// // CertUtil.cpp // #include "StdAfx.h" #include "CertUtil.h" #include "base64.h" #include #include "Certificat.h" #include #include "Resource.h" #include "Shlwapi.h" #include "CertCA.h" #include "cryptui.h" #include #include // for certobj object #include "certobj.h" #define ISNUM(cChar) ((cChar >= _T('0')) && (cChar <= _T('9'))) ? (TRUE) : (FALSE) const CLSID CLSID_CCertConfig = {0x372fce38, 0x4324, 0x11d0, {0x88, 0x10, 0x00, 0xa0, 0xc9, 0x03, 0xb8, 0x3c}}; const GUID IID_ICertConfig = {0x372fce34, 0x4324, 0x11d0, {0x88, 0x10, 0x00, 0xa0, 0xc9, 0x03, 0xb8, 0x3c}}; #define CRYPTUI_MAX_STRING_SIZE 768 #define ARRAYSIZE(x) (sizeof(x)/sizeof(x[0])) BOOL GetOnlineCAList(CStringList& list, const CString& certType, HRESULT * phRes) { BOOL bRes = TRUE; HRESULT hr = S_OK; DWORD errBefore = GetLastError(); DWORD dwCACount = 0; HCAINFO hCurCAInfo = NULL; HCAINFO hPreCAInfo = NULL; if (certType.IsEmpty()) return FALSE; *phRes = CAFindByCertType(certType, NULL, 0, &hCurCAInfo); if (FAILED(*phRes) || NULL == hCurCAInfo) { if (S_OK == hr) hr=E_FAIL; return FALSE; } //get the CA count if (0 == (dwCACount = CACountCAs(hCurCAInfo))) { *phRes = E_FAIL; return FALSE; } WCHAR ** ppwstrName, ** ppwstrMachine; while (hCurCAInfo) { //get the CA information if ( SUCCEEDED(CAGetCAProperty(hCurCAInfo, CA_PROP_DISPLAY_NAME, &ppwstrName)) && SUCCEEDED(CAGetCAProperty(hCurCAInfo, CA_PROP_DNSNAME, &ppwstrMachine)) ) { CString config; config = *ppwstrMachine; config += L"\\"; config += *ppwstrName; list.AddTail(config); CAFreeCAProperty(hCurCAInfo, ppwstrName); CAFreeCAProperty(hCurCAInfo, ppwstrMachine); } else { bRes = FALSE; break; } hPreCAInfo = hCurCAInfo; if (FAILED(*phRes = CAEnumNextCA(hPreCAInfo, &hCurCAInfo))) { bRes = FALSE; break; } CACloseCA(hPreCAInfo); hPreCAInfo = NULL; } if (hPreCAInfo) CACloseCA(hPreCAInfo); if (hCurCAInfo) CACloseCA(hCurCAInfo); SetLastError(errBefore); return bRes; } PCCERT_CONTEXT GetRequestContext(CCryptBlob& pkcs7, HRESULT * phRes) { ASSERT(phRes != NULL); BOOL bRes = FALSE; HCERTSTORE hStoreMsg = NULL; PCCERT_CONTEXT pCertContextMsg = NULL; if (!CryptQueryObject(CERT_QUERY_OBJECT_BLOB, (PCERT_BLOB)pkcs7, (CERT_QUERY_CONTENT_FLAG_CERT | CERT_QUERY_CONTENT_FLAG_PKCS7_SIGNED | CERT_QUERY_CONTENT_FLAG_SERIALIZED_STORE | CERT_QUERY_CONTENT_FLAG_PKCS7_UNSIGNED) , CERT_QUERY_FORMAT_FLAG_ALL, 0, NULL, NULL, NULL, &hStoreMsg, NULL, NULL) || NULL == (pCertContextMsg = CertFindCertificateInStore( hStoreMsg, X509_ASN_ENCODING, 0, CERT_FIND_ANY, NULL, NULL)) ) { *phRes = HRESULT_FROM_WIN32(GetLastError()); } return pCertContextMsg; } BOOL GetRequestInfoFromPKCS10(CCryptBlob& pkcs10, PCERT_REQUEST_INFO * pReqInfo, HRESULT * phRes) { ASSERT(pReqInfo != NULL); ASSERT(phRes != NULL); BOOL bRes = FALSE; DWORD req_info_size; if (!(bRes = CryptDecodeObjectEx( X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, X509_CERT_REQUEST_TO_BE_SIGNED, pkcs10.GetData(), pkcs10.GetSize(), CRYPT_DECODE_ALLOC_FLAG, NULL, pReqInfo, &req_info_size))) { TRACE(_T("Error from CryptDecodeObjectEx: %xd\n"), GetLastError()); *phRes = HRESULT_FROM_WIN32(GetLastError()); } return bRes; } #if 0 // This function extracts data from pkcs7 format BOOL GetRequestInfoFromRenewalRequest(CCryptBlob& renewal_req, PCCERT_CONTEXT * pSignerCert, HCERTSTORE hStore, PCERT_REQUEST_INFO * pReqInfo, HRESULT * phRes) { BOOL bRes; CRYPT_DECRYPT_MESSAGE_PARA decr_para; CRYPT_VERIFY_MESSAGE_PARA ver_para; decr_para.cbSize = sizeof(decr_para); decr_para.dwMsgAndCertEncodingType = X509_ASN_ENCODING | PKCS_7_ASN_ENCODING; decr_para.cCertStore = 1; decr_para.rghCertStore = &hStore; ver_para.cbSize = sizeof(ver_para); ver_para.dwMsgAndCertEncodingType = X509_ASN_ENCODING | PKCS_7_ASN_ENCODING; ver_para.hCryptProv = 0; ver_para.pfnGetSignerCertificate = NULL; ver_para.pvGetArg = NULL; DWORD dwMsgType; DWORD dwInnerContentType; DWORD cbDecoded; if (bRes = CryptDecodeMessage( CMSG_SIGNED_FLAG, &decr_para, &ver_para, 0, renewal_req.GetData(), renewal_req.GetSize(), 0, &dwMsgType, &dwInnerContentType, NULL, &cbDecoded, NULL, pSignerCert)) { CCryptBlobLocal decoded_req; decoded_req.Resize(cbDecoded); if (bRes = CryptDecodeMessage( CMSG_SIGNED_FLAG, &decr_para, &ver_para, 0, renewal_req.GetData(), renewal_req.GetSize(), 0, &dwMsgType, &dwInnerContentType, decoded_req.GetData(), &cbDecoded, NULL, pSignerCert)) { bRes = GetRequestInfoFromPKCS10(decoded_req, pReqInfo, phRes); } } if (!bRes) { *phRes = HRESULT_FROM_WIN32(GetLastError()); } return bRes; } #endif HCERTSTORE OpenRequestStore(IEnroll * pEnroll, HRESULT * phResult) { ASSERT(NULL != phResult); HCERTSTORE hStore = NULL; WCHAR * bstrStoreName, * bstrStoreType; long dwStoreFlags; VERIFY(SUCCEEDED(pEnroll->get_RequestStoreNameWStr(&bstrStoreName))); VERIFY(SUCCEEDED(pEnroll->get_RequestStoreTypeWStr(&bstrStoreType))); VERIFY(SUCCEEDED(pEnroll->get_RequestStoreFlags(&dwStoreFlags))); size_t store_type_len = _tcslen(bstrStoreType); char * szStoreProvider = (char *) LocalAlloc(LPTR,store_type_len + 1); ASSERT(szStoreProvider != NULL); size_t n = wcstombs(szStoreProvider, bstrStoreType, store_type_len); szStoreProvider[n] = '\0'; hStore = CertOpenStore( szStoreProvider, PKCS_7_ASN_ENCODING | X509_ASN_ENCODING, NULL, dwStoreFlags, bstrStoreName ); CoTaskMemFree(bstrStoreName); CoTaskMemFree(bstrStoreType); if (hStore == NULL) { *phResult = HRESULT_FROM_WIN32(GetLastError()); } if (szStoreProvider) { LocalFree(szStoreProvider);szStoreProvider=NULL; } return hStore; } HCERTSTORE OpenMyStore(IEnroll * pEnroll, HRESULT * phResult) { ASSERT(NULL != phResult); HCERTSTORE hStore = NULL; BSTR bstrStoreName, bstrStoreType; long dwStoreFlags; VERIFY(SUCCEEDED(pEnroll->get_MyStoreNameWStr(&bstrStoreName))); VERIFY(SUCCEEDED(pEnroll->get_MyStoreTypeWStr(&bstrStoreType))); VERIFY(SUCCEEDED(pEnroll->get_MyStoreFlags(&dwStoreFlags))); size_t store_type_len = _tcslen(bstrStoreType); char * szStoreProvider = (char *) LocalAlloc(LPTR,store_type_len + 1); ASSERT(szStoreProvider != NULL); size_t n = wcstombs(szStoreProvider, bstrStoreType, store_type_len); ASSERT(n != -1); // this converter doesn't set zero byte!!! szStoreProvider[n] = '\0'; hStore = CertOpenStore( szStoreProvider, PKCS_7_ASN_ENCODING | X509_ASN_ENCODING, NULL, dwStoreFlags, bstrStoreName ); CoTaskMemFree(bstrStoreName); CoTaskMemFree(bstrStoreType); if (hStore == NULL) { *phResult = HRESULT_FROM_WIN32(GetLastError()); } if (szStoreProvider) { LocalFree(szStoreProvider);szStoreProvider=NULL; } return hStore; } BOOL GetStringProperty(PCCERT_CONTEXT pCertContext, DWORD propId, CString& str, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb = 0; BYTE * prop = NULL; DWORD cbData = 0; void * pData = NULL; // compare property value if (!CertGetCertificateContextProperty(pCertContext, propId, NULL, &cb)) { goto GetStringProperty_Exit; } prop = (BYTE *) LocalAlloc(LPTR,cb); if (NULL == prop) { goto GetStringProperty_Exit; } if (!CertGetCertificateContextProperty(pCertContext, propId, prop, &cb)) { goto GetStringProperty_Exit; } // decode this instance name property if (!CryptDecodeObject(CRYPT_ASN_ENCODING, X509_UNICODE_ANY_STRING,prop, cb, 0, NULL, &cbData)) { goto GetStringProperty_Exit; } pData = LocalAlloc(LPTR,cbData); if (NULL == pData) { goto GetStringProperty_Exit; } if (!CryptDecodeObject(CRYPT_ASN_ENCODING, X509_UNICODE_ANY_STRING,prop, cb, 0, pData, &cbData)) { goto GetStringProperty_Exit; } else { CERT_NAME_VALUE * pName = (CERT_NAME_VALUE *)pData; DWORD cch = pName->Value.cbData/sizeof(TCHAR); void * p = str.GetBuffer(cch); memcpy(p, pName->Value.pbData, pName->Value.cbData); str.ReleaseBuffer(cch); bRes = TRUE; } GetStringProperty_Exit: if (!bRes) { *phRes = HRESULT_FROM_WIN32(GetLastError()); } if (prop) { LocalFree(prop);prop=NULL; } if (pData) { LocalFree(pData);pData=NULL; } return bRes; } BOOL GetBlobProperty(PCCERT_CONTEXT pCertContext, DWORD propId, CCryptBlob& blob, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb; // compare property value if ( CertGetCertificateContextProperty(pCertContext, propId, NULL, &cb) && blob.Resize(cb) && CertGetCertificateContextProperty(pCertContext, propId, blob.GetData(), &cb) ) { bRes = TRUE; } if (!bRes) *phRes = HRESULT_FROM_WIN32(GetLastError()); return bRes; } PCCERT_CONTEXT GetPendingDummyCert(const CString& inst_name, IEnroll * pEnroll, HRESULT * phRes) { PCCERT_CONTEXT pRes = NULL; HCERTSTORE hStore = OpenRequestStore(pEnroll, phRes); if (hStore != NULL) { DWORD dwPropId = CERTWIZ_INSTANCE_NAME_PROP_ID; PCCERT_CONTEXT pDummyCert = NULL; while (NULL != (pDummyCert = CertFindCertificateInStore(hStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_PROPERTY, (LPVOID)&dwPropId, pDummyCert))) { CString str; if (GetStringProperty(pDummyCert, dwPropId, str, phRes)) { if (str.CompareNoCase(inst_name) == 0) { pRes = pDummyCert; break; } } } CertCloseStore(hStore, CERT_CLOSE_STORE_CHECK_FLAG); } return pRes; } PCCERT_CONTEXT GetReqCertByKey(IEnroll * pEnroll, CERT_PUBLIC_KEY_INFO * pKeyInfo, HRESULT * phResult) { PCCERT_CONTEXT pRes = NULL; HCERTSTORE hStore = OpenRequestStore(pEnroll, phResult); if (hStore != NULL) { if (NULL != (pRes = CertFindCertificateInStore(hStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_PUBLIC_KEY, (LPVOID)pKeyInfo, NULL))) { *phResult = S_OK; } VERIFY(CertCloseStore(hStore, CERT_CLOSE_STORE_CHECK_FLAG)); } return pRes; } #define CERT_QUERY_CONTENT_FLAGS\ CERT_QUERY_CONTENT_FLAG_CERT\ |CERT_QUERY_CONTENT_FLAG_PKCS7_SIGNED\ |CERT_QUERY_CONTENT_FLAG_SERIALIZED_STORE\ |CERT_QUERY_CONTENT_FLAG_PKCS7_UNSIGNED PCCERT_CONTEXT