#include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace std::tr1; using namespace epics::pvData; using namespace epics::pvAccess; void convertStructure(StringBuilder buffer,PVStructure *data,int notFirst); void convertArray(StringBuilder buffer,PVScalarArray * pv,int notFirst); void convertStructureArray(StringBuilder buffer,PVStructureArray * pvdata,int notFirst); void convertToString(StringBuilder buffer,PVField * pv,int notFirst) { Type type = pv->getField()->getType(); if(type==structure) { convertStructure(buffer,static_cast(pv),notFirst); return; } if(type==scalarArray) { convertArray(buffer,static_cast(pv),notFirst); *buffer += "\t"; return; } if(type==structureArray) { convertStructureArray( buffer,static_cast(pv),notFirst); *buffer += "\t"; return; } PVScalar *pvScalar = static_cast(pv); ScalarConstPtr pscalar = pvScalar->getScalar(); ScalarType scalarType = pscalar->getScalarType(); switch(scalarType) { case pvBoolean: { PVBoolean *data = static_cast(pv); bool value = data->get(); if(value) { *buffer += "true"; } else { *buffer += "false"; } } break; case pvByte: { PVByte *data = static_cast(pv); char xxx[30]; sprintf(xxx,"%d",(int)data->get()); *buffer += xxx; } break; case pvShort: { PVShort *data = static_cast(pv); char xxx[30]; sprintf(xxx,"%d",(int)data->get()); *buffer += xxx; } break; case pvInt: { PVInt *data = static_cast(pv); char xxx[30]; sprintf(xxx,"%d",(int)data->get()); *buffer += xxx; } break; case pvLong: { PVLong *data = static_cast(pv); char xxx[30]; sprintf(xxx,"%lld",(int64)data->get()); *buffer += xxx; } break; case pvFloat: { PVFloat *data = static_cast(pv); char xxx[30]; sprintf(xxx,"%g",data->get()); *buffer += xxx; } break; case pvDouble: { PVDouble *data = static_cast(pv); char xxx[30]; sprintf(xxx,"%lg",data->get()); *buffer += xxx; } break; case pvString: { PVString *data = static_cast(pv); *buffer += data->get(); } break; default: *buffer += "(unknown ScalarType)"; } *buffer += "\t"; } void convertStructure(StringBuilder buffer,PVStructure *data,int notFirst) { PVFieldPtrArray fieldsData = data->getPVFields(); int length = data->getStructure()->getNumberFields(); for(int i=0; igetScalarArray(); ScalarType type = array->getElementType(); switch(type) { case pvBoolean: { PVBooleanArray *pvdata = static_cast(pv); BooleanArrayData data = BooleanArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ","; int num = pvdata->get(i,1,data); if(num==1) { BooleanArray value = data.data; if(value[data.offset]) { *buffer += "true"; } else { *buffer += "false"; } } else { *buffer += "???? "; } } *buffer += "]"; break; } case pvByte: { PVByteArray *pvdata = static_cast(pv); ByteArrayData data = ByteArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ","; int num = pvdata->get(i,1,data); if(num==1) { int val = data.data[data.offset]; char buf[16]; sprintf(buf,"%d",val); *buffer += buf; } else { *buffer += "???? "; } } *buffer += "]"; break; } case pvShort: { PVShortArray *pvdata = static_cast(pv); ShortArrayData data = ShortArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ','; int num = pvdata->get(i,1,data); if(num==1) { int val = data.data[data.offset]; char buf[16]; sprintf(buf,"%d",val); *buffer += buf; } else { *buffer += "???? "; } } *buffer += "]"; break; } case pvInt: { PVIntArray *pvdata = static_cast(pv); IntArrayData data = IntArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ','; int num = pvdata->get(i,1,data); if(num==1) { int val = data.data[data.offset]; char buf[16]; sprintf(buf,"%d",val); *buffer += buf; } else { *buffer += "???? "; } } *buffer += "]"; break; } case pvLong: { PVLongArray *pvdata = static_cast(pv); LongArrayData data = LongArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ','; int num = pvdata->get(i,1,data); if(num==1) { int64 val = data.data[data.offset]; char buf[16]; sprintf(buf,"%lld",val); *buffer += buf; } else { *buffer += "???? "; } } *buffer += "]"; break; } case pvFloat: { PVFloatArray *pvdata = static_cast(pv); FloatArrayData data = FloatArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ','; int num = pvdata->get(i,1,data); if(num==1) { float val = data.data[data.offset]; char buf[16]; sprintf(buf,"%g",val); *buffer += buf; } else { *buffer += "???? "; } } *buffer += "]"; break; } case pvDouble: { PVDoubleArray *pvdata = static_cast(pv); DoubleArrayData data = DoubleArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ','; int num = pvdata->get(i,1,data); if(num==1) { double val = data.data[data.offset]; char buf[16]; sprintf(buf,"%lg",val); *buffer += buf; } else { *buffer += "???? "; } } *buffer += ("]"); break; } case pvString: { PVStringArray *pvdata = static_cast(pv); StringArrayData data = StringArrayData(); *buffer += "["; for(size_t i=0; i < pvdata->getLength(); i++) { if(i!