--- /dev/null
+/* -*- 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 GNU Radio; see the file COPYING. If not, write to
+ * the Free Software Foundation, Inc., 51 Franklin Street,
+ * Boston, MA 02110-1301, USA.
+ */
+
+#ifndef INCLUDED_USRP_STANDARD_H
+#define INCLUDED_USRP_STANDARD_H
+
+#include <usrp/usrp_basic.h>
+#include <boost/shared_ptr.hpp>
+#include <usrp/usrp_tune_result.h>
+
+class usrp_standard_tx;
+class usrp_standard_rx;
+
+typedef boost::shared_ptr<usrp_standard_tx> usrp_standard_tx_sptr;
+typedef boost::shared_ptr<usrp_standard_rx> usrp_standard_rx_sptr;
+
+/*!
+ * \ingroup usrp
+ */
+class usrp_standard_common
+{
+ int d_fpga_caps; // capability register val
+
+protected:
+ usrp_standard_common(usrp_basic *parent);
+
+public:
+ /*!
+ *\brief does the FPGA implement the final Rx half-band filter?
+ * If it doesn't, the maximum decimation factor with proper gain
+ * is 1/2 of what it would otherwise be.
+ */
+ bool has_rx_halfband() const;
+
+ /*!
+ * \brief number of digital downconverters implemented in the FPGA
+ * This will be 0, 1, 2 or 4.
+ */
+ int nddcs() const;
+
+ /*!
+ *\brief does the FPGA implement the initial Tx half-band filter?
+ */
+ bool has_tx_halfband() const;
+
+ /*!
+ * \brief number of digital upconverters implemented in the FPGA
+ * This will be 0, 1, or 2.
+ */
+ int nducs() const;
+
+ /*!
+ * \brief Calculate the frequency to use for setting the digital up or down converter.
+ *
+ * \param target_freq is the desired RF frequency (Hz).
+ * \param baseband_freq is the RF frequency that corresponds to DC in the IF coming from the d'board.
+ * \param fs is the sampling frequency.
+ * \param[out] dxc_freq the frequency to program into the DDC (or DUC).
+ * \param[out] inverted is true if we're operating in an inverted Nyquist zone.
+ */
+ static void calc_dxc_freq(double target_freq, double baseband_freq, double fs,
+ double *dxc_freq, bool *inverted);
+};
+
+/*!
+ * \brief The C++ interface the receive side of the USRP
+ * \ingroup usrp
+ *
+ * This is the recommended interface to USRP receive functionality
+ * for applications that use the USRP but not GNU Radio.
+ */
+class usrp_standard_rx : public usrp_basic_rx, public usrp_standard_common
+{
+ private:
+ static const int MAX_CHAN = 4;
+ unsigned int d_decim_rate;
+ int d_nchan;
+ int d_sw_mux;
+ int d_hw_mux;
+ double d_rx_freq[MAX_CHAN];
+
+ protected:
+ usrp_standard_rx (int which_board,
+ unsigned int decim_rate,
+ int nchan = 1,
+ int mux = -1,
+ int mode = 0,
+ int fusb_block_size = 0,
+ int fusb_nblocks = 0,
+ const std::string fpga_filename = "",
+ const std::string firmware_filename = ""
+ ); // throws if trouble
+
+ bool write_hw_mux_reg ();
+
+ public:
+
+ enum {
+ FPGA_MODE_NORMAL = 0x00,
+ FPGA_MODE_LOOPBACK = 0x01,
+ FPGA_MODE_COUNTING = 0x02,
+ FPGA_MODE_COUNTING_32BIT = 0x04
+ };
+
+ ~usrp_standard_rx ();
+
+ /*!
+ * \brief invokes constructor, returns shared_ptr or shared_ptr equivalent of 0 if trouble
+ *
+ * \param which_board Which USRP board on usb (not particularly useful; use 0)
+ * \param decim_rate decimation factor
+ * \param nchan number of channels
+ * \param mux Rx mux setting, \sa set_mux
+ * \param mode mode
+ * \param fusb_block_size fast usb xfer block size. Must be a multiple of 512.
+ * Use zero for a reasonable default.
+ * \param fusb_nblocks number of fast usb URBs to allocate. Use zero for a reasonable default.
+ * \param fpga_filename Name of rbf file to load
+ * \param firmware_filename Name of ihx file to load
+ */
+ static usrp_standard_rx_sptr make(int which_board,
+ unsigned int decim_rate,
+ int nchan = 1,
+ int mux = -1,
+ int mode = 0,
+ int fusb_block_size = 0,
+ int fusb_nblocks = 0,
+ const std::string fpga_filename = "",
+ const std::string firmware_filename = ""
+ );
+ /*!
+ * \brief Set decimator rate. \p rate MUST BE EVEN and in [8, 256].
+ *
+ * The final complex sample rate across the USB is
+ * adc_freq () / decim_rate () * nchannels ()
+ */
+ bool set_decim_rate (unsigned int rate);
+
+ /*!
+ * \brief Set number of active channels. \p nchannels must be 1, 2 or 4.
