bool SYSTEM::CXMLConfiguration::Open(std::string xmlpath) { // ÅäÖýâÎö¹æÔò static const XMLCh gLS[] = { chLatin_L, chLatin_S, chNull }; impl = DOMImplementationRegistry::getDOMImplementation(gLS); if(!impl) return false; // throw CException(GET_TEXT(ERR_XML_DOM_IMPLEMENTATION)); if(parser == NULL) parser = new XercesDOMParser; XercesDOMParser* xmlparser = (XercesDOMParser*)parser; xmlparser->setValidationScheme(XercesDOMParser::Val_Never); xmlparser->setDoNamespaces(false); xmlparser->setDoSchema(false); xmlparser->setValidationSchemaFullChecking(false); xmlparser->setCreateEntityReferenceNodes(false); xmlparser->setIncludeIgnorableWhitespace(false); xmlparser->resetDocumentPool(); //ÖØÖÃÎĵµ»º³å³Ø xmlparser->parse(xmlpath.c_str()); doc = xmlparser->getDocument(); if(doc) itemElement = ((XERCES_CPP_NAMESPACE_QUALIFIER DOMDocument*)doc)->getDocumentElement(); //¸³Óè¸ù½Úµã else return false; //throw CException(boost::str(boost::format(GET_TEXT(ERR_PARSE_CONFIG_FILE)) % xmlpath)); xmlFile = xmlpath; return true; }
static void xsdproc (std::string const &schemadir, std::string const &input, std::string const &output) { XercesDOMParser parser; parser.setExternalSchemaLocation (( "http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul " + schemadir + "/xul.xsd " "http://www.w3.org/1999/xhtml " + schemadir + "/xul-html.xsd " "http://www.w3.org/2000/10/xlink-ns " + schemadir + "/xml/xlink.xsd " //"http://www.w3.org/2001/SMIL20/ " + schemadir + "/smil/smil20.xsd " "http://www.w3.org/2001/XInclude " + schemadir + "/xml/xinclude.xsd " "http://www.w3.org/2002/07/owl# " + schemadir + "/owl/owl.xsd " "http://www.w3.org/XML/1998/namespace " + schemadir + "/xml/xml.xsd " ).c_str ()); parser.setCreateEntityReferenceNodes (true); parser.setDoNamespaces (true); parser.setDoSchema (true); parser.setDoXInclude (true); parser.setHandleMultipleImports (true); parser.setValidationSchemaFullChecking (true); parser.setValidationScheme (XercesDOMParser::Val_Always); error_handler handler; parser.setErrorHandler (&handler); parser.parse (input.c_str ()); if (handler.failed) throw std::runtime_error ("validation failed for " + input); serialise (parser.getDocument (), output); }
void SYSTEM::CXMLConfiguration::Parse(std::string xmlcontent) { // ÅäÖýâÎö¹æÔò static const XMLCh gLS[] = { chLatin_L, chLatin_S, chNull }; impl = DOMImplementationRegistry::getDOMImplementation(gLS); if(!impl) return; // throw CException(GET_TEXT(ERR_XML_DOM_IMPLEMENTATION)); if(parser == NULL) parser = new XercesDOMParser; XercesDOMParser* xmlparser = (XercesDOMParser*)parser; xmlparser->setValidationScheme(XercesDOMParser::Val_Never); xmlparser->setLoadExternalDTD(false); xmlparser->setDoNamespaces(false); xmlparser->setDoSchema(false); xmlparser->setValidationSchemaFullChecking(false); xmlparser->setCreateEntityReferenceNodes(false); xmlparser->setIncludeIgnorableWhitespace(false); xmlparser->resetDocumentPool(); //ÖØÖÃÎĵµ»º³å³Ø MemBufInputSource input((XMLByte*) xmlcontent.c_str(), xmlcontent.size(), "memory"); xmlparser->parse(input); doc = xmlparser->getDocument(); if(doc) itemElement = ((XERCES_CPP_NAMESPACE_QUALIFIER DOMDocument*)doc)->getDocumentElement(); //¸³Óè¸ù½Úµã else return; // throw CException(boost::str(boost::format(GET_TEXT(ERR_PARSE_CONFIG_FILE)) % xmlcontent)); }
void XMLRuntime::read(const string& filename, FreeAX25::Runtime::Configuration& config) { XercesDOMParser parser; parser.setValidationScheme(XercesDOMParser::Val_Always); parser.setDoNamespaces(true); parser.setDoSchema(true); parser.setDoXInclude(true); parser.setHandleMultipleImports(true); parser.setValidationSchemaFullChecking(true); parser.setCreateEntityReferenceNodes(false); parser.setIncludeIgnorableWhitespace(false); DOMTreeErrorReporter errReporter; parser.setErrorHandler(&errReporter); parser.parse(filename.c_str()); if (errReporter.getSawErrors()) throw exception(); // Now read configuration from the DOM Tree: XERCES_CPP_NAMESPACE::DOMDocument* doc = parser.getDocument(); assert(doc != nullptr); auto rootElement = doc->getDocumentElement(); auto configName = rootElement->getAttribute(toX("name")); config.setId(fmX(configName)); { // Get settings: auto nodeList = rootElement->getElementsByTagName(toX("Settings")); if (nodeList->getLength() > 0) readSettings( "", static_cast<DOMElement*>(nodeList->item(0)), config.settings); } { // Get plugins: auto nodeList = rootElement->getElementsByTagName(toX("Plugins")); if (nodeList->getLength() > 0) readPlugins( "", static_cast<DOMElement*>(nodeList->item(0)), config.plugins); } }
