public void invoke(
org.omg.CORBA.ServerRequest request) { // Ensure that the operation name is correct
System.out.println("invocato metodo " + request.operation() + " in AccounManagerImpl");
Float balance;
String name = new String(_object_id());
if (request.operation().equals("open")) {
org.omg.CORBA.NVList params = orb.create_list(1);
org.omg.CORBA.Any any = orb.create_any();
any.insert_string(new String(""));
params.add_value("nomeFile", any, org.omg.CORBA.ARG_IN.value);
request.arguments(params);
try {
name = params.item(0).value().extract_string();
} catch (Exception e) {
System.out.println("ERRORE:");
e.printStackTrace();
}
// Invoke the actual implementation and fill out the result
org.omg.CORBA.Object account = open(name);
org.omg.CORBA.Any result = orb.create_any();
result.insert_Object(account);
request.set_result(result);
} else {
System.out.println("Errore nell'ivocazione dinamica del metodo open");
throw new org.omg.CORBA.BAD_PARAM();
}
}
/**
* Return a top-level {@code IOP:TaggedComponent} to be stuffed into an IOR, containing a {@code
* CSIIOP}. {@code CompoundSecMechList}, tagged as {@code TAG_CSI_SEC_MECH_LIST}. Only one such
* component can exist inside an IOR.
*
* <p>Should be called with non-null metadata, in which case we probably don't want to include
* security info in the IOR.
*
* @param metadata the metadata object that contains the CSIv2 security configuration info.
* @param codec the {@code Codec} used to encode the CSIv2 security component.
* @param sslPort an {@code int} representing the SSL port.
* @param orb a reference to the running {@code ORB}.
* @return a {@code TaggedComponent} representing the encoded CSIv2 security component.
*/
public static TaggedComponent createSecurityTaggedComponent(
IORSecurityConfigMetaData metadata, Codec codec, int sslPort, ORB orb) {
if (metadata == null) {
JacORBLogger.ROOT_LOGGER.createSecurityTaggedComponentWithNullMetaData();
return null;
}
TaggedComponent tc;
// get the the supported security mechanisms.
CompoundSecMech[] mechList = createCompoundSecMechanisms(metadata, codec, sslPort, orb);
// the above is wrapped into a CSIIOP.CompoundSecMechList structure, which is NOT a
// CompoundSecMech[].
// we don't support stateful/reusable security contexts (false).
CompoundSecMechList csmList = new CompoundSecMechList(false, mechList);
// finally, the CompoundSecMechList must be encoded as a TaggedComponent
try {
Any any = orb.create_any();
CompoundSecMechListHelper.insert(any, csmList);
byte[] b = codec.encode_value(any);
tc = new TaggedComponent(TAG_CSI_SEC_MECH_LIST.value, b);
} catch (InvalidTypeForEncoding e) {
throw JacORBLogger.ROOT_LOGGER.unexpectedException(e);
}
return tc;
}
public KerberosServer(String[] args) {
try {
// initialize the ORB and POA.
orb = ORB.init(args, null);
POA rootPOA = (POA) orb.resolve_initial_references("RootPOA");
org.omg.CORBA.Policy[] policies = new org.omg.CORBA.Policy[3];
policies[0] = rootPOA.create_id_assignment_policy(IdAssignmentPolicyValue.USER_ID);
policies[1] = rootPOA.create_lifespan_policy(LifespanPolicyValue.PERSISTENT);
Any sasAny = orb.create_any();
SASPolicyValuesHelper.insert(
sasAny,
new SASPolicyValues(EstablishTrustInClient.value, EstablishTrustInClient.value, true));
policies[2] = orb.create_policy(SAS_POLICY_TYPE.value, sasAny);
POA securePOA = rootPOA.create_POA("SecurePOA", rootPOA.the_POAManager(), policies);
rootPOA.the_POAManager().activate();
// create object and write out IOR
securePOA.activate_object_with_id("SecureObject".getBytes(), this);
org.omg.CORBA.Object demo = securePOA.servant_to_reference(this);
PrintWriter pw = new PrintWriter(new FileWriter(args[0]));
pw.println(orb.object_to_string(demo));
pw.flush();
pw.close();
} catch (Exception e) {
e.printStackTrace();
}
}
/**
* Return a top-level {@code IOP:TaggedComponent} to be stuffed into an IOR, containing a {@code
* CSIIOP}. {@code CompoundSecMechList}, tagged as {@code TAG_CSI_SEC_MECH_LIST}. Only one such
* component can exist inside an IOR.
