(dwError), IDS_E_CANT_GET_DOMAIN_INFORMATION, (LPCTSTR)strDomainName ); } // initialize data members from domain information m_bUpLevel = (ppdib->Flags & DSROLE_PRIMARY_DS_RUNNING) ? true : false; m_bNativeMode = (m_bUpLevel && !(ppdib->Flags & DSROLE_PRIMARY_DS_MIXED_MODE)) ? true : false; if (ppdib->DomainNameDns) { m_strDomainNameDns = ppdib->DomainNameDns; } else { m_strDomainNameDns = _bstr_t(); } if (ppdib->DomainNameFlat) { m_strDomainNameFlat = ppdib->DomainNameFlat; } else { m_strDomainNameFlat = _bstr_t(); } if (ppdib->DomainForestName) { m_strForestName = ppdib->DomainForestName; } else { m_strForestName = _bstr_t(); } DsRoleFreeMemory(ppdib); // initialize ADsPath if (m_bUpLevel) { m_strADsPath = _T("LDAP://") + m_strDomainNameDns; // retrieve global catalog server name for uplevel domains // m_strGcName = GetGcName(); } else { m_strADsPath = _T("WinNT://") + m_strDomainNameFlat; } // retrieve domain sid m_strDomainSid = GetSid(); // initialize dispatch interface pointer to active directory object m_sp = GetADsObject(m_strADsPath); } // GetDcName Method // // Retrieves name of domain controller in the given domain. _bstr_t CDomain::GetDcName(_bstr_t strDomainName) { _bstr_t strName; PDOMAIN_CONTROLLER_INFO pdci; // attempt to retrieve DNS name of domain controller supporting active directory service DWORD dwError = DsGetDcName(NULL, strDomainName, NULL, NULL, DS_DIRECTORY_SERVICE_REQUIRED|DS_RETURN_DNS_NAME, &pdci); // if domain controller not found, attempt to retrieve flat name of domain controller if (dwError == ERROR_NO_SUCH_DOMAIN) { dwError = DsGetDcName(NULL, strDomainName, NULL, NULL, DS_RETURN_FLAT_NAME, &pdci); } // if domain controller found then save name otherwise generate error if (dwError == NO_ERROR) { strName = pdci->DomainControllerName; NetApiBufferFree(pdci); } else { AdmtThrowError( GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(dwError), IDS_E_CANT_GET_DOMAIN_CONTROLLER, (LPCTSTR)strDomainName ); } return strName; } // GetGcName Method // // Retrieves name of global catalog server. _bstr_t CDomain::GetGcName() { _bstr_t strName; PDOMAIN_CONTROLLER_INFO pdci; DWORD dwError = DsGetDcName(NULL, m_strForestName, NULL, NULL, DS_GC_SERVER_REQUIRED, &pdci); if (dwError == NO_ERROR) { strName = pdci->DomainControllerName; NetApiBufferFree(pdci); } else { AdmtThrowError( GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(dwError), IDS_E_CANT_GET_GLOBAL_CATALOG_SERVER, (LPCTSTR)m_strForestName ); } return strName; } // GetSid Method _bstr_t CDomain::GetSid() { _bstr_t strSid; PUSER_MODALS_INFO_2 pumi2; if (NetUserModalsGet(m_strDcName, 2, (LPBYTE*)&pumi2) == NERR_Success) { if (IsValidSid(pumi2->usrmod2_domain_id)) { LPTSTR pszSid; if (ConvertSidToStringSid(pumi2->usrmod2_domain_id, &pszSid)) { strSid = pszSid; LocalFree(LocalHandle(pszSid)); } } NetApiBufferFree(pumi2); } return strSid; } // GetContainer Method // // Retrieves a container given it's relative canonical path. Will // optionally create container if create parameter is true and container // does not already exist. CContainer CDomain::GetContainer(_bstr_t strRelativeCanonicalPath, bool bCreate) { CContainer aContainer; // return a non-empty container only if the domain is uplevel and a // relative canonical path is supplied if (m_bUpLevel && (strRelativeCanonicalPath.length() > 0)) { if (bCreate) { tstring strPath = strRelativeCanonicalPath; // initialize parent container // if path separator is specified than initialize parent // container from ADsPath otherwise this container is the // parent container CContainer aParent; UINT pos = strPath.find_last_of(_T("/\\")); if (pos != tstring::npos) { aParent = GetLDAPPath(GetDistinguishedName(strPath.substr(0, pos).c_str())); } else { aParent = *this; } tstring strName = strPath.substr(pos + 