//+--------------------------------------------------------------------------- // // Microsoft Windows NT Security // Copyright (C) Microsoft Corporation, 1992 - 1999 // // File: iih.cpp // // Contents: ACUI Invoke Info Helper class implementation // // History: 10-May-97 kirtd Created // //---------------------------------------------------------------------------- #include #include "malloc.h" #include "sgnerror.h" // // Personal trust database interface id // extern "C" const GUID IID_IPersonalTrustDB = IID_IPersonalTrustDB_Data; //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::CInvokeInfoHelper, public // // Synopsis: Constructor, initializes member variables from data found // in the invoke info data structure // // Arguments: [pInvokeInfo] -- invoke info // [rhr] -- result of construction // // Returns: (none) // // Notes: // //---------------------------------------------------------------------------- CInvokeInfoHelper::CInvokeInfoHelper ( PACUI_INVOKE_INFO pInvokeInfo, HRESULT& rhr ) : m_pInvokeInfo ( pInvokeInfo ), m_pszSubject ( NULL ), m_pszPublisher ( NULL ), m_pszAdvancedLink ( NULL ), m_pszControlWebPage ( NULL ), m_pszCAWebPage ( NULL ), m_pszPublisherCertIssuer ( NULL ), m_pszErrorStatement ( NULL ), m_pszCertTimestamp ( NULL ), m_pszTestCertInChain ( NULL ), m_fKnownPublisher ( FALSE ), m_hModCVPA ( NULL ), m_pfnCVPA ( NULL ) { // // Initialize the subject // rhr = InitSubject(); // // if there's a test cert, format the text! // InitTestCertInChain(); // // If we actually have a signature then ... // // // If we need an error statement, initialize it // if ( ( rhr == S_OK ) && ( pInvokeInfo->hrInvokeReason != S_OK ) ) { rhr = InitErrorStatement(); } if ( ( rhr == S_OK ) && ( pInvokeInfo->hrInvokeReason != TRUST_E_NOSIGNATURE ) ) { // // Initialize the publisher // rhr = InitPublisher(); // // If we have a known publisher, then we initialize the publisher // cert issuer // if ( ( rhr == S_OK ) && ( m_fKnownPublisher == TRUE ) ) { rhr = InitPublisherCertIssuer(); } // // Initialize the timestamp string // if ( rhr == S_OK ) { rhr = InitCertTimestamp(); } // // initialize the "advanced link" text // InitAdvancedLink(); // // initialize the Control's Web page link // InitControlWebPage(); // // initialize the CA's Web page link // InitCAWebPage(); } // // Initialize the CertViewProperties entry point // if ( rhr == S_OK ) { InitCertViewPropertiesEntryPoint(); } } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::~CInvokeInfoHelper, public // // Synopsis: Destructor, frees up member variables // // Arguments: (none) // // Returns: (none) // // Notes: // //---------------------------------------------------------------------------- CInvokeInfoHelper::~CInvokeInfoHelper () { DELETE_OBJECT(m_pszSubject); DELETE_OBJECT(m_pszPublisher); DELETE_OBJECT(m_pszPublisherCertIssuer); DELETE_OBJECT(m_pszAdvancedLink); DELETE_OBJECT(m_pszControlWebPage); DELETE_OBJECT(m_pszCAWebPage); DELETE_OBJECT(m_pszTestCertInChain); DELETE_OBJECT(m_pszCertTimestamp); DELETE_OBJECT(m_pszErrorStatement); if ( m_hModCVPA != NULL ) { FreeLibrary(m_hModCVPA); } } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::AddPublisherToPersonalTrust, public // // Synopsis: adds the current publisher to the personal trust database // // Arguments: (none) // // Returns: hr == S_OK, publisher added to personal trust database // hr != S_OK, publisher NOT added to personal trust database // // Notes: // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::AddPublisherToPersonalTrust () { HRESULT hr = S_OK; IPersonalTrustDB* pTrustDB = NULL; // // Get the personal trust database interface // hr = m_pInvokeInfo->pPersonalTrustDB->QueryInterface( IID_IPersonalTrustDB, (LPVOID *)&pTrustDB ); // // Add the publisher cert to the database // if ( hr == S_OK ) { CRYPT_PROVIDER_SGNR *pSgnr; CRYPT_PROVIDER_CERT *pCert; if (pSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, FALSE, 0)) { if (pCert = WTHelperGetProvCertFromChain(pSgnr, 0)) { hr = pTrustDB->AddTrustCert( pCert->pCert, 0, FALSE ); } } pTrustDB->Release(); } return( hr ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::GetUIControl, public // // Synopsis: gets the UI control // // Arguments: [ppUI] -- UI returned here // // Returns: S_OK for success, any other valid HRESULT otherwise // // Notes: // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::GetUIControl (IACUIControl** ppUI) { HRESULT hr = S_OK; IACUIControl* pUI = NULL; // // Get the right UI control // switch (m_pInvokeInfo->hrInvokeReason) { case S_OK: pUI = new CVerifiedTrustUI(*this, hr); break; case CERT_E_EXPIRED: case CERT_E_PURPOSE: case CERT_E_WRONG_USAGE: case CERT_E_CN_NO_MATCH: case CERT_E_INVALID_NAME: case CERT_E_INVALID_POLICY: case CERT_E_REVOCATION_FAILURE: case CRYPT_E_NO_REVOCATION_CHECK: case CRYPT_E_REVOCATION_OFFLINE: pUI = new CUnverifiedTrustUI(*this, hr); break; #if (0) case CRYPT_E_FILE_ERROR: case TRUST_E_PROVIDER_UNKNOWN: case TRUST_E_SUBJECT_FORM_UNKNOWN: case TRUST_E_NOSIGNATURE: case CERT_E_CHAINING: case CERT_E_UNTRUSTEDROOT: case CERT_E_UNTRUSTEDTESTROOT: #endif default: pUI = new CNoSignatureUI(*this, hr); break; } // // Set the out parameter and return value // if ( ( pUI != NULL ) && ( hr == S_OK ) ) { *ppUI = pUI; } else if ( pUI == NULL ) { hr = E_OUTOFMEMORY; } else { delete pUI; } return( hr ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::ReleaseUIControl, public // // Synopsis: frees the UI control // // Arguments: [pUI] -- UI control // // Returns: (none) // // Notes: // //---------------------------------------------------------------------------- VOID CInvokeInfoHelper::ReleaseUIControl (IACUIControl* pUI) { delete pUI; } VOID CInvokeInfoHelper::InitControlWebPage () { WCHAR *pwsz; if (!(m_pInvokeInfo->pOpusInfo)) { return; } if (!(m_pInvokeInfo->pOpusInfo->pMoreInfo)) { return; } pwsz = GetGoLink(m_pInvokeInfo->pOpusInfo->pMoreInfo); if (!(pwsz)) { return; } m_pszControlWebPage = new WCHAR[wcslen(pwsz) + 1]; if (m_pszControlWebPage != NULL) { wcscpy(m_pszControlWebPage, pwsz); } } VOID CInvokeInfoHelper::InitCAWebPage () { // // until IE submits.... don't do it! // return; WCHAR *pwsz; DWORD cb; CRYPT_PROVIDER_SGNR *pSgnr; CRYPT_PROVIDER_CERT *pCert; SPC_SP_AGENCY_INFO *pAgencyInfo; if (!(pSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, FALSE, 0))) { return; } if (!(pCert = WTHelperGetProvCertFromChain(pSgnr, 0))) // try the publisher's cert first! { return; } cb = 0; WTHelperGetAgencyInfo(pCert->pCert, &cb, NULL); if (cb < 1) { if (!(pCert = WTHelperGetProvCertFromChain(pSgnr, 1))) // try the issuer's next { return; } cb = 0; WTHelperGetAgencyInfo(pCert->pCert, &cb, NULL); if (cb < 1) { return; } } if (!(pAgencyInfo = (SPC_SP_AGENCY_INFO *)new BYTE[cb])) { return; } if (!