//+------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 2000 // // File: dsMod.cpp // // Contents: Defines the main function and parser tables for the DSMod // command line utility // // History: 06-Sep-2000 JeffJon Created // // //-------------------------------------------------------------------------- #include "pch.h" #include "cstrings.h" #include "usage.h" #include "modtable.h" #include "resource.h" // // Function Declarations // HRESULT DoModValidation(PARG_RECORD pCommandArgs); HRESULT DoMod(PARG_RECORD pCommandArgs, PDSOBJECTTABLEENTRY pObjectEntry); int __cdecl _tmain( VOID ) { int argc; LPTOKEN pToken = NULL; HRESULT hr = S_OK; // // Initialize COM // hr = ::CoInitializeEx(NULL, COINIT_APARTMENTTHREADED); if (FAILED(hr)) { DisplayErrorMessage(g_pszDSCommandName, NULL, hr); return hr; } if( !GetCommandInput(&argc,&pToken) ) { PARG_RECORD pNewCommandArgs = 0; // // False loop // do { if(argc == 1) { // // Display the error message and then break out of the false loop // DisplayMessage(USAGE_DSMOD); hr = E_INVALIDARG; break; } // // Find which object table entry to use from // the second command line argument // PDSOBJECTTABLEENTRY pObjectEntry = NULL; UINT idx = 0; while (true) { pObjectEntry = g_DSObjectTable[idx]; if (!pObjectEntry) { break; } PWSTR pszObjectType = (pToken+1)->GetToken(); if (0 == _wcsicmp(pObjectEntry->pszCommandLineObjectType, pszObjectType)) { break; } idx++; } if (!pObjectEntry) { // // Display the error message and then break out of the false loop // DisplayMessage(USAGE_DSMOD); hr = E_INVALIDARG; break; } // // Now that we have the correct table entry, merge the command line table // for this object with the common commands // hr = MergeArgCommand(DSMOD_COMMON_COMMANDS, pObjectEntry->pParserTable, &pNewCommandArgs); if (FAILED(hr)) { // // Display the error message and then break out of the false loop // DisplayErrorMessage(g_pszDSCommandName, L"", hr); break; } if (!pNewCommandArgs) { // // Display the usage text and then break out of the false loop // DisplayMessage(pObjectEntry->nUsageID); hr = E_FAIL; break; } PARSE_ERROR Error; if(!ParseCmd(pNewCommandArgs, argc-1, pToken+1, pObjectEntry->nUsageID, &Error, TRUE)) { if (Error.Error != PARSE_ERROR_HELP_SWITCH) { // // Display the usage text and then break out of the false loop // DisplayMessage(pObjectEntry->nUsageID); } hr = E_INVALIDARG; break; } else { // // Check to see if we are doing debug spew // #ifdef DBG bool bDebugging = pNewCommandArgs[eCommDebug].bDefined && pNewCommandArgs[eCommDebug].nValue; if (bDebugging) { ENABLE_DEBUG_OUTPUT(pNewCommandArgs[eCommDebug].nValue); } #else DISABLE_DEBUG_OUTPUT(); #endif // // Be sure that mutually exclusive and dependent switches are correct // hr = DoModValidation(pNewCommandArgs); if (FAILED(hr)) { DisplayMessage(pObjectEntry->nUsageID); break; } // // Command line parsing succeeded // hr = DoMod(pNewCommandArgs, pObjectEntry); } } while (false); // // Free the memory associated with the command values // if (pNewCommandArgs) { FreeCmd(pNewCommandArgs); } // // Free the tokens // if (pToken) { delete[] pToken; pToken = 0; } } // // Uninitialize COM // ::CoUninitialize(); return hr; } //+-------------------------------------------------------------------------- // // Function: DoModValidation // // Synopsis: Checks to be sure that command line switches that are mutually // exclusive are not both present and those that are dependent are // both presetn // // Arguments: [pCommandArgs - IN] : the command line argument structure used // to retrieve the values for each switch // // Returns: HRESULT : S_OK if everything succeeded // E_INVALIDARG if the object entry wasn't found // Anything else is a failure code from an ADSI call // // History: 19-Sep-2000 JeffJon Created // //--------------------------------------------------------------------------- HRESULT DoModValidation(PARG_RECORD pCommandArgs) { ENTER_FUNCTION_HR(MINIMAL_LOGGING, DoModValidation, hr); do // false loop { // // Check the user switches // if (pCommandArgs[eCommObjectType].bDefined && pCommandArgs[eCommObjectType].strValue && 0 == _wcsicmp(g_pszUser, pCommandArgs[eCommObjectType].strValue)) { // // Can't have user must change password if user can change password is no // if ((pCommandArgs[eUserMustchpwd].bDefined && pCommandArgs[eUserMustchpwd].bValue) && (pCommandArgs[eUserCanchpwd].bDefined && !pCommandArgs[eUserCanchpwd].bValue)) { DisplayErrorMessage(g_pszDSCommandName, NULL, S_OK, IDS_MUSTCHPWD_CANCHPWD_CONFLICT); hr = E_INVALIDARG; break; } if (pCommandArgs[eUserPwd].bDefined && pCommandArgs[eUserPwd].strValue) { size_t pwdLen = wcslen(pCommandArgs[eUserPwd].strValue); if (pwdLen > MAX_PASSWORD_LENGTH - 1) { DisplayErrorMessage(g_pszDSCommandName, NULL, S_OK, IDS_PASSWORD_TOO_LONG); hr = E_INVALIDARG; break; } } } } while (false); return hr; } //+-------------------------------------------------------------------------- // // Function: DoMod // // Synopsis: Finds the appropriate object in the object table and fills in // the attribute values and then applies the changes // // Arguments: [pCommandArgs - IN] : the command line argument structure used // to retrieve the values for each switch // [pObjectEntry - IN] : pointer to the object table entry for the // object type that will be modified // // Returns: HRESULT : S_OK if everything succeeded // E_INVALIDARG if the object entry wasn't found // Anything else is a failure code from an ADSI call // // History: 07-Sep-2000 JeffJon Created // //--------------------------------------------------------------------------- HRESULT DoMod(PARG_RECORD pCommandArgs, PDSOBJECTTABLEENTRY pObjectEntry) { ENTER_FUNCTION_HR(MINIMAL_LOGGING, DoMod, hr); PADS_ATTR_INFO pAttrs = NULL; do // false loop { if (!pCommandArgs || !pObjectEntry) { ASSERT(pCommandArgs && pObjectEntry); hr = E_INVALIDARG; break; } CDSCmdCredentialObject credentialObject; if (pCommandArgs[eCommUserName].bDefined) { credentialObject.SetUsername(pCommandArgs[eCommUserName].strValue); credentialObject.SetUsingCredentials(true); } if (pCommandArgs[eCommPassword].bDefined) { credentialObject.SetPassword(pCommandArgs[eCommPassword].strValue); credentialObject.SetUsingCredentials(true); } // // Initialize the base paths info from the command line args // CDSCmdBasePathsInfo basePathsInfo; if (pCommandArgs[eCommServer].bDefined) { hr = basePathsInfo.InitializeFromName(credentialObject, pCommandArgs[eCommServer].strValue, true); } else if (pCommandArgs[eCommDomain].bDefined) { hr = basePathsInfo.InitializeFromName(credentialObject, pCommandArgs[eCommDomain].strValue, false); } else { hr = basePathsInfo.InitializeFromName(credentialObject, NULL, false); } if (FAILED(hr)) { // // Display error message and