public void marshal(DataOutputStream dos) {
super.marshal(dos);
try {
minefieldID.marshal(dos);
requestingEntityID.marshal(dos);
dos.writeByte((byte) requestID);
dos.writeByte((byte) requestedPerimeterPoints.size());
dos.writeByte((byte) pad2);
dos.writeByte((byte) sensorTypes.size());
dos.writeInt((int) dataFilter);
requestedMineType.marshal(dos);
for (int idx = 0; idx < requestedPerimeterPoints.size(); idx++) {
Point aPoint = requestedPerimeterPoints.get(idx);
aPoint.marshal(dos);
} // end of list marshalling
for (int idx = 0; idx < sensorTypes.size(); idx++) {
TwoByteChunk aTwoByteChunk = sensorTypes.get(idx);
aTwoByteChunk.marshal(dos);
} // end of list marshalling
} // end try
catch (Exception e) {
System.out.println(e);
}
} // end of marshal method
// -----------------------------------------------------------
// for "SrvRqst"
// find the matched URLs with (type, scope, predicate, ltag)
// return: error code (short)
// number of matched URLs (short)
// URL blocks (decided bt previous #URL)
// -----------------------------------------------------------
public synchronized byte[] getMatchedURL(String type, String scope, String pred, String ltag) {
byte[] buf = null;
int ecode = Const.OK;
if (!Util.shareString(daf.getScope(), scope, ",")) {
ecode = Const.SCOPE_NOT_SUPPORTED;
}
b.reset();
try {
int count = 0;
d.writeShort(ecode); // error code
d.writeShort(count); // URL count, place holder
if (ecode == Const.OK) { // no error, find matched URLs
Iterator values = table.values().iterator();
while (values.hasNext()) {
Entry e = (Entry) values.next();
if (e.match(type, scope, pred, ltag)) {
count++;
d.writeByte(0);
d.writeShort(e.getLifetime());
d.writeShort(e.getURL().length());
d.writeBytes(e.getURL());
d.writeByte(0);
}
}
}
buf = b.toByteArray();
if (count > 0) Util.writeInt(buf, 2, count, 2); // update count
} catch (Exception e) {
if (ServiceLocationManager.displayMSLPTrace) e.printStackTrace();
}
return buf;
}
public void marshal(DataOutputStream dos) {
super.marshal(dos);
try {
minefieldID.marshal(dos);
requestingEntityID.marshal(dos);
dos.writeShort((short) minefieldSequenceNumbeer);
dos.writeByte((byte) requestID);
dos.writeByte((byte) pduSequenceNumber);
dos.writeByte((byte) numberOfPdus);
dos.writeByte((byte) mineLocation.size());
dos.writeByte((byte) sensorTypes.size());
dos.writeByte((byte) pad2);
dos.writeInt((int) dataFilter);
mineType.marshal(dos);
for (int idx = 0; idx < sensorTypes.size(); idx++) {
TwoByteChunk aTwoByteChunk = sensorTypes.get(idx);
aTwoByteChunk.marshal(dos);
} // end of list marshalling
dos.writeByte((byte) pad3);
for (int idx = 0; idx < mineLocation.size(); idx++) {
Vector3Float aVector3Float = mineLocation.get(idx);
aVector3Float.marshal(dos);
} // end of list marshalling
} // end try
catch (Exception e) {
System.out.println(e);
}
} // end of marshal method
private void sendRequest(long objectId, long requestId, Request r) throws IOException {
DataOutputStream out = newFlusher();
out.writeByte(REQUEST);
out.writeLong(objectId);
out.writeLong(requestId);
r.serialize(out);
out.writeBoolean(false);
out.flush();
}
/**
* Generates a byte array representing the contents of this page. Used to serialize this page to
* disk.
*
* <p>The invariant here is that it should be possible to pass the byte array generated by
* getPageData to the HeapPage constructor and have it produce an identical HeapPage object.
*
* @see #HeapPage
* @return A byte array correspond to the bytes of this page.
*/
public byte[] getPageData() {
// int len = header.length*4 + BufferPool.PAGE_SIZE;
int len = BufferPool.PAGE_SIZE;
ByteArrayOutputStream baos = new ByteArrayOutputStream(len);
DataOutputStream dos = new DataOutputStream(baos);
// create the header of the page
try {
dos.write(header.getHeader());
} catch (IOException e) {
// this really shouldn't happen
e.printStackTrace();
}
// create the tuples
for (int i = 0; i < numSlots; i++) {
// empty slot
if (!getSlot(i)) {
for (int j = 0; j < td.getSize(); j++) {
try {
dos.writeByte(0);
} catch (IOException e) {
e.printStackTrace();
}
}
continue;
}
// non-empty slot
for (int j = 0; j < td.numFields(); j++) {
Field f = tuples[i].getField(j);
try {
f.serialize(dos);
} catch (IOException e) {
e.printStackTrace();
}
}
}
// padding
int zerolen = BufferPool.PAGE_SIZE - numSlots * td.getSize() - header.length();
byte[] zeroes = new byte[zerolen];
try {
dos.write(zeroes, 0, zerolen);
} catch (IOException e) {
e.printStackTrace();
}
try {
dos.flush();
} catch (IOException e) {
e.printStackTrace();
}
return baos.toByteArray();
}
private static void writeWatchableObject(
DataOutputStream par0DataOutputStream, WatchableObject par1WatchableObject)
throws IOException {
int i =
(par1WatchableObject.getObjectType() << 5 | par1WatchableObject.getDataValueId() & 0x1f)
& 0xff;
par0DataOutputStream.writeByte(i);
switch (par1WatchableObject.getObjectType()) {
case 0:
par0DataOutputStream.writeByte(((Byte) par1WatchableObject.getObject()).byteValue());
break;
case 1:
par0DataOutputStream.writeShort(((Short) par1WatchableObject.getObject()).shortValue());
break;
case 2:
par0DataOutputStream.writeInt(((Integer) par1WatchableObject.getObject()).intValue());
break;
case 3:
par0DataOutputStream.writeFloat(((Float) par1WatchableObject.getObject()).floatValue());
break;
case 4:
Packet.writeString((String) par1WatchableObject.getObject(), par0DataOutputStream);
break;
case 5:
ItemStack itemstack = (ItemStack) par1WatchableObject.getObject();
par0DataOutputStream.writeShort(itemstack.getItem().shiftedIndex);
par0DataOutputStream.writeByte(itemstack.stackSize);
par0DataOutputStream.writeShort(itemstack.getItemDamage());
break;
case 6:
ChunkCoordinates chunkcoordinates = (ChunkCoordinates) par1WatchableObject.getObject();
par0DataOutputStream.writeInt(chunkcoordinates.posX);
par0DataOutputStream.writeInt(chunkcoordinates.posY);
par0DataOutputStream.writeInt(chunkcoordinates.posZ);
break;
}
}
public void writeWatchableObjects(DataOutputStream par1DataOutputStream) throws IOException {
WatchableObject watchableobject;
for (Iterator iterator = watchedObjects.values().iterator();
iterator.hasNext();
writeWatchableObject(par1DataOutputStream, watchableobject)) {
watchableobject = (WatchableObject) iterator.next();
}
par1DataOutputStream.writeByte(127);
}
// return xml string
public boolean marshall(DataOutputStream d) {
try {
d.writeByte(succ.booleanValue() ? 1 : 0);
d.writeInt(code);
byte[] sb_1 = msg.getBytes();
d.writeInt(sb_1.length);
d.write(sb_1, 0, sb_1.length);
} catch (Exception e) {
return false;
}
return true;
}
public void marshal(DataOutputStream dos) {
try {
for (int idx = 0; idx < otherParameters.length; idx++) {
dos.writeByte(otherParameters[idx]);
} // end of array marshaling
} // end try
catch (Exception e) {
System.out.println(e);
}
} // end of marshal method
/** writes every object in passed list to dataoutputstream, terminated by 0x7F */
public static void writeObjectsInListToStream(
List par0List, DataOutputStream par1DataOutputStream) throws IOException {
if (par0List != null) {
WatchableObject watchableobject;
for (Iterator iterator = par0List.iterator();
iterator.hasNext();
writeWatchableObject(par1DataOutputStream, watchableobject)) {
watchableobject = (WatchableObject) iterator.next();
}
}
par1DataOutputStream.writeByte(127);
}
/**
* Acknowledge remote endpoint's closing of connection.
