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#ifndef _XTRX_DEVICE_H_
#define _XTRX_DEVICE_H_

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include "radioDevice.h"

#include <stdint.h>
#include <sys/time.h>
#include <string>
#include <iostream>

#include "Threads.h"
#include <xtrx_api.h>

class XTRXDevice: public RadioDevice {
private:
  int txsps;
  int rxsps;
  double actualTXSampleRate;	///< the actual XTRX sampling rate
  double actualRXSampleRate;	///< the actual XTRX sampling rate
  //unsigned int decimRate;	///< the XTRX decimation rate
  //unsigned int interRate;	///< the XTRX decimation rate

  unsigned long long samplesRead;	///< number of samples read from XTRX
  unsigned long long samplesWritten;	///< number of samples sent to XTRX

  bool started;			///< flag indicates XTRX has started

  short *data;
  unsigned long dataStart;
  unsigned long dataEnd;
  TIMESTAMP timeStart;
  TIMESTAMP timeEnd;

  TIMESTAMP timeRx;
  bool isAligned;

  Mutex writeLock;

  short *currData;		///< internal data buffer when reading from XTRX
  TIMESTAMP currTimestamp;	///< timestamp of internal data buffer
  unsigned currLen;		///< size of internal data buffer

  TIMESTAMP timestampOffset;       ///< timestamp offset b/w Tx and Rx blocks
  TIMESTAMP latestWriteTimestamp;  ///< timestamp of most recent ping command
  TIMESTAMP pingTimestamp;	   ///< timestamp of most recent ping response

  unsigned long hi32Timestamp;
  unsigned long lastPktTimestamp;

  double rxGain;
  bool loopback;

#ifdef SWLOOPBACK 
  short loopbackBuffer[1000000];
  int loopbackBufferSize;
  double samplePeriod; 

  struct timeval startTime;
  struct timeval lastReadTime;
  bool   firstRead;
#endif

  xtrx_dev* device;
 public:

  /** Object constructor */
  XTRXDevice(size_t txsps, size_t rxsps);

  ~XTRXDevice();

  /** Instantiate the XTRX */
  int open(const std::string &args, int ref, bool swap_channels);

  /** Start the XTRX */
  bool start();

  /** Stop the XTRX */
  bool stop();

  /** Set priority not supported */
  void setPriority(float prio = 0.5) { }

  enum TxWindowType getWindowType() { return TX_WINDOW_FIXED; }

  /**
	Read samples from the XTRX.
	@param buf preallocated buf to contain read result
	@param len number of samples desired
	@param overrun Set if read buffer has been overrun, e.g. data not being read fast enough
	@param timestamp The timestamp of the first samples to be read
	@param underrun Set if XTRX does not have data to transmit, e.g. data not being sent fast enough
	@param RSSI The received signal strength of the read result
	@return The number of samples actually read
  */
  int readSamples(std::vector<short *> &buf, int len, bool *overrun,
                  TIMESTAMP timestamp = 0xffffffff, bool *underrun = NULL,
                  unsigned *RSSI = NULL);
  /**
        Write samples to the XTRX.
        @param buf Contains the data to be written.
        @param len number of samples to write.
        @param underrun Set if XTRX does not have data to transmit, e.g. data not being sent fast enough
        @param timestamp The timestamp of the first sample of the data buffer.
        @param isControl Set if data is a control packet, e.g. a ping command
        @return The number of samples actually written
  */
  int writeSamples(std::vector<short *> &bufs, int len, bool *underrun,
                   TIMESTAMP timestamp = 0xffffffff, bool isControl = false);

  /** Update the alignment between the read and write timestamps */
  bool updateAlignment(TIMESTAMP timestamp);

  /** Set the transmitter frequency */
  bool setTxFreq(double wFreq, size_t chan = 0);

  /** Set the receiver frequency */
  bool setRxFreq(double wFreq, size_t chan = 0);

  /** Returns the starting write Timestamp*/
  TIMESTAMP initialWriteTimestamp(void);

  /** Returns the starting read Timestamp*/
  TIMESTAMP initialReadTimestamp(void) { return 20000;}

  /** returns the full-scale transmit amplitude **/
  double fullScaleInputValue() {return (double) 32767*0.7;}

  /** returns the full-scale receive amplitude **/
  double fullScaleOutputValue() {return (double) 32767;}

  /** sets the receive chan gain, returns the gain setting **/
  double setRxGain(double dB, size_t chan = 0);

  /** get the current receive gain */
  double getRxGain(size_t chan = 0) { return rxGain; }

  /** return maximum Rx Gain **/
  double maxRxGain(void);

  /** return minimum Rx Gain **/
  double minRxGain(void);

  /** sets the transmit chan gain, returns the gain setting **/
  double setTxGain(double dB, size_t chan = 0);

  /** return maximum Tx Gain **/
  double maxTxGain(void);

  /** return minimum Rx Gain **/
  double minTxGain(void);

  /** Return internal status values */
  inline double getTxFreq(size_t chan = 0) { return 0; }
  inline double getRxFreq(size_t chan = 0) { return 0; }
  inline double getSampleRate() { return actualTXSampleRate; }
  inline double numberRead() { return samplesRead; }
  inline double numberWritten() { return samplesWritten; }

};

#endif // _XTRX_DEVICE_H_