+ *
+ * The final complex sample rate across the USB is
+ * adc_freq () / decim_rate () * nchannels ()
+ */
+ bool set_nchannels (int nchannels);
+
+ /*!
+ * \brief Set input mux configuration.
+ *
+ * This determines which ADC (or constant zero) is connected to
+ * each DDC input. There are 4 DDCs. Each has two inputs.
+ *
+ * <pre>
+ * Mux value:
+ *
+ * 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
+ * +-------+-------+-------+-------+-------+-------+-------+-------+
+ * | Q3 | I3 | Q2 | I2 | Q1 | I1 | Q0 | I0 |
+ * +-------+-------+-------+-------+-------+-------+-------+-------+
+ *
+ * Each 4-bit I field is either 0,1,2,3
+ * Each 4-bit Q field is either 0,1,2,3 or 0xf (input is const zero)
+ * All Q's must be 0xf or none of them may be 0xf
+ * </pre>
+ */
+ bool set_mux (int mux);
+
+ /*!
+ * Determine the appropriate Rx mux value as a function of the subdevice choosen
+ * and the characteristics of the respective daughterboard.
+ */
+ int determine_rx_mux_value(const usrp_subdev_spec &ss);
+ int determine_rx_mux_value(const usrp_subdev_spec &ss_a, const usrp_subdev_spec &ss_b);
+
+ /*!
+ * \brief set the frequency of the digital down converter.
+ *
+ * \p channel must be in the range [0,3]. \p freq is the center
+ * frequency in Hz. \p freq may be either negative or postive.
+ * The frequency specified is quantized. Use rx_freq to retrieve
+ * the actual value used.
+ */
+ bool set_rx_freq (int channel, double freq);
+
+ /*!
+ * \brief set fpga mode
+ */
+ bool set_fpga_mode (int mode);
+
+ /*!
+ * \brief Set the digital down converter phase register.
+ *
+ * \param channel which ddc channel [0, 3]
+ * \param phase 32-bit integer phase value.
+ */
+ bool set_ddc_phase(int channel, int phase);
+
+ /*!
+ * \brief Specify Rx data format.
+ *
+ * \param format format specifier
+ *
+ * Rx data format control register
+ *
+ * 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) |B|Q| WIDTH | SHIFT |
+ * +-----------------------------------------+-+-+---------+-------+
+ *
+ * SHIFT specifies arithmetic right shift [0, 15]
+ * WIDTH specifies bit-width of I & Q samples across the USB [1, 16] (not all valid)
+ * Q if set deliver both I & Q, else just I
+ * B if set bypass half-band filter.
+ *
+ * Right now the acceptable values are:
+ *
+ * B Q WIDTH SHIFT
+ * 0 1 16 0
+ * 0 1 8 8
+ *
+ * More valid combos to come.
+ *
+ * Default value is 0x00000300 16-bits, 0 shift, deliver both I & Q.
+ */
+ bool set_format(unsigned int format);
+
+ static unsigned int make_format(int width=16, int shift=0,
+ bool want_q=true, bool bypass_halfband=false);
+ static int format_width(unsigned int format);
+ static int format_shift(unsigned int format);
+ static bool format_want_q(unsigned int format);
+ static bool format_bypass_halfband(unsigned int format);
+
+ /*!
+ * \brief High-level "tune" method. Works for the single channel case.
+ *
+ * This method adjusts both the daughterboard LO and the DDC so that
+ * target_freq ends up at DC in the complex baseband samples.
+ *
+ * \param chan which DDC channel we're controlling (almost always 0).
+ * \param db the daughterboard we're controlling.
+ * \param target_freq the RF frequency we want at DC in the complex baseband.
+ * \param[out] result details how the hardware was configured.
+ *
+ * \returns true iff everything was successful.
+ */
+ bool tune(int chan, db_base_sptr db, double target_freq, usrp_tune_result *result);
+
+
+ // ACCESSORS
+ unsigned int decim_rate () const;
+ double rx_freq (int channel) const;
+ int nchannels () const;
+ int mux () const;
+ unsigned int format () const;
+
+ // called in base class to derived class order
+ bool start ();
+ bool stop ();
+};
+
+// ----------------------------------------------------------------
+
+/*!
+ * \brief The C++ interface the transmit side of the USRP
+ * \ingroup usrp
+ *
+ * This is the recommended interface to USRP transmit functionality
+ * for applications that use the USRP but not GNU Radio.
+ *
+ * Uses digital upconverter (coarse & fine modulators) in AD9862...
