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i2pd/qt/i2pd_qt/DelayedSaveManagerImpl.cpp

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#include "DelayedSaveManagerImpl.h"
DelayedSaveManagerImpl::DelayedSaveManagerImpl() :
saver(nullptr),
lastDataSerialSeen(DelayedSaveManagerImpl::INITIAL_DATA_SERIAL),
lastSaveStartedTimestamp(A_VERY_OBSOLETE_TIMESTAMP),
exiting(false),
thread(new DelayedSaveThread(this))
{
}
void DelayedSaveManagerImpl::setSaver(Saver* saver) {
this->saver = saver;
}
void DelayedSaveManagerImpl::start() {
thread->start();
}
bool DelayedSaveManagerImpl::isSaverValid() {
return saver != nullptr;
}
void DelayedSaveManagerImpl::delayedSave(DATA_SERIAL_TYPE dataSerial, bool focusOnTunnel, std::string tunnelNameToFocus_) {
if(lastDataSerialSeen==dataSerial)return;
this->focusOnTunnel = focusOnTunnel;
tunnelNameToFocus = tunnelNameToFocus_;
lastDataSerialSeen=dataSerial;
assert(isSaverValid());
TIMESTAMP_TYPE now = getTime();
TIMESTAMP_TYPE wakeTime = lastSaveStartedTimestamp + DelayedSaveThread::WAIT_TIME_MILLIS;
if(now < wakeTime) {
//defer save until lastSaveStartedTimestamp + DelayedSaveThread::WAIT_TIME_MILLIS
thread->deferSaveUntil(wakeTime);
return;
}
lastSaveStartedTimestamp = now;
thread->startSavingNow();
}
bool DelayedSaveManagerImpl::appExiting() {
exiting=true;
thread->wakeThreadAndJoinThread();
assert(isSaverValid());
saver->save(false, "");
return true;
}
DelayedSaveThread::DelayedSaveThread(DelayedSaveManagerImpl* delayedSaveManagerImpl_):
delayedSaveManagerImpl(delayedSaveManagerImpl_),
mutex(new QMutex()),
waitCondition(new QWaitCondition()),
saveNow(false),
defer(false)
{
mutex->lock();
}
DelayedSaveThread::~DelayedSaveThread(){
mutex->unlock();
delete mutex;
delete waitCondition;
}
void DelayedSaveThread::run() {
forever {
if(delayedSaveManagerImpl->isExiting())return;
waitCondition->wait(mutex, WAIT_TIME_MILLIS);
if(delayedSaveManagerImpl->isExiting())return;
Saver* saver = delayedSaveManagerImpl->getSaver();
assert(saver!=nullptr);
if(saveNow) {
saveNow = false;
const bool focusOnTunnel = delayedSaveManagerImpl->needsFocusOnTunnel();
const std::string tunnelNameToFocus = delayedSaveManagerImpl->getTunnelNameToFocus();
saver->save(focusOnTunnel, tunnelNameToFocus);
continue;
}
if(defer) {
defer=false;
#define max(a,b) (((a)>(b))?(a):(b))
forever {
TIMESTAMP_TYPE now = DelayedSaveManagerImpl::getTime();
TIMESTAMP_TYPE millisToWait = max(wakeTime-now, 0);
if(millisToWait>0) {
waitCondition->wait(mutex, millisToWait);
if(delayedSaveManagerImpl->isExiting())return;
continue;
}
const bool focusOnTunnel = delayedSaveManagerImpl->needsFocusOnTunnel();
const std::string tunnelNameToFocus = delayedSaveManagerImpl->getTunnelNameToFocus();
saver->save(focusOnTunnel, tunnelNameToFocus);
break; //break inner loop
}
}
}
}
void DelayedSaveThread::wakeThreadAndJoinThread() {
waitCondition->wakeAll();
quit();
wait();//join //"similar to the POSIX pthread_join()"
}
DelayedSaveManagerImpl::TIMESTAMP_TYPE DelayedSaveManagerImpl::getTime() {
return QDateTime::currentMSecsSinceEpoch();
}
void DelayedSaveThread::deferSaveUntil(TIMESTAMP_TYPE wakeTime_) {
wakeTime = wakeTime_;
defer = true;
waitCondition->wakeAll();
}
void DelayedSaveThread::startSavingNow() {
//mutex->lock();
saveNow=true;
waitCondition->wakeAll();
//mutex->unlock();
}
DelayedSaveManagerImpl::~DelayedSaveManagerImpl() {
thread->wakeThreadAndJoinThread();
delete thread;
}
bool DelayedSaveManagerImpl::isExiting() {
return exiting;
}
Saver* DelayedSaveManagerImpl::getSaver() {
return saver;
}
bool DelayedSaveManagerImpl::needsFocusOnTunnel() {
return focusOnTunnel;
}
std::string& DelayedSaveManagerImpl::getTunnelNameToFocus() {
return tunnelNameToFocus;
}
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