/** Monitor values */ void doMonitor(string const &name, string const &request, double timeout, short priority, int limit, bool quiet) { ChannelProvider::shared_pointer channelProvider = getChannelProviderRegistry()->getProvider("pva"); if (! channelProvider) THROW_EXCEPTION2(runtime_error, "No channel provider"); shared_ptr<MyChannelRequester> channelRequester(new MyChannelRequester()); shared_ptr<Channel> channel(channelProvider->createChannel(name, channelRequester, priority)); channelRequester->waitUntilConnected(timeout); shared_ptr<PVStructure> pvRequest = CreateRequest::create()->createRequest(request); shared_ptr<MyMonitorRequester> monitorRequester(new MyMonitorRequester(limit, quiet)); shared_ptr<Monitor> monitor = channel->createMonitor(monitorRequester, pvRequest); // Wait until limit or forever.. monitorRequester->waitUntilDone(); // What to do for graceful shutdown of monitor? Status stat = monitor->stop(); if (! stat.isSuccess()) cout << "Cannot stop monitor, " << stat << endl; monitor->destroy(); channel->destroy(); }
/** Connect, get value, disconnect */ void getValue(string const &name, string const &request, double timeout) { ChannelProvider::shared_pointer channelProvider = ChannelProviderRegistry::clients()->getProvider("pva"); //getChannelProviderRegistry()->getProvider("pva"); This is the old way. if (! channelProvider) THROW_EXCEPTION2(runtime_error, "No channel provider"); shared_ptr<MyChannelRequester> channelRequester(new MyChannelRequester()); shared_ptr<Channel> channel(channelProvider->createChannel(name, channelRequester)); channelRequester->waitUntilConnected(timeout); shared_ptr<PVStructure> pvRequest = CreateRequest::create()->createRequest(request); shared_ptr<MyChannelGetRequester> channelGetRequester(new MyChannelGetRequester()); // This took me 3 hours to figure out: shared_ptr<ChannelGet> channelGet = channel->createChannelGet(channelGetRequester, pvRequest); // We don't care about the value of 'channelGet', so why assign it to a variable? // But when we _don't_ assign it to a shared_ptr<>, the one // returned from channel->createChannelGet() will be deleted // right away, and then the server(!) crashes because it receives a NULL GetRequester... channelGetRequester->waitUntilDone(timeout); }
bool ExampleLink::init() { initPVRecord(); PVStructurePtr pvStructure = getPVRecordStructure()->getPVStructure(); pvValue = pvStructure->getSubField<PVDoubleArray>("value"); if(!pvValue) { return false; } ChannelProvider::shared_pointer provider = getChannelProviderRegistry()->getProvider(providerName); if(!provider) { cout << getRecordName() << " provider " << providerName << " does not exist" << endl; return false; } ChannelRequester::shared_pointer channelRequester = dynamic_pointer_cast<ChannelRequester>(getPtrSelf()); channel = provider->createChannel(channelName,channelRequester); event.wait(); if(!status.isOK()) { cout << getRecordName() << " createChannel failed " << status.getMessage() << endl; return false; } PVStructurePtr pvRequest = CreateRequest::create()->createRequest( "value"); MonitorRequester::shared_pointer monitorRequester = dynamic_pointer_cast<MonitorRequester>(getPtrSelf()); monitor = channel->createMonitor(monitorRequester,pvRequest); return true; }
bool ExampleLink::init() { initPVRecord(); PVStructurePtr pvStructure = getPVRecordStructure()->getPVStructure(); pvTimeStamp.attach(pvStructure->getSubField("timeStamp")); pvAlarm.attach(pvStructure->getSubField("alarm")); pvValue = static_pointer_cast<PVDoubleArray>( pvStructure->getScalarArrayField("value",pvDouble)); if(!pvValue) { return false; } ChannelProvider::shared_pointer provider = getChannelProviderRegistry()->getProvider(providerName); if(!provider) { cout << getRecordName() << " provider " << providerName << " does not exist" << endl; return false; } ChannelRequester::shared_pointer channelRequester = dynamic_pointer_cast<ChannelRequester>(getPtrSelf()); channel = provider->createChannel(channelName,channelRequester); event.wait(); if(!status.isOK()) { cout << getRecordName() << " createChannel failed " << status.getMessage() << endl; return false; } ChannelGetRequester::shared_pointer channelGetRequester = dynamic_pointer_cast<ChannelGetRequester>(getPtrSelf()); PVStructurePtr pvRequest = CreateRequest::create()->createRequest( "value,alarm,timeStamp"); channelGet = channel->createChannelGet(channelGetRequester,pvRequest); event.wait(); if(!status.isOK()) { cout << getRecordName() << " createChannelGet failed " << status.getMessage() << endl; return false; } getPVValue = static_pointer_cast<PVDoubleArray>( getPVStructure->getScalarArrayField("value",pvDouble)); if(!getPVValue) { cout << getRecordName() << " get value not PVDoubleArray" << endl; return false; } return true; }