*
* @param info connection information structure
*/
void sendCloseAck(MultiplexConnectionInfo info) throws IOException {
synchronized (dataOut) {
if (alive && !info.closed)
try {
dataOut.writeByte(CLOSEACK);
dataOut.writeShort(info.id);
dataOut.flush();
info.closed = true;
} catch (IOException e) {
multiplexLog.log(Log.BRIEF, "exception: ", e);
shutDown();
throw e;
}
}
}
/**
* Send request for more data on connection to remote endpoint.
*
* @param info connection information structure
* @param len number of more bytes that can be received
*/
void sendRequest(MultiplexConnectionInfo info, int len) throws IOException {
synchronized (dataOut) {
if (alive && !info.closed)
try {
dataOut.writeByte(REQUEST);
dataOut.writeShort(info.id);
dataOut.writeInt(len);
dataOut.flush();
} catch (IOException e) {
multiplexLog.log(Log.BRIEF, "exception: ", e);
shutDown();
throw e;
}
}
}
private void sendResponse(long requestId, Object value, Class<?> declaredType)
throws IOException {
DataOutputStream out = newFlusher();
out.writeByte(RESPONSE);
out.writeLong(requestId);
if (value == null) {
out.writeBoolean(false);
} else {
out.writeBoolean(true);
Class<?> clazz = value.getClass();
out.writeUTF(clazz.getName());
Serializer<Object> s = serializerFor(clazz, declaredType);
s.serialize(out, value);
}
out.writeBoolean(false);
out.flush();
}
/**
* Send packet of requested data on connection to remote endpoint.
*
* @param info connection information structure
* @param buf array containing bytes to send
* @param off offset of first array index of packet
* @param len number of bytes in packet to send
*/
void sendTransmit(MultiplexConnectionInfo info, byte buf[], int off, int len) throws IOException {
synchronized (dataOut) {
if (alive && !info.closed)
try {
dataOut.writeByte(TRANSMIT);
dataOut.writeShort(info.id);
dataOut.writeInt(len);
dataOut.write(buf, off, len);
dataOut.flush();
} catch (IOException e) {
multiplexLog.log(Log.BRIEF, "exception: ", e);
shutDown();
throw e;
}
}
}
/** Initiate a new multiplexed connection through the underlying connection. */
public synchronized TCPConnection openConnection() throws IOException {
// generate ID that should not be already used
// If all possible 32768 IDs are used,
// this method will block searching for a new ID forever.
int id;
do {
lastID = (++lastID) & 0x7FFF;
id = lastID;
// The orig flag (copied to the high bit of the ID) is used
// to have two distinct ranges to choose IDs from for the
// two endpoints.
if (orig) id |= 0x8000;
} while (connectionTable.get(id) != null);
// create multiplexing streams and bookkeeping information
MultiplexConnectionInfo info = new MultiplexConnectionInfo(id);
info.in = new MultiplexInputStream(this, info, 2048);
info.out = new MultiplexOutputStream(this, info, 2048);
// add to connection table if multiplexer has not died
synchronized (connectionTable) {
if (!alive) throw new IOException("Multiplexer connection dead");
if (numConnections >= maxConnections)
throw new IOException(
"Cannot exceed " + maxConnections + " simultaneous multiplexed connections");
connectionTable.put(id, info);
++numConnections;
}
// inform remote endpoint of new connection
synchronized (dataOut) {
try {
dataOut.writeByte(OPEN);
dataOut.writeShort(id);
dataOut.flush();
} catch (IOException e) {
multiplexLog.log(Log.BRIEF, "exception: ", e);
shutDown();
throw e;
}
}
return new TCPConnection(channel, info.in, info.out);
}
/**
* Writes integer value into stream
*
* @param value integer value to write
*/
public void writeInt(int value) throws java.io.IOException {
if (isBigEndian) {
outputStream.writeByte((value >> 24) & 0xFF);
outputStream.writeByte((value >> 16) & 0xFF);
outputStream.writeByte((value >> 8) & 0xFF);
outputStream.writeByte(value & 0xFF);
} else {
outputStream.writeByte(value & 0xFF);
outputStream.writeByte((value >> 8) & 0xFF);
outputStream.writeByte((value >> 16) & 0xFF);
outputStream.writeByte((value >> 24) & 0xFF);
}
}
public void marshal(DataOutputStream dos) {
try {
dos.writeByte((byte) recordType);
dos.writeByte((byte) changeIndicator);
dos.writeByte((byte) associationStatus);
dos.writeByte((byte) associationType);
entityID.marshal(dos);
dos.writeShort((short) ownStationLocation);
dos.writeByte((byte) physicalConnectionType);
dos.writeByte((byte) groupMemberType);
dos.writeShort((short) groupNumber);
} // end try
catch (Exception e) {
System.out.println(e);
}
} // end of marshal method
@SuppressWarnings("rawtypes")
private static void writeObjectToStream(Object obj, DataOutputStream data) throws IOException {
Class objClass = obj.getClass();
if (objClass.equals(Boolean.class)) {
data.writeBoolean((Boolean) obj);
} else if (objClass.equals(Byte.class)) {
data.writeByte((Byte) obj);
} else if (objClass.equals(Integer.class)) {
data.writeInt((Integer) obj);
} else if (objClass.equals(String.class)) {
data.writeUTF((String) obj);
} else if (objClass.equals(Double.class)) {
data.writeDouble((Double) obj);
} else if (objClass.equals(Float.class)) {
data.writeFloat((Float) obj);
} else if (objClass.equals(Long.class)) {
data.writeLong((Long) obj);
} else if (objClass.equals(Short.class)) {
data.writeShort((Short) obj);
}
}
void storeConfig() {
DataOutputStream out;
try {
out = new DataOutputStream(openFileOutput("wscnprefs", Context.MODE_PRIVATE));
out.writeByte(1); // version
out.writeInt(ScanService.scanData.getFlags()); // operation flags;
out.writeInt(ScanService.scanData.getStoredValues()); // number of currently stored values
out.writeInt(ScanService.scanData.getUploadedCount());
