test/cpp/src/TestServer.cpp - packaging/sources/thrift - Gitiles

 #include <concurrency/ThreadManager.h>
 #include <concurrency/PosixThreadFactory.h>
 #include <protocol/TBinaryProtocol.h>
 #include <server/TSimpleServer.h>
 #include <server/TThreadedServer.h>
 #include <server/TThreadPoolServer.h>
 #include <server/TNonblockingServer.h>
 #include <transport/TServerSocket.h>
 #include <transport/TTransportUtils.h>
 #include "ThriftTest.h"

 #include <iostream>
 #include <stdexcept>
 #include <sstream>

 #define __STDC_FORMAT_MACROS
 #include <inttypes.h>

 using namespace std;
 using namespace boost;

 using namespace facebook::thrift;
 using namespace facebook::thrift::concurrency;
 using namespace facebook::thrift::protocol;
 using namespace facebook::thrift::transport;
 using namespace facebook::thrift::server;

 using namespace thrift::test;

 class TestHandler : public ThriftTestIf {
  public:
   TestHandler() {}

   void testVoid() {
     printf("testVoid()\n");
   }

   void testString(string& out, const string &thing) {
     printf("testString(\"%s\")\n", thing.c_str());
     out = thing;
   }

   int8_t testByte(const int8_t thing) {
     printf("testByte(%d)\n", (int)thing);
     return thing;
   }

   int32_t testI32(const int32_t thing) {
     printf("testI32(%d)\n", thing);
     return thing;
   }

   int64_t testI64(const int64_t thing) {
     printf("testI64(%"PRId64")\n", thing);
     return thing;
   }

   double testDouble(const double thing) {
     printf("testDouble(%lf)\n", thing);
     return thing;
   }

   void testStruct(Xtruct& out, const Xtruct &thing) {
     printf("testStruct({\"%s\", %d, %d, %"PRId64"})\n", thing.string_thing.c_str(), (int)thing.byte_thing, thing.i32_thing, thing.i64_thing);
     out = thing;
   }

   void testNest(Xtruct2& out, const Xtruct2& nest) {
     const Xtruct &thing = nest.struct_thing;
     printf("testNest({%d, {\"%s\", %d, %d, %"PRId64"}, %d})\n", (int)nest.byte_thing, thing.string_thing.c_str(), (int)thing.byte_thing, thing.i32_thing, thing.i64_thing, nest.i32_thing);
     out = nest;
   }

   void testMap(map<int32_t, int32_t> &out, const map<int32_t, int32_t> &thing) {
     printf("testMap({");
     map<int32_t, int32_t>::const_iterator m_iter;
     bool first = true;
     for (m_iter = thing.begin(); m_iter != thing.end(); ++m_iter) {
       if (first) {
         first = false;
       } else {
         printf(", ");
       }
       printf("%d => %d", m_iter->first, m_iter->second);
     }
     printf("})\n");
     out = thing;
   }

   void testSet(set<int32_t> &out, const set<int32_t> &thing) {
     printf("testSet({");
     set<int32_t>::const_iterator s_iter;
     bool first = true;
     for (s_iter = thing.begin(); s_iter != thing.end(); ++s_iter) {
       if (first) {
         first = false;
       } else {
         printf(", ");
       }
       printf("%d", *s_iter);
     }
     printf("})\n");
     out = thing;
   }

   void testList(vector<int32_t> &out, const vector<int32_t> &thing) {
     printf("testList({");
     vector<int32_t>::const_iterator l_iter;
     bool first = true;
     for (l_iter = thing.begin(); l_iter != thing.end(); ++l_iter) {
       if (first) {
         first = false;
       } else {
         printf(", ");
       }
       printf("%d", *l_iter);
     }
     printf("})\n");
     out = thing;
   }

   Numberz testEnum(const Numberz thing) {
     printf("testEnum(%d)\n", thing);
     return thing;
   }

   UserId testTypedef(const UserId thing) {
     printf("testTypedef(%"PRId64")\n", thing);
     return thing;
   }

   void testMapMap(map<int32_t, map<int32_t,int32_t> > &mapmap, const int32_t hello) {
     printf("testMapMap(%d)\n", hello);

     map<int32_t,int32_t> pos;
     map<int32_t,int32_t> neg;
     for (int i = 1; i < 5; i++) {
       pos.insert(make_pair(i,i));
       neg.insert(make_pair(-i,-i));
     }

     mapmap.insert(make_pair(4, pos));
     mapmap.insert(make_pair(-4, neg));

