Exemple #1
0
Pothos::Object ProxyBlockEval::lookupOrEvalAsType(const Poco::Dynamic::Var &arg)
{
    //this is not an expression, but a native JSON type
    if (not arg.isString()) return _evalEnv->eval(arg.toString());

    //the expression is an already evaluated property
    const auto expr = arg.extract<std::string>();
    if (_properties.count(expr) != 0) return _properties.at(expr);

    //otherwise the expression must be evaluated
    //with the evaluated properties as global variables
    //use a new eval to avoid poisoning the globals
    Pothos::Util::EvalEnvironment evalEnv;
    for (const auto &pair : _properties)
    {
        //Register can fail for non-primitive types
        //but those are not used in expressions anyway.
        try {evalEnv.registerConstantObj(pair.first, pair.second);}
        catch (...){}
    }
    return evalEnv.eval(expr);
}
Exemple #2
0
void QueueManager::connect(const Poco::DynamicStruct& connectionInformation)
{
	MQCNO cno = { MQCNO_DEFAULT };

	cno.Version = MQCNO_VERSION_2;
	cno.Options = MQCNO_HANDLE_SHARE_BLOCK;

	MQCD cd = { MQCD_CLIENT_CONN_DEFAULT };
	const std::string channel = connectionInformation["channel"];
	const std::string connection = connectionInformation["connection"];
	strncpy(cd.ChannelName, channel.c_str(), MQ_CHANNEL_NAME_LENGTH);
	strncpy(cd.ConnectionName, connection.c_str(), MQ_CONN_NAME_LENGTH);
	cd.TransportType = MQXPT_TCP;
	cno.ClientConnPtr = &cd;

	// User/Password needs at least MQCNO version 5
#ifdef MQCNO_VERSION_5
	MQCSP csp = { MQCSP_DEFAULT };
	if (connectionInformation.contains("user"))
	{
		const std::string user = connectionInformation["user"];
		if (user.length() > 0 ) {
			const std::string pwd = connectionInformation["pwd"];
			csp.AuthenticationType = MQCSP_AUTH_USER_ID_AND_PWD;
			csp.CSPUserIdPtr = (MQPTR)user.c_str();
			csp.CSPUserIdLength = (MQLONG)user.length();
			csp.CSPPasswordPtr = (MQPTR)pwd.c_str();
			csp.CSPPasswordLength = (MQLONG)pwd.length();

			cno.SecurityParmsPtr = &csp;
			cno.Version = MQCNO_VERSION_5;
		}
	}
#endif

	// SSL needs at least MQCNO version 4
	// SSL requires MQCD version 7 or later
#if defined(MQCNO_VERSION_4) && defined(MQCD_VERSION_7)
	MQSCO sco = { MQSCO_DEFAULT };
	MQAIR authInfoRec = { MQAIR_DEFAULT };
	if (connectionInformation.contains("ssl"))
	{
		if (cno.Version == MQCNO_VERSION_2)
		{
			cno.Version = MQCNO_VERSION_4;
		}
		const Poco::DynamicStruct ssl = connectionInformation["ssl"].extract<Poco::DynamicStruct>();

		if (ssl.contains("cipherspec"))
		{
			strncpy(cd.SSLCipherSpec, ssl["cipherspec"].toString().c_str(), MQ_SSL_CIPHER_SPEC_LENGTH);
			cd.Version = MQCD_VERSION_7;
		}

		Poco::Dynamic::Var keyrepos = ssl["keyrepos"];
		strncpy(sco.KeyRepository, keyrepos.toString().c_str(), MQ_SSL_KEY_REPOSITORY_LENGTH);

		if (ssl.contains("fips"))
		{
			if (ssl["fips"].convert<bool>())
			{
				sco.FipsRequired = MQSSL_FIPS_YES;
				sco.Version = MQSCO_VERSION_2; // A version 2 MQSCO supports FipsRequired
			}
		}

		if (ssl.contains("suiteb"))
		{
			static std::map<std::string, MQLONG> suiteBTable;
			if (suiteBTable.size() == 0)
			{
				suiteBTable.insert(std::make_pair("none", MQ_SUITE_B_NONE));
				suiteBTable.insert(std::make_pair("128 bit", MQ_SUITE_B_128_BIT));
				suiteBTable.insert(std::make_pair("192 bit", MQ_SUITE_B_192_BIT));
			}

			sco.Version = MQSCO_VERSION_3; /* A version 3 MQSCO supports Suite B encryption policy */

			Poco::StringTokenizer tokenizer(ssl["suiteb"].toString(), ",", Poco::StringTokenizer::TOK_TRIM);
			int n = 0;
			for (Poco::StringTokenizer::Iterator it = tokenizer.begin(); it != tokenizer.end() && n < 4; ++it, ++n)
			{
				std::map<std::string, MQLONG>::iterator suiteBIterator = suiteBTable.find(*it);
				if (suiteBIterator == suiteBTable.end())
				{
					throw Poco::NotFoundException(Poco::format("Unknown SuiteB value: %s", *it));
				}
				else
				{
					sco.EncryptionPolicySuiteB[n] = suiteBIterator->second;
				}
			}
		}

		if (ssl.contains("certificate_validation_policy"))
		{
			static std::map<std::string, MQLONG> certValPolicyTable;
			if (certValPolicyTable.size() == 0)
			{
				certValPolicyTable.insert(std::make_pair("any", MQ_CERT_VAL_POLICY_ANY));
				certValPolicyTable.insert(std::make_pair("rfc5280", MQ_CERT_VAL_POLICY_RFC5280));
			}

			sco.Version = MQSCO_VERSION_4; /* A version 4 MQSCO supports certificate validation policy */

			std::string certValPolicy = ssl["certificate_validation_policy"].toString();
			std::map<std::string, MQLONG>::iterator certValPolicyIterator = certValPolicyTable.find(certValPolicy);
			if (certValPolicyIterator == certValPolicyTable.end())
			{
				throw Poco::NotFoundException(Poco::format("Unknown Certification Validation Policy: %s", certValPolicy));
			}
			else
			{
				sco.CertificateValPolicy = certValPolicyIterator->second;
			}
		}
		if (ssl.contains("ocsp_url"))
		{
			/* OCSP requires MQAIR version 2 or later */
			authInfoRec.Version = MQAIR_VERSION_2;
			authInfoRec.AuthInfoType = MQAIT_OCSP;

			strncpy(authInfoRec.OCSPResponderURL, ssl["ocsp_url"].toString().c_str(), MQ_AUTH_INFO_OCSP_URL_LENGTH);

			/* The MQSCO must point to the MQAIR */
			sco.AuthInfoRecCount = 1;
			sco.AuthInfoRecPtr = &authInfoRec;
		}

		cno.SSLConfigPtr = &sco;
	}
#endif

	MQ::MQSubsystem& mqSystem = Poco::Util::Application::instance().getSubsystem<MQ::MQSubsystem>();
	_handle = mqSystem.functions().connx(_name, &cno);

	inquireQmgrAttrs();
}