1); CADsPathName aPathName(aParent.GetPath()); tstring strRDN = _T("CN=") + strName; aPathName.AddLeafElement(strRDN.c_str()); IDispatchPtr spDispatch; HRESULT hr = ADsGetObject(aPathName.Retrieve(ADS_FORMAT_X500), __uuidof(IDispatch), (void**)&spDispatch); if (SUCCEEDED(hr)) { aContainer = CContainer(spDispatch); } else { strRDN = _T("OU=") + strName; aContainer = aParent.CreateContainer(strRDN.c_str()); } } else { try { aContainer = GetLDAPPath(GetDistinguishedName(strRelativeCanonicalPath)); } catch (_com_error& ce) { AdmtThrowError(GUID_NULL, GUID_NULL, ce, IDS_E_CANNOT_GET_CONTAINER, (LPCTSTR)strRelativeCanonicalPath); } } } return aContainer; } // GetLDAPPath _bstr_t CDomain::GetLDAPPath(_bstr_t strDN) { _bstr_t strPath = _T("LDAP://") + m_strDomainNameDns; if (strDN.length() > 0) { strPath += _T("/") + strDN; } return strPath; } // GetWinNTPath _bstr_t CDomain::GetWinNTPath(_bstr_t strName) { const _TCHAR c_chEscape = _T('\\'); static _TCHAR s_chSpecial[] = _T("\",/<>"); std::auto_ptr<_TCHAR> spEscapedName(new _TCHAR[strName.length() * 2 + 1]); if (spEscapedName.get() == NULL) { _com_issue_error(E_OUTOFMEMORY); } _TCHAR* pchOld = strName; _TCHAR* pchNew = spEscapedName.get(); while (*pchOld) { if (_tcschr(s_chSpecial, *pchOld)) { *pchNew++ = c_chEscape; } *pchNew++ = *pchOld++; } *pchNew = _T('\0'); tstring strPath; strPath += _T("WinNT://"); strPath += m_strDomainNameFlat; strPath += _T("/"); strPath += spEscapedName.get(); return strPath.c_str(); } // GetDistinguishedName Method _bstr_t CDomain::GetDistinguishedName(_bstr_t strRelativeCanonicalPath) { _bstr_t strDN; HRESULT hr = S_OK; HANDLE hDS; DWORD dwError = DsBind(m_strDcName, NULL, &hDS); if (dwError == NO_ERROR) { _bstr_t strCanonicalName = m_strDomainNameDns + _T("/") + strRelativeCanonicalPath; LPTSTR psz = strCanonicalName; PDS_NAME_RESULT pnr; dwError = DsCrackNames(hDS, DS_NAME_NO_FLAGS, DS_CANONICAL_NAME, DS_FQDN_1779_NAME, 1, &psz, &pnr); if (dwError == NO_ERROR) { if (pnr->rItems[0].status == DS_NAME_NO_ERROR) { strDN = pnr->rItems[0].pName; } else { hr = AdmtSetError( GUID_NULL, GUID_NULL, E_INVALIDARG, IDS_E_CANT_GET_DISTINGUISHED_NAME, (LPCTSTR)strCanonicalName ); } DsFreeNameResult(pnr); } else { hr = AdmtSetError( GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(dwError), IDS_E_CANT_GET_DISTINGUISHED_NAME, (LPCTSTR)strCanonicalName ); } DsUnBind(&hDS); } else { hr = AdmtSetError( GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(dwError), IDS_E_CANT_CONNECT_TO_DIRECTORY_SERVICE, (LPCTSTR)m_strDomainNameDns ); } if (hr != S_OK) { _com_issue_error(hr); } return strDN; } // CreateContainer Method CContainer CDomain::CreateContainer(_bstr_t strRDN) { CContainer aContainer; if (m_bUpLevel) { aContainer = CContainer::CreateContainer(strRDN); } else { AdmtThrowError(GUID_NULL, GUID_NULL, E_FAIL, IDS_E_CANT_CREATE_CONTAINER_NT4); } return aContainer; } // QueryContainers Method void CDomain::QueryContainers(ContainerVector& rContainers) { if (m_bUpLevel) { CContainer::QueryContainers(rContainers); } } // QueryUsers Method void CDomain::QueryUsers(bool bRecurse, StringSet& setExcludeNames, CDomainAccounts& rUsers) { if (m_bUpLevel) { CContainer::QueryUsers(bRecurse, setExcludeNames, rUsers); } else { QueryUsers4(setExcludeNames, rUsers); } } // QueryUsers Method void CDomain::QueryUsers(CContainer& rContainer, StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rUsers) { if (m_bUpLevel) { QueryObjects(rContainer, setIncludeNames, setExcludeNames, _T("user"), rUsers); } else { QueryUsers4(setIncludeNames, setExcludeNames, rUsers); } } // QueryGroups Method void CDomain::QueryGroups(bool bRecurse, StringSet& setExcludeNames, CDomainAccounts& rGroups) { if (m_bUpLevel) { CContainer::QueryGroups(bRecurse, setExcludeNames, rGroups); } else { QueryGroups4(setExcludeNames, rGroups); } } // QueryGroups Method void CDomain::QueryGroups(CContainer& rContainer, StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rGroups) { if (m_bUpLevel) { QueryObjects(rContainer, setIncludeNames, setExcludeNames, _T("group"), rGroups); } else { QueryGroups4(setIncludeNames, setExcludeNames, rGroups); } } // QueryComputers Method void CDomain::QueryComputers(bool bIncludeDCs, bool bRecurse, StringSet& setExcludeNames, CDomainAccounts& rComputers) { if (m_bUpLevel) { CContainer::QueryComputers(bIncludeDCs, bRecurse, setExcludeNames, rComputers); } else { QueryComputers4(bIncludeDCs, setExcludeNames, rComputers); } } // QueryComputers Method void CDomain::QueryComputers(CContainer& rContainer, bool bIncludeDCs, StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rComputers) { if (m_bUpLevel) { QueryObjects(rContainer, setIncludeNames, setExcludeNames, _T("computer"), rComputers); if (!bIncludeDCs) { for (CDomainAccounts::iterator it = rComputers.begin(); it != rComputers.end();) { long lUserAccountControl = it->GetUserAccountControl(); if (lUserAccountControl & ADS_UF_SERVER_TRUST_ACCOUNT) { _Module.Log(ErrW, IDS_E_CANNOT_MIGRATE_DOMAIN_CONTROLLERS, (LPCTSTR)it->GetADsPath()); it = rComputers.erase(it); } else { it++; } } } } else { QueryComputers4(bIncludeDCs, setIncludeNames, setExcludeNames, rComputers); } } // QueryComputersAcrossDomains Method void CDomain::QueryComputersAcrossDomains(CContainer& rContainer, bool bIncludeDCs, StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rComputers) { CDomainToPathMap mapDomainToPath; mapDomainToPath.Initialize(m_strDomainNameDns, m_strDomainNameFlat, setIncludeNames); for (CDomainToPathMap::iterator it = mapDomainToPath.begin(); it != mapDomainToPath.end(); it++) { _bstr_t strDomainName = it->first; try { CDomain domain; domain.Initialize(strDomainName); domain.QueryComputers(rContainer, bIncludeDCs, it->second, setExcludeNames, rComputers); } catch (_com_error& ce) { _Module.Log(ErrE, IDS_E_CANNOT_PROCESS_ACCOUNTS_IN_DOMAIN, (LPCTSTR)strDomainName, ce.ErrorMessage(), ce.Error()); } catch (...) { _Module.Log(ErrE, IDS_E_CANNOT_PROCESS_ACCOUNTS_IN_DOMAIN, (LPCTSTR)strDomainName, _com_error(E_FAIL).ErrorMessage(), E_FAIL); } } } // QueryObjects Method void CDomain::QueryObjects(CContainer& rContainer, StringSet& setIncludeNames, StringSet& setExcludeNames, LPCTSTR pszClass, CDomainAccounts& rAccounts) { // copy specified include names to vector StringVector vecNames; for (StringSet::const_iterator itInclude = setIncludeNames.begin(); itInclude != setIncludeNames.end(); itInclude++) { vecNames.push_back(tstring(*itInclude)); } // crack names CNameCracker cracker; cracker.SetDomainNames(m_strDomainNameDns, m_strDomainNameFlat, m_strDcName); cracker.SetDefaultContainer(IADsContainerPtr(rContainer.GetInterface())); cracker.CrackNames(vecNames); // log un-resolved names const StringVector& vecUnResolved = cracker.GetUnResolvedNames(); for (StringVector::const_iterator itUnResolved = vecUnResolved.begin(); itUnResolved != vecUnResolved.end(); itUnResolved++) { _Module.Log(ErrW, IDS_E_CANNOT_RESOLVE_NAME, itUnResolved->c_str()); } // initialize compare exclude names CCompareStrings csExclude(setExcludeNames); // add resolved accounts const CStringSet& setResolved = cracker.GetResolvedNames(); CADsPathName pathname; pathname.Set(_T("LDAP"), ADS_SETTYPE_PROVIDER); pathname.Set(m_strDomainNameDns, ADS_SETTYPE_SERVER); CDirectoryObject doObject; doObject.AddAttribute(ATTRIBUTE_OBJECT_CLASS); doObject.AddAttribute(ATTRIBUTE_OBJECT_SID); doObject.AddAttribute(ATTRIBUTE_NAME); doObject.AddAttribute(ATTRIBUTE_USER_PRINCIPAL_NAME); doObject.AddAttribute(ATTRIBUTE_SAM_ACCOUNT_NAME); doObject.AddAttribute(ATTRIBUTE_USER_ACCOUNT_CONTROL); for (CStringSet::const_iterator itResolved = setResolved.begin(); itResolved != setResolved.end(); itResolved++) { try { // get active directory service path // Note: the pathname component will, if necessary, escape any special characters pathname.Set(itResolved->c_str(), ADS_SETTYPE_DN); _bstr_t strADsPath = pathname.Retrieve(ADS_FORMAT_X500); // get object attributes doObject = (LPCTSTR)strADsPath; doObject.GetAttributes(); // if the object is of the specified account class... _variant_t vntClass = doObject.GetAttributeValue(ATTRIBUTE_OBJECT_CLASS); if (IsClass(pszClass, vntClass)) { // and it does not represent a built-in account... _variant_t vntSid = doObject.GetAttributeValue(ATTRIBUTE_OBJECT_SID); if (IsUserRid(vntSid)) { // then if name is not in exclusion list... _bstr_t strName = doObject.GetAttributeValue(ATTRIBUTE_NAME); if (csExclude.IsMatch(strName) == false) { // // then add account to account list // CDomainAccount daAccount; // active directory service path daAccount.SetADsPath(strADsPath); // name attribute daAccount.SetName(strName); // user principal name attribute _variant_t vntUserPrincipalName = doObject.GetAttributeValue(ATTRIBUTE_USER_PRINCIPAL_NAME); if (V_VT(&vntUserPrincipalName) != VT_EMPTY) { daAccount.SetUserPrincipalName(_bstr_t(vntUserPrincipalName)); } // sam account name attribute _variant_t vntSamAccountName = doObject.GetAttributeValue(ATTRIBUTE_SAM_ACCOUNT_NAME); if (V_VT(&vntSamAccountName) != VT_EMPTY) { daAccount.SetSamAccountName(_bstr_t(vntSamAccountName)); } // user account control attribute _variant_t vntUserAccountControl = doObject.GetAttributeValue(ATTRIBUTE_USER_ACCOUNT_CONTROL); if (V_VT(&vntUserAccountControl) != VT_EMPTY) { daAccount.SetUserAccountControl(vntUserAccountControl); } rAccounts.insert(daAccount); } else { _Module.Log(ErrW, IDS_E_ACCOUNT_EXCLUDED, itResolved->c_str()); } } else { _Module.Log(ErrW, IDS_E_CANT_DO_BUILTIN, itResolved->c_str()); } } else { _Module.Log(ErrW, IDS_E_OBJECT_NOT_OF_CLASS, itResolved->c_str()); } } catch (_com_error& ce) { ATLTRACE(_T("'%s' : %s : 0x%08lX\n"), itResolved->c_str(), ce.ErrorMessage(), ce.Error()); } catch (...) { ATLTRACE(_T("'%s' : %s : 0x%08lX\n"), itResolved->c_str(), _com_error(E_FAIL).ErrorMessage(), E_FAIL); } } } // QueryUsers4 Method void CDomain::QueryUsers4(StringSet& setExcludeNames, CDomainAccounts& rUsers) { CCompareStrings aExclude(setExcludeNames); DWORD dwIndex = 0; NET_API_STATUS status; CDomainAccount aUser; do { DWORD dwCount = 0; PNET_DISPLAY_USER pdu = NULL; status = NetQueryDisplayInformation(m_strDcName, 1, dwIndex, 1000, 32768, &dwCount, (PVOID*)&pdu); if ((status == ERROR_SUCCESS) || (status == ERROR_MORE_DATA)) { for (PNET_DISPLAY_USER p = pdu; dwCount > 0; dwCount--, p++) { if (p->usri1_user_id >= MIN_NON_RESERVED_RID) { _bstr_t strName(p->usri1_name); if (aExclude.IsMatch(strName) == false) { aUser.SetADsPath(GetWinNTPath(strName)); aUser.SetName(strName); rUsers.insert(aUser); } } dwIndex = p->usri1_next_index; } } if (pdu) { NetApiBufferFree(pdu); } } while (status == ERROR_MORE_DATA); } // QueryUsers4 Method void CDomain::QueryUsers4(StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rUsers) { CCompareStrings aExclude(setExcludeNames); CDomainAccount aUser; for (StringSet::iterator it = setIncludeNames.begin(); it != setIncludeNames.end(); it++) { _bstr_t strName = *it; if (aExclude.IsMatch(strName) == false) { _bstr_t strADsPath = GetWinNTPath(strName) + _T(",user"); IADsPtr spADs; HRESULT hr = ADsGetObject(strADsPath, IID_IADs, (VOID**)&spADs); if (SUCCEEDED(hr)) { BSTR bstr; // The WinNT: provider does not return all ADsPaths correctly escaped // (ie. it does not escape the double quote (") character) // The member method GetWinNTPath does escape all known special characters. #if 0 spADs->get_ADsPath(&bstr); aUser.SetADsPath(_bstr_t(bstr, false)); #else