   }

   void testInsanity(map<UserId, map<Numberz,Insanity> > &insane, const Insanity &argument) {
     printf("testInsanity()\n");

     Xtruct hello;
     hello.string_thing = "Hello2";
     hello.byte_thing = 2;
     hello.i32_thing = 2;
     hello.i64_thing = 2;

     Xtruct goodbye;
     goodbye.string_thing = "Goodbye4";
     goodbye.byte_thing = 4;
     goodbye.i32_thing = 4;
     goodbye.i64_thing = 4;

     Insanity crazy;
     crazy.userMap.insert(make_pair(EIGHT, 8));
     crazy.xtructs.push_back(goodbye);

     Insanity looney;
     crazy.userMap.insert(make_pair(FIVE, 5));
     crazy.xtructs.push_back(hello);

     map<Numberz, Insanity> first_map;
     map<Numberz, Insanity> second_map;

     first_map.insert(make_pair(TWO, crazy));
     first_map.insert(make_pair(THREE, crazy));

     second_map.insert(make_pair(SIX, looney));

     insane.insert(make_pair(1, first_map));
     insane.insert(make_pair(2, second_map));

     printf("return");
     printf(" = {");
     map<UserId, map<Numberz,Insanity> >::const_iterator i_iter;
     for (i_iter = insane.begin(); i_iter != insane.end(); ++i_iter) {
       printf("%"PRId64" => {", i_iter->first);
       map<Numberz,Insanity>::const_iterator i2_iter;
       for (i2_iter = i_iter->second.begin();
            i2_iter != i_iter->second.end();
            ++i2_iter) {
         printf("%d => {", i2_iter->first);
         map<Numberz, UserId> userMap = i2_iter->second.userMap;
         map<Numberz, UserId>::const_iterator um;
         printf("{");
         for (um = userMap.begin(); um != userMap.end(); ++um) {
           printf("%d => %"PRId64", ", um->first, um->second);
         }
         printf("}, ");

         vector<Xtruct> xtructs = i2_iter->second.xtructs;
         vector<Xtruct>::const_iterator x;
         printf("{");
         for (x = xtructs.begin(); x != xtructs.end(); ++x) {
           printf("{\"%s\", %d, %d, %"PRId64"}, ", x->string_thing.c_str(), (int)x->byte_thing, x->i32_thing, x->i64_thing);
         }
         printf("}");

         printf("}, ");
       }
       printf("}, ");
     }
     printf("}\n");


   }

   void testMulti(Xtruct &hello, const int8_t arg0, const int32_t arg1, const int64_t arg2, const std::map<int16_t, std::string>  &arg3, const Numberz arg4, const UserId arg5) {
     printf("testMulti()\n");

     hello.string_thing = "Hello2";
     hello.byte_thing = arg0;
     hello.i32_thing = arg1;
     hello.i64_thing = (int64_t)arg2;
   }

   void testException(const std::string &arg)
     throw(Xception, facebook::thrift::TException)
   {
     printf("testException(%s)\n", arg.c_str());
     if (arg.compare("Xception") == 0) {
       Xception e;
       e.errorCode = 1001;
       e.message = "This is an Xception";
       throw e;
     } else if (arg.compare("ApplicationException") == 0) {
       facebook::thrift::TException e;
       throw e;
     } else {
       Xtruct result;
       result.string_thing = arg;
       return;
     }
   }

   void testMultiException(Xtruct &result, const std::string &arg0, const std::string &arg1) throw(Xception, Xception2) {

     printf("testMultiException(%s, %s)\n", arg0.c_str(), arg1.c_str());

     if (arg0.compare("Xception") == 0) {
       Xception e;
       e.errorCode = 1001;
       e.message = "This is an Xception";
       throw e;
     } else if (arg0.compare("Xception2") == 0) {
       Xception2 e;
       e.errorCode = 2002;
       e.struct_thing.string_thing = "This is an Xception2";
       throw e;
     } else {
       result.string_thing = arg1;
       return;
     }
   }

   void testAsync(int sleepFor) {
     printf("testAsync(%d): Sleeping...\n", sleepFor);
     sleep(sleepFor);
     printf("testAsync(%d): done sleeping!\n", sleepFor);
   }
 };

 int main(int argc, char **argv) {

   int port = 9090;
   string serverType = "simple";
   string protocolType = "binary";
   size_t workerCount = 4;
   bool frameOutput = true;

   ostringstream usage;

   usage <<
     argv[0] << " [--port=<port number>] [--server-type=<server-type>] [--protocol-type=<protocol-type>] [--workers=<worker-count>]" << endl <<

