/*--------------------------------------------------------------------------- File: RegTranslator.cpp Comments: Routines for translating security on the registry keys and files that form a user profile. (c) Copyright 1999, Mission Critical Software, Inc., All Rights Reserved Proprietary and confidential to Mission Critical Software, Inc. REVISION LOG ENTRY Revision By: Christy Boles Revised on 05/12/99 11:11:46 --------------------------------------------------------------------------- */ #include "stdafx.h" #include "stargs.hpp" #include "sd.hpp" #include "SecObj.hpp" #include "sidcache.hpp" #include "sdstat.hpp" #include "Common.hpp" #include "UString.hpp" #include "ErrDct.hpp" #include "TReg.hpp" #include "TxtSid.h" #include "RegTrans.h" #include //#import "\bin\McsDctWorkerObjects.tlb" #import "WorkObj.tlb" #include "CommaLog.hpp" #ifdef _DEBUG #define new DEBUG_NEW #undef THIS_FILE static char THIS_FILE[] = __FILE__; #endif extern TErrorDct err; #define LEN_SID 200 #define REGKEY_ADD_LIMIT 15 DWORD TranslateRegHive( HKEY hKeyRoot, // in - root of registry hive to translate const LPWSTR keyName, // in - name of registry key SecurityTranslatorArgs * stArgs, // in - translation settings TSDRidCache * cache, // in - translation table TSDResolveStats * stat, // in - stats on items modified BOOL bWin2K // in - flag, whether the machine is Win2K ) { DWORD rc = 0; // Translate the permissions on the root key TRegSD sd(keyName,hKeyRoot); if ( sd.HasDacl() ) { TSD * pSD = sd.GetSecurity(); // if there are more than 15 aces in a registry entry, and we are re-ACLing in Add Mode, // skip the entry. There seems to be a problem in Windows 2000 RC2 where if there are more than // 30 or so ACEs, some of them never get resolved. If this happens to the Administrator account, // (This may only happen if there are 30 or so ACEs alphabetically ahead of the Administrator account) // The Administrator account never gets resolved, and the machine is effectively trashed. if ( bWin2K && ( stArgs->TranslationMode() == ADD_SECURITY ) && (pSD->GetNumDaclAces() >= REGKEY_ADD_LIMIT) ) { err.MsgWrite(0,DCT_MSG_SKIPPING_REGKEY_TRANSLATION_SDD,keyName,pSD->GetNumDaclAces(),REGKEY_ADD_LIMIT); } else { sd.ResolveSD(stArgs,stat,regkey ,NULL); } } // Recursively process any subkeys int n = 0; FILETIME writeTime; WCHAR name[MAX_PATH]; DWORD lenName = DIM(name); WCHAR fullName[2000]; HKEY hKey; do { lenName = DIM(name); rc = RegEnumKeyEx(hKeyRoot,n,name,&lenName,NULL,NULL,NULL,&writeTime); if ( rc && rc != ERROR_MORE_DATA ) break; swprintf(fullName,L"%s\\%s",keyName,name); // Open the subkey rc = RegCreateKeyEx(hKeyRoot,name,0,L"",REG_OPTION_BACKUP_RESTORE,KEY_ALL_ACCESS | READ_CONTROL | ACCESS_SYSTEM_SECURITY,NULL,&hKey,NULL); if (! rc ) { // Process the subkey TranslateRegHive(hKey,fullName,stArgs,cache,stat,bWin2K); RegCloseKey(hKey); } else { if ( (rc != ERROR_FILE_NOT_FOUND) && (rc != ERROR_INVALID_HANDLE) ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_REG_KEY_OPEN_FAILED_SD,fullName,rc); } } n++; } while ( rc == ERROR_SUCCESS || rc == ERROR_MORE_DATA); if ( rc != ERROR_NO_MORE_ITEMS && rc != ERROR_FILE_NOT_FOUND && rc != ERROR_INVALID_HANDLE ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_REGKEYENUM_FAILED_D,rc); } return rc; } DWORD TranslateRegistry( WCHAR const * computer, // in - computername to translate, or NULL SecurityTranslatorArgs * stArgs, // in - translation settings TSDRidCache * cache, // in - translation account mapping TSDResolveStats * stat // in - stats for items examined