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/******************************************************************************* * Control.h Control process * T.Barnaby, BEAM Ltd, 2007-02-07 ******************************************************************************* */ #ifndef Control_H #define Control_H 1 #include <stdint.h> #include <BError.h> #include <BThread.h> #include <BCondInt.h> #include <BRWLock.h> #include <TmsApi.h> #include <TmsEventServerList.h> #include <main.h> #include <DataAcquire.h> #include <PuServer.h> class Control; class DataRequest { public: DataRequest(DataInfo dataInfo); public: DataInfo dataInfo; }; class CycleInfo { public:
CycleInfo(BUInt32 cycleNumber, BString cycleType);
public:
BUInt32 cycleNumber;
BString cycleType; BList<BError> errorList; }; class CycleInfoList { public: enum { numCycles = 8 }; CycleInfoList();
void cycleAdd(BUInt32 cycleNumber, BString cycleType); void cycleAddError(BUInt32 cycleNumber, BError error); BList<BError> getCycleErrors(BUInt32 cycleNumber);
private: BMutex olock; BList<CycleInfo> olist; }; /// A Timer test class. this implements a simple timer operated function called every second, that can be used to check on system resources. class ControlTimer : public BThread { public: ControlTimer(Control& control); void* function(); private: Control& ocontrol; }; /// The main system control class class Control { public: Control(int dbFixed); ~Control(); // Main functionality BError init(); ///< Initialise the system void run(); ///< Start the system running // Commands BError initCmd(); BError setProcessPriority(BUInt32 priority); BError configure(ConfigInfo configInfo); ///< Configure the system for use. This includes mapping the individual physical PickUp channels to logical pickup channels. BError getConfiguration(ConfigInfo& configInfo); BError test(BList<BError>& errors); ///< Performs�a�basic�test�of�the�system�returning�a�list�of�errors.�The�call�will�return�an�error�object�indicating�success�or�an�error�condition�as�appropriate. BError getStatus(BList<NameValue>& statusList); ///< Returns�the�current�status�of�the�system.�This�information�includes�the�number�of�Pick�Up\u2019s�present�and�their�individual�status. BError getStatistics(BList<NameValue>& statsList); ///< Returns�a�list�of�the�statistic�values�as�name/value�pairs.�The�call�will�return�an�error�object�indicating�success�or�an�error�condition�as�appropriate.
BError getPuChannel(BUInt32& puChannel, PuChannel& puPhysChannel); ///< Returns the physical module/Pupe/Channel number given a logical PickUp id. This can be used so that the individual PickUps test functions can be accessed etc. BError puServerStarted(BUInt32 number); ///< A TmsPuServer has started
BError setSimulation(Simulation simulation); BError getSimulation(Simulation& simulation);
BError setTestMode(PuChannel puPhysChannel, BUInt32 testOutput, BUInt32 timingDisableMask); ///< The signal source for the digital test output connector. 0: None, 1: FrefDelayed, 2: PllFRef, 3: PllFRefHarm. The timingDisableMask bit mask defines which of the timing inputs should be disabled. If a timing input is disabled it can be still operated by software command. BError setTimingSignals(PuChannel puPhysChannel, BUInt32 timingSignals); ///< This function sets the given timing signals to the values as defined in the timingSignals bit array. BError captureDiagnostics(PuChannel puPhysChannel, TestCaptureInfo captureInfo, BArray<BUInt64>& data); ///< This function will capture test data BError setTestData(PuChannel puPhysChannel, BInt32 on, BArray<BUInt32> data); ///< This function will set a PU channel to sample data from memory rather than the ADC's
BError setPupeConfig(PuChannel puPhysChannel, PupeConfig pupeConfig); BError getPupeConfig(PuChannel puPhysChannel, PupeConfig& pupeConfig); BError setControlInfo(CycleParam params); ///< Sets the control information for the cycle number given and subsequent cycles. The parameters for the processing cycle are passed, this includes the Phase and State table information. The call will return an error object indicating success or an error
BError getControlInfo(BString cycleType, BUInt32 ring, BUInt32 puChannel, CycleParam& params); BError delControlInfo(BString cycleType, BUInt32 ring, BUInt32 puChannel);
BError getControlList(BList<CycleParamItem>& itemList);
BError setNextCycle(BUInt32 cycleNumber, BString cycleType); ///< Sets the cycle number for the next processing cycle. The call will return an error object indicating success or an error condition as appropriate. This should be called at least 100ms before the next CYCLE_START event. BError setNextCycleInternal(BUInt32 cycleNumber, BString cycleType); ///< Sets the cycle number for the next processing cycle. The call will return an error object indicating success or an error condition as appropriate. This should be called at least 100ms before the next CYCLE_START event.
