private void checkExtractBadOperation(int expected) {
if (!isInitialized) throw wrapper.extractNotInitialized();
int tc = realType().kind().value();
if (tc != expected) {
String tcName = getTCKindName(tc);
String expectedName = getTCKindName(expected);
throw wrapper.extractWrongType(expectedName, tcName);
}
}
public static void isValidReplyStatus(int replyStatus) {
switch (replyStatus) {
case UNKNOWN_OBJECT:
case OBJECT_HERE:
case OBJECT_FORWARD:
break;
default:
ORBUtilSystemException localWrapper =
ORBUtilSystemException.get(CORBALogDomains.RPC_PROTOCOL);
throw localWrapper.illegalReplyStatus(CompletionStatus.COMPLETED_MAYBE);
}
}
private void checkExtractBadOperationList(int[] expected) {
if (!isInitialized) throw wrapper.extractNotInitialized();
int tc = realType().kind().value();
for (int ctr = 0; ctr < expected.length; ctr++) if (tc == expected[ctr]) return;
List list = new ArrayList();
for (int ctr = 0; ctr < expected.length; ctr++) list.add(getTCKindName(expected[ctr]));
String tcName = getTCKindName(tc);
throw wrapper.extractWrongTypeList(list, tcName);
}
public void insert_fixed(java.math.BigDecimal value, org.omg.CORBA.TypeCode type) {
try {
if (TypeCodeImpl.digits(value) > type.fixed_digits()
|| TypeCodeImpl.scale(value) > type.fixed_scale()) {
throw wrapper.fixedNotMatch();
}
} catch (org.omg.CORBA.TypeCodePackage.BadKind bk) {
// type isn't even of kind fixed
throw wrapper.fixedBadTypecode(bk);
}
typeCode = TypeCodeImpl.convertToNative(orb, type);
object = value;
isInitialized = true;
}
/** A variant of the insertion operation that takes a typecode argument as well. */
public void insert_Object(org.omg.CORBA.Object o, TypeCode tc) {
// debug.log ("insert_Object2");
try {
if (tc.id().equals("IDL:omg.org/CORBA/Object:1.0") || o._is_a(tc.id())) {
typeCode = TypeCodeImpl.convertToNative(orb, tc);
object = o;
} else {
throw wrapper.insertObjectIncompatible();
}
} catch (Exception ex) {
throw wrapper.insertObjectFailed(ex);
}
isInitialized = true;
}
public void registerInterestOps(EventHandler eventHandler) {
if (orb.transportDebugFlag) {
dprint(".registerInterestOps:-> " + eventHandler);
}
SelectionKey selectionKey = eventHandler.getSelectionKey();
if (selectionKey.isValid()) {
int ehOps = eventHandler.getInterestOps();
SelectionKeyAndOp keyAndOp = new SelectionKeyAndOp(selectionKey, ehOps);
synchronized (interestOpsList) {
interestOpsList.add(keyAndOp);
}
// tell Selector Thread there's an update to a SelectorKey's Ops
selector.wakeup();
} else {
wrapper.selectionKeyInvalid(eventHandler.toString());
if (orb.transportDebugFlag) {
dprint(".registerInterestOps: EventHandler SelectionKey not valid " + eventHandler);
}
}
if (orb.transportDebugFlag) {
dprint(".registerInterestOps:<- ");
}
}
public ObjectAdapter find(ObjectAdapterId oaid) {
if (oaid.equals(ObjectKeyTemplateBase.JIDL_OAID))
// Return the dispatch-only TOA, which can dispatch
// request for objects created by any TOA.
return getTOA();
else throw wrapper.badToaOaid();
}
public static SystemException extractSystemException(Any any) {
InputStream in = any.create_input_stream();
ORB orb = (ORB) (in.orb());
if (!isSystemExceptionTypeCode(any.type(), orb)) {
throw wrapper.unknownDsiSysex(CompletionStatus.COMPLETED_MAYBE);
}
return ORBUtility.readSystemException(in);
}
/** See the description of the <a href="#anyOps">general Any operations.</a> */
public org.omg.CORBA.Object extract_Object() {
// debug.log ("extract_Object");
if (!isInitialized) throw wrapper.extractNotInitialized();
// Check if the object contained here is of the type in typeCode
org.omg.CORBA.Object obj = null;
try {
obj = (org.omg.CORBA.Object) object;
if (typeCode.id().equals("IDL:omg.org/CORBA/Object:1.0") || obj._is_a(typeCode.id())) {
return obj;
} else {
throw wrapper.extractObjectIncompatible();
}
} catch (Exception ex) {
throw wrapper.extractObjectFailed(ex);
}
}
public CacheTable(ORB orb, boolean u) {
// System.out.println("using new cache table");
this.orb = orb;
wrapper = ORBUtilSystemException.get(orb, CORBALogDomains.RPC_ENCODING);
noReverseMap = u;
size = INITIAL_SIZE;
entryCount = 0;
initTables();
}
/**
* Static method for reading a CORBA standard exception from a stream.
*
* @param strm The InputStream to use for unmarshaling.
*/
public static SystemException readSystemException(InputStream strm) {
try {
String name = classNameOf(strm.read_string());
SystemException ex = (SystemException) ORBClassLoader.loadClass(name).newInstance();
ex.minor = strm.read_long();
ex.completed = CompletionStatus.from_int(strm.read_long());
return ex;
} catch (Exception ex) {
throw wrapper.unknownSysex(CompletionStatus.COMPLETED_MAYBE, ex);
}
}
/* */ public AnyImpl(ORB paramORB) /* */ {
/* 177 */ this.orb = paramORB;
/* 178 */ this.wrapper = ORBUtilSystemException.get(paramORB, "rpc.presentation");
/* */
/* 181 */ this.typeCode = paramORB.get_primitive_tc(0);
/* 182 */ this.stream = null;
/* 183 */ this.object = null;
/* 184 */ this.value = 0L;
/* */
/* 186 */ this.isInitialized = true;
/* */ }
public SelectorImpl(ORB orb) {
this.orb = orb;
selector = null;
selectorStarted = false;
timeout = 60000;
deferredRegistrations = new ArrayList();
interestOpsList = new ArrayList();
listenerThreads = new HashMap();
readerThreads = java.util.Collections.synchronizedMap(new HashMap());
closed = false;
wrapper = ORBUtilSystemException.get(orb, CORBALogDomains.RPC_TRANSPORT);
}
private TypeCode realType(TypeCode aType) {
TypeCode realType = aType;
try {
// Note: Indirect types are handled in kind() method
while (realType.kind().value() == TCKind._tk_alias) {
realType = realType.content_type();
}
} catch (BadKind bad) { // impossible
throw wrapper.badkindCannotOccur(bad);
}
return realType;
}
/** See the description of the <a href="#anyOps">general Any operations.</a> */
public void insert_wstring(String s) {
// debug.log ("insert_wstring");
// Make sure type code information for bounded strings is not erased
if (typeCode.kind() == TCKind.tk_wstring) {
int length = 0;
try {
length = typeCode.length();
} catch (BadKind bad) {
throw wrapper.badkindCannotOccur();
}
// Check if bounded strings length is not exceeded
if (length != 0 && s != null && s.length() > length) {
throw wrapper.badStringBounds(new Integer(s.length()), new Integer(length));
}
} else {
typeCode = orb.get_primitive_tc(TCKind._tk_wstring);
}
object = s;
isInitialized = true;
}
/**
* A constructor that sets the Any to contain a null. It also marks the value as being invalid so
* that extractions throw an exception until an insertion has been performed.