*
* <p>Should be called with non-null metadata, in which case we probably don't want to include
* security info in the IOR.
*
* @param metadata the metadata object that contains the CSIv2 security configuration info.
* @param codec the {@code Codec} used to encode the CSIv2 security component.
* @param sslPort an {@code int} representing the SSL port.
* @param orb a reference to the running {@code ORB}.
* @return a {@code TaggedComponent} representing the encoded CSIv2 security component.
*/
public static TaggedComponent createSecurityTaggedComponent(
IORSecurityConfigMetadata metadata, Codec codec, int sslPort, ORB orb) {
if (metadata == null) {
log.debugf("createSecurityTaggedComponent() called with null metadata");
return null;
}
TaggedComponent tc;
// get the the supported security mechanisms.
CompoundSecMech[] mechList = createCompoundSecMechanisms(metadata, codec, sslPort, orb);
// the above is wrapped into a CSIIOP.CompoundSecMechList structure, which is NOT a
// CompoundSecMech[].
// we don't support stateful/reusable security contexts (false).
CompoundSecMechList csmList = new CompoundSecMechList(false, mechList);
// finally, the CompoundSecMechList must be encoded as a TaggedComponent
try {
Any any = orb.create_any();
CompoundSecMechListHelper.insert(any, csmList);
byte[] b = codec.encode_value(any);
tc = new TaggedComponent(TAG_CSI_SEC_MECH_LIST.value, b);
} catch (InvalidTypeForEncoding e) {
log.warn("Caught unexcepted exception while encoding CompoundSecMechList", e);
throw new RuntimeException(e);
}
return tc;
}
@Override
public Any toAny() {
ORB orb = ORB.init();
if (numbers.length == 2) {
complexDouble value = toCFType();
Any any = orb.create_any();
complexDoubleHelper.insert(any, value);
return any;
} else {
Any retVal = orb.create_any();
Any[] value = new Any[numbers.length];
for (int i = 0; i < numbers.length; i++) {
value[i] = orb.create_any();
value[i].insert_double(numbers[i]);
}
AnySeqHelper.insert(retVal, value);
return retVal;
}
}
/**
* Create a transport mechanism {@code TaggedComponent} to be stuffed into a {@code
* CompoundSecMech}.
*
* <p>If no {@code TransportConfig} metadata is specified, or ssl port is negative, or the
* specified metadata indicates that transport config is not supported, then a {@code
* TAG_NULL_TAG} (empty) {@code TaggedComponent} will be returned.
*
* <p>Otherwise a {@code CSIIOP.TLS_SEC_TRANS}, tagged as {@code TAG_TLS_SEC_TRANS} will be
* returned, indicating support for TLS/SSL as a CSIv2 transport mechanism.
*
* <p>Multiple {@code TransportAddress} may be included in the SSL info (host/port pairs), but we
* only include one.
*
* @param tconfig the transport configuration metadata.
* @param codec the {@code Codec} used to encode the transport configuration.
* @param sslPort an {@code int} representing the SSL port.
* @param orb a reference to the running {@code ORB}.
* @return the constructed {@code TaggedComponent}.
*/
public static TaggedComponent createTransportMech(
TransportConfig tconfig, Codec codec, int sslPort, ORB orb) {
TaggedComponent tc;
// what we support and require as a target.
int support = 0;
int require = 0;
if (tconfig != null) {
require = createTargetRequires(tconfig);
support = createTargetSupports(tconfig);
}
if (tconfig == null || support == 0 || sslPort < 0) {
// no support for transport security.
tc = new TaggedComponent(TAG_NULL_TAG.value, new byte[0]);
} else {
// my ip address.
String host;
try {
host = InetAddress.getLocalHost().getHostAddress();
} catch (java.net.UnknownHostException e) {
host = "127.0.0.1";
}
// this will create only one transport address.
TransportAddress[] taList = createTransportAddress(host, sslPort);
TLS_SEC_TRANS tst = new TLS_SEC_TRANS((short) support, (short) require, taList);
// The tricky part, we must encode TLS_SEC_TRANS into an octet sequence.
try {
Any any = orb.create_any();
TLS_SEC_TRANSHelper.insert(any, tst);
byte[] b = codec.encode_value(any);
tc = new TaggedComponent(TAG_TLS_SEC_TRANS.value, b);
} catch (InvalidTypeForEncoding e) {
log.warn("Caught unexcepted exception while encoding TLS_SEC_TRANS", e);
throw new RuntimeException(e);
}
}
return tc;
}
/**
* Return a top-level {@code IOP::TaggedComponent} to be stuffed into an IOR, containing a
* structure {@code SSLIOP::SSL}, tagged as {@code TAG_SSL_SEC_TRANS}.
