void setFormData(WObject.FormData formData) {
if (!(formData.values.length == 0)) {
List<String> attributes = new ArrayList<String>();
attributes = new ArrayList<String>(Arrays.asList(formData.values[0].split(";")));
if (attributes.size() == 6) {
try {
this.volume_ = Double.parseDouble(attributes.get(0));
} catch (RuntimeException e) {
this.volume_ = -1;
}
try {
this.current_ = Double.parseDouble(attributes.get(1));
} catch (RuntimeException e) {
this.current_ = -1;
}
try {
this.duration_ = Double.parseDouble(attributes.get(2));
} catch (RuntimeException e) {
this.duration_ = -1;
}
this.playing_ = attributes.get(3).equals("0");
this.ended_ = attributes.get(4).equals("1");
try {
this.readyState_ = intToReadyState(Integer.parseInt(attributes.get(5)));
} catch (RuntimeException e) {
throw new WException(
"WAbstractMedia: error parsing: " + formData.values[0] + ": " + e.toString());
}
} else {
throw new WException("WAbstractMedia: error parsing: " + formData.values[0]);
}
}
}
public static void testCollections() throws Exception {
CollectionsTest trt = set(CollectionsTest.class, new int[] {1, 2, 3});
List<String> source = Arrays.asList("1", "2", "3");
assertTrue(trt.collection() instanceof Collection);
assertEqualList(source, trt.collection());
assertTrue(trt.list() instanceof List);
assertEqualList(source, trt.list());
assertTrue(trt.set() instanceof Set);
assertEqualList(source, trt.set());
assertTrue(trt.queue() instanceof Queue);
assertEqualList(source, trt.queue());
// assertTrue( trt.deque() instanceof Deque);
// assertEqualList( source, trt.deque());
assertTrue(trt.stack() instanceof Stack);
assertEqualList(source, trt.stack());
assertTrue(trt.arrayList() instanceof ArrayList);
assertEqualList(source, trt.arrayList());
assertTrue(trt.linkedList() instanceof LinkedList);
assertEqualList(source, trt.linkedList());
assertTrue(trt.linkedHashSet() instanceof LinkedHashSet);
assertEqualList(source, trt.linkedHashSet());
assertTrue(trt.myList() instanceof MyList);
assertEqualList(source, trt.myList());
}
/**
* Statically analyze a query for various properties.
*
* @param query the query to analyze
* @param params parameters for the query; if necessary parameters are left out they will be
* listed as required variables in the analysis
* @return a query analysis facet
*/
public QueryAnalysis analyze(String query, Object... params) {
if (presub) query = presub(query, params);
long t1 = System.currentTimeMillis(), t2 = 0, t3 = 0;
DBBroker broker = null;
try {
broker = db.acquireBroker();
prepareContext(broker);
final org.exist.source.Source source = buildQuerySource(query, params, "analyze");
final XQuery xquery = broker.getXQueryService();
final XQueryPool pool = xquery.getXQueryPool();
CompiledXQuery compiledQuery = pool.borrowCompiledXQuery(broker, source);
try {
AnalysisXQueryContext context;
if (compiledQuery == null) {
context = new AnalysisXQueryContext(broker, AccessContext.INTERNAL_PREFIX_LOOKUP);
buildXQueryStaticContext(context, false);
buildXQueryDynamicContext(context, params, null, false);
t2 = System.currentTimeMillis();
compiledQuery = xquery.compile(context, source);
t3 = System.currentTimeMillis();
} else {
context = (AnalysisXQueryContext) compiledQuery.getContext();
t2 = System.currentTimeMillis();
}
return new QueryAnalysis(
compiledQuery,
Collections.unmodifiableSet(context.requiredVariables),
Collections.unmodifiableSet(context.requiredFunctions));
} finally {
if (compiledQuery != null) pool.returnCompiledXQuery(source, compiledQuery);
}
} catch (XPathException e) {
LOG.warn(
"query compilation failed -- "
+ query
+ " -- "
+ (params == null ? "" : " with params " + Arrays.asList(params))
+ (bindings.isEmpty() ? "" : " and bindings " + bindings));
throw new DatabaseException("failed to compile query", e);
} catch (IOException e) {
throw new DatabaseException("unexpected exception", e);
} catch (PermissionDeniedException e) {
throw new DatabaseException("permission denied", e);
} finally {
db.releaseBroker(broker);
STATS.update(query, t1, t2, t3, 0, System.currentTimeMillis());
}
}
public void onMatch(RelOptRuleCall call) {
JoinRel join = (JoinRel) call.rels[0];
List<RexNode> expList = new ArrayList<RexNode>(Arrays.asList(join.getChildExps()));
if (reduceExpressions(join, expList)) {
call.transformTo(
new JoinRel(
join.getCluster(),
join.getLeft(),
join.getRight(),
expList.get(0),
join.getJoinType(),
join.getVariablesStopped()));
// New plan is absolutely better than old plan.
call.getPlanner().setImportance(join, 0.0);
}
}
public void onMatch(RelOptRuleCall call) {
ProjectRel project = (ProjectRel) call.rels[0];
List<RexNode> expList = new ArrayList<RexNode>(Arrays.asList(project.getChildExps()));
if (reduceExpressions(project, expList)) {
call.transformTo(
new ProjectRel(
project.getCluster(),
project.getChild(),
expList.toArray(new RexNode[expList.size()]),
project.getRowType(),
ProjectRel.Flags.Boxed,
Collections.<RelCollation>emptyList()));
// New plan is absolutely better than old plan.
call.getPlanner().setImportance(project, 0.0);
}
}
private void _putObjectField(String name, Object val) {
if (dbOnlyField(name) || name.equals("_transientFields")) return;
if (DEBUG) System.out.println("\t put thing : " + name);
if (name.equals("$where") && val instanceof String) {
_put(CODE, name);
_putValueString(val.toString());
return;
}
val = Bytes.applyEncodingHooks(val);
if (val == null) putNull(name);
else if (val instanceof Date) putDate(name, (Date) val);
else if (val instanceof Number) putNumber(name, (Number) val);
else if (val instanceof String) putString(name, val.toString());
else if (val instanceof ObjectId) putObjectId(name, (ObjectId) val);
else if (val instanceof DBObject) putObject(name, (DBObject) val);
else if (val instanceof Boolean) putBoolean(name, (Boolean) val);
else if (val instanceof Pattern) putPattern(name, (Pattern) val);
else if (val instanceof DBRegex) {
putDBRegex(name, (DBRegex) val);
} else if (val instanceof Map) putMap(name, (Map) val);
else if (val instanceof List) putList(name, (List) val);
else if (val instanceof byte[]) putBinary(name, (byte[]) val);
else if (val instanceof DBBinary) putBinary(name, (DBBinary) val);
else if (val.getClass().isArray()) putList(name, Arrays.asList((Object[]) val));
else if (val instanceof DBPointer) {
// temporary - there's the notion of "special object" , but for simple level 0...
