/* -*- c++ -*- */ /* * Copyright 2008,2009 Free Software Foundation, Inc. * * This program 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 of the License, or * (at your option) any later version. * * This program 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, see . */ #ifndef INCLUDED_USRP2_IMPL_H #define INCLUDED_USRP2_IMPL_H #include #include #include #include #include "control.h" #include "ring.h" #include #define MAX_SUBPKT_LEN 252 namespace usrp2 { class eth_buffer; class pktfilter; class usrp2_thread; class usrp2_tune_result; class pending_reply; class ring; //! High-level d'board info struct db_info { int dbid; double freq_min; // Hz double freq_max; // Hz double gain_min; // dB double gain_max; // dB double gain_step_size; // dB db_info() : dbid(-1), freq_min(0), freq_max(0), gain_min(0), gain_max(0), gain_step_size(0) {} }; class usrp2::impl : private data_handler { static const size_t NRIDS = 256; static const size_t NCHANS = 32; eth_buffer *d_eth_buf; std::string d_interface_name; pktfilter *d_pf; std::string d_addr; // FIXME: use u2_mac_addr_t instead usrp2_thread *d_bg_thread; volatile bool d_bg_running; // TODO: multistate if needed int d_rx_seqno; int d_tx_seqno; int d_next_rid; unsigned int d_num_rx_frames; unsigned int d_num_rx_missing; unsigned int d_num_rx_overruns; unsigned int d_num_rx_bytes; unsigned int d_num_enqueued; omni_mutex d_enqueued_mutex; omni_condition d_bg_pending_cond; // all pending_replies are stack allocated, thus no possibility of leaking these pending_reply *d_pending_replies[NRIDS]; // indexed by 8-bit reply id std::vector d_channel_rings; // indexed by 5-bit channel number omni_mutex d_channel_rings_mutex; db_info d_tx_db_info; db_info d_rx_db_info; int d_tx_interp; // shadow tx interp int d_rx_decim; // shadow rx decim bool d_dont_enqueue; void inc_enqueued() { omni_mutex_lock l(d_enqueued_mutex); d_num_enqueued++; } void dec_enqueued() { omni_mutex_lock l(d_enqueued_mutex); if (--d_num_enqueued == 0) d_bg_pending_cond.signal(); } static bool parse_mac_addr(const std::string &s, u2_mac_addr_t *p); void init_et_hdrs(u2_eth_packet_t *p, const std::string &dst); void init_etf_hdrs(u2_eth_packet_t *p, const std::string &dst, int word0_flags, int chan, uint32_t timestamp); void stop_bg(); void init_config_rx_v2_cmd(op_config_rx_v2_cmd *cmd); void init_config_tx_v2_cmd(op_config_tx_v2_cmd *cmd); bool transmit_cmd_and_wait(void *cmd, size_t len, pending_reply *p, double secs=0.0); bool transmit_cmd(void *cmd, size_t len); virtual data_handler::result operator()(const void *base, size_t len); data_handler::result handle_control_packet(const void *base, size_t len); data_handler::result handle_data_packet(const void *base, size_t len); bool dboard_info(); bool reset_db(); public: impl(const std::string &ifc, props *p, size_t rx_bufsize); ~impl(); void bg_loop(); std::string mac_addr() const { return d_addr; } // FIXME: convert from u2_mac_addr_t std::string interface_name() const { return d_interface_name; } // Rx bool set_rx_gain(double gain); double rx_gain_min() { return d_rx_db_info.gain_min; } double rx_gain_max() { return d_rx_db_info.gain_max; } double rx_gain_db_per_step() { return d_rx_db_info.gain_step_size; } bool set_rx_lo_offset(double frequency); bool set_rx_center_freq(double frequency, tune_result *result); double rx_freq_min() { return d_rx_db_info.freq_min; } double rx_freq_max() { return d_rx_db_info.freq_max; } bool set_rx_decim(int decimation_factor); int rx_decim() { return d_rx_decim; } bool set_rx_scale_iq(int scale_i, int scale_q); bool set_gpio_ddr(int bank, uint16_t value, uint16_t mask); bool set_gpio_sels(int bank, std::string src); bool enable_gpio_streaming(int bank, int enable); bool write_gpio(int bank, uint16_t value, uint16_t mask); bool read_gpio(int bank, uint16_t *value); bool start_rx_streaming(unsigned int channel, unsigned int items_per_frame); bool rx_samples(unsigned int channel, rx_sample_handler *handler); bool flush_rx_samples(unsigned int channel); bool stop_rx_streaming(unsigned int channel); unsigned int rx_overruns() const { return d_num_rx_overruns; } unsigned int rx_missing() const { return d_num_rx_missing; } // Tx bool set_tx_gain(double gain); double tx_gain_min() { return d_tx_db_info.gain_min; } double tx_gain_max() { return d_tx_db_info.gain_max; } double tx_gain_db_per_step() { return d_tx_db_info.gain_step_size; } bool set_tx_lo_offset(double frequency); bool set_tx_center_freq(double frequency, tune_result *result); double tx_freq_min() { return d_tx_db_info.freq_min; } double tx_freq_max() { return d_tx_db_info.freq_max; } bool set_tx_interp(int interpolation_factor); int tx_interp() { return d_tx_interp; } void default_tx_scale_iq(int interpolation_factor, int *scale_i, int *scale_q); bool set_tx_scale_iq(int scale_i, int scale_q); bool tx_32fc(unsigned int channel, const std::complex *samples, size_t nsamples, const tx_metadata *metadata); bool tx_16sc(unsigned int channel, const std::complex *samples, size_t nsamples, const tx_metadata *metadata); bool tx_raw(unsigned int channel, const uint32_t *items, size_t nitems, const tx_metadata *metadata); // misc bool config_mimo(int flags); bool fpga_master_clock_freq(long *freq); bool adc_rate(long *rate); bool dac_rate(long *rate); bool tx_daughterboard_id(int *dbid); bool rx_daughterboard_id(int *dbid); // low level bool burn_mac_addr(const std::string &new_addr); bool sync_to_pps(); bool sync_every_pps(bool enable); std::vector peek32(uint32_t addr, uint32_t words); bool poke32(uint32_t addr, const std::vector &data); }; } // namespace usrp2 #endif /* INCLUDED_USRP2_IMPL_H */