void allTests(const Ice::CommunicatorPtr& communicator) { SessionKeepAliveThreadPtr keepAlive = new SessionKeepAliveThread( communicator->getLogger(), IceUtil::Time::seconds(5)); keepAlive->start(); RegistryPrx registry = IceGrid::RegistryPrx::checkedCast(communicator->stringToProxy("IceGrid/Registry")); test(registry); AdminSessionPrx session = registry->createAdminSession("foo", "bar"); keepAlive->add(session); AdminPrx admin = session->getAdmin(); test(admin); cout << "starting router... " << flush; try { admin->startServer("Glacier2"); } catch(const ServerStartException& ex) { cerr << ex.reason << endl; test(false); } cout << "ok" << endl; const int allocationTimeout = 5000; Ice::ObjectPrx obj; Ice::ObjectPrx dummy; try { cout << "testing create session... " << flush; SessionPrx session1 = registry->createSession("Client1", ""); SessionPrx session2 = registry->createSession("Client2", ""); keepAlive->add(session1); keepAlive->add(session2); cout << "ok" << endl; cout << "testing allocate object by identity... " << flush; Ice::Identity allocatable = communicator->stringToIdentity("allocatable"); Ice::Identity allocatablebis = communicator->stringToIdentity("allocatablebis"); try { session1->allocateObjectById(communicator->stringToIdentity("dummy")); } catch(const ObjectNotRegisteredException&) { } try { session1->releaseObject(communicator->stringToIdentity("dummy")); } catch(const ObjectNotRegisteredException&) { } try { session1->allocateObjectById(communicator->stringToIdentity("nonallocatable")); test(false); } catch(const AllocationException&) { test(false); } catch(const ObjectNotRegisteredException&) { } try { session2->allocateObjectById(communicator->stringToIdentity("nonallocatable")); test(false); } catch(const AllocationException&) { test(false); } catch(const ObjectNotRegisteredException&) { } try { session1->releaseObject(communicator->stringToIdentity("nonallocatable")); test(false); } catch(const AllocationException&) { test(false); } catch(const ObjectNotRegisteredException&) { } try { session2->releaseObject(communicator->stringToIdentity("nonallocatable")); test(false); } catch(const AllocationException&) { test(false); } catch(const ObjectNotRegisteredException&) { } session1->allocateObjectById(allocatable); try { session1->allocateObjectById(allocatable); test(false); } catch(const AllocationException&) { } session1->setAllocationTimeout(0); session2->setAllocationTimeout(0); try { session2->allocateObjectById(allocatable); test(false); } catch(const AllocationTimeoutException&) { } try { session2->releaseObject(allocatable); test(false); } catch(const AllocationException&) { } session1->allocateObjectById(allocatablebis); try { session2->allocateObjectById(allocatablebis); test(false); } catch(const AllocationTimeoutException&) { } session1->releaseObject(allocatablebis); session2->allocateObjectById(allocatablebis); try { session1->allocateObjectById(allocatablebis); test(false); } catch(const AllocationTimeoutException&) { } session2->releaseObject(allocatablebis); session2->setAllocationTimeout(allocationTimeout); AllocateObjectByIdCallbackPtr cb1 = new AllocateObjectByIdCallback(); session2->allocateObjectById_async(cb1, allocatable); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb1->hasResponse(dummy)); session1->releaseObject(allocatable); cb1->waitResponse(__FILE__, __LINE__); test(cb1->hasResponse(dummy)); session1->setAllocationTimeout(0); try { session1->allocateObjectById(allocatable); test(false); } catch(const AllocationTimeoutException&) { } try { session1->releaseObject(allocatable); test(false); } catch(const AllocationException&) { } session1->setAllocationTimeout(allocationTimeout); cb1 = new AllocateObjectByIdCallback(); session1->allocateObjectById_async(cb1, allocatable); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb1->hasResponse(dummy)); session2->releaseObject(allocatable); cb1->waitResponse(__FILE__, __LINE__); test(cb1->hasResponse(dummy)); session1->releaseObject(allocatable); cout << "ok" << endl; cout << "testing allocate object by type... " << flush; session1->setAllocationTimeout(0); session2->setAllocationTimeout(0); try { obj = session1->allocateObjectByType("::Unknown"); test(false); } catch(const AllocationTimeoutException&) { test(false); } catch(const AllocationException&) { } try { obj = session1->allocateObjectByType("::NotAllocatable"); test(false); } catch(const AllocationTimeoutException&) { test(false); } catch(const AllocationException&) { } obj = session1->allocateObjectByType("::Test"); test(obj && obj->ice_getIdentity().name == "allocatable"); try { session1->allocateObjectByType("::Test"); test(false); } catch(const AllocationException&) { } try { session2->allocateObjectByType("::Test"); test(false); } catch(const AllocationTimeoutException&) { } try { session2->releaseObject(obj->ice_getIdentity()); } catch(const AllocationException&) { } session1->releaseObject(obj->ice_getIdentity()); try { session1->releaseObject(obj->ice_getIdentity()); } catch(const AllocationException&) { } obj = session2->allocateObjectByType("::Test"); // Allocate the object test(obj && obj->ice_getIdentity().name == "allocatable"); try { session2->allocateObjectByType("::Test"); test(false); } catch(const AllocationException&) { } try { session1->allocateObjectByType("::Test"); test(false); } catch(const AllocationTimeoutException&) { } session1->allocateObjectByType("::TestBis"); try { session2->allocateObjectByType("::TestBis"); test(false); } catch(const AllocationTimeoutException&) { } session1->releaseObject(allocatablebis); session2->allocateObjectByType("::TestBis"); try { session1->allocateObjectByType("::TestBis"); test(false); } catch(const AllocationTimeoutException&) { } session2->releaseObject(allocatablebis); session1->setAllocationTimeout(allocationTimeout); AllocateObjectByTypeCallbackPtr cb3 = new