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#include <BU.h>
Public Member Functions | |
| void | actionPerformed (xdata::Event &e) |
| BU (xdaq::ApplicationStub *s) | |
| bool | building (toolbox::task::WorkLoop *wl) |
| bool | configuring (toolbox::task::WorkLoop *wl) |
| void | customWebPage (xgi::Input *in, xgi::Output *out) throw (xgi::exception::Exception) |
| bool | enabling (toolbox::task::WorkLoop *wl) |
| xoap::MessageReference | fsmCallback (xoap::MessageReference msg) throw (xoap::exception::Exception) |
| bool | halting (toolbox::task::WorkLoop *wl) |
| void | I2O_BU_ALLOCATE_Callback (toolbox::mem::Reference *bufRef) throw (i2o::exception::Exception) |
| void | I2O_BU_DISCARD_Callback (toolbox::mem::Reference *bufRef) throw (i2o::exception::Exception) |
| bool | monitoring (toolbox::task::WorkLoop *wl) |
| bool | sending (toolbox::task::WorkLoop *wl) |
| void | startBuildingWorkLoop () throw (evf::Exception) |
| void | startMonitoringWorkLoop () throw (evf::Exception) |
| void | startSendingWorkLoop () throw (evf::Exception) |
| bool | stopping (toolbox::task::WorkLoop *wl) |
| void | webPageRequest (xgi::Input *in, xgi::Output *out) throw (xgi::exception::Exception) |
| XDAQ_INSTANTIATOR () | |
| virtual | ~BU () |
Private Member Functions | |
| toolbox::mem::Reference * | createMsgChain (evf::BUEvent *evt, unsigned int fuResourceId) |
| double | deltaT (const struct timeval *start, const struct timeval *end) |
| void | dumpFrame (unsigned char *data, unsigned int len) |
| void | exportParameters () |
| bool | generateEvent (evf::BUEvent *evt) |
| void | lock () |
| void | postBuild () |
| void | postRqst () |
| void | postSend () |
| void | reset () |
| void | unlock () |
| void | waitBuild () |
| void | waitRqst () |
| void | waitSend () |
Private Attributes | |
| toolbox::task::ActionSignature * | asBuilding_ |
| toolbox::task::ActionSignature * | asMonitoring_ |
| toolbox::task::ActionSignature * | asSending_ |
| xdata::Double | average_ |
| xdaq::ApplicationContext * | buAppContext_ |
| xdaq::ApplicationDescriptor * | buAppDesc_ |
| sem_t | buildSem_ |
| std::queue< unsigned int > | builtIds_ |
| xdata::String | class_ |
| xdata::Boolean | crc_ |
| xdata::UnsignedInteger32 | deltaN_ |
| xdata::UnsignedInteger32 | deltaSumOfSizes_ |
| xdata::Double | deltaSumOfSquares_ |
| xdata::Double | deltaT_ |
| xdata::UnsignedInteger32 | eventBufferSize_ |
| std::vector< evf::BUEvent * > | events_ |
| unsigned int | evtNumber_ |
| unsigned int | fakeLs_ |
| xdata::UnsignedInteger32 | fakeLsUpdateSecs_ |
| xdata::UnsignedInteger32 | fedSizeMax_ |
| xdata::UnsignedInteger32 | fedSizeMean_ |
| xdata::UnsignedInteger32 | fedSizeWidth_ |
| xdata::UnsignedInteger32 | firstEvent_ |
| std::queue< unsigned int > | freeIds_ |
| StateMachine | fsm_ |
| xdaq::ApplicationDescriptor * | fuAppDesc_ |
| double | gaussianMean_ |
| double | gaussianWidth_ |
| WebGUI * | gui_ |
| xdata::String | hostname_ |
| toolbox::mem::Pool * | i2oPool_ |
| xdata::UnsignedInteger32 | instance_ |
| bool | isBuilding_ |
| bool | isHalting_ |
| bool | isSending_ |
| timeval | lastLsUpdate_ |
| sem_t | lock_ |
| Logger | log_ |
| xdata::Double | memUsedInMB_ |
| xdata::String | mode_ |
| unsigned int | monLastN_ |
| unsigned int | monLastSumOfSizes_ |
| uint64_t | monLastSumOfSquares_ |
| xdata::UnsignedInteger32 | monSleepSec_ |
| struct timeval | monStartTime_ |
| xdata::UnsignedInteger32 | msgBufferSize_ |
| xdata::UnsignedInteger32 | nbEventsBuilt_ |
| xdata::UnsignedInteger32 | nbEventsDiscarded_ |
| xdata::UnsignedInteger32 | nbEventsInBU_ |
| xdata::UnsignedInteger32 | nbEventsRequested_ |
| xdata::UnsignedInteger32 | nbEventsSent_ |
| xdata::Boolean | overwriteEvtId_ |
| xdata::Boolean | overwriteLsId_ |
| xdata::UnsignedInteger32 | queueSize_ |
| xdata::Double | rate_ |
| xdata::Boolean | replay_ |
| xdata::Double | rms_ |
| std::queue< unsigned int > | rqstIds_ |
| sem_t | rqstSem_ |
| xdata::UnsignedInteger32 | runNumber_ |
| sem_t | sendSem_ |
| std::set< unsigned int > | sentIds_ |
| std::string | sourceId_ |
| unsigned int | sumOfSizes_ |
| uint64_t | sumOfSquares_ |
| xdata::Double | throughput_ |
| xdata::String | url_ |
| xdata::Boolean | useFixedFedSize_ |
| std::vector< unsigned int > | validFedIds_ |
| toolbox::task::WorkLoop * | wlBuilding_ |
| toolbox::task::WorkLoop * | wlMonitoring_ |
| toolbox::task::WorkLoop * | wlSending_ |
Static Private Attributes | |
| static const int | fedHeaderSize_ = sizeof(fedh_t) |
| static const int | fedTrailerSize_ = sizeof(fedt_t) |
| static const int | frlHeaderSize_ = sizeof(frlh_t) |
| BU::BU | ( | xdaq::ApplicationStub * | s | ) |
Definition at line 36 of file BU.cc.
References class_, crc_, customWebPage(), alignCSCRings::e, Exception, exportParameters(), fedSizeMean_, fedSizeWidth_, evf::StateMachine::findRcmsStateListener(), fsm_, gaussianMean_, gaussianWidth_, gui_, hostname_, I2O_BU_ALLOCATE_Callback(), I2O_BU_DISCARD_Callback(), i2oPool_, evf::StateMachine::initialize(), instance_, create_public_lumi_plots::log, log_, mergeVDriftHistosByStation::name, evf::BUEvent::setComputeCrc(), evf::WebGUI::setLargeAppIcon(), evf::WebGUI::setSmallAppIcon(), sourceId_, mathSSE::sqrt(), startMonitoringWorkLoop(), url_, and webPageRequest().