GetCertContextFromPKCS7File(const CString& resp_file_name, CERT_PUBLIC_KEY_INFO * pKeyInfo, HRESULT * phResult) { ASSERT(phResult != NULL); PCCERT_CONTEXT pRes = NULL; HANDLE hFile; if (INVALID_HANDLE_VALUE != (hFile = CreateFile(resp_file_name, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL))) { // find the length of the buffer DWORD cbData = GetFileSize(hFile, NULL); BYTE * pbData = NULL; // alloc temp buffer if ((pbData = (BYTE *) LocalAlloc(LPTR,cbData)) != NULL) { DWORD cb = 0; if (ReadFile(hFile, pbData, cbData, &cb, NULL)) { ASSERT(cb == cbData); pRes = GetCertContextFromPKCS7(pbData, cb, pKeyInfo, phResult); } else *phResult = HRESULT_FROM_WIN32(GetLastError()); } CloseHandle(hFile); if (pbData) { LocalFree(pbData);pbData=NULL; } } else *phResult = HRESULT_FROM_WIN32(GetLastError()); return pRes; } PCCERT_CONTEXT GetCertContextFromPKCS7(const BYTE * pbData, DWORD cbData, CERT_PUBLIC_KEY_INFO * pKeyInfo, HRESULT * phResult) { ASSERT(phResult != NULL); PCCERT_CONTEXT pRes = NULL; CRYPT_DATA_BLOB blob; memset(&blob, 0, sizeof(CRYPT_DATA_BLOB)); blob.cbData = cbData; blob.pbData = (BYTE *)pbData; HCERTSTORE hStoreMsg = NULL; if(CryptQueryObject(CERT_QUERY_OBJECT_BLOB, &blob, (CERT_QUERY_CONTENT_FLAG_CERT | CERT_QUERY_CONTENT_FLAG_PKCS7_SIGNED | CERT_QUERY_CONTENT_FLAG_SERIALIZED_STORE | CERT_QUERY_CONTENT_FLAG_PKCS7_UNSIGNED) , CERT_QUERY_FORMAT_FLAG_ALL, 0, NULL, NULL, NULL, &hStoreMsg, NULL, NULL)) { if (pKeyInfo != NULL) pRes = CertFindCertificateInStore(hStoreMsg, X509_ASN_ENCODING, 0, CERT_FIND_PUBLIC_KEY, pKeyInfo, NULL); else pRes = CertFindCertificateInStore(hStoreMsg, X509_ASN_ENCODING, 0, CERT_FIND_ANY, NULL, NULL); if (pRes == NULL) *phResult = HRESULT_FROM_WIN32(GetLastError()); CertCloseStore(hStoreMsg, CERT_CLOSE_STORE_CHECK_FLAG); } else *phResult = HRESULT_FROM_WIN32(GetLastError()); return pRes; } BOOL FormatDateString(CString& str, FILETIME ft, BOOL fIncludeTime, BOOL fLongFormat) { int cch; int cch2; LPWSTR psz; SYSTEMTIME st; FILETIME localTime; if (!FileTimeToLocalFileTime(&ft, &localTime)) { return FALSE; } if (!FileTimeToSystemTime(&localTime, &st)) { // // if the conversion to local time failed, then just use the original time // if (!FileTimeToSystemTime(&ft, &st)) { return FALSE; } } cch = (GetTimeFormat(LOCALE_SYSTEM_DEFAULT, 0, &st, NULL, NULL, 0) + GetDateFormat(LOCALE_SYSTEM_DEFAULT, fLongFormat ? DATE_LONGDATE : 0, &st, NULL, NULL, 0) + 5); if (NULL == (psz = str.GetBuffer((cch+5) * sizeof(WCHAR)))) { return FALSE; } cch2 = GetDateFormat(LOCALE_SYSTEM_DEFAULT, fLongFormat ? DATE_LONGDATE : 0, &st, NULL, psz, cch); if (fIncludeTime) { psz[cch2-1] = ' '; GetTimeFormat(LOCALE_SYSTEM_DEFAULT, TIME_NOSECONDS, &st, NULL, &psz[cch2], cch-cch2); } str.ReleaseBuffer(); return TRUE; } BOOL MyGetOIDInfo(LPWSTR string, DWORD stringSize, LPSTR pszObjId) { PCCRYPT_OID_INFO pOIDInfo; if (NULL != (pOIDInfo = CryptFindOIDInfo(CRYPT_OID_INFO_OID_KEY, pszObjId, 0))) { if ((DWORD)wcslen(pOIDInfo->pwszName)+1 <= stringSize) { if (FAILED(StringCbCopy(string,stringSize * sizeof(WCHAR),pOIDInfo->pwszName))) { return FALSE; } } else { return FALSE; } } else { return (MultiByteToWideChar(CP_ACP, 0, pszObjId, -1, string, stringSize) != 0); } return TRUE; } BOOL GetKeyUsageProperty(PCCERT_CONTEXT pCertContext, CERT_ENHKEY_USAGE ** pKeyUsage, BOOL fPropertiesOnly, HRESULT * phRes) { DWORD cb = 0; BOOL bRes = FALSE; if (!CertGetEnhancedKeyUsage(pCertContext, fPropertiesOnly ? CERT_FIND_PROP_ONLY_ENHKEY_USAGE_FLAG : 0, NULL, &cb)) { *phRes = HRESULT_FROM_WIN32(GetLastError()); goto ErrExit; } if (NULL == (*pKeyUsage = (CERT_ENHKEY_USAGE *)malloc(cb))) { *phRes = E_OUTOFMEMORY; goto ErrExit; } if (!CertGetEnhancedKeyUsage (pCertContext, fPropertiesOnly ? CERT_FIND_PROP_ONLY_ENHKEY_USAGE_FLAG : 0, *pKeyUsage, &cb)) { free(*pKeyUsage); *phRes = HRESULT_FROM_WIN32(GetLastError()); goto ErrExit; } *phRes = S_OK; bRes = TRUE; ErrExit: return bRes; } BOOL GetFriendlyName(PCCERT_CONTEXT pCertContext, CString& name, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb; BYTE * pName = NULL; if ( CertGetCertificateContextProperty(pCertContext, CERT_FRIENDLY_NAME_PROP_ID, NULL, &cb) && NULL != (pName = (BYTE *)name.GetBuffer((cb + 1)/sizeof(TCHAR))) && CertGetCertificateContextProperty(pCertContext, CERT_FRIENDLY_NAME_PROP_ID, pName, &cb) ) { pName[cb] = 0; bRes = TRUE; } else { *phRes = HRESULT_FROM_WIN32(GetLastError()); } if (pName != NULL && name.IsEmpty()) { name.ReleaseBuffer(); } return bRes; } BOOL GetNameString(PCCERT_CONTEXT pCertContext, DWORD type, DWORD flag, CString& name, HRESULT * phRes) { BOOL bRes = FALSE; LPTSTR pName; DWORD cchName = CertGetNameString(pCertContext, type, flag, NULL, NULL, 0); if (cchName > 1 && (NULL != (pName = name.GetBuffer(cchName)))) { bRes = (1 != CertGetNameString(pCertContext, type, flag, NULL, pName, cchName)); name.ReleaseBuffer(); } else { *phRes = HRESULT_FROM_WIN32(GetLastError()); } return bRes; } // Return: // 0 = The CertContext does not have a EnhancedKeyUsage (EKU) field // 1 = The CertContext has EnhancedKeyUsage (EKU) and contains the uses we want. // This is also returned when The UsageIdentifier that depics "all uses" is true // 2 = The CertContext has EnhancedKeyUsage (EKU) but does NOT contain the uses we want. // This is also returned when The UsageIdentifier that depics "no uses" is true INT ContainsKeyUsageProperty(PCCERT_CONTEXT pCertContext, CArray& uses, HRESULT * phRes ) { // Default it with "No EnhancedKeyUsage (EKU) Exist" INT iReturn = 0; CERT_ENHKEY_USAGE * pKeyUsage = NULL; if ( uses.GetSize() > 0 && GetKeyUsageProperty(pCertContext, &pKeyUsage, FALSE, phRes) ) { if (pKeyUsage->cUsageIdentifier == 0) { /* But in MSDN article about SR (see: ms-help://MS.MSDNQTR.2002APR.1033/security/security/certgetenhancedkeyusage.htm) In Windows Me and Windows 2000 and later, if the cUsageIdentifier member is zero (0), the certificate might be valid for ALL uses or the certificate might have no valid uses. The return from a call to GetLastError can be used to determine whether the certificate is good for all uses or for none. If GetLastError returns CRYPT_E_NOT_FOUND, the certificate is good for all uses. If it returns zero (0), the certificate has no valid uses. */ // Default it with "has EnhancedKeyUsage (EKU), but doesn't have what we want" iReturn = 2; if (GetLastError() == CRYPT_E_NOT_FOUND) { // All uses! iReturn = 1; } } else { // Default it with "has EnhancedKeyUsage (EKU), but doesn't have what we want" iReturn = 2; for (DWORD i = 0; i < pKeyUsage->cUsageIdentifier; i++) { // Our friends from CAPI made this property ASCII even for // UNICODE program for (int n = 0; n < uses.GetSize(); n++) { if (strstr(pKeyUsage->rgpszUsageIdentifier[i], uses[n]) != NULL) { iReturn = 1; break; } } } } free(pKeyUsage); } return iReturn; } BOOL FormatEnhancedKeyUsageString(CString& str, PCCERT_CONTEXT pCertContext, BOOL fPropertiesOnly, BOOL fMultiline, HRESULT * phRes) { CERT_ENHKEY_USAGE * pKeyUsage = NULL; WCHAR szText[CRYPTUI_MAX_STRING_SIZE]; BOOL bRes = FALSE; if (GetKeyUsageProperty(pCertContext, &pKeyUsage, fPropertiesOnly, phRes)) { // loop for each usage and add it to the display string for (DWORD i = 0; i < pKeyUsage->cUsageIdentifier; i++) { if (!(bRes = MyGetOIDInfo(szText, ARRAYSIZE(szText), pKeyUsage->rgpszUsageIdentifier[i]))) break; // add delimeter if not first iteration if (i != 0) { str += fMultiline ? L"\n" : L", "; } // add the enhanced key usage string str += szText; } free (pKeyUsage); } else { str.LoadString(IDS_ANY); bRes = TRUE; } return bRes; } BOOL GetServerComment(const CString& machine_name, const CString& server_name, CString& comment, HRESULT * phResult) { ASSERT(!machine_name.IsEmpty()); ASSERT(!server_name.IsEmpty()); *phResult = S_OK; CComAuthInfo auth(machine_name); CMetaKey key(&auth, server_name, METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE ); if (key.Succeeded()) { return SUCCEEDED(*phResult = key.QueryValue(MD_SERVER_COMMENT, comment)); } else { *phResult = key.QueryResult(); return FALSE; } } /* GetInstalledCert Function reads cert hash attribute from metabase using machine_name and server name as server instance description, then looks in MY store for a certificate with hash equal found in metabase. Return is cert context pointer or NULL, if cert wasn't found or certificate store wasn't opened. On return HRESULT * is filled by error code. */ PCCERT_CONTEXT GetInstalledCert(const CString& machine_name, const CString& server_name, IEnroll * pEnroll, HRESULT * phResult) { ASSERT(pEnroll != NULL); ASSERT(phResult != NULL); ASSERT(!machine_name.IsEmpty()); ASSERT(!server_name.IsEmpty()); PCCERT_CONTEXT pCert = NULL; *phResult = S_OK; CComAuthInfo auth(machine_name); CMetaKey key(&auth, server_name, METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE ); if (key.Succeeded()) { CString store_name; CBlob hash; if ( SUCCEEDED(*phResult = key.QueryValue(MD_SSL_CERT_STORE_NAME, store_name)) && SUCCEEDED(*phResult = key.QueryValue(MD_SSL_CERT_HASH, hash)) ) { // Open MY store. We assume that store type and flags // cannot be changed between installation and unistallation // of the sertificate. HCERTSTORE hStore = OpenMyStore(pEnroll, phResult); ASSERT(hStore != NULL); if (hStore != NULL) { // Now we need to find cert by hash CRYPT_HASH_BLOB crypt_hash; ZeroMemory(&crypt_hash, sizeof(CRYPT_HASH_BLOB)); crypt_hash.cbData = hash.GetSize(); crypt_hash.pbData = hash.GetData(); pCert = CertFindCertificateInStore(hStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_HASH, (LPVOID)&crypt_hash, NULL); if (pCert == NULL) *phResult = HRESULT_FROM_WIN32(GetLastError()); VERIFY(CertCloseStore(hStore, 0)); } } } else { *phResult = key.QueryResult(); } return pCert; } /* GetInstalledCert Function reads cert hash attribute from metabase using machine_name and server name as server instance description, then looks in MY store for a certificate with hash equal found in metabase. Return is cert context pointer or NULL, if cert wasn't found or certificate store wasn't opened. On return HRESULT * is filled by error code. */ CRYPT_HASH_BLOB * GetInstalledCertHash(const CString& machine_name, const CString& server_name, IEnroll * pEnroll, HRESULT * phResult) { ASSERT(pEnroll != NULL); ASSERT(phResult != NULL); ASSERT(!machine_name.IsEmpty()); ASSERT(!server_name.IsEmpty()); CRYPT_HASH_BLOB * pHashBlob = NULL; *phResult = S_OK; CComAuthInfo auth(machine_name); CMetaKey key(&auth, server_name, METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE ); if (key.Succeeded()) { CString store_name; CBlob hash; if ( SUCCEEDED(*phResult = key.QueryValue(MD_SSL_CERT_STORE_NAME, store_name)) && SUCCEEDED(*phResult = key.QueryValue(MD_SSL_CERT_HASH, hash)) ) { pHashBlob = new CRYPT_HASH_BLOB; if (pHashBlob) { pHashBlob->cbData = hash.GetSize(); pHashBlob->pbData = (BYTE *) ::CoTaskMemAlloc(pHashBlob->cbData); if (pHashBlob->pbData) { memcpy(pHashBlob->pbData,hash.GetData(),pHashBlob->cbData); } } } } else { *phResult = key.QueryResult(); } return pHashBlob; } /* InstallHashToMetabase Function writes hash array to metabase. After that IIS could use certificate with that hash from MY store. Function expects server_name in format lm\w3svc\, i.e. from root node down to virtual server */ BOOL InstallHashToMetabase(CRYPT_HASH_BLOB * pHash, const CString& machine_name, const CString& server_name, HRESULT * phResult) { BOOL bRes = FALSE; CComAuthInfo auth(machine_name); CMetaKey key(&auth, server_name, METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE ); if (key.Succeeded()) { CBlob blob; blob.SetValue(pHash->cbData, pHash->pbData, TRUE); bRes = SUCCEEDED(*phResult = key.SetValue(MD_SSL_CERT_HASH, blob)) && SUCCEEDED(*phResult = key.SetValue(MD_SSL_CERT_STORE_NAME, CString(L"MY"))); } else { TRACE(_T("Failed to open metabase key. Error 0x%x\n"), key.QueryResult()); *phResult = key.QueryResult(); } return bRes; } /* InstallCertByHash Function looks in MY store for certificate which has hash equal to pHash parameter. If cert is found, it is installed to metabase. This function is used after xenroll accept() method, which puts certificate to store */ BOOL InstallCertByHash(CRYPT_HASH_BLOB * pHash, const CString& machine_name, const CString& server_name, IEnroll * pEnroll, HRESULT * phResult) { BOOL bRes = FALSE; // we are looking to MY store only HCERTSTORE hStore = OpenMyStore(pEnroll, phResult); if (hStore != NULL) { PCCERT_CONTEXT pCert = CertFindCertificateInStore(hStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_HASH, (LPVOID)pHash, NULL); // now install cert info to IIS MetaBase if (pCert != NULL) { bRes = InstallHashToMetabase(pHash, machine_name, server_name, phResult); CertFreeCertificateContext(pCert); } else { TRACE(_T("FAILED: certificate installation, error 0x%x\n"), GetLastError()); // We definitely need to store the hash of the cert, so error out *phResult = HRESULT_FROM_WIN32(GetLastError()); } VERIFY(CertCloseStore(hStore, 0)); } return bRes; } HRESULT CreateRequest_Base64(const BSTR bstr_dn, IEnroll * pEnroll, BSTR csp_name, DWORD csp_type, BSTR * pOut) { ASSERT(pOut != NULL); ASSERT(bstr_dn != NULL); HRESULT hRes = S_OK; CString strUsage(szOID_PKIX_KP_SERVER_AUTH); CRYPT_DATA_BLOB request = {0, NULL}; pEnroll->put_ProviderType(csp_type); pEnroll->put_ProviderNameWStr(csp_name); if (csp_type == PROV_DH_SCHANNEL) { pEnroll->put_KeySpec(AT_SIGNATURE); } else if (csp_type == PROV_RSA_SCHANNEL) { pEnroll->put_KeySpec(AT_KEYEXCHANGE); } if (SUCCEEDED(hRes = pEnroll->createPKCS10WStr( bstr_dn, (LPTSTR)(LPCTSTR)strUsage, &request))) { WCHAR * wszRequestB64 = NULL; DWORD cch = 0; DWORD err = ERROR_SUCCESS; // BASE64 encode pkcs 10 if ((err = Base64EncodeW(request.pbData, request.cbData, NULL, &cch)) == ERROR_SUCCESS) { wszRequestB64 = (WCHAR *) LocalAlloc(LPTR,cch * sizeof(WCHAR)); if (NULL != wszRequestB64) { if ((err = Base64EncodeW(request.pbData, request.cbData, wszRequestB64, &cch)) == ERROR_SUCCESS) { if ((*pOut = SysAllocStringLen(wszRequestB64, cch)) == NULL ) { hRes = HRESULT_FROM_WIN32(ERROR_OUTOFMEMORY); } } else { hRes = HRESULT_FROM_WIN32(err); } if (request.pbData != NULL) { CoTaskMemFree(request.pbData); } if (wszRequestB64) { LocalFree(wszRequestB64);wszRequestB64=NULL; } } } } return hRes; } BOOL AttachFriendlyName(PCCERT_CONTEXT pContext, const CString& name, HRESULT * phRes) { BOOL bRes = TRUE; CRYPT_DATA_BLOB blob_name; // Check if friendlyname is empty // if it is then don't try to set the friendly name if (!name.IsEmpty()) { blob_name.pbData = (LPBYTE)(LPCTSTR)name; blob_name.cbData = (name.GetLength() + 1) * sizeof(WCHAR); if (!(bRes = CertSetCertificateContextProperty(pContext, CERT_FRIENDLY_NAME_PROP_ID, 0, &blob_name))) { ASSERT(phRes != NULL); *phRes = HRESULT_FROM_WIN32(GetLastError()); } } return bRes; } BOOL GetHashProperty(PCCERT_CONTEXT pCertContext, CCryptBlob& blob, HRESULT * phRes) { DWORD cb; if (CertGetCertificateContextProperty(pCertContext, CERT_SHA1_HASH_PROP_ID, NULL, &cb)) { if (blob.Resize(cb)) { if (CertGetCertificateContextProperty(pCertContext, CERT_SHA1_HASH_PROP_ID, blob.GetData(), &cb)) return TRUE; } } *phRes = HRESULT_FROM_WIN32(GetLastError()); return FALSE; } BOOL EncodeString(CString& str, CCryptBlob& blob, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb; CERT_NAME_VALUE name_value; name_value.dwValueType = CERT_RDN_BMP_STRING; name_value.Value.cbData = 0; name_value.Value.pbData = (LPBYTE)(LPCTSTR)str; if ( CryptEncodeObject(CRYPT_ASN_ENCODING, X509_UNICODE_ANY_STRING, &name_value, NULL, &cb) && blob.Resize(cb) && CryptEncodeObject(CRYPT_ASN_ENCODING, X509_UNICODE_ANY_STRING, &name_value, blob.GetData(), &cb) ) { bRes = TRUE; } else *phRes = HRESULT_FROM_WIN32(GetLastError()); return bRes; } #define CERTWIZ_RENEWAL_DATA ((LPCSTR)1000) BOOL EncodeBlob(CCryptBlob& in, CCryptBlob& out, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb; if ( CryptEncodeObject(CRYPT_ASN_ENCODING, CERTWIZ_RENEWAL_DATA, in, NULL, &cb) && out.Resize(cb) && CryptEncodeObject(CRYPT_ASN_ENCODING, CERTWIZ_RENEWAL_DATA, in, out.GetData(), &cb) ) { bRes = TRUE; } else *phRes = HRESULT_FROM_WIN32(GetLastError()); return bRes; } BOOL DecodeBlob(CCryptBlob& in, CCryptBlob& out, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb; if ( CryptDecodeObject(CRYPT_ASN_ENCODING, CERTWIZ_RENEWAL_DATA, in.GetData(), in.GetSize(), 0, NULL, &cb) && out.Resize(cb) && CryptDecodeObject(CRYPT_ASN_ENCODING, CERTWIZ_RENEWAL_DATA, in.GetData(), in.GetSize(), 0, out.GetData(), &cb) ) { bRes = TRUE; } else *phRes = HRESULT_FROM_WIN32(GetLastError()); return bRes; } BOOL EncodeInteger(int number, CCryptBlob& blob, HRESULT * phRes) { BOOL bRes = FALSE; DWORD cb; if ( CryptEncodeObject(CRYPT_ASN_ENCODING, X509_INTEGER, &number, NULL, &cb) && blob.Resize(cb) && CryptEncodeObject(CRYPT_ASN_ENCODING, X509_INTEGER, &number, blob.GetData(), &cb) ) { bRes = TRUE; } else *phRes = HRESULT_FROM_WIN32(GetLastError()); return bRes; } const WCHAR RgwchHex[] = {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F'}; static BOOL FormatMemBufToString(CString& str, LPBYTE pbData, DWORD cbData) { DWORD i = 0; LPBYTE pb; DWORD numCharsInserted = 0; LPTSTR pString; // // calculate the size needed // pb = pbData; while (pb <= &(pbData[cbData-1])) { if (numCharsInserted == 4) { i += sizeof(WCHAR); numCharsInserted = 0; } else { i += 2 * sizeof(WCHAR); pb++; numCharsInserted += 2; } } if (NULL == (pString = str.GetBuffer(i))) { return FALSE; } // // copy to the buffer // i = 0; numCharsInserted = 0; pb = pbData; while (pb <= &(pbData[cbData-1])) { if (numCharsInserted == 4) { pString[i++] = L' '; numCharsInserted = 0; } else { pString[i++] = RgwchHex[(*pb & 0xf0) >> 4]; pString[i++] = RgwchHex[*pb & 0x0f]; pb++; numCharsInserted += 2; } } pString[i] = 0; str.ReleaseBuffer(); return TRUE; } void FormatRdnAttr(CString& str, DWORD dwValueType, CRYPT_DATA_BLOB& blob, BOOL fAppend) { if ( CERT_RDN_ENCODED_BLOB == dwValueType || CERT_RDN_OCTET_STRING == dwValueType ) { // translate the buffer to a text string FormatMemBufToString(str, blob.pbData, blob.cbData); } else { // buffer is already a string so just copy/append to it if (fAppend) { str += (LPTSTR)blob.pbData; } else { // don't concatenate these entries... str = (LPTSTR)blob.pbData; } } } BOOL CreateDirectoryFromPath(LPCTSTR szPath, LPSECURITY_ATTRIBUTES lpSA) /*++ Routine Description: Creates the directory specified in szPath and any other "higher" directories in the specified path that don't exist. Arguments: IN LPCTSTR szPath directory path to create (assumed to be a DOS path, not a UNC) IN LPSECURITY_ATTRIBUTES lpSA pointer to security attributes argument used by CreateDirectory Return Value: TRUE if directory(ies) created FALSE if error (GetLastError to find out why) --*/ { LPTSTR pLeftHalf, pNext; CString RightHalf; // 1. We are supporting only absolute paths. Caller should decide which // root to use and build the path if (PathIsRelative(szPath)) { ASSERT(FALSE); return FALSE; } pLeftHalf = (LPTSTR)szPath; pNext = PathSkipRoot(pLeftHalf); do { // copy the