*/
public AnyImpl(ORB orb) {
this.orb = orb;
wrapper =
ORBUtilSystemException.get(
(com.sun.corba.se.spi.orb.ORB) orb, CORBALogDomains.RPC_PRESENTATION);
typeCode = orb.get_primitive_tc(TCKind._tk_null);
stream = null;
object = null;
value = 0;
// null is a valid value
isInitialized = true;
}
/**
* This method obtains an IOR from a CORBA object reference. It will return null if obj is a local
* object, a null object, or an object implemented by a different ORB. It will throw BAD_OPERATION
* if obj is an unconnected RMI-IIOP object.
*
* @return IOR the IOR that represents this objref. This will never be null.
* @exception BAD_OPERATION (from oi._get_delegate) if obj is a normal objref, but does not have a
* delegate set.
* @exception BAD_PARAM if obj is a local object, or else was created by a foreign ORB.
*/
public static IOR getIOR(org.omg.CORBA.Object obj) {
if (obj == null) throw wrapper.nullObjectReference();
IOR ior = null;
if (StubAdapter.isStub(obj)) {
org.omg.CORBA.portable.Delegate del = StubAdapter.getDelegate(obj);
if (del instanceof CorbaClientDelegate) {
CorbaClientDelegate cdel = (CorbaClientDelegate) del;
ContactInfoList cil = cdel.getContactInfoList();
if (cil instanceof CorbaContactInfoList) {
CorbaContactInfoList ccil = (CorbaContactInfoList) cil;
ior = ccil.getTargetIOR();
if (ior == null) throw wrapper.nullIor();
return ior;
} else {
// This is our code, but the ContactInfoList is not a
// CorbaContactInfoList. This should not happen, because
// we are in the CORBA application of the DCSA framework.
// This is a coding error, and thus an INTERNAL exception
// should be thrown.
// XXX needs minor code
throw new INTERNAL();
}
}
// obj is implemented by a foreign ORB, because the Delegate is not a
// ClientDelegate.
// XXX this case could be handled by marshalling and
// unmarshalling. However, object_to_string cannot be used
// here, as it is implemented with getIOR. Note that this
// will require access to an ORB, so that we can create streams
// as needed. The ORB is available simply as io._orb().
throw wrapper.objrefFromForeignOrb();
} else throw wrapper.localObjectNotAllowed();
}
/** Converts an Ascii Character into Hexadecimal digit */
public static int hexOf(char x) {
int val;
val = x - '0';
if (val >= 0 && val <= 9) return val;
val = (x - 'a') + 10;
if (val >= 10 && val <= 15) return val;
val = (x - 'A') + 10;
if (val >= 10 && val <= 15) return val;
throw wrapper.badHexDigit();
}
/** See the description of the <a href="#anyOps">general Any operations.</a> */
public void insert_Object(org.omg.CORBA.Object o) {
// debug.log ("insert_Object");
if (o == null) {
typeCode = orb.get_primitive_tc(TCKind._tk_objref);
} else {
if (StubAdapter.isStub(o)) {
String[] ids = StubAdapter.getTypeIds(o);
typeCode = new TypeCodeImpl(orb, TCKind._tk_objref, ids[0], "");
} else {
throw wrapper.badInsertobjParam(CompletionStatus.COMPLETED_MAYBE, o.getClass().getName());
}
}
object = o;
isInitialized = true;
}
/**
* Obtains an IOR for the object reference obj, first connecting it to the ORB if necessary.
*
* @return IOR the IOR that represents this objref. This will never be null.
* @exception BAD_OPERATION if the object could not be connected, if a connection attempt was
* needed.
* @exception BAD_PARAM if obj is a local object, or else was created by a foreign ORB.
*/
public static IOR connectAndGetIOR(ORB orb, org.omg.CORBA.Object obj) {
IOR result;
try {
result = getIOR(obj);
} catch (BAD_OPERATION bop) {
if (StubAdapter.isStub(obj)) {
try {
StubAdapter.connect(obj, orb);
} catch (java.rmi.RemoteException exc) {
throw wrapper.connectingServant(exc);
}
} else {
orb.connect(obj);
}
result = getIOR(obj);
}
return result;
}
//
// If the InputStream is a CDRInputStream then we can copy the bytes
// since it is in our format and does not have alignment issues.
//
public void read_value(org.omg.CORBA.portable.InputStream in, TypeCode tc) {
// debug.log ("read_value");
//
// Assume that someone isn't going to think they can keep reading
// from this stream after calling us. That would be likely for
// an IIOPInputStream but if it is an AnyInputStream then they
// presumably obtained it via our create_output_stream() so they could
// write the contents of an IDL data type to it and then call
// create_input_stream() for us to read it. This is how Helper classes
// typically implement the insert() method.
// We should probably document this behavior in the 1.1 revision
// task force.
