void exitApplication(int s){
killed=true;
if (interface1 != NULL)
delete interface1;
ic->shutdown();
exit(0);
}
int main(int argc, char* argv[]){
Ice::CommunicatorPtr ic = EasyIce::initialize(argc, argv);
Ice::PropertiesPtr prop = ic->getProperties();
prop->setProperty("Test.Adapter.Endpoints", "tcp -h localhost -p 65000");
Ice::ObjectPtr obj = new IceMX::Metrics();
Ice::ObjectAdapterPtr adapter = ic->createObjectAdapter("Test.Adapter");
adapter->add(obj, ic->stringToIdentity("metric"));
std::cout<<"\n### EXAMPLE with easyiceconfig::proxies::createProxy() ###"<<std::endl;
/// Exception due empty proxy
try{
easyiceconfig::proxies::createProxy<IceMX::MetricsPrx>(ic, "Test.Proxy", false);
} catch (Ice::ProxyParseException ex){
std::cout<<"Expected ProxyParseException\n"<<ex<<std::endl;
}
IceMX::MetricsPrx pxr;
/// All ok (1)
/// Proxy from string do not create entry at Properties
pxr = easyiceconfig::proxies::createProxy<IceMX::MetricsPrx>(ic, "metric:tcp -h localhost -p 65000", true);
easyiceconfig::debug::printProperties(prop);
/// All ok (2)
prop->setProperty("Test.Proxy", "metric:tcp -h localhost -p 65000");
pxr = easyiceconfig::proxies::createProxy<IceMX::MetricsPrx>(ic, "Test.Proxy", false);
easyiceconfig::debug::printProperties(prop);
// Using it
std::cout << "Gathering some info" << std::endl;
std::cout << pxr->ice_id() << std::endl;
std::cout << pxr->ice_toString() << std::endl;
std::cout<<"\n### EXAMPLE with EasyIce::EasyProxy ###"<<std::endl;
EasyIce::EasyProxy<IceMX::MetricsPrx> proxy(ic, "bad endpoint definition", true);
if (proxy){
//do stuff
}else
std::cout<<proxy.exception()<<std::endl;
// copying
EasyIce::EasyProxy<IceMX::MetricsPrx> p2;
p2 = EasyIce::EasyProxy<IceMX::MetricsPrx>(ic, "bad endpoint definition", true);
try{
p2 = EasyIce::createProxy<IceMX::MetricsPrx>(ic, "bad endpoint definition", true);
}catch(Ice::Exception){}
ic->shutdown();
}
/** A convenience function that creates the callback,
* collects results, and makes them available in the
* return argument.
*/
ResultSet cvac::detect(
const std::string& algorithm,
const cvac::RunSet& runset,
const cvac::FilePath& model,
const cvac::DetectorProperties* detprops )
{
// Connect to detector
Ice::Identity det_cb;
CallbackHandlerI *cr = new CallbackHandlerI();
DetectorPrx detector = initIceConnection( algorithm, det_cb, cr );
if(NULL == detector.get())
{
localAndClientMsg( VLogger::ERROR, NULL, "Could not connect to CVAC Ice Services" );
return ResultSet();
}
cvac::DetectorProperties dprops;
// If user did not supply any detector properties then provide default one.