=0) *buffer += ","; int num = pvdata->get(i,1,data); StringArray value = data.data; if(num==1) { if(value[data.offset].length()>0) { *buffer += value[data.offset].c_str(); } else { *buffer += "null"; } } else { *buffer += "null"; } } *buffer += "]"; break; } default: *buffer += "(array element is unknown ScalarType)"; } } void convertStructureArray(StringBuilder buffer, PVStructureArray * pvdata,int notFirst) { int length = pvdata->getLength(); if(length<=0) { return; } StructureArrayData data = StructureArrayData(); pvdata->get(0, length, data); for (int i = 0; i < length; i++) { PVStructurePtr pvStructure = data.data[i]; if (pvStructure == 0) { *buffer += "null"; } else { convertToString(buffer,pvStructure.get(),notFirst+1); } } } #define DEFAULT_TIMEOUT 3.0 #define DEFAULT_REQUEST "field(value)" double timeOut = DEFAULT_TIMEOUT; string request(DEFAULT_REQUEST); bool terseMode = false; void usage (void) { fprintf (stderr, "\nUsage: pvget [options] ...\n\n" " -h: Help: Print this message\n" "options:\n" " -r : Request, specifies what fields to return and options, default is '%s'\n" " -w : Wait time, specifies timeout, default is %f second(s)\n" " -t: Terse mode - print only value, without name\n" " -d: Enable debug output\n" " -c: Wait for clean shutdown and report used instance count (for expert users)" "\nExample: pvget example001 \n\n" , DEFAULT_REQUEST, DEFAULT_TIMEOUT); } class ChannelGetRequesterImpl : public ChannelGetRequester { private: ChannelGet::shared_pointer m_channelGet; PVStructure::shared_pointer m_pvStructure; BitSet::shared_pointer m_bitSet; Mutex m_pointerMutex; Event m_event; String m_channelName; public: ChannelGetRequesterImpl(String channelName) : m_channelName(channelName) {}; virtual String getRequesterName() { return "ChannelGetRequesterImpl"; }; virtual void message(String message,MessageType messageType) { std::cout << "[" << getRequesterName() << "] message(" << message << ", " << getMessageTypeName(messageType) << ")" << std::endl; } virtual void channelGetConnect(const epics::pvData::Status& status,ChannelGet::shared_pointer const & channelGet, epics::pvData::PVStructure::shared_pointer const & pvStructure, epics::pvData::BitSet::shared_pointer const & bitSet) { if (status.isSuccess()) { // show warning if (!status.isOk()) { std::cout << "[" << m_channelName << "] channel get create: " << status.toString() << std::endl; } // assign smart pointers { Lock lock(m_pointerMutex); m_channelGet = channelGet; m_pvStructure = pvStructure; m_bitSet = bitSet; } channelGet->get(true); } else { std::cout << "[" << m_channelName << "] failed to create channel get: " << status.toString() << std::endl; } } virtual void getDone(const epics::pvData::Status& status) { if (status.isSuccess()) { // show warning if (!status.isOk()) { std::cout << "[" << m_channelName << "] channel get: " << status.toString() << std::endl; } String str; // access smart pointers { Lock lock(m_pointerMutex); { // needed since we access the data ScopedLock dataLock(m_channelGet); if (terseMode) convertToString(&str, m_pvStructure.get(), 0); else m_pvStructure->toString(&str); } // this is OK since calle holds also owns it m_channelGet.reset(); } std::cout << str << std::endl; m_event.signal(); } else { std::cout << "[" << m_channelName << "] failed to get: " << status.toString() << std::endl; { Lock lock(m_pointerMutex); // this is OK since calle holds also owns it m_channelGet.reset(); } } } bool waitUntilGet(double timeOut) { return m_event.wait(timeOut); } }; class ChannelRequesterImpl : public ChannelRequester { private: Event m_event; public: virtual String getRequesterName() { return "ChannelRequesterImpl"; }; virtual void message(String message,MessageType messageType) { std::cout << "[" << getRequesterName() << "] message(" << message << ", " << getMessageTypeName(messageType) << ")" << std::endl; } virtual void channelCreated(const