bool
NodeService::startImpl(int argc, char* argv[], int& status)
{
bool nowarn = false;
bool readonly = false;
string initFromReplica;
string desc;
vector<string> targets;
for(int i = 1; i < argc; ++i)
{
if(strcmp(argv[i], "-h") == 0 || strcmp(argv[i], "--help") == 0)
{
usage(argv[0]);
status = EXIT_SUCCESS;
return false;
}
else if(strcmp(argv[i], "-v") == 0 || strcmp(argv[i], "--version") == 0)
{
print(ICE_STRING_VERSION);
status = EXIT_SUCCESS;
return false;
}
else if(strcmp(argv[i], "--nowarn") == 0)
{
nowarn = true;
}
else if(strcmp(argv[i], "--readonly") == 0)
{
readonly = true;
}
else if(strcmp(argv[i], "--initdb-from-replica") == 0)
{
if(i + 1 >= argc)
{
error("missing replica argument for option `" + string(argv[i]) + "'");
usage(argv[0]);
return false;
}
initFromReplica = argv[++i];
}
else if(strcmp(argv[i], "--deploy") == 0)
{
if(i + 1 >= argc)
{
error("missing descriptor argument for option `" + string(argv[i]) + "'");
usage(argv[0]);
return false;
}
desc = argv[++i];
while(i + 1 < argc && argv[++i][0] != '-')
{
targets.push_back(argv[i]);
}
}
else
{
error("invalid option: `" + string(argv[i]) + "'");
usage(argv[0]);
return false;
}
}
PropertiesPtr properties = communicator()->getProperties();
//
// Disable server idle time. Otherwise, the adapter would be
// shutdown prematurely and the deactivation would fail.
// Deactivation of the node relies on the object adapter
// to be active since it needs to terminate servers.
//
// TODO: implement Ice.ServerIdleTime in the activator
// termination listener instead?
//
properties->setProperty("Ice.ServerIdleTime", "0");
//
// Warn the user that setting Ice.ThreadPool.Server isn't useful.
//
if(!nowarn && properties->getPropertyAsIntWithDefault("Ice.ThreadPool.Server.Size", 0) > 0)
{
Warning out(communicator()->getLogger());
out << "setting `Ice.ThreadPool.Server.Size' is not useful, ";
out << "you should set individual adapter thread pools instead.";
}
setupThreadPool(properties, "IceGrid.Node.ThreadPool", 1, 100);
//
// Create the activator.
//
TraceLevelsPtr traceLevels = new TraceLevels(communicator(), "IceGrid.Node");
_activator = new Activator(traceLevels);
//
// Collocate the IceGrid registry if we need to.
//
if(properties->getPropertyAsInt("IceGrid.Node.CollocateRegistry") > 0)
{
_registry = new CollocatedRegistry(communicator(), _activator, nowarn, readonly, initFromReplica);
if(!_registry->start())
{
return false;
}
//
// Set the default locator property to point to the collocated
// locator (this property is passed by the activator to each
// activated server). The default locator is also needed by
// the node session manager.
//
if(properties->getProperty("Ice.Default.Locator").empty())
{
Identity locatorId;
locatorId.category = properties->getPropertyWithDefault("IceGrid.InstanceName", "IceGrid");
locatorId.name = "Locator";
string endpoints = properties->getProperty("IceGrid.Registry.Client.Endpoints");
string locPrx = "\"" + communicator()->identityToString(locatorId) + "\" :" + endpoints;
communicator()->setDefaultLocator(Ice::LocatorPrx::uncheckedCast(communicator()->stringToProxy(locPrx)));
properties->setProperty("Ice.Default.Locator", locPrx);
}
}
else if(properties->getProperty("Ice.Default.Locator").empty())
{
error("property `Ice.Default.Locator' is not set");
return false;
}
//
// Initialize the database environment (first setup the directory structure if needed).