DBPointer r = (DBPointer) val;
putDBPointer(name, r._ns, (ObjectId) r._id);
} else if (val instanceof DBRefBase) {
putDBRef(name, (DBRefBase) val);
} else if (val instanceof DBSymbol) {
putSymbol(name, (DBSymbol) val);
} else if (val instanceof DBUndefined) {
putUndefined(name);
} else if (val instanceof DBTimestamp) {
putTimestamp(name, (DBTimestamp) val);
} else throw new IllegalArgumentException("can't serialize " + val.getClass());
}
/**
* replace ; <list> ; regex ; replace
*
* @param args
* @return
*/
public String _replace(String args[]) {
if (args.length != 4) {
domain.warning("Invalid nr of arguments to replace " + Arrays.asList(args));
return null;
}
String list[] = args[1].split("\\s*,\\s*");
StringBuilder sb = new StringBuilder();
String del = "";
for (int i = 0; i < list.length; i++) {
String element = list[i].trim();
if (!element.equals("")) {
sb.append(del);
sb.append(element.replaceAll(args[2], args[3]));
del = ", ";
}
}
return sb.toString();
}
/**
* Convert the given object into a value appropriate for being defined as the value of a variable
* in an XQuery. This will extract a sequence out of all database objects, convert collections and
* arrays into sequences recursively, convert <code>null</code> into an empty sequence, and pass
* other objects through untouched. Convertible objects that are defined in the JDK will be
* automatically converted by eXist.
*
* @see org.exist.xquery.XPathUtil#javaObjectToXPath(Object, XQueryContext, boolean)
* @param o the object to convert to a database value
* @return the converted value, ready for assignment to an XQuery variable
*/
@SuppressWarnings("unchecked")
private Object convertValue(Object o) {
if (o == null) return Collections.emptyList();
if (o instanceof Resource) {
try {
return ((Resource) o).convertToSequence();
} catch (UnsupportedOperationException e) {
return o;
}
}
List<Object> list = null;
if (o instanceof Collection) list = new ArrayList<Object>((Collection) o);
else if (o instanceof Object[]) list = new ArrayList<Object>(Arrays.asList((Object[]) o));
if (list != null) {
for (ListIterator<Object> it = list.listIterator(); it.hasNext(); ) {
it.set(convertValue(it.next()));
}
return list;
}
return DataUtils.toXMLObject(o);
}
static void decodeTouches(String str, List<Touch> result) {
if (str.length() == 0) {
return;
}
List<String> s = new ArrayList<String>();
s = new ArrayList<String>(Arrays.asList(str.split(";")));
if (s.size() % 9 != 0) {
logger.error(
new StringWriter()
.append("Could not parse touches array '")
.append(str)
.append("'")
.toString());
return;
}
try {
for (int i = 0; i < s.size(); i += 9) {
result.add(
new Touch(
asUInt(s.get(i + 0)),
asInt(s.get(i + 1)),
asInt(s.get(i + 2)),
asInt(s.get(i + 3)),
asInt(s.get(i + 4)),
asInt(s.get(i + 5)),
asInt(s.get(i + 6)),
asInt(s.get(i + 7)),
asInt(s.get(i + 8))));
}
} catch (NumberFormatException ee) {
logger.error(
new StringWriter()
.append("Could not parse touches array '")
.append(str)
.append("'")
.toString());
return;
}
}
public void onMatch(RelOptRuleCall call) {
FilterRel filter = (FilterRel) call.rels[0];
List<RexNode> expList = new ArrayList<RexNode>(Arrays.asList(filter.getChildExps()));
RexNode newConditionExp;
boolean reduced;
if (reduceExpressions(filter, expList)) {
assert (expList.size() == 1);
newConditionExp = expList.get(0);
reduced = true;
} else {
// No reduction, but let's still test the original
// predicate to see if it was already a constant,
// in which case we don't need any runtime decision
// about filtering.
newConditionExp = filter.getChildExps()[0];
reduced = false;
}
if (newConditionExp.isAlwaysTrue()) {
call.transformTo(filter.getChild());
} else if ((newConditionExp instanceof RexLiteral)
|| RexUtil.isNullLiteral(newConditionExp, true)) {
call.transformTo(new EmptyRel(filter.getCluster(), filter.getRowType()));
} else if (reduced) {
call.transformTo(CalcRel.createFilter(filter.getChild(), expList.get(0)));
} else {
if (newConditionExp instanceof RexCall) {
RexCall rexCall = (RexCall) newConditionExp;
boolean reverse = (rexCall.getOperator() == SqlStdOperatorTable.notOperator);
if (reverse) {
rexCall = (RexCall) rexCall.getOperands()[0];
}
reduceNotNullableFilter(call, filter, rexCall, reverse);
}
return;
}
// New plan is absolutely better than old plan.