int main (int argc, char *argv[]) { size_t nChannels = N_CHANNELS_DEFAULT; int runs = N_RUNS_DEFAULT; int opt; // getopt() current option setvbuf(stdout,NULL,_IOLBF,BUFSIZ); // Set stdout to line buffering while ((opt = getopt(argc, argv, ":hr:w:i:c:s:l:bf:v")) != -1) { switch (opt) { case 'h': // Print usage usage(); return 0; case 'i': // iterations runs = atoi(optarg); break; case 'c': // channels { int tmp = atoi(optarg); if (tmp < 0) tmp = 1; // note: possible overflow (size_t is not always unsigned int) nChannels = static_cast<size_t>(tmp); break; } case '?': fprintf(stderr, "Unrecognized option: '-%c'. ('testChannelConnect -h' for help.)\n", optopt); return 1; case ':': fprintf(stderr, "Option '-%c' requires an argument. ('testChannelConnect -h' for help.)\n", optopt); return 1; default : usage(); return 1; } } { Event g_event; ClientFactory::start(); ChannelProvider::shared_pointer provider = getChannelProviderRegistry()->getProvider("pva"); int run = 0; while (runs < 0 || run++ < runs) { vector<Channel::shared_pointer> channels(nChannels); ChannelRequester::shared_pointer channelRequester(new ChannelRequesterImpl(nChannels, g_event)); char buf[16]; for (size_t i = 0; i < nChannels; i++) { sprintf(buf, "test%zu", (i+1)); channels.push_back(provider->createChannel(buf, channelRequester)); } g_event.wait(); cout << "connected to all" << endl; } ClientFactory::stop(); } epicsThreadSleep ( 2.0 ); //std::cout << "-----------------------------------------------------------------------" << std::endl; //epicsExitCallAtExits(); return(0); }
void runTest() { reset(); if (verbose) printf("%d channel(s) of double array size of %d element(s) (0==scalar), %d iteration(s) per run, %d run(s) (0==forever)\n", channels, arraySize, iterations, runs); vector<string> channelNames; char buf[64]; for (int i = 0; i < channels; i++) { if (arraySize > 0) sprintf(buf, "testArray%d_%d", arraySize, i); else sprintf(buf, "test%d", i); channelNames.push_back(buf); } vector<Channel::shared_pointer> channels; for (vector<string>::const_iterator i = channelNames.begin(); i != channelNames.end(); i++) { TR1::shared_ptr<ChannelRequesterImpl> channelRequesterImpl( new ChannelRequesterImpl() ); Channel::shared_pointer channel = provider->createChannel(*i, channelRequesterImpl); channels.push_back(channel); } bool differentConnectionsWarningIssued = false; string theRemoteAddress; for (vector<Channel::shared_pointer>::iterator i = channels.begin(); i != channels.end(); i++) { Channel::shared_pointer channel = *i; TR1::shared_ptr<ChannelRequesterImpl> channelRequesterImpl = TR1::dynamic_pointer_cast<ChannelRequesterImpl>(channel->getChannelRequester()); if (channelRequesterImpl->waitUntilConnected(5.0)) { string remoteAddress = channel->getRemoteAddress(); if (theRemoteAddress.empty()) { theRemoteAddress = remoteAddress; } else if (theRemoteAddress != remoteAddress) { if (!differentConnectionsWarningIssued) { std::cout << "not all channels are hosted by the same connection: " << theRemoteAddress << " != " << remoteAddress << std::endl; differentConnectionsWarningIssued = true; // we assumes same connection (thread-safety) exit(2); } } TR1::shared_ptr<ChannelMonitorRequesterImpl> getRequesterImpl( new ChannelMonitorRequesterImpl(channel->getChannelName()) ); Monitor::shared_pointer monitor = channel->createMonitor(getRequesterImpl, pvRequest); bool allOK = getRequesterImpl->waitUntilConnected(timeOut); if (!allOK) { std::cout << "[" << channel->getChannelName() << "] failed to get all the monitors" << std::endl; exit(1); } channelMonitorList.push_back(monitor); } else { std::cout << "[" << channel->getChannelName() << "] connection timeout" << std::endl; exit(1); } } if (verbose) std::cout << "all connected" << std::endl; { Lock guard(waitLoopPtrMutex); waitLoopEvent.reset(new Event()); } epicsTimeGetCurrent(&startTime); monitor_all(); waitLoopEvent->wait(); }
