void rice::p2p::aggregation::AggregationImpl_handleDebugCommand_13_receiveResult_13_1::receiveException(::java::lang::Exception* e)
{
if(npc(AggregationImpl_handleDebugCommand_13_this->AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::WARNING)
npc(AggregationImpl_handleDebugCommand_13_this->AggregationImpl_this->logger)->logException(u"Monitor.add component insertion failed: "_j, e);
receiveResult(static_cast< ::java::lang::Object* >(e));
}
void rice::p2p::aggregation::AggregationImpl_refreshInternal_28::receiveException(::java::lang::Exception* e)
{
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::WARNING)
npc(AggregationImpl_this->logger)->logException(::java::lang::StringBuilder().append(u"Exception while refreshing "_j)->append(npc((*ids)[currentIndex])->toStringFull())
->append(u", e="_j)->toString(), e);
receiveResult(static_cast< ::java::lang::Object* >(e));
}
Delegator::Delegator(zmq::context_t& context, const DelegatorSettings& settings, bool& running)
: context_(context),
requester_(context, ZMQ_ROUTER, "toRequester"),
heartbeat_(context, ZMQ_PAIR, "toHBRouter"),
network_(context, ZMQ_ROUTER, "toNetwork"),
router_("main", {&requester_, &heartbeat_, &network_}),
msPollRate_(settings.msPollRate),
hbSettings_(settings.heartbeat),
running_(running),
nextJobId_(0),
nJobTypes_(settings.nJobTypes)
{
// Initialise the local sockets
requester_.bind(DELEGATOR_SOCKET_ADDR);
heartbeat_.bind(SERVER_HB_SOCKET_ADDR);
network_.setFallback([&](const Message& m) { sendFailed(m); });
std::string address = "tcp://*:" + std::to_string(settings.port);
network_.bind(address);
LOG(INFO) << "Delegator listening on tcp://*:" + std::to_string(settings.port);
// Specify the Delegator functionality
auto fDisconnect = [&](const Message& m) { disconnectWorker(m); };
auto fNewWorker = [&](const Message &m)
{
//forwarding to HEARTBEAT
heartbeat_.send(m);
std::string worker = m.address.front();
if (workers_.count(worker) == 0)
connectWorker(m);
};
auto fRcvRequest = [&](const Message &m) { receiveRequest(m); };
auto fRcvResult = [&](const Message &m) { receiveResult(m); };
auto fForwardToHB = [&](const Message& m) { heartbeat_.send(m); };
auto fForwardToNetwork = [&](const Message& m) { network_.send(m); };
auto fForwardToHBAndDisconnect = [&](const Message& m)
{ fForwardToHB(m); fDisconnect(m); };
// Bind functionality to the router
const uint REQUESTER_SOCKET = 0, HB_SOCKET = 1, NETWORK_SOCKET = 2;
router_.bind(REQUESTER_SOCKET, REQUEST, fRcvRequest);
router_.bind(NETWORK_SOCKET, HELLO, fNewWorker);
router_.bind(NETWORK_SOCKET, RESULT, fRcvResult);
router_.bind(NETWORK_SOCKET, HEARTBEAT, fForwardToHB);
router_.bind(NETWORK_SOCKET, GOODBYE, fForwardToHBAndDisconnect);
router_.bind(HB_SOCKET, HEARTBEAT, fForwardToNetwork);
router_.bind(HB_SOCKET, GOODBYE, fDisconnect);
auto fOnPoll = [&] () {onPoll();};
router_.bindOnPoll(fOnPoll);
}
bool KDBSearchEngine2::init()
{
if(di!=0) return true; //if there already is a DBinterface we are ok
else
{
di = new DataBaseInterface(dbDirectory,&settings);
connect(di,SIGNAL(newResult(QueryResult)),this,SLOT(receiveResult(QueryResult)));
//FIXME: what wbout ready()
if(!di->mainOk()) return false; //check if the main DB is OK.