//
typeCode = TypeCodeImpl.convertToNative(orb, tc);
int kind = realType().kind().value();
if (kind >= isStreamed.length) {
throw wrapper.invalidIsstreamedTckind(CompletionStatus.COMPLETED_MAYBE, new Integer(kind));
}
if (AnyImpl.isStreamed[kind]) {
if (in instanceof AnyInputStream) {
// could only have been created here
stream = (CDRInputStream) in;
} else {
org.omg.CORBA_2_3.portable.OutputStream out =
(org.omg.CORBA_2_3.portable.OutputStream) orb.create_output_stream();
typeCode.copy((org.omg.CORBA_2_3.portable.InputStream) in, out);
stream = (CDRInputStream) out.create_input_stream();
}
} else {
java.lang.Object[] objholder = new java.lang.Object[1];
objholder[0] = object;
long[] longholder = new long[1];
TCUtility.unmarshalIn(in, realType(), longholder, objholder);
value = longholder[0];
object = objholder[0];
stream = null;
}
isInitialized = true;
}
private boolean put_table(java.lang.Object key, int val) {
int index = hash(key);
for (Entry e = map[index]; e != null; e = e.next) {
if (e.key == key) {
if (e.val != val) {
throw wrapper.duplicateIndirectionOffset();
}
// if we get here we are trying to put in the same key/val pair
// this is a no-op, so we just return
return false;
}
}
// this means the key is not present in our table
// then it shouldnt be present in our reverse table either
Entry newEntry = new Entry(key, val);
newEntry.next = map[index];
map[index] = newEntry;
if (!noReverseMap) {
int rindex = hash(val);
newEntry.rnext = rmap[rindex];
rmap[rindex] = newEntry;
}
return true;
}
BufferManagerWrite(ORB orb) {
this.orb = orb;
this.wrapper = ORBUtilSystemException.get(orb, CORBALogDomains.RPC_ENCODING);
}
static void unmarshalIn(
org.omg.CORBA.portable.InputStream s, TypeCode typeCode, long[] la, Object[] oa) {
int type = typeCode.kind().value();
long l = 0;
Object o = oa[0];
switch (type) {
case TCKind._tk_null:
case TCKind._tk_void:
case TCKind._tk_native:
// Nothing to read
break;
case TCKind._tk_short:
l = s.read_short() & 0xFFFFL;
break;
case TCKind._tk_ushort:
l = s.read_ushort() & 0xFFFFL;
break;
case TCKind._tk_enum:
case TCKind._tk_long:
l = s.read_long() & 0xFFFFFFFFL;
break;
case TCKind._tk_ulong:
l = s.read_ulong() & 0xFFFFFFFFL;
break;
case TCKind._tk_float:
l = Float.floatToIntBits(s.read_float()) & 0xFFFFFFFFL;
break;
case TCKind._tk_double:
l = Double.doubleToLongBits(s.read_double());
break;
case TCKind._tk_char:
l = s.read_char() & 0xFFFFL;
break;
case TCKind._tk_octet:
l = s.read_octet() & 0xFFL;
break;
case TCKind._tk_boolean:
if (s.read_boolean()) l = 1;
else l = 0;
break;
case TCKind._tk_any:
o = s.read_any();
break;
case TCKind._tk_TypeCode:
o = s.read_TypeCode();
break;
case TCKind._tk_Principal:
o = s.read_Principal();
break;
case TCKind._tk_objref:
if (o instanceof Streamable) ((Streamable) o)._read(s);
else o = s.read_Object();
break;
case TCKind._tk_longlong:
l = s.read_longlong();
break;
case TCKind._tk_ulonglong:
l = s.read_ulonglong();
break;
case TCKind._tk_wchar:
l = s.read_wchar() & 0xFFFFL;
break;
case TCKind._tk_string:
o = s.read_string();
break;
case TCKind._tk_wstring:
o = s.read_wstring();
break;
case TCKind._tk_value:
case TCKind._tk_value_box:
o = ((org.omg.CORBA_2_3.portable.InputStream) s).read_value();
break;
case TCKind._tk_fixed:
try {
// _REVISIT_ As soon as the java-rtf adds digits and scale parameters to
// InputStream, this check will be unnecessary
if (s instanceof CDRInputStream) {
o = ((CDRInputStream) s).read_fixed(typeCode.fixed_digits(), typeCode.fixed_scale());
} else {
BigDecimal bigDecimal = s.read_fixed();
o = bigDecimal.movePointLeft((int) typeCode.fixed_scale());
}
} catch (BadKind badKind) { // impossible
}
break;
case TCKind._tk_struct:
case TCKind._tk_union:
case TCKind._tk_sequence:
case TCKind._tk_array:
case TCKind._tk_alias:
case TCKind._tk_except:
((Streamable) o)._read(s);
break;
case TCKind._tk_abstract_interface:
o = ((org.omg.CORBA_2_3.portable.InputStream) s).read_abstract_interface();
break;
case TCKind._tk_longdouble:
// Unspecified for Java
default:
ORBUtilSystemException wrapper =
ORBUtilSystemException.get(
(com.sun.corba.se.spi.orb.ORB) s.orb(), CORBALogDomains.RPC_PRESENTATION);
throw wrapper.typecodeNotSupported();
}
oa[0] = o;
la[0] = l;
}
static void marshalIn(
org.omg.CORBA.portable.OutputStream s, TypeCode typeCode, long l, Object o) {
switch (typeCode.kind().value()) {
case TCKind._tk_null:
case TCKind._tk_void:
case TCKind._tk_native:
// nothing to write
break;
case TCKind._tk_short:
s.write_short((short) (l & 0xFFFFL));
break;
case TCKind._tk_ushort:
s.write_ushort((short) (l & 0xFFFFL));
break;
case TCKind._tk_enum:
case TCKind._tk_long:
s.write_long((int) (l & 0xFFFFFFFFL));
break;
case TCKind._tk_ulong:
s.write_ulong((int) (l & 0xFFFFFFFFL));
break;
case TCKind._tk_float:
s.write_float(Float.intBitsToFloat((int) (l & 0xFFFFFFFFL)));
break;
case TCKind._tk_double:
s.write_double(Double.longBitsToDouble(l));
break;
case TCKind._tk_boolean:
if (l == 0) s.write_boolean(false);
else s.write_boolean(true);
break;
case TCKind._tk_char:
s.write_char((char) (l & 0xFFFFL));
break;
case TCKind._tk_octet:
s.write_octet((byte) (l & 0xFFL));
break;
case TCKind._tk_any:
s.write_any((Any) o);
break;
case TCKind._tk_TypeCode:
s.write_TypeCode((TypeCode) o);
break;
case TCKind._tk_Principal:
s.write_Principal((Principal) o);
break;
case TCKind._tk_objref:
s.write_Object((org.omg.CORBA.Object) o);
break;
case TCKind._tk_longlong:
s.write_longlong(l);
break;
case TCKind._tk_ulonglong:
s.write_ulonglong(l);
break;
case TCKind._tk_wchar:
s.write_wchar((char) (l & 0xFFFFL));
break;
case TCKind._tk_string:
s.write_string((String) o);
break;
case TCKind._tk_wstring:
s.write_wstring((String) o);
break;
case TCKind._tk_value:
case TCKind._tk_value_box:
((org.omg.CORBA_2_3.portable.OutputStream) s).write_value((Serializable) o);
break;
case TCKind._tk_fixed:
// _REVISIT_ As soon as the java-rtf adds digits and scale parameters to
// OutputStream, this check will be unnecessary
if (s instanceof CDROutputStream) {
try {
((CDROutputStream) s)
.write_fixed((BigDecimal) o, typeCode.fixed_digits(), typeCode.fixed_scale());
} catch (BadKind badKind) { // impossible
}
} else {
s.write_fixed((BigDecimal) o);
}
break;
case TCKind._tk_struct:
case TCKind._tk_union:
case TCKind._tk_sequence:
case TCKind._tk_array:
case TCKind._tk_alias:
case TCKind._tk_except:
((Streamable) o)._write(s);
break;
case TCKind._tk_abstract_interface:
((org.omg.CORBA_2_3.portable.OutputStream) s).write_abstract_interface(o);
break;
case TCKind._tk_longdouble:
// Unspecified for Java
default:
ORBUtilSystemException wrapper =
ORBUtilSystemException.get(
(com.sun.corba.se.spi.orb.ORB) s.orb(), CORBALogDomains.RPC_PRESENTATION);
throw wrapper.typecodeNotSupported();
}
}
// Needed for equal() in order to achieve linear performance for complex types.