call.getPlanner().setImportance(filter, 0.0);
}
NameProcessIterator(String names, ClassLoader processorCL, Log log) {
this.names = Arrays.asList(names.split(",")).iterator();
this.processorCL = processorCL;
this.log = log;
}
ItemList executeQuery(String query, WrapperFactory wrapperFactory, Object[] params) {
long t1 = System.currentTimeMillis(), t2 = 0, t3 = 0, t4 = 0;
if (presub) query = presub(query, params);
DBBroker broker = null;
try {
broker = db.acquireBroker();
prepareContext(broker);
if (overrideDocs != null) docs = overrideDocs;
final org.exist.source.Source source = buildQuerySource(query, params, "execute");
final XQuery xquery = broker.getXQueryService();
final XQueryPool pool = xquery.getXQueryPool();
CompiledXQuery compiledQuery = pool.borrowCompiledXQuery(broker, source);
MutableDocumentSet docsToLock = new DefaultDocumentSet();
if (docs != null) docsToLock.addAll(docs);
if (base != null) docsToLock.addAll(base.getDocumentSet());
try {
XQueryContext context;
if (compiledQuery == null) {
context = xquery.newContext(AccessContext.INTERNAL_PREFIX_LOOKUP);
buildXQueryStaticContext(context, true);
} else {
context = compiledQuery.getContext();
// static context already set
}
buildXQueryDynamicContext(context, params, docsToLock, true);
t2 = System.currentTimeMillis();
if (compiledQuery == null) {
compiledQuery = xquery.compile(context, source);
t3 = System.currentTimeMillis();
}
docsToLock.lock(broker, false, false);
try {
return new ItemList(
xquery.execute(wrap(compiledQuery, wrapperFactory, context), base),
namespaceBindings.extend(),
db);
} finally {
docsToLock.unlock(false);
t4 = System.currentTimeMillis();
}
} finally {
if (compiledQuery != null) pool.returnCompiledXQuery(source, compiledQuery);
}
} catch (XPathException e) {
LOG.debug(
"query execution failed -- "
+ query
+ " -- "
+ (params == null ? "" : " with params " + Arrays.asList(params))
+ (bindings.isEmpty() ? "" : " and bindings " + bindings));
throw new DatabaseException("failed to execute query", e);
} catch (IOException e) {
throw new DatabaseException("unexpected exception", e);
} catch (LockException e) {
throw new DatabaseException("deadlock", e);
} catch (PermissionDeniedException e) {
throw new DatabaseException("permission denied", e);
} finally {
db.releaseBroker(broker);
STATS.update(query, t1, t2, t3, t4, System.currentTimeMillis());
}
}
/**
* Test the converter.
*
* @throws URISyntaxException
*/
public static void testConverter() throws URISyntaxException {
{
// Test collections as value
TestReturnTypes trt = set(TestReturnTypes.class, Arrays.asList(55));
assertTrue(Arrays.equals(new boolean[] {true}, trt.rpaBoolean()));
assertTrue(Arrays.equals(new byte[] {55}, trt.rpaByte()));
assertTrue(Arrays.equals(new short[] {55}, trt.rpaShort()));
assertTrue(Arrays.equals(new int[] {55}, trt.rpaInt()));
assertTrue(Arrays.equals(new long[] {55}, trt.rpaLong()));
assertTrue(Arrays.equals(new float[] {55}, trt.rpaFloat()));
assertTrue(Arrays.equals(new double[] {55}, trt.rpaDouble()));
assertEquals(Arrays.asList(true), trt.rBooleans());
assertEquals(Arrays.asList(new Byte((byte) 55)), trt.rBytes());
assertEquals(Arrays.asList(new Short((short) 55)), trt.rShorts());
assertEquals(Arrays.asList(Integer.valueOf(55)), trt.rInts());
assertEquals(Arrays.asList(new Long(55L)), trt.rLongs());
assertEquals(Arrays.asList(new Float(55F)), trt.rFloats());
assertEquals(Arrays.asList(new Double(55D)), trt.rDoubles());
assertEquals(Arrays.asList("55"), trt.rStrings());
assertEquals(Arrays.asList(new URI("55")), trt.rURIs());
assertTrue(Arrays.equals(new Boolean[] {true}, trt.raBoolean()));
assertTrue(Arrays.equals(new Byte[] {55}, trt.raByte()));
assertTrue(Arrays.equals(new Short[] {55}, trt.raShort()));
assertTrue(Arrays.equals(new Integer[] {55}, trt.raInt()));
assertTrue(Arrays.equals(new Long[] {55L}, trt.raLong()));
assertTrue(Arrays.equals(new Float[] {55F}, trt.raFloat()));
assertTrue(Arrays.equals(new Double[] {55D}, trt.raDouble()));
assertTrue(Arrays.equals(new String[] {"55"}, trt.raString()));
assertTrue(Arrays.equals(new URI[] {new URI("55")}, trt.raURI()));
}
{
// Test primitive arrays as value
TestReturnTypes trt = set(TestReturnTypes.class, new int[] {55});
assertTrue(Arrays.equals(new boolean[] {true}, trt.rpaBoolean()));
assertTrue(Arrays.equals(new byte[] {55}, trt.rpaByte()));
assertTrue(Arrays.equals(new short[] {55}, trt.rpaShort()));
assertTrue(Arrays.equals(new int[] {55}, trt.rpaInt()));
assertTrue(Arrays.equals(new long[] {55}, trt.rpaLong()));
assertTrue(Arrays.equals(new float[] {55}, trt.rpaFloat()));
assertTrue(Arrays.equals(new double[] {55}, trt.rpaDouble()));
assertEquals(Arrays.asList(true), trt.rBooleans());
assertEquals(Arrays.asList(new Byte((byte) 55)), trt.rBytes());
assertEquals(Arrays.asList(new Short((short) 55)), trt.rShorts());
assertEquals(Arrays.asList(Integer.valueOf(55)), trt.rInts());
assertEquals(Arrays.asList(new Long(55L)), trt.rLongs());
assertEquals(Arrays.asList(new Float(55F)), trt.rFloats());
assertEquals(Arrays.asList(new Double(55D)), trt.rDoubles());
assertEquals(Arrays.asList("55"), trt.rStrings());
assertEquals(Arrays.asList(new URI("55")), trt.rURIs());
assertTrue(Arrays.equals(new Boolean[] {true}, trt.raBoolean()));
assertTrue(Arrays.equals(new Byte[] {55}, trt.raByte()));
assertTrue(Arrays.equals(new Short[] {55}, trt.raShort()));
assertTrue(Arrays.equals(new Integer[] {55}, trt.raInt()));
assertTrue(Arrays.equals(new Long[] {55L}, trt.raLong()));
assertTrue(Arrays.equals(new Float[] {55F}, trt.raFloat()));