// --------------------------------------------------------------------------- int main(int argc, const char** argv) { try { XMLPlatformUtils::Initialize(); } catch(const XMLException& e) { StrX tmp_e(e.getMessage()); cerr << "Xerces initialization error: " << tmp_e.localForm() << endl; return 2; } // check command line for arguments if ( argc < 1 ) { cerr << "usage: schema-check <xml-file> [<schema-file> ...]" << endl; return 3; } XercesDOMParser *parser = new XercesDOMParser; DOMTreeErrorReporter *errReporter = new DOMTreeErrorReporter(); parser->setErrorHandler(errReporter); parser->setDoNamespaces(true); parser->setCreateEntityReferenceNodes(true); parser->useCachedGrammarInParse(true); if ( argc > 2 ) { parser->setDoSchema(true); parser->setDoValidation(true); parser->setValidationSchemaFullChecking(true); for ( int i = 2; i < argc; i++ ) { if ( parser->loadGrammar(argv[i], Grammar::SchemaGrammarType, true) == 0 ) { cerr << "Error loading grammar " << std::string(argv[i]) << endl; return 4; } } } bool errorsOccured = true; try { parser->parse(argv[1]); errorsOccured = false; } catch ( const OutOfMemoryException& ) { cerr << "Out of memory exception." << endl; } catch ( const XMLException& e ) { cerr << "An error occurred during parsing" << endl << " Message: " << StrX(e.getMessage()) << endl; } catch ( const DOMException& e ) { const unsigned int maxChars = 2047; XMLCh errText[maxChars + 1]; cerr << endl << "DOM Error during parsing: '" << std::string(argv[1]) << "'" << endl << "DOM Exception code is: " << e.code << endl; if ( DOMImplementation::loadDOMExceptionMsg(e.code, errText, maxChars) ) cerr << "Message is: " << StrX(errText) << endl; } catch (...) { cerr << "An error occurred during parsing." << endl; } return errorsOccured ? 1 : 0; }
int evaluate(int argc, char ** argv) { char * filename = NULL; char * outfile = NULL; unsigned char * keyStr = NULL; bool doDecrypt = true; bool errorsOccured = false; bool doDecryptElement = false; bool useInteropResolver = false; bool encryptFileAsData = false; bool parseXMLInput = true; bool doXMLOutput = false; bool isXKMSKey = false; XSECCryptoKey * kek = NULL; XSECCryptoKey * key = NULL; int keyLen = 0; encryptionMethod kekAlg = ENCRYPT_NONE; encryptionMethod keyAlg = ENCRYPT_NONE; DOMDocument *doc; unsigned char keyBuf[24]; XMLFormatTarget *formatTarget ; #if defined(_WIN32) && defined (XSEC_HAVE_WINCAPI) HCRYPTPROV win32DSSCSP = 0; // Crypto Providers HCRYPTPROV win32RSACSP = 0; CryptAcquireContext(&win32DSSCSP, NULL, NULL, PROV_DSS, CRYPT_VERIFYCONTEXT); CryptAcquireContext(&win32RSACSP, NULL, NULL, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT); #endif if (argc < 2) { printUsage(); return 2; } // Run through parameters int paramCount = 1; while (paramCount < argc - 1) { if (_stricmp(argv[paramCount], "--decrypt-element") == 0 || _stricmp(argv[paramCount], "-de") == 0) { paramCount++; doDecrypt = true; doDecryptElement = true; doXMLOutput = true; parseXMLInput = true; } else if (_stricmp(argv[paramCount], "--interop") == 0 || _stricmp(argv[paramCount], "-i") == 0) { // Use the interop key resolver useInteropResolver = true; paramCount++; } else if (_stricmp(argv[paramCount], "--encrypt-file") == 0 || _stricmp(argv[paramCount], "-ef") == 0) { // Use this file as the input doDecrypt = false; encryptFileAsData = true; doXMLOutput = true; parseXMLInput = false; paramCount++; } else if (_stricmp(argv[paramCount], "--encrypt-xml") == 0 || _stricmp(argv[paramCount], "-ex") == 0) { // Us this file as an XML input file doDecrypt = false; encryptFileAsData = false; doXMLOutput = true; parseXMLInput = true; paramCount++; } else if (_stricmp(argv[paramCount], "--out-file") == 0 || _stricmp(argv[paramCount], "-o") == 0) { if (paramCount +2 >= argc) { printUsage(); return 1; } paramCount++; outfile = argv[paramCount]; paramCount++; } else if (_stricmp(argv[paramCount], "--xkms") == 0 || _stricmp(argv[paramCount], "-x") == 0) { paramCount++; isXKMSKey = true; } #if defined (XSEC_HAVE_WINCAPI) else if (_stricmp(argv[paramCount], "--wincapi") == 0 || _stricmp(argv[paramCount], "-w") == 0) { // Use the interop key resolver WinCAPICryptoProvider * cp = new WinCAPICryptoProvider(); XSECPlatformUtils::SetCryptoProvider(cp); paramCount++; } #endif #if defined (XSEC_HAVE_NSS) else if (_stricmp(argv[paramCount], "--nss") == 0 || _stricmp(argv[paramCount], "-n") == 0) { // NSS Crypto Provider NSSCryptoProvider * cp = new NSSCryptoProvider(); XSECPlatformUtils::SetCryptoProvider(cp); paramCount++; } #endif else if (_stricmp(argv[paramCount], "--key") == 0 || _stricmp(argv[paramCount], "-k") == 0) { // Have a key! paramCount++; bool isKEK = false; XSECCryptoSymmetricKey::SymmetricKeyType loadKeyAs = XSECCryptoSymmetricKey::KEY_NONE; if (_stricmp(argv[paramCount], "kek") == 0) { isKEK = true; paramCount++; if (paramCount >= argc) { printUsage(); return 2; } } if (_stricmp(argv[paramCount], "3DES") == 0 || _stricmp(argv[paramCount], "AES128") == 0 || _stricmp(argv[paramCount], "AES192") == 0 || _stricmp(argv[paramCount], "AES256") == 0 || _stricmp(argv[paramCount], "AES128-GCM") == 0 || _stricmp(argv[paramCount], "AES192-GCM") == 0 || _stricmp(argv[paramCount], "AES256-GCM") == 0) { if (paramCount +2 >= argc) { printUsage(); return 2; } switch(argv[paramCount][4]) { case '\0' : keyLen = 24; loadKeyAs = XSECCryptoSymmetricKey::KEY_3DES_192; keyAlg = ENCRYPT_3DES_CBC; break; case '2' : keyLen = 16; loadKeyAs = XSECCryptoSymmetricKey::KEY_AES_128; if (isKEK) { kekAlg = ENCRYPT_KW_AES128; } else if (strlen(argv[paramCount]) == 6) { keyAlg = ENCRYPT_AES128_CBC; } else { keyAlg = ENCRYPT_AES128_GCM; } break; case '9' : keyLen = 24; loadKeyAs = XSECCryptoSymmetricKey::KEY_AES_192; if (isKEK) { kekAlg = ENCRYPT_KW_AES192; } else if (strlen(argv[paramCount]) == 6) { keyAlg = ENCRYPT_AES192_CBC; } else { keyAlg = ENCRYPT_AES192_GCM; } break; case '5' : keyLen = 32; loadKeyAs = XSECCryptoSymmetricKey::KEY_AES_256; if (isKEK) { kekAlg = ENCRYPT_KW_AES256; } else if (strlen(argv[paramCount]) == 6) { keyAlg = ENCRYPT_AES256_CBC; } else { keyAlg = ENCRYPT_AES256_GCM; } break; } paramCount++; unsigned char keyStr[64]; if (strlen(argv[paramCount]) > 64) { cerr << "Key string too long\n"; return 2; } XSECCryptoSymmetricKey * sk = XSECPlatformUtils::g_cryptoProvider->keySymmetric(loadKeyAs); if (isXKMSKey) { unsigned char kbuf[XSEC_MAX_HASH_SIZE]; CalculateXKMSKEK((unsigned char *) argv[paramCount], (int) strlen(argv[paramCount]), kbuf, XSEC_MAX_HASH_SIZE); sk->setKey(kbuf, keyLen); } else { memset(keyStr, 0, 64); strcpy((char *) keyStr, argv[paramCount]); sk->setKey(keyStr, keyLen); } paramCount++; if (isKEK) kek = sk; else key = sk; } #if defined (XSEC_HAVE_OPENSSL) else if (_stricmp(argv[paramCount], "RSA") == 0) { // RSA private key file if (paramCount + 3 >= argc) { printUsage(); return 2; } if (!isKEK) { cerr << "RSA private keys may only be KEKs\n"; return 2; } BIO * bioKey; if ((bioKey = BIO_new(BIO_s_file())) == NULL) { cerr << "Error opening private key file\n\n"; return 1; } if (BIO_read_filename(bioKey, argv[paramCount + 1]) <= 0) { cerr << "Error opening private key file\n\n"; return 1; } EVP_PKEY * pkey; pkey = PEM_read_bio_PrivateKey(bioKey,NULL,NULL,argv[paramCount + 2]); if (pkey == NULL) { cerr << "Error loading private key\n\n"; return 1; } kek = new OpenSSLCryptoKeyRSA(pkey); kekAlg = ENCRYPT_RSA_15; EVP_PKEY_free(pkey); BIO_free(bioKey); paramCount += 3; } else if (_stricmp(argv[paramCount], "X509") == 0) { // X509 cert used to load an encrypting key if (paramCount + 2 >= argc) { printUsage(); exit (1); } if (!isKEK) { cerr << "X509 private keys may only be KEKs\n"; return 2; } // Load the encrypting key // For now just read a particular file BIO * bioX509; if ((bioX509 = BIO_new(BIO_s_file())) == NULL) { cerr << "Error opening file\n\n"; exit (1); } if (BIO_read_filename(bioX509, argv[paramCount + 1]) <= 0) { cerr << "Error opening X509 Certificate " << argv[paramCount + 1] << "\n\n"; exit (1); } X509 * x ; x = PEM_read_bio_X509_AUX(bioX509,NULL,NULL,NULL); if (x == NULL) { BIO * bio_err; if ((bio_err=BIO_new(BIO_s_file())) != NULL) BIO_set_fp(bio_err,stderr,BIO_NOCLOSE|BIO_FP_TEXT); cerr << "Error loading certificate key\n\n"; ERR_print_errors(bio_err); BIO_free(bio_err); exit (1); } // Now load the key EVP_PKEY *pkey; pkey = X509_get_pubkey(x); if (pkey == NULL || pkey->type != EVP_PKEY_RSA) { cerr << "Error extracting RSA key from certificate" << endl; } kek = new OpenSSLCryptoKeyRSA(pkey); kekAlg = ENCRYPT_RSA_15; // Clean up EVP_PKEY_free (pkey); X509_free(x); BIO_free(bioX509); paramCount += 2; } /* argv[1] = "--x509cert" */ #endif /* XSEC_HAVE_OPENSSL */ else { printUsage(); return 2; } } else { cerr << "Unknown option: " << argv[paramCount] << endl; printUsage(); return 2; } } if (paramCount >= argc) { printUsage(); return 2; } if (outfile != NULL) { formatTarget = new LocalFileFormatTarget(outfile); } else { formatTarget = new StdOutFormatTarget(); } filename = argv[paramCount]; if (parseXMLInput) { XercesDOMParser * parser = new XercesDOMParser; Janitor<XercesDOMParser> j_parser(parser); parser->setDoNamespaces(true); parser->setCreateEntityReferenceNodes(true); // Now parse out file xsecsize_t errorCount = 0; try { parser->parse(filename); errorCount = parser->getErrorCount(); if (errorCount > 0) errorsOccured = true; } catch (const XMLException& e) { cerr << "An error occured during parsing\n Message: " << e.getMessage() << endl; errorsOccured = true; } catch (const DOMException& e) { cerr << "A DOM error occured during parsing\n DOMException code: " << e.code << endl; errorsOccured = true; } if (errorsOccured) { cout << "Errors during parse" << endl; return (2); } /* Now that we have the parsed file, get the DOM document and start looking at it */ doc = parser->adoptDocument(); } else { // Create an empty document XMLCh tempStr[100]; XMLString::transcode("Core", tempStr, 99); DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr); doc = impl->createDocument( 0, // root element namespace URI. MAKE_UNICODE_STRING("ADoc"), // root element name NULL);// DOMDocumentType()); // document type object (DTD). } XSECProvider prov; XENCCipher * cipher = prov.newCipher(doc); if (kek != NULL) cipher->setKEK(kek); if (key != NULL) cipher->setKey(key); try { if (doDecrypt) { if (useInteropResolver == true) { // Map out base path of the file char path[_MAX_PATH]; char baseURI[(_MAX_PATH * 2) + 10]; getcwd(path, _MAX_PATH); strcpy(baseURI, "file:///"); // Ugly and nasty but quick if (filename[0] != '\\' && filename[0] != '/' && filename[1] != ':') { strcat(baseURI, path); strcat(baseURI, "/"); } else if (path[1] == ':') { path[2] = '\0'; strcat(baseURI, path); } strcat(baseURI, filename); // Find any ':' and "\" characters int lastSlash = 0; for (unsigned int i = 8; i < strlen(baseURI); ++i) { if (baseURI[i] == '\\') { lastSlash = i; baseURI[i] = '/'; } else if (baseURI[i] == '/') lastSlash = i; } // The last "\\" must prefix the filename baseURI[lastSlash + 1] = '\0'; XMLCh * uriT = XMLString::transcode(baseURI); XencInteropResolver ires(doc, &(uriT[8])); XSEC_RELEASE_XMLCH(uriT); cipher->setKeyInfoResolver(&ires); } // Find the EncryptedData node DOMNode * n = findXENCNode(doc, "EncryptedData"); if (doDecryptElement) { while (n != NULL) { // decrypt cipher->decryptElement(static_cast<DOMElement *>(n)); // Find the next EncryptedData node n = findXENCNode(doc, "EncryptedData"); } } else { XSECBinTXFMInputStream * bis = cipher->decryptToBinInputStream(static_cast<DOMElement *>(n)); Janitor<XSECBinTXFMInputStream> j_bis(bis); XMLByte buf[1024]; xsecsize_t read = bis->readBytes(buf, 1023); while (read > 0) { formatTarget->writeChars(buf, read, NULL); read = bis->readBytes(buf, 1023); } } } else { XENCEncryptedData *xenc = NULL; // Encrypting if (kek != NULL && key == NULL) { XSECPlatformUtils::g_cryptoProvider->getRandom(keyBuf, 24); XSECCryptoSymmetricKey * k = XSECPlatformUtils::g_cryptoProvider->keySymmetric(XSECCryptoSymmetricKey::KEY_3DES_192); k->setKey(keyBuf, 24); cipher->setKey(k); keyAlg = ENCRYPT_3DES_CBC; keyStr = keyBuf; keyLen = 24; } if (encryptFileAsData) { // Create a BinInputStream #if defined(XSEC_XERCES_REQUIRES_MEMMGR) BinFileInputStream * is = new BinFileInputStream(filename, XMLPlatformUtils::fgMemoryManager); #else BinFileInputStream * is = new BinFileInputStream(filename); #endif xenc = cipher->encryptBinInputStream(is, keyAlg); // Replace the document element DOMElement * elt = doc->getDocumentElement(); doc->replaceChild(xenc->getElement(), elt); elt->release(); } else { // Document encryption cipher->encryptElement(doc->getDocumentElement(), keyAlg); } // Do we encrypt a created key? if (kek != NULL && xenc != NULL) { XENCEncryptedKey *xkey = cipher->encryptKey(keyStr, keyLen, kekAlg); // Add to the EncryptedData xenc->appendEncryptedKey(xkey); } } if (doXMLOutput) { // Output the result XMLCh core[] = { XERCES_CPP_NAMESPACE_QUALIFIER chLatin_C, XERCES_CPP_NAMESPACE_QUALIFIER chLatin_o, XERCES_CPP_NAMESPACE_QUALIFIER chLatin_r, XERCES_CPP_NAMESPACE_QUALIFIER chLatin_e, XERCES_CPP_NAMESPACE_QUALIFIER chNull }; DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(core); #if defined (XSEC_XERCES_DOMLSSERIALIZER) // DOM L3 version as per Xerces 3.0 API DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer(); Janitor<DOMLSSerializer> j_theSerializer(theSerializer); // Get the config so we can set up pretty printing DOMConfiguration *dc = theSerializer->getDomConfig(); dc->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, false); // Now create an output object to format to UTF-8 DOMLSOutput *theOutput = ((DOMImplementationLS*)impl)->createLSOutput(); Janitor<DOMLSOutput> j_theOutput(theOutput); theOutput->setEncoding(MAKE_UNICODE_STRING("UTF-8")); theOutput->setByteStream(formatTarget); theSerializer->write(doc, theOutput); #else DOMWriter *theSerializer = ((DOMImplementationLS*)impl)->createDOMWriter(); Janitor<DOMWriter> j_theSerializer(theSerializer); theSerializer->setEncoding(MAKE_UNICODE_STRING("UTF-8")); if (theSerializer->canSetFeature(XMLUni::fgDOMWRTFormatPrettyPrint, false)) theSerializer->setFeature(XMLUni::fgDOMWRTFormatPrettyPrint, false); theSerializer->writeNode(formatTarget, *doc); #endif cout << endl; } } catch (XSECException &e) { char * msg = XMLString::transcode(e.getMsg()); cerr << "An error occured during encryption/decryption operation\n Message: " << msg << endl; XSEC_RELEASE_XMLCH(msg); errorsOccured = true; if (formatTarget != NULL) delete formatTarget; doc->release(); return 2; } catch (XSECCryptoException &e) { cerr << "An error occured during encryption/decryption operation\n Message: " << e.getMsg() << endl; errorsOccured = true; if (formatTarget != NULL) delete formatTarget; doc->release(); #if defined (XSEC_HAVE_OPENSSL) ERR_load_crypto_strings(); BIO * bio_err; if ((bio_err=BIO_new(BIO_s_file())) != NULL) BIO_set_fp(bio_err,stderr,BIO_NOCLOSE|BIO_FP_TEXT); ERR_print_errors(bio_err); #endif return 2; } if (formatTarget != NULL) delete formatTarget; doc->release(); return 0; }
// --------------------------------------------------------------------------- // // main // // --------------------------------------------------------------------------- int main(int argC, char* argV[]) { int retval = 0; // Initialize the XML4C2 system try { XMLPlatformUtils::Initialize(); } catch(const XMLException &toCatch) { XERCES_STD_QUALIFIER cerr << "Error during Xerces-c Initialization.