示例#1
0
TEST(test_iter, const_iterator)
{
	std::cout << "test const iterator" << std::endl;
	const KeySet ks4 (5,
		*Key ("user/key4/1", KEY_END),
		*Key ("user/key4/2", KEY_END),
		*Key ("user/key4/3", KEY_VALUE, "value", KEY_END),
		KS_END);

	KeySet::iterator it = ks4.begin();
	ASSERT_EQ(it->getName() ,  "user/key4/1"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/1"    ) <<  "name wrong";
	it+=1;
	ASSERT_EQ(it->getName() ,  "user/key4/2"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/2"    ) <<  "name wrong";
	it+=1;
	ASSERT_EQ(it->getName() ,  "user/key4/3"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/3"    ) <<  "name wrong";
	it+=1;
	ASSERT_EQ(it ,  ks4.end()    ) <<  "not at end";
	it-=1;
	ASSERT_EQ(it->getName() ,  "user/key4/3"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/3"    ) <<  "name wrong";
	it-=1;
	ASSERT_EQ(it->getName() ,  "user/key4/2"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/2"    ) <<  "name wrong";
	it-=1;
	ASSERT_EQ(it->getName() ,  "user/key4/1"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/1"    ) <<  "name wrong";
	ASSERT_EQ(it ,  ks4.begin()    ) <<  "not at begin";



	ASSERT_EQ(it->getName() ,  "user/key4/1"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/1"    ) <<  "name wrong";
	it++;
	ASSERT_EQ(it->getName() ,  "user/key4/2"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/2"    ) <<  "name wrong";
	it++;
	ASSERT_EQ(it->getName() ,  "user/key4/3"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/3"    ) <<  "name wrong";
	it++;
	ASSERT_EQ(it ,  ks4.end()    ) <<  "not at end";
	it--;
	ASSERT_EQ(it->getName() ,  "user/key4/3"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/3"    ) <<  "name wrong";
	it--;
	ASSERT_EQ(it->getName() ,  "user/key4/2"    ) <<  "name wrong";
	ASSERT_EQ((*it).getName() ,  "user/key4/2"    ) <<  "name wrong";
	it--;
}
	/**
	 * @brief Add all keys of a keyset
	 *
	 * Will not update the underlying keyset (is fixed at
	 * construction)
	 *
	 * @param ks
	 */
	void add(KeySet const & ks)
	{
		for (KeySet::iterator it = ks.begin();
				it != ks.end(); ++it)
		{
			add(*it);
		}
	}
TEST (test_iter, const_iterate)
{
	// std::cout << "testing const iterate" << std::endl;
	const KeySet ks2 (5, *Key ("user/key2/1", KEY_END), *Key ("user/key2/2", KEY_END),
			  *Key ("user/key2/3", KEY_VALUE, "value", KEY_END), KS_END);

	ASSERT_EQ ((*ks2.begin ()).getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ (ks2.begin ()->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.begin ()[0])->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((*(++ks2.begin ())).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((++ks2.begin ())->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.begin () + 1)).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.begin () + 1)->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.begin ()[1])->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.begin () + 2)).getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.begin () + 2)->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.begin ()[2])->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.begin () + 3), ks2.end ()) << "end iterator broken";

	ASSERT_EQ ((*ks2.rbegin ()).getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ (ks2.rbegin ()->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.rbegin ()[0])->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((*(++ks2.rbegin ())).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((++ks2.rbegin ())->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.rbegin () + 1)).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.rbegin () + 1)->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.rbegin ()[1])->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.rbegin () + 2)).getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.rbegin () + 2)->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.rbegin ()[2])->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.rbegin () + 3), ks2.rend ()) << "end iterator broken";

	ASSERT_EQ ((*ks2.cbegin ()).getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ (ks2.cbegin ()->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.cbegin ()[0])->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((*(++ks2.cbegin ())).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((++ks2.cbegin ())->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.cbegin () + 1)).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.cbegin () + 1)->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.cbegin ()[1])->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.cbegin () + 2)).getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.cbegin () + 2)->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.cbegin ()[2])->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.cbegin () + 3), ks2.cend ()) << "end iterator broken";