AllocateObjectByTypeCallback(); session1->allocateObjectByType_async(cb3, "::Test"); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb3->hasResponse(dummy)); session2->releaseObject(obj->ice_getIdentity()); cb3->waitResponse(__FILE__, __LINE__); test(cb3->hasResponse(obj)); session1->releaseObject(obj->ice_getIdentity()); cout << "ok" << endl; cout << "testing object allocation timeout... " << flush; session1->allocateObjectById(allocatable); IceUtil::Time time = IceUtil::Time::now(); session2->setAllocationTimeout(500); try { session2->allocateObjectById(allocatable); test(false); } catch(const AllocationTimeoutException&) { test(time + IceUtil::Time::milliSeconds(100) < IceUtil::Time::now()); } time = IceUtil::Time::now(); try { session2->allocateObjectById(allocatable); test(false); } catch(const AllocationTimeoutException&) { } test(time + IceUtil::Time::milliSeconds(100) < IceUtil::Time::now()); time = IceUtil::Time::now(); try { session2->allocateObjectByType("::Test"); test(false); } catch(const AllocationTimeoutException&) { } test(time + IceUtil::Time::milliSeconds(100) < IceUtil::Time::now()); session1->releaseObject(allocatable); session2->setAllocationTimeout(0); cout << "ok" << endl; cout << "testing server allocation... " << flush; session1->setAllocationTimeout(0); session2->setAllocationTimeout(0); Ice::Identity allocatable3 = communicator->stringToIdentity("allocatable3"); Ice::Identity allocatable4 = communicator->stringToIdentity("allocatable4"); session1->allocateObjectById(allocatable3); try { session2->allocateObjectById(allocatable3); test(false); } catch(const AllocationTimeoutException&) { } try { session2->allocateObjectById(allocatable4); test(false); } catch(const AllocationTimeoutException&) { } session1->allocateObjectById(allocatable4); session1->releaseObject(allocatable3); try { session2->allocateObjectById(allocatable3); test(false); } catch(const AllocationTimeoutException&) { } session1->releaseObject(allocatable4); session2->allocateObjectById(allocatable3); try { session1->allocateObjectById(allocatable3); test(false); } catch(const AllocationTimeoutException&) { } try { session1->allocateObjectById(allocatable4); test(false); } catch(const AllocationTimeoutException&) { } session2->allocateObjectById(allocatable4); session2->releaseObject(allocatable3); try { session1->allocateObjectById(allocatable3); test(false); } catch(const AllocationTimeoutException&) { } try { session1->allocateObjectByType("::TestServer1"); test(false); } catch(AllocationException&) { } try { session1->allocateObjectByType("::TestServer2"); test(false); } catch(AllocationException&) { } test(session2->allocateObjectByType("::TestServer1")); try { session2->allocateObjectByType("::TestServer1"); test(false); } catch(AllocationException&) { } try { session2->allocateObjectByType("::TestServer2"); test(false); } catch(AllocationException&) { } session2->releaseObject(allocatable3); session2->releaseObject(allocatable4); session1->allocateObjectById(allocatable3); session1->allocateObjectById(allocatable4); session2->setAllocationTimeout(allocationTimeout); cb1 = new AllocateObjectByIdCallback(); session2->allocateObjectById_async(cb1, allocatable3); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb1->hasResponse(dummy)); session1->releaseObject(allocatable3); test(!cb1->hasResponse(dummy)); session1->releaseObject(allocatable4); cb1->waitResponse(__FILE__, __LINE__); test(cb1->hasResponse(dummy)); session2->releaseObject(allocatable3); session1->setAllocationTimeout(allocationTimeout); test(session2->allocateObjectByType("::TestServer1")); cb3 = new AllocateObjectByTypeCallback(); session1->allocateObjectByType_async(cb3, "::TestServer2"); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb3->hasResponse(dummy)); session2->releaseObject(allocatable3); cb3->waitResponse(__FILE__, __LINE__); test(cb3->hasResponse(dummy)); session1->releaseObject(allocatable4); session1->setAllocationTimeout(0); session2->setAllocationTimeout(0); test(session1->allocateObjectByType("::TestMultipleByServer")); try { session2->allocateObjectByType("::TestMultipleByServer"); test(false); } catch(AllocationException&) { } test(session1->allocateObjectByType("::TestMultipleByServer")); session1->releaseObject(communicator->stringToIdentity("allocatable31")); session1->releaseObject(communicator->stringToIdentity("allocatable41")); test(session2->allocateObjectByType("::TestMultipleByServer")); try { session1->allocateObjectByType("::TestMultipleByServer"); test(false); } catch(AllocationException&) { } test(session2->allocateObjectByType("::TestMultipleByServer")); session2->releaseObject(communicator->stringToIdentity("allocatable31")); session2->releaseObject(communicator->stringToIdentity("allocatable41")); Ice::ObjectPrx obj1 = session1->allocateObjectByType("::TestMultipleServer"); test(obj1); Ice::ObjectPrx obj2 = session2->allocateObjectByType("::TestMultipleServer"); test(obj2); try { session1->allocateObjectByType("::TestMultipleServer"); test(false); } catch(AllocationTimeoutException&) { } try { session2->allocateObjectByType("::TestMultipleServer"); test(false); } catch(AllocationTimeoutException&) { } session1->releaseObject(obj1->ice_getIdentity()); obj1 = session2->allocateObjectByType("::TestMultipleServer"); session2->releaseObject(obj1->ice_getIdentity()); session2->releaseObject(obj2->ice_getIdentity()); cout << "ok" << endl; cout << "testing concurrent allocations... " << flush; session1->setAllocationTimeout(allocationTimeout); session2->setAllocationTimeout(allocationTimeout); session2->allocateObjectById(allocatable); AllocateObjectByIdCallbackPtr cb11 = new AllocateObjectByIdCallback(); AllocateObjectByIdCallbackPtr cb12 = new AllocateObjectByIdCallback(); session1->allocateObjectById_async(cb11, allocatable); session1->allocateObjectById_async(cb12, allocatable); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb11->hasResponse(dummy)); test(!cb12->hasResponse(dummy)); session2->releaseObject(allocatable); cb11->waitResponse(__FILE__, __LINE__); cb12->waitResponse(__FILE__, __LINE__); test(cb11->hasResponse(dummy) ? cb12->hasException() : cb12->hasResponse(dummy)); test(cb12->hasResponse(dummy) ? cb11->hasException() : cb11->hasResponse(dummy)); session1->releaseObject(allocatable); session2->allocateObjectById(allocatable); AllocateObjectByTypeCallbackPtr