assertTrue(Arrays.equals(new Double[] {55D}, trt.raDouble()));
assertTrue(Arrays.equals(new String[] {"55"}, trt.raString()));
assertTrue(Arrays.equals(new URI[] {new URI("55")}, trt.raURI()));
}
{
// Test single value
TestReturnTypes trt = set(TestReturnTypes.class, 55);
assertEquals(true, trt.rpBoolean());
assertEquals(55, trt.rpByte());
assertEquals(55, trt.rpShort());
assertEquals(55, trt.rpInt());
assertEquals(55L, trt.rpLong());
assertEquals(55.0D, trt.rpDouble());
assertEquals(55.0F, trt.rpFloat());
assertEquals((Boolean) true, trt.rBoolean());
assertEquals(new Byte((byte) 55), trt.rByte());
assertEquals(new Short((short) 55), trt.rShort());
assertEquals(Integer.valueOf(55), trt.rInt());
assertEquals(new Long(55L), trt.rLong());
assertEquals(new Float(55F), trt.rFloat());
assertEquals(new Double(55), trt.rDouble());
assertEquals("55", trt.rString());
assertEquals(new URI("55"), trt.rURI());
assertTrue(Arrays.equals(new boolean[] {true}, trt.rpaBoolean()));
assertTrue(Arrays.equals(new byte[] {55}, trt.rpaByte()));
assertTrue(Arrays.equals(new short[] {55}, trt.rpaShort()));
assertTrue(Arrays.equals(new int[] {55}, trt.rpaInt()));
assertTrue(Arrays.equals(new long[] {55}, trt.rpaLong()));
assertTrue(Arrays.equals(new float[] {55}, trt.rpaFloat()));
assertTrue(Arrays.equals(new double[] {55}, trt.rpaDouble()));
assertEquals(Arrays.asList(true), trt.rBooleans());
assertEquals(Arrays.asList(new Byte((byte) 55)), trt.rBytes());
assertEquals(Arrays.asList(new Short((short) 55)), trt.rShorts());
assertEquals(Arrays.asList(Integer.valueOf(55)), trt.rInts());
assertEquals(Arrays.asList(new Long(55L)), trt.rLongs());
assertEquals(Arrays.asList(new Float(55F)), trt.rFloats());
assertEquals(Arrays.asList(new Double(55D)), trt.rDoubles());
assertEquals(Arrays.asList("55"), trt.rStrings());
assertEquals(Arrays.asList(new URI("55")), trt.rURIs());
assertTrue(Arrays.equals(new Boolean[] {true}, trt.raBoolean()));
assertTrue(Arrays.equals(new Byte[] {55}, trt.raByte()));
assertTrue(Arrays.equals(new Short[] {55}, trt.raShort()));
assertTrue(Arrays.equals(new Integer[] {55}, trt.raInt()));
assertTrue(Arrays.equals(new Long[] {55L}, trt.raLong()));
assertTrue(Arrays.equals(new Float[] {55F}, trt.raFloat()));
assertTrue(Arrays.equals(new Double[] {55D}, trt.raDouble()));
assertTrue(Arrays.equals(new String[] {"55"}, trt.raString()));
assertTrue(Arrays.equals(new URI[] {new URI("55")}, trt.raURI()));
}
}
@SuppressWarnings("unchecked")
static Object bindInternal(
String name,
Class clazz,
Type type,
Annotation[] annotations,
Map<String, String[]> params,
String suffix,
String[] profiles) {
try {
Logger.trace("bindInternal: name [" + name + "] suffix [" + suffix + "]");
String[] value = params.get(name + suffix);
Logger.trace("bindInternal: value [" + value + "]");
Logger.trace("bindInternal: profile [" + Utils.join(profiles, ",") + "]");
// Let see if we have a BindAs annotation and a separator. If so, we need to split the values
// Look up for the BindAs annotation. Extract the profile if there is any.
// TODO: Move me somewhere else?
if (annotations != null) {
for (Annotation annotation : annotations) {
if ((clazz.isArray() || Collection.class.isAssignableFrom(clazz))
&& value != null
&& value.length > 0
&& annotation.annotationType().equals(As.class)) {
As as = ((As) annotation);
final String separator = as.value()[0];
value = value[0].split(separator);
}
if (annotation.annotationType().equals(NoBinding.class)) {
NoBinding bind = ((NoBinding) annotation);
String[] localUnbindProfiles = bind.value();
Logger.trace(
"bindInternal: localUnbindProfiles [" + Utils.join(localUnbindProfiles, ",") + "]");
if (localUnbindProfiles != null && contains(profiles, localUnbindProfiles)) {
return NO_BINDING;
}
}
}
}
// Arrays types
// The array condition is not so nice... We should find another way of doing this....
if (clazz.isArray()
&& (clazz != byte[].class
&& clazz != byte[][].class
&& clazz != File[].class
&& clazz != Upload[].class)) {
if (value == null) {
value = params.get(name + suffix + "[]");
}
if (value == null) {
return MISSING;
}
Object r = Array.newInstance(clazz.getComponentType(), value.length);
for (int i = 0; i <= value.length; i++) {
try {
Array.set(r, i, directBind(name, annotations, value[i], clazz.getComponentType()));
} catch (Exception e) {
// ?? One item was bad
}
}
return r;
}
// Enums
if (Enum.class.isAssignableFrom(clazz)) {
if (value == null || value.length == 0) {
return MISSING;
} else if (StringUtils.isEmpty(value[0])) {
return null;
}
return Enum.valueOf(clazz, value[0]);
}
// Map
if (Map.class.isAssignableFrom(clazz)) {
Class keyClass = String.class;
Class valueClass = String.class;
if (type instanceof ParameterizedType) {
keyClass = (Class) ((ParameterizedType) type).getActualTypeArguments()[0];
valueClass = (Class) ((ParameterizedType) type).getActualTypeArguments()[1];
}
// Special case Map<String, String>
// Multivalues composite params are binded to a Map<String, String>
// see http://play.lighthouseapp.com/projects/57987/tickets/443
if (keyClass == String.class && valueClass == String.class && isComposite(name, params)) {
Map<String, String> stringMap = Utils.filterParams(params, name);
if (stringMap.size() > 0) return stringMap;
}
// Search for all params
Map<Object, Object> r = new HashMap<Object, Object>();
for (String param : params.keySet()) {
Pattern p = Pattern.compile("^" + name + suffix + "\\[([^\\]]+)\\](.*)$");
Matcher m = p.matcher(param);
if (m.matches()) {
String key = m.group(1);
value = params.get(param);
Map<String, String[]> tP = new HashMap<String, String[]>();
