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* Copyright (c) 2004, 2013, Oracle and/or its affiliates. All rights reserved.
* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*
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package com.sun.corba.se.impl.encoding;
import java.io.IOException;
import java.io.ObjectOutputStream;
import java.io.ByteArrayOutputStream;
import java.nio.ByteBuffer;
import com.sun.corba.se.spi.orb.ORB;
import com.sun.corba.se.spi.ior.IOR;
import com.sun.corba.se.spi.ior.IORFactories;
import com.sun.corba.se.spi.ior.iiop.GIOPVersion;
import com.sun.corba.se.spi.logging.CORBALogDomains;
import com.sun.corba.se.spi.presentation.rmi.StubAdapter;
import com.sun.corba.se.impl.util.Utility;
import com.sun.corba.se.impl.orbutil.ORBConstants;
import com.sun.corba.se.impl.orbutil.ORBUtility;
import com.sun.corba.se.impl.corba.TypeCodeImpl;
import com.sun.corba.se.impl.logging.ORBUtilSystemException;
import com.sun.corba.se.impl.protocol.giopmsgheaders.Message;
import org.omg.CORBA.Any;
import org.omg.CORBA.TypeCode;
import org.omg.CORBA.Principal;
import org.omg.CORBA.CompletionStatus;
/**
* Implementation class that uses Java serialization for output streams.
* This assumes a GIOP version 1.2 message format.
*
* This class uses a ByteArrayOutputStream as the underlying buffer. The
* first 16 bytes are direct writes into the underlying buffer. This allows
* [GIOPHeader (12 bytes) + requestID (4 bytes)] to be written as bytes.
* Subsequent write operations on this output stream object uses
* ObjectOutputStream class to write into the buffer. This allows marshaling
* complex types and graphs using the ObjectOutputStream implementation.
*
* Note, this class assumes a GIOP 1.2 style header. Note, we expect that the
* first 16 bytes are written only using the write_octet, write_long or
* write_ulong method calls.
*
* @author Ram Jeyaraman
*/
final class IDLJavaSerializationOutputStream extends CDROutputStreamBase {
private ORB orb;
private byte encodingVersion;
private ObjectOutputStream os;
private _ByteArrayOutputStream bos;
private BufferManagerWrite bufferManager;
// [GIOPHeader(12) + requestID(4)] bytes
private final int directWriteLength = Message.GIOPMessageHeaderLength + 4;
protected ORBUtilSystemException wrapper;
class _ByteArrayOutputStream extends ByteArrayOutputStream {
_ByteArrayOutputStream(int initialSize) {
super(initialSize);
}
byte[] getByteArray() {
return this.buf;
}
}
class MarshalObjectOutputStream extends ObjectOutputStream {
ORB orb;
MarshalObjectOutputStream(java.io.OutputStream out, ORB orb)
throws IOException {
super(out);
this.orb = orb;
java.security.AccessController.doPrivileged(
new java.security.PrivilegedAction() {
public Object run() {
// needs SerializablePermission("enableSubstitution")
enableReplaceObject(true);
return null;
}
}
);
}
/**
* Checks for objects that are instances of java.rmi.Remote
* that need to be serialized as proxy (Stub) objects.
*/
protected final Object replaceObject(Object obj) throws IOException {
try {
if ((obj instanceof java.rmi.Remote) &&
!(StubAdapter.isStub(obj))) {
return Utility.autoConnect(obj, orb, true);
}
} catch (Exception e) {
IOException ie = new IOException("replaceObject failed");
ie.initCause(e);
throw ie;
}
return obj;
}
}
public IDLJavaSerializationOutputStream(byte encodingVersion) {
super();
this.encodingVersion = encodingVersion;
}
public void init(org.omg.CORBA.ORB orb, boolean littleEndian,
BufferManagerWrite bufferManager,
byte streamFormatVersion,
boolean usePooledByteBuffers) {
this.orb = (ORB) orb;
this.bufferManager = bufferManager;
wrapper = ORBUtilSystemException.get((ORB) orb,
CORBALogDomains.RPC_ENCODING);
bos =
new _ByteArrayOutputStream(ORBConstants.GIOP_DEFAULT_BUFFER_SIZE);
}
// Called from read_octet or read_long or read_ulong method.
private void initObjectOutputStream() {
//System.out.print(" os ");
if (os != null) {
throw wrapper.javaStreamInitFailed();
}
try {
os = new MarshalObjectOutputStream(bos, orb);
} catch (Exception e) {
throw wrapper.javaStreamInitFailed(e);
}
}
// org.omg.CORBA.portable.OutputStream
// Primitive types.
public final void write_boolean(boolean value) {
try {
os.writeBoolean(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_boolean");
}
}
public final void write_char(char value) {
try {
os.writeChar(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_char");
}
}
public final void write_wchar(char value) {
this.write_char(value);
}
public final void write_octet(byte value) {
// check if size < [ GIOPHeader(12) + requestID(4)] bytes
if (bos.size() < directWriteLength) {
bos.write(value); // direct write.
if (bos.size() == directWriteLength) {
initObjectOutputStream();
}
return;
}
try {
os.writeByte(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_octet");
}
}
public final void write_short(short value) {
try {
os.writeShort(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_short");
}
}
public final void write_ushort(short value) {
this.write_short(value);
}
public final void write_long(int value) {
// check if size < [ GIOPHeader(12) + requestID(4)] bytes
if (bos.size() < directWriteLength) {
// Use big endian (network byte order). This is fixed.