and modified ) { DWORD rc = 0; WCHAR comp[LEN_Computer]; if ( ! computer ) { comp[0] = 0; } else { safecopy(comp,computer); } MCSDCTWORKEROBJECTSLib::IAccessCheckerPtr pAccess(__uuidof(MCSDCTWORKEROBJECTSLib::AccessChecker)); TRegKey hKey; DWORD verMaj,verMin,verSP; BOOL bWin2K = TRUE; // assume win2k unless we're sure it's not // get the OS version - we need to know the OS version because Win2K can fail when registry keys // have many entries HRESULT hr = pAccess->raw_GetOsVersion(SysAllocString(comp),&verMaj,&verMin,&verSP); if ( SUCCEEDED(hr) ) { if ( verMaj < 5 ) bWin2K = FALSE; } err.MsgWrite(0,DCT_MSG_TRANSLATING_REGISTRY); rc = hKey.Connect(HKEY_CLASSES_ROOT,computer); if ( ! rc ) { rc = TranslateRegHive(hKey.KeyGet(),L"HKEY_CLASSES_ROOT",stArgs,cache,stat,bWin2K); hKey.Close(); } rc = hKey.Connect(HKEY_LOCAL_MACHINE,computer); if ( ! rc ) { rc = TranslateRegHive(hKey.KeyGet(),L"HKEY_LOCAL_MACHINE",stArgs,cache,stat,bWin2K); hKey.Close(); } rc = hKey.Connect(HKEY_USERS,computer); if (! rc ) { rc = TranslateRegHive(hKey.KeyGet(),L"HKEY_USERS",stArgs,cache,stat,bWin2K); hKey.Close(); } rc = hKey.Connect(HKEY_PERFORMANCE_DATA,computer); if ( ! rc ) { rc = TranslateRegHive(hKey.KeyGet(),L"HKEY_PERFORMANCE_DATA",stArgs,cache,stat,bWin2K); hKey.Close(); } rc = hKey.Connect(HKEY_CURRENT_CONFIG,computer); if ( ! rc ) { rc = TranslateRegHive(hKey.KeyGet(),L"HKEY_CURRENT_CONFIG",stArgs,cache,stat,bWin2K); hKey.Close(); } rc = hKey.Connect(HKEY_DYN_DATA,computer); if ( ! rc ) { rc = TranslateRegHive(hKey.KeyGet(),L"HKEY_DYN_DATA",stArgs,cache,stat,bWin2K); hKey.Close(); } return rc; } DWORD TranslateUserProfile( WCHAR const * profileName, // in - name of file containing user profile SecurityTranslatorArgs * stArgs, // in - translation settings TSDRidCache * cache, // in - translation table TSDResolveStats * stat, // in - stats on items modified WCHAR * sSourceName, // in - Source account name WCHAR * sSourceDomainName // in - Source domain name ) { DWORD rc = 0; WCHAR oldName[MAX_PATH]; WCHAR newName[MAX_PATH]; WCHAR otherName[MAX_PATH]; HKEY hKey; HRESULT hr = S_OK; BOOL bWin2K = TRUE; MCSDCTWORKEROBJECTSLib::IAccessCheckerPtr pAccess(__uuidof(MCSDCTWORKEROBJECTSLib::AccessChecker)); safecopy(oldName,profileName); safecopy(newName,profileName); UStrCpy(newName+UStrLen(newName),".temp"); safecopy(otherName,profileName); UStrCpy(otherName + UStrLen(otherName),".premigration"); // check the OS version of the computer // if UNC name is specified, get the computer name if ( profileName[0] == L'\\' && profileName[1] == L'\\' ) { bWin2K = TRUE; // if the profile is specified in UNC format (roaming profile) it can be used // from multiple machines. There is no guarantee that the profile will not be loaded on a win2000 machine } else { DWORD verMaj; DWORD verMin; DWORD verSP; HRESULT hr = pAccess->raw_GetOsVersion(SysAllocString(L""),&verMaj,&verMin,&verSP); if ( SUCCEEDED(hr) ) { if ( verMaj < 5 ) { bWin2K = FALSE; } } } // Load the registry hive into the registry rc = RegLoadKey(HKEY_USERS,L"OnePointTranslation",profileName); if ( ! rc ) { // Open the key rc = RegOpenKeyEx(HKEY_USERS,L"OnePointTranslation",0,KEY_ALL_ACCESS | READ_CONTROL | ACCESS_SYSTEM_SECURITY,&hKey); if ( ! rc ) { // Process the registry hive rc = TranslateRegHive(hKey,L"",stArgs,cache,stat,bWin2K); // Unload the registry hive if ( ! stArgs->NoChange() ) { DeleteFile(newName); hr = UpdateMappedDrives(sSourceName, sSourceDomainName, L"OnePointTranslation"); rc = RegSaveKey(hKey,newName,NULL); } else { rc = 