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amiro-os / include / amiro / radio / a2500r24a.hpp @ 8dced1c9

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1 58fe0e0b Thomas Schöpping
#ifndef A2500R24A_HPP_
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#define A2500R24A_HPP_
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#include <ch.hpp>
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namespace amiro {
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class HWSPIDriver;
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class A2500R24A : public chibios_rt::BaseStaticThread<256> {
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 public:
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  struct A2500R24AConfig {
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  };
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  /**
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   * Return types of getCheck()
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   */
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  enum {
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    CHECK_OK = 0x00u,
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    CHECK_FAIL = 0x01u,
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  };
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  //private:
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  struct registers {
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    uint8_t IOCFG2;
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    uint8_t IOCFG1;
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    uint8_t IOCFG0;
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    uint8_t FIFOTHR;
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    uint8_t SYNC1;
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    uint8_t SYNC0;
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    uint8_t PKTLEN;
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    uint8_t PKTCTRL1;
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    uint8_t PKTCTRL0;
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    uint8_t ADDR;
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    uint8_t CHANNR;
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    uint8_t FSCTRL1;
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    uint8_t FSCTRL0;
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    uint8_t FREQ2;
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    uint8_t FREQ1;
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    uint8_t FREQ0;
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    uint8_t MDMCFG4;
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    uint8_t MDMCFG3;
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    uint8_t MDMCFG2;
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    uint8_t MDMCFG1;
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    uint8_t MDMCFG0;
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    uint8_t DEVIATN;
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    uint8_t MCSM2;
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    uint8_t MCSM1;
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    uint8_t MCSM0;
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    uint8_t FOCCFG;
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    uint8_t BSCFG;
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    uint8_t AGCCTRL2;
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    uint8_t AGCCTRL1;
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    uint8_t AGCCTRL0;
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    uint8_t WOREVT1;
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    uint8_t WOREVT0;
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    uint8_t WORCTRL;
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    uint8_t FREND1;
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    uint8_t FREND0;
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    uint8_t FSCAL3;
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    uint8_t FSCAL2;
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    uint8_t FSCAL1;
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    uint8_t FSCAL0;
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    uint8_t RCCTRL1;
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    uint8_t RCCTRL0;
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    uint8_t FSTEST;
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    uint8_t PTEST;
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    uint8_t AGCTEST;
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    uint8_t TEST2;
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    uint8_t TEST1;
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    uint8_t TEST0;
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    uint8_t reserved_0x2F;
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  }__attribute__((packed));
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  struct registerStrobe {
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    uint8_t configurationRegister[offsetof(A2500R24A::registers, reserved_0x2F)+1];
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    uint8_t SRES;
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    uint8_t SFSTXON;
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    uint8_t SXOFF;
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    uint8_t SCAL;
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    uint8_t SRX;
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    uint8_t STX;
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    uint8_t SIDLE;
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    uint8_t reserved_0x37;
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    uint8_t SWOR;
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    uint8_t SPWD;
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    uint8_t SFRX;
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    uint8_t SFTX;
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    uint8_t SWORRST;
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    uint8_t SNOP;
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    uint8_t PATABLE;
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    uint8_t RX_TX_FIFO;
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  }__attribute__((packed));
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  struct registerStatus {
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    uint8_t configurationRegister[offsetof(A2500R24A::registers, reserved_0x2F)+1];
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    uint8_t PARTNUM;
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    uint8_t VERSION;
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    uint8_t FREQEST;
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    uint8_t LQI;
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    uint8_t RSSI;
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    uint8_t MARCSTATE;
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    uint8_t WORTIME1;
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    uint8_t WORTIME0;
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    uint8_t PKTSTATUS;
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    uint8_t VCO_VC_DAC;
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    uint8_t TXBYTES;
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    uint8_t RXBYTES;
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    uint8_t RCCTRL1_STATUS;
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    uint8_t RCCTRL0_STATUS;
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  }__attribute__((packed));
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  enum {
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    A2500R24A_PARTNUM = 0x80u,
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    A2500R24A_VERSION = 0x03u,
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  };
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  enum {
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    // For register access below address 0x30 the burst mode is available
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    // to read multiple bytes
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    SPI_BURST_ENA     = 0x40u,
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    SPI_BURST_DIS     = 0x00u,
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    // For addresses above (and including) 0x30 either the status or strobe access
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    // has to be choosen, instead of burst mode
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    SPI_STATUS_ACCESS = 0x40u,
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    SPI_STROBE_ACCESS = 0x00u,
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    // Read or write the register address
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    SPI_READ      = 0x80u,
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    SPI_WRITE     = 0x00u,
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  };
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 public:
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  A2500R24A(HWSPIDriver* driver);
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  virtual ~A2500R24A();
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  chibios_rt::EvtSource* getEventSource();
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  msg_t configure(A2500R24AConfig* config);
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  /**
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   * Check the presence of the radio chip by reading
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   * the identifier register and comparing it to the standard
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   * value
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   */
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  uint8_t getCheck();
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 protected:
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  virtual msg_t main();
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 private:
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  inline void updateSensorData();
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 private:
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  HWSPIDriver* driver;
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  chibios_rt::EvtSource eventSource;
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};
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} /* amiro */
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#endif /* A2500R24A_HPP_ */