: xdaq::Application(s) , log_(getApplicationLogger()) , buAppDesc_(getApplicationDescriptor()) , fuAppDesc_(0) , buAppContext_(getApplicationContext()) , fsm_(this) , gui_(0) , evtNumber_(0) , isBuilding_(false) , isSending_(false) , isHalting_(false) , wlBuilding_(0) , asBuilding_(0) , wlSending_(0) , asSending_(0) , wlMonitoring_(0) , asMonitoring_(0) , instance_(0) , runNumber_(0) , memUsedInMB_(0.0) , deltaT_(0.0) , deltaN_(0) , deltaSumOfSquares_(0) , deltaSumOfSizes_(0) , throughput_(0.0) , average_(0.0) , rate_(0.0) , rms_(0.0) , nbEventsInBU_(0) , nbEventsRequested_(0) , nbEventsBuilt_(0) , nbEventsSent_(0) , nbEventsDiscarded_(0) , mode_("RANDOM") , replay_(false) , crc_(true) , overwriteEvtId_(true) , overwriteLsId_(false) , fakeLsUpdateSecs_(23) , firstEvent_(1) , queueSize_(32) , eventBufferSize_(0x400000) , msgBufferSize_(32768) , fedSizeMax_(65536) , fedSizeMean_(1024) , fedSizeWidth_(1024) , useFixedFedSize_(false) , monSleepSec_(1) , fakeLs_(0) , gaussianMean_(0.0) , gaussianWidth_(1.0) , monLastN_(0) , monLastSumOfSquares_(0) , monLastSumOfSizes_(0) , sumOfSquares_(0) , sumOfSizes_(0) , i2oPool_(0) { // initialize state machine fsm_.initialize<evf::BU>(this); // initialize application info url_ = getApplicationDescriptor()->getContextDescriptor()->getURL()+"/"+ getApplicationDescriptor()->getURN(); class_ =getApplicationDescriptor()->getClassName(); instance_=getApplicationDescriptor()->getInstance(); hostname_=getApplicationDescriptor()->getContextDescriptor()->getURL(); sourceId_=class_.toString()+instance_.toString(); // i2o callbacks i2o::bind(this,&BU::I2O_BU_ALLOCATE_Callback,I2O_BU_ALLOCATE,XDAQ_ORGANIZATION_ID); i2o::bind(this,&BU::I2O_BU_DISCARD_Callback, I2O_BU_DISCARD, XDAQ_ORGANIZATION_ID); // allocate i2o memery pool string i2oPoolName=sourceId_+"_i2oPool"; try { toolbox::mem::HeapAllocator *allocator=new toolbox::mem::HeapAllocator(); toolbox::net::URN urn("toolbox-mem-pool",i2oPoolName); toolbox::mem::MemoryPoolFactory* poolFactory= toolbox::mem::getMemoryPoolFactory(); i2oPool_=poolFactory->createPool(urn,allocator); } catch (toolbox::mem::exception::Exception& e) { string s="Failed to create pool: "+i2oPoolName; LOG4CPLUS_FATAL(log_,s); XCEPT_RETHROW(xcept::Exception,s,e); } // web interface xgi::bind(this,&evf::BU::webPageRequest,"Default"); gui_=new WebGUI(this,&fsm_); gui_->setSmallAppIcon("/rubuilder/bu/images/bu32x32.gif"); gui_->setLargeAppIcon("/rubuilder/bu/images/bu64x64.gif"); vector<toolbox::lang::Method*> methods=gui_->getMethods(); vector<toolbox::lang::Method*>::iterator it; for (it=methods.begin();it!=methods.end();++it) { if ((*it)->type()=="cgi") { string name=static_cast<xgi::MethodSignature*>(*it)->name(); xgi::bind(this,&evf::BU::webPageRequest,name); } } xgi::bind(this,&evf::BU::customWebPage,"customWebPage"); // export parameters to info space(s) exportParameters(); // findRcmsStateListener fsm_.findRcmsStateListener(); // compute parameters for fed size generation (a la Emilio) gaussianMean_ =std::log((double)fedSizeMean_); gaussianWidth_=std::sqrt(std::log (0.5* (1+std::sqrt (1.0+4.0* fedSizeWidth_.value_*fedSizeWidth_.value_/ fedSizeMean_.value_/fedSizeMean_.value_)))); // start monitoring thread, once and for all startMonitoringWorkLoop(); // propagate crc flag to BUEvent BUEvent::setComputeCrc(crc_.value_); }
| BU::~BU | ( | ) | [virtual] |
| void BU::actionPerformed | ( | xdata::Event & | e | ) |
Definition at line 385 of file BU.cc.
References crc_, alignCSCRings::e, gui_, i2oPool_, instance, memUsedInMB_, mode_, evf::WebGUI::monInfoSpace(), and evf::BUEvent::setComputeCrc().
{
gui_->monInfoSpace()->lock();
if (e.type()=="urn:xdata-event:ItemGroupRetrieveEvent") {
mode_=(0==PlaybackRawDataProvider::instance())?"RANDOM":"PLAYBACK";
if (0!=i2oPool_) memUsedInMB_=i2oPool_->getMemoryUsage().getUsed()*9.53674e-07;
else memUsedInMB_=0.0;
}
else if (e.type()=="ItemChangedEvent") {
string item=dynamic_cast<xdata::ItemChangedEvent&>(e).itemName();
if (item=="crc") BUEvent::setComputeCrc(crc_.value_);
}
gui_->monInfoSpace()->unlock();
}
| bool BU::building | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 441 of file BU.cc.
References builtIds_, events_, freeIds_, generateEvent(), isBuilding_, isHalting_, lock(), log_, nbEventsBuilt_, postSend(), unlock(), and waitBuild().
Referenced by startBuildingWorkLoop().
{
waitBuild();
lock();
unsigned int buResourceId=freeIds_.front(); freeIds_.pop();
unlock();
if (buResourceId>=(uint32_t)events_.size()) {
LOG4CPLUS_INFO(log_,"shutdown 'building' workloop.");
isBuilding_=false;
return false;
}
if (!isHalting_) {
BUEvent* evt=events_[buResourceId];
if(generateEvent(evt)) {
lock();
nbEventsBuilt_++;
builtIds_.push(buResourceId);
unlock();
postSend();
}
else {
LOG4CPLUS_INFO(log_,"building:received null post");
lock();
unsigned int saveBUResourceId = buResourceId;
//buResourceId = freeIds_.front(); freeIds_.pop();
freeIds_.push(saveBUResourceId);
unlock();
isBuilding_=false;
return false;
}
}
return true;
}
| bool BU::configuring | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 178 of file BU.cc.
References alignCSCRings::e, Exception, evf::StateMachine::fireEvent(), evf::StateMachine::fireFailed(), fsm_, isHalting_, log_, lumiQueryAPI::msg, reset(), and AlCaHLTBitMon_QueryRunRegistry::string.
{
isHalting_=false;
try {
LOG4CPLUS_INFO(log_,"Start configuring ...");
reset();
LOG4CPLUS_INFO(log_,"Finished configuring!");
fsm_.fireEvent("ConfigureDone",this);
}
catch (xcept::Exception &e) {
string msg = "configuring FAILED: " + (string)e.what();
fsm_.fireFailed(msg,this);
}
return false;
}
| toolbox::mem::Reference * BU::createMsgChain | ( | evf::BUEvent * | evt, |
| unsigned int | fuResourceId | ||
| ) | [private] |
remainder>0 means that a partial fed is left over from the last block
no remaining fed data
Definition at line 805 of file BU.cc.
References Association::block, buAppDesc_, evf::BUEvent::buResourceId(), alignCSCRings::e, evf::evtn::evm_board_sense(), evf::evtn::EVM_TCS_LSBLNR_OFFSET, evf::BUEvent::evtNumber(), Exception, fakeLs_, fakeLsUpdateSecs_, evf::BUEvent::fedAddr(), fedHeaderSize_, evf::BUEvent::fedId(), evf::BUEvent::fedSize(), fedTrailerSize_, frlHeaderSize_, fuAppDesc_, evf::evtn::GTPE_ORBTNR_OFFSET, i, i2oPool_, gen::k, prof2calltree::last, lastLsUpdate_, log_, FEDNumbering::MINTriggerEGTPFEDID, FEDNumbering::MINTriggerGTPFEDID, msgBufferSize_, evf::BUEvent::nFed(), overwriteLsId_, evf::evtn::SLINK_HALFWORD_SIZE, validFedIds_, and warning.
Referenced by sending().