0; } if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_SAVE_HIVE_FAILED_SD,newName,rc); } RegCloseKey(hKey); } rc = RegUnLoadKey(HKEY_USERS,L"OnePointTranslation"); if ( rc ) { err.SysMsgWrite(ErrE,rc,DCT_MSG_KEY_UNLOADKEY_FAILED_SD,profileName,rc); } } else { err.SysMsgWrite(ErrS,rc,DCT_MSG_PROFILE_LOAD_FAILED_SD,profileName,rc); } if ( ! rc ) { if (! stArgs->NoChange() ) { // Switch out the filenames if ( MoveFileEx(oldName,otherName,MOVEFILE_REPLACE_EXISTING) ) { if ( ! MoveFileEx(newName,oldName,0) ) { rc = GetLastError(); err.SysMsgWrite(ErrS,rc,DCT_MSG_RENAME_DIR_FAILED_SSD,newName,oldName,rc); } } else { rc = GetLastError(); if ( rc == ERROR_ACCESS_DENIED ) { // we do not have access to the directory // temporarily grant ourselves access // Set NTFS permissions for the results directory WCHAR dirName[LEN_Path]; safecopy(dirName,oldName); WCHAR * slash = wcsrchr(dirName,L'\\'); if ( slash ) { (*slash) = 0; } TFileSD fsdDirBefore(dirName); TFileSD fsdDirTemp(dirName); TFileSD fsdDatBefore(oldName); TFileSD fsdDatTemp(oldName); TFileSD fsdNewBefore(newName); TFileSD fsdNewTemp(newName); BOOL dirChanged = FALSE; BOOL datChanged = FALSE; BOOL newChanged = FALSE; // Temporarily reset the permissions on the directory and the appropriate files if ( fsdDirTemp.GetSecurity() != NULL ) { TACE ace(ACCESS_ALLOWED_ACE_TYPE,0,DACL_FULLCONTROL_MASK, GetWellKnownSid(stArgs->IsLocalSystem() ? 7/*SYSTEM*/ : 1/*ADMINISTRATORS*/)); PACL acl = NULL; fsdDirTemp.GetSecurity()->ACLAddAce(&acl,&ace,0); if (acl) { fsdDirTemp.GetSecurity()->SetDacl(acl,TRUE); fsdDirTemp.WriteSD(); dirChanged = TRUE; } } if ( fsdDatTemp.GetSecurity() != NULL ) { TACE ace(ACCESS_ALLOWED_ACE_TYPE,0,DACL_FULLCONTROL_MASK, GetWellKnownSid(stArgs->IsLocalSystem() ? 7/*SYSTEM*/ : 1/*ADMINISTRATORS*/)); PACL acl = NULL; fsdDatTemp.GetSecurity()->ACLAddAce(&acl,&ace,0); if (acl) { fsdDatTemp.GetSecurity()->SetDacl(acl,TRUE); fsdDatTemp.WriteSD(); datChanged = TRUE; } } if ( fsdNewTemp.GetSecurity() != NULL ) { TACE ace(ACCESS_ALLOWED_ACE_TYPE,0,DACL_FULLCONTROL_MASK, GetWellKnownSid(stArgs->IsLocalSystem() ? 7/*SYSTEM*/ : 1/*ADMINISTRATORS*/)); PACL acl = NULL; fsdNewTemp.GetSecurity()->ACLAddAce(&acl,&ace,0); if (acl) { fsdNewTemp.GetSecurity()->SetDacl(acl,TRUE); fsdNewTemp.WriteSD(); newChanged = TRUE; } } rc = 0; // Now retry the operations if ( MoveFileEx(oldName,otherName,MOVEFILE_REPLACE_EXISTING) ) { if ( ! MoveFileEx(newName,oldName,0) ) { rc = GetLastError(); err.SysMsgWrite(ErrS,rc,DCT_MSG_RENAME_DIR_FAILED_SSD,newName,oldName,rc); } } else { rc = GetLastError(); err.SysMsgWrite(ErrS,rc,DCT_MSG_RENAME_DIR_FAILED_SSD,oldName,otherName,rc); } // now that we're done, set the permissions back to what they were if ( dirChanged ) { fsdDirBefore.Changed(TRUE); fsdDirBefore.WriteSD(); } if ( datChanged ) { fsdDatBefore.Changed(TRUE); fsdDatBefore.WriteSD(); } if ( newChanged ) { fsdNewBefore.Changed(TRUE); fsdNewBefore.WriteSD(); } } else { err.SysMsgWrite(ErrS,rc,DCT_MSG_RENAME_DIR_FAILED_SSD,oldName,otherName,rc); } } } } return rc; } DWORD CopyDirectoryTree( WCHAR const * targetDirectory, // in - target to copy files/dirs to WCHAR const * sourceDirectory // in - source directory to copy files/dirs from ) { DWORD rc = 0; HANDLE hFind; WIN32_FIND_DATA fDat; WCHAR sourceWC[MAX_PATH]; WCHAR sourceFile[MAX_PATH]; WCHAR targetFile[MAX_PATH]; safecopy(sourceWC,sourceDirectory); UStrCpy(sourceWC + UStrLen(sourceWC),L"\\*.