// Uses up (recursively) copies of the InputStream in both Anys that got created in equal().
private boolean equalMember(TypeCode memberType, InputStream myStream, InputStream otherStream) {
// Resolve aliases here
TypeCode realType = realType(memberType);
try {
switch (realType.kind().value()) {
// handle primitive types
case TCKind._tk_null:
case TCKind._tk_void:
return true;
case TCKind._tk_short:
return (myStream.read_short() == otherStream.read_short());
case TCKind._tk_long:
return (myStream.read_long() == otherStream.read_long());
case TCKind._tk_ushort:
return (myStream.read_ushort() == otherStream.read_ushort());
case TCKind._tk_ulong:
return (myStream.read_ulong() == otherStream.read_ulong());
case TCKind._tk_float:
return (myStream.read_float() == otherStream.read_float());
case TCKind._tk_double:
return (myStream.read_double() == otherStream.read_double());
case TCKind._tk_boolean:
return (myStream.read_boolean() == otherStream.read_boolean());
case TCKind._tk_char:
return (myStream.read_char() == otherStream.read_char());
case TCKind._tk_wchar:
return (myStream.read_wchar() == otherStream.read_wchar());
case TCKind._tk_octet:
return (myStream.read_octet() == otherStream.read_octet());
case TCKind._tk_any:
return myStream.read_any().equal(otherStream.read_any());
case TCKind._tk_TypeCode:
return myStream.read_TypeCode().equal(otherStream.read_TypeCode());
case TCKind._tk_string:
return myStream.read_string().equals(otherStream.read_string());
case TCKind._tk_wstring:
return (myStream.read_wstring().equals(otherStream.read_wstring()));
case TCKind._tk_longlong:
return (myStream.read_longlong() == otherStream.read_longlong());
case TCKind._tk_ulonglong:
return (myStream.read_ulonglong() == otherStream.read_ulonglong());
case TCKind._tk_objref:
return (myStream.read_Object().equals(otherStream.read_Object()));
case TCKind._tk_Principal:
return (myStream.read_Principal().equals(otherStream.read_Principal()));
case TCKind._tk_enum:
return (myStream.read_long() == otherStream.read_long());
case TCKind._tk_fixed:
return (myStream.read_fixed().compareTo(otherStream.read_fixed()) == 0);
case TCKind._tk_except:
case TCKind._tk_struct:
{
int length = realType.member_count();
for (int i = 0; i < length; i++) {
if (!equalMember(realType.member_type(i), myStream, otherStream)) {
return false;
}
}
return true;
}
case TCKind._tk_union:
{
Any myDiscriminator = orb.create_any();
Any otherDiscriminator = orb.create_any();
myDiscriminator.read_value(myStream, realType.discriminator_type());
otherDiscriminator.read_value(otherStream, realType.discriminator_type());
if (!myDiscriminator.equal(otherDiscriminator)) {
return false;
}
TypeCodeImpl realTypeCodeImpl = TypeCodeImpl.convertToNative(orb, realType);
int memberIndex = realTypeCodeImpl.currentUnionMemberIndex(myDiscriminator);
if (memberIndex == -1) throw wrapper.unionDiscriminatorError();
if (!equalMember(realType.member_type(memberIndex), myStream, otherStream)) {
return false;
}
return true;
}
case TCKind._tk_sequence:
{
int length = myStream.read_long();
otherStream.read_long(); // just so that the two stream are in sync
for (int i = 0; i < length; i++) {
if (!equalMember(realType.content_type(), myStream, otherStream)) {
return false;
}
}
return true;
}
case TCKind._tk_array:
{
int length = realType.member_count();
for (int i = 0; i < length; i++) {
if (!equalMember(realType.content_type(), myStream, otherStream)) {
return false;
}
}
return true;
}
// Too complicated to handle value types the way we handle
// other complex types above. Don't try to decompose it here
// for faster comparison, just use Object.equals().
case TCKind._tk_value:
case TCKind._tk_value_box:
org.omg.CORBA_2_3.portable.InputStream mine =
(org.omg.CORBA_2_3.portable.InputStream) myStream;
org.omg.CORBA_2_3.portable.InputStream other =
(org.omg.CORBA_2_3.portable.InputStream) otherStream;
return mine.read_value().equals(other.read_value());
case TCKind._tk_alias:
// error resolving alias above
throw wrapper.errorResolvingAlias();
case TCKind._tk_longdouble:
throw wrapper.tkLongDoubleNotSupported();
default:
throw wrapper.typecodeNotSupported();
}
} catch (BadKind badKind) { // impossible
throw wrapper.badkindCannotOccur();
} catch (Bounds bounds) { // impossible
throw wrapper.boundsCannotOccur();
}
}
/**
* checks for equality between Anys.
*
* @param otherAny the Any to be compared with.
* @result true if the Anys are equal, false otherwise.
*/
public boolean equal(Any otherAny) {
// debug.log ("equal");
if (otherAny == this) return true;
// first check for typecode equality.
// note that this will take aliases into account
if (!typeCode.equal(otherAny.type())) return false;
// Resolve aliases here
TypeCode realType = realType();
// _REVISIT_ Possible optimization for the case where
// otherAny is a AnyImpl and the endianesses match.
// Need implementation of CDRInputStream.equals()
// For now we disable this to encourage testing the generic,
// unoptimized code below.
// Unfortunately this generic code needs to copy the whole stream
// at least once.
// if (AnyImpl.isStreamed[realType.kind().value()]) {
// if (otherAny instanceof AnyImpl) {
// return ((AnyImpl)otherAny).stream.equals(stream);
// }
// }
switch (realType.kind().value()) {
// handle primitive types
case TCKind._tk_null:
case TCKind._tk_void:
return true;
case TCKind._tk_short:
return (extract_short() == otherAny.extract_short());
case TCKind._tk_long:
return (extract_long() == otherAny.extract_long());
case TCKind._tk_ushort:
return (extract_ushort() == otherAny.extract_ushort());
case TCKind._tk_ulong:
return (extract_ulong() == otherAny.extract_ulong());
case TCKind._tk_float:
return (extract_float() == otherAny.extract_float());
case TCKind._tk_double:
return (extract_double() == otherAny.extract_double());
case TCKind._tk_boolean:
return (extract_boolean() == otherAny.extract_boolean());
case TCKind._tk_char:
return (extract_char() == otherAny.extract_char());
case TCKind._tk_wchar:
return (extract_wchar() == otherAny.extract_wchar());
case TCKind._tk_octet:
return (extract_octet() == otherAny.extract_octet());
case TCKind._tk_any:
return extract_any().equal(otherAny.extract_any());
case TCKind._tk_TypeCode:
return extract_TypeCode().equal(otherAny.extract_TypeCode());
case TCKind._tk_string:
return extract_string().equals(otherAny.extract_string());
case TCKind._tk_wstring:
return (extract_wstring().equals(otherAny.extract_wstring()));
case TCKind._tk_longlong:
return (extract_longlong() == otherAny.extract_longlong());
case TCKind._tk_ulonglong:
return (extract_ulonglong() == otherAny.extract_ulonglong());
case TCKind._tk_objref:
return (extract_Object().equals(otherAny.extract_Object()));
case TCKind._tk_Principal:
return (extract_Principal().equals(otherAny.extract_Principal()));
case TCKind._tk_enum:
return (extract_long() == otherAny.extract_long());
case TCKind._tk_fixed:
return (extract_fixed().compareTo(otherAny.extract_fixed()) == 0);
case TCKind._tk_except:
case TCKind._tk_struct:
case TCKind._tk_union:
case TCKind._tk_sequence:
case TCKind._tk_array:
InputStream copyOfMyStream = this.create_input_stream();
InputStream copyOfOtherStream = otherAny.create_input_stream();
return equalMember(realType, copyOfMyStream, copyOfOtherStream);
// Too complicated to handle value types the way we handle
// other complex types above. Don't try to decompose it here
// for faster comparison, just use Object.equals().