chunk between pLeftHalf and pNext to the // local buffer while (pLeftHalf < pNext) RightHalf += *pLeftHalf++; // check if new path exists int index = RightHalf.GetLength() - 1; BOOL bBackslash = FALSE, bContinue = FALSE; if (bBackslash = (RightHalf[index] == L'\\')) { RightHalf.SetAt(index, 0); } bContinue = PathIsUNCServerShare(RightHalf); if (bBackslash) RightHalf.SetAt(index, L'\\'); if (bContinue || PathIsDirectory(RightHalf)) continue; else if (PathFileExists(RightHalf)) { // we cannot create this directory // because file with this name already exists SetLastError(ERROR_ALREADY_EXISTS); return FALSE; } else { // no file no directory, create if (!CreateDirectory(RightHalf, lpSA)) return FALSE; } } while (NULL != (pNext = PathFindNextComponent(pLeftHalf))); return TRUE; } BOOL CompactPathToWidth(CWnd * pControl, CString& strPath) { BOOL bRes; CRect rc; CFont * pFont = pControl->GetFont(), * pFontTmp; CDC * pdc = pControl->GetDC(), dc; LPTSTR pPath = strPath.GetBuffer(MAX_PATH); dc.CreateCompatibleDC(pdc); pFontTmp = dc.SelectObject(pFont); pControl->GetClientRect(&rc); bRes = PathCompactPath(dc.GetSafeHdc(), pPath, rc.Width()); dc.SelectObject(pFontTmp); pControl->ReleaseDC(pdc); strPath.ReleaseBuffer(); return bRes; } BOOL GetKeySizeLimits(IEnroll * pEnroll, DWORD * min, DWORD * max, DWORD * def, BOOL bGSC, HRESULT * phRes) { HCRYPTPROV hProv = NULL; long dwProviderType; DWORD dwFlags, cbData; BSTR bstrProviderName; PROV_ENUMALGS_EX paramData; BOOL bRes = FALSE; VERIFY(SUCCEEDED(pEnroll->get_ProviderNameWStr(&bstrProviderName))); VERIFY(SUCCEEDED(pEnroll->get_ProviderType(&dwProviderType))); if (!CryptAcquireContext( &hProv, NULL, bstrProviderName, dwProviderType, CRYPT_VERIFYCONTEXT)) { *phRes = GetLastError(); return FALSE; } for (int i = 0; ; i++) { dwFlags = 0 == i ? CRYPT_FIRST : 0; cbData = sizeof(paramData); if (!CryptGetProvParam(hProv, PP_ENUMALGS_EX, (BYTE*)¶mData, &cbData, dwFlags)) { if (HRESULT_FROM_WIN32(ERROR_NO_MORE_ITEMS) == GetLastError()) { // out of for loop *phRes = S_OK; bRes = TRUE; } else { *phRes = GetLastError(); } break; } if (ALG_CLASS_KEY_EXCHANGE == GET_ALG_CLASS(paramData.aiAlgid)) { *min = paramData.dwMinLen; *max = paramData.dwMaxLen; *def = paramData.dwDefaultLen; bRes = TRUE; *phRes = S_OK; break; } } if (NULL != hProv) { CryptReleaseContext(hProv, 0); } return bRes; } HRESULT ShutdownSSL(CString& machine_name, CString& server_name) { CString str = server_name; str += _T("/root"); CComAuthInfo auth(machine_name); CMetaKey key(&auth, str,METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE); DWORD dwSslAccess; if ( key.Succeeded() && SUCCEEDED(key.QueryValue(MD_SSL_ACCESS_PERM, dwSslAccess)) && dwSslAccess > 0 ) { // bug356587 should remove SslAccessPerm property and not set to 0 when Cert Removed key.SetValue(MD_SSL_ACCESS_PERM, 0); key.DeleteValue(MD_SSL_ACCESS_PERM); //bug:612595 leave binding if removing cert. //key.DeleteValue(MD_SECURE_BINDINGS); } // Now we need to remove SSL setting from any virtual directory below CError err; CStringListEx strlDataPaths; DWORD dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType; VERIFY(CMetaKey::GetMDFieldDef(MD_SSL_ACCESS_PERM, dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType)); err = key.GetDataPaths(strlDataPaths,dwMDIdentifier,dwMDDataType); if (err.Succeeded() && !strlDataPaths.IsEmpty()) { POSITION pos = strlDataPaths.GetHeadPosition(); while (pos) { CString& str2 = strlDataPaths.GetNext(pos); if (SUCCEEDED(key.QueryValue(MD_SSL_ACCESS_PERM, dwSslAccess, NULL, str2)) && dwSslAccess > 0) { key.SetValue(MD_SSL_ACCESS_PERM, 0, NULL, str2); key.DeleteValue(MD_SSL_ACCESS_PERM, str2); //bug:612595 leave binding if removing cert. //key.DeleteValue(MD_SECURE_BINDINGS, str2); } } } return key.QueryResult(); } BOOL GetServerComment(const CString& machine_name, const CString& user_name, const CString& user_password, CString& MetabaseNode, CString& comment, HRESULT * phResult ) { ASSERT(!machine_name.IsEmpty()); *phResult = S_OK; if (user_name.IsEmpty()) { CComAuthInfo auth(machine_name); CMetaKey key(&auth,MetabaseNode,METADATA_PERMISSION_READ); if (key.Succeeded()) { return SUCCEEDED(*phResult = key.QueryValue(MD_SERVER_COMMENT, comment)); } else { *phResult = key.QueryResult(); return FALSE; } } else { CComAuthInfo auth(machine_name,user_name,user_password); CMetaKey key(&auth,MetabaseNode,METADATA_PERMISSION_READ); if (key.Succeeded()) { return SUCCEEDED(*phResult = key.QueryValue(MD_SERVER_COMMENT, comment)); } else { *phResult = key.QueryResult(); return FALSE; } } } BOOL IsSiteTypeMetabaseNode(CString & MetabasePath) { BOOL bReturn = FALSE; INT iPos1 = 0; CString PathCopy = MetabasePath; CString PathCopy2; TCHAR MyChar; // check if ends with a slash... // if it does, then cut it off if (PathCopy.Right(1) == _T('/')) { iPos1 = PathCopy.ReverseFind(_T('/')); if (iPos1 != -1) { PathCopy.SetAt(iPos1,_T('0')); } } iPos1 = PathCopy.ReverseFind((TCHAR) _T('/')); if (iPos1 == -1) { goto IsSiteTypeMetabaseNode_Exit; } PathCopy2 = PathCopy.Right(PathCopy.GetLength() - iPos1); PathCopy2.TrimRight(); for (INT i = 0; i < PathCopy2.GetLength(); i++) { MyChar = PathCopy2.GetAt(i); if (MyChar != _T(' ') && MyChar != _T('/')) { if (FALSE == ISNUM(MyChar)) { goto IsSiteTypeMetabaseNode_Exit; } } } bReturn = TRUE; IsSiteTypeMetabaseNode_Exit: return bReturn; } BOOL IsMachineLocal(CString& machine_name,CString& user_name,CString& user_password) { CComAuthInfo auth(machine_name,user_name,user_password); return auth.IsLocal(); } HRESULT EnumSites(CString& machine_name,CString& user_name,CString& user_password,CString strCurrentMetabaseSite, CString strSiteToExclude,CStringListEx * MyStringList) { HRESULT hr = E_FAIL; CString str = ReturnGoodMetabaseServerPath(strCurrentMetabaseSite); CString strChildPath = _T(""); CString strServerComment; BOOL IsLocalMachine = FALSE; CComAuthInfo auth(machine_name,user_name,user_password); CMetaKey key(&auth,str,METADATA_PERMISSION_READ); // if it's local then make sure not to diplay the current site IsLocalMachine = auth.IsLocal(); hr = key.QueryResult(); if (key.Succeeded()) { // Do a Get data paths on this key. CError err; CStringListEx strlDataPaths; CBlob hash; DWORD dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType; VERIFY(CMetaKey::GetMDFieldDef(MD_SERVER_BINDINGS, dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType)); err = key.GetDataPaths(strlDataPaths,dwMDIdentifier,dwMDDataType); if (err.Succeeded() && !strlDataPaths.IsEmpty()) { POSITION pos = strlDataPaths.GetHeadPosition(); while (pos) { CString& strJustTheEnd = strlDataPaths.GetNext(pos); strChildPath = str + strJustTheEnd; if (TRUE == IsSiteTypeMetabaseNode(strChildPath)) { if (TRUE == IsLocalMachine) { // Check if this the site that we want to exclude if (strChildPath.Left(1) == _T("/")) { if (strSiteToExclude.Left(1) != _T("/")) {strSiteToExclude = _T("/") + strSiteToExclude;} } if (strChildPath.Right(1) == _T("/")) { if (strSiteToExclude.Right(1) != _T("/")) {strSiteToExclude = strSiteToExclude + _T("/");} } if (0 != _tcsicmp(strChildPath,strSiteToExclude)) { MyStringList->AddTail(strChildPath); } } else { MyStringList->AddTail(strChildPath); } } } } hr = key.QueryResult(); } return hr; } HRESULT EnumSitesWithCertInstalled(CString& machine_name,CString& user_name,CString& user_password,CString strCurrentMetabaseSite,CString strSiteToExclude,CStringListEx * MyStringList) { HRESULT hr = E_FAIL; CString str = ReturnGoodMetabaseServerPath(strCurrentMetabaseSite); CString strChildPath = _T(""); CString strServerComment; BOOL IsLocalMachine = FALSE; CComAuthInfo auth(machine_name,user_name,user_password); CMetaKey key(&auth,str,METADATA_PERMISSION_READ); // if it's local then make sure not to diplay the current site IsLocalMachine = auth.IsLocal(); hr = key.QueryResult(); if (key.Succeeded()) { // Do a Get data paths on this key. CError err; CStringListEx strlDataPaths; CBlob hash; DWORD dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType; //MD_SSL_CERT_STORE_NAME //MD_SSL_CERT_HASH, hash VERIFY(CMetaKey::GetMDFieldDef(MD_SSL_CERT_HASH, dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType)); err = key.GetDataPaths(strlDataPaths,dwMDIdentifier,dwMDDataType); if (err.Succeeded() && !strlDataPaths.IsEmpty()) { POSITION pos = strlDataPaths.GetHeadPosition(); while (pos) { CString& strJustTheEnd = strlDataPaths.GetNext(pos); strChildPath = str + strJustTheEnd; if (TRUE == IsSiteTypeMetabaseNode(strChildPath)) { // check if this is a local machine. if (TRUE == IsLocalMachine) { if (strChildPath.Left(1) == _T("/")) { if (strSiteToExclude.Left(1) != _T("/")) {strSiteToExclude = _T("/") + strSiteToExclude;} } if (strChildPath.Right(1) == _T("/")) { if (strSiteToExclude.Right(1) != _T("/")) {strSiteToExclude = strSiteToExclude + _T("/");} } // Check if this the site that we want to exclude if (0 != _tcsicmp(strChildPath,strSiteToExclude)) { MyStringList->AddTail(strChildPath); } } else { MyStringList->AddTail(strChildPath); } } } } hr = key.QueryResult(); } return hr; } BOOL IsWebSiteExistRemote(CString& machine_name,CString& user_name,CString& user_password,CString& site_instance_path,BOOL * bReturnIfCertificateExists) { HRESULT hr = E_FAIL; CComAuthInfo auth(machine_name,user_name,user_password); CMetaKey key(&auth,site_instance_path,METADATA_PERMISSION_READ); *bReturnIfCertificateExists = FALSE; hr = key.QueryResult(); if (key.Succeeded()) { // see if there is a certificate on it! CString store_name; CBlob hash; if ( SUCCEEDED(hr = key.QueryValue(MD_SSL_CERT_STORE_NAME, store_name)) && SUCCEEDED(hr = key.QueryValue(MD_SSL_CERT_HASH, hash)) ) { *bReturnIfCertificateExists = TRUE; } return TRUE; } else { if (hr == ERROR_ACCESS_DENIED) { return TRUE; } else { return FALSE; } } } HRESULT IsWebServerExistRemote(CString& machine_name,CString& user_name,CString& user_password,CString strCurrentMetabaseSite) { HRESULT hr = E_FAIL; CString str = ReturnGoodMetabaseServerPath(strCurrentMetabaseSite); CComAuthInfo auth(machine_name,user_name,user_password); CMetaKey key(&auth,str,METADATA_PERMISSION_READ); hr = key.QueryResult(); if (key.Succeeded()) { // i guess so. } return hr; } HRESULT IsCertObjExistRemote(CString& machine_name,CString& user_name,CString& user_password) { BOOL bPleaseDoCoUninit = FALSE; HRESULT hResult = E_FAIL; IIISCertObj *pTheObject = NULL; hResult = CoInitialize(NULL); if(FAILED(hResult)) { return hResult; } bPleaseDoCoUninit = TRUE; CComAuthInfo auth(machine_name,user_name,user_password); // RPC_C_AUTHN_LEVEL_DEFAULT 0 // RPC_C_AUTHN_LEVEL_NONE 1 // RPC_C_AUTHN_LEVEL_CONNECT 2 // RPC_C_AUTHN_LEVEL_CALL 3 // RPC_C_AUTHN_LEVEL_PKT 4 // RPC_C_AUTHN_LEVEL_PKT_INTEGRITY 5 // RPC_C_AUTHN_LEVEL_PKT_PRIVACY 6 COSERVERINFO * pcsiName = auth.CreateServerInfoStruct(RPC_C_AUTHN_LEVEL_PKT_PRIVACY); MULTI_QI res[1] = { {&__uuidof(IIISCertObj), NULL, 0} }; // this one seems to work with surrogates.. hResult = CoCreateInstanceEx(CLSID_IISCertObj,NULL,CLSCTX_LOCAL_SERVER,pcsiName,1,res); pTheObject = (IIISCertObj *) res[0].pItf; if (FAILED(hResult)) { // The object probably doesn't exist on remote system } else { // at this point we were able to instantiate the com object on the server (local or remote) if (auth.UsesImpersonation()) { HRESULT hr = auth.ApplyProxyBlanket(pTheObject,RPC_C_AUTHN_LEVEL_PKT_PRIVACY); // There is a remote IUnknown Interface that lurks behind IUnknown. // If that is not set, then the Release call can return access denied. IUnknown * pUnk = NULL; if(FAILED(pTheObject->QueryInterface(IID_IUnknown, (void **)&pUnk))) { goto IsCertObjExistRemote_Exit; } if (FAILED(auth.ApplyProxyBlanket(pUnk,RPC_C_AUTHN_LEVEL_PKT_PRIVACY))) { goto IsCertObjExistRemote_Exit; } pUnk->Release();pUnk = NULL; } auth.FreeServerInfoStruct(pcsiName); } IsCertObjExistRemote_Exit: if (pTheObject) { pTheObject->Release(); pTheObject = NULL; } if (bPleaseDoCoUninit) { CoUninitialize(); } return hResult; } HRESULT IsCertUsedBySSLBelowMe(CString& machine_name, CString& server_name, CStringList& listFillMe) { CString str = server_name; str += _T("/root"); CComAuthInfo auth(machine_name); CMetaKey key(&auth, str,METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE); DWORD dwSslAccess; if ( key.Succeeded() && SUCCEEDED(key.QueryValue(MD_SSL_ACCESS_PERM, dwSslAccess)) && dwSslAccess > 0 ) { // it's used on my node... // return back something to say it's used... listFillMe.AddTail(str); } // Now check if it's being used below me... CError err; CStringListEx strlDataPaths; DWORD dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType; VERIFY(CMetaKey::GetMDFieldDef(MD_SSL_ACCESS_PERM, dwMDIdentifier, dwMDAttributes, dwMDUserType,dwMDDataType)); err = key.GetDataPaths(strlDataPaths,dwMDIdentifier,dwMDDataType); if (err.Succeeded() && !strlDataPaths.IsEmpty()) { POSITION pos = strlDataPaths.GetHeadPosition(); while (pos) { CString& str2 = strlDataPaths.GetNext(pos); if (SUCCEEDED(key.QueryValue(MD_SSL_ACCESS_PERM, dwSslAccess, NULL, str2)) && dwSslAccess > 0) { // yes, it's being used here... // return back something to say it's used... listFillMe.AddTail(str2); } } } return key.QueryResult(); } HRESULT HereIsVtArrayGimmieBinary( VARIANT * lpVarSrcObject, DWORD * cbBinaryBufferSize, char **pbBinaryBuffer, BOOL bReturnBinaryAsVT_VARIANT ) { HRESULT hr = S_OK; LONG dwSLBound = 0; LONG dwSUBound = 0; CHAR HUGEP *pArray = NULL; if (NULL == cbBinaryBufferSize || NULL == pbBinaryBuffer) { hr = E_INVALIDARG; goto HereIsVtArrayGimmieBinary_Exit; } if (bReturnBinaryAsVT_VARIANT) { hr = VariantChangeType(lpVarSrcObject,lpVarSrcObject,0,VT_ARRAY | VT_VARIANT); } else { hr = VariantChangeType(lpVarSrcObject,lpVarSrcObject,0,VT_ARRAY | VT_UI1); } if (FAILED(hr)) { if (hr != E_OUTOFMEMORY) { hr = OLE_E_CANTCONVERT; } goto HereIsVtArrayGimmieBinary_Exit; } if (bReturnBinaryAsVT_VARIANT) { if( lpVarSrcObject->vt != (VT_ARRAY | VT_VARIANT)) { hr = OLE_E_CANTCONVERT; goto HereIsVtArrayGimmieBinary_Exit; } } else { if( lpVarSrcObject->vt != (VT_ARRAY | VT_UI1)) { hr = OLE_E_CANTCONVERT; goto HereIsVtArrayGimmieBinary_Exit; } } hr = SafeArrayGetLBound(V_ARRAY(lpVarSrcObject),1,(long FAR *) &dwSLBound ); if (FAILED(hr)) {goto HereIsVtArrayGimmieBinary_Exit;} hr = SafeArrayGetUBound(V_ARRAY(lpVarSrcObject),1,(long FAR *) &dwSUBound ); if (FAILED(hr)) {goto HereIsVtArrayGimmieBinary_Exit;} //*pbBinaryBuffer = (LPBYTE) AllocADsMem(dwSUBound - dwSLBound + 1); *pbBinaryBuffer = (char *) ::CoTaskMemAlloc(dwSUBound - dwSLBound + 1); if (*pbBinaryBuffer == NULL) { hr = E_OUTOFMEMORY; goto HereIsVtArrayGimmieBinary_Exit; } *cbBinaryBufferSize = dwSUBound - dwSLBound + 1; hr = SafeArrayAccessData( V_ARRAY(lpVarSrcObject),(void HUGEP * FAR *) &pArray ); if (FAILED(hr)) {goto HereIsVtArrayGimmieBinary_Exit;} memcpy(*pbBinaryBuffer,pArray,dwSUBound-dwSLBound+1); SafeArrayUnaccessData( V_ARRAY(lpVarSrcObject) ); HereIsVtArrayGimmieBinary_Exit: return hr; } CERT_CONTEXT * GetInstalledCertFromHash(HRESULT * phResult,DWORD cbHashBlob, char * pHashBlob) { ATLASSERT(phResult != NULL); CERT_CONTEXT * pCert = NULL; *phResult = S_OK; CString store_name = _T("MY"); HCERTSTORE hStore = CertOpenStore(CERT_STORE_PROV_SYSTEM,PKCS_7_ASN_ENCODING | X509_ASN_ENCODING,NULL,CERT_SYSTEM_STORE_LOCAL_MACHINE,store_name); ASSERT(hStore != NULL); if (hStore != NULL) { // Now we need to find cert by hash CRYPT_HASH_BLOB crypt_hash; ZeroMemory(&crypt_hash, sizeof(CRYPT_HASH_BLOB)); crypt_hash.cbData = cbHashBlob; crypt_hash.pbData = (BYTE *) pHashBlob; pCert = (CERT_CONTEXT *)CertFindCertificateInStore(hStore,X509_ASN_ENCODING | PKCS_7_ASN_ENCODING,0,CERT_FIND_HASH,(LPVOID)&crypt_hash,NULL); if (pCert == NULL) { *phResult = HRESULT_FROM_WIN32(GetLastError()); } VERIFY(CertCloseStore(hStore, 0)); } else { *phResult = HRESULT_FROM_WIN32(GetLastError()); } return pCert; } BOOL ViewCertificateDialog(CRYPT_HASH_BLOB* pcrypt_hash, HWND hWnd) { BOOL bReturn = FALSE; HCERTSTORE hStore = NULL; PCCERT_CONTEXT pCert = NULL; CString store_name = _T("MY"); hStore = CertOpenStore( CERT_STORE_PROV_SYSTEM, PKCS_7_ASN_ENCODING | X509_ASN_ENCODING, NULL, CERT_SYSTEM_STORE_LOCAL_MACHINE, store_name ); if (hStore != NULL) { // Now we need to find cert by hash //CRYPT_HASH_BLOB crypt_hash; //crypt_hash.cbData = hash.GetSize(); //crypt_hash.pbData = hash.GetData(); pCert = CertFindCertificateInStore(hStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_HASH, (LPVOID)pcrypt_hash, NULL); } if (pCert) { BOOL fPropertiesChanged; CRYPTUI_VIEWCERTIFICATE_STRUCT vcs; HCERTSTORE hCertStore = ::CertDuplicateStore(hStore); ::ZeroMemory (&vcs, sizeof (vcs)); vcs.dwSize = sizeof (vcs); vcs.hwndParent = hWnd; vcs.dwFlags = 0; vcs.cStores = 1; vcs.rghStores = &hCertStore; vcs.pCertContext = pCert; ::CryptUIDlgViewCertificate(&vcs, &fPropertiesChanged); ::CertCloseStore (hCertStore, 0); bReturn = TRUE; } else { // it failed } if (pCert != NULL) ::CertFreeCertificateContext(pCert); if (hStore != NULL) ::CertCloseStore(hStore, 0); return bReturn; } /* -----Original Message----- From: Helle Vu (SPECTOR) Sent: Friday, April 27, 2001 6:02 PM To: Aaron Lee; Trevor Freeman Cc: Sergei Antonov Subject: RE: bug 31010 Perfect timing, I was just about to send you an update on this: I talked to Trevor about this, and he suggested the best thing to do for IIS would be the following (Trevor, please double-check I got this right): If there is an EKU, and it has serverauth, display it in the list to pick web server certs from If no EKU, look at basic constraints: * If we do not have basic constraints, do display it in the list to pick web server certs from * If we do have basic constraints with Subject Type =CA, don't display it in the list to pick web server certs from (this will filter out CA certs) * If we do have basic constraints with SubectType !