out.writeInt(ScanService.scanData.getUploadedRank());
out.writeInt(0); // Open WLANs, no longer used
out.writeInt(ScanService.scanData.getFreeHotspotWLANs());
out.writeFloat(ScanService.scanData.getTelemetryData().getCorrAccelX());
out.writeFloat(ScanService.scanData.getTelemetryData().getCorrAccelY());
out.writeFloat(ScanService.scanData.getTelemetryData().getCorrAccelZ());
out.writeFloat(ScanService.scanData.getTelemetryData().getCorrCoG());
out.writeFloat(ScanService.scanData.getTelemetryData().getCorrOrientY());
out.writeFloat(ScanService.scanData.getTelemetryData().getCorrOrientZ());
out.close();
} catch (IOException ioe) {
ioe.printStackTrace();
}
}
public void writeBytes(OutputStream os) throws IOException {
// Map between any modified UTF-8 and it's constant pool index.
Map utf8ToIndex = new HashMap();
DataOutputStream dos = new DataOutputStream(os);
TypeArray tags = getTags();
int len = (int) getLength();
int ci = 0; // constant pool index
// collect all modified UTF-8 Strings from Constant Pool
for (ci = 1; ci < len; ci++) {
byte cpConstType = tags.getByteAt(ci);
if (cpConstType == JVM_CONSTANT_Utf8) {
Symbol sym = getSymbolAt(ci);
utf8ToIndex.put(sym.asString(), new Short((short) ci));
} else if (cpConstType == JVM_CONSTANT_Long || cpConstType == JVM_CONSTANT_Double) {
ci++;
}
}
for (ci = 1; ci < len; ci++) {
int cpConstType = (int) tags.getByteAt(ci);
// write cp_info
// write constant type
switch (cpConstType) {
case JVM_CONSTANT_Utf8:
{
dos.writeByte(cpConstType);
Symbol sym = getSymbolAt(ci);
dos.writeShort((short) sym.getLength());
dos.write(sym.asByteArray());
if (DEBUG) debugMessage("CP[" + ci + "] = modified UTF-8 " + sym.asString());
break;
}
case JVM_CONSTANT_Unicode:
throw new IllegalArgumentException("Unicode constant!");
case JVM_CONSTANT_Integer:
dos.writeByte(cpConstType);
dos.writeInt(getIntAt(ci));
if (DEBUG) debugMessage("CP[" + ci + "] = int " + getIntAt(ci));
break;
case JVM_CONSTANT_Float:
dos.writeByte(cpConstType);
dos.writeFloat(getFloatAt(ci));
if (DEBUG) debugMessage("CP[" + ci + "] = float " + getFloatAt(ci));
break;
case JVM_CONSTANT_Long:
{
dos.writeByte(cpConstType);
long l = getLongAt(ci);
// long entries occupy two pool entries
ci++;
dos.writeLong(l);
break;
}
case JVM_CONSTANT_Double:
dos.writeByte(cpConstType);
dos.writeDouble(getDoubleAt(ci));
// double entries occupy two pool entries
ci++;
break;
case JVM_CONSTANT_Class:
{
dos.writeByte(cpConstType);
// Klass already resolved. ConstantPool constains klassOop.
Klass refKls = (Klass) getObjAt(ci);
String klassName = refKls.getName().asString();
Short s = (Short) utf8ToIndex.get(klassName);
dos.writeShort(s.shortValue());
if (DEBUG) debugMessage("CP[" + ci + "] = class " + s);
break;
}
// case JVM_CONSTANT_ClassIndex:
case JVM_CONSTANT_UnresolvedClass:
{
dos.writeByte(JVM_CONSTANT_Class);
String klassName = getSymbolAt(ci).asString();
Short s = (Short) utf8ToIndex.get(klassName);
dos.writeShort(s.shortValue());
if (DEBUG) debugMessage("CP[" + ci + "] = class " + s);
break;
}
case JVM_CONSTANT_String:
{
dos.writeByte(cpConstType);
String str = OopUtilities.stringOopToString(getObjAt(ci));
Short s = (Short) utf8ToIndex.get(str);
dos.writeShort(s.shortValue());
if (DEBUG) debugMessage("CP[" + ci + "] = string " + s);
break;
}
// case JVM_CONSTANT_StringIndex:
case JVM_CONSTANT_UnresolvedString:
{
dos.writeByte(JVM_CONSTANT_String);
String val = getSymbolAt(ci).asString();
Short s = (Short) utf8ToIndex.get(val);
dos.writeShort(s.shortValue());
if (DEBUG) debugMessage("CP[" + ci + "] = string " + s);
break;
}
// all external, internal method/field references
case JVM_CONSTANT_Fieldref:
case JVM_CONSTANT_Methodref:
case JVM_CONSTANT_InterfaceMethodref:
{
dos.writeByte(cpConstType);
int value = getIntAt(ci);
short klassIndex = (short) extractLowShortFromInt(value);
short nameAndTypeIndex = (short) extractHighShortFromInt(value);
dos.writeShort(klassIndex);
dos.writeShort(nameAndTypeIndex);
if (DEBUG)
debugMessage(
"CP[" + ci + "] = ref klass = " + klassIndex + ", N&T = " + nameAndTypeIndex);
break;
}
case JVM_CONSTANT_NameAndType:
{
dos.writeByte(cpConstType);
int value = getIntAt(ci);
short nameIndex = (short) extractLowShortFromInt(value);
short signatureIndex = (short) extractHighShortFromInt(value);
dos.writeShort(nameIndex);
dos.writeShort(signatureIndex);
if (DEBUG)
debugMessage(
"CP[" + ci + "] = N&T name = " + nameIndex + ", type = " + signatureIndex);
break;
}
} // switch
}
dos.flush();
return;
}
/** Method to keep the connection alive with the name server */
public void run() {
boolean connected = false;
int ticket = 0;
int serial = -1;
int time = 1000;
DatagramPacket inPack = new DatagramPacket(new byte[1024], 1024);
DatagramPacket outPack = new DatagramPacket(new byte[1024], 1024);
ByteArrayOutputStream outBuf = new ByteArrayOutputStream();
DataInputStream inData;
DataOutputStream outData = new DataOutputStream(outBuf);
while (running) {
if (!connected) { // Thoust ought Register thine self
try {
outBuf.reset();
outData.writeByte(0);
outData.writeUTF(userName);
outData.writeInt(portNum);
outData.flush();
outPack.setData(outBuf.toByteArray());
nameServer.send(outPack);
} catch (IOException e) {
System.err.println("LeetActive: " + e);
}
} else { // Thoust ought Renew thine self
try {
outBuf.reset();
outData.writeByte(2);
outData.writeInt(ticket);
outData.flush();
outPack.setData(outBuf.toByteArray());
nameServer.send(outPack);
} catch (IOException e) {
System.err.println(e);
}
}
// Now we will receive a packet...