case TCKind._tk_value:
case TCKind._tk_value_box:
return extract_Value().equals(otherAny.extract_Value());
case TCKind._tk_alias:
throw wrapper.errorResolvingAlias();
case TCKind._tk_longdouble:
// Unspecified for Java
throw wrapper.tkLongDoubleNotSupported();
default:
throw wrapper.typecodeNotSupported();
}
}
public void init(ORB orb) {
this.orb = orb;
wrapper = ORBUtilSystemException.get(orb, CORBALogDomains.OA_LIFECYCLE);
tom = new TransientObjectManager(orb);
codebaseToTOA = new HashMap();
}
/** Handy class full of static functions that don't belong in util.Utility for pure ORB reasons. */
public final class ORBUtility {
private ORBUtility() {}
private static ORBUtilSystemException wrapper = ORBUtilSystemException.get(CORBALogDomains.UTIL);
private static OMGSystemException omgWrapper = OMGSystemException.get(CORBALogDomains.UTIL);
private static StructMember[] members = null;
private static StructMember[] systemExceptionMembers(ORB orb) {
if (members == null) {
members = new StructMember[3];
members[0] = new StructMember("id", orb.create_string_tc(0), null);
members[1] = new StructMember("minor", orb.get_primitive_tc(TCKind.tk_long), null);
members[2] = new StructMember("completed", orb.get_primitive_tc(TCKind.tk_long), null);
}
return members;
}
private static TypeCode getSystemExceptionTypeCode(ORB orb, String repID, String name) {
synchronized (TypeCode.class) {
return orb.create_exception_tc(repID, name, systemExceptionMembers(orb));
}
}
private static boolean isSystemExceptionTypeCode(TypeCode type, ORB orb) {
StructMember[] systemExceptionMembers = systemExceptionMembers(orb);
try {
return (type.kind().value() == TCKind._tk_except
&& type.member_count() == 3
&& type.member_type(0).equal(systemExceptionMembers[0].type)
&& type.member_type(1).equal(systemExceptionMembers[1].type)
&& type.member_type(2).equal(systemExceptionMembers[2].type));
} catch (BadKind ex) {
return false;
} catch (org.omg.CORBA.TypeCodePackage.Bounds ex) {
return false;
}
}
/**
* Static method for writing a CORBA standard exception to an Any.
*
* @param any The Any to write the SystemException into.
*/
public static void insertSystemException(SystemException ex, Any any) {
OutputStream out = any.create_output_stream();
ORB orb = (ORB) (out.orb());
String name = ex.getClass().getName();
String repID = ORBUtility.repositoryIdOf(name);
out.write_string(repID);
out.write_long(ex.minor);
out.write_long(ex.completed.value());
any.read_value(out.create_input_stream(), getSystemExceptionTypeCode(orb, repID, name));
}
public static SystemException extractSystemException(Any any) {
InputStream in = any.create_input_stream();
ORB orb = (ORB) (in.orb());
if (!isSystemExceptionTypeCode(any.type(), orb)) {
throw wrapper.unknownDsiSysex(CompletionStatus.COMPLETED_MAYBE);
}
return ORBUtility.readSystemException(in);
}
/** Return default ValueHandler */
public static ValueHandler createValueHandler() {
return Util.createValueHandler();
}
/**
* Returns true if it was accurately determined that the remote ORB is a foreign (non-JavaSoft)
* ORB. Note: If passed the ORBSingleton, this will return false.
*/
public static boolean isForeignORB(ORB orb) {
if (orb == null) return false;
try {
return orb.getORBVersion().equals(ORBVersionFactory.getFOREIGN());
} catch (SecurityException se) {
return false;
}
}
/**
* Unmarshal a byte array to an integer. Assume the bytes are in BIGENDIAN order. i.e.
* array[offset] is the most-significant-byte and array[offset+3] is the least-significant-byte.
*
* @param array The array of bytes.
* @param offset The offset from which to start unmarshalling.
*/
public static int bytesToInt(byte[] array, int offset) {
int b1, b2, b3, b4;
b1 = (array[offset++] << 24) & 0xFF000000;
b2 = (array[offset++] << 16) & 0x00FF0000;
b3 = (array[offset++] << 8) & 0x0000FF00;
b4 = (array[offset++] << 0) & 0x000000FF;
return (b1 | b2 | b3 | b4);
}
/**
* Marshal an integer to a byte array. The bytes are in BIGENDIAN order. i.e. array[offset] is the
* most-significant-byte and array[offset+3] is the least-significant-byte.
*
* @param array The array of bytes.
* @param offset The offset from which to start marshalling.
*/
public static void intToBytes(int value, byte[] array, int offset) {
array[offset++] = (byte) ((value >>> 24) & 0xFF);
array[offset++] = (byte) ((value >>> 16) & 0xFF);
array[offset++] = (byte) ((value >>> 8) & 0xFF);
array[offset++] = (byte) ((value >>> 0) & 0xFF);
}
/** Converts an Ascii Character into Hexadecimal digit */
public static int hexOf(char x) {
int val;
val = x - '0';
if (val >= 0 && val <= 9) return val;
val = (x - 'a') + 10;
if (val >= 10 && val <= 15) return val;
val = (x - 'A') + 10;
if (val >= 10 && val <= 15) return val;
throw wrapper.badHexDigit();
}
// method moved from util.Utility
/**
* Static method for writing a CORBA standard exception to a stream.
*
* @param strm The OutputStream to use for marshaling.
*/
public static void writeSystemException(SystemException ex, OutputStream strm) {
String s;
s = repositoryIdOf(ex.getClass().getName());
strm.write_string(s);
strm.write_long(ex.minor);
strm.write_long(ex.completed.value());
}
/**
* Static method for reading a CORBA standard exception from a stream.
*
* @param strm The InputStream to use for unmarshaling.