=CA, do display it in the list to pick web server certs from */ /* ===== Opened by kshenoy on 11/13/2000 02:26PM ===== Add Existing certificate option in "Web Server Certificate Request wizard" should not list CA certificates in the filter but only End entity certificates with "Server Authentication" EKU Since CA certificates by default have all the EKUs the filter will list CA certificates apart from end entity certificates with "Server Auth" EKU. In order to check if a given certificate is a CA or end entity you can look at the Basic Constraints extension of the certificate if present. This will be present in CA certificates and set to SubjectType=CA. If present in end entity certificates it will be set to "ServerAuth" */ int CheckCertConstraints(PCCERT_CONTEXT pCC) { PCERT_EXTENSION pCExt; LPCSTR pszObjId; DWORD i; CERT_BASIC_CONSTRAINTS_INFO *pConstraints=NULL; CERT_BASIC_CONSTRAINTS2_INFO *p2Constraints=NULL; DWORD ConstraintSize=0; int ReturnValue = FAILURE; BOOL Using2=FALSE; void* ConstraintBlob=NULL; pszObjId = szOID_BASIC_CONSTRAINTS; pCExt = CertFindExtension(pszObjId,pCC->pCertInfo->cExtension,pCC->pCertInfo->rgExtension); if (pCExt == NULL) { pszObjId = szOID_BASIC_CONSTRAINTS2; pCExt = CertFindExtension(pszObjId,pCC->pCertInfo->cExtension,pCC->pCertInfo->rgExtension); Using2=TRUE; } if (pCExt == NULL) { ReturnValue = DID_NOT_FIND_CONSTRAINT; goto CheckCertConstraints_Exit; } // Decode extension if (!CryptDecodeObject(X509_ASN_ENCODING,pCExt->pszObjId,pCExt->Value.pbData,pCExt->Value.cbData,0,NULL,&ConstraintSize)) { goto CheckCertConstraints_Exit; } ConstraintBlob = malloc(ConstraintSize); if (ConstraintBlob == NULL) { goto CheckCertConstraints_Exit; } if (!CryptDecodeObject(X509_ASN_ENCODING,pCExt->pszObjId,pCExt->Value.pbData,pCExt->Value.cbData,0,(void*)ConstraintBlob,&ConstraintSize)) { goto CheckCertConstraints_Exit; } if (Using2) { p2Constraints=(CERT_BASIC_CONSTRAINTS2_INFO*)ConstraintBlob; if (!p2Constraints->fCA) { // there is a constraint, and it's not a CA ReturnValue = FOUND_CONSTRAINT; } else { // This is a CA. CA cannot be used as a 'server auth' ReturnValue = FOUND_CONSTRAINT_BUT_THIS_IS_A_CA_OR_ITS_NOT_AN_END_ENTITY; } } else { pConstraints=(CERT_BASIC_CONSTRAINTS_INFO*)ConstraintBlob; if (((pConstraints->SubjectType.cbData * 8) - pConstraints->SubjectType.cUnusedBits) >= 2) { if ((*pConstraints->SubjectType.pbData) & CERT_END_ENTITY_SUBJECT_FLAG) { // there is a valid constraint ReturnValue = FOUND_CONSTRAINT; } else { // this is not an 'end entity' so hey -- we can't use it. ReturnValue = FOUND_CONSTRAINT_BUT_THIS_IS_A_CA_OR_ITS_NOT_AN_END_ENTITY; } } } CheckCertConstraints_Exit: if (ConstraintBlob){free(ConstraintBlob);} return (ReturnValue); } BOOL IsCertExportable(PCCERT_CONTEXT pCertContext) { HCRYPTPROV hCryptProv = NULL; DWORD dwKeySpec = 0; BOOL fCallerFreeProv = FALSE; BOOL fReturn = FALSE; HCRYPTKEY hKey = NULL; DWORD dwPermissions = 0; DWORD dwSize = 0; if (!pCertContext) { fReturn = FALSE; goto IsCertExportable_Exit; } // // first get the private key context // if (!CryptAcquireCertificatePrivateKey( pCertContext, CRYPT_ACQUIRE_USE_PROV_INFO_FLAG | CRYPT_ACQUIRE_COMPARE_KEY_FLAG, NULL, &hCryptProv, &dwKeySpec, &fCallerFreeProv)) { fReturn = FALSE; goto IsCertExportable_Exit; } // // get the handle to the key // if (!CryptGetUserKey(hCryptProv, dwKeySpec, &hKey)) { fReturn = FALSE; goto IsCertExportable_Exit; } // // finally, get the permissions on the key and check if it is exportable // dwSize = sizeof(dwPermissions); if (!CryptGetKeyParam(hKey, KP_PERMISSIONS, (PBYTE)&dwPermissions, &dwSize, 0)) { fReturn = FALSE; goto IsCertExportable_Exit; } fReturn = (dwPermissions & CRYPT_EXPORT) ? TRUE : FALSE; IsCertExportable_Exit: if (hKey != NULL){CryptDestroyKey(hKey);} if (fCallerFreeProv){CryptReleaseContext(hCryptProv, 0);} return fReturn; } BOOL IsCertExportableOnRemoteMachine(CString ServerName,CString UserName,CString UserPassword,CString InstanceName) { BOOL bRes = FALSE; BOOL bPleaseDoCoUninit = FALSE; HRESULT hResult = E_FAIL; IIISCertObj *pTheObject = NULL; VARIANT_BOOL varBool = VARIANT_FALSE; BSTR bstrServerName = SysAllocString(ServerName); BSTR bstrUserName = SysAllocString(UserName); BSTR bstrUserPassword = SysAllocString(UserPassword); BSTR bstrInstanceName = SysAllocString(InstanceName); hResult = CoInitialize(NULL); if(FAILED(hResult)) { return bRes; } bPleaseDoCoUninit = TRUE; // this one seems to work with surrogates.. hResult = CoCreateInstance(CLSID_IISCertObj,NULL,CLSCTX_SERVER,IID_IIISCertObj,(void **)&pTheObject); if (FAILED(hResult)) { goto InstallCopyMoveFromRemote_Exit; } // at this point we were able to instantiate the com object on the server (local or remote) pTheObject->put_ServerName(bstrServerName); pTheObject->put_UserName(bstrUserName); pTheObject->put_UserPassword(bstrUserPassword); pTheObject->put_InstanceName(bstrInstanceName); hResult = pTheObject->IsInstalled(&varBool); hResult = pTheObject->IsExportable(&varBool); if (FAILED(hResult)) { goto InstallCopyMoveFromRemote_Exit; } if (varBool == VARIANT_FALSE) { bRes = FALSE; } else { bRes = TRUE; } InstallCopyMoveFromRemote_Exit: if (pTheObject) { pTheObject->Release(); pTheObject = NULL; } if (bPleaseDoCoUninit) { CoUninitialize(); } if (bstrServerName) {SysFreeString(bstrServerName);} if (bstrUserName) {SysFreeString(bstrUserName);} if (bstrUserPassword) {SysFreeString(bstrUserPassword);} if (bstrInstanceName) {SysFreeString(bstrInstanceName);} return bRes; } BOOL DumpCertDesc(char * pBlobInfo) { BOOL bRes = FALSE; IISDebugOutput(_T("blob=%s\n"),pBlobInfo); bRes = TRUE; return bRes; } BOOL GetCertDescInfo(CString ServerName,CString UserName,CString UserPassword,CString InstanceName,CERT_DESCRIPTION* desc) { BOOL bReturn = FALSE; HRESULT hResult = E_FAIL; IIISCertObj *pTheObject = NULL; DWORD cbBinaryBufferSize = 0; char * pbBinaryBuffer = NULL; BOOL bPleaseDoCoUninit = FALSE; BSTR bstrServerName = SysAllocString(ServerName); BSTR bstrUserName = SysAllocString(UserName); BSTR bstrUserPassword = SysAllocString(UserPassword); BSTR bstrInstanceName = SysAllocString(InstanceName); VARIANT VtArray; CString csTemp; hResult = CoInitialize(NULL); if(FAILED(hResult)) { return bReturn; } bPleaseDoCoUninit = TRUE; // this one seems to work with surrogates.. hResult = CoCreateInstance(CLSID_IISCertObj,NULL,CLSCTX_SERVER,IID_IIISCertObj,(void **)&pTheObject); if (FAILED(hResult)) { goto GetCertDescInfo_Exit; } pTheObject->put_ServerName(bstrServerName); pTheObject->put_UserName(bstrUserName); pTheObject->put_UserPassword(bstrUserPassword); pTheObject->put_InstanceName(bstrInstanceName); hResult = pTheObject->GetCertInfo(&VtArray); if (FAILED(hResult)) { goto GetCertDescInfo_Exit; } // we have a VtArray now. // change it back to a binary blob hResult = HereIsVtArrayGimmieBinary(&VtArray,&cbBinaryBufferSize,&pbBinaryBuffer,FALSE); if (FAILED(hResult)) { goto GetCertDescInfo_Exit; } // Dump it out! //DumpCertDesc(pbBinaryBuffer); // Loop thru the buffer // and fill up the data structure that was passed in... // should be delimited by carriage returns... TCHAR *token = NULL; INT iColon = 0; token = _tcstok((TCHAR*) pbBinaryBuffer, _T("\n")); while (token) { csTemp = token; iColon = csTemp.Find( _T('=') ); if (iColon != 0) { char AsciiString[255]; CString csTemp2; csTemp2 = csTemp.Left(iColon); WideCharToMultiByte( CP_ACP, 0, (LPCTSTR) csTemp2, -1, AsciiString, 255, NULL, NULL ); if (strcmp(AsciiString,szOID_COMMON_NAME) == 0) { desc->m_CommonName = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_COUNTRY_NAME) == 0) { desc->m_Country = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_LOCALITY_NAME) == 0) { desc->m_Locality = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_STATE_OR_PROVINCE_NAME) == 0) { desc->m_State = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_ORGANIZATION_NAME) == 0) { desc->m_Organization = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_ORGANIZATIONAL_UNIT_NAME) == 0) { desc->m_OrganizationUnit = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,"4") == 0) { desc->m_CAName = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,"6") == 0) { desc->m_ExpirationDate = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_ENHANCED_KEY_USAGE) == 0) { desc->m_Usage = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_SUBJECT_ALT_NAME2) == 0) { desc->m_AltSubject = csTemp.Right(csTemp.GetLength() - iColon - 1); } if (strcmp(AsciiString,szOID_SUBJECT_ALT_NAME) == 0) { desc->m_AltSubject = csTemp.Right(csTemp.GetLength() - iColon - 1); } } token = _tcstok(NULL, _T("\n")); } /* IISDebugOutput(_T("desc.m_CommonName=%s\n"),(LPCTSTR) desc->m_CommonName); IISDebugOutput(_T("desc.m_Country=%s\n"),(LPCTSTR) desc->m_Country); IISDebugOutput(_T("desc.m_Locality=%s\n"),(LPCTSTR) desc->m_Locality); IISDebugOutput(_T("desc.m_State=%s\n"),(LPCTSTR) desc->m_State); IISDebugOutput(_T("desc.m_Organization=%s\n"),(LPCTSTR) desc->m_Organization); IISDebugOutput(_T("desc.m_OrganizationUnit=%s\n"),(LPCTSTR) desc->m_OrganizationUnit); IISDebugOutput(_T("desc.m_CAName=%s\n"),(LPCTSTR) desc->m_CAName); IISDebugOutput(_T("desc.m_ExpirationDate=%s\n"),(LPCTSTR) desc->m_ExpirationDate); IISDebugOutput(_T("desc.m_Usage=%s\n"),(LPCTSTR) desc->m_Usage); */ bReturn = TRUE; GetCertDescInfo_Exit: if (pTheObject) { pTheObject->Release(); pTheObject = NULL; } if (pbBinaryBuffer) { CoTaskMemFree(pbBinaryBuffer); } if (bPleaseDoCoUninit) { CoUninitialize(); } return bReturn; } BOOL IsWhistlerWorkstation(void) { BOOL WorkstationSKU = FALSE; OSVERSIONINFOEX osvi; // // Determine if we are installing Personal/Professional SKU // ZeroMemory( &osvi, sizeof( OSVERSIONINFOEX ) ); osvi.