void Chat::runLeaveChat() { QLOG_TRACE() << __PRETTY_FUNCTION__; bool success = true; QString message; try { sdc::ByteSeq plainLog; Ice::OutputStreamPtr out = Ice::createOutputStream(sessionPrx->ice_getCommunicator()); QMutexLocker logLocker(&logMutex); out->write(log); out->finished(plainLog); logLocker.unlock(); QSharedPointer<const LoginUser> user = session.getUser(); sdc::SecureContainer cryptLog; cryptLog.data = user->encrypt(plainLog); cryptLog.signature = user->sign(plainLog); sessionPrx->saveLog(chatID.toStdString(), QDateTime::currentDateTimeUtc().toTime_t(), cryptLog); sessionPrx->leaveChat(chatID.toStdString()); } catch (const sdc::LogException &e) { success = false; message = e.what.c_str(); } catch (const sdc::SessionException &e) { success = false; message = e.what.c_str(); } catch (const sdc::InterServerException &e) { success = false; message = e.what.c_str(); } catch (const sdc::SecurityException &e) { success = false; message = e.what(); } catch (...) { success = false; message = "Unexpected exception"; } emit leaveChatCompleted(chatID); emit leaveChatCompleted(success, message); }
Test::MyClassPrx allTests(const Ice::CommunicatorPtr& communicator) { cout << "testing stringToProxy... " << flush; string ref = "test:default -p 12010"; Ice::ObjectPrx base = communicator->stringToProxy(ref); test(base); Ice::ObjectPrx b1 = communicator->stringToProxy("test"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getAdapterId().empty() && b1->ice_getFacet().empty()); b1 = communicator->stringToProxy("test "); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); b1 = communicator->stringToProxy(" test "); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); b1 = communicator->stringToProxy(" test"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); b1 = communicator->stringToProxy("'test -f facet'"); test(b1->ice_getIdentity().name == "test -f facet" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); try { b1 = communicator->stringToProxy("\"test -f facet'"); test(false); } catch(const Ice::ProxyParseException&) { } b1 = communicator->stringToProxy("\"test -f facet\""); test(b1->ice_getIdentity().name == "test -f facet" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); b1 = communicator->stringToProxy("\"test -f facet@test\""); test(b1->ice_getIdentity().name == "test -f facet@test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); b1 = communicator->stringToProxy("\"test -f facet@test @test\""); test(b1->ice_getIdentity().name == "test -f facet@test @test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet().empty()); try { b1 = communicator->stringToProxy("test test"); test(false); } catch(const Ice::ProxyParseException&) { } b1 = communicator->stringToProxy("test\\040test"); test(b1->ice_getIdentity().name == "test test" && b1->ice_getIdentity().category.empty()); try { b1 = communicator->stringToProxy("test\\777"); test(false); } catch(const Ice::IdentityParseException&) { } b1 = communicator->stringToProxy("test\\40test"); test(b1->ice_getIdentity().name == "test test"); // Test some octal and hex corner cases. b1 = communicator->stringToProxy("test\\4test"); test(b1->ice_getIdentity().name == "test\4test"); b1 = communicator->stringToProxy("test\\04test"); test(b1->ice_getIdentity().name == "test\4test"); b1 = communicator->stringToProxy("test\\004test"); test(b1->ice_getIdentity().name == "test\4test"); b1 = communicator->stringToProxy("test\\1114test"); test(b1->ice_getIdentity().name == "test\1114test"); b1 = communicator->stringToProxy("test\\b\\f\\n\\r\\t\\'\\\"\\\\test"); test(b1->ice_getIdentity().name == "test\b\f\n\r\t\'\"\\test" && b1->ice_getIdentity().category.empty()); b1 = communicator->stringToProxy("category/test"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category" && b1->ice_getAdapterId().empty()); b1 = communicator->stringToProxy(""); test(!b1); b1 = communicator->stringToProxy("\"\""); test(!b1); try { b1 = communicator->stringToProxy("\"\" test"); // Invalid trailing characters. test(false); } catch(const Ice::ProxyParseException&) { } try { b1 = communicator->stringToProxy("test:"); // Missing endpoint. test(false); } catch(const Ice::EndpointParseException&) { } b1 = communicator->stringToProxy("test@adapter"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getAdapterId() == "adapter"); try { b1 = communicator->stringToProxy("id@adapter test"); test(false); } catch(const Ice::ProxyParseException&) { } b1 = communicator->stringToProxy("category/test@adapter"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category" && b1->ice_getAdapterId() == "adapter"); b1 = communicator->stringToProxy("category/test@adapter:tcp"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category" && b1->ice_getAdapterId() == "adapter:tcp"); b1 = communicator->stringToProxy("'category 1/test'@adapter"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category 1" && b1->ice_getAdapterId() == "adapter"); b1 = communicator->stringToProxy("'category/test 1'@adapter"); test(b1->ice_getIdentity().name == "test 1" && b1->ice_getIdentity().category == "category" && b1->ice_getAdapterId() == "adapter"); b1 = communicator->stringToProxy("'category/test'@'adapter 1'"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category" && b1->ice_getAdapterId() == "adapter 1"); b1 = communicator->stringToProxy("\"category \\/test@foo/test\"@adapter"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category /test@foo" && b1->ice_getAdapterId() == "adapter"); b1 = communicator->stringToProxy("\"category \\/test@foo/test\"@\"adapter:tcp\""); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category == "category /test@foo" && b1->ice_getAdapterId() == "adapter:tcp"); b1 = communicator->stringToProxy("id -f facet"); test(b1->ice_getIdentity().name == "id" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet"); b1 = communicator->stringToProxy("id -f 'facet x'"); test(b1->ice_getIdentity().name == "id" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet x"); b1 = communicator->stringToProxy("id -f \"facet x\""); test(b1->ice_getIdentity().name == "id" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet x"); try { b1 = communicator->stringToProxy("id -f \"facet x"); test(false); } catch(const Ice::ProxyParseException&) { } try { b1 = communicator->stringToProxy("id -f \'facet x"); test(false); } catch(const Ice::ProxyParseException&) { } b1 = communicator->stringToProxy("test -f facet:tcp"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet" && b1->ice_getAdapterId().empty()); b1 = communicator->stringToProxy("test -f \"facet:tcp\""); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet:tcp" && b1->ice_getAdapterId().empty()); b1 = communicator->stringToProxy("test -f facet@test"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet" && b1->ice_getAdapterId() == "test"); b1 = communicator->stringToProxy("test -f 'facet@test'"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet@test" && b1->ice_getAdapterId().empty()); b1 = communicator->stringToProxy("test -f 'facet@test'@test"); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getFacet() == "facet@test" && b1->ice_getAdapterId() == "test"); try { b1 = communicator->stringToProxy("test -f facet@test @test"); test(false); } catch(const Ice::ProxyParseException&) { } b1 = communicator->stringToProxy("test"); test(b1->ice_isTwoway()); b1 = communicator->stringToProxy("test -t"); test(b1->ice_isTwoway()); b1 = communicator->stringToProxy("test -o"); test(b1->ice_isOneway()); b1 = communicator->stringToProxy("test -O"); test(b1->ice_isBatchOneway()); b1 = communicator->stringToProxy("test -d"); test(b1->ice_isDatagram()); b1 = communicator->stringToProxy("test -D"); test(b1->ice_isBatchDatagram()); b1 = communicator->stringToProxy("test"); test(!b1->ice_isSecure()); b1 = communicator->stringToProxy("test -s"); test(b1->ice_isSecure()); test(b1->ice_getEncodingVersion() == Ice::currentEncoding); b1 = communicator->stringToProxy("test -e 1.0"); test(b1->ice_getEncodingVersion().major == 1 && b1->ice_getEncodingVersion().minor == 0); b1 = communicator->stringToProxy("test -e 6.5"); test(b1->ice_getEncodingVersion().major == 6 && b1->ice_getEncodingVersion().minor == 5); b1 = communicator->stringToProxy("test -p 1.0 -e 1.0"); test(b1->ice_toString() == "test -t -e 1.0"); b1 = communicator->stringToProxy("test -p 6.5 -e 1.0"); test(b1->ice_toString() == "test -t -p 6.5 -e 1.0"); try { b1 = communicator->stringToProxy("test:tcp@adapterId"); test(false); } catch(const Ice::EndpointParseException&) { } // This is an unknown endpoint warning, not a parse exception. // //try //{ // b1 = communicator->stringToProxy("test -f the:facet:tcp"); // test(false); //} //catch(const Ice::EndpointParseException&) //{ //} try { b1 = communicator->stringToProxy("test::tcp"); test(false); } catch(const Ice::EndpointParseException&) { } // // Test for bug ICE-5543: escaped escapes in stringToIdentity // Ice::Identity id = { "test", ",X2QNUAzSBcJ_e$AV;E\\" }; Ice::Identity id2 = communicator->stringToIdentity(communicator->identityToString(id)); test(id == id2); id.name = "test"; id.category = ",X2QNUAz\\SB\\/cJ_e$AV;E\\\\"; id2 = communicator->stringToIdentity(communicator->identityToString(id)); test(id == id2); cout << "ok" << endl; cout << "testing propertyToProxy... " << flush; Ice::PropertiesPtr prop = communicator->getProperties(); string propertyPrefix = "Foo.Proxy"; prop->setProperty(propertyPrefix, "test:default -p 12010"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getIdentity().name == "test" && b1->ice_getIdentity().category.empty() && b1->ice_getAdapterId().empty() && b1->ice_getFacet().empty()); string property; property = propertyPrefix + ".Locator"; test(!b1->ice_getLocator()); prop->setProperty(property, "locator:default -p 10000"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getLocator() && b1->ice_getLocator()->ice_getIdentity().name == "locator"); prop->setProperty(property, ""); property = propertyPrefix + ".LocatorCacheTimeout"; test(b1->ice_getLocatorCacheTimeout() == -1); prop->setProperty(property, "1"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getLocatorCacheTimeout() == 1); prop->setProperty(property, ""); // Now retest with an indirect proxy. prop->setProperty(propertyPrefix, "test"); property = propertyPrefix + ".Locator"; prop->setProperty(property, "locator:default -p 10000"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getLocator() && b1->ice_getLocator()->ice_getIdentity().name == "locator"); prop->setProperty(property, ""); property = propertyPrefix + ".LocatorCacheTimeout"; test(b1->ice_getLocatorCacheTimeout() == -1); prop->setProperty(property, "1"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getLocatorCacheTimeout() == 1); prop->setProperty(property, ""); // This cannot be tested so easily because the property is cached // on communicator initialization. // //prop->setProperty("Ice.Default.LocatorCacheTimeout", "60"); //b1 = communicator->propertyToProxy(propertyPrefix); //test(b1->ice_getLocatorCacheTimeout() == 60); //prop->setProperty("Ice.Default.LocatorCacheTimeout", ""); prop->setProperty(propertyPrefix, "test:default -p 12010"); property = propertyPrefix + ".Router"; test(!b1->ice_getRouter()); prop->setProperty(property, "router:default -p 10000"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getRouter() && b1->ice_getRouter()->ice_getIdentity().name == "router"); prop->setProperty(property, ""); property = propertyPrefix + ".PreferSecure"; test(!b1->ice_isPreferSecure()); prop->setProperty(property, "1"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_isPreferSecure()); prop->setProperty(property, ""); property = propertyPrefix + ".ConnectionCached"; test(b1->ice_isConnectionCached()); prop->setProperty(property, "0"); b1 = communicator->propertyToProxy(propertyPrefix); test(!b1->ice_isConnectionCached()); prop->setProperty(property, ""); property = propertyPrefix + ".InvocationTimeout"; test(b1->ice_getInvocationTimeout() == -1); prop->setProperty(property, "1000"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getInvocationTimeout() == 1000); prop->setProperty(property, ""); property = propertyPrefix + ".EndpointSelection"; test(b1->ice_getEndpointSelection() == Ice::Random); prop->setProperty(property, "Random"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getEndpointSelection() == Ice::Random); prop->setProperty(property, "Ordered"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getEndpointSelection() == Ice::Ordered); prop->setProperty(property, ""); property = propertyPrefix + ".CollocationOptimized"; test(b1->ice_isCollocationOptimized()); prop->setProperty(property, "0"); b1 = communicator->propertyToProxy(propertyPrefix); test(!b1->ice_isCollocationOptimized()); prop->setProperty(property, ""); property = propertyPrefix + ".Context.c1"; test(b1->ice_getContext()["c1"].empty()); prop->setProperty(property, "TEST"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getContext()["c1"] == "TEST"); property = propertyPrefix + ".Context.c2"; test(b1->ice_getContext()["c2"].empty()); prop->setProperty(property, "TEST"); b1 = communicator->propertyToProxy(propertyPrefix); test(b1->ice_getContext()["c2"] == "TEST"); prop->setProperty(propertyPrefix + ".Context.c1", ""); prop->setProperty(propertyPrefix + ".Context.c2", ""); cout << "ok" << endl; cout << "testing proxyToProperty... " << flush; b1 = communicator->stringToProxy("test"); b1 = b1->ice_collocationOptimized(true); b1 = b1->ice_connectionCached(true); b1 = b1->ice_preferSecure(false); b1 = b1->ice_endpointSelection(Ice::Ordered); b1 = b1->ice_locatorCacheTimeout(100); b1 = b1->ice_invocationTimeout(1234); Ice::EncodingVersion v = { 1, 0 }; b1 = b1->ice_encodingVersion(v); Ice::ObjectPrx router = communicator->stringToProxy("router"); router = router->ice_collocationOptimized(false); router = router->ice_connectionCached(true); router = router->ice_preferSecure(true); router = router->ice_endpointSelection(Ice::Random); router = router->ice_locatorCacheTimeout(200); router = router->ice_invocationTimeout(1500); Ice::ObjectPrx locator = communicator->stringToProxy("locator"); locator = locator->ice_collocationOptimized(true); locator = locator->ice_connectionCached(false); locator = locator->ice_preferSecure(true); locator = locator->ice_endpointSelection(Ice::Random); locator = locator->ice_locatorCacheTimeout(300); locator = locator->ice_invocationTimeout(1500); locator = locator->ice_router(Ice::RouterPrx::uncheckedCast(router)); b1 = b1->ice_locator(Ice::LocatorPrx::uncheckedCast(locator)); Ice::PropertyDict proxyProps = communicator->proxyToProperty(b1, "Test"); test(proxyProps.size() == 21); test(proxyProps["Test"] == "test -t -e 1.0"); test(proxyProps["Test.CollocationOptimized"] == "1"); test(proxyProps["Test.ConnectionCached"] == "1"); test(proxyProps["Test.PreferSecure"] == "0"); test(proxyProps["Test.EndpointSelection"] == "Ordered"); test(proxyProps["Test.LocatorCacheTimeout"] == "100"); test(proxyProps["Test.InvocationTimeout"] == "1234"); test(proxyProps["Test.Locator"] == "locator -t -e " + Ice::encodingVersionToString(Ice::currentEncoding)); // Locator collocation optimization is always disabled. //test(proxyProps["Test.Locator.CollocationOptimized"] == "1"); test(proxyProps["Test.Locator.ConnectionCached"] == "0"); test(proxyProps["Test.Locator.PreferSecure"] == "1"); test(proxyProps["Test.Locator.EndpointSelection"] == "Random"); test(proxyProps["Test.Locator.LocatorCacheTimeout"] == "300"); test(proxyProps["Test.Locator.InvocationTimeout"] == "1500"); test(proxyProps["Test.Locator.Router"] == "router -t -e " + Ice::encodingVersionToString(Ice::currentEncoding)); test(proxyProps["Test.Locator.Router.CollocationOptimized"] == "0"); test(proxyProps["Test.Locator.Router.ConnectionCached"] == "1"); test(proxyProps["Test.Locator.Router.PreferSecure"] == "1"); test(proxyProps["Test.Locator.Router.EndpointSelection"] == "Random"); test(proxyProps["Test.Locator.Router.LocatorCacheTimeout"] == "200"); test(proxyProps["Test.Locator.Router.InvocationTimeout"] == "1500"); cout << "ok" << endl; cout << "testing ice_getCommunicator... " << flush; test(base->ice_getCommunicator() == communicator); cout << "ok" << endl; cout << "testing proxy methods... " << flush; test(communicator->identityToString(base->ice_identity(communicator->stringToIdentity("other"))->ice_getIdentity()) == "other"); test(base->ice_facet("facet")->ice_getFacet() == "facet"); test(base->ice_adapterId("id")->ice_getAdapterId() == "id"); test(base->ice_twoway()->ice_isTwoway()); test(base->ice_oneway()->ice_isOneway()); test(base->ice_batchOneway()->ice_isBatchOneway()); test(base->ice_datagram()->ice_isDatagram()); test(base->ice_batchDatagram()->ice_isBatchDatagram()); test(base->ice_secure(true)->ice_isSecure()); test(!base->ice_secure(false)->ice_isSecure()); test(base->ice_collocationOptimized(true)->ice_isCollocationOptimized()); test(!base->ice_collocationOptimized(false)->ice_isCollocationOptimized()); test(base->ice_preferSecure(true)->ice_isPreferSecure()); test(!base->ice_preferSecure(false)->ice_isPreferSecure()); test(base->ice_encodingVersion(Ice::Encoding_1_0)->ice_getEncodingVersion() == Ice::Encoding_1_0); test(base->ice_encodingVersion(Ice::Encoding_1_1)->ice_getEncodingVersion() == Ice::Encoding_1_1); test(base->ice_encodingVersion(Ice::Encoding_1_0)->ice_getEncodingVersion() != Ice::Encoding_1_1); try { base->ice_timeout(0); test(false); } catch(const IceUtil::IllegalArgumentException&) { } try { base->ice_timeout(-1); } catch(const IceUtil::IllegalArgumentException&) { test(false); } try { base->ice_timeout(-2); test(false); } catch(const IceUtil::IllegalArgumentException&) { } try { base->ice_invocationTimeout(0); test(false); } catch(const IceUtil::IllegalArgumentException&) { } try { base->ice_invocationTimeout(-1); base->ice_invocationTimeout(-2); } catch(const IceUtil::IllegalArgumentException&) { test(false); } try { base->ice_invocationTimeout(-3); test(false); } catch(const IceUtil::IllegalArgumentException&) { } try { base->ice_locatorCacheTimeout(0); } catch(const IceUtil::IllegalArgumentException&) { test(false); } try { base->ice_locatorCacheTimeout(-1); } catch(const IceUtil::IllegalArgumentException&) { test(false); } try { base->ice_locatorCacheTimeout(-2); test(false); } catch(const IceUtil::IllegalArgumentException&) { } cout << "ok" << endl; cout << "testing proxy comparison... " << flush; test(communicator->stringToProxy("foo") == communicator->stringToProxy("foo")); test(communicator->stringToProxy("foo") != communicator->stringToProxy("foo2")); test(communicator->stringToProxy("foo") < communicator->stringToProxy("foo2")); test(!(communicator->stringToProxy("foo2") < communicator->stringToProxy("foo"))); Ice::ObjectPrx compObj = communicator->stringToProxy("foo"); test(compObj->ice_facet("facet") == compObj->ice_facet("facet")); test(compObj->ice_facet("facet") != compObj->ice_facet("facet1")); test(compObj->ice_facet("facet") < compObj->ice_facet("facet1")); test(!(compObj->ice_facet("facet") < compObj->ice_facet("facet"))); test(compObj->ice_oneway() == compObj->ice_oneway()); test(compObj->ice_oneway() != compObj->ice_twoway()); test(compObj->ice_twoway() < compObj->ice_oneway()); test(!(compObj->ice_oneway() < compObj->ice_twoway())); test(compObj->ice_secure(true) == compObj->ice_secure(true)); test(compObj->ice_secure(false) != compObj->ice_secure(true)); test(compObj->ice_secure(false) < compObj->ice_secure(true)); test(!(compObj->ice_secure(true) < compObj->ice_secure(false))); test(compObj->ice_collocationOptimized(true) == compObj->ice_collocationOptimized(true)); test(compObj->ice_collocationOptimized(false) != compObj->ice_collocationOptimized(true)); test(compObj->ice_collocationOptimized(false) < compObj->ice_collocationOptimized(true)); test(!(compObj->ice_collocationOptimized(true) < compObj->ice_collocationOptimized(false))); test(compObj->ice_connectionCached(true) == compObj->ice_connectionCached(true)); test(compObj->ice_connectionCached(false) != compObj->ice_connectionCached(true)); test(compObj->ice_connectionCached(false) < compObj->ice_connectionCached(true)); test(!(compObj->ice_connectionCached(true) < compObj->ice_connectionCached(false))); test(compObj->ice_endpointSelection(Ice::Random) == compObj->ice_endpointSelection(Ice::Random)); test(compObj->ice_endpointSelection(Ice::Random) != compObj->ice_endpointSelection(Ice::Ordered)); test(compObj->ice_endpointSelection(Ice::Random) < compObj->ice_endpointSelection(Ice::Ordered)); test(!(compObj->ice_endpointSelection(Ice::Ordered) < compObj->ice_endpointSelection(Ice::Random))); test(compObj->ice_connectionId("id2") == compObj->ice_connectionId("id2")); test(compObj->ice_connectionId("id1") != compObj->ice_connectionId("id2")); test(compObj->ice_connectionId("id1") < compObj->ice_connectionId("id2")); test(!