*/
public static SystemException readSystemException(InputStream strm) {
try {
String name = classNameOf(strm.read_string());
SystemException ex = (SystemException) ORBClassLoader.loadClass(name).newInstance();
ex.minor = strm.read_long();
ex.completed = CompletionStatus.from_int(strm.read_long());
return ex;
} catch (Exception ex) {
throw wrapper.unknownSysex(CompletionStatus.COMPLETED_MAYBE, ex);
}
}
/**
* Get the class name corresponding to a particular repository Id. This is used by the system to
* unmarshal (instantiate) the appropriate exception class for an marshaled as the value of its
* repository Id.
*
* @param repositoryId The repository Id for which we want a class name.
*/
public static String classNameOf(String repositoryId) {
String className = null;
className = (String) exceptionClassNames.get(repositoryId);
if (className == null) className = "org.omg.CORBA.UNKNOWN";
return className;
}
/**
* Return true if this repositoryId is a SystemException.
*
* @param repositoryId The repository Id to check.
*/
public static boolean isSystemException(String repositoryId) {
String className = null;
className = (String) exceptionClassNames.get(repositoryId);
if (className == null) return false;
else return true;
}
/** @return the Java serialization encoding version. */
public static byte getEncodingVersion(ORB orb, IOR ior) {
// Is Java serialization enabled?
// Check the JavaSerializationComponent (tagged component)
// in the IIOPProfile. If present, the peer ORB's GIOP is capable
// of using Java serialization instead of CDR serialization.
// In such a case, use Java serialization, iff the java serialization
// versions match.
if (orb.getORBData().isJavaSerializationEnabled()) {
IIOPProfile prof = ior.getProfile();
IIOPProfileTemplate profTemp = (IIOPProfileTemplate) prof.getTaggedProfileTemplate();
java.util.Iterator iter = profTemp.iteratorById(ORBConstants.TAG_JAVA_SERIALIZATION_ID);
if (iter.hasNext()) {
JavaSerializationComponent jc = (JavaSerializationComponent) iter.next();
byte jcVersion = jc.javaSerializationVersion();
if (jcVersion >= Message.JAVA_ENC_VERSION) {
return Message.JAVA_ENC_VERSION;
} else if (jcVersion > Message.CDR_ENC_VERSION) {
return jc.javaSerializationVersion();
} else {
// throw error?
// Since encodingVersion is <= 0 (CDR_ENC_VERSION).
}
}
}
return Message.CDR_ENC_VERSION; // default
}
/**
* Get the repository id corresponding to a particular class. This is used by the system to write
* the appropriate repository id for a system exception.
*
* @param name The class name of the system exception.
*/
public static String repositoryIdOf(String name) {
String id;
id = (String) exceptionRepositoryIds.get(name);
if (id == null) id = "IDL:omg.org/CORBA/UNKNOWN:1.0";
return id;
}
private static final Hashtable exceptionClassNames = new Hashtable();
private static final Hashtable exceptionRepositoryIds = new Hashtable();
static {
//
// construct repositoryId -> className hashtable
//
exceptionClassNames.put("IDL:omg.org/CORBA/BAD_CONTEXT:1.0", "org.omg.CORBA.BAD_CONTEXT");
exceptionClassNames.put("IDL:omg.org/CORBA/BAD_INV_ORDER:1.0", "org.omg.CORBA.BAD_INV_ORDER");
exceptionClassNames.put("IDL:omg.org/CORBA/BAD_OPERATION:1.0", "org.omg.CORBA.BAD_OPERATION");
exceptionClassNames.put("IDL:omg.org/CORBA/BAD_PARAM:1.0", "org.omg.CORBA.BAD_PARAM");
exceptionClassNames.put("IDL:omg.org/CORBA/BAD_TYPECODE:1.0", "org.omg.CORBA.BAD_TYPECODE");
exceptionClassNames.put("IDL:omg.org/CORBA/COMM_FAILURE:1.0", "org.omg.CORBA.COMM_FAILURE");
exceptionClassNames.put(
"IDL:omg.org/CORBA/DATA_CONVERSION:1.0", "org.omg.CORBA.DATA_CONVERSION");
exceptionClassNames.put("IDL:omg.org/CORBA/IMP_LIMIT:1.0", "org.omg.CORBA.IMP_LIMIT");
exceptionClassNames.put("IDL:omg.org/CORBA/INTF_REPOS:1.0", "org.omg.CORBA.INTF_REPOS");
exceptionClassNames.put("IDL:omg.org/CORBA/INTERNAL:1.0", "org.omg.CORBA.INTERNAL");
exceptionClassNames.put("IDL:omg.org/CORBA/INV_FLAG:1.0", "org.omg.CORBA.INV_FLAG");
exceptionClassNames.put("IDL:omg.org/CORBA/INV_IDENT:1.0", "org.omg.CORBA.INV_IDENT");
exceptionClassNames.put("IDL:omg.org/CORBA/INV_OBJREF:1.0", "org.omg.CORBA.INV_OBJREF");
exceptionClassNames.put("IDL:omg.org/CORBA/MARSHAL:1.0", "org.omg.CORBA.MARSHAL");
exceptionClassNames.put("IDL:omg.org/CORBA/NO_MEMORY:1.0", "org.omg.CORBA.NO_MEMORY");
exceptionClassNames.put("IDL:omg.org/CORBA/FREE_MEM:1.0", "org.omg.CORBA.FREE_MEM");
exceptionClassNames.put("IDL:omg.org/CORBA/NO_IMPLEMENT:1.0", "org.omg.CORBA.NO_IMPLEMENT");
exceptionClassNames.put("IDL:omg.org/CORBA/NO_PERMISSION:1.0", "org.omg.CORBA.NO_PERMISSION");
exceptionClassNames.put("IDL:omg.org/CORBA/NO_RESOURCES:1.0", "org.omg.CORBA.NO_RESOURCES");
exceptionClassNames.put("IDL:omg.org/CORBA/NO_RESPONSE:1.0", "org.omg.CORBA.NO_RESPONSE");
exceptionClassNames.put("IDL:omg.org/CORBA/OBJ_ADAPTER:1.0", "org.omg.CORBA.OBJ_ADAPTER");
exceptionClassNames.put("IDL:omg.org/CORBA/INITIALIZE:1.0", "org.omg.CORBA.INITIALIZE");
exceptionClassNames.put("IDL:omg.org/CORBA/PERSIST_STORE:1.0", "org.omg.CORBA.PERSIST_STORE");
exceptionClassNames.put("IDL:omg.org/CORBA/TRANSIENT:1.0", "org.omg.CORBA.TRANSIENT");
exceptionClassNames.put("IDL:omg.org/CORBA/UNKNOWN:1.0", "org.omg.CORBA.UNKNOWN");
exceptionClassNames.put(
"IDL:omg.org/CORBA/OBJECT_NOT_EXIST:1.0", "org.omg.CORBA.OBJECT_NOT_EXIST");
// SystemExceptions from OMG Transactions Service Spec
exceptionClassNames.put(