BError getCycleInfo(BUInt32& cycleNumber, BString& cycleType); ///< Gets the current cycle number. BError getCycleInformation(BUInt32 cycleNumber, CycleInformation& cycleInformation);
BError getCycleTypeInformation(BString cycleType, CycleTypeInformation& cycleTypeInformation); BError getData(DataInfo dataInfo, Data& data); ///< This function returns a set of data from the data present in the data cache or directly from the Pick-Up processing engines. The DataInfo object describes the data required. The call will return the required data along with an error object indicating success or an error condition as appropriate. The call will block until data is ready. BError addEventServer(BString name); BError requestData(DataInfo dataInfo); // Events
void errorEvent(BUInt32 cycleNumber, BError error); void cycleStartEvent(BUInt32 cycleNumber); void cycleStopEvent(BUInt32 cycleNumber);
// System utilities
int ring(); ///< The ring number
void timer(); BString boapnsHost(); uint32_t diskSpace(BString dir); ///< Return disk space in Megabytes uint32_t memoryFree(); ///< Return amount of memory free in Megabytes public: // General data int osimulate; ///< Simulation mode DataAcquire odataAquire; ///< The Data Acquire object private: BError waitForData(BUInt32 cycleNumber);
BError getSimCaptureData(TestCaptureInfo captureInfo, BArray<BUInt64>& data); BError initPuServer(BUInt32 number);
BError readCycleParams(); // Control data int odebugFixed; ///< Fixed debug level from command line BMutex olock; ControlTimer ocontrolTimer; BString oboapnsHost; ///< The Boap name server host name BoapServer oboapServer; ///< The overal Boap server class TmsControlServer otmsControlServer; ///< The TmsControl API interface TmsProcessServer otmsProcessServer; ///< The TmsProcess API interface TmsEventServer otmsEventServer; ///< The TmsEvent API interface BList<PuServer*> opuServers; ///< The list of Pick Up Servers in use BRWLock opuServersLock;
BUInt oring; ///< The ring number bool omaster; ///< This is a master system
ConfigInfo oconfigInfo; ///< The configuration of PickUp channels BList<CycleParam> ocycleParms; ///< The table of cycle parameters BCondWrap ocycleNumber; ///< The Cycle number BCondWrap ocycleCompleteNumber; ///< The Last Completed Cycle number
BUInt32 ocycleNumberNext; ///< The Next Cycle number
BString ocycleType; ///< The Cycle type BString ocycleTypeNext; ///< The Cycle type for the next cycle TmsEventServerList oeventServers; ///< The list of event servers BList<DataRequest> orequestList; ///< The list of data requested CycleInfoList ocycleInfoList; ///< Information on current and past cycles Simulation osimulation; ///< Overal simualtion // Statistics double ostartTime; ///< The start time
BUInt64 ocycleProcessed; ///< The number of cycles processed BUInt64 onumNextCycleErrors; ///< The number of times the next cycle information was not recieved on time BUInt64 onumFpgaStateErrors; ///< The number of FPGA State errors that occurred BUInt64 onumDataGoneErrors; ///< The number of data gonbe errors
}; #endif