try {
nameServer.receive(inPack);
inData = new DataInputStream(new ByteArrayInputStream(inPack.getData()));
byte type = inData.readByte();
if (type == 1) { // Twas a ticket packet
try {
ticket = inData.readInt();
if (ticket > -1) { // Make sure its not evil
connected = true;
} else {
connected = false;
}
time = inData.readInt();
} catch (IOException e) {
System.err.println(e);
}
}
if (type == 5) { // Twas an update packet
try {
int s = inData.readInt();
if (s > serial) { // Make sure its not old
serial = s;
int size = inData.readInt();
ArrayList newList = new ArrayList(size);
for (int x = 0; x < size; x++) {
newList.add(
new String(
"" + inData.readUTF() + "@" + inData.readUTF() + ":" + inData.readInt()));
}
if (!newList.equals(hostList)) {
hostList = newList;
updated = true;
}
}
} catch (IOException e) {
System.err.println(e);
}
}
} catch (SocketTimeoutException e) { // Server hates you
connected = false;
System.err.println(e);
} catch (IOException e) {
System.err.println(e);
}
try { // Take a nap
sleep(time / 4);
} catch (InterruptedException e) {
}
}
}
/**
* Process and loop until told to stop. A callback_done will stop the loop and will return a
* result. Otherwise null is returned.
*/
public Object run() throws CommandException {
Object result = null;
boolean shutdown = false;
boolean closeWhenDone = true;
Commands.ValueObject valueObject =
new Commands.ValueObject(); // Working value object so not continually recreated.
InvokableValueSender valueSender =
new InvokableValueSender(); // Working valuesender so not continually recreated.
try {
boolean doLoop = true;
/**
* Note: In the cases below you will see a lot of finally clauses that null variables out.
* This is because this is a long running loop, and variables declared within blocks are not
* garbage collected until the method is terminated, so these variables once set would never
* be GC'd. The nulling at the end of the case makes sure that any of those objects set are
* now available for garbage collection when necessary.
*/
while (doLoop && isConnected()) {
byte cmd = 0;
try {
if (LINUX_1_3) socket.setSoTimeout(1000); // Linux 1.3 bug, see comment on LINUX_1_3
cmd = in.readByte();
if (LINUX_1_3 && isConnected())
socket.setSoTimeout(0); // Linux 1.3 bug, see comment on LINUX_1_3
} catch (InterruptedIOException e) {
continue; // Timeout, try again
}
switch (cmd) {
case Commands.QUIT_CONNECTION:
doLoop = false;
break; // Close this connection
case Commands.TERMINATE_SERVER:
doLoop = false;
shutdown = true; // Shutdown everything
break;
case Commands.GET_CLASS:
String className = in.readUTF();
Class aClass = null;
Class superClass = null;
String superClassName = null;
boolean added = false;
try {
aClass =
Class.forName(
className); // Turns out using JNI format for array type will work fine.
added = server.getIdentityID(aClass, valueObject);
boolean isInterface = aClass.isInterface();
boolean isAbstract = java.lang.reflect.Modifier.isAbstract(aClass.getModifiers());
superClass = aClass.getSuperclass();
superClassName = (superClass != null) ? superClass.getName() : ""; // $NON-NLS-1$
out.writeByte(Commands.GET_CLASS_RETURN);
out.writeInt(valueObject.objectID);
out.writeBoolean(isInterface);
out.writeBoolean(isAbstract);
out.writeUTF(superClassName);
out.flush();
} catch (ClassNotFoundException e) {
valueObject.set();
Commands.sendErrorCommand(out, Commands.GET_CLASS_NOT_FOUND, valueObject);
} catch (ExceptionInInitializerError e) {
sendException(e.getException(), valueObject, out);
} catch (LinkageError e) {
sendException(e, valueObject, out);
} catch (Throwable e) {
// Something bad, did we add a class? If we did remove it from the table.
if (added) server.removeObject(server.getObject(valueObject.objectID));
throw e;
} finally {
// clear out for GC to work.
className = null;
aClass = null;
superClass = null;
superClassName = null;
valueObject.set();
}
break;
case Commands.GET_CLASS_FROM_ID:
int classID = in.readInt();
try {
aClass = (Class) server.getObject(classID);
boolean isInterface = aClass.isInterface();
boolean isAbstract = java.lang.reflect.Modifier.isAbstract(aClass.getModifiers());
superClass = aClass.getSuperclass();
superClassName = (superClass != null) ? superClass.getName() : ""; // $NON-NLS-1$
out.writeByte(Commands.GET_CLASS_ID_RETURN);
out.writeUTF(aClass.getName());
out.writeBoolean(isInterface);
out.writeBoolean(isAbstract);
out.writeUTF(superClassName);
out.flush();
} catch (ClassCastException e) {
valueObject.set();
Commands.sendErrorCommand(out, Commands.CLASS_CAST_EXCEPTION, valueObject);
} finally {
// clear out for GC to work.
aClass = null;
superClass = null;
superClassName = null;
valueObject.set();
}
break;
case Commands.GET_OBJECT_DATA:
int objectID = in.readInt();
Object anObject = null;
try {
anObject = server.getObject(objectID);
valueObject.setObjectID(objectID, server.getIdentityID(anObject.getClass()));
Commands.writeValue(out, valueObject, true);
} catch (ClassCastException e) {
valueObject.set();
Commands.sendErrorCommand(out, Commands.CLASS_CAST_EXCEPTION, valueObject);
} finally {
anObject = null; // Clear out for GC to work
valueObject.set();
}
break;
case Commands.RELEASE_OBJECT:
int id = in.readInt();
server.removeObject(server.getObject(id));
break;
case Commands.NEW_INIT_STRING:
classID = in.readInt(); // ID Of class to do new upon.