if (NULL == detprops)
{
// need to initialize detector properties to their defaults
dprops = detector->getDetectorProperties();
detprops = &dprops;
}
try
{
detector->process(det_cb, runset, model, *detprops);
}
catch (const Ice::Exception& ex)
{
throw ex;
}
iceComm->shutdown(); // Shut down at the end of either branch
return cr->rs;
}
void
allTests(Test::TestHelper* helper)
{
Ice::CommunicatorPtr communicator = helper->communicator();
cout << "testing proxy endpoint information... " << flush;
{
Ice::ObjectPrxPtr p1 =
communicator->stringToProxy("test -t:default -h tcphost -p 10000 -t 1200 -z --sourceAddress 10.10.10.10:"
"udp -h udphost -p 10001 --interface eth0 --ttl 5 --sourceAddress 10.10.10.10:"
"opaque -e 1.8 -t 100 -v ABCD");
Ice::EndpointSeq endps = p1->ice_getEndpoints();
Ice::EndpointInfoPtr info = endps[0]->getInfo();
Ice::TCPEndpointInfoPtr ipEndpoint = getTCPEndpointInfo(info);
test(ipEndpoint);
test(ipEndpoint->host == "tcphost");
test(ipEndpoint->port == 10000);
test(ipEndpoint->timeout == 1200);
#if !defined(ICE_OS_UWP)
test(ipEndpoint->sourceAddress == "10.10.10.10");
#endif
test(ipEndpoint->compress);
test(!ipEndpoint->datagram());
test((ipEndpoint->type() == Ice::TCPEndpointType && !ipEndpoint->secure()) ||
(ipEndpoint->type() == Ice::SSLEndpointType && ipEndpoint->secure()) ||
(ipEndpoint->type() == Ice::WSEndpointType && !ipEndpoint->secure()) ||
(ipEndpoint->type() == Ice::WSSEndpointType && ipEndpoint->secure()));
test((ipEndpoint->type() == Ice::TCPEndpointType && ICE_DYNAMIC_CAST(Ice::TCPEndpointInfo, info)) ||
(ipEndpoint->type() == Ice::SSLEndpointType && ICE_DYNAMIC_CAST(IceSSL::EndpointInfo, info)) ||
(ipEndpoint->type() == Ice::WSEndpointType && ICE_DYNAMIC_CAST(Ice::WSEndpointInfo, info)) ||
(ipEndpoint->type() == Ice::WSSEndpointType && ICE_DYNAMIC_CAST(Ice::WSEndpointInfo, info)));
Ice::UDPEndpointInfoPtr udpEndpoint = ICE_DYNAMIC_CAST(Ice::UDPEndpointInfo, endps[1]->getInfo());
test(udpEndpoint);
test(udpEndpoint->host == "udphost");
test(udpEndpoint->port == 10001);
#if !defined(ICE_OS_UWP)
test(udpEndpoint->sourceAddress == "10.10.10.10");
#endif
test(udpEndpoint->mcastInterface == "eth0");
test(udpEndpoint->mcastTtl == 5);
test(udpEndpoint->timeout == -1);
test(!udpEndpoint->compress);
test(!udpEndpoint->secure());
test(udpEndpoint->datagram());
test(udpEndpoint->type() == Ice::UDPEndpointType);
Ice::OpaqueEndpointInfoPtr opaqueEndpoint = ICE_DYNAMIC_CAST(Ice::OpaqueEndpointInfo, endps[2]->getInfo());
test(opaqueEndpoint);
Ice::EncodingVersion rev;
rev.major = 1;
rev.minor = 8;
test(opaqueEndpoint->rawEncoding == rev);
}
cout << "ok" << endl;
string defaultHost = communicator->getProperties()->getProperty("Ice.Default.Host");
#ifdef ICE_OS_UWP
bool uwp = true;
#else
bool uwp = false;
#endif
if(!uwp || (communicator->getProperties()->getProperty("Ice.Default.Protocol") != "ssl" &&
communicator->getProperties()->getProperty("Ice.Default.Protocol") != "wss"))
{
cout << "test object adapter endpoint information... " << flush;
{
communicator->getProperties()->setProperty("TestAdapter.Endpoints",
"default -h 127.0.0.1 -t 15000:udp -h 127.0.0.1");
Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter");
Ice::EndpointSeq endpoints = adapter->getEndpoints();
test(endpoints.size() == 2);
Ice::EndpointSeq publishedEndpoints = adapter->getPublishedEndpoints();
test(endpoints == publishedEndpoints);
Ice::TCPEndpointInfoPtr ipEndpoint = getTCPEndpointInfo(endpoints[0]->getInfo());
test(ipEndpoint);
test(ipEndpoint->type() == Ice::TCPEndpointType || ipEndpoint->type() == Ice::SSLEndpointType ||
ipEndpoint->type() == Ice::WSEndpointType || ipEndpoint->type() == Ice::WSSEndpointType);
test(ipEndpoint->host == "127.0.0.1");
test(ipEndpoint->port > 0);
test(ipEndpoint->timeout == 15000);
