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FairMQ/fairmq/FairMQStateMachine.cxx
Alexey Rybalchenko 7fda980710 Update FairMQStateMachine & introduce FairMQChannels 
Organize sockets as a map of vectors of FairMQChannels.

Update FairMQStateMachine by removing SETTINGINPUT, SETTINGOUTPUT,
BIND and CONNECT states and by adding INITIALIZING_TASK, RESETTING_TASK
and RESETTING_DEVICE states. Run states functions in their own thread.
2015-06-16 09:29:53 +02:00

264 lines
6.9 KiB
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/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence version 3 (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/**
* FairMQStateMachine.cxx
*
* @since 2012-10-25
* @author D. Klein, A. Rybalchenko
*/
#include "FairMQStateMachine.h"
#include "FairMQLogger.h"
FairMQStateMachine::FairMQStateMachine()
: fInitializingFinished(false)
, fInitializingCondition()
, fInitializingMutex()
, fInitializingTaskFinished(false)
, fInitializingTaskCondition()
, fInitializingTaskMutex()
, fRunningFinished(false)
, fRunningCondition()
, fRunningMutex()
{
start();
}
FairMQStateMachine::~FairMQStateMachine()
{
stop();
}
int FairMQStateMachine::GetInterfaceVersion()
{
return FAIRMQ_INTERFACE_VERSION;
}
bool FairMQStateMachine::ChangeState(int event)
{
try
{
switch (event)
{
case INIT_DEVICE:
process_event(FairMQFSM::INIT_DEVICE());
return true;
case DEVICE_READY:
process_event(FairMQFSM::DEVICE_READY());
return true;
case INIT_TASK:
process_event(FairMQFSM::INIT_TASK());
return true;
case READY:
process_event(FairMQFSM::READY());
return true;
case RUN:
process_event(FairMQFSM::RUN());
return true;
case PAUSE:
process_event(FairMQFSM::PAUSE());
return true;
case RESUME:
process_event(FairMQFSM::RESUME());
return true;
case STOP:
process_event(FairMQFSM::STOP());
return true;
case RESET_DEVICE:
process_event(FairMQFSM::RESET_DEVICE());
return true;
case RESET_TASK:
process_event(FairMQFSM::RESET_TASK());
return true;
case IDLE:
process_event(FairMQFSM::IDLE());
return true;
case END:
process_event(FairMQFSM::END());
return true;
default:
LOG(ERROR) << "Requested unsupported state: " << event << std::endl
<< "Supported are: INIT_DEVICE, INIT_TASK, RUN, PAUSE, RESUME, STOP, RESET_TASK, RESET_DEVICE, END";
return false;
}
}
catch (boost::bad_function_call& e)
{
LOG(ERROR) << e.what();
}
}
bool FairMQStateMachine::ChangeState(std::string event)
{
if (event == "INIT_DEVICE")
{
return ChangeState(INIT_DEVICE);
}
if (event == "DEVICE_READY")
{
return ChangeState(DEVICE_READY);
}
if (event == "INIT_TASK")
{
return ChangeState(INIT_TASK);
}
if (event == "READY")
{
return ChangeState(READY);
}
else if (event == "RUN")
{
return ChangeState(RUN);
}
else if (event == "PAUSE")
{
return ChangeState(PAUSE);
}
else if (event == "RESUME")
{
return ChangeState(RESUME);
}
else if (event == "STOP")
{
return ChangeState(STOP);
}
if (event == "RESET_DEVICE")
{
return ChangeState(RESET_DEVICE);
}
if (event == "RESET_TASK")
{
return ChangeState(RESET_TASK);
}
else if (event == "IDLE")
{
return ChangeState(IDLE);
}
else if (event == "END")
{
return ChangeState(END);
}
else
{
LOG(ERROR) << "Requested unsupported state: " << event << std::endl
<< "Supported are: INIT_DEVICE, INIT_TASK, RUN, PAUSE, RESUME, STOP, RESET_TASK, RESET_DEVICE, END";
return false;
}
}
void FairMQStateMachine::WaitForEndOfState(int event)
{
switch (event)
{
case INIT_DEVICE:
{
boost::unique_lock<boost::mutex> lock(fInitializingMutex);
while (!fInitializingFinished)
{
fInitializingCondition.wait(lock);
}
break;
}
case INIT_TASK:
{
boost::unique_lock<boost::mutex> initTaskLock(fInitializingTaskMutex);
while (!fInitializingTaskFinished)
{
fInitializingTaskCondition.wait(initTaskLock);
}
break;
}
case RUN:
{
boost::unique_lock<boost::mutex> runLock(fRunningMutex);
while (!fRunningFinished)
{
fRunningCondition.wait(runLock);
}
break;
}
case RESET_TASK:
{
boost::unique_lock<boost::mutex> runLock(fResetTaskMutex);
while (!fResetTaskFinished)
{
fResetTaskCondition.wait(runLock);
}
break;
}
case RESET_DEVICE:
{
boost::unique_lock<boost::mutex> runLock(fResetMutex);
while (!fResetFinished)
{
fResetCondition.wait(runLock);
}
break;
}
default:
LOG(ERROR) << "Requested state is either synchronous or does not exist.";
break;
}
}
void FairMQStateMachine::WaitForEndOfState(std::string event)
{
if (event == "INIT_DEVICE")
{
return WaitForEndOfState(INIT_DEVICE);
}
if (event == "DEVICE_READY")
{
return WaitForEndOfState(DEVICE_READY);
}
if (event == "INIT_TASK")
{
return WaitForEndOfState(INIT_TASK);
}
if (event == "READY")
{
return WaitForEndOfState(READY);
}
else if (event == "RUN")
{
return WaitForEndOfState(RUN);
}
else if (event == "PAUSE")
{
return WaitForEndOfState(PAUSE);
}
else if (event == "RESUME")
{
return WaitForEndOfState(RESUME);
}
else if (event == "STOP")
{
return WaitForEndOfState(STOP);
}
if (event == "RESET_DEVICE")
{
return WaitForEndOfState(RESET_DEVICE);
}
if (event == "RESET_TASK")
{
return WaitForEndOfState(RESET_TASK);
}
else if (event == "IDLE")
{
return WaitForEndOfState(IDLE);
}
else if (event == "END")
{
return WaitForEndOfState(END);
}
else
{
LOG(ERROR) << "Requested unsupported state: " << event << std::endl
<< "Supported are: INIT_DEVICE, INIT_TASK, RUN, PAUSE, RESUME, STOP, RESET_TASK, RESET_DEVICE, END";
}
}
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