	ASSERT_EQ ((*ks2.crbegin ()).getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ (ks2.crbegin ()->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((ks2.crbegin ()[0])->getName (), "user/key2/3") << "name wrong";
	ASSERT_EQ ((*(++ks2.crbegin ())).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((++ks2.crbegin ())->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.crbegin () + 1)).getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.crbegin () + 1)->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((ks2.crbegin ()[1])->getName (), "user/key2/2") << "name wrong";
	ASSERT_EQ ((*(ks2.crbegin () + 2)).getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.crbegin () + 2)->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.crbegin ()[2])->getName (), "user/key2/1") << "name wrong";
	ASSERT_EQ ((ks2.crbegin () + 3), ks2.crend ()) << "end iterator broken";
}
示例#4
0
/* ************************************************************************* */
TEST(Marginals, order) {
  NonlinearFactorGraph fg;
  fg += PriorFactor<Pose2>(0, Pose2(), noiseModel::Unit::Create(3));
  fg += BetweenFactor<Pose2>(0, 1, Pose2(1,0,0), noiseModel::Unit::Create(3));
  fg += BetweenFactor<Pose2>(1, 2, Pose2(1,0,0), noiseModel::Unit::Create(3));
  fg += BetweenFactor<Pose2>(2, 3, Pose2(1,0,0), noiseModel::Unit::Create(3));

  Values vals;
  vals.insert(0, Pose2());
  vals.insert(1, Pose2(1,0,0));
  vals.insert(2, Pose2(2,0,0));
  vals.insert(3, Pose2(3,0,0));

  vals.insert(100, Point2(0,1));
  vals.insert(101, Point2(1,1));

  fg += BearingRangeFactor<Pose2,Point2>(0, 100,
    vals.at<Pose2>(0).bearing(vals.at<Point2>(100)),
    vals.at<Pose2>(0).range(vals.at<Point2>(100)), noiseModel::Unit::Create(2));
  fg += BearingRangeFactor<Pose2,Point2>(0, 101,
    vals.at<Pose2>(0).bearing(vals.at<Point2>(101)),
    vals.at<Pose2>(0).range(vals.at<Point2>(101)), noiseModel::Unit::Create(2));

  fg += BearingRangeFactor<Pose2,Point2>(1, 100,
    vals.at<Pose2>(1).bearing(vals.at<Point2>(100)),
    vals.at<Pose2>(1).range(vals.at<Point2>(100)), noiseModel::Unit::Create(2));
  fg += BearingRangeFactor<Pose2,Point2>(1, 101,
    vals.at<Pose2>(1).bearing(vals.at<Point2>(101)),
    vals.at<Pose2>(1).range(vals.at<Point2>(101)), noiseModel::Unit::Create(2));

  fg += BearingRangeFactor<Pose2,Point2>(2, 100,
    vals.at<Pose2>(2).bearing(vals.at<Point2>(100)),
    vals.at<Pose2>(2).range(vals.at<Point2>(100)), noiseModel::Unit::Create(2));
  fg += BearingRangeFactor<Pose2,Point2>(2, 101,
    vals.at<Pose2>(2).bearing(vals.at<Point2>(101)),
    vals.at<Pose2>(2).range(vals.at<Point2>(101)), noiseModel::Unit::Create(2));

  fg += BearingRangeFactor<Pose2,Point2>(3, 100,
    vals.at<Pose2>(3).bearing(vals.at<Point2>(100)),
    vals.at<Pose2>(3).range(vals.at<Point2>(100)), noiseModel::Unit::Create(2));
  fg += BearingRangeFactor<Pose2,Point2>(3, 101,
    vals.at<Pose2>(3).bearing(vals.at<Point2>(101)),
    vals.at<Pose2>(3).range(vals.at<Point2>(101)), noiseModel::Unit::Create(2));

  Marginals marginals(fg, vals);
  KeySet set = fg.keys();
  FastVector<Key> keys(set.begin(), set.end());
  JointMarginal joint = marginals.jointMarginalCovariance(keys);

  LONGS_EQUAL(3, (long)joint(0,0).rows());
  LONGS_EQUAL(3, (long)joint(1,1).rows());
  LONGS_EQUAL(3, (long)joint(2,2).rows());
  LONGS_EQUAL(3, (long)joint(3,3).rows());
  LONGS_EQUAL(2, (long)joint(100,100).rows());
  LONGS_EQUAL(2, (long)joint(101,101).rows());
}
示例#5
0
MojErr MojDbIndex::notifyWatches(const KeySet& keys, MojDbStorageTxn* txn)
{
    LOG_TRACE("Entering function %s", __FUNCTION__);
	MojAssert(txn);

	MojThreadReadGuard guard(m_lock);
	for (KeySet::ConstIterator i = keys.begin(); i != keys.end(); ++i) {
		MojErr err = notifyWatches(*i, txn);
		MojErrCheck(err);
	}
	return MojErrNone;
}
示例#6
0
MojErr MojDbIndex::notifyWatches(const KeySet& keys, MojDbStorageTxn* txn)
{
	MojAssert(txn);
	MojLogTrace(s_log);