tP.put("key", new String[] {key});
Object oKey = bindInternal("key", keyClass, keyClass, annotations, tP, "", value);
if (oKey != MISSING) {
if (isComposite(name + suffix + "[" + key + "]", params)) {
BeanWrapper beanWrapper = getBeanWrapper(valueClass);
Object oValue =
beanWrapper.bind(
"", type, params, name + suffix + "[" + key + "]", annotations);
r.put(oKey, oValue);
} else {
tP = new HashMap<String, String[]>();
tP.put("value", params.get(name + suffix + "[" + key + "]"));
Object oValue =
bindInternal("value", valueClass, valueClass, annotations, tP, "", value);
if (oValue != MISSING) {
r.put(oKey, oValue);
} else {
r.put(oKey, null);
}
}
}
}
}
return r;
}
// Collections types
if (Collection.class.isAssignableFrom(clazz)) {
if (clazz.isInterface()) {
if (clazz.equals(List.class)) {
clazz = ArrayList.class;
}
if (clazz.equals(Set.class)) {
clazz = HashSet.class;
}
if (clazz.equals(SortedSet.class)) {
clazz = TreeSet.class;
}
}
Collection r = (Collection) clazz.newInstance();
Class componentClass = String.class;
if (type instanceof ParameterizedType) {
componentClass = (Class) ((ParameterizedType) type).getActualTypeArguments()[0];
}
// Create a an array of the component class
if (value != null) {
Object customArray = Array.newInstance(componentClass, value.length);
// custom types
for (Class<?> c : supportedTypes.keySet()) {
if (c.isAssignableFrom(customArray.getClass())) {
Object[] ar =
(Object[])
supportedTypes
.get(c)
.bind("value", annotations, name, customArray.getClass(), null);
List l = Arrays.asList(ar);
if (clazz.equals(HashSet.class)) {
return new HashSet(l);
} else if (clazz.equals(TreeSet.class)) {
return new TreeSet(l);
}
return l;
}
}
}
if (value == null) {
value = params.get(name + suffix + "[]");
if (value == null && r instanceof List) {
for (String param : params.keySet()) {
Pattern p = Pattern.compile("^" + escape(name + suffix) + "\\[([0-9]+)\\](.*)$");
Matcher m = p.matcher(param);
if (m.matches()) {
int key = Integer.parseInt(m.group(1));
while (((List<?>) r).size() <= key) {
((List<?>) r).add(null);
}
if (isComposite(name + suffix + "[" + key + "]", params)) {
BeanWrapper beanWrapper = getBeanWrapper(componentClass);
Object oValue =
beanWrapper.bind(
"", type, params, name + suffix + "[" + key + "]", annotations);
((List) r).set(key, oValue);
} else {
Map<String, String[]> tP = new HashMap<String, String[]>();
tP.put("value", params.get(name + suffix + "[" + key + "]"));
Object oValue =
bindInternal(
"value", componentClass, componentClass, annotations, tP, "", value);
if (oValue != MISSING) {
((List) r).set(key, oValue);
}
}
}
}
return r.isEmpty() ? MISSING : r;
}
}
if (value == null) {
return MISSING;
}
for (String v : value) {
try {
r.add(directBind(name, annotations, v, componentClass));
} catch (Exception e) {
// ?? One item was bad
Logger.debug(e, "error:");
}
}
return r;
}
// Assume a Bean if isComposite
Logger.trace(
"bindInternal: class ["
+ clazz
+ "] name ["
+ name
+ "] annotation ["
+ Utils.join(annotations, " ")
+ "] isComposite ["
+ isComposite(name + suffix, params)
+ "]");
if (isComposite(name + suffix, params)) {
BeanWrapper beanWrapper = getBeanWrapper(clazz);
return beanWrapper.bind(name, type, params, suffix, annotations);
}
// Simple types
if (value == null || value.length == 0) {
return MISSING;
}
return directBind(name, annotations, value[0], clazz, type);
} catch (Exception e) {
Validation.addError(name + suffix, "validation.invalid");
return MISSING;
}
}
public static void main(String[] args) {
// TODO main
OptionParser parser = new OptionParser();
parser.acceptsAll(Arrays.asList("h", "help"), "Show this help dialog.");
OptionSpec<String> serverOption =
parser
.acceptsAll(Arrays.asList("s", "server"), "Server to join.")
.withRequiredArg()
.describedAs("server-address[:port]");
OptionSpec<String> proxyOption =
parser
.acceptsAll(
Arrays.asList("P", "proxy"),
"SOCKS proxy to use. Ignored in presence of 'socks-proxy-list'.")
.withRequiredArg()
.describedAs("proxy-address");
OptionSpec<String> ownerOption =
parser
.acceptsAll(
Arrays.asList("o", "owner"), "Owner of the bot (username of in-game control).")
.withRequiredArg()
.describedAs("username");
OptionSpec<?> offlineOption =
parser.acceptsAll(
Arrays.asList("O", "offline"),
"Offline-mode. Ignores 'password' and 'account-list' (will "
+ "generate random usernames if 'username' is not supplied).");
OptionSpec<?> autoRejoinOption =
parser.acceptsAll(Arrays.asList("a", "auto-rejoin"), "Auto-rejoin a server on disconnect.");
OptionSpec<Integer> loginDelayOption =
parser
.acceptsAll(
Arrays.asList("d", "login-delay"),
"Delay between bot joins, in milliseconds. 5000 is "
+ "recommended if not using socks proxies.")
.withRequiredArg()
.describedAs("delay")
.ofType(Integer.class);
OptionSpec<Integer> botAmountOption =
parser
.acceptsAll(
Arrays.asList("b", "bot-amount"),
"Amount of bots to join. Must be <= amount of accounts.")
.withRequiredArg()
.describedAs("amount")
.ofType(Integer.class);
OptionSpec<String> protocolOption =
parser
.accepts(
"protocol",
"Protocol version to use. Can be either protocol number or Minecraft version.")
.withRequiredArg();
OptionSpec<?> protocolsOption =
parser.accepts("protocols", "List available protocols and exit.");
OptionSpec<String> accountListOption =
parser
.accepts(
"account-list",
"File containing a list of accounts, in username/email:password format.")
.withRequiredArg()
.describedAs("file");
OptionSpec<String> socksProxyListOption =
parser
.accepts(
"socks-proxy-list",
"File containing a list of SOCKS proxies, in address:port format.")