String initString = in.readUTF(); // The init string.
Object newValue = null;
Class theClass = null;
try {
theClass = (Class) server.getObject(classID);
if (theClass == null) {
// The class wasn't found. So imply ClassNotFound exception.
throw new ClassNotFoundException();
}
InitializationStringParser parser = null;
try {
parser = InitializationStringParser.createParser(initString);
newValue = parser.evaluate();
boolean primitive = parser.isPrimitive();
// If expected class is Void.TYPE, that means don't test the type of the result
// to verify if correct type, just return what it really is.
if (theClass != Void.TYPE && primitive != theClass.isPrimitive()) {
valueObject.set();
Commands.sendErrorCommand(out, Commands.CLASS_CAST_EXCEPTION, valueObject);
continue; // Goto next command.
}
if (primitive) {
try {
// Need to do special tests for compatibility and assignment.
sendObject(
newValue,
classID != Commands.VOID_TYPE
? classID
: server.getIdentityID(parser.getExpectedType()),
valueObject,
out,
true); // This will make sure it goes out as the correct primitive type
} catch (ClassCastException e) {
// The returned type is not of the correct type for what is expected.
valueObject.set();
Commands.sendErrorCommand(out, Commands.CLASS_CAST_EXCEPTION, valueObject);
continue; // Goto next command
}
} else {
if (newValue != null) {
// Test to see if they are compatible. (Null can be assigned to any object,
// so that is why it was tested out above).
// If expected class is Void.TYPE, that means don't test the type of the result
// to verify if correct type, just return what it really is.
if (theClass != Void.TYPE && !theClass.isInstance(newValue)) {
// The returned type is not of the correct type for what is expected.
valueObject.set();
Commands.sendErrorCommand(out, Commands.CLASS_CAST_EXCEPTION, valueObject);
continue; // Goto next command
}
}
sendObject(
newValue, NOT_A_PRIMITIVE, valueObject, out, true); // Send out as an object.
}
} catch (InitializationStringEvaluationException e) {
if (e instanceof EvaluationException) {
// Want to return the real exception.
sendException(e.getOriginalException(), valueObject, out);
} else {
// Couldn't be evaluated, return an error for this.
setExceptionIntoValue(e.getOriginalException(), valueObject);
Commands.sendErrorCommand(out, Commands.CANNOT_EVALUATE_STRING, valueObject);
}
} finally {
parser = null; // Clear out for GC to work
}
} catch (Throwable e) {
sendException(e, valueObject, out);
} finally {
// Clear out for GC to work
initString = null;
theClass = null;
newValue = null;
valueObject.set();
}
break;
case Commands.INVOKE:
Object target = null;
Object[] parms = null;
Class returnType = null;
java.lang.reflect.Method aMethod = null;
try {
int methodID = in.readInt(); // ID of method to invoke
aMethod = (java.lang.reflect.Method) server.getObject(methodID); // Method to invoke
Commands.readValue(in, valueObject);
target = getInvokableObject(valueObject);
Commands.readValue(in, valueObject);
if (valueObject.type == Commands.ARRAY_IDS) {
// It is an array containing IDs, as it normally would be.
valueSender.initialize(valueObject);
Commands.readArray(in, valueObject.anInt, valueSender, valueObject, false);
parms = (Object[]) valueSender.getArray();
} else {
// It is all objects or null, so it should be an Object[] or null. If not, then this
// is an error.
parms = (Object[]) valueObject.anObject;
}
if (!aMethod.isAccessible())
aMethod.setAccessible(
true); // We will allow all to occur. Let access control be handled by IDE and
// compiler.
newValue = aMethod.invoke(target, parms);
returnType = aMethod.getReturnType();
if (returnType.isPrimitive()) {
int returnTypeID = server.getIdentityID(returnType);
// Need to tell sendObject the correct primitive type.
sendObject(newValue, returnTypeID, valueObject, out, true);
} else {
sendObject(
newValue,
NOT_A_PRIMITIVE,
valueObject,
out,
true); // Just send the object back. sendObject knows how to iterpret the type
}
} catch (CommandException e) {
throw e; // Throw it again. These we don't want to come up as an exception proxy.
// These should end the thread.
} catch (java.lang.reflect.InvocationTargetException e) {
// This is a wrappered exception. Return the wrappered one so it looks like
// it was the real one. (Sometimes the method being invoked is on a
// java.lang.reflect.Constructor.newInstance,
// which in turn is an InvocationTargetException, so we will go until we don't have an
// InvocationTargetException.
Throwable t = e;
do {
t = ((java.lang.reflect.InvocationTargetException) t).getTargetException();
} while (t instanceof java.lang.reflect.InvocationTargetException);
sendException(t, valueObject, out);
} catch (Throwable e) {
sendException(e, valueObject, out); // Turn it into a exception proxy on the client.
} finally {
// Clear out for GC to work
valueObject.set();
parms = null;
target = null;
aMethod = null;
returnType = null;
newValue = null;
valueSender.clear();
}
break;
case Commands.INVOKE_WITH_METHOD_PASSED:
aClass = null;
String methodName = null;
Class[] parmTypes = null;
target = null;
parms = null;
returnType = null;
aMethod = null;
try {
Commands.readValue(in, valueObject);
aClass = (Class) getInvokableObject(valueObject); // The class that has the method.
methodName = in.readUTF();
Commands.readValue(in, valueObject);
if (valueObject.type == Commands.ARRAY_IDS) {
// It is an array containing IDs, as it normally would be.
valueSender.initialize(valueObject);
Commands.readArray(in, valueObject.anInt, valueSender, valueObject, false);
parmTypes = (Class[]) valueSender.getArray();
} else {
// It null, so it should be an null. If not, then this is an error.
parmTypes = null;
}
aMethod = aClass.getMethod(methodName, parmTypes);
// Now we get the info for the invocation of the method and execute it.