return true;
}
}
void rice::persistence::testing::LRUCacheTest_testRandomInserts_10::receiveResult(::java::lang::Object* o)
{
if(count == LAST_NUM_REMAINING) {
LRUCacheTest_this->stepStart(u"Removing random subset of objects"_j);
}
if(npc(o)->equals(new ::java::lang::Boolean(false))) {
LRUCacheTest_this->stepDone(Test::FAILURE(), ::java::lang::StringBuilder().append(u"Deletion of "_j)->append(count)
->append(u" failed."_j)->toString());
return;
}
if(count == END_NUM) {
LRUCacheTest_this->stepDone(Test::SUCCESS());
npc(checkRandom)->receiveResult(new ::java::lang::Integer(num_deleted));
return;
}
if(npc(npc(LRUCacheTest_this->environment)->getRandomSource())->nextBoolean()) {
num_deleted++;
npc(LRUCacheTest_this->cache)->uncache((*LRUCacheTest_this->data)[int32_t(13) + (count += SKIP)], this);
} else {
count += SKIP;
receiveResult(static_cast< ::java::lang::Object* >(new ::java::lang::Boolean(true)));
}
}
void rice::p2p::aggregation::AggregationImpl_refreshInternal_28::receiveResult(::java::lang::Object* o)
{
auto lastResult = o;
while (true) {
if(currentIndex >= 0) {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINE)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"receiveResult("_j)->append(static_cast< ::java::lang::Object* >(lastResult))
->append(u") for index "_j)
->append(currentIndex)
->append(u", length="_j)
->append(npc(ids)->length)->toString());
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINE)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Internal refresh of "_j)->append(npc((*ids)[currentIndex])->toStringFull())
->append(u" returned "_j)
->append(static_cast< ::java::lang::Object* >(lastResult))->toString());
result->set(currentIndex, lastResult);
}
currentIndex++;
if(currentIndex >= npc(ids)->length) {
if(objectsMissing > 0)
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::WARNING)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"refresh: "_j)->append(objectsMissing)
->append(u"/"_j)
->append(npc(ids)->length)
->append(u" objects not in aggregate list, fetched "_j)
->append(objectsFetched)
->append(u" (max "_j)
->append(AggregationImpl_this->maxReaggregationPerRefresh)
->append(u")"_j)->toString());
auto nOK = int32_t(0);
for (auto i = int32_t(0); i < npc(ids)->length; i++)
if(dynamic_cast< ::java::lang::Boolean* >((*result)[i]) != nullptr)
nOK++;
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::INFO)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"refreshInternal: Processed "_j)->append(npc(ids)->length)
->append(u" keys, completed "_j)
->append(nOK)->toString());
for (auto i = int32_t(0); i < npc(ids)->length; i++)
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINER)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u" - "_j)->append(npc((*ids)[i])->toStringFull())
->append(u": "_j)
->append(static_cast< ::java::lang::Object* >((*result)[i]))->toString());
npc(command)->receiveResult(result);
return;
}
auto const id = (*ids)[currentIndex];
auto const expiration = (*expirations)[currentIndex];
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::INFO)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Refresh("_j)->append(npc(id)->toStringFull())
->append(u", expiration="_j)
->append(expiration)
->append(u") started"_j)->toString());
auto adc = java_cast< AggregateDescriptor* >(npc(AggregationImpl_this->aggregateList)->getADC(id));
if(adc != nullptr) {
auto objDescIndex = npc(adc)->lookupNewest(id);
if(objDescIndex < 0) {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::WARNING)
npc(AggregationImpl_this->logger)->log(u"NL: Aggregate found, but object not found in aggregate?!? -- aborted"_j);
npc(command)->receiveException(new AggregationException(u"Inconsistency detected in aggregate list -- try restarting the application"_j));
return;
}
if(npc((*npc(adc)->objects)[objDescIndex])->refreshedLifetime < expiration) {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINE)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Changing expiration date from "_j)->append(npc((*npc(adc)->objects)[objDescIndex])->refreshedLifetime)
->append(u" to "_j)
->append(expiration)->toString());
npc(AggregationImpl_this->aggregateList)->setObjectRefreshedLifetime(adc, objDescIndex, expiration);