Ice::UDPEndpointInfoPtr udpEndpoint = ICE_DYNAMIC_CAST(Ice::UDPEndpointInfo, endpoints[1]->getInfo());
test(udpEndpoint);
test(udpEndpoint->host == "127.0.0.1");
test(udpEndpoint->datagram());
test(udpEndpoint->port > 0);
endpoints.pop_back();
test(endpoints.size() == 1);
adapter->setPublishedEndpoints(endpoints);
publishedEndpoints = adapter->getPublishedEndpoints();
test(endpoints == publishedEndpoints);
adapter->destroy();
int port = helper->getTestPort(1);
ostringstream portStr;
portStr << port;
communicator->getProperties()->setProperty("TestAdapter.Endpoints", "default -h * -p " + portStr.str());
communicator->getProperties()->setProperty("TestAdapter.PublishedEndpoints", helper->getTestEndpoint(1));
adapter = communicator->createObjectAdapter("TestAdapter");
endpoints = adapter->getEndpoints();
test(endpoints.size() >= 1);
publishedEndpoints = adapter->getPublishedEndpoints();
test(publishedEndpoints.size() == 1);
for(Ice::EndpointSeq::const_iterator p = endpoints.begin(); p != endpoints.end(); ++p)
{
ipEndpoint = getTCPEndpointInfo((*p)->getInfo());
test(ipEndpoint->port == port);
}
ipEndpoint = getTCPEndpointInfo(publishedEndpoints[0]->getInfo());
test(ipEndpoint->host == helper->getTestHost());
test(ipEndpoint->port == port);
adapter->destroy();
}
cout << "ok" << endl;
}
string endpoints = helper->getTestEndpoint() + ":" + helper->getTestEndpoint("udp") + " -c";
int port = helper->getTestPort();
Ice::ObjectPrxPtr base = communicator->stringToProxy("test:" + endpoints);
TestIntfPrxPtr testIntf = ICE_CHECKED_CAST(TestIntfPrx, base);
cout << "test connection endpoint information... " << flush;
{
Ice::EndpointInfoPtr info = base->ice_getConnection()->getEndpoint()->getInfo();
Ice::TCPEndpointInfoPtr tcpinfo = getTCPEndpointInfo(info);
test(tcpinfo->port == port);
test(!tcpinfo->compress);
test(tcpinfo->host == defaultHost);
ostringstream os;
Ice::Context ctx = testIntf->getEndpointInfoAsContext();
test(ctx["host"] == tcpinfo->host);
test(ctx["compress"] == "false");
istringstream is(ctx["port"]);
int portCtx;
is >> portCtx;
test(portCtx > 0);
info = base->ice_datagram()->ice_getConnection()->getEndpoint()->getInfo();
Ice::UDPEndpointInfoPtr udp = ICE_DYNAMIC_CAST(Ice::UDPEndpointInfo, info);
test(udp);
test(udp->port == portCtx);
test(udp->host == defaultHost);
}
cout << "ok" << endl;
cout << "testing connection information... " << flush;
{
Ice::ConnectionPtr connection = base->ice_getConnection();
connection->setBufferSize(1024, 2048);
Ice::TCPConnectionInfoPtr info = getTCPConnectionInfo(connection->getInfo());
test(info);
test(!info->incoming);
test(info->adapterName.empty());
test(info->localPort > 0);
test(info->remotePort == port);
if(defaultHost == "127.0.0.1")
{
test(info->remoteAddress == defaultHost);
test(info->localAddress == defaultHost);
}
#if !defined(ICE_OS_UWP)
test(info->rcvSize >= 1024);
test(info->sndSize >= 2048);
#endif
ostringstream os;
Ice::Context ctx = testIntf->getConnectionInfoAsContext();
test(ctx["incoming"] == "true");
test(ctx["adapterName"] == "TestAdapter");
test(ctx["remoteAddress"] == info->localAddress);
test(ctx["localAddress"] == info->remoteAddress);
os.str("");
os << info->localPort;
test(ctx["remotePort"] == os.str());
os.str("");
os << info->remotePort;
test(ctx["localPort"] == os.str());
if(base->ice_getConnection()->type() == "ws" || base->ice_getConnection()->type() == "wss")
{
Ice::HeaderDict headers;
Ice::WSConnectionInfoPtr wsinfo = ICE_DYNAMIC_CAST(Ice::WSConnectionInfo, connection->getInfo());
test(wsinfo);
headers = wsinfo->headers;
if(base->ice_getConnection()->type() == "wss")
{
IceSSL::ConnectionInfoPtr wssinfo = ICE_DYNAMIC_CAST(IceSSL::ConnectionInfo, wsinfo->underlying);
test(wssinfo->verified);