aUser.SetADsPath(GetWinNTPath(strName)); #endif spADs->get_Name(&bstr); aUser.SetName(_bstr_t(bstr, false)); rUsers.insert(aUser); } else { _Module.Log(ErrE, IDS_E_CANT_ADD_USER, (LPCTSTR)strADsPath, _com_error(hr).ErrorMessage()); } } } } // QueryGroups4 Method void CDomain::QueryGroups4(StringSet& setExcludeNames, CDomainAccounts& rGroups) { CCompareStrings aExclude(setExcludeNames); DWORD dwIndex = 0; NET_API_STATUS status; CDomainAccount aGroup; do { DWORD dwCount = 0; PNET_DISPLAY_GROUP pdg = NULL; status = NetQueryDisplayInformation(m_strDcName, 3, dwIndex, 1000, 32768, &dwCount, (PVOID*)&pdg); if ((status == ERROR_SUCCESS) || (status == ERROR_MORE_DATA)) { for (PNET_DISPLAY_GROUP p = pdg; dwCount > 0; dwCount--, p++) { if (p->grpi3_group_id >= MIN_NON_RESERVED_RID) { _bstr_t strName(p->grpi3_name); if (aExclude.IsMatch(strName) == false) { aGroup.SetADsPath(GetWinNTPath(strName)); aGroup.SetName(strName); rGroups.insert(aGroup); } } dwIndex = p->grpi3_next_index; } } if (pdg) { NetApiBufferFree(pdg); } } while (status == ERROR_MORE_DATA); } // QueryGroups4 Method void CDomain::QueryGroups4(StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rGroups) { CCompareStrings aExclude(setExcludeNames); CDomainAccount aGroup; for (StringSet::iterator it = setIncludeNames.begin(); it != setIncludeNames.end(); it++) { _bstr_t strName = *it; if (aExclude.IsMatch(strName) == false) { _bstr_t strADsPath = GetWinNTPath(strName) + _T(",group"); IADsPtr spADs; HRESULT hr = ADsGetObject(strADsPath, IID_IADs, (VOID**)&spADs); if (SUCCEEDED(hr)) { BSTR bstr; spADs->get_ADsPath(&bstr); aGroup.SetADsPath(_bstr_t(bstr, false)); spADs->get_Name(&bstr); aGroup.SetName(_bstr_t(bstr, false)); rGroups.insert(aGroup); } else { _Module.Log(ErrE, IDS_E_CANT_ADD_GROUP, (LPCTSTR)strADsPath, _com_error(hr).ErrorMessage()); } } } } // QueryComputers4 Method void CDomain::QueryComputers4(bool bIncludeDCs, StringSet& setExcludeNames, CDomainAccounts& rComputers) { CCompareStrings aExclude(setExcludeNames); DWORD dwIndex = 0; NET_API_STATUS status; CDomainAccount aComputer; DWORD dwflags = bIncludeDCs ? UF_WORKSTATION_TRUST_ACCOUNT|UF_SERVER_TRUST_ACCOUNT : UF_WORKSTATION_TRUST_ACCOUNT; do { DWORD dwCount = 0; PNET_DISPLAY_MACHINE pdm = NULL; status = NetQueryDisplayInformation(m_strDcName, 2, dwIndex, 1000, 32768, &dwCount, (PVOID*)&pdm); if ((status == ERROR_SUCCESS) || (status == ERROR_MORE_DATA)) { for (PNET_DISPLAY_MACHINE p = pdm; dwCount > 0; dwCount--, p++) { if ((p->usri2_user_id >= MIN_NON_RESERVED_RID) && (p->usri2_flags & dwflags)) { _bstr_t strName(p->usri2_name); if (aExclude.IsMatch(strName) == false) { aComputer.SetADsPath(GetWinNTPath(strName)); aComputer.SetName(strName); aComputer.SetSamAccountName(strName); rComputers.insert(aComputer); } } dwIndex = p->usri2_next_index; } } if (pdm) { NetApiBufferFree(pdm); } } while (status == ERROR_MORE_DATA); } // QueryComputers4 Method void CDomain::QueryComputers4(bool bIncludeDCs, StringSet& setIncludeNames, StringSet& setExcludeNames, CDomainAccounts& rComputers) { typedef std::map<_bstr_t, DWORD, IgnoreCaseStringLess> CMachineMap; PNET_DISPLAY_MACHINE pndmMachine = NULL; try { CMachineMap map; DWORD dwIndex = 0; NET_API_STATUS nasStatus; do { DWORD dwCount = 0; nasStatus = NetQueryDisplayInformation(m_strDcName, 2, dwIndex, 256, 32768, &dwCount, (PVOID*)&pndmMachine); if ((nasStatus == ERROR_SUCCESS) || (nasStatus == ERROR_MORE_DATA)) { for (PNET_DISPLAY_MACHINE p = pndmMachine; dwCount > 0; dwCount--, p++) { map.insert(CMachineMap::value_type(p->usri2_name, p->usri2_flags)); dwIndex = p->usri2_next_index; } } if (pndmMachine) { NetApiBufferFree(pndmMachine); pndmMachine = NULL; } } while (nasStatus == ERROR_MORE_DATA); if (nasStatus != ERROR_SUCCESS) { AdmtThrowError( GUID_NULL, GUID_NULL, HRESULT_FROM_WIN32(nasStatus), IDS_E_CANT_ENUMERATE_COMPUTERS, (LPCTSTR)m_strDomainNameFlat ); } CCompareStrings aExclude(setExcludeNames); for (StringSet::iterator it = setIncludeNames.begin(); it != setIncludeNames.end(); it++) { tstring str = *it; if ((str[0] == _T('\\')) || (str[0] == _T('/'))) { str = str.substr(1); } _bstr_t strName = str.c_str(); if (aExclude.IsMatch(strName) == false) { _bstr_t strPath = GetWinNTPath(strName); CMachineMap::iterator it = map.find(strName + _T("$")); if (it != map.end()) { if (bIncludeDCs || !