Commands.readValue(in, valueObject);
target = getInvokableObject(valueObject);
Commands.readValue(in, valueObject);
if (valueObject.type == Commands.ARRAY_IDS) {
// It is an array containing IDs, as it normally would be.
valueSender.initialize(valueObject);
Commands.readArray(in, valueObject.anInt, valueSender, valueObject, false);
parms = (Object[]) valueSender.getArray();
} else {
// It is all objects or null, so it should be an Object[] or null. If not, then this
// is an error.
parms = (Object[]) valueObject.anObject;
}
if (!aMethod.isAccessible())
aMethod.setAccessible(
true); // We will allow all to occur. Let access control be handled by IDE and
// compiler.
newValue = aMethod.invoke(target, parms);
returnType = aMethod.getReturnType();
if (returnType.isPrimitive()) {
int returnTypeID = server.getIdentityID(returnType);
// Need to tell sendObject the correct primitive type.
sendObject(newValue, returnTypeID, valueObject, out, true);
} else {
sendObject(
newValue,
NOT_A_PRIMITIVE,
valueObject,
out,
true); // Just send the object back. sendObject knows how to iterpret the type
}
} catch (CommandException e) {
throw e; // Throw it again. These we don't want to come up as an exception proxy.
// These should end the thread.
} catch (java.lang.reflect.InvocationTargetException e) {
// This is a wrappered exception. Return the wrappered one so it looks like
// it was the real one. (Sometimes the method being invoked is on a
// java.lang.reflect.Constructor.newInstance,
// which in turn is an InvocationTargetException, so we will go until we don't have an
// InvocationTargetException.
Throwable t = e;
do {
t = ((java.lang.reflect.InvocationTargetException) t).getTargetException();
} while (t instanceof java.lang.reflect.InvocationTargetException);
sendException(t, valueObject, out);
} catch (Throwable e) {
sendException(e, valueObject, out); // Turn it into a exception proxy on the client.
} finally {
aClass = null;
methodName = null;
parmTypes = null;
// Clear out for GC to work
valueObject.set();
parms = null;
target = null;
aMethod = null;
returnType = null;
newValue = null;
valueSender.clear();
}
break;
case Commands.GET_ARRAY_CONTENTS:
try {
target = server.getObject(in.readInt()); // Array to get the ids for.
valueObject.setArrayIDS(
new ArrayContentsRetriever(target),
Array.getLength(target),
Commands.OBJECT_CLASS);
Commands.writeValue(out, valueObject, true); // Write it back as a value command.
} catch (CommandException e) {
throw e; // Throw it again. These we don't want to come up as an exception proxy.
// These should end the thread.
} catch (Throwable e) {
sendException(e, valueObject, out); // Turn it into a exception proxy on the client.
} finally {
target = null;
valueObject.set();
}
break;
case Commands.CALLBACK_DONE:
try {
if (connectionThread != null) {
valueObject.set();
Commands.sendErrorCommand(out, Commands.UNKNOWN_COMMAND_SENT, valueObject);
} else {
try {
Commands.readBackValue(in, valueObject, Commands.NO_TYPE_CHECK);
if (valueObject.type == Commands.ARRAY_IDS) {
// It is an array containing IDs, as it normally would be.
valueSender.initialize(valueObject);
Commands.readArray(in, valueObject.anInt, valueSender, valueObject, false);
result = valueSender.getArray();
} else {
result = getInvokableObject(valueObject);
}
doLoop = false; // We need to terminate and return result
closeWhenDone = false; // Don't close, we will continue.
} catch (CommandErrorException e) {
// There was an command error on the other side. This means
// connection still good, but don't continue the callback processing.
doLoop = false; // We need to terminate and return result
closeWhenDone = false; // Don't close, we will continue.
throw e; // Let it go on out.
}
}
} finally {
valueObject.set();
valueSender.clear();
}
break;
case Commands.ERROR:
try {
// Got an error command. Don't know what to do but read the
// value and simply print it out.
Commands.readValue(in, valueObject);
result = getInvokableObject(valueObject);
System.out.println("Error sent to server: Result=" + result); // $NON-NLS-1$
} finally {
valueObject.set();
}
break;
case Commands.EXPRESSION_TREE_COMMAND:
try {
processExpressionCommand(valueObject, valueSender);
} finally {
valueObject.set();
valueSender.clear();
}
break;
default:
// Unknown command. We don't know how long it is, so we need to shut the connection
// down.
System.err.println("Error: Invalid cmd send to server: Cmd=" + cmd); // $NON-NLS-1$
doLoop = false;
closeWhenDone = true;
break;
}
}
} catch (EOFException e) {
// This is ok. It means that the connection on the other side was terminated.
// So just accept this and go down.
} catch (CommandException e) {
throw e;
} catch (SocketException e) {
if (socket != null)
throw new UnexpectedExceptionCommandException(
false, e); // socket null means a valid close request
} catch (Throwable e) {
e.printStackTrace();
} finally {
if (closeWhenDone) {
try {
for (Iterator itr = expressionProcessors.values().iterator(); itr.hasNext(); ) {
ExpressionProcesserController exp = (ExpressionProcesserController) itr.next();
exp.close();
}
} finally {
expressionProcessors.clear();
}
if (in != null)
try {
in.close();
} catch (Exception e) {
}
in = null;
if (out != null)
try {
out.close();
} catch (Exception e) {
}
out = null;
close();
}
}
if (closeWhenDone && connectionThread != null) server.removeConnectionThread(connectionThread);
if (shutdown) server.requestShutdown();
return result;
}
public void actionPerformed(ActionEvent e) {
if (e.getSource() == jbSaveLayer) {
try {
FileOutputStream fout = new FileOutputStream(jtfCengMing.getText() + ".wyf");
ObjectOutputStream oout = new ObjectOutputStream(fout);