//
string dataPath = properties->getProperty("IceGrid.Node.Data");
string dbPath;
if(dataPath.empty())
{
error("property `IceGrid.Node.Data' is not set");
return false;
}
else
{
if(!IceUtilInternal::directoryExists(dataPath))
{
FileException ex(__FILE__, __LINE__);
ex.path = dataPath;
ex.error = IceInternal::getSystemErrno();
ServiceError err(this);
err << "property `IceGrid.Node.Data' is set to an invalid path:\n" << ex;
return false;
}
//
// Creates subdirectories.
//
if(dataPath[dataPath.length() - 1] != '/')
{
dataPath += "/";
}
IcePatch2::createDirectory(dataPath + "servers");
IcePatch2::createDirectory(dataPath + "tmp");
IcePatch2::createDirectory(dataPath + "distrib");
#ifdef _WIN32
//
// Make sure these directories are not indexed by the Windows
// indexing service (which can cause random "Access Denied"
// errors if indexing runs at the same time as the node is
// creating/deleting files).
//
try
{
setNoIndexingAttribute(dataPath + "servers");
setNoIndexingAttribute(dataPath + "tmp");
setNoIndexingAttribute(dataPath + "distrib");
}
catch(const FileException& ex)
{
if(!nowarn)
{
Warning out(communicator()->getLogger());
out << "couldn't disable file indexing:\n" << ex;
}
}
#endif
}
//
// Check that required properties are set and valid.
//
if(properties->getProperty("IceGrid.Node.Endpoints").empty())
{
error("property `IceGrid.Node.Endpoints' is not set");
return false;
}
string name = properties->getProperty("IceGrid.Node.Name");
if(name.empty())
{
error("property `IceGrid.Node.Name' is not set");
return false;
}
//
// Setup the Freeze database environment home directory. The name of the database
// environment for the IceGrid node is the name of the node.
//
properties->setProperty("Freeze.DbEnv." + name + ".DbHome", dbPath);
//
// Create the node object adapter.
//
_adapter = communicator()->createObjectAdapter("IceGrid.Node");
//
// Setup the user account mapper if configured.
//
string mapperProperty = "IceGrid.Node.UserAccountMapper";
string mapperPropertyValue = properties->getProperty(mapperProperty);
UserAccountMapperPrx mapper;
if(!mapperPropertyValue.empty())
{
try
{
mapper = UserAccountMapperPrx::uncheckedCast(communicator()->propertyToProxy(mapperProperty));
}
catch(const std::exception& ex)
{
ServiceError err(this);
err << "user account mapper `" << mapperProperty << "' is invalid:\n" << ex;
return false;
}
}
else
{
string userAccountFileProperty = properties->getProperty("IceGrid.Node.UserAccounts");
if(!userAccountFileProperty.empty())
{
try
{
Ice::ObjectPrx object = _adapter->addWithUUID(new FileUserAccountMapperI(userAccountFileProperty));
object = object->ice_collocationOptimized(true);
mapper = UserAccountMapperPrx::uncheckedCast(object);
}
catch(const std::string& msg)
{
error(msg);
return false;
}
}
}
//
// Create a new timer to handle server activation/deactivation timeouts.
//
_timer = new IceUtil::Timer();
//
// The IceGrid instance name.
//
const string instanceName = communicator()->getDefaultLocator()->ice_getIdentity().category;
_sessions.reset(new NodeSessionManager(communicator()));
//
// Create the server factory. The server factory creates persistent objects
// for the server and server adapter. It also takes care of installing the
// evictors and object factories necessary to store these objects.
//
Identity id = communicator()->stringToIdentity(instanceName + "/Node-" + name);
NodePrx nodeProxy = NodePrx::uncheckedCast(_adapter->createProxy(id));
_node = new NodeI(_adapter, *_sessions, _activator, _timer, traceLevels, nodeProxy, name, mapper);
_adapter->add(_node, nodeProxy->ice_getIdentity());
_adapter->addServantLocator(new DefaultServantLocator(new NodeServerAdminRouter(_node)),
_node->getServerAdminCategory());
//
// Start the platform info thread if needed.
