/* * Copyright 2015 Ettus Research LLC * * 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 . */ /* C-Interface for multi_usrp */ #include #include #include #include #include #include #include #include /**************************************************************************** * Helpers ***************************************************************************/ uhd::stream_args_t stream_args_c_to_cpp(const uhd_stream_args_t *stream_args_c) { std::string otw_format(stream_args_c->otw_format); std::string cpu_format(stream_args_c->cpu_format); std::string args(stream_args_c->args); std::vector channels(stream_args_c->channel_list, stream_args_c->channel_list + stream_args_c->n_channels); uhd::stream_args_t stream_args_cpp(cpu_format, otw_format); stream_args_cpp.args = args; stream_args_cpp.channels = channels; return stream_args_cpp; } uhd::stream_cmd_t stream_cmd_c_to_cpp(const uhd_stream_cmd_t *stream_cmd_c) { uhd::stream_cmd_t stream_cmd_cpp(uhd::stream_cmd_t::stream_mode_t(stream_cmd_c->stream_mode)); stream_cmd_cpp.num_samps = stream_cmd_c->num_samps; stream_cmd_cpp.stream_now = stream_cmd_c->stream_now; stream_cmd_cpp.time_spec = uhd::time_spec_t(stream_cmd_c->time_spec_full_secs, stream_cmd_c->time_spec_frac_secs); return stream_cmd_cpp; } /**************************************************************************** * Registry / Pointer Management ***************************************************************************/ /* Public structs */ struct uhd_usrp { size_t usrp_index; std::string last_error; }; struct uhd_tx_streamer { size_t usrp_index; size_t streamer_index; std::string last_error; }; struct uhd_rx_streamer { size_t usrp_index; size_t streamer_index; std::string last_error; }; /* Not public: We use this for our internal registry */ struct usrp_ptr { uhd::usrp::multi_usrp::sptr ptr; std::vector< uhd::rx_streamer::sptr > rx_streamers; std::vector< uhd::tx_streamer::sptr > tx_streamers; static size_t usrp_counter; }; size_t usrp_ptr::usrp_counter = 0; typedef struct usrp_ptr usrp_ptr; /* Prefer map, because the list can be discontiguous */ typedef std::map usrp_ptrs; UHD_SINGLETON_FCN(usrp_ptrs, get_usrp_ptrs); /* Shortcut for accessing the underlying USRP sptr from a uhd_usrp_handle* */ #define USRP(h_ptr) (get_usrp_ptrs()[h_ptr->usrp_index].ptr) #define RX_STREAMER(h_ptr) (get_usrp_ptrs()[h_ptr->usrp_index].rx_streamers[h_ptr->streamer_index]) #define TX_STREAMER(h_ptr) (get_usrp_ptrs()[h_ptr->usrp_index].tx_streamers[h_ptr->streamer_index]) /**************************************************************************** * RX Streamer ***************************************************************************/ static boost::mutex _rx_streamer_make_mutex; uhd_error uhd_rx_streamer_make(uhd_rx_streamer_handle* h){ UHD_SAFE_C( boost::mutex::scoped_lock(_rx_streamer_make_mutex); (*h) = new uhd_rx_streamer; ) } static boost::mutex _rx_streamer_free_mutex; uhd_error uhd_rx_streamer_free(uhd_rx_streamer_handle* h){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_rx_streamer_free_mutex); delete (*h); (*h) = NULL; ) } uhd_error uhd_rx_streamer_num_channels(uhd_rx_streamer_handle h, size_t *num_channels_out){ UHD_SAFE_C_SAVE_ERROR(h, *num_channels_out = RX_STREAMER(h)->get_num_channels(); ) } uhd_error uhd_rx_streamer_max_num_samps(uhd_rx_streamer_handle h, size_t *max_num_samps_out){ UHD_SAFE_C_SAVE_ERROR(h, *max_num_samps_out = RX_STREAMER(h)->get_max_num_samps(); ) } uhd_error uhd_rx_streamer_recv( uhd_rx_streamer_handle h, void **buffs, size_t samps_per_buff, uhd_rx_metadata_handle *md, double timeout, bool one_packet, size_t *items_recvd ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::rx_streamer::buffs_type buffs_cpp(buffs, RX_STREAMER(h)->get_num_channels()); *items_recvd = RX_STREAMER(h)->recv(buffs_cpp, samps_per_buff, (*md)->rx_metadata_cpp, timeout, one_packet); ) } uhd_error uhd_rx_streamer_issue_stream_cmd( uhd_rx_streamer_handle h, const uhd_stream_cmd_t *stream_cmd ){ UHD_SAFE_C_SAVE_ERROR(h, RX_STREAMER(h)->issue_stream_cmd(stream_cmd_c_to_cpp(stream_cmd)); ) } uhd_error uhd_rx_streamer_last_error( uhd_rx_streamer_handle h, char* error_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, memset(error_out, '\0', strbuffer_len); strncpy(error_out, h->last_error.c_str(), strbuffer_len); ) } /**************************************************************************** * TX Streamer ***************************************************************************/ static boost::mutex _tx_streamer_make_mutex; uhd_error uhd_tx_streamer_make( uhd_tx_streamer_handle* h ){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_tx_streamer_make_mutex); (*h) = new uhd_tx_streamer; ) } static boost::mutex _tx_streamer_free_mutex; uhd_error uhd_tx_streamer_free( uhd_tx_streamer_handle* h ){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_tx_streamer_free_mutex); delete *h; *h = NULL; ) } uhd_error uhd_tx_streamer_num_channels( uhd_tx_streamer_handle h, size_t *num_channels_out ){ UHD_SAFE_C_SAVE_ERROR(h, *num_channels_out = TX_STREAMER(h)->get_num_channels(); ) } uhd_error uhd_tx_streamer_max_num_samps( uhd_tx_streamer_handle h, size_t *max_num_samps_out ){ UHD_SAFE_C_SAVE_ERROR(h, *max_num_samps_out = TX_STREAMER(h)->get_max_num_samps(); ) } uhd_error uhd_tx_streamer_send( uhd_tx_streamer_handle h, const void **buffs, size_t samps_per_buff, uhd_tx_metadata_handle *md, double timeout, size_t *items_sent ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::tx_streamer::buffs_type buffs_cpp(buffs, TX_STREAMER(h)->get_num_channels()); *items_sent = TX_STREAMER(h)->send( buffs_cpp, samps_per_buff, (*md)->tx_metadata_cpp, timeout ); ) } uhd_error uhd_tx_streamer_recv_async_msg( uhd_tx_streamer_handle h, uhd_async_metadata_handle *md, const double timeout, bool *valid ){ UHD_SAFE_C_SAVE_ERROR(h, *valid = TX_STREAMER(h)->recv_async_msg((*md)->async_metadata_cpp, timeout); ) } uhd_error uhd_tx_streamer_last_error( uhd_tx_streamer_handle h, char* error_out, size_t strbuffer_len ){ UHD_SAFE_C( memset(error_out, '\0', strbuffer_len); strncpy(error_out, h->last_error.c_str(), strbuffer_len); ) } /**************************************************************************** * Generate / Destroy API calls ***************************************************************************/ static boost::mutex _usrp_find_mutex; uhd_error uhd_usrp_find( const char* args, uhd_string_vector_handle *strings_out ){ UHD_SAFE_C( boost::mutex::scoped_lock _lock(_usrp_find_mutex); uhd::device_addrs_t devs = uhd::device::find(std::string(args), uhd::device::USRP); (*strings_out)->string_vector_cpp.clear(); BOOST_FOREACH(const uhd::device_addr_t &dev, devs){ (*strings_out)->string_vector_cpp.push_back(dev.to_string()); } ) } static boost::mutex _usrp_make_mutex; uhd_error uhd_usrp_make( uhd_usrp_handle *h, const char *args ){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_usrp_make_mutex); size_t usrp_count = usrp_ptr::usrp_counter; usrp_ptr::usrp_counter++; // Initialize USRP uhd::device_addr_t device_addr(args); usrp_ptr P; P.ptr = uhd::usrp::multi_usrp::make(device_addr); // Dump into registry get_usrp_ptrs()[usrp_count] = P; // Update handle (*h) = new uhd_usrp; (*h)->usrp_index = usrp_count; ) } static boost::mutex _usrp_free_mutex; uhd_error uhd_usrp_free( uhd_usrp_handle *h ){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_usrp_free_mutex); if(!get_usrp_ptrs().count((*h)->usrp_index)){ return UHD_ERROR_INVALID_DEVICE; } get_usrp_ptrs().erase((*h)->usrp_index); delete *h; *h = NULL; ) } uhd_error uhd_usrp_last_error( uhd_usrp_handle h, char* error_out, size_t strbuffer_len ){ UHD_SAFE_C( memset(error_out, '\0', strbuffer_len); strncpy(error_out, h->last_error.c_str(), strbuffer_len); ) } static boost::mutex _usrp_get_rx_stream_mutex; uhd_error uhd_usrp_get_rx_stream( uhd_usrp_handle h_u, uhd_stream_args_t *stream_args, uhd_rx_streamer_handle h_s ){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_usrp_get_rx_stream_mutex); if(!get_usrp_ptrs().count(h_u->usrp_index)){ return UHD_ERROR_INVALID_DEVICE; } usrp_ptr &usrp = get_usrp_ptrs()[h_u->usrp_index]; usrp.rx_streamers.push_back( usrp.ptr->get_rx_stream(stream_args_c_to_cpp(stream_args)) ); h_s->usrp_index = h_u->usrp_index; h_s->streamer_index = usrp.rx_streamers.size() - 1; ) } static boost::mutex _usrp_get_tx_stream_mutex; uhd_error uhd_usrp_get_tx_stream( uhd_usrp_handle h_u, uhd_stream_args_t *stream_args, uhd_tx_streamer_handle h_s ){ UHD_SAFE_C( boost::mutex::scoped_lock lock(_usrp_get_tx_stream_mutex); if(!get_usrp_ptrs().count(h_u->usrp_index)){ return UHD_ERROR_INVALID_DEVICE; } usrp_ptr &usrp = get_usrp_ptrs()[h_u->usrp_index]; usrp.tx_streamers.push_back( usrp.ptr->get_tx_stream(stream_args_c_to_cpp(stream_args)) ); h_s->usrp_index = h_u->usrp_index; h_s->streamer_index = usrp.tx_streamers.size() - 1; ) } /**************************************************************************** * multi_usrp API calls ***************************************************************************/ #define COPY_INFO_FIELD(out, dict, field) \ out->field = strdup(dict.get(BOOST_STRINGIZE(field)).c_str()) uhd_error uhd_usrp_get_rx_info( uhd_usrp_handle h, size_t chan, uhd_usrp_rx_info_t *info_out ) { UHD_SAFE_C_SAVE_ERROR(h, uhd::dict rx_info = USRP(h)->get_usrp_rx_info(chan); COPY_INFO_FIELD(info_out, rx_info, mboard_id); COPY_INFO_FIELD(info_out, rx_info, mboard_serial); COPY_INFO_FIELD(info_out, rx_info, rx_id); COPY_INFO_FIELD(info_out, rx_info, rx_subdev_name); COPY_INFO_FIELD(info_out, rx_info, rx_subdev_spec); COPY_INFO_FIELD(info_out, rx_info, rx_serial); COPY_INFO_FIELD(info_out, rx_info, rx_antenna); ) } uhd_error uhd_usrp_get_tx_info( uhd_usrp_handle h, size_t chan, uhd_usrp_tx_info_t *info_out ) { UHD_SAFE_C_SAVE_ERROR(h, uhd::dict tx_info = USRP(h)->get_usrp_tx_info(chan); COPY_INFO_FIELD(info_out, tx_info, mboard_id); COPY_INFO_FIELD(info_out, tx_info, mboard_serial); COPY_INFO_FIELD(info_out, tx_info, tx_id); COPY_INFO_FIELD(info_out, tx_info, tx_subdev_name); COPY_INFO_FIELD(info_out, tx_info, tx_subdev_spec); COPY_INFO_FIELD(info_out, tx_info, tx_serial); COPY_INFO_FIELD(info_out, tx_info, tx_antenna); ) } /**************************************************************************** * Motherboard methods ***************************************************************************/ uhd_error uhd_usrp_set_master_clock_rate( uhd_usrp_handle h, double rate, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_master_clock_rate(rate, mboard); ) } uhd_error uhd_usrp_get_master_clock_rate( uhd_usrp_handle h, size_t mboard, double *clock_rate_out ){ UHD_SAFE_C_SAVE_ERROR(h, *clock_rate_out = USRP(h)->get_master_clock_rate(mboard); ) } uhd_error uhd_usrp_get_pp_string( uhd_usrp_handle h, char* pp_string_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, strncpy(pp_string_out, USRP(h)->get_pp_string().c_str(), strbuffer_len); ) } uhd_error uhd_usrp_get_mboard_name( uhd_usrp_handle h, size_t mboard, char* mboard_name_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, strncpy(mboard_name_out, USRP(h)->get_mboard_name(mboard).c_str(), strbuffer_len); ) } uhd_error uhd_usrp_get_time_now( uhd_usrp_handle h, size_t mboard, time_t *full_secs_out, double *frac_secs_out ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::time_spec_t time_spec_cpp = USRP(h)->get_time_now(mboard); *full_secs_out = time_spec_cpp.get_full_secs(); *frac_secs_out = time_spec_cpp.get_frac_secs(); ) } uhd_error uhd_usrp_get_time_last_pps( uhd_usrp_handle h, size_t mboard, time_t *full_secs_out, double *frac_secs_out ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::time_spec_t time_spec_cpp = USRP(h)->get_time_last_pps(mboard); *full_secs_out = time_spec_cpp.get_full_secs(); *frac_secs_out = time_spec_cpp.get_frac_secs(); ) } uhd_error uhd_usrp_set_time_now( uhd_usrp_handle h, time_t full_secs, double frac_secs, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::time_spec_t