{
unsigned int msgHeaderSize =sizeof(I2O_EVENT_DATA_BLOCK_MESSAGE_FRAME);
unsigned int msgPayloadSize=msgBufferSize_-msgHeaderSize;
if((msgPayloadSize%4)!=0) LOG4CPLUS_ERROR(log_,"Invalid Payload Size.");
/*Overwrite lumisection value stored in the event*/
if (overwriteLsId_.value_) {
//getting new time and increase LS if past 23 sec
struct timezone tz;
if (!fakeLs_) {
fakeLs_++;
gettimeofday(&lastLsUpdate_,&tz);
}
else {
timeval newLsUpdate;
gettimeofday(&newLsUpdate,&tz);
if ((unsigned long)1000000*newLsUpdate.tv_sec+newLsUpdate.tv_usec
- (unsigned long)1000000*lastLsUpdate_.tv_sec+lastLsUpdate_.tv_usec
>= fakeLsUpdateSecs_.value_*1000000)
{
fakeLs_++;
lastLsUpdate_=newLsUpdate;
}
}
int gtpFedPos_=-1;
int egtpFedPos_=-1;
for (size_t k=0;k<validFedIds_.size();k++) {
if (evt->fedId(k)==FEDNumbering::MINTriggerGTPFEDID) {
//insert ls value into gtp fed
unsigned char * fgtpAddr = evt->fedAddr(k);
unsigned int fgtpSize = evt->fedSize(k);
if (fgtpAddr && fgtpSize) {
gtpFedPos_=(int)k;
evtn::evm_board_sense(fgtpAddr,fgtpSize);
*((unsigned short*)fgtpAddr
+sizeof(fedh_t)/sizeof(unsigned short)
+ (evtn::EVM_GTFE_BLOCK*2 + evtn::EVM_TCS_LSBLNR_OFFSET)*evtn::SLINK_HALFWORD_SIZE /sizeof(unsigned short)
) = (unsigned short)fakeLs_-1;
}
}
if (evt->fedId(k)==FEDNumbering::MINTriggerEGTPFEDID) {
//insert orbit value into gtpe fed
unsigned char * fegtpAddr = evt->fedAddr(egtpFedPos_);
unsigned int fegtpSize = evt->fedSize(egtpFedPos_);
if (fegtpAddr && fegtpSize) {
egtpFedPos_=(int)k;
*( (unsigned int*)fegtpAddr + evtn::GTPE_ORBTNR_OFFSET * evtn::SLINK_HALFWORD_SIZE/sizeof(unsigned int)
) = (unsigned int)(fakeLs_-1)*0x00100000;
}
}
}
if (gtpFedPos_<0) LOG4CPLUS_ERROR(log_,"Unable to find GTP FED in event!");
if (egtpFedPos_<0 && gtpFedPos_<0) LOG4CPLUS_ERROR(log_,"Unable to find GTP or GTPE FED in event!");
}
toolbox::mem::Reference *head =0;
toolbox::mem::Reference *tail =0;
toolbox::mem::Reference *bufRef=0;
I2O_MESSAGE_FRAME *stdMsg=0;
I2O_PRIVATE_MESSAGE_FRAME *pvtMsg=0;
I2O_EVENT_DATA_BLOCK_MESSAGE_FRAME *block =0;
unsigned int iFed =0;
unsigned int nSuperFrag =64;
unsigned int nFedPerSuperFrag=validFedIds_.size()/nSuperFrag;
unsigned int nBigSuperFrags =validFedIds_.size()%nSuperFrag;
if (evt->nFed()<nSuperFrag) {
nSuperFrag=evt->nFed();
nFedPerSuperFrag=1;
nBigSuperFrags=0;
}
else
{
nFedPerSuperFrag=evt->nFed()/nSuperFrag;
nBigSuperFrags =evt->nFed()%nSuperFrag;
}
// loop over all super fragments
for (unsigned int iSuperFrag=0;iSuperFrag<nSuperFrag;iSuperFrag++) {
// compute index of last fed in this super fragment
unsigned int nFed=iFed+nFedPerSuperFrag;
if (iSuperFrag<nBigSuperFrags) ++nFed;
// compute number of blocks in this super fragment
unsigned int nBlock =0;
unsigned int curbSize=frlHeaderSize_;
unsigned int totSize =curbSize;
for (unsigned int i=iFed;i<nFed;i++) {
curbSize+=evt->fedSize(i);
totSize+=evt->fedSize(i);
if (curbSize>msgPayloadSize) {
curbSize+=frlHeaderSize_*(curbSize/msgPayloadSize);
if(curbSize%msgPayloadSize)totSize+=frlHeaderSize_*(curbSize/msgPayloadSize);
else totSize+=frlHeaderSize_*((curbSize/msgPayloadSize)-1);
curbSize=curbSize%msgPayloadSize;
}
}
nBlock=totSize/msgPayloadSize+(totSize%msgPayloadSize>0 ? 1 : 0);
// loop over all blocks (msgs) in the current super fragment
unsigned int remainder =0;
bool fedTrailerLeft=false;
bool last =false;
bool warning =false;
unsigned char *startOfPayload=0;
U32 payload(0);
for(unsigned int iBlock=0;iBlock<nBlock;iBlock++) {
// If last block and its partial (there can be only 0 or 1 partial)
payload=msgPayloadSize;
// Allocate memory for a fragment block / message
try {
bufRef=toolbox::mem::getMemoryPoolFactory()->getFrame(i2oPool_,
msgBufferSize_);
}
catch(xcept::Exception &e) {
LOG4CPLUS_FATAL(log_,"xdaq::frameAlloc failed");
}
// Fill in the fields of the fragment block / message
stdMsg=(I2O_MESSAGE_FRAME*)bufRef->getDataLocation();
pvtMsg=(I2O_PRIVATE_MESSAGE_FRAME*)stdMsg;
block =(I2O_EVENT_DATA_BLOCK_MESSAGE_FRAME*)stdMsg;
pvtMsg->XFunctionCode =I2O_FU_TAKE;
pvtMsg->OrganizationID =XDAQ_ORGANIZATION_ID;
stdMsg->MessageSize =(msgHeaderSize + payload) >> 2;
stdMsg->Function =I2O_PRIVATE_MESSAGE;
stdMsg->VersionOffset =0;
stdMsg->MsgFlags =0;
stdMsg->InitiatorAddress=i2o::utils::getAddressMap()->getTid(buAppDesc_);
stdMsg->TargetAddress =i2o::utils::getAddressMap()->getTid(fuAppDesc_);
block->buResourceId =evt->buResourceId();
block->fuTransactionId =fuResourceId;
block->blockNb =iBlock;
block->nbBlocksInSuperFragment=nBlock;
block->superFragmentNb =iSuperFrag;
block->nbSuperFragmentsInEvent=nSuperFrag;
block->eventNumber =evt->evtNumber();
// Fill in payload
startOfPayload =(unsigned char*)block+msgHeaderSize;
frlh_t* frlHeader=(frlh_t*)startOfPayload;
frlHeader->trigno=evt->evtNumber();
frlHeader->segno =iBlock;
unsigned char *startOfFedBlocks=startOfPayload+frlHeaderSize_;
payload -=frlHeaderSize_;
frlHeader->segsize =payload;
unsigned int leftspace=payload;
// a fed trailer was left over from the previous block
if(fedTrailerLeft) {
memcpy(startOfFedBlocks,
evt->fedAddr(iFed)+evt->fedSize(iFed)-fedTrailerSize_,
fedTrailerSize_);
startOfFedBlocks+=fedTrailerSize_;
leftspace -=fedTrailerSize_;
remainder =0;
fedTrailerLeft =false;
// if this is the last fed, adjust block (msg) size and set last=true
if((iFed==nFed-1) && !last) {
frlHeader->segsize-=leftspace;
int msgSize=stdMsg->MessageSize << 2;
msgSize -=leftspace;
bufRef->setDataSize(msgSize);
stdMsg->MessageSize = msgSize >> 2;
frlHeader->segsize=frlHeader->segsize | FRL_LAST_SEGM;
last=true;
}
// !! increment iFed !!
iFed++;
}
if (remainder>0) {
// the remaining fed fits entirely into the new block
if(payload>=remainder) {
memcpy(startOfFedBlocks,
evt->fedAddr(iFed)+evt->fedSize(iFed)-remainder,
remainder);
startOfFedBlocks+=remainder;
leftspace -=remainder;
// if this is the last fed in the superfragment, earmark it
if(iFed==nFed-1) {
frlHeader->segsize-=leftspace;
int msgSize=stdMsg->MessageSize << 2;
msgSize -=leftspace;
bufRef->setDataSize(msgSize);
stdMsg->MessageSize = msgSize >> 2;
frlHeader->segsize=frlHeader->segsize | FRL_LAST_SEGM;
last=true;
}
// !! increment iFed !!
iFed++;
// start new fed -> set remainder to 0!