	MojThreadReadGuard guard(m_lock);
	for (KeySet::ConstIterator i = keys.begin(); i != keys.end(); ++i) {
		MojErr err = notifyWatches(*i, txn);
		MojErrCheck(err);
	}
	return MojErrNone;
}
/**
 * @brief loads all users from the database into the cache
 */
void StorageEngine::loadAllUsers ()
{
    using namespace kdb;

    // register exclusive access
    boost::unique_lock<boost::shared_mutex> lock (m_mutex_userCache);

    // flush cache
    this->m_userCache.clear ();

    std::string parentKeyStr = Config::instance ().getConfig ().get<std::string> ("kdb.path.users");
    std::regex regex (ELEKTRA_REST_ENTRY_SCHEMA_USERS);

    KDB kdb;
    KeySet ks;
    kdb.get (ks, parentKeyStr);

    auto elem = ks.begin ();
    while (elem != ks.end ())
    {
        kdb::Key k = elem.get ();
        if (std::regex_match (k.getName ().erase (0, parentKeyStr.length () + 1), regex))
        {
            kdbrest::model::User user = static_cast<kdbrest::model::User> (k);
            elem++; // the next element must be a sub-key of this element
            while (elem != ks.end () && elem.get ().isBelow (user))
            {
                user.addSubkey (elem.get ());
                elem++;
            }
            this->m_userCache.push_back (user);
            continue; // we don't have to increase manually anymore
        }
        elem++;
    }
}
示例#8
0
kdb::KeySet Plugin::getNeededConfig()
{
	Key neededConfigKey ("system/elektra/modules", KEY_END);
	neededConfigKey.addName(pluginName);
	neededConfigKey.addName("config/needs");

	KeySet d (info.dup());
	KeySet config = d.cut(neededConfigKey);

	KeySet ret;
	Key oldParent = neededConfigKey;
	Key newParent("system", KEY_END);
	for (KeySet::iterator i = config.begin(); i != config.end(); ++i)
	{
		Key k(i->dup());
		ret.append(kdb::tools::helper::rebaseKey(k, oldParent, newParent));
	}
	return ret;
}
示例#9
0
MojErr MojDbQueryPlan::rangesFromKeySets(const KeySet& lowerKeys, const KeySet& upperKeys, const KeySet& prefixKeys,
		const MojDbQuery::WhereClause* clause)
{
	MojAssert(lowerKeys.size() == upperKeys.size() && lowerKeys.size() == prefixKeys.size());

	MojUInt32 index = 0;
	KeySet::ConstIterator lowerIter = lowerKeys.begin();
	KeySet::ConstIterator upperIter = upperKeys.begin();
	KeySet::ConstIterator prefixIter = prefixKeys.begin();
	while (lowerIter != lowerKeys.end()) {
		MojErr err = rangesFromKeys(*lowerIter, *upperIter, *prefixIter, index, clause);
		MojErrCheck(err);
		++index;
		++lowerIter;
		++upperIter;
		++prefixIter;
	}
	return MojErrNone;
}
示例#10
0
MojErr MojDbIndex::insertKeys(const KeySet& keys, MojDbStorageTxn* txn)
{
    LOG_TRACE("Entering function %s", __FUNCTION__);

	int count = 0;
	for (KeySet::ConstIterator i = keys.begin(); i != keys.end(); ++i) {

		MojErr err = m_index->insert(*i, txn);
#if defined(MOJ_DEBUG_LOGGING)
		char s[1024];
		size_t size = (*i).size();
		MojErr err2 = MojByteArrayToHex((*i).data(), size, s); 
		MojErrCheck(err2);
		if (size > 16)	// if the object-id is in key
			strncat(s, (char *)((*i).data()) + (size - 17), 16);
        LOG_DEBUG("[db_mojodb] insertKey %d for: %s; key= %s ; err= %d\n", count+1, this->m_name.data(), s, err);
#endif
		MojErrCheck(err);
		count ++;
	}

	return MojErrNone;
}
示例#11
0
MojErr MojDbIndex::insertKeys(const KeySet& keys, MojDbStorageTxn* txn)
{
	MojLogTrace(s_log);

	int count = 0;
	for (KeySet::ConstIterator i = keys.begin(); i != keys.end(); ++i) {

