Esempio n. 1
0
/** 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);
}
Esempio n. 3
0
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;
}
Esempio n. 4
0
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);
}