"IDL:omg.org/CORBA/INVALID_TRANSACTION:1.0", "org.omg.CORBA.INVALID_TRANSACTION");
exceptionClassNames.put(
"IDL:omg.org/CORBA/TRANSACTION_REQUIRED:1.0", "org.omg.CORBA.TRANSACTION_REQUIRED");
exceptionClassNames.put(
"IDL:omg.org/CORBA/TRANSACTION_ROLLEDBACK:1.0", "org.omg.CORBA.TRANSACTION_ROLLEDBACK");
// from portability RTF 98-07-01.txt
exceptionClassNames.put("IDL:omg.org/CORBA/INV_POLICY:1.0", "org.omg.CORBA.INV_POLICY");
// from orbrev/00-09-01 (CORBA 2.4 Draft Specification)
exceptionClassNames.put(
"IDL:omg.org/CORBA/TRANSACTION_UNAVAILABLE:1.0", "org.omg.CORBA.TRANSACTION_UNAVAILABLE");
exceptionClassNames.put(
"IDL:omg.org/CORBA/TRANSACTION_MODE:1.0", "org.omg.CORBA.TRANSACTION_MODE");
// Exception types introduced between CORBA 2.4 and 3.0
exceptionClassNames.put(
"IDL:omg.org/CORBA/CODESET_INCOMPATIBLE:1.0", "org.omg.CORBA.CODESET_INCOMPATIBLE");
exceptionClassNames.put("IDL:omg.org/CORBA/REBIND:1.0", "org.omg.CORBA.REBIND");
exceptionClassNames.put("IDL:omg.org/CORBA/TIMEOUT:1.0", "org.omg.CORBA.TIMEOUT");
exceptionClassNames.put("IDL:omg.org/CORBA/BAD_QOS:1.0", "org.omg.CORBA.BAD_QOS");
// Exception types introduced in CORBA 3.0
exceptionClassNames.put(
"IDL:omg.org/CORBA/INVALID_ACTIVITY:1.0", "org.omg.CORBA.INVALID_ACTIVITY");
exceptionClassNames.put(
"IDL:omg.org/CORBA/ACTIVITY_COMPLETED:1.0", "org.omg.CORBA.ACTIVITY_COMPLETED");
exceptionClassNames.put(
"IDL:omg.org/CORBA/ACTIVITY_REQUIRED:1.0", "org.omg.CORBA.ACTIVITY_REQUIRED");
//
// construct className -> repositoryId hashtable
//
Enumeration keys = exceptionClassNames.keys();
java.lang.Object s;
String rId;
String cName;
try {
while (keys.hasMoreElements()) {
s = keys.nextElement();
rId = (String) s;
cName = (String) exceptionClassNames.get(rId);
exceptionRepositoryIds.put(cName, rId);
}
} catch (NoSuchElementException e) {
}
}
/**
* Parse a version string such as "1.1.6" or "jdk1.2fcs" into a version array of integers {1, 1,
* 6} or {1, 2}. A string of "n." or "n..m" is equivalent to "n.0" or "n.0.m" respectively.
*/
public static int[] parseVersion(String version) {
if (version == null) return new int[0];
char[] s = version.toCharArray();
// find the maximum span of the string "n.n.n..." where n is an integer
int start = 0;
for (; start < s.length && (s[start] < '0' || s[start] > '9'); ++start)
if (start == s.length) // no digit found
return new int[0];
int end = start + 1;
int size = 1;
for (; end < s.length; ++end)
if (s[end] == '.') ++size;
else if (s[end] < '0' || s[end] > '9') break;
int[] val = new int[size];
for (int i = 0; i < size; ++i) {
int dot = version.indexOf('.', start);
if (dot == -1 || dot > end) dot = end;
if (start >= dot) // cases like "n." or "n..m"
val[i] = 0; // convert equivalent to "n.0" or "n.0.m"
else val[i] = Integer.parseInt(version.substring(start, dot));
start = dot + 1;
}
return val;
}
/**
* Compare two version arrays. Return 1, 0 or -1 if v1 is greater than, equal to, or less than v2.
*/
public static int compareVersion(int[] v1, int[] v2) {
if (v1 == null) v1 = new int[0];
if (v2 == null) v2 = new int[0];
for (int i = 0; i < v1.length; ++i) {
if (i >= v2.length || v1[i] > v2[i]) // v1 is longer or greater than v2
return 1;
if (v1[i] < v2[i]) return -1;
}
return v1.length == v2.length ? 0 : -1;
}
/**
* Compare two version strings. Return 1, 0 or -1 if v1 is greater than, equal to, or less than
* v2.
*/
public static synchronized int compareVersion(String v1, String v2) {
return compareVersion(parseVersion(v1), parseVersion(v2));
}
private static String compressClassName(String name) {
// Note that this must end in . in order to be renamed correctly.
String prefix = "com.sun.corba.se.";
if (name.startsWith(prefix)) {
return "(ORB)." + name.substring(prefix.length());
} else return name;
}
// Return a compressed representation of the thread name. This is particularly
// useful on the server side, where there are many SelectReaderThreads, and
// we need a short unambiguous name for such threads.
public static String getThreadName(Thread thr) {
if (thr == null) return "null";
// This depends on the formatting in SelectReaderThread and CorbaConnectionImpl.
// Pattern for SelectReaderThreads:
// SelectReaderThread CorbaConnectionImpl[ <host> <post> <state>]
// Any other pattern in the Thread's name is just returned.
String name = thr.getName();
StringTokenizer st = new StringTokenizer(name);
int numTokens = st.countTokens();
if (numTokens != 5) return name;
String[] tokens = new String[numTokens];
for (int ctr = 0; ctr < numTokens; ctr++) tokens[ctr] = st.nextToken();
if (!tokens[0].equals("SelectReaderThread")) return name;
return "SelectReaderThread[" + tokens[2] + ":" + tokens[3] + "]";
}
private static String formatStackTraceElement(StackTraceElement ste) {
return compressClassName(ste.getClassName())
+ "."
+ ste.getMethodName()
+ (ste.isNativeMethod()
? "(Native Method)"
: (ste.getFileName() != null && ste.getLineNumber() >= 0
? "(" + ste.getFileName() + ":" + ste.getLineNumber() + ")"
: (ste.getFileName() != null
? "(" + ste.getFileName() + ")"
: "(Unknown Source)")));
}
private static void printStackTrace(StackTraceElement[] trace) {
System.out.println(" Stack Trace:");
// print the stack trace, ommitting the zeroth element, which is
// always this method.
for (int ctr = 1; ctr < trace.length; ctr++) {
System.out.print(" >");
System.out.println(formatStackTraceElement(trace[ctr]));
}
}
//
// Implements all dprint calls in this package.
