/* -*- c++ -*- */ /* * Copyright 2004,2008,2009 Free Software Foundation, Inc. * * This file is part of GNU Radio * * GNU Radio is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3, or (at your option) * any later version. * * GNU Radio is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef INCLUDED_USRP_BASE_H #define INCLUDED_USRP_BASE_H #include #include #include #include #include class usrp_basic; /*! * \brief base class for GNU Radio interface to the USRP */ class usrp_base : public gr_sync_block { private: boost::shared_ptr d_usrp_basic; protected: usrp_base(const std::string &name, gr_io_signature_sptr input_signature, gr_io_signature_sptr output_signature) : gr_sync_block(name, input_signature, output_signature) {} void set_usrp_basic(boost::shared_ptr u); public: virtual ~usrp_base(); /* ! * Return a vector of vectors of daughterboard instances associated with * the USRP source or sink. The first dimension of the returned vector * corresponds to the side of the USRP, the second dimension, the subdevice * on the particular daughterboard. * * N.B. To ensure proper lifetime management, the caller should * continue to hold these as weak pointers, not shared pointers. * As long as the caller does not attempt to directly use the weak * pointers after this usrp object has been destroyed, everything * will work out fine. */ std::vector > db(); /*! * Return a vector of size 1 or 2 that contains shared pointers * to the daughterboard instance(s) associated with the specified side. * * \param which_side [0,1] which daughterboard * * N.B. To ensure proper lifetime management, the caller should * continue to hold these as weak pointers, not shared pointers. * As long as the caller does not attempt to directly use the weak * pointers after this usrp object has been destroyed, everything * will work out fine. */ std::vector db(int which_side); /*! * Return the daughterboard instance corresponding to the selected * side of the USRP and selected daughterboard subdevice. * N.B. To ensure proper lifetime management, the caller should * continue to hold these as weak pointers, not shared pointers. * As long as the caller does not attempt to directly use the weak * pointers after this usrp object has been destroyed, everything * will work out fine. */ db_base_sptr db(int which_side, int which_dev); /*! * \brief given a usrp_subdev_spec, return the corresponding daughterboard object. * \throws std::invalid_argument if ss is invalid. * * \param ss specifies the side and subdevice */ db_base_sptr selected_subdev(usrp_subdev_spec ss); /*! * \brief return frequency of master oscillator on USRP */ long fpga_master_clock_freq() const; /*! * Tell API that the master oscillator on the USRP is operating at a non-standard * fixed frequency. This is only needed for custom USRP hardware modified to * operate at a different frequency from the default factory configuration. This * function must be called prior to any other API function. * \param master_clock USRP2 FPGA master clock frequency in Hz (10..64 MHz) */ void set_fpga_master_clock_freq (long master_clock); void set_verbose (bool on); //! magic value used on alternate register read interfaces static const int READ_FAILED = -99999; /*! * \brief Write EEPROM on motherboard or any daughterboard. * \param i2c_addr I2C bus address of EEPROM * \param eeprom_offset byte offset in EEPROM to begin writing * \param buf the data to write * \returns true iff sucessful */ bool write_eeprom (int i2c_addr, int eeprom_offset, const std::string buf); /*! * \brief Read EEPROM on motherboard or any daughterboard. * \param i2c_addr I2C bus address of EEPROM * \param eeprom_offset byte offset in EEPROM to begin reading * \param len number of bytes to read * \returns the data read if successful, else a zero length string. */ std::string read_eeprom (int i2c_addr, int eeprom_offset, int len); /*! * \brief Write to I2C peripheral * \param i2c_addr I2C bus address (7-bits) * \param buf the data to write * \returns true iff successful * Writes are limited to a maximum of of 64 bytes. */ bool write_i2c (int i2c_addr, const std::string buf); /*! * \brief Read from I2C peripheral * \param i2c_addr I2C bus address (7-bits) * \param len number of bytes to read * \returns the data read if successful, else