/* -*- c++ -*- */ /* * Copyright 2004,2006,2008 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_SINK_BASE_H #define INCLUDED_USRP_SINK_BASE_H #include #include #include #include class usrp_standard_tx; /*! * \brief abstract interface to Universal Software Radio Peripheral Tx path (Rev 1) */ class usrp_sink_base : public usrp_base { private: boost::shared_ptr d_usrp; int d_nunderruns; protected: usrp_sink_base (const std::string &name, gr_io_signature_sptr input_signature, int which_board, unsigned int interp_rate, int nchan, int mux, int fusb_block_size, int fusb_nblocks, const std::string fpga_filename, const std::string firmware_filename ) throw (std::runtime_error); /*! * \brief convert between input item format and usrp native format * * \param input_items[in] stream(s) of input items * \param input_index[in] starting index in input_items * \param input_items_available[in] number of items available starting at item[index] * \param input_items_consumed[out] number of input items consumed by copy * \param usrp_buffer[out] destination buffer * \param usrp_buffer_length[in] \p usrp_buffer length in bytes * \param bytes_written[out] number of bytes written into \p usrp_buffer */ virtual void copy_to_usrp_buffer (gr_vector_const_void_star &input_items, int input_index, int input_items_available, int &input_items_consumed, void *usrp_buffer, int usrp_buffer_length, int &bytes_written) = 0; public: ~usrp_sink_base (); int work (int noutput_items, gr_vector_const_void_star &input_items, gr_vector_void_star &output_items); /*! * \brief Set interpolator rate. \p rate must be in [4, 1024] and a multiple of 4. * * The final complex sample rate across the USB is * dac_freq () / interp_rate () * nchannels () */ bool set_interp_rate (unsigned int rate); bool set_nchannels (int nchan); bool set_mux (int mux); int determine_tx_mux_value(usrp_subdev_spec ss); int determine_tx_mux_value(usrp_subdev_spec ss_a, usrp_subdev_spec ss_b); /*! * \brief set the frequency of the digital up converter. * * \p channel must be 0. \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. */ bool set_tx_freq (int channel, double freq); long dac_rate() const { return converter_rate(); } // alias long dac_freq() const { return converter_rate(); } // deprecated alias unsigned int interp_rate () const; int nchannels () const; int mux () const; double tx_freq (int channel) const; int nunderruns () const { return d_nunderruns; } bool has_rx_halfband(); bool has_tx_halfband(); int nddcs(); int nducs(); /*! * \brief Called to enable drivers, etc for i/o devices. * * This allows a block to enable an associated driver to begin * transfering data just before we start to execute the scheduler. * The end result is that this reduces latency in the pipeline when * dealing with audio devices, usrps, etc. */ bool start(); /*! * \brief Called to disable drivers, etc for i/o devices. */ bool stop(); /*! * \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] tune_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); /*! * \brief Select suitable Tx daughterboard */ usrp_subdev_spec pick_tx_subdevice(); }; #endif /* INCLUDED_USRP_SINK_BASE_H */