(compObj->ice_connectionId("id2") < compObj->ice_connectionId("id1"))); test(compObj->ice_connectionId("id1")->ice_getConnectionId() == "id1"); test(compObj->ice_connectionId("id2")->ice_getConnectionId() == "id2"); test(compObj->ice_compress(true) == compObj->ice_compress(true)); test(compObj->ice_compress(false) != compObj->ice_compress(true)); test(compObj->ice_compress(false) < compObj->ice_compress(true)); test(!(compObj->ice_compress(true) < compObj->ice_compress(false))); test(compObj->ice_timeout(20) == compObj->ice_timeout(20)); test(compObj->ice_timeout(10) != compObj->ice_timeout(20)); test(compObj->ice_timeout(10) < compObj->ice_timeout(20)); test(!(compObj->ice_timeout(20) < compObj->ice_timeout(10))); Ice::LocatorPrx loc1 = Ice::LocatorPrx::uncheckedCast(communicator->stringToProxy("loc1:default -p 10000")); Ice::LocatorPrx loc2 = Ice::LocatorPrx::uncheckedCast(communicator->stringToProxy("loc2:default -p 10000")); test(compObj->ice_locator(0) == compObj->ice_locator(0)); test(compObj->ice_locator(loc1) == compObj->ice_locator(loc1)); test(compObj->ice_locator(loc1) != compObj->ice_locator(0)); test(compObj->ice_locator(0) != compObj->ice_locator(loc2)); test(compObj->ice_locator(loc1) != compObj->ice_locator(loc2)); test(compObj->ice_locator(0) < compObj->ice_locator(loc1)); test(!(compObj->ice_locator(loc1) < compObj->ice_locator(0))); test(compObj->ice_locator(loc1) < compObj->ice_locator(loc2)); test(!(compObj->ice_locator(loc2) < compObj->ice_locator(loc1))); Ice::RouterPrx rtr1 = Ice::RouterPrx::uncheckedCast(communicator->stringToProxy("rtr1:default -p 10000")); Ice::RouterPrx rtr2 = Ice::RouterPrx::uncheckedCast(communicator->stringToProxy("rtr2:default -p 10000")); test(compObj->ice_router(0) == compObj->ice_router(0)); test(compObj->ice_router(rtr1) == compObj->ice_router(rtr1)); test(compObj->ice_router(rtr1) != compObj->ice_router(0)); test(compObj->ice_router(0) != compObj->ice_router(rtr2)); test(compObj->ice_router(rtr1) != compObj->ice_router(rtr2)); test(compObj->ice_router(0) < compObj->ice_router(rtr1)); test(!(compObj->ice_router(rtr1) < compObj->ice_router(0))); test(compObj->ice_router(rtr1) < compObj->ice_router(rtr2)); test(!(compObj->ice_router(rtr2) < compObj->ice_router(rtr1))); Ice::Context ctx1; ctx1["ctx1"] = "v1"; Ice::Context ctx2; ctx2["ctx2"] = "v2"; test(compObj->ice_context(Ice::Context()) == compObj->ice_context(Ice::Context())); test(compObj->ice_context(ctx1) == compObj->ice_context(ctx1)); test(compObj->ice_context(ctx1) != compObj->ice_context(Ice::Context())); test(compObj->ice_context(Ice::Context()) != compObj->ice_context(ctx2)); test(compObj->ice_context(ctx1) != compObj->ice_context(ctx2)); test(compObj->ice_context(ctx1) < compObj->ice_context(ctx2)); test(!(compObj->ice_context(ctx2) < compObj->ice_context(ctx1))); test(compObj->ice_preferSecure(true) == compObj->ice_preferSecure(true)); test(compObj->ice_preferSecure(true) != compObj->ice_preferSecure(false)); test(compObj->ice_preferSecure(false) < compObj->ice_preferSecure(true)); test(!(compObj->ice_preferSecure(true) < compObj->ice_preferSecure(false))); Ice::ObjectPrx compObj1 = communicator->stringToProxy("foo:tcp -h 127.0.0.1 -p 10000"); Ice::ObjectPrx compObj2 = communicator->stringToProxy("foo:tcp -h 127.0.0.1 -p 10001"); test(compObj1 != compObj2); test(compObj1 < compObj2); test(!(compObj2 < compObj1)); compObj1 = communicator->stringToProxy("foo@MyAdapter1"); compObj2 = communicator->stringToProxy("foo@MyAdapter2"); test(compObj1 != compObj2); test(compObj1 < compObj2); test(!(compObj2 < compObj1)); test(compObj1->ice_locatorCacheTimeout(20) == compObj1->ice_locatorCacheTimeout(20)); test(compObj1->ice_locatorCacheTimeout(10) != compObj1->ice_locatorCacheTimeout(20)); test(compObj1->ice_locatorCacheTimeout(10) < compObj1->ice_locatorCacheTimeout(20)); test(!(compObj1->ice_locatorCacheTimeout(20) < compObj1->ice_locatorCacheTimeout(10))); test(compObj1->ice_invocationTimeout(20) == compObj1->ice_invocationTimeout(20)); test(compObj1->ice_invocationTimeout(10) != compObj1->ice_invocationTimeout(20)); test(compObj1->ice_invocationTimeout(10) < compObj1->ice_invocationTimeout(20)); test(!(compObj1->ice_invocationTimeout(20) < compObj1->ice_invocationTimeout(10))); compObj1 = communicator->stringToProxy("foo:tcp -h 127.0.0.1 -p 1000"); compObj2 = communicator->stringToProxy("foo@MyAdapter1"); test(compObj1 != compObj2); test(compObj1 < compObj2); test(!(compObj2 < compObj1)); Ice::EndpointSeq endpts1 = communicator->stringToProxy("foo:tcp -h 127.0.0.1 -p 10000")->ice_getEndpoints(); Ice::EndpointSeq endpts2 = communicator->stringToProxy("foo:tcp -h 127.0.0.1 -p 10001")->ice_getEndpoints(); test(endpts1 != endpts2); test(endpts1 < endpts2); test(!(endpts2 < endpts1)); test(endpts1 == communicator->stringToProxy("foo:tcp -h 127.0.0.1 -p 10000")->ice_getEndpoints()); test(compObj1->ice_encodingVersion(Ice::Encoding_1_0) == compObj1->ice_encodingVersion(Ice::Encoding_1_0)); test(compObj1->ice_encodingVersion(Ice::Encoding_1_0) != compObj1->ice_encodingVersion(Ice::Encoding_1_1)); test(compObj->ice_encodingVersion(Ice::Encoding_1_0) < compObj->ice_encodingVersion(Ice::Encoding_1_1)); test(!(compObj->ice_encodingVersion(Ice::Encoding_1_1) < compObj->ice_encodingVersion(Ice::Encoding_1_0))); // // TODO: Ideally we should also test comparison of fixed proxies. // cout << "ok" << endl; cout << "testing checked cast... " << flush; Test::MyClassPrx cl = Test::MyClassPrx::checkedCast(base); test(cl); Test::MyDerivedClassPrx derived = Test::MyDerivedClassPrx::checkedCast(cl); test(derived); test(cl == base); test(derived == base); test(cl == derived); Ice::LocatorPrx loc = Ice::LocatorPrx::checkedCast(base); test(loc == 0); // // Upcasting // Test::MyClassPrx cl2 = Test::MyClassPrx::checkedCast(derived); Ice::ObjectPrx obj = Ice::ObjectPrx::checkedCast(derived); test(cl2); test(obj); test(cl2 == obj); test(cl2 == derived); // // Now with alternate API // cl = checkedCast<Test::MyClassPrx>(base); test(cl); derived = checkedCast<Test::MyDerivedClassPrx>(cl); test(derived); test(cl == base); test(derived == base); test(cl == derived); loc = checkedCast<Ice::LocatorPrx>(base); test(loc == 0); cl2 = checkedCast<Test::MyClassPrx>(derived); obj = checkedCast<Ice::ObjectPrx>(derived); test(cl2); test(obj); test(cl2 == obj); test(cl2 == derived); cout << "ok" << endl; cout << "testing checked cast with context... " << flush; Ice::Context c = cl->getContext(); test(c.size() == 0); c["one"] = "hello"; c["two"] = "world"; cl = Test::MyClassPrx::checkedCast(base, c); Ice::Context c2 = cl->getContext(); test(c == c2); // // Now with alternate API // cl = checkedCast<Test::MyClassPrx>(base); c = cl->getContext(); test(c.size() == 0); cl = checkedCast<Test::MyClassPrx>(base, c); c2 = cl->getContext(); test(c == c2); cout << "ok" << endl; cout << "testing encoding versioning... " << flush; string ref20 = "test -e 2.0:default -p 12010"; Test::MyClassPrx cl20 = Test::MyClassPrx::uncheckedCast(communicator->stringToProxy(ref20)); try { cl20->ice_ping(); test(false); } catch(const