// Both the writer and reader use the same byte order.
bos.write((byte)((value >>> 24) & 0xFF));
bos.write((byte)((value >>> 16) & 0xFF));
bos.write((byte)((value >>> 8) & 0xFF));
bos.write((byte)((value >>> 0) & 0xFF));
if (bos.size() == directWriteLength) {
initObjectOutputStream();
} else if (bos.size() > directWriteLength) {
// Cannot happen. All direct writes are contained
// within the first 16 bytes.
wrapper.javaSerializationException("write_long");
}
return;
}
try {
os.writeInt(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_long");
}
}
public final void write_ulong(int value) {
this.write_long(value);
}
public final void write_longlong(long value) {
try {
os.writeLong(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_longlong");
}
}
public final void write_ulonglong(long value) {
this.write_longlong(value);
}
public final void write_float(float value) {
try {
os.writeFloat(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_float");
}
}
public final void write_double(double value) {
try {
os.writeDouble(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_double");
}
}
// String types.
public final void write_string(String value) {
try {
os.writeUTF(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_string");
}
}
public final void write_wstring(String value) {
try {
os.writeObject(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_wstring");
}
}
// Array types.
public final void write_boolean_array(boolean[] value,
int offset, int length) {
for (int i = 0; i < length; i++) {
write_boolean(value[offset + i]);
}
}
public final void write_char_array(char[] value, int offset, int length) {
for (int i = 0; i < length; i++) {
write_char(value[offset + i]);
}
}
public final void write_wchar_array(char[] value, int offset, int length) {
write_char_array(value, offset, length);
}
public final void write_octet_array(byte[] value, int offset, int length) {
try {
os.write(value, offset, length);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_octet_array");
}
}
public final void write_short_array(short[] value,
int offset, int length) {
for (int i = 0; i < length; i++) {
write_short(value[offset + i]);
}
}
public final void write_ushort_array(short[] value,
int offset, int length){
write_short_array(value, offset, length);
}
public final void write_long_array(int[] value, int offset, int length) {
for (int i = 0; i < length; i++) {
write_long(value[offset + i]);
}
}
public final void write_ulong_array(int[] value, int offset, int length) {
write_long_array(value, offset, length);
}
public final void write_longlong_array(long[] value,
int offset, int length) {
for (int i = 0; i < length; i++) {
write_longlong(value[offset + i]);
}
}
public final void write_ulonglong_array(long[] value,
int offset,int length) {
write_longlong_array(value, offset, length);
}
public final void write_float_array(float[] value,
int offset, int length) {
for (int i = 0; i < length; i++) {
write_float(value[offset + i]);
}
}
public final void write_double_array(double[] value,
int offset, int length) {
for (int i = 0; i < length; i++) {
write_double(value[offset + i]);
}
}
// Complex types (objects and graphs).
public final void write_Object(org.omg.CORBA.Object value) {
if (value == null) {
IOR nullIOR = IORFactories.makeIOR(orb);
nullIOR.write(parent);
return;
}
// IDL to Java formal 01-06-06 1.21.4.2
if (value instanceof org.omg.CORBA.LocalObject) {
throw wrapper.writeLocalObject(CompletionStatus.COMPLETED_MAYBE);
}
IOR ior = ORBUtility.connectAndGetIOR(orb, value);
ior.write(parent);
return;
}
public final void write_TypeCode(TypeCode tc) {
if (tc == null) {
throw wrapper.nullParam(CompletionStatus.COMPLETED_MAYBE);
}
TypeCodeImpl tci;
if (tc instanceof TypeCodeImpl) {
tci = (TypeCodeImpl) tc;
} else {
tci = new TypeCodeImpl(orb, tc);
}
tci.write_value((org.omg.CORBA_2_3.portable.OutputStream) parent);
}
public final void write_any(Any any) {
if (any == null) {
throw wrapper.nullParam(CompletionStatus.COMPLETED_MAYBE);
}
write_TypeCode(any.type());
any.write_value(parent);
}
public final void write_Principal(Principal p) {
// We don't need an implementation for this method, since principal
// is absent in GIOP version 1.2 or above.