void runTest() { reset(); if (verbose) printf("%d channel(s) of double array size of %d element(s) (0==scalar), %d iteration(s) per run, %d run(s) (0==forever)\n", channels, arraySize, iterations, runs); /* StringArray fieldNames; fieldNames.push_back("strategy"); FieldConstPtrArray fields; fields.push_back(getFieldCreate()->createScalar(pvInt)); PVStructure::shared_pointer configuration = getPVDataCreate()->createPVStructure(getFieldCreate()->createStructure(fieldNames, fields)); configuration->getIntField("strategy")->put(bulkMode ? USER_CONTROLED : DELAYED); provider->configure(configuration); */ vector<string> channelNames; char buf[64]; for (int i = 0; i < channels; i++) { if (arraySize > 0) sprintf(buf, "testArray%d_%d", arraySize, i); else sprintf(buf, "test%d", i); channelNames.push_back(buf); } vector<Channel::shared_pointer> channels; for (vector<string>::const_iterator i = channelNames.begin(); i != channelNames.end(); i++) { shared_ptr<ChannelRequesterImpl> channelRequesterImpl( new ChannelRequesterImpl() ); Channel::shared_pointer channel = provider->createChannel(*i, channelRequesterImpl); channels.push_back(channel); } if (bulkMode) provider->flush(); bool differentConnectionsWarningIssued = false; string theRemoteAddress; for (vector<Channel::shared_pointer>::iterator i = channels.begin(); i != channels.end(); i++) { Channel::shared_pointer channel = *i; shared_ptr<ChannelRequesterImpl> channelRequesterImpl = dynamic_pointer_cast<ChannelRequesterImpl>(channel->getChannelRequester()); if (channelRequesterImpl->waitUntilConnected(5.0)) { string remoteAddress = channel->getRemoteAddress(); if (theRemoteAddress.empty()) { theRemoteAddress = remoteAddress; } else if (theRemoteAddress != remoteAddress) { if (!differentConnectionsWarningIssued) { std::cout << "not all channels are hosted by the same connection: " << theRemoteAddress << " != " << remoteAddress << std::endl; differentConnectionsWarningIssued = true; // we assumes same connection (thread-safety) exit(2); } } shared_ptr<ChannelGetRequesterImpl> getRequesterImpl( new ChannelGetRequesterImpl(channel->getChannelName()) ); ChannelGet::shared_pointer channelGet = channel->createChannelGet(getRequesterImpl, pvRequest); if (bulkMode) provider->flush(); bool allOK = getRequesterImpl->waitUntilConnected(timeOut); if (!allOK) { std::cout << "[" << channel->getChannelName() << "] failed to get all the gets" << std::endl; exit(1); } channelGetList.push_back(channelGet); } else { std::cout << "[" << channel->getChannelName() << "] connection timeout" << std::endl; exit(1); } } if (verbose) std::cout << "all connected" << std::endl; { Lock guard(waitLoopPtrMutex); waitLoopEvent.reset(new Event()); } epicsTimeGetCurrent(&startTime); get_all(); waitLoopEvent->wait(); }
int main() { for (int i = 0; i < 10; i++) { { /* ClientContextImpl::shared_pointer context = createClientContextImpl(); context->printInfo(); context->initialize(); context->printInfo(); epicsThreadSleep ( SLEEP_TIME ); ChannelProvider::shared_pointer provider = context->getProvider(); */ ClientFactory::start(); ChannelProvider::shared_pointer provider = getChannelProviderRegistry()->getProvider("pva"); ChannelFindRequester::shared_pointer findRequester(new ChannelFindRequesterImpl()); ChannelFind::shared_pointer channelFind = provider->channelFind("testSomething", findRequester); epicsThreadSleep ( SLEEP_TIME ); //channelFind->destroy(); ChannelRequester::shared_pointer channelRequester(new ChannelRequesterImpl()); Channel::shared_pointer channel = provider->createChannel("testStructureArrayTest", channelRequester); epicsThreadSleep ( SLEEP_TIME ); channel->printInfo(); { GetFieldRequester::shared_pointer getFieldRequesterImpl(new GetFieldRequesterImpl()); channel->getField(getFieldRequesterImpl, ""); epicsThreadSleep ( SLEEP_TIME ); } { ChannelProcessRequester::shared_pointer channelProcessRequester(new ChannelProcessRequesterImpl()); PVStructure::shared_pointer pvRequest; ChannelProcess::shared_pointer channelProcess = channel->createChannelProcess(channelProcessRequester, pvRequest); epicsThreadSleep ( SLEEP_TIME ); channelProcess->process(); epicsThreadSleep ( SLEEP_TIME ); channelProcess->destroy(); epicsThreadSleep ( SLEEP_TIME ); } { ChannelGetRequester::shared_pointer channelGetRequesterImpl(new ChannelGetRequesterImpl()); PVStructure::shared_pointer pvRequest = CreateRequest::create()->createRequest("field()"); ChannelGet::shared_pointer channelGet = channel->createChannelGet(channelGetRequesterImpl, pvRequest); epicsThreadSleep ( 3.0 ); channelGet->get(); epicsThreadSleep ( 3.0 ); channelGet->destroy(); } { ChannelPutRequester::shared_pointer channelPutRequesterImpl(new ChannelPutRequesterImpl()); PVStructure::shared_pointer pvRequest = CreateRequest::create()->createRequest("field(value,timeStamp)"); ChannelPut::shared_pointer channelPut = channel->createChannelPut(channelPutRequesterImpl, pvRequest); epicsThreadSleep ( SLEEP_TIME ); channelPut->get(); epicsThreadSleep ( SLEEP_TIME ); // TODO !!! //channelPut->put(); //epicsThreadSleep ( SLEEP_TIME ); channelPut->destroy(); } { ChannelPutGetRequester::shared_pointer channelPutGetRequesterImpl(new ChannelPutGetRequesterImpl()); PVStructure::shared_pointer pvRequest = CreateRequest::create()->createRequest("putField(value,timeStamp)getField(timeStamp)"); ChannelPutGet::shared_pointer channelPutGet = channel->createChannelPutGet(channelPutGetRequesterImpl, pvRequest); epicsThreadSleep ( SLEEP_TIME ); channelPutGet->getGet(); epicsThreadSleep ( SLEEP_TIME ); channelPutGet->getPut(); epicsThreadSleep ( SLEEP_TIME ); // TODO !!! //channelPutGet->putGet(); //epicsThreadSleep ( SLEEP_TIME ); channelPutGet->destroy(); } { ChannelRPCRequester::shared_pointer channelRPCRequesterImpl(new ChannelRPCRequesterImpl()); PVStructure::shared_pointer pvRequest = CreateRequest::create()->createRequest("record[]field(arguments)"); ChannelRPC::shared_pointer channelRPC = channel->createChannelRPC(channelRPCRequesterImpl, pvRequest); epicsThreadSleep ( SLEEP_TIME ); // for test simply use pvRequest as arguments channelRPC->request(pvRequest); epicsThreadSleep ( SLEEP_TIME ); channelRPC->destroy(); } { ChannelArrayRequester::shared_pointer channelArrayRequesterImpl(new ChannelArrayRequesterImpl()); StringArray fieldNames; fieldNames.push_back("field"); FieldConstPtrArray fields; fields.push_back(getFieldCreate()->createScalar(pvString)); PVStructure::shared_pointer pvRequest(getPVDataCreate()->createPVStructure(getFieldCreate()->createStructure(fieldNames, fields))); ChannelArray::shared_pointer channelArray = channel->createChannelArray(channelArrayRequesterImpl, pvRequest); epicsThreadSleep ( SLEEP_TIME ); channelArray->getArray(0,0,1); epicsThreadSleep ( SLEEP_TIME ); // TODO !!! //channelArray->putArray(0,0,1); //epicsThreadSleep ( SLEEP_TIME ); channelArray->setLength(3); epicsThreadSleep ( SLEEP_TIME ); channelArray->getLength(); epicsThreadSleep ( SLEEP_TIME ); channelArray->destroy(); } { MonitorRequester::shared_pointer monitorRequesterImpl(new MonitorRequesterImpl()); PVStructure::shared_pointer pvRequest = CreateRequest::create()->createRequest("field()"); Monitor::shared_pointer monitor = channel->createMonitor(monitorRequesterImpl, pvRequest); epicsThreadSleep( SLEEP_TIME ); Status status = monitor->start(); std::cout << "monitor->start() = " << status << std::endl; epicsThreadSleep( 3*SLEEP_TIME ); status = monitor->stop(); std::cout << "monitor->stop() = " << status << std::endl; monitor->destroy(); } epicsThreadSleep ( 3*SLEEP_TIME ); printf("Destroying channel... \n"); channel->destroy(); printf("done.\n"); epicsThreadSleep ( 3*SLEEP_TIME ); } ClientFactory::stop(); /* printf("Destroying context... \n"); context->destroy(); printf("done.\n"); */ epicsThreadSleep ( SLEEP_TIME ); } //std::cout << "-----------------------------------------------------------------------" << std::endl; //epicsExitCallAtExits(); return(0); }