*"); // Loop through the items in the source directory hFind = FindFirstFile(sourceWC,&fDat); if ( hFind != INVALID_HANDLE_VALUE ) { do { if ( UStrICmp(fDat.cFileName,L".") && UStrICmp(fDat.cFileName,L"..") ) { //build the source and target filenames swprintf(sourceFile,L"%s\\%s",sourceDirectory,fDat.cFileName); swprintf(targetFile,L"%s\\%s",targetDirectory,fDat.cFileName); TFileSD fileSD(sourceFile); if ( fDat.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY ) { // copy the directory, update its SD SECURITY_ATTRIBUTES sAttr; sAttr.nLength = (sizeof sAttr); sAttr.bInheritHandle = FALSE; sAttr.lpSecurityDescriptor = NULL; if ( fileSD.GetSecurity() ) { sAttr.lpSecurityDescriptor = fileSD.GetSecurity()->MakeRelSD(); } if (! CreateDirectoryEx(sourceFile,targetFile,&sAttr) ) { err.SysMsgWrite(ErrE,rc,DCT_MSG_COPY_DIR_FAILED_SSD,sourceFile,targetFile,rc); } else { // Recursively process the contents of the directory CopyDirectoryTree(targetFile,sourceFile); } } else { // Copy the file if (! CopyFile(sourceFile,targetFile,TRUE) ) { rc = GetLastError(); err.SysMsgWrite(ErrW,rc,DCT_MSG_COPY_FILE_FAILED_SSD,sourceFile,targetFile,rc); } else { // copy the security descriptor for the file TFileSD targetSD(targetFile); targetSD.CopyAccessData(&fileSD); targetSD.WriteSD(); } } } if (! FindNextFile(hFind,&fDat) ) { rc = GetLastError(); } } while ( ! rc ); if ( rc != ERROR_NO_MORE_FILES ) { err.SysMsgWrite(ErrE,rc,DCT_MSG_FILE_ENUM_FAILED_SD,sourceDirectory,rc); } FindClose(hFind); } return rc; } DWORD CreateNewProfileDirectory( WCHAR const * oldDirectoryName, // in - directory name for old profile path WCHAR const * newAccountName, // in - target account name for new profile directory WCHAR * profileDirectory // out- directory name created for new profile directory ) { DWORD rc = 0; WCHAR targetDir[MAX_PATH]; WCHAR targetDirWithSuffix[MAX_PATH]; WCHAR * slashNdx; TFileSD fileSD(const_cast(oldDirectoryName)); SECURITY_ATTRIBUTES sAttr; sAttr.nLength = (sizeof sAttr); sAttr.bInheritHandle = FALSE; sAttr.lpSecurityDescriptor = NULL; if ( fileSD.GetSecurity() ) { sAttr.lpSecurityDescriptor = fileSD.GetSecurity()->MakeRelSD(); } safecopy(targetDir,oldDirectoryName); if ( targetDir[UStrLen(targetDir)-1] == L'\\' ) targetDir[UStrLen(targetDir)-1] = 0; slashNdx = wcsrchr(targetDir,L'\\'); if ( slashNdx ) { UStrCpy(slashNdx+1,newAccountName); // try to create the directory if ( ! CreateDirectory(targetDir,NULL) ) { rc = GetLastError(); int ndx = 0; do { if ( ndx >= 1000 ) // abort { rc = ERROR_ALREADY_EXISTS; break; } if ( rc != ERROR_ALREADY_EXISTS ) break; swprintf(targetDirWithSuffix,L"%s[%03d]",targetDir,ndx); if ( ! CreateDirectoryEx(oldDirectoryName,targetDirWithSuffix,&sAttr) ) { rc = GetLastError(); } else { rc = 0; } ndx++; } while ( rc == ERROR_ALREADY_EXISTS ); if (! rc ) UStrCpy(profileDirectory,targetDirWithSuffix); } else { UStrCpy(profileDirectory,targetDir); } } else { rc = ERROR_INVALID_NAME; } return rc; } DWORD UpdateProfilePermissions( WCHAR const * path, // in - path for directory to update SecurityTranslatorArgs * globalArgs, // in - path for overall job TRidNode * pNode // in - account to translate ) { DWORD rc = 0; SecurityTranslatorArgs localArgs; TSDResolveStats stat(localArgs.Cache()); BOOL bUseMapFile = globalArgs->UsingMapFile(); // set-up the parameters for the translation localArgs.Cache()->CopyDomainInfo(globalArgs->Cache()); localArgs.Cache()->ToSorted(); if (!bUseMapFile) { localArgs.SetUsingMapFile(FALSE); localArgs.Cache()->InsertLast(pNode->GetAcctName(),pNode->SrcRid(),pNode->GetTargetAcctName(),pNode->TgtRid(),pNode->Type()); } else { localArgs.SetUsingMapFile(TRUE); localArgs.Cache()->InsertLastWithSid(pNode->GetAcctName(),pNode->GetSrcDomSid(),pNode->GetSrcDomName(),pNode->SrcRid(), pNode->GetTargetAcctName(),pNode->GetTgtDomSid(),pNode->GetTgtDomName(),pNode->TgtRid(),pNode->Type()); } localArgs.TranslateFiles(TRUE); localArgs.SetTranslationMode(globalArgs->TranslationMode()); localArgs.SetWriteChanges(!globalArgs->NoChange()); localArgs.PathList()->AddPath(const_cast(path),0); rc = ResolveAll(&localArgs,&stat); return rc; } // if the specified node is a normal share, this attempts to convert it to a path // using the administrative shares void BuildAdminPathForShare( WCHAR const * sharePath, // in - WCHAR * adminShare ) { // if all else fails, return the same name as specified in the node UStrCpy(adminShare,sharePath); SHARE_INFO_502 * shInfo = NULL; DWORD rc = 0; WCHAR shareName[LEN_Path]; WCHAR * slash = NULL; WCHAR server[LEN_Path]; safecopy(server,sharePath); // split out just the server name slash = wcschr(server+3,L'\\'); if ( slash ) { (*slash) = 0; } // now get just the share name UStrCpy(shareName,sharePath + UStrLen(server) +1); slash = wcschr(shareName,L'\\'); if ( slash ) *slash = 0; rc = NetShareGetInfo(server,shareName,502,(LPBYTE*)&shInfo); if ( ! rc ) { if ( *shInfo->shi502_path ) { // build the administrative path name for the share UStrCpy(adminShare,server); UStrCpy(adminShare + UStrLen(adminShare),L"\\"); UStrCpy(adminShare + UStrLen(adminShare),shInfo->shi502_path); WCHAR * colon = wcschr(adminShare,L':'); if ( colon ) { *colon = L'$'; UStrCpy(adminShare + UStrLen(adminShare),L"\\"); UStrCpy(adminShare + UStrLen(adminShare),slash+1); } else { // something went wrong -- revert to the given path UStrCpy(adminShare,sharePath); } } NetApiBufferFree(shInfo); } } DWORD CopyProfileDirectoryAndTranslate( WCHAR const * directory, // in - directory path for profile WCHAR * directoryOut, // out- new Profile Path (including environment variables) TRidNode * pNode, // in - node for account being translated SecurityTranslatorArgs * stArgs, // in - translation settings TSDResolveStats * stat // in - stats on items modified ) { DWORD rc = 0; WCHAR fullPath[MAX_PATH]; WCHAR targetPath[MAX_PATH]; WCHAR profileName[MAX_PATH]; WCHAR targetAcctName[MAX_PATH]; WCHAR sourceDomName[MAX_PATH]; HANDLE hFind; WIN32_FIND_DATA fDat; BOOL bTranslateDirOnly = FALSE; rc = ExpandEnvironmentStrings(directory,fullPath,DIM(fullPath)); if ( !rc ) { rc = GetLastError(); err.SysMsgWrite(ErrE,rc,DCT_MSG_EXPAND_STRINGS_FAILED_SD,directory,rc); } else { // Create a new directory for the target profile // Get the account name for target user wcscpy(targetAcctName, pNode->GetTargetAcctName()); if ( wcslen(targetAcctName) == 0 ) { // if target user name not specified then use the source name. wcscpy(targetAcctName, pNode->GetAcctName()); } //stArgs->SetTranslationMode(ADD_SECURITY); // We are changing our stratergy. We are not going to copy the profile directories anymore. // we will be reACLing the directories and the Registry instead. /* rc = CreateNewProfileDirectory(fullPath, targetAcctName,targetPath); if ( ! rc ) { rc = CopyDirectoryTree(targetPath,fullPath); } */ BuildAdminPathForShare(fullPath,targetPath); wcscpy(sourceDomName, const_cast(stArgs->Cache()->GetSourceDomainName())); //if we are using a sID mapping file, try to get the src domain name from this node's information wcscpy(sourceDomName, pNode->GetSrcDomName()); // Look for profile files in the target directory // look for NTUser.MAN