remainder=0;
}
// the remaining payload fits, but not the fed trailer
else if (payload>=(remainder-fedTrailerSize_)) {
memcpy(startOfFedBlocks,
evt->fedAddr(iFed)+evt->fedSize(iFed)-remainder,
remainder-fedTrailerSize_);
frlHeader->segsize=remainder-fedTrailerSize_;
fedTrailerLeft =true;
leftspace -=(remainder-fedTrailerSize_);
remainder =fedTrailerSize_;
}
// the remaining payload fits only partially, fill whole block
else {
memcpy(startOfFedBlocks,
evt->fedAddr(iFed)+evt->fedSize(iFed)-remainder,payload);
remainder-=payload;
leftspace =0;
}
}
if(remainder==0) {
// loop on feds
while(iFed<nFed) {
// if the next header does not fit, jump to following block
if((int)leftspace<fedHeaderSize_) {
frlHeader->segsize-=leftspace;
break;
}
memcpy(startOfFedBlocks,evt->fedAddr(iFed),fedHeaderSize_);
leftspace -=fedHeaderSize_;
startOfFedBlocks+=fedHeaderSize_;
// fed fits with its trailer
if(evt->fedSize(iFed)-fedHeaderSize_<=leftspace) {
memcpy(startOfFedBlocks,
evt->fedAddr(iFed)+fedHeaderSize_,
evt->fedSize(iFed)-fedHeaderSize_);
leftspace -=(evt->fedSize(iFed)-fedHeaderSize_);
startOfFedBlocks+=(evt->fedSize(iFed)-fedHeaderSize_);
}
// fed payload fits only without fed trailer
else if(evt->fedSize(iFed)-fedHeaderSize_-fedTrailerSize_<=leftspace) {
memcpy(startOfFedBlocks,
evt->fedAddr(iFed)+fedHeaderSize_,
evt->fedSize(iFed)-fedHeaderSize_-fedTrailerSize_);
leftspace -=(evt->fedSize(iFed)-fedHeaderSize_-fedTrailerSize_);
frlHeader->segsize-=leftspace;
fedTrailerLeft =true;
remainder =fedTrailerSize_;
break;
}
// fed payload fits only partially
else {
memcpy(startOfFedBlocks,evt->fedAddr(iFed)+fedHeaderSize_,leftspace);
remainder=evt->fedSize(iFed)-fedHeaderSize_-leftspace;
leftspace=0;
break;
}
// !! increase iFed !!
iFed++;
} // while (iFed<fedN_)
// earmark the last block
if (iFed==nFed && remainder==0 && !last) {
frlHeader->segsize-=leftspace;
int msgSize=stdMsg->MessageSize << 2;
msgSize -=leftspace;
bufRef->setDataSize(msgSize);
stdMsg->MessageSize=msgSize >> 2;
frlHeader->segsize =frlHeader->segsize | FRL_LAST_SEGM;
last=true;
}
} // if (remainder==0)
if(iSuperFrag==0&&iBlock==0) { // This is the first fragment block / message
head=bufRef;
tail=bufRef;
}
else {
tail->setNextReference(bufRef);
tail=bufRef;
}
if((iBlock==nBlock-1) && remainder!=0) {
nBlock++;
warning=true;
}
} // for (iBlock)
// fix case where block estimate was wrong
if(warning) {
toolbox::mem::Reference* next=head;
do {
block =(I2O_EVENT_DATA_BLOCK_MESSAGE_FRAME*)next->getDataLocation();
if (block->superFragmentNb==iSuperFrag)
block->nbBlocksInSuperFragment=nBlock;
} while((next=next->getNextReference()));
}
} // iSuperFrag < nSuperFrag
return head; // return the top of the chain
}
| void BU::customWebPage | ( | xgi::Input * | in, |
| xgi::Output * | out | ||
| ) | throw (xgi::exception::Exception) |
Definition at line 412 of file BU.cc.
References dbtoconf::out.
Referenced by BU().
{
*out<<"<html></html>"<<endl;
}
| double BU::deltaT | ( | const struct timeval * | start, |
| const struct timeval * | end | ||
| ) | [private] |
Definition at line 727 of file BU.cc.
Referenced by monitoring().
| void BU::dumpFrame | ( | unsigned char * | data, |
| unsigned int | len | ||
| ) | [private] |
Definition at line 1144 of file BU.cc.
References trackerHits::c, i, and pos.
{
char left1[20];
char left2[20];
char right1[20];
char right2[20];
printf("Byte 0 1 2 3 4 5 6 7\n");
int c(0);
int pos(0);
for (unsigned int i=0;i<(len/8);i++) {
int rpos(0);
int off(3);
for (pos=0;pos<12;pos+=3) {
sprintf(&left1[pos],"%2.2x ",
((unsigned char*)data)[c+off]);
sprintf(&right1[rpos],"%1c",
((data[c+off] > 32)&&(data[c+off] < 127)) ? data[c+off] : '.');
sprintf (&left2[pos],"%2.2x ",
((unsigned char*)data)[c+off+4]);
sprintf (&right2[rpos],"%1c",
((data[c+off+4] > 32)&&(data[c+off+4]<127)) ? data[c+off+4] : '.');
rpos++;
off--;
}
c+=8;
printf ("%4d: %s%s || %s%s %p\n",
c-8, left1, left2, right1, right2, &data[c-8]);
}
fflush(stdout);
}
| bool BU::enabling | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 197 of file BU.cc.
References alignCSCRings::e, Exception, evf::StateMachine::fireEvent(), evf::StateMachine::fireFailed(), fsm_, i, FEDNumbering::inRange(), FEDNumbering::inRangeNoGT(), PlaybackRawDataProvider::instance(), isBuilding_, isHalting_, isSending_, log_, FEDNumbering::MAXFEDID, lumiQueryAPI::msg, startBuildingWorkLoop(), startSendingWorkLoop(), AlCaHLTBitMon_QueryRunRegistry::string, and validFedIds_.
{
isHalting_=false;
try {
LOG4CPLUS_INFO(log_,"Start enabling ...");
// determine valid fed ids (assumes Playback EP is already configured hence PBRDP::instance
// not null in case we are playing back)
if (0!=PlaybackRawDataProvider::instance()) {
for (unsigned int i=0;i<(unsigned int)FEDNumbering::MAXFEDID+1;i++)
if (FEDNumbering::inRange(i)) validFedIds_.push_back(i);
}
else{
for (unsigned int i=0;i<(unsigned int)FEDNumbering::MAXFEDID+1;i++)
if (FEDNumbering::inRangeNoGT(i)) validFedIds_.push_back(i);
}
if (!isBuilding_) startBuildingWorkLoop();
if (!isSending_) startSendingWorkLoop();
LOG4CPLUS_INFO(log_,"Finished enabling!");
fsm_.fireEvent("EnableDone",this);
}
catch (xcept::Exception &e) {
string msg = "enabling FAILED: " + (string)e.what();
fsm_.fireFailed(msg,this);
}
return false;
}
| void BU::exportParameters | ( | ) | [private] |
Definition at line 629 of file BU.cc.
References evf::WebGUI::addItemChangedListener(), evf::WebGUI::addMonitorCounter(), evf::WebGUI::addMonitorParam(), evf::WebGUI::addStandardParam(), average_, class_, crc_, deltaN_, deltaSumOfSizes_, deltaSumOfSquares_, deltaT_, eventBufferSize_, evf::WebGUI::exportParameters(), fakeLsUpdateSecs_, fedSizeMax_, fedSizeMean_, fedSizeWidth_, firstEvent_, evf::StateMachine::foundRcmsStateListener(), fsm_, gui_, hostname_, instance_, log_, memUsedInMB_, mode_, monSleepSec_, msgBufferSize_, nbEventsBuilt_, nbEventsDiscarded_, nbEventsInBU_, nbEventsRequested_, nbEventsSent_, overwriteEvtId_, overwriteLsId_, queueSize_, rate_, evf::StateMachine::rcmsStateListener(), replay_, rms_, runNumber_, evf::StateMachine::stateName(), throughput_, url_, and useFixedFedSize_.
Referenced by BU().