//
_node->getPlatformInfo().start();
//
// Ensures that the locator is reachable.
//
if(!nowarn)
{
try
{
communicator()->getDefaultLocator()->ice_timeout(1000)->ice_ping();
}
catch(const Ice::LocalException& ex)
{
Warning out(communicator()->getLogger());
out << "couldn't reach the IceGrid registry (this is expected ";
out << "if it's down, otherwise please check the value of the ";
out << "Ice.Default.Locator property):\n" << ex;
}
}
//
// Create the node sessions with the registries.
//
_sessions->create(_node);
//
// In some tests, we deploy icegridnodes using IceGrid:
//
if(properties->getProperty("Ice.Admin.Endpoints") != "")
{
//
// Replace Process facet and create Admin object
//
try
{
ProcessPtr origProcess = ProcessPtr::dynamicCast(communicator()->removeAdminFacet("Process"));
communicator()->addAdminFacet(new ProcessI(_activator, origProcess), "Process");
communicator()->getAdmin();
}
catch(const Ice::NotRegisteredException&)
{
//
// Some plug-in removed the Process facet, so we don't replace it.
// (unlikely error though)
//
}
}
//
// Start the activator.
//
_activator->start();
//
// Activate the adapter.
//
_adapter->activate();
//
// Notify the node session manager that the node can start
// accepting incoming connections.
//
_sessions->activate();
string bundleName = properties->getProperty("IceGrid.Node.PrintServersReady");
if(!bundleName.empty() || !desc.empty())
{
enableInterrupt();
if(!_sessions->waitForCreate())
{
//
// Create was interrupted, return true as if the service was
// correctly initiliazed to make sure it's properly stopped.
//
return true;
}
disableInterrupt();
}
//
// Deploy application if a descriptor is passed as a command-line option.
//
if(!desc.empty())
{
try
{
Ice::Identity regId;
regId.category = instanceName;
regId.name = "Registry";
RegistryPrx registry = RegistryPrx::checkedCast(communicator()->getDefaultLocator()->findObjectById(regId));
if(!registry)
{
throw "invalid registry";
}
registry = registry->ice_preferSecure(true); // Use SSL if available.
IceGrid::AdminSessionPrx session;
if(communicator()->getProperties()->getPropertyAsInt("IceGridAdmin.AuthenticateUsingSSL"))
{
session = registry->createAdminSessionFromSecureConnection();
}
else
{
string id = communicator()->getProperties()->getProperty("IceGridAdmin.Username");
string password = communicator()->getProperties()->getProperty("IceGridAdmin.Password");
while(id.empty())
{
cout << "user id: " << flush;
getline(cin, id);
id = IceUtilInternal::trim(id);
}
if(password.empty())
{
cout << "password: "******"failed to deploy application `" << desc << "':\n" << ex;
}
catch(const AccessDeniedException& ex)
{
ServiceWarning warn(this);
warn << "failed to deploy application `" << desc << "':\n"
<< "registry database is locked by `" << ex.lockUserId << "'";
}
catch(const std::exception& ex)
{
ServiceWarning warn(this);
warn << "failed to deploy application `" << desc << "':\n" << ex;
}
catch(const string& reason)
{
ServiceWarning warn(this);
warn << "failed to deploy application `" << desc << "':\n" << reason;
}
}
if(!bundleName.empty())
{
print(bundleName + " ready");
}
return true;
}
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;
}
void
PluginI::initialize()
{
Ice::PropertiesPtr properties = _communicator->getProperties();