epics::pvData::Status& status, Channel::shared_pointer const & channel) { if (status.isSuccess()) { // show warning if (!status.isOk()) { std::cout << "[" << channel->getChannelName() << "] channel create: " << status.toString() << std::endl; } } else { std::cout << "[" << channel->getChannelName() << "] failed to create a channel: " << status.toString() << std::endl; } } virtual void channelStateChange(Channel::shared_pointer const & channel, Channel::ConnectionState connectionState) { if (connectionState == Channel::CONNECTED) { m_event.signal(); } /* else if (connectionState != Channel::DESTROYED) { std::cout << "[" << channel->getChannelName() << "] channel state change: " << Channel::ConnectionStateNames[connectionState] << std::endl; } */ } bool waitUntilConnected(double timeOut) { return m_event.wait(timeOut); } }; /*+************************************************************************** * * Function: main * * Description: pvget main() * Evaluate command line options, set up CA, connect the * channels, print the data as requested * * Arg(s) In: [options] ... * * Arg(s) Out: none * * Return(s): Standard return code (0=success, 1=error) * **************************************************************************-*/ int main (int argc, char *argv[]) { int opt; /* getopt() current option */ bool debug = false; bool cleanupAndReport = false; setvbuf(stdout,NULL,_IOLBF,BUFSIZ); /* Set stdout to line buffering */ while ((opt = getopt(argc, argv, ":hr:w:tdc")) != -1) { switch (opt) { case 'h': /* Print usage */ usage(); return 0; case 'w': /* Set CA timeout value */ if(epicsScanDouble(optarg, &timeOut) != 1) { fprintf(stderr, "'%s' is not a valid timeout value " "- ignored. ('cainfo -h' for help.)\n", optarg); timeOut = DEFAULT_TIMEOUT; } break; case 'r': /* Set CA timeout value */ request = optarg; break; case 't': /* Terse mode */ terseMode = true; break; case 'd': /* Debug log level */ debug = true; break; case 'c': /* Clean-up and report used instance count */ cleanupAndReport = true; break; case '?': fprintf(stderr, "Unrecognized option: '-%c'. ('pvget -h' for help.)\n", optopt); return 1; case ':': fprintf(stderr, "Option '-%c' requires an argument. ('pvget -h' for help.)\n", optopt); return 1; default : usage(); return 1; } } int nPvs = argc - optind; /* Remaining arg list are PV names */ if (nPvs < 1) { fprintf(stderr, "No pv name(s) specified. ('pvget -h' for help.)\n"); return 1; } vector pvs; /* Array of PV structures */ for (int n = 0; optind < argc; n++, optind++) pvs.push_back(argv[optind]); /* Copy PV names from command line */ SET_LOG_LEVEL(debug ? logLevelDebug : logLevelError); bool allOK = true; { PVStructure::shared_pointer pvRequest; try { pvRequest = getCreateRequest()->createRequest(request); } catch (std::exception &ex) { printf("failed to parse request string: %s\n", ex.what()); return 1; } ClientFactory::start(); ChannelProvider::shared_pointer provider = getChannelAccess()->getProvider("pvAccess"); // first connect to all, this allows resource (e.g. TCP connection) sharing vector channels(nPvs); for (int n = 0; n < nPvs; n++) { shared_ptr channelRequesterImpl(new ChannelRequesterImpl()); channels[n] = provider->createChannel(pvs[n], channelRequesterImpl); } // for now a simple iterating sync implementation, guarantees order for (int n = 0; n < nPvs; n++) { /* shared_ptr channelRequesterImpl(new ChannelRequesterImpl()); Channel::shared_pointer channel = provider->createChannel(pvs[n], channelRequesterImpl); */ Channel::shared_pointer channel = channels[n]; shared_ptr channelRequesterImpl = dynamic_pointer_cast(channel->getChannelRequester()); if (channelRequesterImpl->waitUntilConnected(timeOut)) { shared_ptr getRequesterImpl(new ChannelGetRequesterImpl(channel->getChannelName())); ChannelGet::shared_pointer channelGet = channel->createChannelGet(getRequesterImpl, pvRequest); allOK &= getRequesterImpl->waitUntilGet(timeOut); } else { allOK = false; channel->destroy(); std::cout << "[" << channel->getChannelName() << "] connection timeout" << std::endl; } } ClientFactory::stop(); } if (cleanupAndReport) { // TODO implement wait on context epicsThreadSleep ( 3.0 ); std::cout << "-----------------------------------------------------------------------" << std::endl; epicsExitCallAtExits(); CDRMonitor::get().show(stdout, true); } return allOK ? 0 : 1; }