{
if (0==gui_) {
LOG4CPLUS_ERROR(log_,"No GUI, can't export parameters");
return;
}
gui_->addMonitorParam("url", &url_);
gui_->addMonitorParam("class", &class_);
gui_->addMonitorParam("instance", &instance_);
gui_->addMonitorParam("hostname", &hostname_);
gui_->addMonitorParam("runNumber", &runNumber_);
gui_->addMonitorParam("stateName", fsm_.stateName());
gui_->addMonitorParam("memUsedInMB", &memUsedInMB_);
gui_->addMonitorParam("deltaT", &deltaT_);
gui_->addMonitorParam("deltaN", &deltaN_);
gui_->addMonitorParam("deltaSumOfSquares", &deltaSumOfSquares_);
gui_->addMonitorParam("deltaSumOfSizes", &deltaSumOfSizes_);
gui_->addMonitorParam("throughput", &throughput_);
gui_->addMonitorParam("average", &average_);
gui_->addMonitorParam("rate", &rate_);
gui_->addMonitorParam("rms", &rms_);
gui_->addMonitorCounter("nbEvtsInBU", &nbEventsInBU_);
gui_->addMonitorCounter("nbEvtsRequested", &nbEventsRequested_);
gui_->addMonitorCounter("nbEvtsBuilt", &nbEventsBuilt_);
gui_->addMonitorCounter("nbEvtsSent", &nbEventsSent_);
gui_->addMonitorCounter("nbEvtsDiscarded", &nbEventsDiscarded_);
gui_->addStandardParam("mode", &mode_);
gui_->addStandardParam("replay", &replay_);
gui_->addStandardParam("overwriteEvtId", &overwriteEvtId_);
gui_->addStandardParam("overwriteLsId", &overwriteLsId_);
gui_->addStandardParam("fakeLsUpdateSecs", &fakeLsUpdateSecs_);
gui_->addStandardParam("crc", &crc_);
gui_->addStandardParam("firstEvent", &firstEvent_);
gui_->addStandardParam("queueSize", &queueSize_);
gui_->addStandardParam("eventBufferSize", &eventBufferSize_);
gui_->addStandardParam("msgBufferSize", &msgBufferSize_);
gui_->addStandardParam("fedSizeMax", &fedSizeMax_);
gui_->addStandardParam("fedSizeMean", &fedSizeMean_);
gui_->addStandardParam("fedSizeWidth", &fedSizeWidth_);
gui_->addStandardParam("useFixedFedSize", &useFixedFedSize_);
gui_->addStandardParam("monSleepSec", &monSleepSec_);
gui_->addStandardParam("rcmsStateListener", fsm_.rcmsStateListener());
gui_->addStandardParam("foundRcmsStateListener",fsm_.foundRcmsStateListener());
gui_->exportParameters();
gui_->addItemChangedListener("crc",this);
}
| xoap::MessageReference BU::fsmCallback | ( | xoap::MessageReference | msg | ) | throw (xoap::exception::Exception) |
Definition at line 311 of file BU.cc.
References lumiQueryAPI::msg.
{
return fsm_.commandCallback(msg);
}
| bool BU::generateEvent | ( | evf::BUEvent * | evt | ) | [private] |
Definition at line 747 of file BU.cc.
References event(), fedh_struct::eventid, events_, evtNumber_, create_public_lumi_plots::exp, fedHeaderSize_, fedSizeMax_, fedSizeMean_, fedTrailerSize_, firstEvent_, gaussianMean_, gaussianWidth_, i, evf::BUEvent::initialize(), instance, PlaybackRawDataProvider::instance(), nbEventsBuilt_, overwriteEvtId_, replay_, convertSQLiteXML::runNumber, PlaybackRawDataProvider::setFreeToEof(), useFixedFedSize_, validFedIds_, evf::BUEvent::writeFed(), evf::BUEvent::writeFedHeader(), and evf::BUEvent::writeFedTrailer().
Referenced by building().
{
// replay?
if (replay_.value_&&nbEventsBuilt_>=(uint32_t)events_.size())
{
if (0!=PlaybackRawDataProvider::instance())
PlaybackRawDataProvider::instance()->setFreeToEof();
return true;
}
// PLAYBACK mode
if (0!=PlaybackRawDataProvider::instance()) {
unsigned int runNumber,evtNumber;
FEDRawDataCollection* event=
PlaybackRawDataProvider::instance()->getFEDRawData(runNumber,evtNumber);
if(event == 0) return false;
evt->initialize(evtNumber);
for (unsigned int i=0;i<validFedIds_.size();i++) {
unsigned int fedId =validFedIds_[i];
unsigned int fedSize=event->FEDData(fedId).size();
unsigned char* fedAddr=event->FEDData(fedId).data();
if (overwriteEvtId_.value_ && fedAddr != 0) {
fedh_t *fedHeader=(fedh_t*)fedAddr;
fedHeader->eventid=(fedHeader->eventid&0xFF000000)+(evtNumber&0x00FFFFFF);
}
if (fedSize>0) evt->writeFed(fedId,fedAddr,fedSize);
}
delete event;
}
// RANDOM mode
else {
unsigned int evtNumber=(firstEvent_+evtNumber_++)%0x1000000;
evt->initialize(evtNumber);
unsigned int fedSizeMin=fedHeaderSize_+fedTrailerSize_;
for (unsigned int i=0;i<validFedIds_.size();i++) {
unsigned int fedId(validFedIds_[i]);
unsigned int fedSize(fedSizeMean_);
if (!useFixedFedSize_) {
double logFedSize=CLHEP::RandGauss::shoot(gaussianMean_,gaussianWidth_);
fedSize=(unsigned int)(std::exp(logFedSize));
if (fedSize<fedSizeMin) fedSize=fedSizeMin;
if (fedSize>fedSizeMax_) fedSize=fedSizeMax_;
fedSize-=fedSize%8;
}
evt->writeFed(fedId,0,fedSize);
evt->writeFedHeader(i);
evt->writeFedTrailer(i);
}
}
return true;
}
| bool BU::halting | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 280 of file BU.cc.
References builtIds_, alignCSCRings::e, events_, Exception, evf::StateMachine::fireEvent(), evf::StateMachine::fireFailed(), freeIds_, fsm_, instance, PlaybackRawDataProvider::instance(), isBuilding_, isHalting_, isSending_, lock(), log_, lumiQueryAPI::msg, nbEventsBuilt_, postBuild(), postSend(), replay_, AlCaHLTBitMon_QueryRunRegistry::string, and unlock().
{
try {
LOG4CPLUS_INFO(log_,"Start halting ...");
isHalting_=true;
if (isBuilding_&&isSending_) {
lock();
freeIds_.push(events_.size());
builtIds_.push(events_.size());
unlock();
postBuild();
postSend();
}
if (0!=PlaybackRawDataProvider::instance()&&
(!replay_.value_||nbEventsBuilt_<(uint32_t)events_.size())) {
PlaybackRawDataProvider::instance()->setFreeToEof();
while (!PlaybackRawDataProvider::instance()->areFilesClosed()) usleep(1000000);
usleep(100000);
}
LOG4CPLUS_INFO(log_,"Finished halting!");
fsm_.fireEvent("HaltDone",this);
}
catch (xcept::Exception &e) {
string msg = "halting FAILED: " + (string)e.what();
fsm_.fireFailed(msg,this);
}
return false;
}
| void BU::I2O_BU_ALLOCATE_Callback | ( | toolbox::mem::Reference * | bufRef | ) | throw (i2o::exception::Exception) |
Definition at line 319 of file BU.cc.
References i, CommonMethods::lock(), and lumiQueryAPI::msg.
Referenced by BU().
{
if (isHalting_) {
LOG4CPLUS_WARN(log_,"Ignore BU_ALLOCATE message while halting.");
bufRef->release();
return;
}
I2O_MESSAGE_FRAME *stdMsg;
I2O_BU_ALLOCATE_MESSAGE_FRAME *msg;
stdMsg=(I2O_MESSAGE_FRAME*)bufRef->getDataLocation();
msg =(I2O_BU_ALLOCATE_MESSAGE_FRAME*)stdMsg;
if (0==fuAppDesc_) {
I2O_TID fuTid=stdMsg->InitiatorAddress;
fuAppDesc_=i2o::utils::getAddressMap()->getApplicationDescriptor(fuTid);
}
for (unsigned int i=0;i<msg->n;i++) {
unsigned int fuResourceId=msg->allocate[i].fuTransactionId;
lock();
rqstIds_.push(fuResourceId);
postRqst();
nbEventsRequested_++;
nbEventsInBU_++;
unlock();
}
bufRef->release();
}
| void BU::I2O_BU_DISCARD_Callback | ( | toolbox::mem::Reference * | bufRef | ) | throw (i2o::exception::Exception) |
Definition at line 353 of file BU.cc.