swprintf(profileName,L"%s\\NTUser.MAN",targetPath); hFind = FindFirstFile(profileName,&fDat); if ( hFind != INVALID_HANDLE_VALUE ) { err.MsgWrite(0,DCT_MSG_TRANSLATING_NTUSER_MAN_S,targetAcctName); rc = TranslateUserProfile(profileName,stArgs,stArgs->Cache(),stat, pNode->GetAcctName(), sourceDomName); FindClose(hFind); } else { // check for NTUser.DAT swprintf(profileName,L"%s\\NTUser.DAT",targetPath); hFind = FindFirstFile(profileName,&fDat); if ( hFind != INVALID_HANDLE_VALUE ) { err.MsgWrite(0,DCT_MSG_TRANSLATING_NTUSER_BAT_S,targetAcctName); rc = TranslateUserProfile(profileName,stArgs,stArgs->Cache(),stat,pNode->GetAcctName(), sourceDomName); FindClose(hFind); } else { err.MsgWrite(ErrS,DCT_MSG_PROFILE_REGHIVE_NOT_FOUND_SS,targetAcctName,targetPath); bTranslateDirOnly = TRUE; //set falg to atleast change permissins on the share dir rc = 2; // File not found } } if ((!rc) || (bTranslateDirOnly)) rc = UpdateProfilePermissions(targetPath,stArgs,pNode); wcscpy(directoryOut, fullPath); } return rc; } DWORD TranslateLocalProfiles( SecurityTranslatorArgs * stArgs, // in - translation settings TSDRidCache * cache, // in - translation table TSDResolveStats * stat // in - stats on items modified ) { DWORD rc = 0; WCHAR keyName[MAX_PATH]; DWORD lenKeyName = DIM(keyName); TRegKey keyProfiles; BOOL bUseMapFile = stArgs->UsingMapFile(); rc = keyProfiles.Open(L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\ProfileList",HKEY_LOCAL_MACHINE); if ( ! rc ) { // get the number of subkeys // enumerate the subkeys DWORD ndx; DWORD nSubKeys = 0; rc = RegQueryInfoKey(keyProfiles.KeyGet(),NULL,0,NULL,&nSubKeys,NULL,NULL,NULL,NULL,NULL,NULL,NULL); if ( ! rc ) { // construct a list containing the sub-keys PSID * pSids = new PSID[nSubKeys]; for ( ndx = nSubKeys - 1 ; (long)ndx >= 0 ; ndx-- ) { rc = keyProfiles.SubKeyEnum(ndx,keyName,lenKeyName); if ( rc ) break; pSids[ndx] = SidFromString(keyName); } if ( ! rc ) { // process each profile for ( ndx = 0 ; ndx < nSubKeys ; ndx++ ) { do // once { if ( ! pSids[ndx] ) continue; // see if this user needs to be translated TRidNode * pNode = NULL; if (!bUseMapFile) pNode = (TRidNode*)cache->Lookup(pSids[ndx]); else pNode = (TRidNode*)cache->LookupWODomain(pSids[ndx]); if ( pNode == (TRidNode *)-1 ) pNode = NULL; if ( pNode && pNode->IsValidOnTgt() ) // need to translate this one { PSID pSidTgt = NULL; WCHAR strSourceSid[200]; WCHAR strTargetSid[200]; DWORD dimSid = DIM(strSourceSid); TRegKey srcKey; TRegKey tgtKey; DWORD disposition; WCHAR keyPath[MAX_PATH]; WCHAR targetPath[MAX_PATH]; DWORD lenValue; DWORD typeValue; if (!bUseMapFile) pSidTgt = cache->GetTgtSid(pSids[ndx]); else pSidTgt = cache->GetTgtSidWODomain(pSids[ndx]); GetTextualSid(pSids[ndx],strSourceSid,&dimSid); dimSid = DIM(strTargetSid); GetTextualSid(pSidTgt,strTargetSid,&dimSid); rc = srcKey.Open(strSourceSid,&keyProfiles); if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_PROFILE_ENTRY_OPEN_FAILED_SD,pNode->GetAcctName(),rc ); break; } if ( (stArgs->TranslationMode() == ADD_SECURITY) || (stArgs->TranslationMode() == REPLACE_SECURITY) ) { // make a copy of this registry key, so the profile will refer to the new user if ( ! stArgs->NoChange() ) { rc = tgtKey.Create(strTargetSid,&keyProfiles,&disposition); } else { // We need to see if the key already exists or not and set the DISPOSITION accordingly. rc = tgtKey.OpenRead(strTargetSid, &keyProfiles); if ( rc ) { disposition = REG_CREATED_NEW_KEY; rc = 0; } tgtKey.Close(); } if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_PROFILE_CREATE_ENTRY_FAILED_SD,pNode->GetTargetAcctName(),rc); break; } if ( disposition == REG_CREATED_NEW_KEY || (stArgs->TranslationMode() == REPLACE_SECURITY)) { // copy the entries from the source key if ( ! stArgs->NoChange() ) { rc = tgtKey.HiveCopy(&srcKey); } else { rc = 0; tgtKey = srcKey; } if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_COPY_PROFILE_FAILED_SSD,pNode->GetAcctName(),pNode->GetTargetAcctName(),rc); break; } // now get the profile path ... lenValue = (sizeof keyPath); rc = tgtKey.ValueGet(L"ProfileImagePath",(void *)keyPath,&lenValue,&typeValue); if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_GET_PROFILE_PATH_FAILED_SD,pNode->GetAcctName(),rc); break; } //copy the profile directory and its contents, and translate the profile registry hive itself rc = CopyProfileDirectoryAndTranslate(keyPath,targetPath,pNode,stArgs,stat); if ( rc ) { // Since the translation failed and we created the key we should delete it. if ( disposition == REG_CREATED_NEW_KEY ) { if ( ! stArgs->NoChange() ) keyProfiles.SubKeyDel(strTargetSid); } break; } // Update the ProfileImagePath key if ( !stArgs->NoChange() ) rc = tgtKey.ValueSet(L"ProfileImagePath",(void*)targetPath,(1+UStrLen(targetPath)) * (sizeof WCHAR),typeValue); else rc = 0; if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_SET_PROFILE_PATH_FAILED_SD,pNode->GetTargetAcctName(),rc); break; } // update the SID property if ( !stArgs->NoChange() ) rc = tgtKey.ValueSet(L"Sid",(void*)pSidTgt,GetLengthSid(pSidTgt),REG_BINARY); else rc = 0; if ( rc ) { rc = GetLastError(); err.SysMsgWrite(ErrS,rc,DCT_MSG_UPDATE_PROFILE_SID_FAILED_SD,pNode->GetTargetAcctName(),rc); break; } } else { err.MsgWrite(ErrW,DCT_MSG_PROFILE_EXISTS_S,pNode->GetTargetAcctName()); break; } } if ( stArgs->TranslationMode() != ADD_SECURITY ) { // delete the old registry key if ( ! stArgs->NoChange() ) rc = keyProfiles.SubKeyDel(strSourceSid); else rc = 0; if ( rc ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_DELETE_PROFILE_FAILED_SD,pNode->GetAcctName(),rc); break; } else { err.MsgWrite(0, DCT_MSG_DELETED_PROFILE_S, pNode->GetAcctName()); } } } } while ( FALSE ); } // clean up the list for ( ndx = 0 ; ndx < nSubKeys ; ndx++ ) { if ( pSids[ndx] ) FreeSid(pSids[ndx]); pSids[ndx] = NULL; } delete [] pSids; } } if ( rc && rc != ERROR_NO_MORE_ITEMS ) { err.SysMsgWrite(ErrS,rc,DCT_MSG_ENUM_PROFILES_FAILED_D,rc); } } else { err.SysMsgWrite(ErrS,rc,DCT_MSG_OPEN_PROFILELIST_FAILED_D,rc); } return rc; } DWORD TranslateRemoteProfile( WCHAR const * sourceProfilePath, // in - source profile path WCHAR * targetProfilePath, // out- new profile path for target account WCHAR const * sourceName, // in - name of source account WCHAR const * targetName, // in - name of target account WCHAR const * srcDomain, // in - source domain WCHAR const * tgtDomain, // in - target domain IIManageDB * pDb, // in - pointer to DB object long lActionID, // in - action ID of this migration PSID sourceSid, // in - source sid from MoveObj2K BOOL bNoWriteChanges // in - No Change mode. ) { DWORD rc = 0; BYTE srcSid[LEN_SID]; PSID tgtSid[LEN_SID]; SecurityTranslatorArgs stArgs; TSDResolveStats stat(stArgs.Cache()); TRidNode * pNode = NULL; WCHAR domain[LEN_Domain]; DWORD lenDomain = DIM(domain); DWORD lenSid = DIM(srcSid); DWORD srcRid=0; DWORD tgtRid=0; SID_NAME_USE snu; IVarSetPtr pVs(__uuidof(VarSet)); IUnknown * pUnk = NULL; HRESULT hr = S_OK; WCHAR sActionInfo[MAX_PATH]; _bstr_t sSSam; long lrid; stArgs.Cache()->SetSourceAndTargetDomains(srcDomain,tgtDomain); if ( stArgs.Cache()->IsInitialized() ) { // Get the source account's rid if (! LookupAccountName(stArgs.Cache()->GetSourceDCName(),sourceName,srcSid,&lenSid,domain,&lenDomain,&snu) ) { rc = GetLastError(); } else { if ( !UStrICmp(domain,srcDomain) ) { PUCHAR pCount = GetSidSubAuthorityCount(srcSid); if ( pCount ) { DWORD nSub = (DWORD)(*pCount) - 1; DWORD * pRid = GetSidSubAuthority(srcSid,nSub); if ( pRid ) { srcRid = *pRid; } } } } //if we couldn't get the src Rid, we are likely doing an intra-forest migration. //In this case we will lookup the src Rid in the Migrated Objects table if (!srcRid) { CopySid(GetLengthSid(srcSid), srcSid , sourceSid); hr = pVs->QueryInterface(IID_IUnknown, (void**)&pUnk); if ( SUCCEEDED(hr) ) hr = pDb->raw_GetMigratedObjects(lActionID, &pUnk); if ( SUCCEEDED(hr) ) { long lCnt = pVs->get("MigratedObjects"); bool bFound = false; for ( long l = 0; (l < lCnt) && (!bFound); l++) { wsprintf(sActionInfo, L"MigratedObjects.%d.%s", l, GET_STRING(DB_SourceSamName)); sSSam = pVs->get(sActionInfo); if (_wcsicmp(sourceName, (WCHAR*)sSSam) == 0) { wsprintf(sActionInfo, L"MigratedObjects.%d.%s", l, GET_STRING(DB_SourceRid)); lrid = pVs->get(sActionInfo); srcRid = (DWORD)lrid; bFound = true; } } } } lenSid = DIM(tgtSid); lenDomain = DIM(domain); // Get the target account's rid if (! LookupAccountName(stArgs.Cache()->GetTargetDCName(),targetName,tgtSid,&lenSid,domain,&lenDomain,&snu) ) { rc = GetLastError(); } else { if ( !UStrICmp(domain,tgtDomain) ) { PUCHAR pCount = GetSidSubAuthorityCount(tgtSid); if ( pCount ) { DWORD nSub = (DWORD)(*pCount) - 1; DWORD * pRid = GetSidSubAuthority(tgtSid,nSub); if ( pRid ) { tgtRid = *pRid; } } } } } if ( ((srcRid && tgtRid) || !stArgs.NoChange()) && (!bNoWriteChanges) ) { stArgs.Cache()->InsertLast(const_cast(sourceName), srcRid, const_cast(targetName), tgtRid); pNode = (TRidNode*)stArgs.Cache()->Lookup(srcSid); if ( pNode ) { // Set up the security translation parameters stArgs.SetTranslationMode(ADD_SECURITY); stArgs.TranslateFiles(FALSE); stArgs.TranslateUserProfiles(TRUE); stArgs.SetWriteChanges(!bNoWriteChanges); //copy the profile directory and its contents, and translate the profile registry hive itself rc = CopyProfileDirectoryAndTranslate(sourceProfilePath,targetProfilePath,pNode,&stArgs,&stat); } } return rc; } HRESULT UpdateMappedDrives(WCHAR * sSourceSam, WCHAR * sSourceDomain, WCHAR * sRegistryKey) { TRegKey reg; TRegKey regDrive; DWORD rc = 0; WCHAR netKey[LEN_Path]; int len = LEN_Path; int ndx = 0; HRESULT hr = S_OK; WCHAR sValue[LEN_Path]; WCHAR sAcct[LEN_Path]; WCHAR keyname[LEN_Path]; // Build the account name string that we need to check for wsprintf(sAcct, L"%s\\%s", (WCHAR*) sSourceDomain, (WCHAR*) sSourceSam); // Get the path to the Network subkey for this users profile. wsprintf(netKey, L"%s\\%s", (WCHAR*) sRegistryKey, L"Network"); rc = reg.Open(netKey, HKEY_USERS); if ( !rc ) { while ( !reg.SubKeyEnum(ndx, keyname, len) ) { rc = regDrive.Open(keyname, reg.KeyGet()); if ( !rc ) { // Get the user name value that we need to check. rc = regDrive.ValueGetStr(L"UserName", sValue, LEN_Path); if ( !rc ) { if ( !_wcsicmp(sAcct, sValue) ) { // Found this account name in the mapped drive user name.so we will set the key to "" regDrive.ValueSetStr(L"UserName", L""); err.MsgWrite(0, DCT_MSG_RESET_MAPPED_CREDENTIAL_S, sValue); } } else hr = HRESULT_FROM_WIN32(GetLastError()); regDrive.Close(); } else hr = HRESULT_FROM_WIN32(GetLastError()); ndx++; } reg.Close(); } else hr = HRESULT_FROM_WIN32(GetLastError()); return hr; }