*
* <p>Should be called with non-null metadata, in which case we probably don't want to include
* security info in the IOR.
*
* @param metadata the metadata object that contains the SSL configuration info.
* @param codec the {@code Codec} used to encode the SSL component.
* @param sslPort an {@code int} representing the SSL port.
* @param orb a reference to the running {@code ORB}.
* @return a {@code TaggedComponent} representing the encoded SSL component.
*/
public static TaggedComponent createSSLTaggedComponent(
IORSecurityConfigMetaData metadata, Codec codec, int sslPort, ORB orb) {
if (metadata == null) {
JacORBLogger.ROOT_LOGGER.createSSLTaggedComponentWithNullMetaData();
return null;
}
TaggedComponent tc;
try {
int supports = createTargetSupports(metadata.getTransportConfig());
int requires = createTargetRequires(metadata.getTransportConfig());
SSL ssl = new SSL((short) supports, (short) requires, (short) sslPort);
Any any = orb.create_any();
SSLHelper.insert(any, ssl);
byte[] componentData = codec.encode_value(any);
tc = new TaggedComponent(TAG_SSL_SEC_TRANS.value, componentData);
} catch (InvalidTypeForEncoding e) {
throw JacORBLogger.ROOT_LOGGER.unexpectedException(e);
}
return tc;
}
/**
* Return a top-level {@code IOP::TaggedComponent} to be stuffed into an IOR, containing an
* structure {@code SSLIOP::SSL}, tagged as {@code TAG_SSL_SEC_TRANS}.
*
* <p>Should be called with non-null metadata, in which case we probably don't want to include
* security info in the IOR.
*
* @param metadata the metadata object that contains the SSL configuration info.
* @param codec the {@code Codec} used to encode the SSL component.
* @param sslPort an {@code int} representing the SSL port.
* @param orb a reference to the running {@code ORB}.
* @return a {@code TaggedComponent} representing the encoded SSL component.
*/
public static TaggedComponent createSSLTaggedComponent(
IORSecurityConfigMetadata metadata, Codec codec, int sslPort, ORB orb) {
if (metadata == null) {
log.debugf("createSSLTaggedComponent() called with null metadata");
return null;
}
TaggedComponent tc;
try {
int supports = createTargetSupports(metadata.getTransportConfig());
int requires = createTargetRequires(metadata.getTransportConfig());
SSL ssl = new SSL((short) supports, (short) requires, (short) sslPort);
Any any = orb.create_any();
SSLHelper.insert(any, ssl);
byte[] componentData = codec.encode_value(any);
tc = new TaggedComponent(TAG_SSL_SEC_TRANS.value, componentData);
} catch (InvalidTypeForEncoding e) {
log.warn("Caught unexcepted exception while encoding SSL component", e);
throw new RuntimeException(e);
}
return tc;
}
/**
* Create a transport mechanism {@code TaggedComponent} to be stuffed into a {@code
* CompoundSecMech}.
*
* <p>If no {@code TransportConfig} metadata is specified, or ssl port is negative, or the
* specified metadata indicates that transport config is not supported, then a {@code
* TAG_NULL_TAG} (empty) {@code TaggedComponent} will be returned.
*
* <p>Otherwise a {@code CSIIOP.TLS_SEC_TRANS}, tagged as {@code TAG_TLS_SEC_TRANS} will be
* returned, indicating support for TLS/SSL as a CSIv2 transport mechanism.
*
* <p>Multiple {@code TransportAddress} may be included in the SSL info (host/port pairs), but we
* only include one.
*
* @param tconfig the transport configuration metadata.
* @param codec the {@code Codec} used to encode the transport configuration.
* @param sslPort an {@code int} representing the SSL port.
* @param orb a reference to the running {@code ORB}.
* @return the constructed {@code TaggedComponent}.
*/
public static TaggedComponent createTransportMech(
IORTransportConfigMetaData tconfig, Codec codec, int sslPort, ORB orb) {
TaggedComponent tc;
// what we support and require as a target.
int support = 0;
int require = 0;
if (tconfig != null) {
require = createTargetRequires(tconfig);
support = createTargetSupports(tconfig);
}
if (tconfig == null || support == 0 || sslPort < 0) {
// no support for transport security.
tc = new TaggedComponent(TAG_NULL_TAG.value, new byte[0]);
} else {
// my ip address.