a zero length string. * Reads are limited to a maximum of 64 bytes. */ std::string read_i2c (int i2c_addr, int len); /*! * \brief Set ADC offset correction * \param which_adc which ADC[0,3]: 0 = RX_A I, 1 = RX_A Q... * \param offset 16-bit value to subtract from raw ADC input. */ bool set_adc_offset (int which_adc, int offset); /*! * \brief Set DAC offset correction * \param which_dac which DAC[0,3]: 0 = TX_A I, 1 = TX_A Q... * \param offset 10-bit offset value (ambiguous format: See AD9862 datasheet). * \param offset_pin 1-bit value. If 0 offset applied to -ve differential pin; * If 1 offset applied to +ve differential pin. */ bool set_dac_offset (int which_dac, int offset, int offset_pin); /*! * \brief Control ADC input buffer * \param which_adc which ADC[0,3] * \param bypass if non-zero, bypass input buffer and connect input * directly to switched cap SHA input of RxPGA. */ bool set_adc_buffer_bypass (int which_adc, bool bypass); /*! * \brief Enable/disable automatic DC offset removal control loop in FPGA * * \param bits which control loops to enable * \param mask which \p bits to pay attention to * * If the corresponding bit is set, enable the automatic DC * offset correction control loop. * *
   * The 4 low bits are significant:
   *
   *   ADC0 = (1 << 0)
   *   ADC1 = (1 << 1)
   *   ADC2 = (1 << 2)
   *   ADC3 = (1 << 3)
   * 
* * By default the control loop is enabled on all ADC's. */ bool set_dc_offset_cl_enable(int bits, int mask); /*! * \brief return the usrp's serial number. * * \returns non-zero length string iff successful. */ std::string serial_number(); /*! * \brief Return daughterboard ID for given side [0,1]. * * \param which_side [0,1] which daughterboard * * \return daughterboard id >= 0 if successful * \return -1 if no daugherboard * \return -2 if invalid EEPROM on daughterboard */ virtual int daughterboard_id (int which_side) const; /*! * \brief Clock ticks to delay rising of T/R signal * \sa write_atr_mask, write_atr_txval, write_atr_rxval */ bool write_atr_tx_delay(int value); /*! * \brief Clock ticks to delay falling edge of T/R signal * \sa write_atr_mask, write_atr_txval, write_atr_rxval */ bool write_atr_rx_delay(int value); /*! * \brief Set Programmable Gain Amplifier (PGA) * * \param which_amp which amp [0,3] * \param gain_in_db gain value (linear in dB) * * gain is rounded to closest setting supported by hardware. * * \returns true iff sucessful. * * \sa pga_min(), pga_max(), pga_db_per_step() */ bool set_pga (int which_amp, double gain_in_db); /*! * \brief Return programmable gain amplifier gain setting in dB. * * \param which_amp which amp [0,3] */ double pga (int which_amp) const; /*! * \brief Return minimum legal PGA gain in dB. */ double pga_min () const; /*! * \brief Return maximum legal PGA gain in dB. */ double pga_max () const; /*! * \brief Return hardware step size of PGA (linear in dB). */ double pga_db_per_step () const; /*! * \brief Write direction register (output enables) for pins that go to daughterboard. * * \param which_side [0,1] which size * \param value value to write into register * \param mask which bits of value to write into reg * * Each d'board has 16-bits of general purpose i/o. * Setting the bit makes it an output from the FPGA to the d'board. * * This register is initialized based on a value stored in the * d'board EEPROM. In general, you shouldn't be using this routine * without a very good reason. Using this method incorrectly will * kill your USRP motherboard and/or daughterboard. */ bool _write_oe (int which_side, int value, int mask); /*! * \brief Write daughterboard i/o pin value * * \param which_side [0,1] which d'board * \param value value to write into register * \param mask which bits of value to write into reg */ bool write_io (int which_side, int value, int mask); /*! * \brief Read daughterboard i/o pin value * * \param which_side [0,1] which d'board * \returns register value if successful, else READ_FAILED */ int read_io (int which_side); /*! * \brief Write daughterboard refclk config register * * \param which_side [0,1] which d'board * \param value value to write into register, see below * *
   * Control whether a reference clock is sent to the daughterboards,
   * and what frequency.  The refclk is sent on d'board i/o pin 0.