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX); GetVersionEx((OSVERSIONINFO *) &osvi); if (osvi.wProductType == VER_NT_WORKSTATION) { WorkstationSKU = TRUE; } return WorkstationSKU; } void MsgboxPopup(HRESULT hResult) { DWORD dwFMResult; LPTSTR szBuffer = NULL; dwFMResult = FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM, 0, hResult, 0,(LPTSTR) &szBuffer,0, NULL); if (dwFMResult) { AfxMessageBox(szBuffer, MB_OK); } if (dwFMResult) { LocalFree(szBuffer);szBuffer=NULL; } return; } CString ReturnGoodMetabaseServerPath(CString csInstanceName) { CString csTemp = _T(""); CString csInstanceName2 = _T(""); CString key_path = _T(""); int iPlace = 0; //IISDebugOutput(_T("START=%s\n"),(LPCTSTR) csInstanceName); // csInstanceName will come in looking like // w3svc/1 // or /lm/w3svc/1 // or LM/W3SVC/1 // // we want to it to go out as /lm/w3svc key_path = csInstanceName; if (!key_path.IsEmpty()) { // Get the service name. // which is right after the LM. iPlace = csInstanceName.Find(SZ_MBN_MACHINE SZ_MBN_SEP_STR); if (iPlace != -1) { iPlace = iPlace + _tcslen(SZ_MBN_MACHINE) + _tcslen(SZ_MBN_SEP_STR); csTemp = csInstanceName.Right(csInstanceName.GetLength() - iPlace); // we should now have // "W3SVC/1" // find the next "/" iPlace = csTemp.Find(SZ_MBN_SEP_STR); if (iPlace != -1) { csTemp = csTemp.Left(iPlace); key_path = SZ_MBN_SEP_STR SZ_MBN_MACHINE SZ_MBN_SEP_STR; key_path += csTemp; } else { key_path = SZ_MBN_SEP_STR SZ_MBN_MACHINE SZ_MBN_SEP_STR; key_path += csTemp; } } else { // could not find a LM/ // so it must be like w3svc/1 or /w3svc/1 if (csInstanceName == SZ_MBN_SEP_STR SZ_MBN_MACHINE ) { key_path += csInstanceName; } else { if (csInstanceName.Left(1) == SZ_MBN_SEP_STR) { csInstanceName2 = SZ_MBN_SEP_STR SZ_MBN_MACHINE; } else { csInstanceName2 = SZ_MBN_SEP_STR SZ_MBN_MACHINE SZ_MBN_SEP_STR; } csInstanceName2 += csInstanceName; key_path = csInstanceName2; iPlace = csInstanceName2.Find(SZ_MBN_MACHINE SZ_MBN_SEP_STR); if (iPlace != -1) { iPlace = iPlace + _tcslen(SZ_MBN_MACHINE) + _tcslen(SZ_MBN_SEP_STR); csTemp = csInstanceName2.Right(csInstanceName2.GetLength() - iPlace); // we should now have // "W3SVC/1" // find the next "/" iPlace = csTemp.Find(SZ_MBN_SEP_STR); if (iPlace != -1) { csTemp = csTemp.Left(iPlace); key_path = SZ_MBN_SEP_STR SZ_MBN_MACHINE SZ_MBN_SEP_STR; key_path += csTemp; } else { key_path = SZ_MBN_SEP_STR SZ_MBN_MACHINE SZ_MBN_SEP_STR; key_path += csTemp; } } } } } //IISDebugOutput(_T(" END=%s\n"),(LPCTSTR) key_path); return key_path; } static const LPCSTR rgpszSubjectAltOID[] = { szOID_SUBJECT_ALT_NAME2, szOID_SUBJECT_ALT_NAME }; #define NUM_SUBJECT_ALT_OID (sizeof(rgpszSubjectAltOID) / sizeof(rgpszSubjectAltOID[0])) void *AllocAndDecodeObject( IN DWORD dwCertEncodingType, IN LPCSTR lpszStructType, IN const BYTE *pbEncoded, IN DWORD cbEncoded, IN DWORD dwFlags, OUT OPTIONAL DWORD *pcbStructInfo = NULL ) { DWORD cbStructInfo; void *pvStructInfo; if (!CryptDecodeObjectEx( dwCertEncodingType, lpszStructType, pbEncoded, cbEncoded, dwFlags | CRYPT_DECODE_ALLOC_FLAG | CRYPT_DECODE_NOCOPY_FLAG, NULL, (void *) &pvStructInfo, &cbStructInfo )) goto ErrorReturn; CommonReturn: if (pcbStructInfo) { *pcbStructInfo = cbStructInfo; } return pvStructInfo; ErrorReturn: pvStructInfo = NULL; cbStructInfo = 0; goto CommonReturn; } //+------------------------------------------------------------------------- // Returns pointer to allocated CERT_ALT_NAME_INFO by decoding either the // Subject or Issuer Alternative Extension. CERT_NAME_ISSUER_FLAG is // set to select the Issuer. // // Returns NULL if extension not found or cAltEntry == 0 //-------------------------------------------------------------------------- PCERT_ALT_NAME_INFO AllocAndGetAltSubjectInfo(IN PCCERT_CONTEXT pCertContext) { DWORD cAltOID; const LPCSTR *ppszAltOID; PCERT_EXTENSION pExt; PCERT_ALT_NAME_INFO pInfo; cAltOID = NUM_SUBJECT_ALT_OID; ppszAltOID = rgpszSubjectAltOID; // Try to find an alternative name extension pExt = NULL; for ( ; cAltOID > 0; cAltOID--, ppszAltOID++) { if (pExt = CertFindExtension(*ppszAltOID,pCertContext->pCertInfo->cExtension,pCertContext->pCertInfo->rgExtension)) { break; } } if (NULL == pExt) { return NULL; } if (NULL == (pInfo = (PCERT_ALT_NAME_INFO) AllocAndDecodeObject(pCertContext->dwCertEncodingType,X509_ALTERNATE_NAME,pExt->Value.pbData,pExt->Value.cbData,0))) { return NULL; } if (0 == pInfo->cAltEntry) { LocalFree(pInfo); pInfo = NULL; return NULL; } else { return pInfo; } } //+------------------------------------------------------------------------- // Attempt to find the specified choice in the decoded alternative name // extension. //-------------------------------------------------------------------------- BOOL GetAltNameUnicodeStringChoiceW( IN DWORD dwAltNameChoice, IN PCERT_ALT_NAME_INFO pAltNameInfo, OUT TCHAR **pcwszOut ) { DWORD cEntry; PCERT_ALT_NAME_ENTRY pEntry; if (NULL == pAltNameInfo) { return FALSE; } cEntry = pAltNameInfo->cAltEntry; pEntry = pAltNameInfo->rgAltEntry; for ( ; cEntry > 0; cEntry--, pEntry++) { if (dwAltNameChoice == pEntry->dwAltNameChoice) { // pwszRfc822Name union choice is the same as // pwszDNSName and pwszURL. // This is it, copy it out to a new allocation if (pEntry->pwszRfc822Name) { *pcwszOut = NULL; if(*pcwszOut = (TCHAR *) LocalAlloc(LPTR, sizeof(TCHAR)*(lstrlen(pEntry->pwszRfc822Name)+1))) { if (FAILED(StringCbCopy(*pcwszOut,sizeof(TCHAR)*(lstrlen(pEntry->pwszRfc822Name)+1),pEntry->pwszRfc822Name))) { return FALSE; } return TRUE; } } } } return FALSE; } BOOL GetAlternateSubjectName(PCCERT_CONTEXT pCertContext,TCHAR ** cwszOut) { BOOL bRet = FALSE; PCERT_ALT_NAME_INFO pAltNameInfo = NULL; *cwszOut = NULL; pAltNameInfo = AllocAndGetAltSubjectInfo(pCertContext); if (pAltNameInfo) { if (!GetAltNameUnicodeStringChoiceW(CERT_ALT_NAME_RFC822_NAME,pAltNameInfo,cwszOut)) { if (!GetAltNameUnicodeStringChoiceW(CERT_ALT_NAME_DNS_NAME,pAltNameInfo,cwszOut)) { cwszOut = NULL; bRet = TRUE; } } } if (pAltNameInfo){LocalFree(pAltNameInfo);pAltNameInfo=NULL;} return bRet; } BOOL IsSiteUsingThisCertHash(const CString& machine_name, const CString& server_name,CRYPT_HASH_BLOB * hash_blob,HRESULT *phResult) { BOOL bReturn = FALSE; PCCERT_CONTEXT pCert = NULL; *phResult = E_FAIL; CComAuthInfo auth(machine_name); CMetaKey key(&auth,server_name,METADATA_PERMISSION_READ); if (key.Succeeded()) { CString store_name; CBlob hash; if ( SUCCEEDED(*phResult = key.QueryValue(MD_SSL_CERT_STORE_NAME, store_name)) && SUCCEEDED(*phResult = key.QueryValue(MD_SSL_CERT_HASH, hash)) ) { // Now we need to find cert by hash CRYPT_HASH_BLOB crypt_hash; ZeroMemory(&crypt_hash, sizeof(CRYPT_HASH_BLOB)); crypt_hash.cbData = hash.GetSize(); crypt_hash.pbData = hash.GetData(); //IISDebugOutput(_T("\r\nOurHash[%p,%d]\r\nSiteHash[%p,%d]\r\n"),hash_blob->pbData,hash_blob->cbData,crypt_hash.pbData,crypt_hash.cbData); if (hash_blob->cbData == crypt_hash.cbData) { // Compare with the cert hash we are looking for. if (0 == memcmp(hash_blob->pbData, crypt_hash.pbData, hash_blob->cbData)) { bReturn = TRUE; } } } } else { *phResult = key.QueryResult(); } return bReturn; } HRESULT EnumSitesWithThisCertHashInstalled(CRYPT_HASH_BLOB * hash_blob,CString& machine_name,CString& user_name,CString& user_password,CString strCurrentMetabaseSite,CStringListEx * MyStringList) { HRESULT hr; CStringListEx strlDataPaths; hr = EnumSitesWithCertInstalled(machine_name,user_name,user_password,strCurrentMetabaseSite,_T(""),&strlDataPaths); if (!strlDataPaths.IsEmpty()) { POSITION pos; CString SiteInstance; // loop thru the list and display all the stuff on a dialog box... pos = strlDataPaths.GetHeadPosition(); while (pos) { SiteInstance = strlDataPaths.GetAt(pos); // See if this site is using our certificate. if (TRUE == IsSiteUsingThisCertHash(machine_name,SiteInstance,hash_blob,&hr)) { MyStringList->AddTail(SiteInstance); } strlDataPaths.GetNext(pos); } } return hr; } HRESULT GetHashFromCertFile(LPCTSTR PFXFileName,LPCTSTR PFXPassword,DWORD *cbHashBufferSize,BYTE **pbHashBuffer) { HRESULT hr = S_OK; BYTE * pbData = NULL; DWORD actual = 0, cbData = 0; BOOL bAllowExport = TRUE; PCCERT_CONTEXT pCertContext = NULL; PCCERT_CONTEXT pCertPre = NULL; CRYPT_DATA_BLOB blob; CRYPT_HASH_BLOB hash; ZeroMemory(&blob, sizeof(CRYPT_DATA_BLOB)); ZeroMemory(&hash, sizeof(CRYPT_HASH_BLOB)); HANDLE hFile = CreateFile(PFXFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if (hFile == INVALID_HANDLE_VALUE) { hr = HRESULT_FROM_WIN32(GetLastError()); hFile = NULL; goto GetHashFromCertFile_Exit; } if (-1 == (cbData = ::GetFileSize(hFile, NULL))) { hr = HRESULT_FROM_WIN32(GetLastError()); goto GetHashFromCertFile_Exit; } if (NULL == (pbData = (BYTE *)::CoTaskMemAlloc(cbData))) { hr = E_OUTOFMEMORY; goto GetHashFromCertFile_Exit; } if (FALSE == ReadFile(hFile, pbData, cbData, &actual, NULL)) { goto GetHashFromCertFile_Exit; } ZeroMemory(&blob, sizeof(CRYPT_DATA_BLOB)); blob.pbData = pbData; blob.cbData = cbData; HCERTSTORE hStore = PFXImportCertStore(&blob, PFXPassword, (bAllowExport ? CRYPT_MACHINE_KEYSET|CRYPT_EXPORTABLE : CRYPT_MACHINE_KEYSET)); if (hStore == NULL) { goto GetHashFromCertFile_Exit; } while (SUCCEEDED(hr) && NULL != (pCertContext = CertEnumCertificatesInStore(hStore, pCertPre))) { //check if the certificate has the property on it //make sure the private key matches the certificate //search for both machine key and user keys DWORD dwData = 0; if (CertGetCertificateContextProperty(pCertContext,CERT_KEY_PROV_INFO_PROP_ID, NULL, &dwData) && CryptFindCertificateKeyProvInfo(pCertContext, 0, NULL)) { if (CertGetCertificateContextProperty(pCertContext,CERT_SHA1_HASH_PROP_ID, NULL, &hash.cbData)) { hash.pbData = NULL; hash.pbData = (BYTE *) LocalAlloc(LPTR,hash.cbData); if (NULL != hash.pbData) { if (CertGetCertificateContextProperty(pCertContext, CERT_SHA1_HASH_PROP_ID, hash.pbData, &hash.cbData)) { // check if we need to return back the hash if (NULL != pbHashBuffer) { *pbHashBuffer = (BYTE *) ::CoTaskMemAlloc(hash.cbData); if (NULL == *pbHashBuffer) { hr = E_OUTOFMEMORY; *pbHashBuffer = NULL; *cbHashBufferSize = 0; } else { *cbHashBufferSize = hash.cbData; memcpy(*pbHashBuffer,hash.pbData,hash.cbData); } } } } } else { hr = HRESULT_FROM_WIN32(GetLastError()); } } pCertPre = pCertContext; } CertCloseStore(hStore, 0); GetHashFromCertFile_Exit: if (hash.pbData != NULL) { ZeroMemory(hash.pbData, hash.cbData); LocalFree(hash.pbData);hash.pbData=NULL; } if (pCertContext != NULL) { CertFreeCertificateContext(pCertContext); } if (pbData != NULL) { ZeroMemory(pbData, cbData); ::CoTaskMemFree(pbData); } if (hFile != NULL) { CloseHandle(hFile); } return hr; } HRESULT DisplayUsageBySitesOfCert(LPCTSTR