/**
* Creates a ModuleSpecID in a given class, with a given class unique id. A UUID of a class and
* another UUID are provided.
*
* @param classUUID the class to which this will belong.
* @param specUUID the unique id of this spec in that class.
*/
protected ModuleSpecID(UUID classUUID, UUID specUUID) {
this();
id.longIntoBytes(ModuleSpecID.moduleClassIdOffset, classUUID.getMostSignificantBits());
id.longIntoBytes(ModuleSpecID.moduleClassIdOffset + 8, classUUID.getLeastSignificantBits());
id.longIntoBytes(ModuleSpecID.moduleSpecIdOffset, specUUID.getMostSignificantBits());
id.longIntoBytes(ModuleSpecID.moduleSpecIdOffset + 8, specUUID.getLeastSignificantBits());
}
public static JpsRemoteProto.Message.UUID toProtoUUID(UUID requestId) {
return JpsRemoteProto.Message.UUID
.newBuilder()
.setMostSigBits(requestId.getMostSignificantBits())
.setLeastSigBits(requestId.getLeastSignificantBits())
.build();
}
protected void putUUID(String name, UUID val) {
_put(BINARY, name);
_buf.writeInt(16);
_buf.write(B_UUID);
_buf.writeLong(val.getMostSignificantBits());
_buf.writeLong(val.getLeastSignificantBits());
}
public String getCompUniqueID() {
UUID tempID = null;
long longID = 0L;
StringBuffer result = new StringBuffer();
tempID = getPackage_id();
if (IdAssigner.NULL_UUID.equals(tempID)) tempID = getPackage_idCachedValue();
result.append(Long.toHexString(tempID.getMostSignificantBits()));
result.append(Long.toHexString(tempID.getLeastSignificantBits()));
tempID = getDt_id();
if (IdAssigner.NULL_UUID.equals(tempID)) tempID = getDt_idCachedValue();
result.append(Long.toHexString(tempID.getMostSignificantBits()));
result.append(Long.toHexString(tempID.getLeastSignificantBits()));
return result.toString();
}
@Override
public void writeCustomNBT(NBTTagCompound cmp) {
super.writeCustomNBT(cmp);
if (golemConnected != null) {
cmp.setLong(TAG_UUID_MOST, golemConnected.getMostSignificantBits());
cmp.setLong(TAG_UUID_LEAST, golemConnected.getLeastSignificantBits());
}
}
/**
* Returns a sorted map with annotations to be sent with each message. Default behavior is to
* include the current correlation id (if it is set).
*/
public SortedMap<String, byte[]> annotations() {
SortedMap<String, byte[]> ann = new TreeMap<String, byte[]>();
if (correlation_id != null) {
long hi = correlation_id.getMostSignificantBits();
long lo = correlation_id.getLeastSignificantBits();
ann.put("CORR", ByteBuffer.allocate(16).putLong(hi).putLong(lo).array());
}
return ann;
}
/**
* Converts message to bytes to send over network.
*
* @return Bytes representing this packet.
*/
public byte[] toBytes() {
byte[] buf = new byte[PACKET_SIZE];
int off = 0;
off = U.longToBytes(origNodeId.getLeastSignificantBits(), buf, off);
off = U.longToBytes(origNodeId.getMostSignificantBits(), buf, off);
off = U.longToBytes(targetNodeId.getLeastSignificantBits(), buf, off);
off = U.longToBytes(targetNodeId.getMostSignificantBits(), buf, off);
off = U.longToBytes(origTs, buf, off);
off = U.longToBytes(replyTs, buf, off);
assert off == PACKET_SIZE;
return buf;
}
public String getCompUniqueID() {
UUID tempID = null;
long longID = 0L;
StringBuffer result = new StringBuffer();
tempID = getId();
result.append(Long.toHexString(tempID.getMostSignificantBits()));
result.append(Long.toHexString(tempID.getLeastSignificantBits()));
return result.toString();
}
@Override
public void writeExternal(DataOutput out) throws IOException {
super.writeExternal(out);
out.writeLong(uuid1.getMostSignificantBits());
out.writeLong(uuid1.getLeastSignificantBits());
out.writeInt(int1);
if (revisions == null) {
out.writeInt(0);
} else {
out.writeInt(revisions.size());
for (TtkRefexUuidIntRevision rmv : revisions) {
rmv.writeExternal(out);
}
}
}
public static byte[] toBytes(UUID uuid) {
ByteBuffer byteBuffer = ByteBuffer.wrap(new byte[16]);
byteBuffer.putLong(uuid.getMostSignificantBits());
byteBuffer.putLong(uuid.getLeastSignificantBits());
return byteBuffer.array();
}
public boolean send(Socket socket) {
assert (socket != null);
ZMsg msg = new ZMsg();
// If we're sending to a ROUTER, send the routingId first
if (socket.getType() == ZMQ.ROUTER) {
msg.add(routingId);
}
int frameSize = 2 + 1; // Signature and message ID
switch (id) {
case LOG:
{
// sequence is a 2-byte integer
frameSize += 2;
// version is a 2-byte integer
frameSize += 2;
// level is a 1-byte integer
frameSize += 1;
// event is a 1-byte integer
frameSize += 1;
// node is a 2-byte integer
frameSize += 2;
// peer is a 2-byte integer
frameSize += 2;
// time is a 8-byte integer
frameSize += 8;
// host is a string with 1-byte length
frameSize++;
frameSize += (host != null) ? host.length() : 0;
// data is a long string with 4-byte length
frameSize += 4;
frameSize += (data != null) ? data.length() : 0;