Ice::UnsupportedEncodingException&) { // Server 2.0 endpoint doesn't support 1.1 version. } string ref10 = "test -e 1.0:default -p 12010"; Test::MyClassPrx cl10 = Test::MyClassPrx::uncheckedCast(communicator->stringToProxy(ref10)); cl10->ice_ping(); cl10->ice_encodingVersion(Ice::Encoding_1_0)->ice_ping(); cl->ice_encodingVersion(Ice::Encoding_1_0)->ice_ping(); // 1.3 isn't supported but since a 1.3 proxy supports 1.1, the // call will use the 1.1 encoding string ref13 = "test -e 1.3:default -p 12010"; Test::MyClassPrx cl13 = Test::MyClassPrx::uncheckedCast(communicator->stringToProxy(ref13)); cl13->ice_ping(); cl13->end_ice_ping(cl13->begin_ice_ping()); try { // Send request with bogus 1.2 encoding. Ice::EncodingVersion version = { 1, 2 }; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->startEncapsulation(); out->endEncapsulation(); vector<Ice::Byte> inEncaps; out->finished(inEncaps); inEncaps[4] = version.major; inEncaps[5] = version.minor; vector<Ice::Byte> outEncaps; cl->ice_invoke("ice_ping", Ice::Normal, inEncaps, outEncaps); test(false); } catch(const Ice::UnknownLocalException& ex) { // The server thrown an UnsupportedEncodingException test(ex.unknown.find("UnsupportedEncodingException") != string::npos); } try { // Send request with bogus 2.0 encoding. Ice::EncodingVersion version = { 2, 0 }; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->startEncapsulation(); out->endEncapsulation(); vector<Ice::Byte> inEncaps; out->finished(inEncaps); inEncaps[4] = version.major; inEncaps[5] = version.minor; vector<Ice::Byte> outEncaps; cl->ice_invoke("ice_ping", Ice::Normal, inEncaps, outEncaps); test(false); } catch(const Ice::UnknownLocalException& ex) { // The server thrown an UnsupportedEncodingException test(ex.unknown.find("UnsupportedEncodingException") != string::npos); } cout << "ok" << endl; cout << "testing protocol versioning... " << flush; ref20 = "test -p 2.0:default -p 12010"; cl20 = Test::MyClassPrx::uncheckedCast(communicator->stringToProxy(ref20)); try { cl20->ice_ping(); test(false); } catch(const Ice::UnsupportedProtocolException&) { // Server 2.0 proxy doesn't support 1.0 version. } ref10 = "test -p 1.0:default -p 12010"; cl10 = Test::MyClassPrx::uncheckedCast(communicator->stringToProxy(ref10)); cl10->ice_ping(); // 1.3 isn't supported but since a 1.3 proxy supports 1.0, the // call will use the 1.0 encoding ref13 = "test -p 1.3:default -p 12010"; cl13 = Test::MyClassPrx::uncheckedCast(communicator->stringToProxy(ref13)); cl13->ice_ping(); cl13->end_ice_ping(cl13->begin_ice_ping()); cout << "ok" <<endl; cout << "testing opaque endpoints... " << flush; try { // Invalid -x option Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t 99 -v abc -x abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Missing -t and -v Ice::ObjectPrx p = communicator->stringToProxy("id:opaque"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Repeated -t Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t 1 -t 1 -v abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Repeated -v Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t 1 -v abc -v abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Missing -t Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -v abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Missing -v Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t 1"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Missing arg for -t Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t -v abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Missing arg for -v Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t 1 -v"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Not a number for -t Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t x -v abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // < 0 for -t Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t -1 -v abc"); test(false); } catch(const Ice::EndpointParseException&) { } try { // Invalid char for -v Ice::ObjectPrx p = communicator->stringToProxy("id:opaque -t 99 -v x?c"); test(false); } catch(const Ice::EndpointParseException&) { } // Legal TCP endpoint expressed as opaque endpoint Ice::ObjectPrx p1 = communicator->stringToProxy("test -e 1.1:opaque -e 1.0 -t 1 -v CTEyNy4wLjAuMeouAAAQJwAAAA=="); string pstr = communicator->proxyToString(p1); test(pstr == "test -t -e 1.1:tcp -h 127.0.0.1 -p 12010 -t 10000"); // Opaque endpoint encoded with 1.1 encoding. Ice::ObjectPrx p2 = communicator->stringToProxy("test -e 1.1:opaque -e 1.1 -t 1 -v CTEyNy4wLjAuMeouAAAQJwAAAA=="); test(communicator->proxyToString(p2) == "test -t -e 1.1:tcp -h 127.0.0.1 -p 12010 -t 10000"); if(communicator->getProperties()->getPropertyAsInt("Ice.IPv6") == 0) { // Working? #ifndef ICE_OS_WINRT const bool ssl = communicator->getProperties()->getProperty("Ice.Default.Protocol") == "ssl"; #else const bool ssl = true; #endif const bool tcp = communicator->getProperties()->getProperty("Ice.Default.Protocol") == "tcp"; if(tcp) { p1->ice_encodingVersion(Ice::Encoding_1_0)->ice_ping(); } // Two legal TCP endpoints expressed as opaque endpoints p1 = communicator->stringToProxy("test -e 1.0:opaque -e 1.0 -t 1 -v CTEyNy4wLjAuMeouAAAQJwAAAA==:opaque -e 1.0 -t 1 -v CTEyNy4wLjAuMusuAAAQJwAAAA=="); pstr = communicator->proxyToString(p1); test(pstr == "test -t -e 1.0:tcp -h 127.0.0.1 -p 12010 -t 10000:tcp -h 127.0.0.2 -p 12011 -t 10000"); // // Test that an SSL endpoint and a nonsense endpoint get written // back out as an opaque endpoint. // p1 = communicator->stringToProxy( "test -e 1.0:opaque -e 1.0 -t 2 -v CTEyNy4wLjAuMREnAAD/////AA==:opaque -e 1.0 -t 99 -v abch"); pstr = communicator->proxyToString(p1); if(ssl) { test(pstr == "test -t -e 1.0:ssl -h 127.0.0.1 -p 10001 -t infinite:opaque -t 99 -e 1.0 -v abch"); } else if(tcp) { test(pstr == "test -t -e 1.0:opaque -t 2 -e 1.0 -v CTEyNy4wLjAuMREnAAD/////AA==:opaque -t 99 -e 1.0 -v abch"); } // // Try to invoke on the endpoint to verify that we get a // NoEndpointException (or ConnectionRefusedException when // running with SSL). // if(ssl) { try { p1->ice_encodingVersion(Ice::Encoding_1_0)->ice_ping(); test(false); } catch(const Ice::ConnectFailedException&) { } } // // Test that the proxy with an SSL endpoint and a nonsense // endpoint (which the server doesn't understand either) can be // sent over the wire and returned by the server without losing // the opaque endpoints. // Ice::ObjectPrx p2 = derived->echo(p1); pstr = communicator->proxyToString(p2); if(ssl) { test(pstr == "test -t -e 1.0:ssl -h 127.0.0.1 -p 10001 -t infinite:opaque -t 99 -e 1.0 -v abch"); } else if(tcp) { test(pstr == "test -t -e 1.0:opaque -t 2 -e 1.0 -v CTEyNy4wLjAuMREnAAD/////AA==:opaque -t 99 -e 1.0 -v abch"); } } cout << "ok" << endl; return cl; }