References CommonMethods::lock(), lumiQueryAPI::msg, and query::result.
Referenced by BU().
{
if (isHalting_) {
LOG4CPLUS_WARN(log_,"Ignore BU_DISCARD message while halting.");
bufRef->release();
return;
}
I2O_MESSAGE_FRAME *stdMsg=(I2O_MESSAGE_FRAME*)bufRef->getDataLocation();
I2O_BU_DISCARD_MESSAGE_FRAME*msg =(I2O_BU_DISCARD_MESSAGE_FRAME*)stdMsg;
unsigned int buResourceId=msg->buResourceId[0];
lock();
int result=sentIds_.erase(buResourceId);
unlock();
if (!result) {
LOG4CPLUS_ERROR(log_,"can't discard unknown buResourceId '"<<buResourceId<<"'");
}
else {
lock();
freeIds_.push(buResourceId);
nbEventsDiscarded_.value_++;
unlock();
postBuild();
}
bufRef->release();
}
| void evf::BU::lock | ( | void | ) | [inline, private] |
Definition at line 110 of file BU.h.
References lock_.
Referenced by building(), halting(), monitoring(), sending(), and stopping().
{ sem_wait(&lock_); }
| bool BU::monitoring | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 562 of file BU.cc.
References average_, deltaN_, deltaSumOfSizes_, deltaSumOfSquares_, deltaT(), deltaT_, gui_, lock(), timingPdfMaker::mean, evf::WebGUI::monInfoSpace(), monLastN_, monLastSumOfSizes_, monLastSumOfSquares_, monSleepSec_, monStartTime_, nbEventsBuilt_, rate_, rms_, stor::utils::sleep(), mathSSE::sqrt(), sumOfSizes_, sumOfSquares_, throughput_, and unlock().
Referenced by startMonitoringWorkLoop().
{
struct timeval monEndTime;
struct timezone timezone;
gettimeofday(&monEndTime,&timezone);
lock();
unsigned int monN =nbEventsBuilt_.value_;
uint64_t monSumOfSquares=sumOfSquares_;
unsigned int monSumOfSizes =sumOfSizes_;
uint64_t deltaSumOfSquares;
unlock();
gui_->monInfoSpace()->lock();
deltaT_.value_=deltaT(&monStartTime_,&monEndTime);
monStartTime_=monEndTime;
deltaN_.value_=monN-monLastN_;
monLastN_=monN;
deltaSumOfSquares=monSumOfSquares-monLastSumOfSquares_;
deltaSumOfSquares_.value_=(double)deltaSumOfSquares;
monLastSumOfSquares_=monSumOfSquares;
deltaSumOfSizes_.value_=monSumOfSizes-monLastSumOfSizes_;
monLastSumOfSizes_=monSumOfSizes;
if (deltaT_.value_!=0) {
throughput_=deltaSumOfSizes_.value_/deltaT_.value_;
rate_ =deltaN_.value_/deltaT_.value_;
}
else {
throughput_=0.0;
rate_ =0.0;
}
double meanOfSquares,mean,squareOfMean,variance;
if(deltaN_.value_!=0) {
meanOfSquares=deltaSumOfSquares_.value_/((double)(deltaN_.value_));
mean=((double)(deltaSumOfSizes_.value_))/((double)(deltaN_.value_));
squareOfMean=mean*mean;
variance=meanOfSquares-squareOfMean;
average_=deltaSumOfSizes_.value_/deltaN_.value_;
rms_ =std::sqrt(variance);
}
else {
average_=0.0;
rms_ =0.0;
}
gui_->monInfoSpace()->unlock();
::sleep(monSleepSec_.value_);
return true;
}
| void evf::BU::postBuild | ( | ) | [inline, private] |
| void evf::BU::postRqst | ( | ) | [inline, private] |
| void evf::BU::postSend | ( | ) | [inline, private] |
Definition at line 115 of file BU.h.
References sendSem_.
Referenced by building(), halting(), and stopping().
{ sem_post(&sendSem_); }
| void BU::reset | ( | void | ) | [private] |
Definition at line 685 of file BU.cc.
References average_, buildSem_, builtIds_, deltaN_, deltaSumOfSizes_, deltaSumOfSquares_, deltaT_, eventBufferSize_, events_, fakeLs_, freeIds_, gui_, i, lock_, monLastN_, monLastSumOfSizes_, monLastSumOfSquares_, queueSize_, rate_, evf::WebGUI::resetCounters(), rms_, rqstIds_, rqstSem_, sendSem_, sentIds_, throughput_, and validFedIds_.
Referenced by configuring(), and stopping().
{
gui_->resetCounters();
deltaT_ =0.0;
deltaN_ = 0;
deltaSumOfSquares_ = 0;
deltaSumOfSizes_ = 0;
throughput_ =0.0;
average_ = 0;
rate_ = 0;
rms_ = 0;
monLastN_ = 0;
monLastSumOfSquares_= 0;
monLastSumOfSizes_ = 0;
while (events_.size()) {
delete events_.back();
events_.pop_back();
}
while (!rqstIds_.empty()) rqstIds_.pop();
while (!freeIds_.empty()) freeIds_.pop();
while (!builtIds_.empty()) builtIds_.pop();
sentIds_.clear();
sem_init(&lock_,0,1);
sem_init(&buildSem_,0,queueSize_);
sem_init(&sendSem_,0,0);
sem_init(&rqstSem_,0,0);
for (unsigned int i=0;i<queueSize_;i++) {
events_.push_back(new BUEvent(i,eventBufferSize_));
freeIds_.push(i);
}
validFedIds_.clear();
fakeLs_=0;
}
| bool BU::sending | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 501 of file BU.cc.
References buAppContext_, buAppDesc_, builtIds_, createMsgChain(), events_, evf::BUEvent::evtSize(), fuAppDesc_, isHalting_, isSending_, lock(), log_, lumiQueryAPI::msg, nbEventsInBU_, nbEventsSent_, rqstIds_, sentIds_, sumOfSizes_, sumOfSquares_, unlock(), waitRqst(), and waitSend().
Referenced by startSendingWorkLoop().
{
waitSend();
lock();
unsigned int buResourceId=builtIds_.front(); builtIds_.pop();
unlock();
if (buResourceId>=(uint32_t)events_.size()) {
LOG4CPLUS_INFO(log_,"shutdown 'sending' workloop.");
isSending_=false;
return false;
}
if (!isHalting_) {
waitRqst();
lock();
unsigned int fuResourceId=rqstIds_.front(); rqstIds_.pop();
unlock();
BUEvent* evt=events_[buResourceId];
toolbox::mem::Reference* msg=createMsgChain(evt,fuResourceId);
lock();
sumOfSquares_+=(uint64_t)evt->evtSize()*(uint64_t)evt->evtSize();
sumOfSizes_ +=evt->evtSize();
nbEventsInBU_--;
nbEventsSent_++;
sentIds_.insert(buResourceId);
unlock();
buAppContext_->postFrame(msg,buAppDesc_,fuAppDesc_);
}
return true;
}
| void BU::startBuildingWorkLoop | ( | ) | throw (evf::Exception) |
Definition at line 420 of file BU.cc.
References asBuilding_, building(), alignCSCRings::e, Exception, isBuilding_, log_, lumiQueryAPI::msg, sourceId_, and wlBuilding_.
Referenced by enabling().
{
try {
LOG4CPLUS_INFO(log_,"Start 'building' workloop");
wlBuilding_=
toolbox::task::getWorkLoopFactory()->getWorkLoop(sourceId_+
"Building",
"waiting");
if (!wlBuilding_->isActive()) wlBuilding_->activate();
asBuilding_=toolbox::task::bind(this,&BU::building,sourceId_+"Building");
wlBuilding_->submit(asBuilding_);
isBuilding_=true;
}
catch (xcept::Exception& e) {
string msg = "Failed to start workloop 'building'.";
XCEPT_RETHROW(evf::Exception,msg,e);
}
}
| void BU::startMonitoringWorkLoop | ( | ) | throw (evf::Exception) |
Definition at line 539 of file BU.cc.