//
public static synchronized void dprint(java.lang.Object obj, String msg) {
System.out.println(
compressClassName(obj.getClass().getName())
+ "("
+ getThreadName(Thread.currentThread())
+ "): "
+ msg);
}
public static synchronized void dprint(String className, String msg) {
System.out.println(
compressClassName(className) + "(" + getThreadName(Thread.currentThread()) + "): " + msg);
}
public synchronized void dprint(String msg) {
ORBUtility.dprint(this, msg);
}
public static synchronized void dprintTrace(Object obj, String msg) {
ORBUtility.dprint(obj, msg);
Throwable thr = new Throwable();
printStackTrace(thr.getStackTrace());
}
public static synchronized void dprint(java.lang.Object caller, String msg, Throwable t) {
System.out.println(
compressClassName(caller.getClass().getName())
+ '('
+ Thread.currentThread()
+ "): "
+ msg);
if (t != null) printStackTrace(t.getStackTrace());
}
public static String[] concatenateStringArrays(String[] arr1, String[] arr2) {
String[] result = new String[arr1.length + arr2.length];
for (int ctr = 0; ctr < arr1.length; ctr++) result[ctr] = arr1[ctr];
for (int ctr = 0; ctr < arr2.length; ctr++) result[ctr + arr1.length] = arr2[ctr];
return result;
}
/**
* Throws the CORBA equivalent of a java.io.NotSerializableException
*
* <p>Duplicated from util/Utility for Pure ORB reasons. There are two reasons for this:
*
* <p>1) We can't introduce dependencies on the util version from outside of the io/util packages
* since it will not exist in the pure ORB build running on JDK 1.3.x.
*
* <p>2) We need to pick up the correct minor code from OMGSystemException.
*/
public static void throwNotSerializableForCorba(String className) {
throw omgWrapper.notSerializable(CompletionStatus.COMPLETED_MAYBE, className);
}
/** Returns the maximum stream format version supported by our ValueHandler. */
public static byte getMaxStreamFormatVersion() {
ValueHandler vh = Util.createValueHandler();
if (!(vh instanceof javax.rmi.CORBA.ValueHandlerMultiFormat))
return ORBConstants.STREAM_FORMAT_VERSION_1;
else return ((ValueHandlerMultiFormat) vh).getMaximumStreamFormatVersion();
}
public static CorbaClientDelegate makeClientDelegate(IOR ior) {
ORB orb = ior.getORB();
CorbaContactInfoList ccil = orb.getCorbaContactInfoListFactory().create(ior);
CorbaClientDelegate del = orb.getClientDelegateFactory().create(ccil);
return del;
}
/** This method is used to create untyped object references. */
public static org.omg.CORBA.Object makeObjectReference(IOR ior) {
CorbaClientDelegate del = makeClientDelegate(ior);
org.omg.CORBA.Object objectImpl = new CORBAObjectImpl();
StubAdapter.setDelegate(objectImpl, del);
return objectImpl;
}
/**
* This method obtains an IOR from a CORBA object reference. It will return null if obj is a local
* object, a null object, or an object implemented by a different ORB. It will throw BAD_OPERATION
* if obj is an unconnected RMI-IIOP object.
*
* @return IOR the IOR that represents this objref. This will never be null.
* @exception BAD_OPERATION (from oi._get_delegate) if obj is a normal objref, but does not have a
* delegate set.
* @exception BAD_PARAM if obj is a local object, or else was created by a foreign ORB.
*/
public static IOR getIOR(org.omg.CORBA.Object obj) {
if (obj == null) throw wrapper.nullObjectReference();
IOR ior = null;
if (StubAdapter.isStub(obj)) {
org.omg.CORBA.portable.Delegate del = StubAdapter.getDelegate(obj);
if (del instanceof CorbaClientDelegate) {
CorbaClientDelegate cdel = (CorbaClientDelegate) del;
ContactInfoList cil = cdel.getContactInfoList();
if (cil instanceof CorbaContactInfoList) {
CorbaContactInfoList ccil = (CorbaContactInfoList) cil;
ior = ccil.getTargetIOR();
if (ior == null) throw wrapper.nullIor();
return ior;
} else {
// This is our code, but the ContactInfoList is not a
// CorbaContactInfoList. This should not happen, because
// we are in the CORBA application of the DCSA framework.
// This is a coding error, and thus an INTERNAL exception
// should be thrown.
// XXX needs minor code
throw new INTERNAL();
}
}
// obj is implemented by a foreign ORB, because the Delegate is not a
// ClientDelegate.
// XXX this case could be handled by marshalling and
// unmarshalling. However, object_to_string cannot be used
// here, as it is implemented with getIOR. Note that this
// will require access to an ORB, so that we can create streams
// as needed. The ORB is available simply as io._orb().
throw wrapper.objrefFromForeignOrb();
} else throw wrapper.localObjectNotAllowed();
}
/**
* Obtains an IOR for the object reference obj, first connecting it to the ORB if necessary.
*
* @return IOR the IOR that represents this objref. This will never be null.
* @exception BAD_OPERATION if the object could not be connected, if a connection attempt was
* needed.
* @exception BAD_PARAM if obj is a local object, or else was created by a foreign ORB.
*/
public static IOR connectAndGetIOR(ORB orb, org.omg.CORBA.Object obj) {
IOR result;
try {
result = getIOR(obj);
} catch (BAD_OPERATION bop) {
if (StubAdapter.isStub(obj)) {
try {
StubAdapter.connect(obj, orb);
} catch (java.rmi.RemoteException exc) {
throw wrapper.connectingServant(exc);
}
} else {
orb.connect(obj);
}
result = getIOR(obj);
}
return result;
}
public static String operationNameAndRequestId(CorbaMessageMediator m) {
return "op/" + m.getOperationName() + " id/" + m.getRequestId();
}
public static boolean isPrintable(char c) {
if (Character.isJavaIdentifierStart(c)) {
// Letters and $ _
return true;
}
if (Character.isDigit(c)) {
return true;
}
switch (Character.getType(c)) {
case Character.MODIFIER_SYMBOL:
return true; // ` ^
case Character.DASH_PUNCTUATION:
return true; // -
case Character.MATH_SYMBOL:
return true; // = ~ + | < >
case Character.OTHER_PUNCTUATION:
return true; // !@#%&*;':",./?
case Character.START_PUNCTUATION:
return true; // ( [ {
case Character.END_PUNCTUATION:
return true; // ) ] }
}
return false;
}
public static String getClassSecurityInfo(final Class cl) {
// Returns a String which looks similar to:
// PermissionCollection java.security.Permissions@1053693 ...
// (java.io.FilePermission <<ALL FILES>> ....)
// (java.io.FilePermission /export0/sunwappserv/lib/- ...)
// ... other permissions ...
// Domain ProtectionDomain (file:/export0/sunwappserv/lib-)
// java.security.Permissions@141fedb (
// (java.io.FilePermission <<ALL FILES>> ...)
// (java.io.FilePermission /var/tmp//- ...)
String result =
(String)
AccessController.doPrivileged(
new PrivilegedAction() {
public java.lang.Object run() {
StringBuffer sb = new StringBuffer(500);
ProtectionDomain pd = cl.getProtectionDomain();
Policy policy = Policy.getPolicy();
PermissionCollection pc = policy.getPermissions(pd);
sb.append("\nPermissionCollection ");
sb.append(pc.toString());
// Don't need to add 'Protection Domain' string, it's
// in ProtectionDomain.toString() already.
sb.append(pd.toString());
return sb.toString();
}
});
return result;
}
}