   * 
   *     3                   2                   1                       
   *   1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
   *  +-----------------------------------------------+-+------------+
   *  |             Reserved (Must be zero)           |E|   DIVISOR  |
   *  +-----------------------------------------------+-+------------+
   * 
   *  Bit 7  -- 1 turns on refclk, 0 allows IO use
   *  Bits 6:0 Divider value
   * 
*/ bool write_refclk(int which_side, int value); bool write_atr_mask(int which_side, int value); bool write_atr_txval(int which_side, int value); bool write_atr_rxval(int which_side, int value); /*! * \brief Write auxiliary digital to analog converter. * * \param which_side [0,1] which d'board * N.B., SLOT_TX_A and SLOT_RX_A share the same AUX DAC's. * SLOT_TX_B and SLOT_RX_B share the same AUX DAC's. * \param which_dac [2,3] TX slots must use only 2 and 3. * \param value [0,4095] * \returns true iff successful */ bool write_aux_dac (int which_side, int which_dac, int value); /*! * \brief Read auxiliary analog to digital converter. * * \param which_side [0,1] which d'board * \param which_adc [0,1] * \returns value in the range [0,4095] if successful, else READ_FAILED. */ int read_aux_adc (int which_side, int which_adc); /*! * \brief returns A/D or D/A converter rate in Hz */ long converter_rate() const; // ---------------------------------------------------------------- // Low level implementation routines. // You probably shouldn't be using these... // bool _set_led (int which_led, bool on); /*! * \brief Write FPGA register. * \param regno 7-bit register number * \param value 32-bit value * \returns true iff successful */ bool _write_fpga_reg (int regno, int value); //< 7-bit regno, 32-bit value /*! * \brief Read FPGA register. * \param regno 7-bit register number * \param value 32-bit value * \returns true iff successful */ bool _read_fpga_reg (int regno, int *value); //< 7-bit regno, 32-bit value /*! * \brief Read FPGA register. * \param regno 7-bit register number * \returns register value if successful, else READ_FAILED */ int _read_fpga_reg (int regno); /*! * \brief Write FPGA register with mask. * \param regno 7-bit register number * \param value 16-bit value * \param mask 16-bit value * \returns true if successful * Only use this for registers who actually implement a mask in the verilog firmware, like FR_RX_MASTER_SLAVE */ bool _write_fpga_reg_masked (int regno, int value, int mask); /*! * \brief Write AD9862 register. * \param which_codec 0 or 1 * \param regno 6-bit register number * \param value 8-bit value * \returns true iff successful */ bool _write_9862 (int which_codec, int regno, unsigned char value); /*! * \brief Read AD9862 register. * \param which_codec 0 or 1 * \param regno 6-bit register number * \returns register value if successful, else READ_FAILED */ int _read_9862 (int which_codec, int regno) const; /*! * \brief Write data to SPI bus peripheral. * * \param optional_header 0,1 or 2 bytes to write before buf. * \param enables bitmask of peripherals to write. See usrp_spi_defs.h * \param format transaction format. See usrp_spi_defs.h SPI_FMT_* * \param buf the data to write * \returns true iff successful * Writes are limited to a maximum of 64 bytes. * * If \p format specifies that optional_header bytes are present, they are * written to the peripheral immediately prior to writing \p buf. */ bool _write_spi (int optional_header, int enables, int format, std::string buf); /* * \brief Read data from SPI bus peripheral. * * \param optional_header 0,1 or 2 bytes to write before buf. * \param enables bitmask of peripheral to read. See usrp_spi_defs.h * \param format transaction format. See usrp_spi_defs.h SPI_FMT_* * \param len number of bytes to read. Must be in [0,64]. * \returns the data read if sucessful, else a zero length string. * * Reads are limited to a maximum of 64 bytes. * * If \p format specifies that optional_header bytes are present, they * are written to the peripheral first. Then \p len bytes are read from * the peripheral and returned. */ std::string _read_spi (int optional_header, int enables, int format, int len); /*! * Return an existing daughterboard from list of candidate dbids, or the first found * on side A or side B. * * \param candidates Vector of candidate dbids * * Throws std::runtime_error if not found */ usrp_subdev_spec pick_subdev(std::vector candidates=std::vector(0)); }; #endif /* INCLUDED_USRP_BASE_H */