String host = CorbaORBService.getORBProperty(JacORBSubsystemConstants.ORB_ADDRESS);
// this will create only one transport address.
TransportAddress[] taList = createTransportAddress(host, sslPort);
TLS_SEC_TRANS tst = new TLS_SEC_TRANS((short) support, (short) require, taList);
// The tricky part, we must encode TLS_SEC_TRANS into an octet sequence.
try {
Any any = orb.create_any();
TLS_SEC_TRANSHelper.insert(any, tst);
byte[] b = codec.encode_value(any);
tc = new TaggedComponent(TAG_TLS_SEC_TRANS.value, b);
} catch (InvalidTypeForEncoding e) {
throw JacORBLogger.ROOT_LOGGER.unexpectedException(e);
}
}
return tc;
}
public void receive_request(ServerRequestInfo ri) {
try {
//
// Test: get operation name
//
String op = ri.operation();
boolean oneway = (op.equals("noargs_oneway"));
//
// Test: Examine arguments
//
testArgs(ri, false);
// TODO: test operation_context
//
// Test: result is not available
//
try {
Any result = ri.result();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: exceptions
//
try {
TypeCode[] exceptions = ri.exceptions();
if (op.equals("userexception")) {
TEST(exceptions.length == 1);
TEST(exceptions[0].equal(userHelper.type()));
} else {
TEST(exceptions.length == 0);
}
} catch (NO_RESOURCES ex) {
// Expected (if servant is DSI)
}
//
// Test: response expected and oneway should be equivalent
//
TEST((oneway && !ri.response_expected()) || (!oneway && ri.response_expected()));
// TODO: test sync scope
//
// Test: reply status is not available
//
try {
ri.reply_status();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: forward reference is not available
//
try {
org.omg.CORBA.Object ior = ri.forward_reference();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
if (op.equals("test_service_context")) {
//
// Test: get_request_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_request_service_context(REQUEST_CONTEXT_ID.value);
TEST(sc.context_id == REQUEST_CONTEXT_ID.value);
} catch (BAD_PARAM ex) {
TEST(false);
}
//
// Test: add_reply_service_context
//
ReplyContext context = new ReplyContext();
context.data = "reply2";
context.val = 102;
Any any = orb_.create_any();
ReplyContextHelper.insert(any, context);
byte[] data = null;
try {
data = cdrCodec_.encode_value(any);
} catch (org.omg.IOP.CodecPackage.InvalidTypeForEncoding ex) {
TEST(false);
}
org.omg.IOP.ServiceContext sc = new org.omg.IOP.ServiceContext();
sc.context_id = REPLY_CONTEXT_2_ID.value;
sc.context_data = new byte[data.length];
System.arraycopy(data, 0, sc.context_data, 0, data.length);
try {
ri.add_reply_service_context(sc, false);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
//
// Test: add same context again (no replace)
//
try {
ri.add_reply_service_context(sc, false);
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: add same context again (replace)
//
try {
ri.add_reply_service_context(sc, true);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
//
// Test: replace context added in
// receive_request_service_context
//
context.data = "reply4";
context.val = 114;
ReplyContextHelper.insert(any, context);
try {
data = cdrCodec_.encode_value(any);
} catch (org.omg.IOP.CodecPackage.InvalidTypeForEncoding ex) {
TEST(false);
}
sc.context_id = REPLY_CONTEXT_4_ID.value;
sc.context_data = new byte[data.length];
System.arraycopy(data, 0, sc.context_data, 0, data.length);
try {
ri.add_reply_service_context(sc, true);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
} else {
//
// Test: get_request_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_request_service_context(REQUEST_CONTEXT_ID.value);
TEST(false);
} catch (BAD_PARAM ex) {
// Expected
}
}
//
// Test: get_reply_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_reply_service_context(REPLY_CONTEXT_1_ID.value);
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: sending exception is not available
//
try {
Any any = ri.sending_exception();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: object id is correct
//
byte[] oid = ri.object_id();
TEST(
(oid.length == 4 && (new String(oid)).equals("test"))
|| (oid.length == 7 && (new String(oid)).equals("testDSI")));
//
// Test: adapter id is correct (this is a tough one to test)
//
byte[] adapterId = ri.adapter_id();
TEST(adapterId.length != 0);
//
// Test: servant most derived interface is correct
//
String mdi = ri.target_most_derived_interface();