     "\t\tserver-type\t\ttype of server, \"simple\", \"thread-pool\", \"threaded\", or \"nonblocking\".  Default is " << serverType << endl <<

     "\t\tprotocol-type\t\ttype of protocol, \"binary\", \"ascii\", or \"xml\".  Default is " << protocolType << endl <<

     "\t\tworkers\t\tNumber of thread pools workers.  Only valid for thread-pool server type.  Default is " << workerCount << endl;

   map<string, string>  args;

   for (int ix = 1; ix < argc; ix++) {
     string arg(argv[ix]);
     if (arg.compare(0,2, "--") == 0) {
       size_t end = arg.find_first_of("=", 2);
       if (end != string::npos) {
 	args[string(arg, 2, end - 2)] = string(arg, end + 1);
       } else {
 	args[string(arg, 2)] = "true";
       }
     } else {
       throw invalid_argument("Unexcepted command line token: "+arg);
     }
   }

   try {

     if (!args["port"].empty()) {
       port = atoi(args["port"].c_str());
     }

     if (!args["noframe"].empty()) {
       frameOutput = false;
     }

     if (!args["server-type"].empty()) {
       serverType = args["server-type"];
       if (serverType == "simple") {
       } else if (serverType == "thread-pool") {
       } else if (serverType == "threaded") {
       } else if (serverType == "nonblocking") {
       } else {
 	throw invalid_argument("Unknown server type "+serverType);
       }
     }

     if (!args["protocol-type"].empty()) {
       protocolType = args["protocol-type"];
       if (protocolType == "binary") {
       } else if (protocolType == "ascii") {
 	throw invalid_argument("ASCII protocol not supported");
       } else if (protocolType == "xml") {
 	throw invalid_argument("XML protocol not supported");
       } else {
 	throw invalid_argument("Unknown protocol type "+protocolType);
       }
     }

     if (!args["workers"].empty()) {
       workerCount = atoi(args["workers"].c_str());
     }
   } catch (exception& e) {
     cerr << e.what() << endl;
     cerr << usage;
   }

   // Dispatcher
   shared_ptr<TProtocolFactory> protocolFactory(new TBinaryProtocolFactory());

   shared_ptr<TestHandler> testHandler(new TestHandler());

   shared_ptr<ThriftTestProcessor> testProcessor(new ThriftTestProcessor(testHandler));

   // Transport
   shared_ptr<TServerSocket> serverSocket(new TServerSocket(port));

   // Factory
   shared_ptr<TTransportFactory> transportFactory(new TBufferedTransportFactory());

   if (serverType == "simple") {

     // Server
     TSimpleServer simpleServer(testProcessor,
 			       serverSocket,
                                transportFactory,
                                protocolFactory);

     printf("Starting the server on port %d...\n", port);
     simpleServer.serve();

   } else if (serverType == "thread-pool") {

     shared_ptr<ThreadManager> threadManager =
       ThreadManager::newSimpleThreadManager(workerCount);

     shared_ptr<PosixThreadFactory> threadFactory =
       shared_ptr<PosixThreadFactory>(new PosixThreadFactory());

     threadManager->threadFactory(threadFactory);

     threadManager->start();

     TThreadPoolServer threadPoolServer(testProcessor,
 				       serverSocket,
                                        transportFactory,
                                        protocolFactory,
 				       threadManager);

     printf("Starting the server on port %d...\n", port);
     threadPoolServer.serve();

   } else if (serverType == "threaded") {

     TThreadedServer threadedServer(testProcessor,
                                    serverSocket,
                                    transportFactory,
                                    protocolFactory);

     printf("Starting the server on port %d...\n", port);
     threadedServer.serve();

   } else if (serverType == "nonblocking") {

     TNonblockingServer nonblockingServer(testProcessor, port);
     nonblockingServer.setFrameResponses(frameOutput);
     if (frameOutput) {
       printf("Using framed output mode\n");
     } else {
       printf("Using non-framed output mode\n");
     }

     printf("Starting the nonblocking server on port %d...\n", port);
     nonblockingServer.serve();