oout.writeObject(itemArray);
oout.close();
fout.close();
} catch (Exception ea) {
ea.printStackTrace();
}
} else if (e.getSource() == jbLoadLayer) {
try {
FileInputStream fin = new FileInputStream(jtfCengMing.getText() + ".wyf");
ObjectInputStream oin = new ObjectInputStream(fin);
itemArray = (Item[][]) oin.readObject();
oin.close();
fin.close();
this.flush();
} catch (Exception ea) {
ea.printStackTrace();
}
lvp.repaint();
} else if (e.getSource() == jbLoadAll) { // 全部铺上当前选中
for (int row = 0; row < 40; row++) {
for (int col = 0; col < 60; col++) {
Item item = ((Item) (jl.getSelectedValue())).clone();
itemArray[row][col] = item;
if (item != null) {
item.setPosition(col, row);
}
}
}
lvp.repaint();
} else if (e.getSource() == jbCreate) { // 生成源代码
try {
FileOutputStream fout = null;
DataOutputStream dout = null;
fout = new FileOutputStream("maps.so");
dout = new DataOutputStream(fout);
int totalBlocks = 0;
for (int i = 0; i < 40; i++) {
for (int j = 0; j < 60; j++) {
Item item = itemArray[i][j];
if (item != null) {
totalBlocks++;
}
}
}
System.out.println("totalBlocks=" + totalBlocks);
// 写入不空块的数量
dout.writeInt(totalBlocks);
for (int i = 0; i < 40; i++) {
for (int j = 0; j < 60; j++) {
Item item = itemArray[i][j];
if (item != null) {
int w = item.w; // 元素的图片宽度
int h = item.h; // 元素的图片高度
int col = item.col; // 元素的地图列
int row = item.row; // 元素的地图行
int pCol = item.pCol; // 元素的占位列
int pRow = item.pRow; // 元素的占位行
String leiMing = item.leiMing; // 类名
int[][] notIn = item.notIn; // 不可通过
int[][] keYu = item.keYu; // 可遇矩阵
// 计算图片下标
int outBitmapInxex = 0;
if (leiMing.equals("Grass")) {
outBitmapInxex = 0;
} else if (leiMing.equals("XiaoHua1")) {
outBitmapInxex = 1;
} else if (leiMing.equals("MuZhuang")) {
outBitmapInxex = 2;
} else if (leiMing.equals("XiaoHua2")) {
outBitmapInxex = 3;
} else if (leiMing.equals("Road")) {
outBitmapInxex = 4;
} else if (leiMing.equals("Jing")) {
outBitmapInxex = 5;
}
dout.writeByte(outBitmapInxex); // 记录图片下标
dout.writeByte(0); // 记录可遇标志 0-不可遇 底层都不可遇
dout.writeByte(w); // 图片宽度
dout.writeByte(h); // 图片高度
dout.writeByte(col); // 总列数
dout.writeByte(row); // 总行数
dout.writeByte(pCol); // 占位列
dout.writeByte(pRow); // 占位行
int bktgCount = notIn.length; // 不可通过点的数量
dout.writeByte(bktgCount); // 写入不可通过点的数量
for (int k = 0; k < bktgCount; k++) {
dout.writeByte(notIn[k][0]);
dout.writeByte(notIn[k][1]);
}
}
}
}
dout.close();
fout.close();
} catch (Exception ea) {
ea.printStackTrace();
}
}
}
/**
* Writes byte value into stream
*
* @param value byte value to write
*/
public void writeByte(int value) throws java.io.IOException {
outputStream.writeByte(value);
}
public void run() {
int i,
j,
storedValues,
sleepTime = 3000,
timeoutCtr = 0,
lastFlags = -1,
trackCnt = 0,
lastLocMethod = -5;
String bssid;
WMapEntry currEntry;
DataOutputStream out;
FileInputStream in;
while (running) {
try {
if (scanData.getNoGPSExitInterval() > 0) {
if (System.currentTimeMillis() > lastGPSTime + scanData.getNoGPSExitInterval()) {
break;
}
}
if (ScanService.scanData.getThreadMode() == OWMapAtAndroid.THREAD_MODE_UPLOAD) {
if ((m_uploadThread != null) && (m_uploadThread.isUploading()))
OWMapAtAndroid.sendMessage(
ScannerHandler.MSG_SIMPLE_ALERT,
0,
0,
getResources().getText(R.string.upload_in_progress));
else m_uploadThread = new UploadThread(scanData, this, SP, false, notification, null);
ScanService.scanData.setThreadMode(OWMapAtAndroid.THREAD_MODE_SCAN);
} else {
if ((posState == 0) && (scanData != null) && (scanData.isScanningEnabled())) {
posState = 1;
timeoutCtr = 0;
if (scanData.getFlags() != lastFlags) {
if ((scanData.getFlags() & OWMapAtAndroid.FLAG_NO_NET_ACCESS) == 0)
scanData.getWifiManager().createWifiLock(WifiManager.WIFI_MODE_FULL, "OpenWLANMap");
else
scanData
.getWifiManager()
.createWifiLock(WifiManager.WIFI_MODE_SCAN_ONLY, "OpenWLANMap");
lastFlags = scanData.getFlags();
}
if ((scanData.getFlags() & OWMapAtAndroid.FLAG_NO_NET_ACCESS) == 0)
myWLocate.wloc_request_position(WLocate.FLAG_NO_IP_LOCATION);
else {
myWLocate.wloc_request_position(
WLocate.FLAG_NO_NET_ACCESS | WLocate.FLAG_NO_IP_LOCATION);
// stopGoogleLocation();
}
} else if (!scanData.isScanningEnabled()) {
try {
trackCnt += 1500;
Thread.sleep(1500);
} catch (InterruptedException ie) {
}
}
if (posState == 1) {
// sleep while waiting for result
try {
trackCnt += 2500;
java.lang.Thread.sleep(2500); // is interrupted from result handler
timeoutCtr++;
if (timeoutCtr > 3) {
timeoutCtr = 0;
posState = 0;
}
} catch (InterruptedException ie) {
}
}
if ((posState == 2) || (posState == 100)) {
loc_info locationInfo;
NetworkInfo mWifi = connManager.getNetworkInfo(ConnectivityManager.TYPE_WIFI);
locationInfo = myWLocate.last_location_info();
if (lastLocMethod != locationInfo.lastLocMethod) {
scanData.getmView().setMode(locationInfo.lastLocMethod);
scanData.getmView().postInvalidate();
lastLocMethod = locationInfo.lastLocMethod;
}
if (posState == 100) locationInfo.lastLocMethod = -1;
OWMapAtAndroid.sendMessage(
OWMapAtAndroid.ScannerHandler.MSG_UPD_LOC_STATE,
(int) (lastRadius * 1000),
locationInfo.lastLocMethod,
locationInfo);
if (SP.getBoolean("autoConnect", false)) {
if (!mWifi.isConnected()) {
for (i = 0; i < locationInfo.wifiScanResult.size(); i++) {
ScanResult result;
result = locationInfo.wifiScanResult.get(i);
result.capabilities = result.capabilities.toUpperCase(Locale.US);
if ((isFreeHotspot(result) & WMapEntry.FLAG_IS_FREIFUNK) != 0) {
// auto-connect to this open network
WifiConfiguration wifiConfig = new WifiConfiguration();
wifiConfig.BSSID = result.BSSID;
wifiConfig.priority = 1;
wifiConfig.allowedKeyManagement.set(KeyMgmt.NONE);
wifiConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.TKIP);