References asMonitoring_, alignCSCRings::e, Exception, log_, monitoring(), monStartTime_, lumiQueryAPI::msg, sourceId_, and wlMonitoring_.
Referenced by BU().
{
struct timezone timezone;
gettimeofday(&monStartTime_,&timezone);
try {
LOG4CPLUS_INFO(log_,"Start 'monitoring' workloop");
wlMonitoring_=
toolbox::task::getWorkLoopFactory()->getWorkLoop(sourceId_+
"Monitoring",
"waiting");
if (!wlMonitoring_->isActive()) wlMonitoring_->activate();
asMonitoring_=toolbox::task::bind(this,&BU::monitoring,sourceId_+"Monitoring");
wlMonitoring_->submit(asMonitoring_);
}
catch (xcept::Exception& e) {
string msg = "Failed to start workloop 'monitoring'.";
XCEPT_RETHROW(evf::Exception,msg,e);
}
}
| void BU::startSendingWorkLoop | ( | ) | throw (evf::Exception) |
Definition at line 480 of file BU.cc.
References asSending_, alignCSCRings::e, Exception, isSending_, log_, lumiQueryAPI::msg, sending(), sourceId_, and wlSending_.
Referenced by enabling().
{
try {
LOG4CPLUS_INFO(log_,"Start 'sending' workloop");
wlSending_=toolbox::task::getWorkLoopFactory()->getWorkLoop(sourceId_+
"Sending",
"waiting");
if (!wlSending_->isActive()) wlSending_->activate();
asSending_=toolbox::task::bind(this,&BU::sending,sourceId_+"Sending");
wlSending_->submit(asSending_);
isSending_=true;
}
catch (xcept::Exception& e) {
string msg = "Failed to start workloop 'sending'.";
XCEPT_RETHROW(evf::Exception,msg,e);
}
}
| bool BU::stopping | ( | toolbox::task::WorkLoop * | wl | ) |
Definition at line 227 of file BU.cc.
References builtIds_, alignCSCRings::e, events_, Exception, evf::StateMachine::fireEvent(), evf::StateMachine::fireFailed(), freeIds_, fsm_, instance, PlaybackRawDataProvider::instance(), lock(), log_, lumiQueryAPI::msg, postBuild(), postSend(), reset(), sentIds_, stor::utils::sleep(), AlCaHLTBitMon_QueryRunRegistry::string, and unlock().
{
try {
LOG4CPLUS_INFO(log_,"Start stopping :) ...");
if (0!=PlaybackRawDataProvider::instance()) { /*&&
(!replay_.value_||nbEventsBuilt_<(uint32_t)events_.size())) { */
lock();
freeIds_.push(events_.size());
unlock();
postBuild();
while (!builtIds_.empty()) {
LOG4CPLUS_INFO(log_,"wait to flush ... #builtIds="<<builtIds_.size());
::sleep(1);
}
// let the playback go to the last event and exit
PlaybackRawDataProvider::instance()->setFreeToEof();
while (!PlaybackRawDataProvider::instance()->areFilesClosed()) usleep(1000000);
usleep(100000);
}
lock();
builtIds_.push(events_.size());
unlock();
postSend();
while (!sentIds_.empty()) {
LOG4CPLUS_INFO(log_,"wait to flush ...");
::sleep(1);
}
reset();
//postBuild();
/* this is not needed and should not run if reset is called
if (0!=PlaybackRawDataProvider::instance()&&
(replay_.value_&&nbEventsBuilt_>=(uint32_t)events_.size())) {
lock();
freeIds_.push(events_.size());
unlock();
postBuild();
}
*/
LOG4CPLUS_INFO(log_,"Finished stopping!");
fsm_.fireEvent("StopDone",this);
}
catch (xcept::Exception &e) {
string msg = "stopping FAILED: " + (string)e.what();
fsm_.fireFailed(msg,this);
}
return false;
}
| void evf::BU::unlock | ( | void | ) | [inline, private] |
Definition at line 111 of file BU.h.
References lock_.
Referenced by building(), halting(), monitoring(), sending(), and stopping().
{ sem_post(&lock_); }
| void evf::BU::waitBuild | ( | ) | [inline, private] |
Definition at line 112 of file BU.h.
References buildSem_.
Referenced by building().
{ sem_wait(&buildSem_); }
| void evf::BU::waitRqst | ( | ) | [inline, private] |
| void evf::BU::waitSend | ( | ) | [inline, private] |
| void BU::webPageRequest | ( | xgi::Input * | in, |
| xgi::Output * | out | ||
| ) | throw (xgi::exception::Exception) |
Definition at line 402 of file BU.cc.
References recoMuon::in, mergeVDriftHistosByStation::name, and dbtoconf::out.
Referenced by BU().
| evf::BU::XDAQ_INSTANTIATOR | ( | ) |
toolbox::task::ActionSignature* evf::BU::asBuilding_ [private] |
Definition at line 169 of file BU.h.
Referenced by startBuildingWorkLoop().
toolbox::task::ActionSignature* evf::BU::asMonitoring_ [private] |
Definition at line 177 of file BU.h.
Referenced by startMonitoringWorkLoop().
toolbox::task::ActionSignature* evf::BU::asSending_ [private] |
Definition at line 173 of file BU.h.
Referenced by startSendingWorkLoop().
xdata::Double evf::BU::average_ [private] |
Definition at line 196 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdaq::ApplicationContext* evf::BU::buAppContext_ [private] |
xdaq::ApplicationDescriptor* evf::BU::buAppDesc_ [private] |
Definition at line 140 of file BU.h.
Referenced by createMsgChain(), and sending().
sem_t evf::BU::buildSem_ [private] |
Definition at line 244 of file BU.h.
Referenced by postBuild(), reset(), and waitBuild().
std::queue<unsigned int> evf::BU::builtIds_ [private] |
Definition at line 158 of file BU.h.
Referenced by building(), halting(), reset(), sending(), and stopping().
xdata::String evf::BU::class_ [private] |
Definition at line 184 of file BU.h.
Referenced by BU(), and exportParameters().
xdata::Boolean evf::BU::crc_ [private] |
Definition at line 210 of file BU.h.
Referenced by actionPerformed(), BU(), and exportParameters().
xdata::UnsignedInteger32 evf::BU::deltaN_ [private] |
Definition at line 191 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdata::UnsignedInteger32 evf::BU::deltaSumOfSizes_ [private] |
Definition at line 193 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdata::Double evf::BU::deltaSumOfSquares_ [private] |
Definition at line 192 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdata::Double evf::BU::deltaT_ [private] |
Definition at line 190 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdata::UnsignedInteger32 evf::BU::eventBufferSize_ [private] |
Definition at line 216 of file BU.h.
Referenced by exportParameters(), and reset().
std::vector<evf::BUEvent*> evf::BU::events_ [private] |
Definition at line 155 of file BU.h.
Referenced by building(), generateEvent(), halting(), reset(), sending(), stopping(), and ~BU().
unsigned int evf::BU::evtNumber_ [private] |
Definition at line 160 of file BU.h.
Referenced by generateEvent().
unsigned int evf::BU::fakeLs_ [private] |
Definition at line 224 of file BU.h.
Referenced by createMsgChain(), and reset().
xdata::UnsignedInteger32 evf::BU::fakeLsUpdateSecs_ [private] |
Definition at line 213 of file BU.h.
Referenced by createMsgChain(), and exportParameters().
const int evf::BU::fedHeaderSize_ = sizeof(fedh_t) [static, private] |
Definition at line 253 of file BU.h.
Referenced by createMsgChain(), and generateEvent().
xdata::UnsignedInteger32 evf::BU::fedSizeMax_ [private] |
Definition at line 218 of file BU.h.
Referenced by exportParameters(), and generateEvent().
xdata::UnsignedInteger32 evf::BU::fedSizeMean_ [private] |
Definition at line 219 of file BU.h.
Referenced by BU(), exportParameters(), and generateEvent().
xdata::UnsignedInteger32 evf::BU::fedSizeWidth_ [private] |
Definition at line 220 of file BU.h.