(it->second & UF_SERVER_TRUST_ACCOUNT)) { CDomainAccount aComputer; aComputer.SetADsPath(strPath); aComputer.SetName(strName); aComputer.SetSamAccountName(strName + _T("$")); rComputers.insert(aComputer); } else { _Module.Log(ErrW, IDS_E_CANT_MIGRATE_DOMAIN_CONTROLLERS, (LPCTSTR)strPath); } } else { _Module.Log(ErrW, IDS_E_CANT_FIND_COMPUTER, (LPCTSTR)strPath); } } } } catch (...) { if (pndmMachine) { NetApiBufferFree(pndmMachine); } throw; } } //--------------------------------------------------------------------------- // Container Class //--------------------------------------------------------------------------- // Constructors and Destructor ---------------------------------------------- CContainer::CContainer() { } CContainer::CContainer(IDispatchPtr sp) : m_sp(sp) { } CContainer::CContainer(_bstr_t strPath) { HRESULT hr = ADsGetObject(strPath, __uuidof(IDispatch), (void**)&m_sp); if (FAILED(hr)) { ReportADsError(hr); _com_issue_error(hr); } } CContainer::CContainer(const CContainer& r) : m_sp(r.m_sp) { } CContainer::~CContainer() { if (m_sp) { m_sp.Release(); } } // Implementation ----------------------------------------------------------- // operator = CContainer& CContainer::operator =(_bstr_t strPath) { HRESULT hr = ADsGetObject(strPath, __uuidof(IDispatch), (void**)&m_sp); if (FAILED(hr)) { ReportADsError(hr); _com_issue_error(hr); } return *this; } // operator = CContainer& CContainer::operator =(const CContainer& r) { m_sp = r.m_sp; return *this; } // GetPath Method _bstr_t CContainer::GetPath() { IDirectoryObjectPtr spObject(m_sp); PADS_OBJECT_INFO poi; CheckError(spObject->GetObjectInformation(&poi)); // the ADS_OBJECT_INFO member pszObjectDN actually // specifies the ADsPath not the distinguished name _bstr_t strPath = poi->pszObjectDN; FreeADsMem(poi); return strPath; } // GetDomain Method _bstr_t CContainer::GetDomain() { CADsPathName aPathName(GetPath()); return aPathName.Retrieve(ADS_FORMAT_SERVER); } // GetName Method _bstr_t CContainer::GetName() { CDirectoryObject aObject(m_sp); aObject.AddAttribute(ATTRIBUTE_NAME); aObject.GetAttributes(); return aObject.GetAttributeValue(ATTRIBUTE_NAME); } // GetRDN Method _bstr_t CContainer::GetRDN() { IDirectoryObjectPtr spObject(m_sp); PADS_OBJECT_INFO poi; CheckError(spObject->GetObjectInformation(&poi)); _bstr_t strRDN = poi->pszRDN; FreeADsMem(poi); return strRDN; } // CreateContainerHierarchy Method void CContainer::CreateContainerHierarchy(CContainer& rSource) { ContainerVector cvContainers; rSource.QueryContainers(cvContainers); for (ContainerVector::iterator it = cvContainers.begin(); it != cvContainers.end(); it++) { CContainer aTarget = CreateContainer(_T("OU=") + it->GetName()); aTarget.CreateContainerHierarchy(*it); } } // GetContainer Method CContainer CContainer::GetContainer(_bstr_t strName) { IDispatchPtr spDispatch; CADsPathName aPathName(GetPath()); // try organizational unit first aPathName.AddLeafElement(_T("OU=") + strName); HRESULT hr = ADsGetObject(aPathName.Retrieve(ADS_FORMAT_X500), __uuidof(IDispatch), (void**)&spDispatch); if (FAILED(hr)) { // if (hr == ?) // { // then try container aPathName.RemoveLeafElement(); aPathName.AddLeafElement(_T("CN=") + strName); CheckError(ADsGetObject(aPathName.Retrieve(ADS_FORMAT_X500), __uuidof(IDispatch), (void**)&spDispatch)); // } // else // { // _com_issue_error(hr); // } } return CContainer(spDispatch); } // CreateContainer Method CContainer CContainer::CreateContainer(_bstr_t strRDN) { IDispatchPtr spDispatch; CADsPathName aPathName(GetPath()); aPathName.AddLeafElement(strRDN); _bstr_t strPath = aPathName.Retrieve(ADS_FORMAT_X500); HRESULT hr = ADsGetObject(strPath, __uuidof(IDispatch), (void**)&spDispatch); if (FAILED(hr)) { ADSVALUE valueClass; valueClass.dwType = ADSTYPE_CASE_IGNORE_STRING; valueClass.CaseIgnoreString = L"organizationalUnit"; ADS_ATTR_INFO aiAttrs[] = { { L"objectClass", ADS_ATTR_UPDATE, ADSTYPE_CASE_IGNORE_STRING, &valueClass, 1 }, }; DWORD dwAttrCount = sizeof(aiAttrs) / sizeof(aiAttrs[0]); IDirectoryObjectPtr spObject(m_sp); HRESULT hr = spObject->CreateDSObject(strRDN, aiAttrs, dwAttrCount, &spDispatch); if (FAILED(hr)) { ReportADsError(hr, IID_IDirectoryObject); _com_issue_error(hr); } } return CContainer(spDispatch); } // QueryContainers Method void CContainer::QueryContainers(ContainerVector& rContainers) { CDirectorySearch aSearch(m_sp); aSearch.SetFilter(_T("(|(objectCategory=OrganizationalUnit)(&(objectCategory=Container)(|(cn=Computers)(cn=Users))))")); aSearch.SetPreferences(ADS_SCOPE_ONELEVEL); aSearch.AddAttribute(ATTRIBUTE_ADS_PATH); aSearch.Search(); for (bool bGet = aSearch.GetFirstRow(); bGet; bGet = aSearch.GetNextRow()) { CContainer aContainer(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_ADS_PATH))); rContainers.push_back(aContainer); } } // QueryUsers Method void CContainer::QueryUsers(bool bRecurse, StringSet& setExcludeNames, CDomainAccounts& rUsers) { tstring strFilter = CreateFilter( _T("(objectCategory=Person)(objectClass=user)") _T("(userAccountControl:") LDAP_MATCHING_RULE_BIT_OR_W _T(":=512)"), setExcludeNames ); CDirectorySearch aSearch(m_sp); aSearch.SetFilter(strFilter.c_str()); aSearch.SetPreferences(bRecurse ? ADS_SCOPE_SUBTREE : ADS_SCOPE_ONELEVEL); aSearch.AddAttribute(ATTRIBUTE_OBJECT_SID); aSearch.AddAttribute(ATTRIBUTE_ADS_PATH); aSearch.AddAttribute(ATTRIBUTE_NAME); aSearch.AddAttribute(ATTRIBUTE_USER_PRINCIPAL_NAME); aSearch.Search(); CDomainAccount aUser; for (bool bGet = aSearch.GetFirstRow(); bGet; bGet = aSearch.GetNextRow()) { // if not a built-in or well known account if (IsUserRid(aSearch.GetAttributeValue(ATTRIBUTE_OBJECT_SID))) { // add user aUser.SetADsPath(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_ADS_PATH))); aUser.SetName(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_NAME))); _variant_t vntUserPrincipalName = aSearch.GetAttributeValue(ATTRIBUTE_USER_PRINCIPAL_NAME); if (V_VT(&vntUserPrincipalName) != VT_EMPTY) { aUser.SetUserPrincipalName(_bstr_t(vntUserPrincipalName)); } rUsers.insert(aUser); } } } // QueryGroups Method void CContainer::QueryGroups(bool bRecurse, StringSet& setExcludeNames, CDomainAccounts& rGroups) { tstring strFilter = CreateFilter(_T("(objectCategory=Group)"), setExcludeNames); CDirectorySearch aSearch(m_sp); aSearch.SetFilter(strFilter.c_str()); aSearch.SetPreferences(bRecurse ? ADS_SCOPE_SUBTREE : ADS_SCOPE_ONELEVEL); aSearch.AddAttribute(ATTRIBUTE_OBJECT_SID); aSearch.AddAttribute(ATTRIBUTE_ADS_PATH); aSearch.AddAttribute(ATTRIBUTE_NAME); aSearch.Search(); CDomainAccount aGroup; for (bool bGet = aSearch.GetFirstRow(); bGet; bGet = aSearch.GetNextRow()) { // if not a built-in or well known account if (IsUserRid(aSearch.GetAttributeValue(ATTRIBUTE_OBJECT_SID))) { // add group aGroup.SetADsPath(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_ADS_PATH))); aGroup.SetName(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_NAME))); rGroups.insert(aGroup); } } } // QueryComputers Method void CContainer::QueryComputers(bool bIncludeDCs, bool bRecurse, StringSet& setExcludeNames, CDomainAccounts& rComputers) { tstring