		MojErr err = m_index->insert(*i, txn);
#if defined(MOJ_DEBUG_LOGGING)
		char s[1024];
		size_t size = (*i).size();
		MojErr err2 = MojByteArrayToHex((*i).data(), size, s); 
		MojErrCheck(err2);
		if (size > 16)	// if the object-id is in key
			strncat(s, (char *)((*i).data()) + (size - 17), 16);
		MojLogInfo(s_log, _T("insertKey %d for: %s; key= %s ; err= %d\n"), count+1, this->m_name.data(), s, err);
#endif
		MojErrCheck(err);
		count ++;
	}

	return MojErrNone;
}
示例#12
0
MojErr MojDbIndex::delKeys(const KeySet& keys, MojDbStorageTxn* txn, bool forcedel)
{
    LOG_TRACE("Entering function %s", __FUNCTION__);

	int count = 0;
	for (KeySet::ConstIterator i = keys.begin(); i != keys.end(); ++i) {

		MojErr err = m_index->del(*i, txn);
#if defined(MOJ_DEBUG_LOGGING)
		char s[1024];
		char *s2 = NULL;
		if (m_kind)
			s2 = (char *)(m_kind->id().data());
		size_t size = (*i).size();
		MojErr err2 = MojByteArrayToHex((*i).data(), size, s); 
		MojErrCheck(err2); 
		if (size > 16)	// if the object-id is in key
			strncat(s, (char *)((*i).data()) + (size - 17), 16);
        LOG_DEBUG("[db_mojodb] delKey %d for: %s - %s; key= %s ; err= %d\n", count+1, s2, this->m_name.data(), s, err);
#endif

		// This has some potential risk
		if (err == MojErrInternalIndexOnDel) {
			m_delMisses++;
#if defined(MOJ_DEBUG_LOGGING)
            LOG_DEBUG("[db_mojodb] delKey %d for: %s - %s; key= %s; err = %d \n", count+1, s2, this->m_name.data(), s, err);
#endif
			if (forcedel)
				err = MojErrNone;
		}
		MojErrCheck(err);
		count++;
	}

	return MojErrNone;
}
示例#13
0
	void writePreserving(QFile& inFile, QTextStream& out, const AttributeMap& data)
	{
		FNTRACE("ini", "", "writePreserving", QString("in, out, %1 rows of data").arg(data.size()));

		int i, j;
		QChar c;
		QString name;
		size_t lineNumber = 0;
		QString line;
		typedef QSet<AttributeMap::key_type> KeySet;
		KeySet unwrittenKeys = KeySet::fromList(data.keys());

		if (!inFile.open(QIODevice::ReadOnly | QIODevice::Text))
			ETHROW(Exception(QString("Unable to open %1 for reading.").arg(inFile.fileName())));
		QTextStream in(&inFile);

		while (!(line = in.readLine()).isNull())
		{
			++lineNumber;
			//std::cout << lineNumber << ": " << line.toStdString() << ":\n";

			for (i = 0; line[i].isSpace(); ++i) { out << line[i]; }

			if (line[i].isNull()) { out << '\n'; continue; }
			else if (line[i] == COMMENT_BEGIN) { out << line.mid(i) << '\n'; continue; }

			for (j = i; !(c = line[i]).isNull() && c!=COMMENT_BEGIN && c!=ASSIGNER; ++i) ;
			//std::cout << "non-empty, ";
			if (c != ASSIGNER) // non-empty line that isn't assignment -> invalid
				ETHROW(ParseError(inFile.fileName(), lineNumber, "Unknown non-empty line."));
			for (--i; line[i].isSpace(); --i) ; // last character of name
			name = line.mid(j, i - j + 1);
			//std::cout << "name: " << name.toStdString() << ' ';

			for ( ; line[j]!=ASSIGNER; ++j) out << line[j];
			out << ASSIGNER;
			i = j + 1;

			for ( ; line[i].isSpace(); ++i) out << line[i];

			if (data.contains(name))
			{
				//std::cout << "known ";
				out << data.value(name);
				unwrittenKeys.remove(name);
				for (j = i; !line[i].isNull() && line[i]!=COMMENT_BEGIN; ++i) ; // EOL || comment
				for (--i; line[i].isSpace(); --i) ; // last character of value
				++i; // first character after value
			}

			out << line.mid(i) << '\n';
			//std::cout << '\n';
		}

		if (unwrittenKeys.size())
		{
			out << '\n' << COMMENT_BEGIN << "Following lines were generated by Ds1edit Loader:\n";
			for (KeySet::iterator key = unwrittenKeys.begin();
				key != unwrittenKeys.end(); ++key)
				out << (*key) << ' ' << ASSIGNER << ' ' << data.value(*key) << '\n';
		}

		//in.resize(in.pos()+1);
		inFile.close();
	}
示例#14
0
int
main(int argc, const char** argv)
{
	//WDBG_INIT(WDBG_LIBLOW, "CryptTest", NULL, "E:\\Logs");