\n" << " Exception message:" << StrX(toCatch.getMessage()) << XERCES_STD_QUALIFIER endl; return 1; } // Check command line and extract arguments. if (argC < 2) { usage(); XMLPlatformUtils::Terminate(); return 1; } // See if non validating dom parser configuration is requested. int parmInd; for (parmInd = 1; parmInd < argC; parmInd++) { // Break out on first parm not starting with a dash if (argV[parmInd][0] != '-') break; // Watch for special case help request if (!strcmp(argV[parmInd], "-?")) { usage(); XMLPlatformUtils::Terminate(); return 2; } else if (!strncmp(argV[parmInd], "-v=", 3) || !strncmp(argV[parmInd], "-V=", 3)) { const char* const parm = &argV[parmInd][3]; if (!strcmp(parm, "never")) gValScheme = XercesDOMParser::Val_Never; else if (!strcmp(parm, "auto")) gValScheme = XercesDOMParser::Val_Auto; else if (!strcmp(parm, "always")) gValScheme = XercesDOMParser::Val_Always; else { XERCES_STD_QUALIFIER cerr << "Unknown -v= value: " << parm << XERCES_STD_QUALIFIER endl; XMLPlatformUtils::Terminate(); return 2; } } else if (!strcmp(argV[parmInd], "-n") || !strcmp(argV[parmInd], "-N")) { gDoNamespaces = true; } else if (!strcmp(argV[parmInd], "-s") || !strcmp(argV[parmInd], "-S")) { gDoSchema = true; } else if (!strcmp(argV[parmInd], "-f") || !strcmp(argV[parmInd], "-F")) { gSchemaFullChecking = true; } else if (!strcmp(argV[parmInd], "-e") || !strcmp(argV[parmInd], "-E")) { gDoCreate = true; } else if (!strncmp(argV[parmInd], "-wenc=", 6)) { // Get out the encoding name gOutputEncoding = XMLString::transcode( &(argV[parmInd][6]) ); } else if (!strncmp(argV[parmInd], "-wfile=", 7)) { goutputfile = &(argV[parmInd][7]); } else if (!strncmp(argV[parmInd], "-wddc=", 6)) { const char* const parm = &argV[parmInd][6]; if (!strcmp(parm, "on")) gDiscardDefaultContent = true; else if (!strcmp(parm, "off")) gDiscardDefaultContent = false; else { XERCES_STD_QUALIFIER cerr << "Unknown -wddc= value: " << parm << XERCES_STD_QUALIFIER endl; XMLPlatformUtils::Terminate(); return 2; } } else if (!strncmp(argV[parmInd], "-wscs=", 6)) { const char* const parm = &argV[parmInd][6]; if (!strcmp(parm, "on")) gSplitCdataSections = true; else if (!strcmp(parm, "off")) gSplitCdataSections = false; else { XERCES_STD_QUALIFIER cerr << "Unknown -wscs= value: " << parm << XERCES_STD_QUALIFIER endl; XMLPlatformUtils::Terminate(); return 2; } } else if (!strncmp(argV[parmInd], "-wflt=", 6)) { const char* const parm = &argV[parmInd][6]; if (!strcmp(parm, "on")) gUseFilter = true; else if (!strcmp(parm, "off")) gUseFilter = false; else { XERCES_STD_QUALIFIER cerr << "Unknown -wflt= value: " << parm << XERCES_STD_QUALIFIER endl; XMLPlatformUtils::Terminate(); return 2; } } else if (!strncmp(argV[parmInd], "-wfpp=", 6)) { const char* const parm = &argV[parmInd][6]; if (!strcmp(parm, "on")) gFormatPrettyPrint = true; else if (!strcmp(parm, "off")) gFormatPrettyPrint = false; else { XERCES_STD_QUALIFIER cerr << "Unknown -wfpp= value: " << parm << XERCES_STD_QUALIFIER endl; XMLPlatformUtils::Terminate(); return 2; } } else if (!strncmp(argV[parmInd], "-wbom=", 6)) { const char* const parm = &argV[parmInd][6]; if (!strcmp(parm, "on")) gWriteBOM = true; else if (!strcmp(parm, "off")) gWriteBOM = false; else { XERCES_STD_QUALIFIER cerr << "Unknown -wbom= value: " << parm << XERCES_STD_QUALIFIER endl; XMLPlatformUtils::Terminate(); return 2; } } else { XERCES_STD_QUALIFIER cerr << "Unknown option '" << argV[parmInd] << "', ignoring it.\n" << XERCES_STD_QUALIFIER endl; } } // // And now we have to have only one parameter left and it must be // the file name. // if (parmInd + 1 != argC) { usage(); XMLPlatformUtils::Terminate(); return 1; } gXmlFile = argV[parmInd]; // // Create our parser, then attach an error handler to the parser. // The parser will call back to methods of the ErrorHandler if it // discovers errors during the course of parsing the XML document. // XercesDOMParser *parser = new XercesDOMParser; parser->setValidationScheme(gValScheme); parser->setDoNamespaces(gDoNamespaces); parser->setDoSchema(gDoSchema); parser->setValidationSchemaFullChecking(gSchemaFullChecking); parser->setCreateEntityReferenceNodes(gDoCreate); DOMTreeErrorReporter *errReporter = new DOMTreeErrorReporter(); parser->setErrorHandler(errReporter); // // Parse the XML file, catching any XML exceptions that might propogate // out of it. // bool errorsOccured = false; try { parser->parse(gXmlFile); } catch (const OutOfMemoryException&) { XERCES_STD_QUALIFIER cerr << "OutOfMemoryException" << XERCES_STD_QUALIFIER endl; errorsOccured = true; } catch (const XMLException& e) { XERCES_STD_QUALIFIER cerr << "An error occurred during parsing\n Message: " << StrX(e.getMessage()) << XERCES_STD_QUALIFIER endl; errorsOccured = true; } catch (const DOMException& e) { const unsigned int maxChars = 2047; XMLCh errText[maxChars + 1]; XERCES_STD_QUALIFIER cerr << "\nDOM Error during parsing: '" << gXmlFile << "'\n" << "DOMException code is: " << e.code << XERCES_STD_QUALIFIER endl; if (DOMImplementation::loadDOMExceptionMsg(e.code, errText, maxChars)) XERCES_STD_QUALIFIER cerr << "Message is: " << StrX(errText) << XERCES_STD_QUALIFIER endl; errorsOccured = true; } catch (...) { XERCES_STD_QUALIFIER cerr << "An error occurred during parsing\n " << XERCES_STD_QUALIFIER endl; errorsOccured = true; } // If the parse was successful, output the document data from the DOM tree if (!errorsOccured && !errReporter->getSawErrors()) { DOMPrintFilter *myFilter = 0; try { // get a serializer, an instance of DOMWriter XMLCh tempStr[100]; XMLString::transcode("LS", tempStr, 99); DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr); DOMWriter *theSerializer = ((DOMImplementationLS*)impl)->createDOMWriter(); // set user specified output encoding theSerializer->setEncoding(gOutputEncoding); // plug in user's own filter if (gUseFilter) { // even we say to show attribute, but the DOMWriter // will not show attribute