(WTHelperGetAgencyInfo(pCert->pCert, &cb, pAgencyInfo))) { delete pAgencyInfo; return; } pwsz = GetGoLink(pAgencyInfo->pPolicyInformation); m_pszCAWebPage = new WCHAR[wcslen(pwsz) + 1]; if (m_pszCAWebPage != NULL) { wcscpy(m_pszCAWebPage, pwsz); } delete pAgencyInfo; } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::InitSubject, private // // Synopsis: Initialize m_pszSubject // // Arguments: (none) // // Returns: hr == S_OK, initialize succeeded // hr != S_OK, initialize failed // // Notes: // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::InitSubject () { HRESULT hr = S_OK; LPCWSTR pwszSubject = NULL; // // Find out what we will use as the subject name // if ( ( m_pInvokeInfo->pOpusInfo != NULL ) && ( m_pInvokeInfo->pOpusInfo->pwszProgramName != NULL ) ) { pwszSubject = m_pInvokeInfo->pOpusInfo->pwszProgramName; } else { pwszSubject = m_pInvokeInfo->pwcsAltDisplayName; } // // At this point we must have a valid subject name // assert( pwszSubject != NULL ); // // Fill in the subject member by converting the one we found from // UNICODE to MBS // m_pszSubject = new WCHAR[wcslen(pwszSubject) + 1]; if ( m_pszSubject != NULL ) { wcscpy(m_pszSubject, pwszSubject); } else { hr = E_OUTOFMEMORY; } return( hr ); } VOID CInvokeInfoHelper::InitTestCertInChain () { WCHAR szTestCertInChain[MAX_LOADSTRING_BUFFER + 1]; if (IsTestCertInPublisherChain()) { if ( LoadStringU( g_hModule, IDS_TESTCERTINCHAIN, szTestCertInChain, MAX_LOADSTRING_BUFFER ) == 0 ) { return; } m_pszTestCertInChain = new WCHAR[wcslen(szTestCertInChain) + 1]; if (m_pszTestCertInChain != NULL) { wcscpy(m_pszTestCertInChain, szTestCertInChain); } } } VOID CInvokeInfoHelper::InitAdvancedLink () { ULONG cbAL; if ((ProviderData()) && (WVT_IS_CBSTRUCT_GT_MEMBEROFFSET(CRYPT_PROVIDER_FUNCTIONS, ProviderData()->psPfns->cbStruct, psUIpfns)) && (ProviderData()->psPfns->psUIpfns) && (ProviderData()->psPfns->psUIpfns->psUIData) && (ProviderData()->psPfns->psUIpfns->psUIData->pAdvancedLinkText)) { m_pszAdvancedLink = new WCHAR[wcslen(ProviderData()->psPfns->psUIpfns->psUIData->pAdvancedLinkText) + 1]; if (m_pszAdvancedLink != NULL) { wcscpy(m_pszAdvancedLink, ProviderData()->psPfns->psUIpfns->psUIData->pAdvancedLinkText); } } } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::InitPublisher, private // // Synopsis: Initialize m_pszPublisher // // Arguments: (none) // // Returns: hr == S_OK, initialize succeeded // hr != S_OK, initialize failed // // Notes: // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::InitPublisher () { HRESULT hr = S_OK; ULONG cchPublisher; LPWSTR pwszPublisher = NULL; WCHAR szPublisher[MAX_LOADSTRING_BUFFER]; // // Load the unknown publisher string // if ( LoadStringU( g_hModule, IDS_UNKNOWNPUBLISHER, szPublisher, MAX_LOADSTRING_BUFFER ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } // // Since the publisher is the subject of the signer certificate, we try to // find the publisher name in the common name extensions of that cert // CRYPT_PROVIDER_SGNR *pSgnr; CRYPT_PROVIDER_CERT *pCert; if (pSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, FALSE, 0)) { if (pCert = WTHelperGetProvCertFromChain(pSgnr, 0)) { cchPublisher = CertGetNameStringW(pCert->pCert, CERT_NAME_SIMPLE_DISPLAY_TYPE, 0, NULL, NULL, 0); if (cchPublisher > 1) { pwszPublisher = new WCHAR[cchPublisher]; if ( pwszPublisher == NULL ) { return (E_OUTOFMEMORY); } cchPublisher = CertGetNameStringW(pCert->pCert, CERT_NAME_SIMPLE_DISPLAY_TYPE, 0, NULL, pwszPublisher, cchPublisher); } } } // // If we still don't have a publisher, use the unknown publisher string // if ( pwszPublisher == NULL ) { m_fKnownPublisher = FALSE; cchPublisher = wcslen(szPublisher) + 1; } else { m_fKnownPublisher = TRUE; cchPublisher = wcslen(pwszPublisher) + 1; } // // Fill in the publisher member by converting from UNICODE to MBS // or by copying the unknown publisher