	{
		cout << endl << "Testing Random Number Generator..." << endl;
		for (int i=1; i <= 100; i++)
		{
			unsigned short aShort = Randomizer::GetShort();
			cout << std::hex << aShort << std::dec << "  ";
			if ((i % 5) == 0) cout << endl;
		}
		cout << endl;
	}

	{
		cout << endl << "Testing Key Classes..." << endl;
		KeySet aKeySet;
		aKeySet.insert(new BFSymmetricKey(CryptKeyBase::KEYLEN_DEF));
		aKeySet.insert(new BFSymmetricKey(4));
		BFSymmetricKey aKey(12);
		aKeySet.insert(new BFSymmetricKey(aKey.GetKeyLen(), aKey.GetKey()));

		aKeySet.insert(new EGPrivateKey(CryptKeyBase::KEYLEN_DEF));
		aKeySet.insert(new EGPrivateKey(4));
		EGPrivateKey aPvKey(12);
		EGPrivateKey aPvKey1(0);
		aKeySet.insert(new EGPrivateKey(aPvKey.GetKeyLen(), aPvKey.GetKey()));
		aKeySet.insert(new EGPrivateKey(aPvKey1));

		const EGPublicKey& aPubKey = dynamic_cast<const EGPublicKey&>(aPvKey1.GetPublicKey());
		aKeySet.insert(new EGPublicKey(aPvKey));
		aKeySet.insert(new EGPublicKey(aPubKey));

		// Output keys
		KeySet::iterator anItr(aKeySet.begin());
		for (int i=1; anItr != aKeySet.end(); i++)
		{
			cout << "Key " << i << ":  " << *(*anItr) << endl;
			delete *anItr;
			anItr = aKeySet.erase(anItr);
		}
		cout << endl;
	}

	{
		cout << endl << "Testing SymmetricCrypt..." << endl;
		BFSymmetricKey* myKey  = new BFSymmetricKey(8);
		BFSymmetricKey* badKey = new BFSymmetricKey(12);
		char* iStr = "Mike has no life!";
		BFSymmetricKey::CryptReturn encrypt(myKey->Encrypt(reinterpret_cast<unsigned char*>(iStr), strlen(iStr)+1));
		BFSymmetricKey::CryptReturn decrypt(myKey->Decrypt(encrypt.first, encrypt.second));
		cout << "Input:  " << iStr << endl;
		cout << "Output: " << reinterpret_cast<const char*>(decrypt.first ? decrypt.first : (const unsigned char*)"NULL") << endl;
		delete encrypt.first;  delete decrypt.first;
		delete myKey;
		delete badKey;
	}

	{
		cout << endl << "Testing ElGamal Crypt..." << endl;
		EGPrivateKey* myPrivKey = new EGPrivateKey(8);
		EGPrivateKey* badKey = new EGPrivateKey(12);
		EGPublicKey*  myPubKey  = new EGPublicKey(*myPrivKey);
		char* iStr = "Mike has no life!";
		EGPublicKey::CryptReturn  encrypt(myPubKey->Encrypt(reinterpret_cast<unsigned char*>(iStr), strlen(iStr)+1));
		EGPrivateKey::CryptReturn decrypt(myPrivKey->Decrypt(encrypt.first, encrypt.second));
		cout << "Input:  " << iStr << endl;
		cout << "Output: " << reinterpret_cast<const char*>(decrypt.first ? decrypt.first : (const unsigned char*)"NULL") << endl;
		delete encrypt.first;  delete decrypt.first;
		delete myPrivKey;
		delete myPubKey;
		delete badKey;
	}

	{
		cout << endl << "Testing ElGamal Sigs..." << endl;
		EGPrivateKey* myPrivKey = new EGPrivateKey(8);
		EGPrivateKey* badKey = new EGPrivateKey(12);
		EGPublicKey*  myPubKey  = new EGPublicKey(*myPrivKey);
		char* iStr = "Mike has no life!";
		EGPrivateKey::CryptReturn sig(myPrivKey->Sign(reinterpret_cast<unsigned char*>(iStr), strlen(iStr)+1));
		int tstSig = myPubKey->Verify(sig.first, sig.second, reinterpret_cast<unsigned char*>(iStr), strlen(iStr)+1);
		cout << "Msg:    " << iStr << "  sigLen=" << sig.second << endl;
		cout << "Verify: " << (tstSig ? "TRUE" : "FALSE") << endl;
		delete sig.first;
		delete myPrivKey;
		delete myPubKey;
	}

	return 0;
}