nodes to the filter as // the specs explicitly says that DOMWriter shall // NOT show attributes to DOMWriterFilter. // // so DOMNodeFilter::SHOW_ATTRIBUTE has no effect. // same DOMNodeFilter::SHOW_DOCUMENT_TYPE, no effect. // myFilter = new DOMPrintFilter(DOMNodeFilter::SHOW_ELEMENT | DOMNodeFilter::SHOW_ATTRIBUTE | DOMNodeFilter::SHOW_DOCUMENT_TYPE); theSerializer->setFilter(myFilter); } // plug in user's own error handler DOMErrorHandler *myErrorHandler = new DOMPrintErrorHandler(); theSerializer->setErrorHandler(myErrorHandler); // set feature if the serializer supports the feature/mode if (theSerializer->canSetFeature(XMLUni::fgDOMWRTSplitCdataSections, gSplitCdataSections)) theSerializer->setFeature(XMLUni::fgDOMWRTSplitCdataSections, gSplitCdataSections); if (theSerializer->canSetFeature(XMLUni::fgDOMWRTDiscardDefaultContent, gDiscardDefaultContent)) theSerializer->setFeature(XMLUni::fgDOMWRTDiscardDefaultContent, gDiscardDefaultContent); if (theSerializer->canSetFeature(XMLUni::fgDOMWRTFormatPrettyPrint, gFormatPrettyPrint)) theSerializer->setFeature(XMLUni::fgDOMWRTFormatPrettyPrint, gFormatPrettyPrint); if (theSerializer->canSetFeature(XMLUni::fgDOMWRTBOM, gWriteBOM)) theSerializer->setFeature(XMLUni::fgDOMWRTBOM, gWriteBOM); // // Plug in a format target to receive the resultant // XML stream from the serializer. // // StdOutFormatTarget prints the resultant XML stream // to stdout once it receives any thing from the serializer. // XMLFormatTarget *myFormTarget; if (goutputfile) myFormTarget = new LocalFileFormatTarget(goutputfile); else myFormTarget = new StdOutFormatTarget(); // get the DOM representation DOMNode *doc = parser->getDocument(); // // do the serialization through DOMWriter::writeNode(); // theSerializer->writeNode(myFormTarget, *doc); delete theSerializer; // // Filter, formatTarget and error handler // are NOT owned by the serializer. // delete myFormTarget; delete myErrorHandler; if (gUseFilter) delete myFilter; } catch (const OutOfMemoryException&) { XERCES_STD_QUALIFIER cerr << "OutOfMemoryException" << XERCES_STD_QUALIFIER endl; retval = 5; } catch (XMLException& e) { XERCES_STD_QUALIFIER cerr << "An error occurred during creation of output transcoder. Msg is:" << XERCES_STD_QUALIFIER endl << StrX(e.getMessage()) << XERCES_STD_QUALIFIER endl; retval = 4; } } else retval = 4; // // Clean up the error handler. The parser does not adopt handlers // since they could be many objects or one object installed for multiple // handlers. // delete errReporter; // // Delete the parser itself. Must be done prior to calling Terminate, below. // delete parser; // And call the termination method XMLPlatformUtils::Terminate(); XMLString::release(&gOutputEncoding); return retval; }
int main(int argc, char **argv) { XSECCryptoKey * key = NULL; DSIGKeyInfoX509 * keyInfoX509 = NULL; OpenSSLCryptoX509 * certs[128]; int certCount = 0; int paramCount; bool clearKeyInfo = false; // Initialise the XML system try { XMLPlatformUtils::Initialize(); #ifndef XSEC_NO_XALAN XPathEvaluator::initialize(); XalanTransformer::initialize(); #endif XSECPlatformUtils::Initialise(); } catch (const XMLException &e) { cerr << "Error during initialisation of Xerces" << endl; cerr << "Error Message = : " << e.getMessage() << endl; } // Initialise OpenSSL ERR_load_crypto_strings(); BIO * bio_err; if ((bio_err=BIO_new(BIO_s_file())) != NULL) BIO_set_fp(bio_err,stderr,BIO_NOCLOSE|BIO_FP_TEXT); if (argc < 2) { printUsage(); exit (1); } paramCount = 1; while (paramCount < argc - 1) { // Run through all parameters if (stricmp(argv[paramCount], "--dsakey") == 0 || stricmp(argv[paramCount], "-d") == 0 || stricmp(argv[paramCount], "--rsakey") == 0 || stricmp(argv[paramCount], "-r") == 0) { // DSA or RSA Key if (paramCount + 3 >= argc) { printUsage(); exit (1); } if (key != 0) { cerr << "\nError loading RSA or DSA key - another key already loaded\n\n"; printUsage(); exit(1); } // Load the signing key // For now just read a particular file BIO * bioKey; if ((bioKey = BIO_new(BIO_s_file())) == NULL) { cerr << "Error opening private key file\n\n"; exit (1); } if (BIO_read_filename(bioKey, argv[paramCount + 1]) <= 0) { cerr << "Error opening private key file\n\n"; exit (1); } EVP_PKEY * pkey; pkey = PEM_read_bio_PrivateKey(bioKey,NULL,NULL,argv[paramCount + 2]); if (pkey == NULL) { cerr << "Error loading private key\n\n"; ERR_print_errors(bio_err); exit (1); } if (stricmp(argv[paramCount], "--dsakey") == 0 || stricmp(argv[paramCount], "-d") == 0) { // Check type is correct if (pkey->type != EVP_PKEY_DSA) { cerr << "DSA Key requested, but OpenSSL loaded something else\n"; exit (1); } // Create the XSEC OpenSSL interface key = new OpenSSLCryptoKeyDSA(pkey); } else { if (pkey->type != EVP_PKEY_RSA) { cerr << "RSA Key requested, but OpenSSL loaded something else\n"; exit (1); } key = new OpenSSLCryptoKeyRSA(pkey); } EVP_PKEY_free(pkey); BIO_free(bioKey); paramCount += 3; } /* argv[1] = "dsa/rsa" */ else if (stricmp(argv[paramCount], "--x509cert") == 0 || stricmp(argv[paramCount], "-x") == 0) { // X509Data keyInfo if (paramCount + 2 >= argc) { printUsage(); exit (1); } // Load the signing key // For now just read a particular