#if !defined(ICE_OS_UWP) && TARGET_OS_IPHONE==0
test(!wssinfo->certs.empty());
#endif
}
test(headers["Upgrade"] == "websocket");
test(headers["Connection"] == "Upgrade");
test(headers["Sec-WebSocket-Protocol"] == "ice.zeroc.com");
test(headers.find("Sec-WebSocket-Accept") != headers.end());
test(ctx["ws.Upgrade"] == "websocket");
test(ctx["ws.Connection"] == "Upgrade");
test(ctx["ws.Sec-WebSocket-Protocol"] == "ice.zeroc.com");
test(ctx["ws.Sec-WebSocket-Version"] == "13");
test(ctx.find("ws.Sec-WebSocket-Key") != ctx.end());
}
connection = base->ice_datagram()->ice_getConnection();
connection->setBufferSize(2048, 1024);
Ice::UDPConnectionInfoPtr udpinfo = ICE_DYNAMIC_CAST(Ice::UDPConnectionInfo, connection->getInfo());
test(!udpinfo->incoming);
test(udpinfo->adapterName.empty());
test(udpinfo->localPort > 0);
test(udpinfo->remotePort == port);
if(defaultHost == "127.0.0.1")
{
test(udpinfo->remoteAddress == defaultHost);
test(udpinfo->localAddress == defaultHost);
}
#if !defined(ICE_OS_UWP)
test(udpinfo->rcvSize >= 2048);
test(udpinfo->sndSize >= 1024);
#endif
}
cout << "ok" << endl;
testIntf->shutdown();
communicator->shutdown();
communicator->waitForShutdown();
}
void
allTests(const Ice::CommunicatorPtr& communicator)
{
cout << "testing proxy endpoint information... " << flush;
{
Ice::ObjectPrx p1 =
communicator->stringToProxy("test -t:default -h tcphost -p 10000 -t 1200 -z --sourceAddress 10.10.10.10:"
"udp -h udphost -p 10001 --interface eth0 --ttl 5 --sourceAddress 10.10.10.10:"
"opaque -e 1.8 -t 100 -v ABCD");
Ice::EndpointSeq endps = p1->ice_getEndpoints();
Ice::IPEndpointInfoPtr ipEndpoint = Ice::IPEndpointInfoPtr::dynamicCast(endps[0]->getInfo());
test(ipEndpoint);
test(ipEndpoint->host == "tcphost");
test(ipEndpoint->port == 10000);
test(ipEndpoint->timeout == 1200);
#if !defined(ICE_OS_WINRT)
test(ipEndpoint->sourceAddress == "10.10.10.10");
#endif
test(ipEndpoint->compress);
test(!ipEndpoint->datagram());
test((ipEndpoint->type() == Ice::TCPEndpointType && !ipEndpoint->secure()) ||
(ipEndpoint->type() == IceSSL::EndpointType && ipEndpoint->secure()) ||
(ipEndpoint->type() == Ice::WSEndpointType && !ipEndpoint->secure()) ||
(ipEndpoint->type() == Ice::WSSEndpointType && ipEndpoint->secure()));
test((ipEndpoint->type() == Ice::TCPEndpointType && Ice::TCPEndpointInfoPtr::dynamicCast(ipEndpoint)) ||
(ipEndpoint->type() == IceSSL::EndpointType && IceSSL::EndpointInfoPtr::dynamicCast(ipEndpoint)) ||
(ipEndpoint->type() == Ice::WSEndpointType && Ice::EndpointInfoPtr::dynamicCast(ipEndpoint)) ||
(ipEndpoint->type() == Ice::WSSEndpointType && Ice::EndpointInfoPtr::dynamicCast(ipEndpoint)));
Ice::UDPEndpointInfoPtr udpEndpoint = Ice::UDPEndpointInfoPtr::dynamicCast(endps[1]->getInfo());
test(udpEndpoint);
test(udpEndpoint->host == "udphost");
test(udpEndpoint->port == 10001);
#if !defined(ICE_OS_WINRT)
test(udpEndpoint->sourceAddress == "10.10.10.10");
#endif
test(udpEndpoint->mcastInterface == "eth0");
test(udpEndpoint->mcastTtl == 5);
test(udpEndpoint->timeout == -1);
test(!udpEndpoint->compress);
test(!udpEndpoint->secure());
test(udpEndpoint->datagram());
test(udpEndpoint->type() == Ice::UDPEndpointType);
Ice::OpaqueEndpointInfoPtr opaqueEndpoint = Ice::OpaqueEndpointInfoPtr::dynamicCast(endps[2]->getInfo());
test(opaqueEndpoint);
Ice::EncodingVersion rev;
rev.major = 1;
rev.minor = 8;
test(opaqueEndpoint->rawEncoding == rev);
}
cout << "ok" << endl;
string defaultHost = communicator->getProperties()->getProperty("Ice.Default.Host");
cout << "test object adapter endpoint information... " << flush;
{
communicator->getProperties()->setProperty("TestAdapter.Endpoints", "default -t 15000:udp");
Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter");
Ice::EndpointSeq endpoints = adapter->getEndpoints();