.withRequiredArg()
.describedAs("file");
OptionSpec<String> httpProxyListOption =
parser
.accepts(
"http-proxy-list",
"File containing a list of HTTP proxies, in address:port format.")
.withRequiredArg()
.describedAs("file");
OptionSpec<String> captchaListOption =
parser
.accepts("captcha-list", "File containing a list of chat baised captcha to bypass.")
.withRequiredArg()
.describedAs("file");
OptionSet options;
try {
options = parser.parse(args);
} catch (OptionException exception) {
try {
parser.printHelpOn(System.out);
} catch (Exception exception1) {
exception1.printStackTrace();
}
return;
}
if (options.has("help")) {
printHelp(parser);
return;
}
if (options.has(protocolsOption)) {
System.out.println("Available protocols:");
for (ProtocolProvider provider : ProtocolProvider.getProviders())
System.out.println(
"\t"
+ provider.getMinecraftVersion()
+ " ("
+ provider.getSupportedVersion()
+ "): "
+ provider.getClass().getName());
System.out.println(
"If no protocols are listed above, you may attempt to specify a protocol version in case the provider is actually in the class-path.");
return;
}
final boolean offline = options.has(offlineOption);
final boolean autoRejoin = options.has(autoRejoinOption);
final List<String> accounts;
if (options.has(accountListOption)) {
accounts = loadAccounts(options.valueOf(accountListOption));
} else if (!offline) {
System.out.println("Option 'accounts' must be supplied in " + "absence of option 'offline'.");
printHelp(parser);
return;
} else accounts = null;
final List<String> captcha;
if (options.has(captchaListOption)) readCaptchaFile(options.valueOf(captchaListOption));
final String server;
if (!options.has(serverOption)) {
System.out.println("Option 'server' required.");
printHelp(parser);
return;
} else server = options.valueOf(serverOption);
final String owner;
if (!options.has(ownerOption)) {
System.out.println("Option 'owner' required.");
printHelp(parser);
return;
} else owner = options.valueOf(ownerOption);
final int protocol;
if (options.has(protocolOption)) {
String protocolString = options.valueOf(protocolOption);
int parsedProtocol;
try {
parsedProtocol = Integer.parseInt(protocolString);
} catch (NumberFormatException exception) {
ProtocolProvider foundProvider = null;
for (ProtocolProvider provider : ProtocolProvider.getProviders())
if (protocolString.equals(provider.getMinecraftVersion())) foundProvider = provider;
if (foundProvider == null) {
System.out.println("No provider found for Minecraft version '" + protocolString + "'.");
return;
} else parsedProtocol = foundProvider.getSupportedVersion();
}
protocol = parsedProtocol;
} else protocol = MinecraftBot.LATEST_PROTOCOL;
final List<String> socksProxies;
if (options.has(socksProxyListOption))
socksProxies = loadProxies(options.valueOf(socksProxyListOption));
else socksProxies = null;
final boolean useProxy = socksProxies != null;
final List<String> httpProxies;
if (options.has(httpProxyListOption))
httpProxies = loadLoginProxies(options.valueOf(httpProxyListOption));
else if (!offline && accounts != null) {
System.out.println(
"Option 'http-proxy-list' required if " + "option 'account-list' is supplied.");
printHelp(parser);
return;
} else httpProxies = null;
final int loginDelay;
if (options.has(loginDelayOption)) loginDelay = options.valueOf(loginDelayOption);
else loginDelay = 0;
final int botAmount;
if (!options.has(botAmountOption)) {
System.out.println("Option 'bot-amount' required.");
printHelp(parser);
return;
} else botAmount = options.valueOf(botAmountOption);
initGui();
while (!sessions.get()) {
synchronized (sessions) {
try {
sessions.wait(5000);
} catch (InterruptedException exception) {
}
}
}
final Queue<Runnable> lockQueue = new ArrayDeque<Runnable>();
ExecutorService service = Executors.newFixedThreadPool(botAmount + (loginDelay > 0 ? 1 : 0));
final Object firstWait = new Object();
if (loginDelay > 0) {
service.execute(
new Runnable() {
@Override
public void run() {
synchronized (firstWait) {
try {
firstWait.wait();
} catch (InterruptedException exception) {
}
}
while (true) {
try {
Thread.sleep(loginDelay);
} catch (InterruptedException exception) {
}
synchronized (lockQueue) {
if (lockQueue.size() > 0) {
Runnable thread = lockQueue.poll();
synchronized (thread) {
thread.notifyAll();
}
lockQueue.offer(thread);
} else continue;
}
while (!sessions.get()) {
synchronized (sessions) {
try {
sessions.wait(5000);
} catch (InterruptedException exception) {
}
}
}
}
}
});
}
final List<String> accountsInUse = new ArrayList<String>();
final Map<String, AtomicInteger> workingProxies = new HashMap<String, AtomicInteger>();
for (int i = 0; i < botAmount; i++) {
final int botNumber = i;
Runnable runnable =
new Runnable() {
@Override
public void run() {
if (loginDelay > 0)
synchronized (lockQueue) {
lockQueue.add(this);
}
Random random = new Random();
if (!offline) {
AuthService authService = new LegacyAuthService();
boolean authenticated = false;
user:
while (true) {
if (authenticated) {
authenticated = false;
sessionCount.decrementAndGet();
}
Session session = null;
String loginProxy;
String account = accounts.get(random.nextInt(accounts.size()));
synchronized (accountsInUse) {
if (accountsInUse.size() == accounts.size()) System.exit(0);
while (accountsInUse.contains(account))
account = accounts.get(random.nextInt(accounts.size()));
accountsInUse.add(account);
}
String[] accountParts = account.split(":");
while (true) {
while (!sessions.get()) {
synchronized (sessions) {
try {
sessions.wait(5000);