write_long(p.name().length);
write_octet_array(p.name(), 0, p.name().length);
}
public final void write_fixed(java.math.BigDecimal bigDecimal) {
// This string might contain sign and/or dot
this.write_fixed(bigDecimal.toString(), bigDecimal.signum());
}
// The string may contain a sign and dot
private void write_fixed(String string, int signum) {
int stringLength = string.length();
// Each octet contains (up to) two decimal digits.
byte doubleDigit = 0;
char ch;
byte digit;
// First calculate the string length without optional sign and dot.
int numDigits = 0;
for (int i=0; i<stringLength; i++) {
ch = string.charAt(i);
if (ch == '-' || ch == '+' || ch == '.')
continue;
numDigits++;
}
for (int i=0; i<stringLength; i++) {
ch = string.charAt(i);
if (ch == '-' || ch == '+' || ch == '.')
continue;
digit = (byte)Character.digit(ch, 10);
if (digit == -1) {
throw wrapper.badDigitInFixed(
CompletionStatus.COMPLETED_MAYBE);
}
// If the fixed type has an odd number of decimal digits, then the
// representation begins with the first (most significant) digit.
// Otherwise, this first half-octet is all zero, and the first
// digit is in the second half-octet.
if (numDigits % 2 == 0) {
doubleDigit |= digit;
this.write_octet(doubleDigit);
doubleDigit = 0;
} else {
doubleDigit |= (digit << 4);
}
numDigits--;
}
// The sign configuration in the last half-octet of the representation,
// is 0xD for negative numbers and 0xC for positive and zero values.
if (signum == -1) {
doubleDigit |= 0xd;
} else {
doubleDigit |= 0xc;
}
this.write_octet(doubleDigit);
}
public final org.omg.CORBA.ORB orb() {
return this.orb;
}
// org.omg.CORBA_2_3.portable.OutputStream
public final void write_value(java.io.Serializable value) {
write_value(value, (String) null);
}
public final void write_value(java.io.Serializable value,
java.lang.Class clz) {
write_value(value);
}
public final void write_value(java.io.Serializable value,
String repository_id) {
try {
os.writeObject(value);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_value");
}
}
public final void write_value(java.io.Serializable value,
org.omg.CORBA.portable.BoxedValueHelper factory) {
this.write_value(value, (String) null);
}
public final void write_abstract_interface(java.lang.Object obj) {
boolean isCorbaObject = false; // Assume value type.
org.omg.CORBA.Object theCorbaObject = null;
// Is it a CORBA.Object?
if (obj != null && obj instanceof org.omg.CORBA.Object) {
theCorbaObject = (org.omg.CORBA.Object)obj;
isCorbaObject = true;
}
// Write the boolean flag.
this.write_boolean(isCorbaObject);
// Now write out the object.
if (isCorbaObject) {
write_Object(theCorbaObject);
} else {
try {
write_value((java.io.Serializable)obj);
} catch(ClassCastException cce) {
if (obj instanceof java.io.Serializable) {
throw cce;
} else {
ORBUtility.throwNotSerializableForCorba(
obj.getClass().getName());
}
}
}
}
// com.sun.corba.se.os.encoding.MarshalOutputStream
public final void start_block() {
throw wrapper.giopVersionError();
}
public final void end_block() {
throw wrapper.giopVersionError();
}
public final void putEndian() {
throw wrapper.giopVersionError();
}
public void writeTo(java.io.OutputStream s) throws IOException {
try {
os.flush();
bos.writeTo(s);
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "writeTo");
}
}
public final byte[] toByteArray() {
try {
os.flush();
return bos.toByteArray(); // new copy.
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "toByteArray");
}
}
// org.omg.CORBA.DataOutputStream
public final void write_Abstract (java.lang.Object value) {
write_abstract_interface(value);
}
public final void write_Value(java.io.Serializable value) {
write_value(value);
}
public final void write_any_array(org.omg.CORBA.Any[] value,
int offset, int length) {
for(int i = 0; i < length; i++) {
write_any(value[offset + i]);
}
}
// org.omg.CORBA.portable.ValueBase
public final String[] _truncatable_ids() {
throw wrapper.giopVersionError();
}
// Other.
public final int getSize() {
try {
os.flush();
return bos.size();
} catch (Exception e) {
throw wrapper.javaSerializationException(e, "write_boolean");
}
}
public final int getIndex() {
return getSize();
}
protected int getRealIndex(int index) {
return getSize();
}
public final void setIndex(int value) {
throw wrapper.giopVersionError();
}
public final ByteBuffer getByteBuffer() {
throw wrapper.giopVersionError();
}
public final void setByteBuffer(ByteBuffer byteBuffer) {
throw wrapper.giopVersionError();
}
public final boolean isLittleEndian() {
// Java serialization uses network byte order, that is, big-endian.