   }

   printf("done.\n");
   return 0;
 }
	#include <concurrency/ThreadManager.h>
	#include <concurrency/PosixThreadFactory.h>
	#include <protocol/TBinaryProtocol.h>
	#include <server/TSimpleServer.h>
	#include <server/TThreadedServer.h>
	#include <server/TThreadPoolServer.h>
	#include <server/TNonblockingServer.h>
	#include <transport/TServerSocket.h>
	#include <transport/TTransportUtils.h>
	#include "ThriftTest.h"

	#include <iostream>
	#include <stdexcept>
	#include <sstream>

	#define __STDC_FORMAT_MACROS
	#include <inttypes.h>

	using namespace std;
	using namespace boost;

	using namespace facebook::thrift;
	using namespace facebook::thrift::concurrency;
	using namespace facebook::thrift::protocol;
	using namespace facebook::thrift::transport;
	using namespace facebook::thrift::server;

	using namespace thrift::test;

	class TestHandler : public ThriftTestIf {
	public:
	TestHandler() {}

	void testVoid() {
	printf("testVoid()\n");
	}

	void testString(string& out, const string &thing) {
	printf("testString(\"%s\")\n", thing.c_str());
	out = thing;
	}

	int8_t testByte(const int8_t thing) {
	printf("testByte(%d)\n", (int)thing);
	return thing;
	}

	int32_t testI32(const int32_t thing) {
	printf("testI32(%d)\n", thing);
	return thing;
	}

	int64_t testI64(const int64_t thing) {
	printf("testI64(%"PRId64")\n", thing);
	return thing;
	}

	double testDouble(const double thing) {
	printf("testDouble(%lf)\n", thing);
	return thing;
	}

	void testStruct(Xtruct& out, const Xtruct &thing) {
	printf("testStruct({\"%s\", %d, %d, %"PRId64"})\n", thing.string_thing.c_str(), (int)thing.byte_thing, thing.i32_thing, thing.i64_thing);
	out = thing;
	}

	void testNest(Xtruct2& out, const Xtruct2& nest) {
	const Xtruct &thing = nest.struct_thing;
	printf("testNest({%d, {\"%s\", %d, %d, %"PRId64"}, %d})\n", (int)nest.byte_thing, thing.string_thing.c_str(), (int)thing.byte_thing, thing.i32_thing, thing.i64_thing, nest.i32_thing);
	out = nest;
	}

	void testMap(map<int32_t, int32_t> &out, const map<int32_t, int32_t> &thing) {
	printf("testMap({");
	map<int32_t, int32_t>::const_iterator m_iter;
	bool first = true;
	for (m_iter = thing.begin(); m_iter != thing.end(); ++m_iter) {
	if (first) {
	first = false;
	} else {
	printf(", ");
	}
	printf("%d => %d", m_iter->first, m_iter->second);
	}
	printf("})\n");
	out = thing;
	}

	void testSet(set<int32_t> &out, const set<int32_t> &thing) {
	printf("testSet({");
	set<int32_t>::const_iterator s_iter;
	bool first = true;
	for (s_iter = thing.begin(); s_iter != thing.end(); ++s_iter) {
	if (first) {
	first = false;
	} else {
	printf(", ");
	}
	printf("%d", *s_iter);
	}
	printf("})\n");
	out = thing;
	}

	void testList(vector<int32_t> &out, const vector<int32_t> &thing) {
	printf("testList({");
	vector<int32_t>::const_iterator l_iter;
	bool first = true;
	for (l_iter = thing.begin(); l_iter != thing.end(); ++l_iter) {
	if (first) {
	first = false;
	} else {
	printf(", ");
	}
	printf("%d", *l_iter);
	}
	printf("})\n");
	out = thing;
	}

	Numberz testEnum(const Numberz thing) {
	printf("testEnum(%d)\n", thing);
	return thing;
	}

	UserId testTypedef(const UserId thing) {
	printf("testTypedef(%"PRId64")\n", thing);
	return thing;
	}

	void testMapMap(map<int32_t, map<int32_t,int32_t> > &mapmap, const int32_t hello) {
	printf("testMapMap(%d)\n", hello);

	map<int32_t,int32_t> pos;
	map<int32_t,int32_t> neg;
	for (int i = 1; i < 5; i++) {
	pos.insert(make_pair(i,i));
	neg.insert(make_pair(-i,-i));
	}

	mapmap.insert(make_pair(4, pos));
	mapmap.insert(make_pair(-4, neg));