+ */
+class usrp_standard_tx : public usrp_basic_tx, public usrp_standard_common
+{
+ public:
+ enum coarse_mod_t {
+ CM_NEG_FDAC_OVER_4, // -32 MHz
+ CM_NEG_FDAC_OVER_8, // -16 MHz
+ CM_OFF,
+ CM_POS_FDAC_OVER_8, // +16 MHz
+ CM_POS_FDAC_OVER_4 // +32 MHz
+ };
+
+ protected:
+ static const int MAX_CHAN = 2;
+ unsigned int d_interp_rate;
+ int d_nchan;
+ int d_sw_mux;
+ int d_hw_mux;
+ double d_tx_freq[MAX_CHAN];
+ coarse_mod_t d_coarse_mod[MAX_CHAN];
+ unsigned char d_tx_modulator_shadow[MAX_CHAN];
+
+ virtual bool set_coarse_modulator (int channel, coarse_mod_t cm);
+ usrp_standard_tx::coarse_mod_t coarse_modulator (int channel) const;
+
+ protected:
+ usrp_standard_tx (int which_board,
+ unsigned int interp_rate,
+ int nchan = 1,
+ int mux = -1,
+ int fusb_block_size = 0,
+ int fusb_nblocks = 0,
+ const std::string fpga_filename = "",
+ const std::string firmware_filename = ""
+ ); // throws if trouble
+
+ bool write_hw_mux_reg ();
+
+ public:
+ ~usrp_standard_tx ();
+
+ /*!
+ * \brief invokes constructor, returns shared_ptr or shared_ptr equivalent of 0 if trouble
+ *
+ * \param which_board Which USRP board on usb (not particularly useful; use 0)
+ * \param interp_rate interpolation factor
+ * \param nchan number of channels
+ * \param mux Tx mux setting, \sa set_mux
+ * \param fusb_block_size fast usb xfer block size. Must be a multiple of 512.
+ * Use zero for a reasonable default.
+ * \param fusb_nblocks number of fast usb URBs to allocate. Use zero for a reasonable default.
+ * \param fpga_filename Name of rbf file to load
+ * \param firmware_filename Name of ihx file to load
+ */
+ static usrp_standard_tx_sptr make(int which_board,
+ unsigned int interp_rate,
+ int nchan = 1,
+ int mux = -1,
+ int fusb_block_size = 0,
+ int fusb_nblocks = 0,
+ const std::string fpga_filename = "",
+ const std::string firmware_filename = ""
+ );
+
+ /*!
+ * \brief Set interpolator rate. \p rate must be in [4, 512] and a multiple of 4.
+ *
+ * The final complex sample rate across the USB is
+ * dac_freq () / interp_rate () * nchannels ()
+ */
+ virtual bool set_interp_rate (unsigned int rate);
+
+ /*!
+ * \brief Set number of active channels. \p nchannels must be 1 or 2.
+ *
+ * The final complex sample rate across the USB is
+ * dac_freq () / decim_rate () * nchannels ()
+ */
+ bool set_nchannels (int nchannels);
+
+ /*!
+ * \brief Set output mux configuration.
+ *
+ * <pre>
+ * 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
+ * +-------------------------------+-------+-------+-------+-------+
+ * | | DAC3 | DAC2 | DAC1 | DAC0 |
+ * +-------------------------------+-------+-------+-------+-------+
+ *
+ * There are two interpolators with complex inputs and outputs.
+ * There are four DACs.
+ *
+ * Each 4-bit DACx field specifies the source for the DAC and
+ * whether or not that DAC is enabled. Each subfield is coded
+ * like this:
+ *
+ * 3 2 1 0
+ * +-+-----+
+ * |E| N |
+ * +-+-----+
+ *
+ * Where E is set if the DAC is enabled, and N specifies which
+ * interpolator output is connected to this DAC.
+ *
+ * N which interp output
+ * --- -------------------
+ * 0 chan 0 I
+ * 1 chan 0 Q
+ * 2 chan 1 I
+ * 3 chan 1 Q
+ * </pre>
+ */
+ bool set_mux (int mux);
+
+ /*!
+ * Determine the appropriate Tx mux value as a function of the subdevice choosen
+ * and the characteristics of the respective daughterboard.
+ */
+ int determine_tx_mux_value(const usrp_subdev_spec &ss);
+ int determine_tx_mux_value(const usrp_subdev_spec &ss_a, const usrp_subdev_spec &ss_b);
+
+ /*!
+ * \brief set the frequency of the digital up converter.
+ *
+ * \p channel must be in the range [0,1]. \p freq is the center
+ * frequency in Hz. It must be in the range [-44M, 44M].
+ * The frequency specified is quantized. Use tx_freq to retrieve
+ * the actual value used.
+ */
+ virtual bool set_tx_freq (int channel, double freq); // chan: [0,1]
+
+ // ACCESSORS
+ unsigned int interp_rate () const;
+ double tx_freq (int channel) const;
+ int nchannels () const;
+ int mux () const;
+
+ /*!
+ * \brief High-level "tune" method. Works for the single channel case.
+ *
+ * This method adjusts both the daughterboard LO and the DUC so that
+ * DC in the complex baseband samples ends up at RF target_freq.
+ *
+ * \param chan which DUC channel we're controlling (usually == which_side).
+ * \param db the daughterboard we're controlling.
+ * \param target_freq the RF frequency we want our baseband translated to.
+ * \param[out] result details how the hardware was configured.
+ *
+ * \returns true iff everything was successful.
+ */
+ bool tune(int chan, db_base_sptr db, double target_freq, usrp_tune_result *result);
+
+
+ // called in base class to derived class order
+ bool start ();
+ bool stop ();
+};
+
+#endif /* INCLUDED_USRP_STANDARD_H */