} catch (InterruptedException exception) {
}
}
}
synchronized (workingProxies) {
Iterator<String> iterator = workingProxies.keySet().iterator();
if (iterator.hasNext()) loginProxy = iterator.next();
else loginProxy = httpProxies.get(random.nextInt(httpProxies.size()));
;
}
try {
session =
authService.login(
accountParts[0],
accountParts[1],
toProxy(loginProxy, Proxy.Type.HTTP));
// addAccount(session);
synchronized (workingProxies) {
AtomicInteger count = workingProxies.get(loginProxy);
if (count != null) count.set(0);
else workingProxies.put(loginProxy, new AtomicInteger());
}
sessionCount.incrementAndGet();
authenticated = true;
break;
} catch (IOException exception) {
synchronized (workingProxies) {
workingProxies.remove(loginProxy);
}
System.err.println("[Bot" + botNumber + "] " + loginProxy + ": " + exception);
} catch (AuthenticationException exception) {
if (exception.getMessage().contains("Too many failed logins")) {
synchronized (workingProxies) {
AtomicInteger count = workingProxies.get(loginProxy);
if (count != null && count.incrementAndGet() >= 5)
workingProxies.remove(loginProxy);
}
}
System.err.println("[Bot" + botNumber + "] " + loginProxy + ": " + exception);
continue user;
}
}
System.out.println("[" + session.getUsername() + "] " + session);
while (!joins.get()) {
synchronized (joins) {
try {
joins.wait(5000);
} catch (InterruptedException exception) {
}
}
}
if (loginDelay > 0) {
synchronized (this) {
try {
synchronized (firstWait) {
firstWait.notifyAll();
}
wait();
} catch (InterruptedException exception) {
}
}
}
while (true) {
String proxy =
useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
try {
DarkBotMCSpambot bot =
new DarkBotMCSpambot(
generateData(
server,
session.getUsername(),
session.getPassword(),
authService,
session,
protocol,
null,
proxy),
owner);
while (bot.getBot().isConnected()) {
try {
Thread.sleep(500);
} catch (InterruptedException exception) {
exception.printStackTrace();
}
}
if (!autoRejoin) break;
} catch (Exception exception) {
exception.printStackTrace();
System.out.println(
"["
+ session.getUsername()
+ "] Error connecting: "
+ exception.getCause().toString());
}
}
System.out.println("[" + session.getUsername() + "] Account failed");
}
} else {
while (true) {
String proxy =
useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
try {
String username;
if (accounts != null) {
username = accounts.get(random.nextInt(accounts.size())).split(":")[0];
synchronized (accountsInUse) {
while (accountsInUse.contains(username))
username = accounts.get(random.nextInt(accounts.size()));
accountsInUse.add(username);
}
} else username = Util.generateRandomString(10 + random.nextInt(6));
if (loginDelay > 0) {
synchronized (this) {
try {
synchronized (firstWait) {
firstWait.notifyAll();
}
wait();
} catch (InterruptedException exception) {
}
}
}
DarkBotMCSpambot bot =
new DarkBotMCSpambot(
generateData(server, username, null, null, null, protocol, null, proxy),
owner);
while (bot.getBot().isConnected()) {
try {
Thread.sleep(500);
} catch (InterruptedException exception) {
exception.printStackTrace();
}
}
if (!autoRejoin) break;
else continue;
} catch (Exception exception) {
System.out.println(
"[Bot" + botNumber + "] Error connecting: " + exception.toString());
}
}
}
}
};
service.execute(runnable);
}
service.shutdown();
while (!service.isTerminated()) {
try {
service.awaitTermination(9000, TimeUnit.DAYS);
} catch (InterruptedException exception) {
exception.printStackTrace();
}
}
System.exit(0);
}
public static void main(String[] args) {
// TODO main
OptionParser parser = new OptionParser();
parser.acceptsAll(Arrays.asList("h", "help"), "Show this help dialog.");
OptionSpec<String> serverOption =
parser
.acceptsAll(Arrays.asList("s", "server"), "Server to join.")
.withRequiredArg()
.describedAs("server-address[:port]");
OptionSpec<String> proxyOption =
parser
.acceptsAll(
Arrays.asList("P", "proxy"),
"SOCKS proxy to use. Ignored in presence of 'socks-proxy-list'.")
.withRequiredArg()
.describedAs("proxy-address");
OptionSpec<String> ownerOption =
parser
.acceptsAll(
Arrays.asList("o", "owner"), "Owner of the bot (username of in-game control).")
.withRequiredArg()
.describedAs("username");
OptionSpec<?> offlineOption =
parser.acceptsAll(
Arrays.asList("O", "offline"),
"Offline-mode. Ignores 'password' and 'account-list' (will "
+ "generate random usernames if 'username' is not supplied).");
OptionSpec<?> autoRejoinOption =
parser.acceptsAll(Arrays.asList("a", "auto-rejoin"), "Auto-rejoin a server on disconnect.");
OptionSpec<Integer> loginDelayOption =
parser
.acceptsAll(
Arrays.asList("d", "login-delay"),
"Delay between bot joins, in milliseconds. 5000 is "
+ "recommended if not using socks proxies.")
.withRequiredArg()
.describedAs("delay")
.ofType(Integer.class);
OptionSpec<Integer> botAmountOption =
parser
.acceptsAll(
Arrays.asList("b", "bot-amount"),
"Amount of bots to join. Must be <= amount of accounts.")
.withRequiredArg()
.describedAs("amount")
.ofType(Integer.class);
OptionSpec<String> accountListOption =
parser
.accepts(
"account-list",
"File containing a list of accounts, in username/email:password format.")
.withRequiredArg()
.describedAs("file");
OptionSpec<String> socksProxyListOption =
parser
.accepts(
"socks-proxy-list",
"File containing a list of SOCKS proxies, in address:port format.")
.withRequiredArg()
.describedAs("file");
OptionSpec<String> httpProxyListOption =
parser
.accepts(
"http-proxy-list",
"File containing a list of HTTP proxies, in address:port format.")