	}

	void testInsanity(map<UserId, map<Numberz,Insanity> > &insane, const Insanity &argument) {
	printf("testInsanity()\n");

	Xtruct hello;
	hello.string_thing = "Hello2";
	hello.byte_thing = 2;
	hello.i32_thing = 2;
	hello.i64_thing = 2;

	Xtruct goodbye;
	goodbye.string_thing = "Goodbye4";
	goodbye.byte_thing = 4;
	goodbye.i32_thing = 4;
	goodbye.i64_thing = 4;

	Insanity crazy;
	crazy.userMap.insert(make_pair(EIGHT, 8));
	crazy.xtructs.push_back(goodbye);

	Insanity looney;
	crazy.userMap.insert(make_pair(FIVE, 5));
	crazy.xtructs.push_back(hello);

	map<Numberz, Insanity> first_map;
	map<Numberz, Insanity> second_map;

	first_map.insert(make_pair(TWO, crazy));
	first_map.insert(make_pair(THREE, crazy));

	second_map.insert(make_pair(SIX, looney));

	insane.insert(make_pair(1, first_map));
	insane.insert(make_pair(2, second_map));

	printf("return");
	printf(" = {");
	map<UserId, map<Numberz,Insanity> >::const_iterator i_iter;
	for (i_iter = insane.begin(); i_iter != insane.end(); ++i_iter) {
	printf("%"PRId64" => {", i_iter->first);
	map<Numberz,Insanity>::const_iterator i2_iter;
	for (i2_iter = i_iter->second.begin();
	i2_iter != i_iter->second.end();
	++i2_iter) {
	printf("%d => {", i2_iter->first);
	map<Numberz, UserId> userMap = i2_iter->second.userMap;
	map<Numberz, UserId>::const_iterator um;
	printf("{");
	for (um = userMap.begin(); um != userMap.end(); ++um) {
	printf("%d => %"PRId64", ", um->first, um->second);
	}
	printf("}, ");

	vector<Xtruct> xtructs = i2_iter->second.xtructs;
	vector<Xtruct>::const_iterator x;
	printf("{");
	for (x = xtructs.begin(); x != xtructs.end(); ++x) {
	printf("{\"%s\", %d, %d, %"PRId64"}, ", x->string_thing.c_str(), (int)x->byte_thing, x->i32_thing, x->i64_thing);
	}
	printf("}");

	printf("}, ");
	}
	printf("}, ");
	}
	printf("}\n");


	}

	void testMulti(Xtruct &hello, const int8_t arg0, const int32_t arg1, const int64_t arg2, const std::map<int16_t, std::string> &arg3, const Numberz arg4, const UserId arg5) {
	printf("testMulti()\n");

	hello.string_thing = "Hello2";
	hello.byte_thing = arg0;
	hello.i32_thing = arg1;
	hello.i64_thing = (int64_t)arg2;
	}

	void testException(const std::string &arg)
	throw(Xception, facebook::thrift::TException)
	{
	printf("testException(%s)\n", arg.c_str());
	if (arg.compare("Xception") == 0) {
	Xception e;
	e.errorCode = 1001;
	e.message = "This is an Xception";
	throw e;
	} else if (arg.compare("ApplicationException") == 0) {
	facebook::thrift::TException e;
	throw e;
	} else {
	Xtruct result;
	result.string_thing = arg;
	return;
	}
	}

	void testMultiException(Xtruct &result, const std::string &arg0, const std::string &arg1) throw(Xception, Xception2) {

	printf("testMultiException(%s, %s)\n", arg0.c_str(), arg1.c_str());

	if (arg0.compare("Xception") == 0) {
	Xception e;
	e.errorCode = 1001;
	e.message = "This is an Xception";
	throw e;
	} else if (arg0.compare("Xception2") == 0) {
	Xception2 e;
	e.errorCode = 2002;
	e.struct_thing.string_thing = "This is an Xception2";
	throw e;
	} else {
	result.string_thing = arg1;
	return;
	}
	}

	void testAsync(int sleepFor) {
	printf("testAsync(%d): Sleeping...\n", sleepFor);
	sleep(sleepFor);
	printf("testAsync(%d): done sleeping!\n", sleepFor);
	}
	};

	int main(int argc, char **argv) {

	int port = 9090;
	string serverType = "simple";
	string protocolType = "binary";
	size_t workerCount = 4;
	bool frameOutput = true;

	ostringstream usage;

	usage <<
	argv[0] << " [--port=<port number>] [--server-type=<server-type>] [--protocol-type=<protocol-type>] [--workers=<worker-count>]" << endl <<

