public void scheduleAndQueueTPCC(int index, String key, long l, String clId, long tInv) {
Scheduler scheduler = new Scheduler();
// Session session = null;
String cLevel = "ALL", condn = "price>20";
ClientQueryExampleThread clientQueryExampleThread = new ClientQueryExampleThread(clId, tInv, 1);
if (ClientQueryExampleThread.session == null || ClientQueryExampleThread.session.isClosed())
ClientQueryExampleThread.session =
ClientQueryExampleThread.callClient(cLevel, condn); // unblock for deploy
Query q = null;
// UUID idOne = UUID.randomUUID();
String CLID = null; // String.valueOf(idOne) + String.valueOf(System.currentTimeMillis());
long latencyDep = 0;
l = System.currentTimeMillis() - l;
// key = (String)
// ((HashMap<String,String>)DependencyChecker.serializeList.get(index)).keySet().toArray()[0];
curr_deadline = curr_deadline - (System.currentTimeMillis() - tInv);
createRegistry(ClientQueryExampleThread.session);
writeToRegister(
key,
index,
clId,
l,
latencyDep,
curr_deadline,
"OFF",
ClientQueryExampleThread.session); // unblock for deploy
System.out.println(
"***After write to register"); // for thread "+Thread.currentThread().getName());
// CLID = readFromRegister(key, session);//unblock for deploy
// System.out.println("****rlist size:="+ rList.size());
// if(rList.size()>0)
// if(CLID!=null)
// {
// CLID = scheduler.schedule(rList).split(":")[0];
// STATUS = scheduler.schedule(rList).split(":")[1];
while (readFromRegister(key, ClientQueryExampleThread.session) != null
&& readFromRegister(key, ClientQueryExampleThread.session).contains(":")
&& readFromRegister(key, ClientQueryExampleThread.session)
.split(":")[1]
.equalsIgnoreCase("OFF")
&& !clId.equalsIgnoreCase(
readFromRegister(key, ClientQueryExampleThread.session)
.split(":")[0])) // || !STATUS.equalsIgnoreCase("OFF"))
{
// System.out.println("***Client " + clId +"Waiting for the lock to the column "+key);// for
// thread "+Thread.currentThread().getName());
// System.out.println("***Waiting for the lock to the column "+key);// for thread
// "+Thread.currentThread().getName());
}
scheduler.requestLock(ClientQueryExampleThread.session, key, clId, index); // unblock for deploy
System.out.println("***After requesting the lock to the columnfor the query index" + index);
}
public ResultSet scheduleAndQueue(
String operationtype,
Statement statement,
Session session,
int index,
long l,
long latency_insert2,
String cLevel,
String clId,
long tInv,
Tuple tuple) {
Query q = null;
String key = null;
// UUID idOne = UUID.randomUUID();
String CLID = null; // String.valueOf(idOne) + String.valueOf(System.currentTimeMillis());
long latencyDep = 0;
CopyOnWriteArrayList<RegistryEntry> rList = null;
String STATUS;
ResultSet result = null;
Scheduler scheduler = new Scheduler();
if ((DependencyChecker.causalList.size() > index
&& ((Query) DependencyChecker.causalList.get(index))
.getGuarantee()
.equalsIgnoreCase("C"))
|| (DependencyChecker.serializeList.size() > index
&& ((Query) DependencyChecker.serializeList.get(index))
.getGuarantee()
.equalsIgnoreCase("S"))) {
// System.out.println("***in iof constion causal:serialise");
if (DependencyChecker.causalList.contains(index)
&& ((Query) DependencyChecker.causalList.get(index))
.getGuarantee()
.equalsIgnoreCase("C")) {
while (!((Query) DependencyChecker.causalList.get(index))
.getIndex()
.equalsIgnoreCase(String.valueOf(index))) {
// System.out.println("***Waiting in causal queue");
}
// if(((Query)DependencyChecker.causalList.get(index)).getIndex().equalsIgnoreCase(String.valu eOf(index)))
// {
statement = updateConsistencyLevel(statement, cLevel, index, tuple);
result = session.execute(statement); // unblock for deploy
q = tuple.getCausalQueue().remove();
} else {
// System.out.println("***in else
// constionL===="+((Query)tuple.getDependencyChecker().getSerializeList().get(index)).getIndex()+": index"+String.valueOf((int)tuple.getDependencyChecker().getQueryList().size()-index-1));
if (((Query) DependencyChecker.serializeList.get(index))
.getIndex()
.equalsIgnoreCase(
String.valueOf((int) DependencyChecker.queryList.size() - 1 - index))) {
// System.out.println("1111in else
// constionL===="+((Query)tuple.getDependencyChecker().getSerializeList().get(index)).getIndex());
l = System.currentTimeMillis() - l;
// key = (String)
// ((HashMap<String,String>)DependencyChecker.serializeList.get(index)).keySet().toArray()[0];
key = ((Query) DependencyChecker.serializeList.get(index)).getKey();
for (int i = index; i < DependencyChecker.serializeList.size(); i++) {
latencyDep = latencyDep + ((Query) DependencyChecker.serializeList.get(i)).getLatency();
}
curr_deadline = curr_deadline - (System.currentTimeMillis() - tInv);
createRegistry(session);
writeToRegister(
((Query) DependencyChecker.serializeList.get(index)).getKey(),
index,
clId,
l,
latencyDep,
curr_deadline,
"OFF",
session); // unblock for deploy
// System.out.println("***After write to register");//for thread
// "+Thread.currentThread().getName());
// CLID = readFromRegister(key, session);//unblock for deploy
// System.out.println("****rlist size:="+ rList.size());
// if(rList.size()>0)
// if(CLID!=null)
// {
// CLID = scheduler.schedule(rList).split(":")[0];
// STATUS = scheduler.schedule(rList).split(":")[1];
while (readFromRegister(key, session) != null
&& readFromRegister(key, session).contains(":")
&& readFromRegister(key, session).split(":")[1].equalsIgnoreCase("OFF")
&& !clId.equalsIgnoreCase(
readFromRegister(key, session)
.split(":")[0])) // || !STATUS.equalsIgnoreCase("OFF"))
{
// System.out.println("***Client " + clId +"Waiting for the lock to the column "+key);//
// for thread "+Thread.currentThread().getName());
// System.out.println("***Waiting for the lock to the column "+key);// for thread
// "+Thread.currentThread().getName());
}
scheduler.requestLock(session, key, clId, index); // unblock for deploy
// System.out.println("***After requesting the lock to the columnfor the query index"+
// index);
statement = updateConsistencyLevel(statement, cLevel, index, tuple);
result = session.execute(statement); // unblock for deploy
// System.out.println("***After executing the query index"+ index);
scheduler.releaseLock(session, key, clId, index); // unblock for deploy
if (tuple.getCausalQueue().peek() != null) {
q = tuple.getCausalQueue().remove();
scheduler.removeregistry(session, key, clId, index); // unblock for deploy
}
// System.out.println("***After release lock and registry cleanup for the query index"+
// index);
// }
} else {
}
}
} else {
// System.out.println("In eventual guarantee case:"+mutator);
statement = updateConsistencyLevel(statement, cLevel, index, tuple);
// System.out.println("***111 Executing eventual consistent queries statement:="+statement);
// System.out.println("***222 Executing eventual consistent queries tuple
// session:="+tuple.getSession());
result = session.execute(statement); // unblock for deploy
// if(causalQueue.peek()!=null)
// q = causalQueue.remove();
}
return result;
}