} else {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINE)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Expiration is "_j)->append(npc((*npc(adc)->objects)[objDescIndex])->refreshedLifetime)
->append(u" already, no update needed"_j)->toString());
}
lastResult = new ::java::lang::Boolean(true);
continue;
} else {
auto waitingIds = npc(AggregationImpl_this->waitingList)->scan();
auto iter = npc(waitingIds)->getIterator();
while (npc(iter)->hasNext()) {
auto const vkey = java_cast< ::rice::p2p::glacier::VersionKey* >(java_cast< ::java::lang::Object* >(npc(iter)->next()));
if(npc(npc(vkey)->getId())->equals(id)) {
auto thisObject = java_cast< ObjectDescriptor* >(npc(AggregationImpl_this->waitingList)->getMetadata(vkey));
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::INFO)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Refreshing in waiting list: "_j)->append(npc(vkey)->toStringFull())->toString());
if(thisObject == nullptr) {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::WARNING)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Broken object in waiting list: "_j)->append(npc(vkey)->toStringFull())
->append(u", removing..."_j)->toString());
::rice::Continuation* const myParent = this;
npc(AggregationImpl_this->waitingList)->unstore(vkey, new AggregationImpl_refreshInternal_28_receiveResult_28_1(this, vkey, myParent));
return;
}
if(npc(thisObject)->refreshedLifetime < expiration) {
auto newDescriptor = new ObjectDescriptor(npc(thisObject)->key, npc(thisObject)->version, npc(thisObject)->currentLifetime, expiration, npc(thisObject)->size);
::rice::Continuation* const myParent = this;
npc(AggregationImpl_this->waitingList)->setMetadata(vkey, newDescriptor, new AggregationImpl_refreshInternal_28_receiveResult_28_2(this, vkey, myParent));
return;
} else {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINE)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Object found in waiting list and no update needed: "_j)->append(npc(vkey)->toStringFull())->toString());
receiveResult(static_cast< ::java::lang::Object* >(new ::java::lang::Boolean(true)));
return;
}
}
}
objectsMissing++;
if(AggregationImpl_this->addMissingAfterRefresh) {
if(objectsFetched < AggregationImpl_this->maxReaggregationPerRefresh) {
objectsFetched++;
::rice::Continuation* const myParent = this;
npc(AggregationImpl_this->objectStore)->lookup(id, false, new AggregationImpl_refreshInternal_28_receiveResult_28_3(this, id, expiration, myParent));
return;
} else {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::FINE)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Refresh: Limit of "_j)->append(AggregationImpl_this->maxReaggregationPerRefresh)
->append(u" reaggregations exceeded; postponing id="_j)
->append(npc(id)->toStringFull())->toString());
lastResult = new ::java::lang::Boolean(true);
continue;
}
} else {
if(npc(AggregationImpl_this->logger)->level <= ::rice::environment::logging::Logger::WARNING)
npc(AggregationImpl_this->logger)->log(::java::lang::StringBuilder().append(u"Refresh: Refreshed object not found in any aggregate: "_j)->append(npc(id)->toStringFull())->toString());
lastResult = new ::java::lang::Boolean(true);
continue;
}
}
}
}
void rice::pastry::socket::nat::rendezvous::RendezvousPNSApplication_getLeafSet_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::rice::pastry::leafset::LeafSet* >(result));
}
void org::mpisws::p2p::transport::ssl::SSLTransportLayerImpl_openSocket_1_receiveResult_1_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< SSLSocketManager* >(result));
}
bool KDBSearchEngine2::startSearch(QString str)
{
kdDebug(0) << "Start a new search. Looking for: " << str << endl;
static QString queryString;
queryString=str; //set the latest query string (note: it is static)
if(autoupdate)
{
updateSettings();
}
if(!init()) return false; //-check initialization
di->stop(true); //stop all new emits from database interface
emit started(); //say everybody we are starting
if(searching) return true; //We already have a search loop, as soon as we come back
//on the search loop we will start the new search (queryString).
searching=true; //really start searching
QString searchingString;
do //Search loop, it stops only when finished and latest searched string is the actual query string.