cb31 = new AllocateObjectByTypeCallback(); AllocateObjectByTypeCallbackPtr cb32 = new AllocateObjectByTypeCallback(); session1->allocateObjectByType_async(cb31, "::Test"); session1->allocateObjectByType_async(cb32, "::Test"); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb31->hasResponse(dummy)); test(!cb32->hasResponse(dummy)); session2->releaseObject(allocatable); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(300)); do { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(200)); } while(!cb31->hasResponse(dummy) && !cb32->hasResponse(dummy)); test(cb31->hasResponse(dummy) && dummy && !cb32->hasResponse(dummy) || cb32->hasResponse(dummy) && dummy && !cb31->hasResponse(dummy)); session1->releaseObject(allocatable); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(300)); AllocateObjectByTypeCallbackPtr cb33 = cb31->hasResponse(dummy) ? cb32 : cb31; cb33->waitResponse(__FILE__, __LINE__); test(cb33->hasResponse(dummy) && dummy); session1->releaseObject(allocatable); session2->allocateObjectById(allocatable3); cb11 = new AllocateObjectByIdCallback(); cb12 = new AllocateObjectByIdCallback(); session1->allocateObjectById_async(cb11, allocatable3); session1->allocateObjectById_async(cb12, allocatable3); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb11->hasResponse(dummy)); test(!cb12->hasResponse(dummy)); session2->releaseObject(allocatable3); cb11->waitResponse(__FILE__, __LINE__); cb12->waitResponse(__FILE__, __LINE__); test(cb11->hasResponse(dummy) ? cb12->hasException() : cb12->hasResponse(dummy)); test(cb12->hasResponse(dummy) ? cb11->hasException() : cb11->hasResponse(dummy)); session1->releaseObject(allocatable3); session2->allocateObjectById(allocatable3); cb31 = new AllocateObjectByTypeCallback(); cb32 = new AllocateObjectByTypeCallback(); session1->allocateObjectByType_async(cb31, "::TestServer1"); session1->allocateObjectByType_async(cb32, "::TestServer1"); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb31->hasResponse(dummy)); test(!cb32->hasResponse(dummy)); session2->releaseObject(allocatable3); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(300)); do { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(200)); } while(!cb31->hasResponse(dummy) && !cb32->hasResponse(dummy)); test(cb31->hasResponse(dummy) && dummy && !cb32->hasResponse(dummy) || cb32->hasResponse(dummy) && dummy && !cb31->hasResponse(dummy)); session1->releaseObject(allocatable3); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(300)); cb33 = cb31->hasResponse(dummy) ? cb32 : cb31; cb33->waitResponse(__FILE__, __LINE__); test(cb33->hasResponse(dummy) && dummy); session1->releaseObject(allocatable3); session1->allocateObjectById(allocatable3); cb31 = new AllocateObjectByTypeCallback(); cb32 = new AllocateObjectByTypeCallback(); session1->allocateObjectByType_async(cb31, "::TestServer1"); session1->allocateObjectByType_async(cb32, "::TestServer1"); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb31->hasResponse(dummy)); test(!cb32->hasResponse(dummy)); session1->releaseObject(allocatable3); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(300)); do { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(200)); } while(!cb31->hasResponse(dummy) && !cb32->hasResponse(dummy)); test(cb31->hasResponse(dummy) && dummy && !cb32->hasResponse(dummy) || cb32->hasResponse(dummy) && dummy && !cb31->hasResponse(dummy)); session1->releaseObject(allocatable3); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(300)); cb33 = cb31->hasResponse(dummy) ? cb32 : cb31; cb33->waitResponse(__FILE__, __LINE__); test(cb33->hasResponse(dummy) && dummy); session1->releaseObject(allocatable3); cout << "ok" << endl; cout << "testing session destroy... " << flush; obj = session2->allocateObjectByType("::Test"); // Allocate the object test(obj && obj->ice_getIdentity().name == "allocatable"); session1->setAllocationTimeout(allocationTimeout); cb3 = new AllocateObjectByTypeCallback(); session1->allocateObjectByType_async(cb3, "::Test"); IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(500)); test(!cb3->hasResponse(dummy)); session2->destroy(); cb3->waitResponse(__FILE__, __LINE__); test(cb3->hasResponse(obj)); session1->destroy(); session2 = SessionPrx::uncheckedCast(registry->createSession("Client2", "")); session2->setAllocationTimeout(0); session2->allocateObjectById(allocatable); session2->destroy(); cout << "ok" << endl; cout << "testing allocation with Glacier2 session... " << flush; Ice::ObjectPrx routerBase = communicator->stringToProxy("Glacier2/router:default -p 12347"); Glacier2::RouterPrx router1 = Glacier2::RouterPrx::checkedCast(routerBase->ice_connectionId("client1")); test(router1); Glacier2::SessionPrx sessionBase = router1->createSession("test1", "abc123"); try { session1 = IceGrid::SessionPrx::checkedCast(sessionBase->ice_connectionId("client1")->ice_router(router1)); test(session1); session1->ice_ping(); Ice::ObjectPrx obj; obj = session1->allocateObjectById(allocatable)->ice_connectionId("client1")->ice_router(router1); obj->ice_ping(); session1->releaseObject(allocatable); try { obj->ice_ping(); } catch(const Ice::ObjectNotExistException&) { } obj = session1->allocateObjectById(allocatable3)->ice_connectionId("client1")->ice_router(router1); obj->ice_ping(); obj2 = communicator->stringToProxy("allocatable4")->ice_connectionId("client1")->ice_router(router1); obj2->ice_ping(); session1->releaseObject(allocatable3); try { obj->ice_ping(); } catch(const Ice::ObjectNotExistException&) { } try { obj2->ice_ping(); } catch(const Ice::ObjectNotExistException&) { } session1->destroy(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } cout << "ok" << endl; cout << "stress test... " << flush; SessionPrx stressSession = registry->createSession("StressSession", ""); keepAlive->add(stressSession); const int