	"\t\tserver-type\t\ttype of server, \"simple\", \"thread-pool\", \"threaded\", or \"nonblocking\". Default is " << serverType << endl <<

	"\t\tprotocol-type\t\ttype of protocol, \"binary\", \"ascii\", or \"xml\". Default is " << protocolType << endl <<

	"\t\tworkers\t\tNumber of thread pools workers. Only valid for thread-pool server type. Default is " << workerCount << endl;

	map<string, string> args;

	for (int ix = 1; ix < argc; ix++) {
	string arg(argv[ix]);
	if (arg.compare(0,2, "--") == 0) {
	size_t end = arg.find_first_of("=", 2);
	if (end != string::npos) {
	args[string(arg, 2, end - 2)] = string(arg, end + 1);
	} else {
	args[string(arg, 2)] = "true";
	}
	} else {
	throw invalid_argument("Unexcepted command line token: "+arg);
	}
	}

	try {

	if (!args["port"].empty()) {
	port = atoi(args["port"].c_str());
	}

	if (!args["noframe"].empty()) {
	frameOutput = false;
	}

	if (!args["server-type"].empty()) {
	serverType = args["server-type"];
	if (serverType == "simple") {
	} else if (serverType == "thread-pool") {
	} else if (serverType == "threaded") {
	} else if (serverType == "nonblocking") {
	} else {
	throw invalid_argument("Unknown server type "+serverType);
	}
	}

	if (!args["protocol-type"].empty()) {
	protocolType = args["protocol-type"];
	if (protocolType == "binary") {
	} else if (protocolType == "ascii") {
	throw invalid_argument("ASCII protocol not supported");
	} else if (protocolType == "xml") {
	throw invalid_argument("XML protocol not supported");
	} else {
	throw invalid_argument("Unknown protocol type "+protocolType);
	}
	}

	if (!args["workers"].empty()) {
	workerCount = atoi(args["workers"].c_str());
	}
	} catch (exception& e) {
	cerr << e.what() << endl;
	cerr << usage;
	}

	// Dispatcher
	shared_ptr<TProtocolFactory> protocolFactory(new TBinaryProtocolFactory());

	shared_ptr<TestHandler> testHandler(new TestHandler());

	shared_ptr<ThriftTestProcessor> testProcessor(new ThriftTestProcessor(testHandler));

	// Transport
	shared_ptr<TServerSocket> serverSocket(new TServerSocket(port));

	// Factory
	shared_ptr<TTransportFactory> transportFactory(new TBufferedTransportFactory());

	if (serverType == "simple") {

	// Server
	TSimpleServer simpleServer(testProcessor,
	serverSocket,
	transportFactory,
	protocolFactory);

	printf("Starting the server on port %d...\n", port);
	simpleServer.serve();

	} else if (serverType == "thread-pool") {

	shared_ptr<ThreadManager> threadManager =
	ThreadManager::newSimpleThreadManager(workerCount);

	shared_ptr<PosixThreadFactory> threadFactory =
	shared_ptr<PosixThreadFactory>(new PosixThreadFactory());

	threadManager->threadFactory(threadFactory);

	threadManager->start();

	TThreadPoolServer threadPoolServer(testProcessor,
	serverSocket,
	transportFactory,
	protocolFactory,
	threadManager);

	printf("Starting the server on port %d...\n", port);
	threadPoolServer.serve();

	} else if (serverType == "threaded") {

	TThreadedServer threadedServer(testProcessor,
	serverSocket,
	transportFactory,
	protocolFactory);

	printf("Starting the server on port %d...\n", port);
	threadedServer.serve();

	} else if (serverType == "nonblocking") {

	TNonblockingServer nonblockingServer(testProcessor, port);
	nonblockingServer.setFrameResponses(frameOutput);
	if (frameOutput) {
	printf("Using framed output mode\n");
	} else {
	printf("Using non-framed output mode\n");
	}

	printf("Starting the nonblocking server on port %d...\n", port);
	nonblockingServer.serve();

	}

	printf("done.\n");
	return 0;
	}