.withRequiredArg()
.describedAs("file");
OptionSet options;
try {
options = parser.parse(args);
} catch (OptionException exception) {
try {
parser.printHelpOn(System.out);
} catch (Exception exception1) {
exception1.printStackTrace();
}
return;
}
if (options.has("help")) {
printHelp(parser);
return;
}
final boolean offline = options.has(offlineOption);
final boolean autoRejoin = options.has(autoRejoinOption);
final List<String> accounts;
if (options.has(accountListOption)) {
accounts = loadAccounts(options.valueOf(accountListOption));
} else if (!offline) {
System.out.println("Option 'accounts' must be supplied in " + "absence of option 'offline'.");
printHelp(parser);
return;
} else accounts = null;
final String server;
if (!options.has(serverOption)) {
System.out.println("Option 'server' required.");
printHelp(parser);
return;
} else server = options.valueOf(serverOption);
final String owner;
if (!options.has(ownerOption)) {
System.out.println("Option 'owner' required.");
printHelp(parser);
return;
} else owner = options.valueOf(ownerOption);
final List<String> socksProxies;
if (options.has(socksProxyListOption))
socksProxies = loadProxies(options.valueOf(socksProxyListOption));
else socksProxies = null;
final boolean useProxy = socksProxies != null;
final List<String> httpProxies;
if (options.has(httpProxyListOption))
httpProxies = loadLoginProxies(options.valueOf(httpProxyListOption));
else if (!offline && accounts != null) {
System.out.println(
"Option 'http-proxy-list' required if " + "option 'account-list' is supplied.");
printHelp(parser);
return;
} else httpProxies = null;
final int loginDelay;
if (options.has(loginDelayOption)) loginDelay = options.valueOf(loginDelayOption);
else loginDelay = 0;
final int botAmount;
if (!options.has(botAmountOption)) {
System.out.println("Option 'bot-amount' required.");
printHelp(parser);
return;
} else botAmount = options.valueOf(botAmountOption);
initGui();
while (!sessions.get()) {
synchronized (sessions) {
try {
sessions.wait(5000);
} catch (InterruptedException exception) {
}
}
}
final Queue<Runnable> lockQueue = new ArrayDeque<Runnable>();
ExecutorService service = Executors.newFixedThreadPool(botAmount + (loginDelay > 0 ? 1 : 0));
final Object firstWait = new Object();
if (loginDelay > 0) {
service.execute(
new Runnable() {
@Override
public void run() {
synchronized (firstWait) {
try {
firstWait.wait();
} catch (InterruptedException exception) {
}
}
while (true) {
if (die) return;
while (slotsTaken.get() >= 2) {
synchronized (slotsTaken) {
try {
slotsTaken.wait(500);
} catch (InterruptedException exception) {
}
}
}
synchronized (lockQueue) {
if (lockQueue.size() > 0) {
Runnable thread = lockQueue.poll();
synchronized (thread) {
thread.notifyAll();
}
lockQueue.offer(thread);
} else continue;
}
try {
Thread.sleep(loginDelay);
} catch (InterruptedException exception) {
}
while (!sessions.get()) {
synchronized (sessions) {
try {
sessions.wait(5000);
} catch (InterruptedException exception) {
}
}
}
}
}
});
}
final List<String> accountsInUse = new ArrayList<String>();
for (int i = 0; i < botAmount; i++) {
final int botNumber = i;
Runnable runnable =
new Runnable() {
@Override
public void run() {
if (loginDelay > 0)
synchronized (lockQueue) {
lockQueue.add(this);
}
Random random = new Random();
if (!offline) {
boolean authenticated = false;
user:
while (true) {
if (authenticated) {
authenticated = false;
sessionCount.decrementAndGet();
}
Session session = null;
String loginProxy;
String account = accounts.get(random.nextInt(accounts.size()));
synchronized (accountsInUse) {
if (accountsInUse.size() == accounts.size()) System.exit(0);
while (accountsInUse.contains(account))
account = accounts.get(random.nextInt(accounts.size()));
accountsInUse.add(account);
}
String[] accountParts = account.split(":");
while (true) {
while (!sessions.get()) {
synchronized (sessions) {
try {
sessions.wait(5000);
} catch (InterruptedException exception) {
}
}
}
loginProxy = httpProxies.get(random.nextInt(httpProxies.size()));
try {
session = Util.retrieveSession(accountParts[0], accountParts[1], loginProxy);
// addAccount(session);
sessionCount.incrementAndGet();
authenticated = true;
break;
} catch (AuthenticationException exception) {
System.err.println("[Bot" + botNumber + "] " + exception);
if (!exception.getMessage().startsWith("Exception"))
// && !exception.getMessage().equals(
// "Too many failed logins"))
continue user;
}
}
System.out.println(
"["
+ session.getUsername()
+ "] Password: "******", Session ID: "
+ session.getSessionId());
while (!joins.get()) {
synchronized (joins) {
try {
joins.wait(5000);
} catch (InterruptedException exception) {
}
}
}
if (loginDelay > 0) {
synchronized (this) {
try {
synchronized (firstWait) {
firstWait.notifyAll();
}
wait();
} catch (InterruptedException exception) {
}
}
}
while (true) {
String proxy =
useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
try {
new DarkBotMCSpambot(
DARK_BOT,
server,
session.getUsername(),
session.getPassword(),
session.getSessionId(),
null,
proxy,
owner);
if (die) break user;
else if (!autoRejoin) break;
} catch (Exception exception) {
exception.printStackTrace();
System.out.println(
"["
+ session.getUsername()
+ "] Error connecting: "
+ exception.getCause().toString());
}
}
System.out.println("[" + session.getUsername() + "] Account failed");
}
} else {
while (true) {
String proxy =
useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null;
try {
String username = "";
if (accounts != null) {
username = accounts.get(random.nextInt(accounts.size())).split(":")[0];
synchronized (accountsInUse) {
while (accountsInUse.contains(username))
username = accounts.get(random.nextInt(accounts.size()));
accountsInUse.add(username);
}
} else
for (int i = 0; i < 10 + random.nextInt(6); i++)
username += alphas[random.nextInt(alphas.length)];
if (loginDelay > 0) {
synchronized (this) {
try {
synchronized (firstWait) {
firstWait.notifyAll();
}
wait();
} catch (InterruptedException exception) {
}
}
}
new DarkBotMCSpambot(DARK_BOT, server, username, "", "", null, proxy, owner);
if (die || !autoRejoin) break;
else continue;
} catch (Exception exception) {
System.out.println(
"[Bot" + botNumber + "] Error connecting: " + exception.toString());
}
}
}
}
};
service.execute(runnable);
}
service.shutdown();
while (!service.isTerminated()) {
try {
service.awaitTermination(9000, TimeUnit.DAYS);
} catch (InterruptedException exception) {
exception.printStackTrace();
}
}
System.exit(0);
}
/**
* Limit the root documents accessible to the query to the given list, overriding the any set
* derived from the query's context. The query will still be able to access other documents
* through bound variables or by naming them directly, though.
*
* @param rootDocs the list of root documents to limit the query to
* @return this service, to chain calls
*/
public QueryService limitRootDocuments(XMLDocument... rootDocs) {
return limitRootDocuments(Arrays.asList(rootDocs));
}