return // DEBUG_OUTPUT(MINIMAL_LOGGING, L"CDSBasePathsInfo::InitializeFromName failed: hr = 0x%x", hr); DisplayErrorMessage(g_pszDSCommandName, NULL, hr); break; } // // Now that we have the table entry loop through the other command line // args and see which ones can be applied // DWORD dwAttributeCount = 0; DWORD dwCount = pObjectEntry->dwAttributeCount; pAttrs = new ADS_ATTR_INFO[dwCount]; if (!pAttrs) { // // Display error message and return // DisplayErrorMessage(g_pszDSCommandName, NULL, E_OUTOFMEMORY); hr = E_OUTOFMEMORY; break; } // // The DNs or Names should be given as a \0 separated list // So parse it and loop through each object // UINT nStrings = 0; PWSTR* ppszArray = NULL; ParseNullSeparatedString(pCommandArgs[eCommObjectDNorName].strValue, &ppszArray, &nStrings); if (nStrings < 1 || !ppszArray) { // // Display the usage text and then fail // DisplayMessage(pObjectEntry->nUsageID); hr = E_INVALIDARG; break; } // // Loop through each of the objects // for (UINT nNameIdx = 0; nNameIdx < nStrings; nNameIdx++) { dwAttributeCount = 0; do // false loop { // // Get the objects DN // PWSTR pszObjectDN = ppszArray[nNameIdx]; if (!pszObjectDN) { // // Display the usage text and then fail // DisplayMessage(pObjectEntry->nUsageID); hr = E_INVALIDARG; break; } DEBUG_OUTPUT(MINIMAL_LOGGING, L"Object DN = %s", pszObjectDN); // // Compose the objects path // CComBSTR sbstrObjectPath; basePathsInfo.ComposePathFromDN(pszObjectDN, sbstrObjectPath); // // Verify that the object type matches the one entered on the command line // CComPtr spDirObject; hr = DSCmdOpenObject(credentialObject, sbstrObjectPath, IID_IDirectoryObject, (void**)&spDirObject, true); if (FAILED(hr)) { // // Display error message and return // DisplayErrorMessage(g_pszDSCommandName, pszObjectDN, hr); break; } CComQIPtr spADs(spDirObject); if (!spADs) { ASSERT(spADs); hr = E_INVALIDARG; DisplayErrorMessage(g_pszDSCommandName, pszObjectDN, hr); break; } CComBSTR sbstrClass; hr = spADs->get_Class(&sbstrClass); if (FAILED(hr)) { // // Display error message and return // DisplayErrorMessage(g_pszDSCommandName, pszObjectDN, hr); break; } if (_wcsicmp(sbstrClass, pObjectEntry->pszObjectClass)) { // // Display error message and return // DEBUG_OUTPUT(MINIMAL_LOGGING, L"Command line type does not match object class", dwAttributeCount); DEBUG_OUTPUT(MINIMAL_LOGGING, L"command line type = %s", pCommandArgs[eCommObjectType].strValue); DEBUG_OUTPUT(MINIMAL_LOGGING, L"object class = %s", sbstrClass); DisplayErrorMessage(g_pszDSCommandName, pszObjectDN, hr, IDS_ERRMSG_CLASS_NOT_EQUAL); hr = E_INVALIDARG; break; } UINT nModificationsAttempted = 0; for (DWORD dwIdx = 0; dwIdx < dwCount; dwIdx++) { ASSERT(pObjectEntry->pAttributeTable[dwIdx]->pEvalFunc); UINT nAttributeIdx = pObjectEntry->pAttributeTable[dwIdx]->nAttributeID; if (pCommandArgs[nAttributeIdx].bDefined) { if (!