strFilter; // ADS_UF_WORKSTATION_TRUST_ACCOUNT = 0x1000 // ADS_UF_SERVER_TRUST_ACCOUNT = 0x2000 if (bIncludeDCs) { strFilter = CreateFilter( _T("(objectCategory=Computer)") _T("(userAccountControl:") LDAP_MATCHING_RULE_BIT_OR_W _T(":=4096)"), setExcludeNames ); } else { strFilter = CreateFilter( _T("(objectCategory=Computer)") _T("(|(userAccountControl:") LDAP_MATCHING_RULE_BIT_OR_W _T(":=4096)") _T("(userAccountControl:") LDAP_MATCHING_RULE_BIT_OR_W _T(":=8192))"), setExcludeNames ); } CDirectorySearch aSearch(m_sp); aSearch.SetFilter(strFilter.c_str()); aSearch.SetPreferences(bRecurse ? ADS_SCOPE_SUBTREE : ADS_SCOPE_ONELEVEL); aSearch.AddAttribute(ATTRIBUTE_OBJECT_SID); aSearch.AddAttribute(ATTRIBUTE_ADS_PATH); aSearch.AddAttribute(ATTRIBUTE_NAME); aSearch.AddAttribute(ATTRIBUTE_SAM_ACCOUNT_NAME); aSearch.Search(); CDomainAccount aComputer; for (bool bGet = aSearch.GetFirstRow(); bGet; bGet = aSearch.GetNextRow()) { // if not a built-in or well known account if (IsUserRid(aSearch.GetAttributeValue(ATTRIBUTE_OBJECT_SID))) { // add computer aComputer.SetADsPath(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_ADS_PATH))); aComputer.SetName(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_NAME))); aComputer.SetSamAccountName(_bstr_t(aSearch.GetAttributeValue(ATTRIBUTE_SAM_ACCOUNT_NAME))); rComputers.insert(aComputer); } } } //--------------------------------------------------------------------------- namespace _DomainContainer { // CreateFilter Method tstring __stdcall CreateFilter(LPCTSTR pszFilter, const StringSet& setExcludeNames) { tstring strFilter; strFilter += _T("(&"); strFilter += pszFilter; if (!setExcludeNames.empty()) { strFilter += _T("(!(|"); for (StringSet::const_iterator it = setExcludeNames.begin(); it != setExcludeNames.end(); it++) { strFilter += _T("(name="); strFilter += *it; strFilter += _T(")"); } strFilter += _T("))"); } strFilter += _T(")"); return strFilter; } // IsClass bool __stdcall IsClass(LPCTSTR pszClass, const _variant_t& vntClass) { bool bIs = false; if (pszClass) { if (V_VT(&vntClass) == VT_BSTR) { if (V_BSTR(&vntClass)) { if (_tcsicmp(pszClass, V_BSTR(&vntClass)) == 0) { bIs = true; } } } else { if (V_VT(&vntClass) == (VT_ARRAY|VT_BSTR)) { SAFEARRAY* psa = V_ARRAY(&vntClass); if (psa->cDims == 1) { BSTR* pbstr = reinterpret_cast(psa->pvData); DWORD cbstr = psa->rgsabound[0].cElements; if (pbstr) { BSTR bstrClass = pbstr[cbstr - 1]; if (bstrClass) { if (_tcsicmp(pszClass, bstrClass) == 0) { bIs = true; } } } } /* typedef std::vector<_bstr_t> ClassVector; ClassVector vec = T_SafeVector2 >(const_cast<_variant_t&>(vntClass)); if (vec.size() > 0) { _bstr_t strClass = vec[vec.size() - 1]; if (strClass.length() > 0) { if (_tcsicmp(strClass, pszClass) == 0) { bIs = true; } } } */ } } } return bIs; } // IsUserRid bool __stdcall IsUserRid(const _variant_t& vntSid) { bool bUser = false; if (V_VT(&vntSid) == (VT_ARRAY|VT_UI1)) { PSID pSid = (PSID)vntSid.parray->pvData; if (IsValidSid(pSid)) { PUCHAR puch = GetSidSubAuthorityCount(pSid); DWORD dwCount = static_cast(*puch); DWORD dwIndex = dwCount - 1; PDWORD pdw = GetSidSubAuthority(pSid, dwIndex); DWORD dwRid = *pdw; if (dwRid >= MIN_NON_RESERVED_RID) { bUser = true; } } } return bUser; } // GetADsObject IDispatchPtr GetADsObject(_bstr_t strPath) { IDispatch* pdisp; HRESULT hr = ADsGetObject(strPath, __uuidof(IDispatch), (void**)&pdisp); if (FAILED(hr)) { ReportADsError(hr); _com_issue_error(hr); } return IDispatchPtr(pdisp, false); } // ReportADsError void ReportADsError(HRESULT hr, const IID& iid) { DWORD dwError; WCHAR szName[256]; WCHAR szError[256]; ADsGetLastError(&dwError, szError, sizeof(szError) / sizeof(szError[0]), szName, sizeof(szName) / sizeof(szName[0])); AtlReportError(GUID_NULL, szError, iid, hr); } }