nClients = 10; int i; vector<StressClientPtr> clients; for(i = 0; i < nClients - 2; ++i) { if(IceUtil::random(2) == 1) { clients.push_back(new StressClient(i, registry, false)); } else { clients.push_back(new StressClient(i, stressSession)); } clients.back()->start(); } clients.push_back(new StressClient(i++, registry, true)); clients.back()->start(); clients.push_back(new StressClient(i++, registry, true)); clients.back()->start(); for(vector<StressClientPtr>::const_iterator p = clients.begin(); p != clients.end(); ++p) { (*p)->notifyThread(); } // // Let the stress client run for a bit. // IceUtil::ThreadControl::sleep(IceUtil::Time::seconds(8)); // // Terminate the stress clients. // for(vector<StressClientPtr>::const_iterator q = clients.begin(); q != clients.end(); ++q) { (*q)->terminate(); (*q)->getThreadControl().join(); } stressSession->destroy(); cout << "ok" << endl; } catch(const AllocationTimeoutException& ex) { cerr << ex << endl; test(false); } catch(const AllocationException& ex) { cerr << ex.reason << endl; test(false); } cout << "shutting down router... " << flush; admin->stopServer("Glacier2"); cout << "ok" << endl; keepAlive->terminate(); keepAlive->getThreadControl().join(); keepAlive = 0; session->destroy(); }
void allTests(const Ice::CommunicatorPtr& comm) { IceGrid::RegistryPrx registry = IceGrid::RegistryPrx::checkedCast( comm->stringToProxy(comm->getDefaultLocator()->ice_getIdentity().category + "/Registry")); AdminSessionPrx session = registry->createAdminSession("foo", "bar"); session->ice_getConnection()->setACM(registry->getACMTimeout(), IceUtil::None, Ice::HeartbeatAlways); AdminPrx admin = session->getAdmin(); test(admin); map<string, string> params; params.clear(); params["id"] = "Master"; params["replicaName"] = ""; params["port"] = "12050"; instantiateServer(admin, "IceGridRegistry", params); params.clear(); params["id"] = "Slave1"; params["replicaName"] = "Slave1"; params["port"] = "12051"; instantiateServer(admin, "IceGridRegistry", params); params.clear(); params["id"] = "Slave2"; params["replicaName"] = "Slave2"; params["port"] = "12052"; instantiateServer(admin, "IceGridRegistry", params); Ice::LocatorPrx masterLocator = Ice::LocatorPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Locator-Master:default -p 12050")); Ice::LocatorPrx slave1Locator = Ice::LocatorPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Locator-Slave1:default -p 12051")); Ice::LocatorPrx slave2Locator = Ice::LocatorPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Locator-Slave2:default -p 12052")); Ice::LocatorPrx replicatedLocator = Ice::LocatorPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Locator:default -p 12050:default -p 12051")); AdminPrx masterAdmin, slave1Admin, slave2Admin; admin->startServer("Master"); masterAdmin = createAdminSession(masterLocator, ""); admin->startServer("Slave1"); slave1Admin = createAdminSession(slave1Locator, "Slave1"); // // Test replication and well-known objects: // // - Locator interface // - Query interface // // - Registry object // - RegistryUserAccountMapper // - SessionManager/SSLSessionManager // - AdminSessionManager/AdminSSLSessionManager // cout << "testing replicated locator and query interface... " << flush; { Ice::EndpointSeq endpoints; ObjectInfo info; info = masterAdmin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")); ObjectInfo info1 = slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")); test(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")) == info); test(info.type == Ice::Locator::ice_staticId()); endpoints = info.proxy->ice_getEndpoints(); test(endpoints.size() == 2); test(endpoints[0]->toString().find("-p 12050") != string::npos); test(endpoints[1]->toString().find("-p 12051") != string::npos); info = masterAdmin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")); test(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")) == info); test(info.type == IceGrid::Query::ice_staticId()); endpoints = info.proxy->ice_getEndpoints(); test(endpoints.size() == 2); test(endpoints[0]->toString().find("-p 12050") != string::npos); test(endpoints[1]->toString().find("-p 12051") != string::npos); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); info = masterAdmin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")); // We eventually need to wait here for the update of the replicated objects to propagate to the replica. int nRetry = 0; while(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")) != info && nRetry < maxRetry) { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(sleepTime)); ++nRetry; } test(slave2Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")) == info); test(info.type == Ice::Locator::ice_staticId()); endpoints = info.proxy->ice_getEndpoints(); test(endpoints.size() == 3); test(endpoints[0]->toString().find("-p 12050") != string::npos); test(endpoints[1]->toString().find("-p 12051") != string::npos); test(endpoints[2]->toString().find("-p 12052") != string::npos); info = masterAdmin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")); // We eventually need to wait here for the update of the replicated objects to propagate to the replica. nRetry = 0; while(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")) != info && nRetry < maxRetry) { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(sleepTime)); ++nRetry; } test(slave2Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")) == info); test(info.type == IceGrid::Query::ice_staticId()); endpoints = info.proxy->ice_getEndpoints(); test(endpoints.size() == 3); test(endpoints[0]->toString().find("-p 12050") != string::npos); test(endpoints[1]->toString().find("-p 12051") != string::npos); test(endpoints[2]->toString().find("-p 12052") != string::npos); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); info = masterAdmin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")); // We eventually need to wait here for the update of the replicated objects to propagate to the replica. nRetry = 0; while(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")) != info && nRetry < maxRetry) { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(sleepTime)); ++nRetry; } test(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Locator")) == info); test(info.type == Ice::Locator::ice_staticId()); endpoints = info.proxy->ice_getEndpoints(); test(endpoints.size() == 2); test(endpoints[0]->toString().find("-p 12050") != string::npos); test(endpoints[1]->toString().find("-p 12051") != string::npos); info = masterAdmin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")); nRetry = 0; while(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")) != info && nRetry < maxRetry) { IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(sleepTime)); ++nRetry; } test(slave1Admin->getObjectInfo(Ice::stringToIdentity("RepTestIceGrid/Query")) == info); test(info.type == IceGrid::Query::ice_staticId()); endpoints = info.proxy->ice_getEndpoints(); test(endpoints.size() == 2); test(endpoints[0]->toString().find("-p 12050") != string::npos); test(endpoints[1]->toString().find("-p 12051") != string::npos); QueryPrx query; query = QueryPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Query:" + endpoints[0]->toString())); Ice::ObjectProxySeq objs = query->findAllObjectsByType("::IceGrid::Registry"); test(objs.size() == 2); query = QueryPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Query:" + endpoints[1]->toString())); test(objs == query->findAllObjectsByType("::IceGrid::Registry")); } cout << "ok" << endl; cout << "testing well-known IceGrid objects... " << flush; { // // Test Registry well-known object (we have already tested // admin session creation for the creation of the admin // session above!) // RegistryPrx masterRegistry = RegistryPrx::checkedCast( comm->stringToProxy("RepTestIceGrid/Registry")->ice_locator(replicatedLocator)); RegistryPrx slave1Registry = RegistryPrx::checkedCast( comm->stringToProxy("RepTestIceGrid/Registry-Slave1")->ice_locator(replicatedLocator)); SessionPrx session = masterRegistry->createSession("dummy", "dummy"); session->destroy(); if(comm->getProperties()->getProperty("Ice.Default.Protocol") == "ssl") { session = masterRegistry->createSessionFromSecureConnection(); session->destroy(); } else { try { masterRegistry->createSessionFromSecureConnection(); } catch(const PermissionDeniedException&) { } } try { slave1Registry->createSession("dummy", ""); } catch(const PermissionDeniedException&) { } try { slave1Registry->createSessionFromSecureConnection(); } catch(const PermissionDeniedException&) { } // // Test registry user-account mapper. // UserAccountMapperPrx masterMapper = UserAccountMapperPrx::checkedCast( comm->stringToProxy("RepTestIceGrid/RegistryUserAccountMapper")->ice_locator(replicatedLocator)); UserAccountMapperPrx slave1Mapper = UserAccountMapperPrx::checkedCast( comm->stringToProxy("RepTestIceGrid/RegistryUserAccountMapper-Slave1")->ice_locator(replicatedLocator)); test(masterMapper->getUserAccount("Dummy User Account1") == "dummy1"); test(masterMapper->getUserAccount("Dummy User Account2") == "dummy2"); test(slave1Mapper->getUserAccount("Dummy User Account1") == "dummy1"); test(slave1Mapper->getUserAccount("Dummy User Account2") == "dummy2"); try { masterMapper->getUserAccount("unknown"); test(false); } catch(const UserAccountNotFoundException&) { } try { slave1Mapper->getUserAccount("unknown"); test(false); } catch(const UserAccountNotFoundException&) { } // // Test SessionManager, SSLSessionManager, // AdminSessionManager, AdminSSLSessionManager // comm->stringToProxy("RepTestIceGrid/SessionManager")->ice_locator(replicatedLocator)->ice_ping(); comm->stringToProxy("RepTestIceGrid/SSLSessionManager")->ice_locator(replicatedLocator)->ice_ping(); try { comm->stringToProxy("RepTestIceGrid/SessionManager-Slave1")->ice_locator(replicatedLocator)->ice_ping(); test(false); } catch(const Ice::NotRegisteredException&) { } try { comm->stringToProxy("RepTestIceGrid/SSLSessionManager-Slave1")->ice_locator(replicatedLocator)->ice_ping(); test(false); } catch(const Ice::NotRegisteredException&) { } comm->stringToProxy("RepTestIceGrid/AdminSessionManager")->ice_locator(replicatedLocator)->ice_ping(); comm->stringToProxy("RepTestIceGrid/AdminSSLSessionManager")->ice_locator(replicatedLocator)->ice_ping(); comm->stringToProxy("RepTestIceGrid/AdminSessionManager-Slave1")->ice_locator(replicatedLocator)->ice_ping(); comm->stringToProxy("RepTestIceGrid/AdminSSLSessionManager-Slave1")->ice_locator(replicatedLocator)->ice_ping(); } cout << "ok" << endl; // // Registry update test: // // - start master // - start slave1: keep slave1 up for each update // - start slave2: shutdown slave2 for each update // - ensure updates are correctly replicated // - updates to test: application/adapter/object // cout << "testing registry updates... " << flush; { ApplicationDescriptor app; app.name = "TestApp"; app.description = "added application"; AdapterInfo adpt; adpt.id = "TestAdpt"; adpt.proxy = comm->stringToProxy("dummy:tcp -p 12345 -h 127.0.0.1"); ObjectInfo obj; obj.proxy = comm->stringToProxy("dummy:tcp -p 12345 -h 127.0.0.1"); obj.type = "::Hello"; // // We use the locator registry from Slave1 to ensure that the // forwarding to the master work (the slave locator registry // forwards everything to the master). // Ice::LocatorRegistryPrx locatorRegistry = slave1Locator->getRegistry(); // // Test addition of application, adapter, object. // try { slave1Admin->addApplication(app); test(false); } catch(const DeploymentException&) { // Slave can't modify the database. } masterAdmin->addApplication(app); locatorRegistry->setAdapterDirectProxy(adpt.id, adpt.proxy); try { slave1Admin->addObjectWithType(obj.proxy, obj.type); test(false); } catch(const DeploymentException&) { // Slave can't modify the database } masterAdmin->addObjectWithType(obj.proxy, obj.type); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); test(masterAdmin->getApplicationInfo("TestApp").descriptor.description == "added application"); test(slave1Admin->getApplicationInfo("TestApp").descriptor.description == "added application"); test(slave2Admin->getApplicationInfo("TestApp").descriptor.description == "added application"); test(masterAdmin->getAdapterInfo("TestAdpt")[0] == adpt); test(slave1Admin->getAdapterInfo("TestAdpt")[0] == adpt); test(slave2Admin->getAdapterInfo("TestAdpt")[0] == adpt); test(masterAdmin->getObjectInfo(obj.proxy->ice_getIdentity()) == obj); test(slave1Admin->getObjectInfo(obj.proxy->ice_getIdentity()) == obj); test(slave2Admin->getObjectInfo(obj.proxy->ice_getIdentity()) == obj); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); // // Test sync of application. // app.description = "updated1 application"; try { slave1Admin->syncApplication(app); test(false); } catch(const DeploymentException&) { // Slave can't modify the database. } masterAdmin->syncApplication(app); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); test(masterAdmin->getApplicationInfo("TestApp").descriptor.description == "updated1 application"); test(slave1Admin->getApplicationInfo("TestApp").descriptor.description == "updated1 application"); test(slave2Admin->getApplicationInfo("TestApp").descriptor.description == "updated1 application"); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); // // Test update of application, adapter, object. // ApplicationUpdateDescriptor appUpdate; appUpdate.name = "TestApp"; appUpdate.description = new BoxedString("updated2 application"); try { slave1Admin->updateApplication(appUpdate); test(false); } catch(const DeploymentException&) { // Slave can't modify the database. } masterAdmin->updateApplication(appUpdate); adpt.replicaGroupId = "TestReplicaGroup"; locatorRegistry->setReplicatedAdapterDirectProxy(adpt.id, adpt.replicaGroupId, adpt.proxy); obj.proxy = comm->stringToProxy("dummy:tcp -p 12346 -h 127.0.0.1"); try { slave1Admin->updateObject(obj.proxy); test(false); } catch(const DeploymentException&) { // Slave can't modify the database } masterAdmin->updateObject(obj.proxy); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); test(masterAdmin->getApplicationInfo("TestApp").descriptor.description == "updated2 application"); test(slave1Admin->getApplicationInfo("TestApp").descriptor.description == "updated2 application"); test(slave2Admin->getApplicationInfo("TestApp").descriptor.description == "updated2 application"); test(masterAdmin->getAdapterInfo("TestAdpt")[0] == adpt); test(slave1Admin->getAdapterInfo("TestAdpt")[0] == adpt); test(slave2Admin->getAdapterInfo("TestAdpt")[0] == adpt); test(masterAdmin->getObjectInfo(obj.proxy->ice_getIdentity()) == obj); test(slave1Admin->getObjectInfo(obj.proxy->ice_getIdentity()) == obj); test(slave2Admin->getObjectInfo(obj.proxy->ice_getIdentity()) == obj); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); // // Test removal of application, adapter and object. try { slave1Admin->removeApplication("TestApp"); test(false); } catch(const DeploymentException&) { // Slave can't modify the database. } masterAdmin->removeApplication("TestApp"); try { slave1Admin->removeAdapter("TestAdpt"); test(false); } catch(const DeploymentException&) { // Slave can't modify the database. } masterAdmin->removeAdapter("TestAdpt"); try { slave1Admin->removeObject(obj.proxy->ice_getIdentity()); } catch(const DeploymentException&) { // Slave can't modify the database. } masterAdmin->removeObject(obj.proxy->ice_getIdentity()); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); try { masterAdmin->getApplicationInfo("TestApp"); test(false); } catch(const ApplicationNotExistException&) { } try { slave1Admin->getApplicationInfo("TestApp"); test(false); } catch(const ApplicationNotExistException&) { } try { slave2Admin->getApplicationInfo("TestApp"); test(false); } catch(const ApplicationNotExistException&) { } try { masterAdmin->getAdapterInfo("TestAdpt"); test(false); } catch(const AdapterNotExistException&) { } try { slave1Admin->getAdapterInfo("TestAdpt"); test(false); } catch(const AdapterNotExistException&) { } try { slave2Admin->getAdapterInfo("TestAdpt"); test(false); } catch(const AdapterNotExistException&) { } try { masterAdmin->getObjectInfo(obj.proxy->ice_getIdentity()); test(false); } catch(const ObjectNotRegisteredException&) { } try { slave1Admin->getObjectInfo(obj.proxy->ice_getIdentity()); test(false); } catch(const ObjectNotRegisteredException&) { } try { slave2Admin->getObjectInfo(obj.proxy->ice_getIdentity()); test(false); } catch(const ObjectNotRegisteredException&) { } slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); } cout << "ok" << endl; params.clear(); params["id"] = "Node1"; instantiateServer(admin, "IceGridNode", params); // // Add an application which is using Node1. Otherwise, when a // registry restarts it would throw aways the proxy of the nodes // because the node isn't used by any application. // ApplicationDescriptor app; app.name = "DummyApp"; app.nodes["Node1"].description = "dummy node"; try { masterAdmin->addApplication(app); } catch(const Ice::Exception& ex) { cerr << ex << endl; test(false); } // // Test node session establishment. // // - start master, start slave1, start node, start slave2 // - shutdown slave1, start slave1 -> node should re-connect // - shutdown master // - shutdown slave2, start slave2 -> node should re-connect // - shutdown slave1 // - start master -> node connects to master // - start slave1 -> node connects to slave1 // cout << "testing node session establishment... " << flush; { admin->startServer("Node1"); waitForNodeState(masterAdmin, "Node1", true); waitForNodeState(slave1Admin, "Node1", true); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); waitForNodeState(slave2Admin, "Node1", true); // Node should connect. slave1Admin->shutdown(); waitForServerState(admin, "Slave1", false); admin->startServer("Slave1"); slave1Admin = createAdminSession(slave1Locator, "Slave1"); try { test(slave1Admin->pingNode("Node1")); // Node should be re-connected. } catch(const NodeNotExistException&) { test(false); } masterAdmin->shutdown(); waitForServerState(admin, "Master", false); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); try { // // On slow environments, it can take a bit for the node to // re-establish the connection so we ping it twice. The // second should succeed. // slave2Admin->pingNode("Node1"); test(slave2Admin->pingNode("Node1")); // Node should be re-connected even if the master is down. } catch(const NodeNotExistException&) { test(false); } slave1Admin->shutdown(); waitForServerState(admin, "Slave1", false); admin->startServer("Master"); masterAdmin = createAdminSession(masterLocator, ""); try { test(masterAdmin->pingNode("Node1")); // Node should be re-connected. } catch(const NodeNotExistException&) { test(false); } admin->startServer("Slave1"); slave1Admin = createAdminSession(slave1Locator, "Slave1"); try { test(slave1Admin->pingNode("Node1")); // Node should be re-connected. } catch(const NodeNotExistException&) { test(false); } try { test(masterAdmin->pingNode("Node1")); } catch(const NodeNotExistException&) { test(false); } try { test(slave2Admin->pingNode("Node1")); } catch(const NodeNotExistException&) { test(false); } slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); try { test(slave2Admin->pingNode("Node1")); } catch(const NodeNotExistException&) { test(false); } } cout << "ok" << endl; // // Testing updates with out-of-date replicas. // cout << "testing out-of-date replicas... " << flush; { ApplicationDescriptor app; app.name = "TestApp"; app.description = "added application"; ServerDescriptorPtr server = new ServerDescriptor(); server->id = "Server"; server->exe = comm->getProperties()->getProperty("ServerDir") + "/server"; server->pwd = "."; server->applicationDistrib = false; server->allocatable = false; addProperty(server, "Ice.Admin.Endpoints", "tcp -h 127.0.0.1"); server->activation = "on-demand"; AdapterDescriptor adapter; adapter.name = "TestAdapter"; adapter.id = "TestAdapter.Server"; adapter.registerProcess = false; adapter.serverLifetime = true; PropertyDescriptor property; property.name = "TestAdapter.Endpoints"; property.value = "default"; server->propertySet.properties.push_back(property); property.name = "Identity"; property.value = "test"; server->propertySet.properties.push_back(property); ObjectDescriptor object; object.id = Ice::stringToIdentity("test"); object.type = "::Test::TestIntf"; adapter.objects.push_back(object); server->adapters.push_back(adapter); app.nodes["Node1"].servers.push_back(server); masterAdmin->addApplication(app); try { comm->stringToProxy("test")->ice_locator(masterLocator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } masterAdmin->stopServer("Server"); // // Shutdown Slave2 and update application. // slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); ApplicationUpdateDescriptor update; update.name = "TestApp"; NodeUpdateDescriptor node; node.name = "Node1"; node.servers.push_back(server); update.nodes.push_back(node); property.name = "Dummy"; property.value = "val"; server->propertySet.properties.push_back(property); masterAdmin->updateApplication(update); try { comm->stringToProxy("test")->ice_locator(masterLocator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } masterAdmin->shutdown(); waitForServerState(admin, "Master", false); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); waitForNodeState(slave2Admin, "Node1", true); // Node should connect. try { slave2Admin->startServer("Server"); test(false); } catch(const DeploymentException&) { } try { comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); test(false); } catch(const Ice::NoEndpointException&) { } admin->startServer("Master"); masterAdmin = createAdminSession(masterLocator, ""); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); try { comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } // // Shutdown Node1 and update the application, then, shutdown // the master. // slave1Admin->shutdownNode("Node1"); waitForServerState(admin, "Node1", false); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); property.name = "Dummy2"; property.value = "val"; server->propertySet.properties.push_back(property); masterAdmin->updateApplication(update); masterAdmin->shutdown(); waitForServerState(admin, "Master", false); // // Restart Node1 and Slave2, Slave2 still has the old version // of the server so it should be able to load it. Slave1 has // a more recent version, so it can't load it. // admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); admin->startServer("Node1"); waitForNodeState(slave2Admin, "Node1", true); slave1Admin->shutdown(); waitForServerState(admin, "Slave1", false); try { comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } admin->startServer("Slave1"); slave1Admin = createAdminSession(slave1Locator, "Slave1"); try { comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::NoEndpointException&) { } try { comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } slave2Admin->stopServer("Server"); // // Start the master. This will re-load the server on the node // and update the out-of-date replicas. // admin->startServer("Master"); masterAdmin = createAdminSession(masterLocator, ""); slave1Admin->shutdown(); waitForServerState(admin, "Slave1", false); admin->startServer("Slave1"); slave1Admin = createAdminSession(slave1Locator, "Slave1"); slave2Admin->shutdownNode("Node1"); waitForServerState(admin, "Node1", false); admin->startServer("Node1"); slave2Admin->shutdown(); waitForServerState(admin, "Slave2", false); admin->startServer("Slave2"); slave2Admin = createAdminSession(slave2Locator, "Slave2"); waitForNodeState(masterAdmin, "Node1", true); waitForNodeState(slave1Admin, "Node1", true); waitForNodeState(slave2Admin, "Node1", true); try { comm->stringToProxy("test")->ice_locator(masterLocator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); } catch(const Ice::LocalException& ex) { cerr << ex << endl; test(false); } slave2Admin->stopServer("Server"); masterAdmin->removeApplication("TestApp"); } cout << "ok" << endl; cout << "testing master upgrade... " << flush; { ApplicationDescriptor