TEST(mdi.equals("IDL:TestInterface:1.0"));
//
// Test: server id is correct
//
String serverId = ri.server_id();
TEST(serverId.equals(""));
//
// Test: orb id is correct
//
String orbId = ri.orb_id();
TEST(orbId.equals("myORB"));
//
// Test: adapter name is correct
//
String[] adapterName = ri.adapter_name();
TEST(adapterName.length == 1 && adapterName[0].equals("persistent"));
//
// Test: servant is a is correct
//
TEST(ri.target_is_a("IDL:TestInterface:1.0"));
//
// Test: get_server_policy
//
Policy policy = ri.get_server_policy(MY_SERVER_POLICY_ID.value);
MyServerPolicy myServerPolicy = MyServerPolicyHelper.narrow(policy);
TEST(myServerPolicy != null);
TEST(myServerPolicy.value() == 10);
try {
policy = ri.get_server_policy(1013);
TEST(false);
} catch (INV_POLICY ex) {
// Expected
}
} catch (test.common.TestException ex) {
ex.printStackTrace();
throw ex;
}
}
public void receive_request_service_contexts(ServerRequestInfo ri) {
try {
//
// Test: get operation name
//
String op = ri.operation();
boolean oneway = (op.equals("noargs_oneway"));
//
// Test: Arguments should not be available
//
try {
org.omg.Dynamic.Parameter[] args = ri.arguments();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
// TODO: test operation_context
//
// Test: result is not available
//
try {
Any result = ri.result();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: exceptions
//
try {
TypeCode[] exceptions = ri.exceptions();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: response expected and oneway should be equivalent
//
TEST((oneway && !ri.response_expected()) || (!oneway && ri.response_expected()));
// TODO: test sync scope
//
// Test: reply status is not available
//
try {
ri.reply_status();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: forward reference is not available
//
try {
org.omg.CORBA.Object ior = ri.forward_reference();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: object id is not available
//
try {
byte[] id = ri.object_id();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: adapter id is not available
//
try {
byte[] id = ri.adapter_id();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: servant_most_derived_interface is not available
//
try {
String mdi = ri.target_most_derived_interface();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: server id is not available
//
try {
String id = ri.server_id();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: orb id is not available
//
try {
String id = ri.orb_id();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: adapter name is not available
//
try {
String[] name = ri.adapter_name();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: servant_is_a is not available
//
try {
ri.target_is_a("");
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
if (op.equals("test_service_context")) {
//
// Test: get_request_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_request_service_context(REQUEST_CONTEXT_ID.value);
TEST(sc.context_id == REQUEST_CONTEXT_ID.value);
byte[] data = new byte[sc.context_data.length];
System.arraycopy(sc.context_data, 0, data, 0, sc.context_data.length);
Any any = null;
try {
any = cdrCodec_.decode_value(data, RequestContextHelper.type());
} catch (org.omg.IOP.CodecPackage.FormatMismatch ex) {
TEST(false);
} catch (org.omg.IOP.CodecPackage.TypeMismatch ex) {
TEST(false);
}
RequestContext context = RequestContextHelper.extract(any);
TEST(context.data.equals("request"));
TEST(context.val == 10);
//
// Test: PortableInterceptor::Current
//
Any slotData = orb_.create_any();
slotData.insert_long(context.val);
try {
ri.set_slot(0, slotData);
} catch (InvalidSlot ex) {
TEST(false);
}
} catch (BAD_PARAM ex) {
TEST(false);
}
//
// Test: add_reply_service_context
//
ReplyContext context = new ReplyContext();
context.data = "reply1";
context.val = 101;
Any any = orb_.create_any();
ReplyContextHelper.insert(any, context);
byte[] data = null;
try {
data = cdrCodec_.encode_value(any);
} catch (org.omg.IOP.CodecPackage.InvalidTypeForEncoding ex) {
TEST(false);
}
org.omg.IOP.ServiceContext sc = new org.omg.IOP.ServiceContext();
sc.context_id = REPLY_CONTEXT_1_ID.value;
sc.context_data = new byte[data.length];
System.arraycopy(data, 0, sc.context_data, 0, data.length);
try {
ri.add_reply_service_context(sc, false);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