Test::MyClassPrxPtr allTests(const Ice::CommunicatorPtr& communicator) { string ref = "test:" + getTestEndpoint(communicator, 0); Ice::ObjectPrxPtr base = communicator->stringToProxy(ref); test(base); Test::MyClassPrxPtr cl = ICE_CHECKED_CAST(Test::MyClassPrx, base); test(cl); Test::MyClassPrxPtr oneway = cl->ice_oneway(); Test::MyClassPrxPtr batchOneway = cl->ice_batchOneway(); cout << "testing ice_invoke... " << flush; { Ice::ByteSeq inEncaps, outEncaps; if(!oneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)) { test(false); } test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)); test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)); test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)); test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)); batchOneway->ice_flushBatchRequests(); Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->startEncapsulation(); out->write(testString); out->endEncapsulation(); out->finished(inEncaps); // ice_invoke if(cl->ice_invoke("opString", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); in->endEncapsulation(); } else { test(false); } // ice_invoke with array mapping pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size()); if(cl->ice_invoke("opString", ICE_ENUM(OperationMode, Normal), inPair, outEncaps)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); in->endEncapsulation(); } else { test(false); } } { Ice::ByteSeq inEncaps, outEncaps; if(cl->ice_invoke("opException", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps)) { test(false); } else { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); try { in->throwException(); } catch(const Test::MyException&) { } catch(...) { test(false); } in->endEncapsulation(); } } cout << "ok" << endl; cout << "testing asynchronous ice_invoke... " << flush; #ifdef ICE_CPP11_MAPPING { promise<bool> completed; Ice::ByteSeq inEncaps, outEncaps; oneway->ice_invoke_async( "opOneway", OperationMode::Normal, inEncaps, nullptr, [&](exception_ptr ex) { completed.set_exception(ex); }, [&](bool) { completed.set_value(true); }); test(completed.get_future().get()); } { promise<bool> completed; Ice::ByteSeq inEncaps, outEncaps; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->startEncapsulation(); out->write(testString); out->endEncapsulation(); out->finished(inEncaps); cl->ice_invoke_async("opString", OperationMode::Normal, inEncaps, [&](bool ok, vector<Ice::Byte> outParams) { outEncaps = move(outParams); completed.set_value(ok); }, [&](exception_ptr ex) { completed.set_exception(ex); }); test(completed.get_future().get()); Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); in->endEncapsulation(); } { promise<bool> completed; promise<void> sent; Ice::ByteSeq inEncaps, outEncaps; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->startEncapsulation(); out->write(testString); out->endEncapsulation(); out->finished(inEncaps); pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size()); cl->ice_invoke_async("opString", OperationMode::Normal, inPair, [&](bool ok, pair<const Ice::Byte*, const Ice::Byte*> outParams) { vector<Ice::Byte>(outParams.first, outParams.second).swap(outEncaps); completed.set_value(ok); }, [&](exception_ptr ex) { completed.set_exception(ex); }, [&](bool) { sent.set_value(); }); sent.get_future().get(); // Ensure sent callback was called test(completed.get_future().get()); Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); in->endEncapsulation(); } { promise<bool> completed; promise<void> sent; Ice::ByteSeq inEncaps, outEncaps; cl->ice_invoke_async("opException", OperationMode::Normal, inEncaps, [&](bool ok, vector<Ice::Byte> outParams) { outEncaps = move(outParams); completed.set_value(ok); }, [&](exception_ptr ex) { completed.set_exception(ex); }, [&](bool) { sent.set_value(); }); sent.get_future().get(); // Ensure sent callback was called test(!completed.get_future().get()); Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); try { in->throwException(); test(false); } catch(const Test::MyException&) { } catch(...) { test(false); } } #else void (::Callback::*nullEx)(const Ice::Exception&) = 0; void (::Callback::*nullExWC)(const Ice::Exception&, const CookiePtr&) = 0; { CookiePtr cookie = new Cookie(); Ice::ByteSeq inEncaps, outEncaps; Ice::AsyncResultPtr result = oneway->begin_ice_invoke("opOneway", Ice::Normal, inEncaps); if(!oneway->end_ice_invoke(outEncaps, result)) { test(false); } Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->startEncapsulation(); out->write(testString); out->endEncapsulation(); out->finished(inEncaps); // begin_ice_invoke with no callback result = cl->begin_ice_invoke("opString", Ice::Normal, inEncaps); if(cl->end_ice_invoke(outEncaps, result)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); in->endEncapsulation(); } else { test(false); }; // begin_ice_invoke with no callback and array mapping pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size()); result = cl->begin_ice_invoke("opString", Ice::Normal, inPair); if(cl->end_ice_invoke(outEncaps, result)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); in->endEncapsulation(); } else { test(false); }; // begin_ice_invoke with Callback ::CallbackPtr cb = new ::Callback(communicator, false); cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opString)); cb->check(); // begin_ice_invoke with Callback and Cookie cb = new ::Callback(communicator, true); cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opString), cookie); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke cb = new ::Callback(communicator, false); Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx); cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, d); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke with Cookie cb = new ::Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC); cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, d, cookie); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke and array mapping cb = new ::Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx); cl->begin_ice_invoke("opString", Ice::Normal, inPair, d); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke and array mapping with Cookie cb = new ::Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC); cl->begin_ice_invoke("opString", Ice::Normal, inPair, d, cookie); cb->check(); } { CookiePtr cookie = new Cookie(); Ice::ByteSeq inEncaps, outEncaps; // begin_ice_invoke with no callback Ice::AsyncResultPtr result = cl->begin_ice_invoke("opException", Ice::Normal, inEncaps); if(cl->end_ice_invoke(outEncaps, result)) { test(false); } else { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outEncaps); in->startEncapsulation(); try { in->throwException(); } catch(const Test::MyException&) { } catch(...) { test(false); } in->endEncapsulation(); } // begin_ice_invoke with Callback ::CallbackPtr cb = new ::Callback(communicator, false); cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opException)); cb->check(); // begin_ice_invoke with Callback and Cookie cb = new ::Callback(communicator, true); cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opException), cookie); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke cb = new ::Callback(communicator, false); Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionNC, nullEx); cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, d); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke with Cookie cb = new ::Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionWC, nullExWC); cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, d, cookie); cb->check(); } #endif cout << "ok" << endl; return cl; }