Referenced by BU(), and exportParameters().
const int evf::BU::fedTrailerSize_ = sizeof(fedt_t) [static, private] |
Definition at line 254 of file BU.h.
Referenced by createMsgChain(), and generateEvent().
xdata::UnsignedInteger32 evf::BU::firstEvent_ [private] |
Definition at line 214 of file BU.h.
Referenced by exportParameters(), and generateEvent().
std::queue<unsigned int> evf::BU::freeIds_ [private] |
Definition at line 157 of file BU.h.
Referenced by building(), halting(), reset(), and stopping().
const int evf::BU::frlHeaderSize_ = sizeof(frlh_t) [static, private] |
Definition at line 252 of file BU.h.
Referenced by createMsgChain().
StateMachine evf::BU::fsm_ [private] |
Definition at line 149 of file BU.h.
Referenced by BU(), configuring(), enabling(), exportParameters(), halting(), and stopping().
xdaq::ApplicationDescriptor* evf::BU::fuAppDesc_ [private] |
Definition at line 143 of file BU.h.
Referenced by createMsgChain(), and sending().
double evf::BU::gaussianMean_ [private] |
Definition at line 227 of file BU.h.
Referenced by BU(), and generateEvent().
double evf::BU::gaussianWidth_ [private] |
Definition at line 228 of file BU.h.
Referenced by BU(), and generateEvent().
WebGUI* evf::BU::gui_ [private] |
Definition at line 152 of file BU.h.
Referenced by actionPerformed(), BU(), exportParameters(), monitoring(), and reset().
xdata::String evf::BU::hostname_ [private] |
Definition at line 186 of file BU.h.
Referenced by BU(), and exportParameters().
toolbox::mem::Pool* evf::BU::i2oPool_ [private] |
Definition at line 240 of file BU.h.
Referenced by actionPerformed(), BU(), and createMsgChain().
xdata::UnsignedInteger32 evf::BU::instance_ [private] |
Definition at line 185 of file BU.h.
Referenced by BU(), and exportParameters().
bool evf::BU::isBuilding_ [private] |
Definition at line 163 of file BU.h.
Referenced by building(), enabling(), halting(), and startBuildingWorkLoop().
bool evf::BU::isHalting_ [private] |
Definition at line 165 of file BU.h.
Referenced by building(), configuring(), enabling(), halting(), and sending().
bool evf::BU::isSending_ [private] |
Definition at line 164 of file BU.h.
Referenced by enabling(), halting(), sending(), and startSendingWorkLoop().
timeval evf::BU::lastLsUpdate_ [private] |
Definition at line 225 of file BU.h.
Referenced by createMsgChain().
sem_t evf::BU::lock_ [private] |
Logger evf::BU::log_ [private] |
Definition at line 137 of file BU.h.
Referenced by BU(), building(), configuring(), createMsgChain(), enabling(), exportParameters(), halting(), sending(), startBuildingWorkLoop(), startMonitoringWorkLoop(), startSendingWorkLoop(), and stopping().
xdata::Double evf::BU::memUsedInMB_ [private] |
Definition at line 188 of file BU.h.
Referenced by actionPerformed(), and exportParameters().
xdata::String evf::BU::mode_ [private] |
Definition at line 208 of file BU.h.
Referenced by actionPerformed(), and exportParameters().
unsigned int evf::BU::monLastN_ [private] |
Definition at line 232 of file BU.h.
Referenced by monitoring(), and reset().
unsigned int evf::BU::monLastSumOfSizes_ [private] |
Definition at line 234 of file BU.h.
Referenced by monitoring(), and reset().
uint64_t evf::BU::monLastSumOfSquares_ [private] |
Definition at line 233 of file BU.h.
Referenced by monitoring(), and reset().
xdata::UnsignedInteger32 evf::BU::monSleepSec_ [private] |
Definition at line 222 of file BU.h.
Referenced by exportParameters(), and monitoring().
struct timeval evf::BU::monStartTime_ [private] |
Definition at line 231 of file BU.h.
Referenced by monitoring(), and startMonitoringWorkLoop().
xdata::UnsignedInteger32 evf::BU::msgBufferSize_ [private] |
Definition at line 217 of file BU.h.
Referenced by createMsgChain(), and exportParameters().
xdata::UnsignedInteger32 evf::BU::nbEventsBuilt_ [private] |
Definition at line 203 of file BU.h.
Referenced by building(), exportParameters(), generateEvent(), halting(), and monitoring().
xdata::UnsignedInteger32 evf::BU::nbEventsDiscarded_ [private] |
Definition at line 205 of file BU.h.
Referenced by exportParameters().
xdata::UnsignedInteger32 evf::BU::nbEventsInBU_ [private] |
Definition at line 201 of file BU.h.
Referenced by exportParameters(), and sending().
xdata::UnsignedInteger32 evf::BU::nbEventsRequested_ [private] |
Definition at line 202 of file BU.h.
Referenced by exportParameters().
xdata::UnsignedInteger32 evf::BU::nbEventsSent_ [private] |
Definition at line 204 of file BU.h.
Referenced by exportParameters(), and sending().
xdata::Boolean evf::BU::overwriteEvtId_ [private] |
Definition at line 211 of file BU.h.
Referenced by exportParameters(), and generateEvent().
xdata::Boolean evf::BU::overwriteLsId_ [private] |
Definition at line 212 of file BU.h.
Referenced by createMsgChain(), and exportParameters().
xdata::UnsignedInteger32 evf::BU::queueSize_ [private] |
Definition at line 215 of file BU.h.
Referenced by exportParameters(), and reset().
xdata::Double evf::BU::rate_ [private] |
Definition at line 197 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdata::Boolean evf::BU::replay_ [private] |
Definition at line 209 of file BU.h.
Referenced by exportParameters(), generateEvent(), and halting().
xdata::Double evf::BU::rms_ [private] |
Definition at line 198 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
std::queue<unsigned int> evf::BU::rqstIds_ [private] |
sem_t evf::BU::rqstSem_ [private] |
Definition at line 246 of file BU.h.
Referenced by postRqst(), reset(), and waitRqst().
xdata::UnsignedInteger32 evf::BU::runNumber_ [private] |
Definition at line 187 of file BU.h.
Referenced by exportParameters().
sem_t evf::BU::sendSem_ [private] |
Definition at line 245 of file BU.h.
Referenced by postSend(), reset(), and waitSend().
std::set<unsigned int> evf::BU::sentIds_ [private] |
Definition at line 159 of file BU.h.
Referenced by reset(), sending(), and stopping().
std::string evf::BU::sourceId_ [private] |
Definition at line 180 of file BU.h.
Referenced by BU(), startBuildingWorkLoop(), startMonitoringWorkLoop(), and startSendingWorkLoop().
unsigned int evf::BU::sumOfSizes_ [private] |
Definition at line 236 of file BU.h.
Referenced by monitoring(), and sending().
uint64_t evf::BU::sumOfSquares_ [private] |
Definition at line 235 of file BU.h.
Referenced by monitoring(), and sending().
xdata::Double evf::BU::throughput_ [private] |
Definition at line 195 of file BU.h.
Referenced by exportParameters(), monitoring(), and reset().
xdata::String evf::BU::url_ [private] |
Definition at line 183 of file BU.h.
Referenced by BU(), and exportParameters().
xdata::Boolean evf::BU::useFixedFedSize_ [private] |
Definition at line 221 of file BU.h.
Referenced by exportParameters(), and generateEvent().
std::vector<unsigned int> evf::BU::validFedIds_ [private] |
Definition at line 161 of file BU.h.
Referenced by createMsgChain(), enabling(), generateEvent(), and reset().
toolbox::task::WorkLoop* evf::BU::wlBuilding_ [private] |
Definition at line 168 of file BU.h.
Referenced by startBuildingWorkLoop().
toolbox::task::WorkLoop* evf::BU::wlMonitoring_ [private] |
Definition at line 176 of file BU.h.
Referenced by startMonitoringWorkLoop().
toolbox::task::WorkLoop* evf::BU::wlSending_ [private] |
Definition at line 172 of file BU.h.
Referenced by startSendingWorkLoop().
1.7.3