return false;
}
public ByteBufferWithInfo getByteBufferWithInfo() {
try {
os.flush();
} catch (Exception e) {
throw wrapper.javaSerializationException(
e, "getByteBufferWithInfo");
}
ByteBuffer byteBuffer = ByteBuffer.wrap(bos.getByteArray());
byteBuffer.limit(bos.size());
return new ByteBufferWithInfo(this.orb, byteBuffer, bos.size());
}
public void setByteBufferWithInfo(ByteBufferWithInfo bbwi) {
throw wrapper.giopVersionError();
}
public final BufferManagerWrite getBufferManager() {
return bufferManager;
}
// This will stay a custom add-on until the java-rtf issue is resolved.
// Then it should be declared in org.omg.CORBA.portable.OutputStream.
//
// Pads the string representation of bigDecimal with zeros to fit the given
// digits and scale before it gets written to the stream.
public final void write_fixed(java.math.BigDecimal bigDecimal,
short digits, short scale) {
String string = bigDecimal.toString();
String integerPart;
String fractionPart;
StringBuffer stringBuffer;
// Get rid of the sign
if (string.charAt(0) == '-' || string.charAt(0) == '+') {
string = string.substring(1);
}
// Determine integer and fraction parts
int dotIndex = string.indexOf('.');
if (dotIndex == -1) {
integerPart = string;
fractionPart = null;
} else if (dotIndex == 0 ) {
integerPart = null;
fractionPart = string;
} else {
integerPart = string.substring(0, dotIndex);
fractionPart = string.substring(dotIndex + 1);
}
// Pad both parts with zeros as necessary
stringBuffer = new StringBuffer(digits);
if (fractionPart != null) {
stringBuffer.append(fractionPart);
}
while (stringBuffer.length() < scale) {
stringBuffer.append('0');
}
if (integerPart != null) {
stringBuffer.insert(0, integerPart);
}
while (stringBuffer.length() < digits) {
stringBuffer.insert(0, '0');
}
// This string contains no sign or dot
this.write_fixed(stringBuffer.toString(), bigDecimal.signum());
}
public final void writeOctetSequenceTo(
org.omg.CORBA.portable.OutputStream s) {
byte[] buf = this.toByteArray(); // new copy.
s.write_long(buf.length);
s.write_octet_array(buf, 0, buf.length);
}
public final GIOPVersion getGIOPVersion() {
return GIOPVersion.V1_2;
}
public final void writeIndirection(int tag, int posIndirectedTo) {
throw wrapper.giopVersionError();
}
void freeInternalCaches() {}
void printBuffer() {
byte[] buf = this.toByteArray();
System.out.println("+++++++ Output Buffer ++++++++");
System.out.println();
System.out.println("Current position: " + buf.length);
//System.out.println("Total length : " + buf.length);
System.out.println();
char[] charBuf = new char[16];
try {
for (int i = 0; i < buf.length; i += 16) {
int j = 0;
// For every 16 bytes, there is one line
// of output. First, the hex output of
// the 16 bytes with each byte separated
// by a space.
while (j < 16 && j + i < buf.length) {
int k = buf[i + j];
if (k < 0)
k = 256 + k;
String hex = Integer.toHexString(k);
if (hex.length() == 1)
hex = "0" + hex;
System.out.print(hex + " ");
j++;
}
// Add any extra spaces to align the
// text column in case we didn't end
// at 16
while (j < 16) {
System.out.print(" ");
j++;
}
// Now output the ASCII equivalents. Non-ASCII
// characters are shown as periods.
int x = 0;
while (x < 16 && x + i < buf.length) {
if (ORBUtility.isPrintable((char)buf[i + x])) {
charBuf[x] = (char) buf[i + x];
} else {
charBuf[x] = '.';
}
x++;
}
System.out.println(new String(charBuf, 0, x));
}
} catch (Throwable t) {
t.printStackTrace();
}
System.out.println("++++++++++++++++++++++++++++++");
}
public void alignOnBoundary(int octetBoundary) {
throw wrapper.giopVersionError();
}
// Needed by request and reply messages for GIOP versions >= 1.2 only.
public void setHeaderPadding(boolean headerPadding) {
// no-op. We don't care about body alignment while using
// Java serialization. What the GIOP spec states does not apply here.
}
// ValueOutputStream -----------------------------
public void start_value(String rep_id) {
throw wrapper.giopVersionError();
}
public void end_value() {
throw wrapper.giopVersionError();
}
// java.io.OutputStream
// Note: These methods are defined in the super class and accessible.
//public abstract void write(byte b[]) throws IOException;
//public abstract void write(byte b[], int off, int len)
// throws IOException;
//public abstract void flush() throws IOException;
//public abstract void close() throws IOException;
}