app; app.name = "TestApp"; app.description = "added application"; ServerDescriptorPtr server = new ServerDescriptor(); server->id = "Server"; server->exe = comm->getProperties()->getProperty("ServerDir") + "/server"; server->pwd = "."; server->applicationDistrib = false; server->allocatable = false; addProperty(server, "Ice.Admin.Endpoints", "tcp -h 127.0.0.1"); server->activation = "on-demand"; AdapterDescriptor adapter; adapter.name = "TestAdapter"; adapter.id = "TestAdapter.Server"; adapter.serverLifetime = true; adapter.registerProcess = false; PropertyDescriptor property; property.name = "TestAdapter.Endpoints"; property.value = "default"; server->propertySet.properties.push_back(property); property.name = "Identity"; property.value = "test"; server->propertySet.properties.push_back(property); ObjectDescriptor object; object.id = Ice::stringToIdentity("test"); object.type = "::Test::TestIntf"; adapter.objects.push_back(object); server->adapters.push_back(adapter); app.nodes["Node1"].servers.push_back(server); masterAdmin->addApplication(app); comm->stringToProxy("test")->ice_locator(masterLocator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); masterAdmin->stopServer("Server"); // // Shutdown the Master, update Slave1 to be the Master. // masterAdmin->shutdown(); waitForServerState(admin, "Master", false); slave1Admin->shutdown(); waitForServerState(admin, "Slave1", false); params.clear(); params["id"] = "Slave1"; params["port"] = "12051"; params["replicaName"] = "Master"; instantiateServer(admin, "IceGridRegistry", params); admin->startServer("Slave1"); slave1Locator = Ice::LocatorPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Locator-Master:default -p 12051")); slave1Admin = createAdminSession(slave1Locator, ""); waitForReplicaState(slave1Admin, "Slave2", true); ApplicationUpdateDescriptor update; update.name = "TestApp"; NodeUpdateDescriptor node; node.name = "Node1"; node.servers.push_back(server); update.nodes.push_back(node); property.name = "Dummy"; property.value = "val"; server->propertySet.properties.push_back(property); slave1Admin->updateApplication(update); comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); slave1Admin->shutdown(); waitForServerState(admin, "Slave1", false); params.clear(); params["id"] = "Slave1"; params["replicaName"] = "Slave1"; params["port"] = "12051"; instantiateServer(admin, "IceGridRegistry", params); params.clear(); params["id"] = "Master"; params["replicaName"] = ""; params["port"] = "12050"; params["arg"] = "--initdb-from-replica=Slave2"; instantiateServer(admin, "IceGridRegistry", params); admin->startServer("Master"); masterAdmin = createAdminSession(masterLocator, ""); admin->startServer("Slave1"); slave1Locator = Ice::LocatorPrx::uncheckedCast(comm->stringToProxy("RepTestIceGrid/Locator-Slave1:default -p 12051")); slave1Admin = createAdminSession(slave1Locator, "Slave1"); comm->stringToProxy("test")->ice_locator(masterLocator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave1Locator)->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test")->ice_locator(slave2Locator)->ice_locatorCacheTimeout(0)->ice_ping(); masterAdmin->stopServer("Server"); waitForReplicaState(masterAdmin, "Slave1", true); waitForReplicaState(masterAdmin, "Slave2", true); ApplicationInfo info = masterAdmin->getApplicationInfo("TestApp"); test(info.revision == 2); masterAdmin->removeApplication("TestApp"); } cout << "ok" << endl; cout << "testing interop with registry and node using the 1.0 encoding... " << flush; { params.clear(); params["id"] = "Slave3"; params["replicaName"] = "Slave3"; params["port"] = "12053"; params["encoding"] = "1.0"; instantiateServer(admin, "IceGridRegistry", params); params.clear(); params["id"] = "Node2"; params["encoding"] = "1.0"; instantiateServer(admin, "IceGridNode", params); admin->startServer("Slave3"); waitForServerState(admin, "Slave3", true); waitForReplicaState(masterAdmin, "Slave3", true); admin->startServer("Node2"); waitForNodeState(masterAdmin, "Node2", true); Ice::LocatorPrx slave3Locator = Ice::LocatorPrx::uncheckedCast( comm->stringToProxy("RepTestIceGrid/Locator-Slave3 -e 1.0:default -p 12053")); IceGrid::AdminPrx slave3Admin = createAdminSession(slave3Locator, "Slave3"); waitForNodeState(slave3Admin, "Node2", true); ApplicationDescriptor app; app.name = "TestApp"; app.description = "added application"; ServerDescriptorPtr server = new ServerDescriptor(); server->id = "Server"; server->exe = comm->getProperties()->getProperty("ServerDir") + "/server"; server->pwd = "."; server->applicationDistrib = false; server->allocatable = false; addProperty(server, "Ice.Admin.Endpoints", "tcp -h 127.0.0.1"); server->activation = "on-demand"; AdapterDescriptor adapter; adapter.name = "TestAdapter"; adapter.id = "TestAdapter.Server"; adapter.serverLifetime = true; adapter.registerProcess = false; PropertyDescriptor property; property.name = "TestAdapter.Endpoints"; property.value = "default"; server->propertySet.properties.push_back(property); property.name = "Identity"; property.value = "test"; server->propertySet.properties.push_back(property); ObjectDescriptor object; object.id = Ice::stringToIdentity("test"); object.type = "::Test::TestIntf"; adapter.objects.push_back(object); server->adapters.push_back(adapter); app.nodes["Node2"].servers.push_back(server); masterAdmin->addApplication(app); comm->stringToProxy("test -e 1.0")->ice_locator( masterLocator->ice_encodingVersion(Ice::Encoding_1_0))->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test -e 1.0")->ice_locator( slave1Locator->ice_encodingVersion(Ice::Encoding_1_0))->ice_locatorCacheTimeout(0)->ice_ping(); comm->stringToProxy("test -e 1.0")->ice_locator(slave3Locator)->ice_locatorCacheTimeout(0)->ice_ping(); masterAdmin->stopServer("Server"); } cout << "ok" << endl; slave1Admin->shutdownNode("Node1"); removeServer(admin, "Node1"); removeServer(admin, "Slave2"); slave1Admin->shutdown(); removeServer(admin, "Slave1"); masterAdmin->shutdown(); removeServer(admin, "Master"); }