string // m_pszPublisher = new WCHAR[cchPublisher]; if ( m_pszPublisher != NULL ) { if ( m_fKnownPublisher == FALSE ) { wcscpy(m_pszPublisher, szPublisher); } else { wcscpy(m_pszPublisher, pwszPublisher); } } else { hr = E_OUTOFMEMORY; } if ( pwszPublisher != NULL ) { delete[] pwszPublisher; } return( hr ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::InitPublisherCertIssuer, private // // Synopsis: Initialize m_pszPublisherCertIssuer // // Arguments: (none) // // Returns: hr == S_OK, initialize succeeded // hr != S_OK, initialize failed // // Notes: // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::InitPublisherCertIssuer () { HRESULT hr = S_OK; ULONG cchCertIssuer; LPWSTR pwszCertIssuer = NULL; WCHAR szCertIssuer[MAX_LOADSTRING_BUFFER]; BOOL fKnownCertIssuer; // // Load the unknown cert issuer string // if ( LoadStringU( g_hModule, IDS_UNKNOWNPUBLISHERCERTISSUER, szCertIssuer, MAX_LOADSTRING_BUFFER ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } // // Since the publisher cert issuer is the issuer of the signer certificate, // we try to find the name in the RDN attributes of the cert issuer // CRYPT_PROVIDER_SGNR *pSgnr; CRYPT_PROVIDER_CERT *pCert; if (pSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, FALSE, 0)) { if (pCert = WTHelperGetProvCertFromChain(pSgnr, 0)) { cchCertIssuer = CertGetNameStringW(pCert->pCert, CERT_NAME_SIMPLE_DISPLAY_TYPE, CERT_NAME_ISSUER_FLAG, NULL, NULL, 0); if (cchCertIssuer > 1) { pwszCertIssuer = new WCHAR[cchCertIssuer]; if ( pwszCertIssuer == NULL) { return (E_OUTOFMEMORY); } cchCertIssuer = CertGetNameStringW(pCert->pCert, CERT_NAME_SIMPLE_DISPLAY_TYPE, CERT_NAME_ISSUER_FLAG, NULL, pwszCertIssuer, cchCertIssuer); } } } // // If we still don't have a name, we set the unknown issuer string // if ( pwszCertIssuer == NULL ) { fKnownCertIssuer = FALSE; cchCertIssuer = wcslen(szCertIssuer) + 1; } else { fKnownCertIssuer = TRUE; cchCertIssuer = wcslen(pwszCertIssuer) + 1; } // // Fill in the publisher cert issuer member by converting from UNICODE // to MBS or by copying the unknown issuer string // m_pszPublisherCertIssuer = new WCHAR[cchCertIssuer]; if ( m_pszPublisherCertIssuer != NULL ) { if ( fKnownCertIssuer == FALSE ) { wcscpy(m_pszPublisherCertIssuer, szCertIssuer); } else { wcscpy(m_pszPublisherCertIssuer, pwszCertIssuer); } } else { hr = E_OUTOFMEMORY; } if ( pwszCertIssuer != NULL ) { delete[] pwszCertIssuer; } return( hr ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::InitErrorStatement, private // // Synopsis: Initialize m_pszErrorStatement // // Arguments: (none) // // Returns: hr == S_OK, initialize succeeded // hr != S_OK, initialize failed // // Notes: // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::InitErrorStatement () { return( ACUIMapErrorToString( m_pInvokeInfo->hrInvokeReason, &m_pszErrorStatement ) ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::InitCertTimestamp, public // // Synopsis: initialize the certificate timestamp string // //---------------------------------------------------------------------------- HRESULT CInvokeInfoHelper::InitCertTimestamp () { HRESULT hr = S_OK; WCHAR szCertTimestamp[MAX_LOADSTRING_BUFFER]; FILETIME ftTimestamp; SYSTEMTIME stTimestamp; // // Get the time stamp // // TBDTBD: change to a loop!!!! pberkman CRYPT_PROVIDER_SGNR *pSgnr; CRYPT_PROVIDER_SGNR *pTimeSgnr; if ((pTimeSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, TRUE, 0)) && (pTimeSgnr->dwSignerType & SGNR_TYPE_TIMESTAMP) && (pSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, FALSE, 