{
searchingString=queryString; //-set new search string
di->stop(false); //-unlock searching
if(numberOfResult<1) numberOfResult=1;
// di->singleWordMatch(searchingString,0,true);
GenericSearchAlgorithm strategy(di,&settings);
//Let's create a search sequence:
ExactSearchAlgorithm exact(di,&settings);
AlphaSearchAlgorithm alpha(di,&settings);
SentenceArchiveSearchAlgorithm sent(di,&settings);
ChunkByChunkSearchAlgorithm sbys(di,&settings);
ChunkByChunkSearchAlgorithm wbyw(di,&settings);
CorrelationSearchAlgorithm corr(di,&settings);
FuzzyChunkSearchAlgorithm fs(di,&settings);
FuzzyChunkSearchAlgorithm fw(di,&settings);
SentenceChunkFactory sf(di);
sbys.setChunkFactory(&sf);
fs.setChunkFactory(&sf);
WordChunkFactory wf(di);
wbyw.setChunkFactory(&wf);
fw.setChunkFactory(&wf);
strategy.addAlgorithm(&exact);
strategy.addAlgorithm(&alpha);
strategy.addAlgorithm(&sent);
strategy.addAlgorithm(&sbys);
//strategy.addAlgorithm(&fs);
strategy.addAlgorithm(&fw);
strategy.addAlgorithm(&corr);
strategy.addAlgorithm(&wbyw);
connect(&strategy,SIGNAL(newResult(QueryResult)),this,SLOT(receiveResult(QueryResult)));
strategy.exec(searchingString); disconnect(&strategy,SIGNAL(newResult(QueryResult)),this,SLOT(receiveResult(QueryResult)));
kdDebug(0) << "End of search for " << searchingString << endl;
}
while(searchingString!=queryString);
kdDebug(0) << "Exiting the search loop" << endl;
//if != someone asked a different string when we was searching
//so we restart our search (maybe a cleanresult is needed?).
di->stop(false); //-clean searching locks
searching=false; //-clean searching locks
emit finished(); //Finished
return true;
}
void org::mpisws::p2p::transport::util::BufferReaderWriter_BufferReaderWriter_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::nio::ByteBuffer* >(result));
}
void org::mpisws::p2p::testing::transportlayer::TestNodeHandleFetcher_main_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::rice::pastry::NodeHandle* >(result));
}
void JClientChangePasswordProcessor::process(const QByteArray& data){
QDataStream stream(data);
JCode code;
stream>>code;
emit receiveResult(code);
}
void org::mpisws::p2p::transport::table::TableTransprotLayerImpl_handleValueRequest_4::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::nio::ByteBuffer* >(result));
}
void org::mpisws::p2p::transport::table::TableTransprotLayerImpl_incomingSocket_3::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::nio::ByteBuffer* >(result));
}
void rice::tutorial::remotesocket::Tutorial_Tutorial_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::rice::p2p::commonapi::appsocket::AppSocket* >(result));
}
void org::mpisws::p2p::transport::peerreview::PeerReviewImpl_requestCertificate_2::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::security::cert::X509Certificate* >(result));
}
void org::mpisws::p2p::transport::rendezvous::RendezvousTransportLayerImpl_readAcceptHeader_6_receiveSelectResult_6_2::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::org::mpisws::p2p::transport::P2PSocket* >(result));
}
void org::mpisws::p2p::transport::rendezvous::RendezvousTransportLayerImpl_openSocketUsingRouting_2::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::lang::Integer* >(result));
}
void rice::pastry::socket::internet::InternetPastryNodeFactory_findExternalAddressHelper_2::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::net::InetAddress* >(result));
}
void rice::pastry::socket::internet::InternetPastryNodeFactory_findExternalNodes_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::java::util::Collection* >(result));
}
void rice::pastry::socket::appsocket::AppSocketPastryNodeFactory_getSocketFactory_1_getSocketChannel_1_2::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::org::mpisws::p2p::transport::P2PSocket* >(result));
}
void org::mpisws::p2p::transport::table::TableTransprotLayerImpl_requestValue_1_receiveResult_1_1::receiveResult(::java::lang::Object* result)
{
receiveResult(dynamic_cast< ::org::mpisws::p2p::transport::P2PSocket* >(result));
}