TestIntfPrx allTests(const Ice::CommunicatorPtr& communicator) { string ref = "test:default -p 12010"; Ice::ObjectPrx obj = communicator->stringToProxy(ref); test(obj); TestIntfPrx proxy = TestIntfPrx::checkedCast(obj); test(proxy); cout << "testing enum values... " << flush; test(static_cast<int>(benum1) == 0); test(static_cast<int>(benum2) == 1); test(static_cast<int>(benum3) == ByteConst1); test(static_cast<int>(benum4) == ByteConst1 + 1); test(static_cast<int>(benum5) == ShortConst1); test(static_cast<int>(benum6) == ShortConst1 + 1); test(static_cast<int>(benum7) == IntConst1); test(static_cast<int>(benum8) == IntConst1 + 1); test(static_cast<int>(benum9) == LongConst1); test(static_cast<int>(benum10) == LongConst1 + 1); test(static_cast<int>(benum11) == ByteConst2); test(static_cast<int>(senum1) == 3); test(static_cast<int>(senum2) == 4); test(static_cast<int>(senum3) == ByteConst1); test(static_cast<int>(senum4) == ByteConst1 + 1); test(static_cast<int>(senum5) == ShortConst1); test(static_cast<int>(senum6) == ShortConst1 + 1); test(static_cast<int>(senum7) == IntConst1); test(static_cast<int>(senum8) == IntConst1 + 1); test(static_cast<int>(senum9) == LongConst1); test(static_cast<int>(senum10) == LongConst1 + 1); test(static_cast<int>(senum11) == ShortConst2); test(static_cast<int>(ienum1) == 0); test(static_cast<int>(ienum2) == 1); test(static_cast<int>(ienum3) == ByteConst1); test(static_cast<int>(ienum4) == ByteConst1 + 1); test(static_cast<int>(ienum5) == ShortConst1); test(static_cast<int>(ienum6) == ShortConst1 + 1); test(static_cast<int>(ienum7) == IntConst1); test(static_cast<int>(ienum8) == IntConst1 + 1); test(static_cast<int>(ienum9) == LongConst1); test(static_cast<int>(ienum10) == LongConst1 + 1); test(static_cast<int>(ienum11) == IntConst2); test(static_cast<int>(ienum12) == LongConst2); test(static_cast<int>(red) == 0); test(static_cast<int>(green) == 1); test(static_cast<int>(blue) == 2); cout << "ok" << endl; cout << "testing enum streaming... " << flush; Ice::OutputStreamPtr out; Ice::ByteSeq bytes; const bool encoding_1_0 = communicator->getProperties()->getProperty("Ice.Default.EncodingVersion") == "1.0"; out = Ice::createOutputStream(communicator); out->write(benum11); out->finished(bytes); test(bytes.size() == 1); // ByteEnum should require one byte out = Ice::createOutputStream(communicator); out->write(senum11); out->finished(bytes); test(bytes.size() == (encoding_1_0 ? 2 : 5)); out = Ice::createOutputStream(communicator); out->write(ienum11); out->finished(bytes); test(bytes.size() == (encoding_1_0 ? 4 : 5)); out = Ice::createOutputStream(communicator); out->write(blue); out->finished(bytes); test(bytes.size() == 1); // SimpleEnum should require one byte cout << "ok" << endl; cout << "testing enum operations... " << flush; ByteEnum byteEnum; test(proxy->opByte(benum1, byteEnum) == benum1); test(byteEnum == benum1); test(proxy->opByte(benum11, byteEnum) == benum11); test(byteEnum == benum11); ShortEnum shortEnum; test(proxy->opShort(senum1, shortEnum) == senum1); test(shortEnum == senum1); test(proxy->opShort(senum11, shortEnum) == senum11); test(shortEnum == senum11); IntEnum intEnum; test(proxy->opInt(ienum1, intEnum) == ienum1); test(intEnum == ienum1); test(proxy->opInt(ienum11, intEnum) == ienum11); test(intEnum == ienum11); test(proxy->opInt(ienum12, intEnum) == ienum12); test(intEnum == ienum12); SimpleEnum s; test(proxy->opSimple(green, s) == green); test(s == green); cout << "ok" << endl; cout << "testing enum exceptions... " << flush; try { proxy->opByte(static_cast<ByteEnum>(-1), byteEnum); // Negative enumerators are not supported test(false); } catch(const Ice::MarshalException&) { } try { proxy->opByte(static_cast<ByteEnum>(127), byteEnum); // Invalid enumerator test(false); } catch(const Ice::MarshalException&) { } try { proxy->opShort(static_cast<ShortEnum>(-1), shortEnum); // Negative enumerators are not supported test(false); } catch(const Ice::MarshalException&) { } try { proxy->opShort(static_cast<ShortEnum>(0), shortEnum); // Invalid enumerator test(false); } catch(const Ice::MarshalException&) { } try { proxy->opShort(static_cast<ShortEnum>(32767), shortEnum); // Invalid enumerator test(false); } catch(const Ice::MarshalException&) { } try { proxy->opInt(static_cast<IntEnum>(-1), intEnum); // Negative enumerators are not supported test(false); } catch(const Ice::MarshalException&) { } cout << "ok" << endl; return proxy; }
int InvokeClient::run(int argc, char*[]) { if(argc > 1) { cerr << appName() << ": too many arguments" << endl; return EXIT_FAILURE; } Ice::ObjectPrx obj = communicator()->propertyToProxy("Printer.Proxy"); menu(); char ch; do { try { cout << "==> "; cin >> ch; if(ch == '1') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); out->write("The streaming API works!"); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printString", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '2') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); Demo::StringSeq arr; arr.push_back("The"); arr.push_back("streaming"); arr.push_back("API"); arr.push_back("works!"); out->write(arr); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printStringSequence", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '3') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); Demo::StringDict dict; dict["The"] = "streaming"; dict["API"] = "works!"; out->write(dict); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printDictionary", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '4') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); out->write(Demo::green); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printEnum", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '5') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); Demo::Structure s; s.name = "red"; s.value = Demo::red; out->write(s); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printStruct", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '6') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); Demo::StructureSeq arr; arr.push_back(Demo::Structure()); arr.back().name = "red"; arr.back().value = Demo::red; arr.push_back(Demo::Structure()); arr.back().name = "green"; arr.back().value = Demo::green; arr.push_back(Demo::Structure()); arr.back().name = "blue"; arr.back().value = Demo::blue; out->write(arr); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printStructSequence", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '7') { // // Marshal the in parameter. // Ice::ByteSeq inParams, outParams; Ice::OutputStreamPtr out = Ice::createOutputStream(communicator()); out->startEncapsulation(); Demo::CPtr c = new Demo::C; c->s.name = "blue"; c->s.value = Demo::blue; out->write(c); out->writePendingObjects(); out->endEncapsulation(); out->finished(inParams); // // Invoke operation. // if(!obj->ice_invoke("printClass", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; } } else if(ch == '8') { // // Invoke operation. // Ice::ByteSeq inParams, outParams; if(!obj->ice_invoke("getValues", Ice::Normal, inParams, outParams)) { cout << "Unknown user exception" << endl; continue; } // // Unmarshal the results. // Ice::InputStreamPtr in = Ice::createInputStream(communicator(), outParams); in->startEncapsulation(); Demo::CPtr c; in->read(c); string str; in->read(str); in->readPendingObjects(); in->endEncapsulation(); cout << "Got string `" << str << "' and class: s.name=" << c->s.name << ", s.value=" << c->s.value << endl; } else if(ch == '9') { // // Invoke operation. // Ice::ByteSeq inParams, outParams; if(obj->ice_invoke("throwPrintFailure", Ice::Normal, inParams, outParams)) { cout << "Expected exception" << endl; continue; } Ice::InputStreamPtr in = Ice::createInputStream(communicator(), outParams); in->startEncapsulation(); try { in->throwException(); } catch(const Demo::PrintFailure&) { // Expected. } catch(const Ice::UserException&) { cout << "Unknown user exception" << endl; } in->endEncapsulation(); } else if(ch == 's') { Ice::ByteSeq inParams, outParams; obj->ice_invoke("shutdown", Ice::Normal, inParams, outParams); } else if(ch == 'x') { // Nothing to do. } else if(ch == '?') { menu(); } else { cout << "unknown command `" << ch << "'" << endl; menu(); } } catch(const Ice::Exception& ex) { cerr << ex << endl; } } while(cin.good() && ch != 'x'); return EXIT_SUCCESS; }
Test::MyClassPrx allTests(const Ice::CommunicatorPtr& communicator) { string ref = "test:default -p 12010"; Ice::ObjectPrx base = communicator->stringToProxy(ref); test(base); Test::MyClassPrx cl = Test::MyClassPrx::checkedCast(base); test(cl); Test::MyClassPrx oneway = cl->ice_oneway(); void (Callback::*nullEx)(const Ice::Exception&) = 0; void (Callback::*nullExWC)(const Ice::Exception&, const CookiePtr&) = 0; cout << "testing ice_invoke... " << flush; { Ice::ByteSeq inParams, outParams; if(!oneway->ice_invoke("opOneway", Ice::Normal, inParams, outParams)) { test(false); } Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->write(testString); out->finished(inParams); // ice_invoke if(cl->ice_invoke("opString", Ice::Normal, inParams, outParams)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outParams); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); } else { test(false); } // ice_invoke with array mapping pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inParams[0], &inParams[0] + inParams.size()); if(cl->ice_invoke("opString", Ice::Normal, inPair, outParams)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outParams); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); } else { test(false); } } { Ice::ByteSeq inParams, outParams; if(cl->ice_invoke("opException", Ice::Normal, inParams, outParams)) { test(false); } else { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outParams); try { in->throwException(); } catch(const Test::MyException&) { } catch(...) { test(false); } } } cout << "ok" << endl; cout << "testing asynchronous ice_invoke... " << flush; { CookiePtr cookie = new Cookie(); Ice::ByteSeq inParams, outParams; Ice::AsyncResultPtr result = oneway->begin_ice_invoke("opOneway", Ice::Normal, inParams); if(!oneway->end_ice_invoke(outParams, result)) { test(false); } Ice::OutputStreamPtr out = Ice::createOutputStream(communicator); out->write(testString); out->finished(inParams); // begin_ice_invoke with no callback result = cl->begin_ice_invoke("opString", Ice::Normal, inParams); if(cl->end_ice_invoke(outParams, result)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outParams); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); } else { test(false); }; // begin_ice_invoke with no callback and array mapping pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inParams[0], &inParams[0] + inParams.size()); result = cl->begin_ice_invoke("opString", Ice::Normal, inPair); if(cl->end_ice_invoke(outParams, result)) { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outParams); string s; in->read(s); test(s == testString); in->read(s); test(s == testString); } else { test(false); }; // begin_ice_invoke with Callback CallbackPtr cb = new Callback(communicator, false); cl->begin_ice_invoke("opString", Ice::Normal, inParams, Ice::newCallback(cb, &Callback::opString)); cb->check(); // begin_ice_invoke with Callback and Cookie cb = new Callback(communicator, true); cl->begin_ice_invoke("opString", Ice::Normal, inParams, Ice::newCallback(cb, &Callback::opString), cookie); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke cb = new Callback(communicator, false); Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx); cl->begin_ice_invoke("opString", Ice::Normal, inParams, d); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke with Cookie cb = new Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC); cl->begin_ice_invoke("opString", Ice::Normal, inParams, d, cookie); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke and array mapping cb = new Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx); cl->begin_ice_invoke("opString", Ice::Normal, inPair, d); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke and array mapping with Cookie cb = new Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC); cl->begin_ice_invoke("opString", Ice::Normal, inPair, d, cookie); cb->check(); } { CookiePtr cookie = new Cookie(); Ice::ByteSeq inParams, outParams; // begin_ice_invoke with no callback Ice::AsyncResultPtr result = cl->begin_ice_invoke("opException", Ice::Normal, inParams); if(cl->end_ice_invoke(outParams, result)) { test(false); } else { Ice::InputStreamPtr in = Ice::createInputStream(communicator, outParams); try { in->throwException(); } catch(const Test::MyException&) { } catch(...) { test(false); } } // begin_ice_invoke with Callback CallbackPtr cb = new Callback(communicator, false); cl->begin_ice_invoke("opException", Ice::Normal, inParams, Ice::newCallback(cb, &Callback::opException)); cb->check(); // begin_ice_invoke with Callback and Cookie cb = new Callback(communicator, true); cl->begin_ice_invoke("opException", Ice::Normal, inParams, Ice::newCallback(cb, &Callback::opException), cookie); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke cb = new Callback(communicator, false); Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionNC, nullEx); cl->begin_ice_invoke("opException", Ice::Normal, inParams, d); cb->check(); // begin_ice_invoke with Callback_Object_ice_invoke with Cookie cb = new Callback(communicator, false); d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionWC, nullExWC); cl->begin_ice_invoke("opException", Ice::Normal, inParams, d, cookie); cb->check(); } cout << "ok" << endl; return cl; }