0))) { // convert UTC to local FileTimeToLocalFileTime(&pSgnr->sftVerifyAsOf, &ftTimestamp); // make it system format FileTimeToSystemTime(&ftTimestamp, &stTimestamp); m_pszCertTimestamp = GetFormattedCertTimestamp(&stTimestamp); if ( m_pszCertTimestamp == NULL ) { hr = E_OUTOFMEMORY; } } else { m_pszCertTimestamp = NULL; } return( hr ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::InitCertViewPropertiesEntryPoint, public // // Synopsis: initialize the cert view properties entry point // // Arguments: (none) // // Returns: (none) // // Notes: // //---------------------------------------------------------------------------- VOID CInvokeInfoHelper::InitCertViewPropertiesEntryPoint () { m_hModCVPA = LoadLibraryA(CVP_DLL); if ( m_hModCVPA != NULL ) { m_pfnCVPA = (pfnCertViewProperties)GetProcAddress(m_hModCVPA, CVP_FUNC_NAME); } } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::GetFormattedCertTimestamp, public // // Synopsis: gets the formatted cert timestamp string which will be // allocated using the new operator // //---------------------------------------------------------------------------- LPWSTR CInvokeInfoHelper::GetFormattedCertTimestamp (LPSYSTEMTIME pst) { LPWSTR psz; int cDate; int cTime; if ( ( cDate = GetDateFormatU( LOCALE_USER_DEFAULT, DATE_SHORTDATE, pst, NULL, NULL, 0 ) ) == 0 ) { return( NULL ); } cDate--; if ( ( cTime = GetTimeFormatU( LOCALE_USER_DEFAULT, TIME_NOSECONDS, pst, NULL, NULL, 0 ) ) == 0 ) { return( NULL ); } cTime--; psz = new WCHAR [ cDate + cTime + 2 ]; if ( psz == NULL ) { return( NULL ); } if ( GetDateFormatU( LOCALE_USER_DEFAULT, DATE_SHORTDATE, pst, NULL, psz, cDate + 1 ) == 0 ) { delete[] psz; return( NULL ); } psz[cDate] = L' '; if ( GetTimeFormatU( LOCALE_USER_DEFAULT, TIME_NOSECONDS, pst, NULL, &psz[cDate+1], cTime + 1 ) == 0 ) { delete[] psz; return( NULL ); } return( psz ); } //+--------------------------------------------------------------------------- // // Member: CInvokeInfoHelper::IsTestCertInChain, public // // Synopsis: is there a test cert in the publisher's chain // //---------------------------------------------------------------------------- BOOL CInvokeInfoHelper::IsTestCertInPublisherChain () { ULONG cCount; CRYPT_PROVIDER_SGNR *pSgnr; CRYPT_PROVIDER_CERT *pCert; if (pSgnr = WTHelperGetProvSignerFromChain(ProviderData(), 0, FALSE, 0)) { for (cCount = 0; cCount < pSgnr->csCertChain; cCount++) { if (pCert = WTHelperGetProvCertFromChain(pSgnr, cCount)) { if (pCert->fTestCert) { return(TRUE); } } } } return(FALSE); } //+--------------------------------------------------------------------------- // // Function: ACUIMapErrorToString // // Synopsis: maps error to string // // Arguments: [hr] -- error // [ppsz] -- error string goes here // // Returns: S_OK if successful, any valid HRESULT otherwise // //---------------------------------------------------------------------------- HRESULT ACUIMapErrorToString (HRESULT hr, LPWSTR* ppsz) { UINT ResourceId = 0; WCHAR psz[MAX_LOADSTRING_BUFFER]; // // See if it maps to some non system error code // switch (hr) { case TRUST_E_SYSTEM_ERROR: case ERROR_NOT_ENOUGH_MEMORY: case ERROR_INVALID_PARAMETER: // // leave the resourceid zero... these will be mapped to // IDS_SPC_UNKNOWN and the error code displayed. // break; case CRYPT_E_FILE_ERROR: ResourceId = IDS_FILE_NOT_FOUND; break; case TRUST_E_PROVIDER_UNKNOWN: ResourceId = IDS_SPC_PROVIDER; break; case TRUST_E_SUBJECT_FORM_UNKNOWN: ResourceId = IDS_SPC_SUBJECT; break; case TRUST_E_NOSIGNATURE: ResourceId = IDS_SPC_NO_SIGNATURE; break; case