}
break;
case STRUCTURES:
{
// sequence is a 2-byte integer
frameSize += 2;
// aliases is an array of strings
frameSize += 4;
if (aliases != null) {
for (String value : aliases) {
frameSize += 4;
frameSize += value.length();
}
}
// headers is an array of key=value strings
frameSize += 4;
if (headers != null) {
headersBytes = 0;
for (Map.Entry<String, String> entry : headers.entrySet()) {
headersBytes += 1 + entry.getKey().length();
headersBytes += 4 + entry.getValue().length();
}
frameSize += headersBytes;
}
}
break;
case BINARY:
{
// sequence is a 2-byte integer
frameSize += 2;
// flags is a block of 4 bytes
frameSize += 4;
// public_key is a chunk with 4-byte length
frameSize += 4;
frameSize += (public_key != null) ? public_key.length : 0;
// identifier is uuid with 16-byte length
frameSize += 16;
}
break;
case TYPES:
{
// sequence is a 2-byte integer
frameSize += 2;
// client_forename is a string with 1-byte length
frameSize++;
frameSize += (client_forename != null) ? client_forename.length() : 0;
// client_surname is a string with 1-byte length
frameSize++;
frameSize += (client_surname != null) ? client_surname.length() : 0;
// client_mobile is a string with 1-byte length
frameSize++;
frameSize += (client_mobile != null) ? client_mobile.length() : 0;
// client_email is a string with 1-byte length
frameSize++;
frameSize += (client_email != null) ? client_email.length() : 0;
// supplier_forename is a string with 1-byte length
frameSize++;
frameSize += (supplier_forename != null) ? supplier_forename.length() : 0;
// supplier_surname is a string with 1-byte length
frameSize++;
frameSize += (supplier_surname != null) ? supplier_surname.length() : 0;
// supplier_mobile is a string with 1-byte length
frameSize++;
frameSize += (supplier_mobile != null) ? supplier_mobile.length() : 0;
// supplier_email is a string with 1-byte length
frameSize++;
frameSize += (supplier_email != null) ? supplier_email.length() : 0;
}
break;
default:
System.out.printf("E: bad message type '%d', not sent\n", id);
assert (false);
}
// Now serialize message into the frame
ZFrame frame = new ZFrame(new byte[frameSize]);
needle = ByteBuffer.wrap(frame.getData());
int frameFlags = 0;
putNumber2(0xAAA0 | 0);
putNumber1((byte) id);
switch (id) {
case LOG:
{
putNumber2(sequence);
putNumber2(3);
putNumber1(level);
putNumber1(event);
putNumber2(node);
putNumber2(peer);
putNumber8(time);
if (host != null) putString(host);
else putNumber1((byte) 0); // Empty string
if (data != null) putLongString(data);
else putNumber4(0); // Empty string
}
break;
case STRUCTURES:
{
putNumber2(sequence);
if (aliases != null) {
putNumber4(aliases.size());
for (String value : aliases) {
putLongString(value);
}
} else putNumber4(0); // Empty string array
if (headers != null) {
putNumber4(headers.size());
for (Map.Entry<String, String> entry : headers.entrySet()) {
putString(entry.getKey());
putLongString(entry.getValue());
}
} else putNumber4(0); // Empty hash
}
break;
case BINARY:
{
putNumber2(sequence);
putBlock(flags, 4);
if (public_key != null) {
putNumber4(public_key.length);
needle.put(public_key, 0, public_key.length);
} else {
putNumber4(0);
}
if (identifier != null) {
ByteBuffer bb = ByteBuffer.wrap(new byte[16]);
bb.putLong(identifier.getMostSignificantBits());
bb.putLong(identifier.getLeastSignificantBits());
needle.put(bb.array());
} else {
needle.put(new byte[16]); // Empty Chunk
}
}
break;
case TYPES:
{
putNumber2(sequence);
if (client_forename != null) putString(client_forename);
else putNumber1((byte) 0); // Empty string
if (client_surname != null) putString(client_surname);
else putNumber1((byte) 0); // Empty string
if (client_mobile != null) putString(client_mobile);
else putNumber1((byte) 0); // Empty string
if (client_email != null) putString(client_email);
else putNumber1((byte) 0); // Empty string
if (supplier_forename != null) putString(supplier_forename);
else putNumber1((byte) 0); // Empty string
if (supplier_surname != null) putString(supplier_surname);
else putNumber1((byte) 0); // Empty string
if (supplier_mobile != null) putString(supplier_mobile);
else putNumber1((byte) 0); // Empty string
if (supplier_email != null) putString(supplier_email);
else putNumber1((byte) 0); // Empty string
}
break;
}
// Now send the data frame
msg.add(frame);
// Now send any frame fields, in order
switch (id) {
case BINARY:
{
// If address isn't set, send an empty frame
if (address == null) address = new ZFrame("".getBytes());
msg.add(address);
}
break;
}
switch (id) {
case BINARY:
{
if (content == null) content = new ZMsg();
for (ZFrame contentPart : content) {
msg.add(contentPart);
}
}
break;
}
// Destroy ZprotoExample object
msg.send(socket);
destroy();
return true;
}