(pObjectEntry->pAttributeTable[dwIdx]->dwFlags & DS_ATTRIBUTE_DIRTY) || pObjectEntry->pAttributeTable[dwIdx]->dwFlags & DS_ATTRIBUTE_NOT_REUSABLE) { // // Call the evaluation function to get the ADS_ATTR_INFO set // PADS_ATTR_INFO pNewAttr = NULL; hr = pObjectEntry->pAttributeTable[dwIdx]->pEvalFunc(pszObjectDN, basePathsInfo, credentialObject, pObjectEntry, pCommandArgs[nAttributeIdx], dwIdx, &pNewAttr); DEBUG_OUTPUT(MINIMAL_LOGGING, L"pEvalFunc returned hr = 0x%x", hr); if (SUCCEEDED(hr) && hr != S_FALSE) { if (pNewAttr) { // // Mark the attribute entry as DIRTY so that we don't have to // do the computation for the next object // pObjectEntry->pAttributeTable[dwIdx]->dwFlags |= DS_ATTRIBUTE_DIRTY; // // Copy the value // pAttrs[dwAttributeCount] = *pNewAttr; dwAttributeCount++; } } else { // // Don't show an error if the eval function returned S_FALSE // if (hr != S_FALSE) { // // Display an error // DisplayErrorMessage(g_pszDSCommandName, pszObjectDN, hr); } if (hr == S_FALSE) { // // Return a generic error code so that we don't print the success message // hr = E_FAIL; } break; } } else { // // Need to count previously retrieved values too // dwAttributeCount++; } nModificationsAttempted++; } } if (SUCCEEDED(hr) && dwAttributeCount > 0) { // // Now that we have the attributes ready, lets set them in the DS // DEBUG_OUTPUT(MINIMAL_LOGGING, L"Setting %d attributes", dwAttributeCount); #ifdef DBG DEBUG_OUTPUT(FULL_LOGGING, L"Modified Attributes:"); SpewAttrs(pAttrs, dwAttributeCount); #endif DWORD dwAttrsModified = 0; hr = spDirObject->SetObjectAttributes(pAttrs, dwAttributeCount, &dwAttrsModified); if (FAILED(hr)) { // // Display error message and return // DEBUG_OUTPUT(MINIMAL_LOGGING, L"SetObjectAttributes failed: hr = 0x%x", hr); DisplayErrorMessage(g_pszDSCommandName, pszObjectDN, hr); break; } DEBUG_OUTPUT(MINIMAL_LOGGING, L"SetObjectAttributes succeeded"); } else if (SUCCEEDED(hr) && nModificationsAttempted == 0) { // // Display the usage text and then break out of the false loop // // // REVIEW_JEFFJON : this is causing a first-chance exception // DisplayMessage(pObjectEntry->nUsageID); hr = E_INVALIDARG; break; } } while (false); // // Loop through the attributes again, clearing any values for // attribute entries that are marked DS_ATTRIBUTE_NOT_REUSABLE // DEBUG_OUTPUT(LEVEL5_LOGGING, L"Cleaning up memory and flags for object %d", nNameIdx); for (DWORD dwIdx = 0; dwIdx < dwCount; dwIdx++) { if (pObjectEntry->pAttributeTable[dwIdx]->dwFlags & DS_ATTRIBUTE_NOT_REUSABLE) { if (pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc && ((pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->dwFlags & DS_ATTRIBUTE_READ) || (pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->dwFlags & DS_ATTRIBUTE_DIRTY))) { // // Cleanup the memory associated with the value // if (pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->adsAttrInfo.pADsValues) { delete[] pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->adsAttrInfo.pADsValues; pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->adsAttrInfo.pADsValues = NULL; } // // Cleanup the flags so that the attribute will be read for the next object // pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->dwFlags &= ~(DS_ATTRIBUTE_READ); pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->dwFlags &= ~(DS_ATTRIBUTE_DIRTY); DEBUG_OUTPUT(LEVEL5_LOGGING, L"Flags for attribute %s = %d", pObjectEntry->pAttributeTable[dwIdx]->pszName, pObjectEntry->pAttributeTable[dwIdx]->pAttrDesc->dwFlags); } } } if (FAILED(hr) && !pCommandArgs[eCommContinue].bDefined) { break; } // // Display the success message // if (SUCCEEDED(hr) && !pCommandArgs[eCommQuiet].bDefined) { DisplaySuccessMessage(g_pszDSCommandName, ppszArray[nNameIdx]); } } // Name for loop } while (false); // // Cleanup // if (pAttrs) { delete[] pAttrs; pAttrs = NULL; } return hr; }