CRYPT_E_BAD_MSG: ResourceId = IDS_SPC_BAD_SIGNATURE; break; case TRUST_E_BAD_DIGEST: ResourceId = IDS_SPC_BAD_FILE_DIGEST; break; case CRYPT_E_NO_SIGNER: ResourceId = IDS_SPC_NO_VALID_SIGNER; break; case TRUST_E_NO_SIGNER_CERT: ResourceId = IDS_SPC_SIGNER_CERT; break; case TRUST_E_COUNTER_SIGNER: ResourceId = IDS_SPC_VALID_COUNTERSIGNER; break; case CERT_E_EXPIRED: ResourceId = IDS_SPC_CERT_EXPIRED; break; case TRUST_E_CERT_SIGNATURE: ResourceId = IDS_SPC_CERT_SIGNATURE; break; case CERT_E_CHAINING: ResourceId = IDS_SPC_CHAINING; break; case CERT_E_UNTRUSTEDROOT: ResourceId = IDS_SPC_UNTRUSTED_ROOT; break; case CERT_E_UNTRUSTEDTESTROOT: ResourceId = IDS_SPC_UNTRUSTED_TEST_ROOT; break; case CERT_E_VALIDITYPERIODNESTING: ResourceId = IDS_SPC_INVALID_CERT_NESTING; break; case CERT_E_PURPOSE: ResourceId = IDS_SPC_INVALID_PURPOSE; break; case TRUST_E_BASIC_CONSTRAINTS: ResourceId = IDS_SPC_INVALID_BASIC_CONSTRAINTS; break; case TRUST_E_FINANCIAL_CRITERIA: ResourceId = IDS_SPC_INVALID_FINANCIAL; break; case TRUST_E_TIME_STAMP: ResourceId = IDS_SPC_TIMESTAMP; break; case CERT_E_REVOKED: ResourceId = IDS_SPC_CERT_REVOKED; break; case CERT_E_REVOCATION_FAILURE: ResourceId = IDS_SPC_REVOCATION_ERROR; break; case CRYPT_E_SECURITY_SETTINGS: ResourceId = IDS_SPC_SECURITY_SETTINGS; break; case CERT_E_MALFORMED: ResourceId = IDS_SPC_INVALID_EXTENSION; break; case CERT_E_WRONG_USAGE: ResourceId = IDS_WRONG_USAGE; break; } // // If it does, load the string out of our resource string tables and // return that. Otherwise, try to format the message from the system // DWORD_PTR MessageArgument; CHAR szError[33]; WCHAR wszError[33]; LPVOID pvMsg; pvMsg = NULL; if ( ResourceId != 0 ) { if ( LoadStringU( g_hModule, ResourceId, psz, MAX_LOADSTRING_BUFFER ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } *ppsz = new WCHAR[wcslen(psz) + 1]; if ( *ppsz != NULL ) { wcscpy(*ppsz, psz); } else { return( E_OUTOFMEMORY ); } } else if ( ( hr >= 0x80093000 ) && ( hr <= 0x80093999 ) ) { if ( LoadStringU( g_hModule, IDS_SPC_OSS_ERROR, psz, MAX_LOADSTRING_BUFFER ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } #if (0) // DSIE: Use the snprintf, instead. _sprintf(szError, "%lx", hr); #else _snprintf(szError, ARRAYSIZE(szError), "%lx", hr); #endif if (0 == MultiByteToWideChar(0, 0, szError, -1, &wszError[0], ARRAYSIZE(wszError))) { return( HRESULT_FROM_WIN32(GetLastError()) ); } MessageArgument = (DWORD_PTR)wszError; if ( FormatMessageU( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_STRING | FORMAT_MESSAGE_ARGUMENT_ARRAY, psz, 0, 0, (LPWSTR)&pvMsg, 0, (va_list *)&MessageArgument ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } } else { if ( FormatMessageU( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_FROM_SYSTEM, NULL, hr, 0, (LPWSTR)&pvMsg, 0, NULL ) == 0 ) { if ( LoadStringU( g_hModule, IDS_SPC_UNKNOWN, psz, MAX_LOADSTRING_BUFFER ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } _snprintf(szError, ARRAYSIZE(szError), "%lx", hr); if (0 == MultiByteToWideChar(0, 0, szError, -1, &wszError[0], ARRAYSIZE(wszError))) { return( HRESULT_FROM_WIN32(GetLastError()) ); } MessageArgument = (DWORD_PTR)wszError; if ( FormatMessageU( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_STRING | FORMAT_MESSAGE_ARGUMENT_ARRAY, psz, 0, 0, (LPWSTR)&pvMsg, 0, (va_list *)&MessageArgument ) == 0 ) { return( HRESULT_FROM_WIN32(GetLastError()) ); } } } if (pvMsg) { *ppsz = new WCHAR[wcslen((WCHAR *)pvMsg) + 1]; if (*ppsz) { wcscpy(*ppsz, (WCHAR *)pvMsg); } LocalFree(pvMsg); } return( S_OK ); }