test(endpoints.size() == 2);
Ice::EndpointSeq publishedEndpoints = adapter->getPublishedEndpoints();
test(endpoints == publishedEndpoints);
Ice::IPEndpointInfoPtr ipEndpoint = Ice::IPEndpointInfoPtr::dynamicCast(endpoints[0]->getInfo());
test(ipEndpoint);
test(ipEndpoint->type() == Ice::TCPEndpointType || ipEndpoint->type() == IceSSL::EndpointType ||
ipEndpoint->type() == Ice::WSEndpointType || ipEndpoint->type() == Ice::WSSEndpointType);
test(ipEndpoint->host == defaultHost);
test(ipEndpoint->port > 0);
test(ipEndpoint->timeout == 15000);
Ice::UDPEndpointInfoPtr udpEndpoint = Ice::UDPEndpointInfoPtr::dynamicCast(endpoints[1]->getInfo());
test(udpEndpoint);
test(udpEndpoint->host == defaultHost);
test(udpEndpoint->datagram());
test(udpEndpoint->port > 0);
adapter->destroy();
communicator->getProperties()->setProperty("TestAdapter.Endpoints", "default -h * -p 12020");
communicator->getProperties()->setProperty("TestAdapter.PublishedEndpoints", "default -h 127.0.0.1 -p 12020");
adapter = communicator->createObjectAdapter("TestAdapter");
endpoints = adapter->getEndpoints();
test(endpoints.size() >= 1);
publishedEndpoints = adapter->getPublishedEndpoints();
test(publishedEndpoints.size() == 1);
for(Ice::EndpointSeq::const_iterator p = endpoints.begin(); p != endpoints.end(); ++p)
{
ipEndpoint = Ice::IPEndpointInfoPtr::dynamicCast((*p)->getInfo());
test(ipEndpoint->port == 12020);
}
ipEndpoint = Ice::IPEndpointInfoPtr::dynamicCast(publishedEndpoints[0]->getInfo());
test(ipEndpoint->host == "127.0.0.1");
test(ipEndpoint->port == 12020);
adapter->destroy();
}
cout << "ok" << endl;
Ice::ObjectPrx base = communicator->stringToProxy("test:default -p 12010:udp -p 12010 -c");
TestIntfPrx testIntf = TestIntfPrx::checkedCast(base);
cout << "test connection endpoint information... " << flush;
{
Ice::EndpointInfoPtr info = base->ice_getConnection()->getEndpoint()->getInfo();
Ice::IPEndpointInfoPtr ipinfo = Ice::IPEndpointInfoPtr::dynamicCast(info);
test(ipinfo->port == 12010);
test(!ipinfo->compress);
test(ipinfo->host == defaultHost);
ostringstream os;
Ice::Context ctx = testIntf->getEndpointInfoAsContext();
test(ctx["host"] == ipinfo->host);
test(ctx["compress"] == "false");
istringstream is(ctx["port"]);
int port;
is >> port;
test(port > 0);
info = base->ice_datagram()->ice_getConnection()->getEndpoint()->getInfo();
Ice::UDPEndpointInfoPtr udp = Ice::UDPEndpointInfoPtr::dynamicCast(info);
test(udp);
test(udp->port == 12010);
test(udp->host == defaultHost);
}
cout << "ok" << endl;
cout << "testing connection information... " << flush;
{
Ice::IPConnectionInfoPtr info = Ice::IPConnectionInfoPtr::dynamicCast(base->ice_getConnection()->getInfo());
test(info);
test(!info->incoming);
test(info->adapterName.empty());
test(info->localPort > 0);
test(info->remotePort == 12010);
if(defaultHost == "127.0.0.1")
{
test(info->remoteAddress == defaultHost);
test(info->localAddress == defaultHost);
}
ostringstream os;
Ice::Context ctx = testIntf->getConnectionInfoAsContext();
test(ctx["incoming"] == "true");
test(ctx["adapterName"] == "TestAdapter");
test(ctx["remoteAddress"] == info->localAddress);
test(ctx["localAddress"] == info->remoteAddress);
os.str("");
os << info->localPort;
test(ctx["remotePort"] == os.str());
os.str("");
os << info->remotePort;
test(ctx["localPort"] == os.str());
info = Ice::IPConnectionInfoPtr::dynamicCast(base->ice_datagram()->ice_getConnection()->getInfo());
test(!info->incoming);
test(info->adapterName.empty());
test(info->localPort > 0);
test(info->remotePort == 12010);
if(defaultHost == "127.0.0.1")
{
test(info->remoteAddress == defaultHost);
test(info->localAddress == defaultHost);
}
}
cout << "ok" << endl;
testIntf->shutdown();
communicator->shutdown();
communicator->waitForShutdown();
}