bool ipv4 = properties->getPropertyAsIntWithDefault("Ice.IPv4", 1) > 0;
bool preferIPv6 = properties->getPropertyAsInt("Ice.PreferIPv6Address") > 0;
string address;
if(ipv4 && !preferIPv6)
{
address = properties->getPropertyWithDefault("IceDiscovery.Address", "239.255.0.1");
}
else
{
address = properties->getPropertyWithDefault("IceDiscovery.Address", "ff15::1");
}
int port = properties->getPropertyAsIntWithDefault("IceDiscovery.Port", 4061);
string interface = properties->getProperty("IceDiscovery.Interface");
if(properties->getProperty("IceDiscovery.Multicast.Endpoints").empty())
{
ostringstream os;
os << "udp -h \"" << address << "\" -p " << port;
if(!interface.empty())
{
os << " --interface \"" << interface << "\"";
}
properties->setProperty("IceDiscovery.Multicast.Endpoints", os.str());
}
if(properties->getProperty("IceDiscovery.Reply.Endpoints").empty())
{
ostringstream os;
os << "udp";
if(!interface.empty())
{
os << " -h \"" << interface << "\"";
}
properties->setProperty("IceDiscovery.Reply.Endpoints", os.str());
}
if(properties->getProperty("IceDiscovery.Locator.Endpoints").empty())
{
properties->setProperty("IceDiscovery.Locator.AdapterId", IceUtil::generateUUID());
}
_multicastAdapter = _communicator->createObjectAdapter("IceDiscovery.Multicast");
_replyAdapter = _communicator->createObjectAdapter("IceDiscovery.Reply");
_locatorAdapter = _communicator->createObjectAdapter("IceDiscovery.Locator");
//
// Setup locatory registry.
//
LocatorRegistryIPtr locatorRegistry = new LocatorRegistryI(_communicator);
Ice::LocatorRegistryPrx locatorRegistryPrx =
Ice::LocatorRegistryPrx::uncheckedCast(_locatorAdapter->addWithUUID(locatorRegistry));
string lookupEndpoints = properties->getProperty("IceDiscovery.Lookup");
if(lookupEndpoints.empty())
{
ostringstream os;
os << "udp -h \"" << address << "\" -p " << port;
if(!interface.empty())
{
os << " --interface \"" << interface << "\"";
}
lookupEndpoints = os.str();
}
Ice::ObjectPrx lookupPrx = _communicator->stringToProxy("IceDiscovery/Lookup -d:" + lookupEndpoints);
lookupPrx = lookupPrx->ice_collocationOptimized(false); // No collocation optimization for the multicast proxy!
try
{
// Ensure we can establish a connection to the multicast proxy
// but don't block.
Ice::AsyncResultPtr result = lookupPrx->begin_ice_getConnection();
if(result->sentSynchronously())
{
lookupPrx->end_ice_getConnection(result);
}
}
catch(const Ice::LocalException& ex)
{
ostringstream os;
os << "IceDiscovery is unable to establish a multicast connection:\n";
os << "proxy = " << lookupPrx << '\n';
os << ex;
throw Ice::PluginInitializationException(__FILE__, __LINE__, os.str());
}
//
// Add lookup and lookup reply Ice objects
//
_lookup = new LookupI(locatorRegistry, LookupPrx::uncheckedCast(lookupPrx), properties);
_multicastAdapter->add(_lookup, _communicator->stringToIdentity("IceDiscovery/Lookup"));
Ice::ObjectPrx lookupReply = _replyAdapter->addWithUUID(new LookupReplyI(_lookup))->ice_datagram();
_lookup->setLookupReply(LookupReplyPrx::uncheckedCast(lookupReply));
//
// Setup locator on the communicator.
//
Ice::ObjectPrx loc = _locatorAdapter->addWithUUID(new LocatorI(_lookup, locatorRegistryPrx));
_communicator->setDefaultLocator(Ice::LocatorPrx::uncheckedCast(loc));
_multicastAdapter->activate();
_replyAdapter->activate();
_locatorAdapter->activate();
}