PFXFileName,LPCTSTR PFXPassword,CString &machine_name,CString &user_name,CString &user_password,CString ¤t_site) { HRESULT hr = S_OK; CRYPT_HASH_BLOB hash; ZeroMemory(&hash, sizeof(CRYPT_HASH_BLOB)); // Try to get the certificate hash. hr = GetHashFromCertFile(PFXFileName,PFXPassword,&(hash.cbData),&(hash.pbData)); if (SUCCEEDED(hr)) { // Enum thru all our sites to see if this is being used right now... CStringListEx MyStringList; if (SUCCEEDED(EnumSitesWithThisCertHashInstalled(&hash,machine_name,user_name,user_password,current_site,&MyStringList))) { if (!MyStringList.IsEmpty()) { POSITION pos; CString SiteInstance; // loop thru the list and display all the stuff on a dialog box... pos = MyStringList.GetHeadPosition(); while (pos) { SiteInstance = MyStringList.GetAt(pos); IISDebugOutput(_T("CertUsedBy:%s\r\n"),SiteInstance); MyStringList.GetNext(pos); } } } } if (hash.pbData != NULL) { ZeroMemory(hash.pbData, hash.cbData); ::CoTaskMemFree(hash.pbData); } return hr; } BOOL IsWebServerType(CString strMetabaseNode) { CString spath, sname; CMetabasePath::GetServicePath(strMetabaseNode, spath); CMetabasePath::GetLastNodeName(spath, sname); if (sname.CompareNoCase(SZ_MBN_WEB) == 0) { return TRUE; } return FALSE; } void BuildBinding( OUT CString & strBinding, IN CIPAddress & iaIpAddress, IN UINT & nTCPPort, IN CString & strDomainName ) /*++ Routine Description: Build up a binding string from its component parts Arguments: CString & strBinding : Output binding string CIPAddress & iaIpAddress : ip address (could be 0.0.0.0) UINT & nTCPPort : TCP Port CString & strDomainName : Domain name (host header) Return Value: None. --*/ { if (!iaIpAddress.IsZeroValue()) { strBinding.Format( _T("%s:%d:%s"), (LPCTSTR)iaIpAddress, nTCPPort, (LPCTSTR)strDomainName ); } else { // // Leave the ip address field blank // strBinding.Format(_T(":%d:%s"), nTCPPort, (LPCTSTR)strDomainName); } } void CrackBinding( IN CString strBinding, OUT CIPAddress & iaIpAddress, OUT UINT & nTCPPort, OUT CString & strDomainName ) /*++ Routine Description: Helper function to crack a binding string Arguments: CString strBinding : Binding string to be parsed CIPAddress & iaIpAddress : IP Address output UINT & nTCPPort : TCP Port CString & strDomainName : Domain (host) header name Return Value: None --*/ { // // Zero initialize // iaIpAddress.SetZeroValue(); nTCPPort = 0; strDomainName.Empty(); int iColonPos = strBinding.Find(_TCHAR(':')); if(iColonPos != -1) { // // Get the IP address // iaIpAddress = strBinding.Left(iColonPos); // // Look for the second colon // strBinding = strBinding.Mid(iColonPos + 1); iColonPos = strBinding.Find(_TCHAR(':')); } if(iColonPos != -1) { // // Get the port number // nTCPPort = ::_ttol(strBinding.Left(iColonPos)); // // Look for the NULL termination // strBinding = strBinding.Mid(iColonPos + 1); iColonPos = strBinding.Find(_TCHAR('\0')); } if(iColonPos != -1) { strDomainName = strBinding.Left(iColonPos); } } BOOL WriteSSLPortToSite( const CString& machine_name, const CString& server_name, const CString& strSSLPort, HRESULT * phResult) { BOOL bRes = FALSE; CComAuthInfo auth(machine_name); CMetaKey key(&auth,server_name,METADATA_PERMISSION_READ | METADATA_PERMISSION_WRITE); if (key.Succeeded()) { CString strBinding(strSSLPort); CString strDomainName = _T(""); CIPAddress iaIpAddress((DWORD)0); CIPAddress iaIpAddress2((DWORD)0); UINT nSSLPort = StrToInt(strSSLPort); UINT nTCPPort = 0; CString strDomainName2; BOOL bFoundExisting = FALSE; // Bug:761056 // if we have an existing securebindings for ssl, then use it. CStringListEx strSecureBindings; if SUCCEEDED(key.QueryValue(MD_SECURE_BINDINGS, strSecureBindings)) { if (!strSecureBindings.IsEmpty()) { CString &strBinding2 = strSecureBindings.GetHead(); nTCPPort = 0; iaIpAddress2.SetZeroValue(); CrackBinding(strBinding2, iaIpAddress2, nTCPPort, strDomainName2); // check if ipaddress is specified. if (!iaIpAddress2.IsZeroValue()) { // use the IP address that is already there... iaIpAddress = iaIpAddress2; bFoundExisting = TRUE; } } } if (!bFoundExisting) { // Bug:761056 // lookup to see if the IP address is specified in the Server Bindings metabase value. // If it is then add that info to the SSL site. CStringListEx strServerBindings; if SUCCEEDED(key.QueryValue(MD_SERVER_BINDINGS, strServerBindings)) { if (!strServerBindings.IsEmpty()) { CString &strBinding2 = strServerBindings.GetHead(); nTCPPort = 0; iaIpAddress2.SetZeroValue(); CrackBinding(strBinding2, iaIpAddress2, nTCPPort, strDomainName2); // check if ipaddress is specified. if (!iaIpAddress2.IsZeroValue()) { // use the IP address that the serverbinding is using. iaIpAddress = iaIpAddress2; } } } } BuildBinding(strBinding,iaIpAddress,nSSLPort,strDomainName); CStringListEx strlBindings; strlBindings.AddTail(strBinding); bRes = SUCCEEDED(*phResult = key.SetValue(MD_SECURE_BINDINGS, strlBindings)); } else { TRACE(_T("Failed to open metabase key. Error 0x%x\n"), key.QueryResult()); *phResult = key.QueryResult(); } return bRes; } BOOL GetSSLPortFromSite(const CString& machine_name, const CString& server_name, CString& strSSLPort, HRESULT * phResult) { ASSERT(!machine_name.IsEmpty()); ASSERT(!server_name.IsEmpty()); *phResult = S_OK; CComAuthInfo auth(machine_name); CMetaKey key(&auth,server_name,METADATA_PERMISSION_READ); if (key.Succeeded()) { CStringListEx strlBindings; *phResult = key.QueryValue(MD_SECURE_BINDINGS, strlBindings); if SUCCEEDED(*phResult) { if (!strlBindings.IsEmpty()) { UINT nTCPPort = 0; CString strDomainName; CString &strBinding = strlBindings.GetHead(); CIPAddress iaIpAddress((DWORD)0); CrackBinding(strBinding, iaIpAddress, nTCPPort, strDomainName); if (nTCPPort > 0) { TCHAR Buf[10]; _itot(nTCPPort, Buf, 10); strSSLPort = Buf; } } } return SUCCEEDED(*phResult); } else { *phResult = key.QueryResult(); return FALSE; } } BOOL IsSSLPortBeingUsedOnNonSSLPort(const CString& machine_name, const CString& server_name, const CString& strSSLPort, HRESULT * phResult) { ASSERT(!machine_name.IsEmpty()); ASSERT(!server_name.IsEmpty()); CString strPort; BOOL bRet = FALSE; *phResult = S_OK; CComAuthInfo auth(machine_name); CMetaKey key(&auth,server_name,METADATA_PERMISSION_READ); if (key.Succeeded()) { CStringListEx strlBindings; *phResult = key.QueryValue(MD_SERVER_BINDINGS, strlBindings); if SUCCEEDED(*phResult) { if (!strlBindings.IsEmpty()) { UINT nTCPPort = 0; CString strDomainName; CString &strBinding = strlBindings.GetHead(); CIPAddress iaIpAddress((DWORD)0); CrackBinding(strBinding, iaIpAddress, nTCPPort, strDomainName); if (nTCPPort > 0) { TCHAR Buf[10]; _itot(nTCPPort, Buf, 10); strPort = Buf; } if (strPort.IsEmpty() && strSSLPort.IsEmpty()) { bRet = FALSE; } else { if (0 == strSSLPort.CompareNoCase(strPort)) { bRet = TRUE; } } } } } else { *phResult = key.QueryResult(); } return bRet; } #define CB_SHA_DIGEST_LEN 20 BOOL CheckForCertificateRenewal( DWORD dwProtocol, PCCERT_CONTEXT pCertContext, PCCERT_CONTEXT *ppNewCertificate) { BYTE rgbThumbprint[CB_SHA_DIGEST_LEN]; DWORD cbThumbprint = sizeof(rgbThumbprint); CRYPT_HASH_BLOB HashBlob; PCCERT_CONTEXT pNewCert; BOOL fMachineCert; PCRYPT_KEY_PROV_INFO pProvInfo = NULL; DWORD cbSize; HCERTSTORE hMyCertStore = 0; BOOL fRenewed = FALSE; HCERTSTORE g_hMyCertStore; if(dwProtocol & SP_PROT_SERVERS) { fMachineCert = TRUE; } else { fMachineCert = FALSE; } // // Loop through the linked list of renewed certificates, looking // for the last one. // while(TRUE) { // // Check for renewal property. // if(!CertGetCertificateContextProperty(pCertContext, CERT_RENEWAL_PROP_ID, rgbThumbprint, &cbThumbprint)) { // Certificate has not been renewed. break; } //DebugLog((DEB_TRACE, "Certificate has renewal property\n")); // // Determine whether to look in the local machine MY store // or the current user MY store. // if(!hMyCertStore) { if(CertGetCertificateContextProperty(pCertContext, CERT_KEY_PROV_INFO_PROP_ID, NULL, &cbSize)) { pProvInfo = (PCRYPT_KEY_PROV_INFO) LocalAlloc(LPTR,cbSize); if(pProvInfo == NULL) { break; } if(CertGetCertificateContextProperty(pCertContext, CERT_KEY_PROV_INFO_PROP_ID, pProvInfo, &cbSize)) { if(pProvInfo->dwFlags & CRYPT_MACHINE_KEYSET) { fMachineCert = TRUE; } else { fMachineCert = FALSE; } } if (pProvInfo) { LocalFree(pProvInfo);pProvInfo=NULL; } } } // // Open up the appropriate MY store, and attempt to find // the new certificate. // if(!hMyCertStore) { if(fMachineCert) { g_hMyCertStore = CertOpenStore(CERT_STORE_PROV_SYSTEM,X509_ASN_ENCODING,0,CERT_SYSTEM_STORE_LOCAL_MACHINE,L"MY"); if(g_hMyCertStore) { hMyCertStore = g_hMyCertStore; } } else { hMyCertStore = CertOpenSystemStore(0, _T("MY")); } if(!hMyCertStore) { //DebugLog((DEB_ERROR, "Error 0x%x opening %s MY certificate store!\n", GetLastError(),(fMachineCert ? "local machine" : "current user") )); break; } } HashBlob.cbData = cbThumbprint; HashBlob.pbData = rgbThumbprint; pNewCert = CertFindCertificateInStore(hMyCertStore, X509_ASN_ENCODING, 0, CERT_FIND_HASH, &HashBlob, NULL); if(pNewCert == NULL) { // Certificate has been renewed, but the new certificate // cannot be found. //DebugLog((DEB_ERROR, "New certificate cannot be found: 0x%x\n", GetLastError())); break; } // // Return the new certificate, but first loop back and see if it's been // renewed itself. // pCertContext = pNewCert; *ppNewCertificate = pNewCert; //DebugLog((DEB_TRACE, "Certificate has been renewed\n")); fRenewed = TRUE; } // // Cleanup. // if(hMyCertStore && hMyCertStore != g_hMyCertStore) { CertCloseStore(hMyCertStore, 0); } return fRenewed; }