//
// Test: add same context again (no replace)
//
try {
ri.add_reply_service_context(sc, false);
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: add same context again (replace)
//
try {
ri.add_reply_service_context(sc, true);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
//
// Test: add second context
//
context.data = "reply4";
context.val = 104;
ReplyContextHelper.insert(any, context);
try {
data = cdrCodec_.encode_value(any);
} catch (org.omg.IOP.CodecPackage.InvalidTypeForEncoding ex) {
TEST(false);
}
sc.context_id = REPLY_CONTEXT_4_ID.value;
sc.context_data = new byte[data.length];
System.arraycopy(data, 0, sc.context_data, 0, data.length);
// try
// {
ri.add_reply_service_context(sc, false);
// }
// catch(BAD_INV_ORDER ex)
// {
// TEST(false);
// }
} else {
//
// Test: get_request_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_request_service_context(REQUEST_CONTEXT_ID.value);
TEST(false);
} catch (BAD_PARAM ex) {
// Expected
}
}
//
// Test: get_reply_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_reply_service_context(REPLY_CONTEXT_1_ID.value);
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: sending exception is not available
//
try {
Any any = ri.sending_exception();
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: get_server_policy
//
Policy policy = ri.get_server_policy(MY_SERVER_POLICY_ID.value);
MyServerPolicy myServerPolicy = MyServerPolicyHelper.narrow(policy);
TEST(myServerPolicy != null);
TEST(myServerPolicy.value() == 10);
try {
policy = ri.get_server_policy(1013);
TEST(false);
} catch (INV_POLICY ex) {
// Expected
}
} catch (test.common.TestException ex) {
ex.printStackTrace();
throw ex;
}
}
private void testServiceContext(String op, ServerRequestInfo ri, boolean addContext) {
if (op.equals("test_service_context")) {
//
// Test: get_request_service_context
//
try {
org.omg.IOP.ServiceContext sc = ri.get_request_service_context(REQUEST_CONTEXT_ID.value);
TEST(sc.context_id == REQUEST_CONTEXT_ID.value);
} catch (BAD_PARAM ex) {
TEST(false);
}
//
// Test: get_reply_service_context
//
org.omg.IOP.ServiceContext sc = null;
try {
sc = ri.get_reply_service_context(REPLY_CONTEXT_4_ID.value);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
byte[] data = new byte[sc.context_data.length];
System.arraycopy(sc.context_data, 0, data, 0, sc.context_data.length);
Any any = null;
try {
any = cdrCodec_.decode_value(data, ReplyContextHelper.type());
} catch (org.omg.IOP.CodecPackage.FormatMismatch ex) {
TEST(false);
} catch (org.omg.IOP.CodecPackage.TypeMismatch ex) {
TEST(false);
}
ReplyContext context = ReplyContextHelper.extract(any);
TEST(context.data.equals("reply4"));
TEST(context.val == 114);
if (addContext) {
//
// Test: add_reply_service_context
//
context.data = "reply3";
context.val = 103;
any = orb_.create_any();
ReplyContextHelper.insert(any, context);
try {
data = cdrCodec_.encode_value(any);
} catch (org.omg.IOP.CodecPackage.InvalidTypeForEncoding ex) {
TEST(false);
}
sc.context_id = REPLY_CONTEXT_3_ID.value;
sc.context_data = new byte[data.length];
System.arraycopy(data, 0, sc.context_data, 0, data.length);
try {
ri.add_reply_service_context(sc, false);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
//
// Test: add same context again (no replace)
//
try {
ri.add_reply_service_context(sc, false);
TEST(false);
} catch (BAD_INV_ORDER ex) {
// Expected
}
//
// Test: add same context again (replace)
//
try {
ri.add_reply_service_context(sc, true);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
//
// Test: replace context added in receive_request
//
context.data = "reply4";
context.val = 124;
ReplyContextHelper.insert(any, context);
try {
data = cdrCodec_.encode_value(any);
} catch (org.omg.IOP.CodecPackage.InvalidTypeForEncoding ex) {
TEST(false);
}
sc.context_id = REPLY_CONTEXT_4_ID.value;
sc.context_data = new byte[data.length];
System.arraycopy(data, 0, sc.context_data, 0, data.length);
try {
ri.add_reply_service_context(sc, true);
} catch (BAD_INV_ORDER ex) {
TEST(false);
}
}
} else {
try {
org.omg.IOP.ServiceContext sc = ri.get_request_service_context(REQUEST_CONTEXT_ID.value);
TEST(false);
} catch (BAD_PARAM ex) {
// Expected
}
try {
org.omg.IOP.ServiceContext sc = ri.get_reply_service_context(REPLY_CONTEXT_1_ID.value);
TEST(false);
} catch (BAD_PARAM ex) {
// Expected
}
}
}