file BIO * bioX509; if ((bioX509 = BIO_new(BIO_s_file())) == NULL) { cerr << "Error opening file\n\n"; exit (1); } if (BIO_read_filename(bioX509, argv[paramCount + 1]) <= 0) { cerr << "Error opening X509 Certificate " << argv[paramCount + 1] << "\n\n"; exit (1); } X509 * x ; x = PEM_read_bio_X509_AUX(bioX509,NULL,NULL,NULL); if (x == NULL) { cerr << "Error loading certificate key\n\n"; ERR_print_errors(bio_err); exit (1); } // Create the XSEC OpenSSL interface - used only to translate to Base64 certs[certCount++] = new OpenSSLCryptoX509(x); X509_free(x); BIO_free(bioX509); paramCount += 2; } /* argv[1] = "--x509cert" */ else if (stricmp(argv[paramCount], "--hmackey") == 0 || stricmp(argv[paramCount], "-h") == 0) { OpenSSLCryptoKeyHMAC * hmacKey = new OpenSSLCryptoKeyHMAC(); hmacKey->setKey((unsigned char *) argv[paramCount + 1], strlen(argv[paramCount + 1])); key = hmacKey; paramCount += 2; } else if (stricmp(argv[paramCount], "--clearkeys") == 0 || stricmp(argv[paramCount], "-c") == 0) { clearKeyInfo = true; paramCount += 1; } else { printUsage(); exit(1); } } // Create and set up the parser XercesDOMParser * parser = new XercesDOMParser; parser->setDoNamespaces(true); parser->setCreateEntityReferenceNodes(true); // Now parse out file bool errorsOccured = false; int errorCount = 0; try { parser->parse(argv[argc - 1]); errorCount = parser->getErrorCount(); if (errorCount > 0) errorsOccured = true; } catch (const XMLException& e) { cerr << "An error occured during parsing\n Message: " << e.getMessage() << endl; errorsOccured = true; } catch (const DOMException& e) { cerr << "A DOM error occured during parsing\n DOMException code: " << e.code << endl; errorsOccured = true; } if (errorsOccured) { cout << "Errors during parse" << endl; exit (1); } /* Now that we have the parsed file, get the DOM document and start looking at it */ DOMNode *doc; // The document that we parsed doc = parser->getDocument(); DOMDocument *theDOM = parser->getDocument(); // Find the signature node DOMNode *sigNode = findDSIGNode(doc, "Signature"); // Create the signature checker if (sigNode == 0) { cerr << "Could not find <Signature> node in " << argv[argc-1] << endl; exit(1); } XSECProvider prov; DSIGSignature * sig = prov.newSignatureFromDOM(theDOM, sigNode); int i; try { sig->load(); if (clearKeyInfo == true) sig->clearKeyInfo(); if (key != NULL) sig->setSigningKey(key); sig->sign(); // Add any KeyInfo elements if (certCount > 0) { // Have some certificates - see if there is already an X509 list DSIGKeyInfoList * kiList = sig->getKeyInfoList(); int kiSize = kiList->getSize(); for (i = 0; i < kiSize; ++i) { if (kiList->item(i)->getKeyInfoType() == DSIGKeyInfo::KEYINFO_X509) { keyInfoX509 = (DSIGKeyInfoX509 *) kiList->item(i); break; } } if (keyInfoX509 == 0) { // Not found - need to create keyInfoX509 = sig->appendX509Data(); } for (i = 0; i < certCount; ++i) { keyInfoX509->appendX509Certificate(certs[i]->getDEREncodingSB().rawCharBuffer()); } } /* certCount > 0 */ } catch (XSECException &e) { cerr << "An error occured during signature verification\n Message: " << e.getMsg() << endl; errorsOccured = true; exit (1); } // Print out the result DOMPrintFormatTarget* formatTarget = new DOMPrintFormatTarget(); const XMLCh* encNameStr = XMLString::transcode("UTF-8"); DOMNode *aNode = doc->getFirstChild(); if (aNode->getNodeType() == DOMNode::ENTITY_NODE) { const XMLCh* aStr = ((DOMEntity *)aNode)->getEncoding(); if (!strEquals(aStr, "")) { encNameStr = aStr; } } unsigned int lent = XMLString::stringLen(encNameStr); gEncodingName = new XMLCh[lent + 1]; XMLString::copyNString(gEncodingName, encNameStr, lent); gEncodingName[lent] = 0; gFormatter = new XMLFormatter("UTF-8", formatTarget, XMLFormatter::NoEscapes, gUnRepFlags); cout << doc; prov.releaseSignature(sig); return 0; }
XERCES_CPP_NAMESPACE_USE int main( int argc, char *argv[] ) { std::cout << "****************************" << std::endl; std::cout << "XML DOM PARSER PLAY" << std::endl; std::cout << "****************************" << std::endl; try { XMLPlatformUtils::Initialize(); } catch( const XMLException& ex ) { std::cerr << "error with xml initialisation:" << ex.getMessage() << std::endl; return 1; } std::cout << "Building parser ..." << std::endl; XercesDOMParser* parser = new XercesDOMParser(); if( !parser ) { std::cerr << "no parser" << std::endl; return 1; } parser->setValidationScheme(XercesDOMParser::Val_Always); parser->setDoNamespaces(false); parser->setDoSchema(false); parser->setCreateEntityReferenceNodes(false); std::cout << "Building error handler" << std::endl; ErrorHandler* errHandler = dynamic_cast<ErrorHandler*>(new HandlerBase()); if( errHandler == 0 ) { std::cerr << "ibad cast" << std::endl; return 1; } if( errHandler == 0 ) { std::cerr << "error with errorhandler caszting:" << std::endl; return 1; } parser->setErrorHandler(errHandler); char* xmlFile = "/home/suggitpe/test/RPMS/config/rpms_config.xml"; try { parser->parse(xmlFile); if( parser->getErrorCount() == 0 ) { std::cerr << "errors in parsing" << std::endl; return 1; } DOMDocument * doc = parser->getDocument(); if( doc->hasChildNodes() ) { std::cout << "Num nodes: " << doc->getChildNodes()->getLength() << std::endl; for( int i = 0; i < doc->getChildNodes()->getLength();++i ) { cout << "\t" << i << " type: " << doc->getChildNodes()->item(i)->getNodeType() << endl; if( doc->getChildNodes()->item(i)->getNodeType() == 1 ) { DOMElement *e = dynamic_cast<DOMElement*>(doc->getChildNodes()->item(i)); if( !e ) { cerr << "bad cast" << endl; } if( e->hasChildNodes() ) { cout << "\t\telement found with " << e->getChildNodes()->getLength() << " nodes"<< endl; } else { cout << "No child nodes" << endl; } } } cout << "now for the other way" << endl; XMLCh * name = XMLString::transcode("system_components"); DOMNodeList *list = doc->getDocumentElement()->getElementsByTagName( name ); XMLString::release(&name); std::cout << "Got list [" << list->getLength() << "]" << std::endl; for( XMLSize_t i =0; i < list->getLength(); ++i ) { std::cout << "." << std::endl; } } else { std::cout << "no child nodes" << std::endl; } } catch( const XMLException& ex ) { std::cerr << "error with xml parser:" << ex.getMessage() << std::endl; return 1; } catch( const DOMException& dex ) { std::cerr << "error with xml parser:" << dex.msg << std::endl; return 1; } catch(...) { std::cerr << "unknown problems" << std::endl; return 1; } delete parser; delete errHandler; std::cout << "****************************" << std::endl; std::cout << "" << std::endl; return 0; }
int ParameterManager::LoadDocument(const XERCES_CPP_NAMESPACE_QUALIFIER InputSource& inputSource) { // // Create our parser, then attach an error handler to the parser. // The parser will call back to methods of the ErrorHandler if it // discovers errors during the course of parsing the XML document. // XercesDOMParser *parser = new XercesDOMParser; parser->setValidationScheme(gValScheme); parser->setDoNamespaces(gDoNamespaces); parser->setDoSchema(gDoSchema); parser->setValidationSchemaFullChecking(gSchemaFullChecking); parser->setCreateEntityReferenceNodes(gDoCreate); DOMTreeErrorReporter *errReporter = new DOMTreeErrorReporter(); parser->setErrorHandler(errReporter); // // Parse the XML file, catching any XML exceptions that might propagate // out of it. // bool errorsOccured = false; try { parser->parse(inputSource); } catch (const XMLException& e) { std::cerr << "An error occurred during parsing\n Message: " << StrX(e.getMessage()) << std::endl; errorsOccured = true; } catch (const DOMException& e) { std::cerr << "A DOM error occurred during parsing\n DOMException code: " << e.code << std::endl; errorsOccured = true; } catch (...) { std::cerr << "An error occurred during parsing\n " << std::endl; errorsOccured = true; } if (errorsOccured) { delete parser; delete errReporter; return 0; } _pDocument = parser->adoptDocument(); delete parser; delete errReporter; if (!_pDocument) throw XMLBaseException("Malformed Parameter document: Invalid document"); DOMElement* rootElem = _pDocument->getDocumentElement(); if (!rootElem) throw XMLBaseException("Malformed Parameter document: Root group not found"); _pGroupNode = FindElement(rootElem,"FCParamGroup","Root"); if (!_pGroupNode) throw XMLBaseException("Malformed Parameter document: Root group not found"); return 1; }
int parseTEI( const char* xmlFile, bool english, SentenceList& sentenceList ) { try { XMLPlatformUtils::Initialize(); } catch(const XMLException &toCatch) { std::cerr << "Error during Xerces-c Initialization.\n" << " Exception message:" << StrX(toCatch.getMessage()) << std::endl; return 1; } // // Create our parser, then attach an error handler to the parser. // The parser will call back to methods of the ErrorHandler if it // discovers errors during the course of parsing the XML document. // XercesDOMParser *parser = new XercesDOMParser; parser->setValidationScheme(XercesDOMParser::Val_Never); parser->setDoNamespaces(false); parser->setDoSchema(false); parser->setValidationSchemaFullChecking(false); parser->setCreateEntityReferenceNodes(false); DOMTreeErrorReporter *errReporter = new DOMTreeErrorReporter(); parser->setErrorHandler(errReporter); // // Parse the XML file, catching any XML exceptions that might propogate // out of it. // bool errorsOccured = false; try { parser->parse(xmlFile); } catch (const XMLException& e) { std::cerr << "An error occurred during parsing\n Message: " << StrX(e.getMessage()) << std::endl; errorsOccured = true; } catch (const DOMException& e) { const unsigned int maxChars = 2047; XMLCh errText[maxChars + 1]; std::cerr << "\nDOM Error during parsing: '" << xmlFile << "'\n" << "DOMException code is: " << e.code << std::endl; if (DOMImplementation::loadDOMExceptionMsg(e.code, errText, maxChars)) std::cerr << "Message is: " << StrX(errText) << std::endl; errorsOccured = true; } catch (...) { std::cerr << "An error occurred during parsing\n " << std::endl; errorsOccured = true; } if (errorsOccured || errReporter->getSawErrors()) return -1; // get the DOM representation DOMNode *doc = parser->getDocument(); sentenceList.clear(); buildSentenceListFromDOMTree(doc,sentenceList,english); delete errReporter; // Delete the parser itself. Must be done prior to calling Terminate, below. delete parser; // And call the termination method XMLPlatformUtils::Terminate(); return 0; }