wifiConfig.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.OPEN);
wifiConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.NONE);
wifiConfig.status = WifiConfiguration.Status.ENABLED;
int netId = scanData.getWifiManager().addNetwork(wifiConfig);
scanData.getWifiManager().enableNetwork(netId, true);
}
}
}
}
if ((posValid)
&& (locationInfo.wifiScanResult != null)
&& (locationInfo.wifiScanResult.size() > 0)) {
boolean foundExisting;
for (i = 0; i < locationInfo.wifiScanResult.size(); i++) {
ScanResult result;
result = locationInfo.wifiScanResult.get(i);
bssid = result.BSSID.replace(":", "").replace(".", "").toUpperCase(Locale.US);
if (bssid.equalsIgnoreCase("000000000000")) break;
foundExisting = false;
scanData.getLock().lock();
for (j = 0; j < scanData.getWmapList().size(); j++) {
currEntry = scanData.getWmapList().elementAt(j);
if (currEntry.getBSSID().equalsIgnoreCase(bssid)) {
currEntry.setPos(lastLat, lastLon);
foundExisting = true;
break;
}
}
if (!foundExisting) {
String lowerSSID;
storedValues = scanData.incStoredValues();
scanData.getmView().setValue(storedValues);
scanData.getmView().postInvalidate();
currEntry = new WMapEntry(bssid, result.SSID, lastLat, lastLon, storedValues);
lowerSSID = result.SSID.toLowerCase(Locale.US);
if ((lowerSSID.endsWith("_nomap"))
|| // Google unsubscibe option
(lowerSSID.contains("iphone"))
|| // mobile AP
(lowerSSID.contains("android"))
|| // mobile AP
(lowerSSID.contains("motorola"))
|| // mobile AP
(lowerSSID.contains("deinbus.de"))
|| // WLAN network on board of German bus
(lowerSSID.contains("fernbus"))
|| // WLAN network on board of German bus
(lowerSSID.contains("flixbus"))
|| // WLAN network on board of German bus
(lowerSSID.contains("ecolines"))
|| // WLAN network on board of German bus
(lowerSSID.contains("eurolines_wifi"))
|| // WLAN network on board of German bus
(lowerSSID.contains("contiki-wifi"))
|| // WLAN network on board of bus
(lowerSSID.contains("guest@ms "))
|| // WLAN network on Hurtigruten ships
(lowerSSID.contains("admin@ms "))
|| // WLAN network on Hurtigruten ships
(lowerSSID.contains("nsb_interakti"))
|| // WLAN network in NSB trains
(lowerSSID.equals("southwestwifi"))) // WLAN network on Southwest flights
currEntry.setFlags(currEntry.getFlags() | WMapEntry.FLAG_IS_NOMAP);
else currEntry.setFlags(currEntry.getFlags() | isFreeHotspot(result));
if (isFreeHotspot(currEntry.getFlags())) scanData.incFreeHotspotWLANs();
scanData.getWmapList().add(currEntry);
if ((scanData.getUploadThres() > 0)
&& (storedValues > scanData.getUploadThres())) {
if ((m_uploadThread == null) || (!m_uploadThread.isUploading())) {
if (mWifi.isConnected()) {
m_uploadThread =
new UploadThread(scanData, this, SP, true, notification, mWifi);
}
}
}
}
result.capabilities = result.capabilities.toUpperCase(Locale.US);
scanData.getLock().unlock();
}
}
scanData.getLock().lock();
for (j = 0; j < scanData.getWmapList().size(); j++) {
currEntry = scanData.getWmapList().elementAt(j);
if ((currEntry.getLastUpdate() + OWMapAtAndroid.RECV_TIMEOUT
< System.currentTimeMillis())
&& ((currEntry.getFlags() & WMapEntry.FLAG_IS_VISIBLE) == 0)) {
scanData.getWmapList().remove(j);
if (currEntry.posIsValid()) {
int padBytes = 0, k;
try {
in = scanData.getCtx().openFileInput(OWMapAtAndroid.WSCAN_FILE);
padBytes = in.available() % 28;
in.close();
if (padBytes > 0) padBytes = 28 - padBytes;
} catch (IOException ioe) {
ioe.printStackTrace();
}
try {
out =
new DataOutputStream(
scanData
.getCtx()
.openFileOutput(
OWMapAtAndroid.WSCAN_FILE,
Context.MODE_PRIVATE | Context.MODE_APPEND));
if (padBytes > 0) for (k = 0; k < padBytes; k++) out.writeByte(0);
out.write(currEntry.getBSSID().getBytes(), 0, 12);
if ((currEntry.getFlags() & WMapEntry.FLAG_IS_NOMAP) != 0) {
out.writeDouble(0.0);
out.writeDouble(0.0);
} else {
out.writeDouble(currEntry.getLat());
out.writeDouble(currEntry.getLon());
}
out.close();
} catch (IOException ioe) {
ioe.printStackTrace();
}
if ((currEntry.getFlags()
& (WMapEntry.FLAG_IS_FREIFUNK | WMapEntry.FLAG_IS_NOMAP))
== WMapEntry.FLAG_IS_FREIFUNK) {
padBytes = 0;
try {
in = scanData.getCtx().openFileInput(OWMapAtAndroid.WFREI_FILE);
padBytes = in.available() % 12;
in.close();
if (padBytes > 0) padBytes = 12 - padBytes;
} catch (IOException ioe) {
ioe.printStackTrace();
}
try {
out =
new DataOutputStream(
scanData
.getCtx()
.openFileOutput(
OWMapAtAndroid.WFREI_FILE,
Context.MODE_PRIVATE | Context.MODE_APPEND));
if (padBytes > 0) for (k = 0; k < padBytes; k++) out.writeByte(0);
out.write(currEntry.getBSSID().getBytes(), 0, 12);
out.close();
} catch (IOException ioe) {
ioe.printStackTrace();
}
}
}
}
// flushData(false);
}
scanData.getLock().unlock();
m_lastSpeed = locationInfo.lastSpeed;
if (!SP.getBoolean("adaptiveScanning", true)) sleepTime = 500;
else if (locationInfo.lastSpeed > 90) sleepTime = 350;
else if (locationInfo.lastSpeed < 0)
sleepTime = 1300; // no speed information, may be because of WLAN localisation
else if (locationInfo.lastSpeed < 6) sleepTime = 2500; // user seems to walk
else {
double f;
f = 1.0 - (locationInfo.lastSpeed / 90.0);
sleepTime = (int) ((1000.0 * f) + 350);
}
try {
trackCnt += sleepTime;
java.lang.Thread.sleep(sleepTime); // sleep between scans
} catch (InterruptedException ie) {
}
posState = 0;
}
}
} catch (NullPointerException npe) // in case the parent activity dies too fast
{
npe.printStackTrace();
}
if ((trackCnt > 500000) && (lastLat != 0) && (lastLon != 0)) {
if (SP.getBoolean("track", false)) new UploadPositionTask().execute(null, null, null);
trackCnt = 0;
}
}
onDestroy(); // remove all resources (in case the thread was stopped due to some other reason
}