time_spec_cpp(full_secs, frac_secs); USRP(h)->set_time_now(time_spec_cpp, mboard); ) } uhd_error uhd_usrp_set_time_next_pps( uhd_usrp_handle h, time_t full_secs, double frac_secs, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::time_spec_t time_spec_cpp(full_secs, frac_secs); USRP(h)->set_time_next_pps(time_spec_cpp, mboard); ) } uhd_error uhd_usrp_set_time_unknown_pps( uhd_usrp_handle h, time_t full_secs, double frac_secs ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::time_spec_t time_spec_cpp(full_secs, frac_secs); USRP(h)->set_time_unknown_pps(time_spec_cpp); ) } uhd_error uhd_usrp_get_time_synchronized( uhd_usrp_handle h, bool *result_out ){ UHD_SAFE_C_SAVE_ERROR(h, *result_out = USRP(h)->get_time_synchronized(); return UHD_ERROR_NONE; ) } uhd_error uhd_usrp_set_command_time( uhd_usrp_handle h, time_t full_secs, double frac_secs, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::time_spec_t time_spec_cpp(full_secs, frac_secs); USRP(h)->set_command_time(time_spec_cpp, mboard); ) } uhd_error uhd_usrp_clear_command_time( uhd_usrp_handle h, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->clear_command_time(mboard); ) } uhd_error uhd_usrp_set_time_source( uhd_usrp_handle h, const char* time_source, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_time_source(std::string(time_source), mboard); ) } uhd_error uhd_usrp_get_time_source( uhd_usrp_handle h, size_t mboard, char* time_source_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, strncpy(time_source_out, USRP(h)->get_time_source(mboard).c_str(), strbuffer_len); ) } uhd_error uhd_usrp_get_time_sources( uhd_usrp_handle h, size_t mboard, uhd_string_vector_handle *time_sources_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*time_sources_out)->string_vector_cpp = USRP(h)->get_time_sources(mboard); ) } uhd_error uhd_usrp_set_clock_source( uhd_usrp_handle h, const char* clock_source, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_clock_source(std::string(clock_source), mboard); ) } uhd_error uhd_usrp_get_clock_source( uhd_usrp_handle h, size_t mboard, char* clock_source_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, strncpy(clock_source_out, USRP(h)->get_clock_source(mboard).c_str(), strbuffer_len); ) } uhd_error uhd_usrp_get_clock_sources( uhd_usrp_handle h, size_t mboard, uhd_string_vector_handle *clock_sources_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*clock_sources_out)->string_vector_cpp = USRP(h)->get_clock_sources(mboard); ) } uhd_error uhd_usrp_set_clock_source_out( uhd_usrp_handle h, bool enb, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_clock_source_out(enb, mboard); ) } uhd_error uhd_usrp_get_num_mboards( uhd_usrp_handle h, size_t *num_mboards_out ){ UHD_SAFE_C_SAVE_ERROR(h, *num_mboards_out = USRP(h)->get_num_mboards(); ) } uhd_error uhd_usrp_get_mboard_sensor( uhd_usrp_handle h, const char* name, size_t mboard, uhd_sensor_value_handle *sensor_value_out ){ UHD_SAFE_C_SAVE_ERROR(h, delete (*sensor_value_out)->sensor_value_cpp; (*sensor_value_out)->sensor_value_cpp = new uhd::sensor_value_t(USRP(h)->get_mboard_sensor(name, mboard)); ) } uhd_error uhd_usrp_get_mboard_sensor_names( uhd_usrp_handle h, size_t mboard, uhd_string_vector_handle *mboard_sensor_names_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*mboard_sensor_names_out)->string_vector_cpp = USRP(h)->get_mboard_sensor_names(mboard); ) } uhd_error uhd_usrp_set_user_register( uhd_usrp_handle h, uint8_t addr, uint32_t data, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_user_register(addr, data, mboard); ) } /**************************************************************************** * EEPROM access methods ***************************************************************************/ uhd_error uhd_usrp_get_mboard_eeprom( uhd_usrp_handle h, uhd_mboard_eeprom_handle mb_eeprom, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::fs_path eeprom_path = str(boost::format("/mboards/%d/eeprom") % mboard); uhd::property_tree::sptr ptree = USRP(h)->get_device()->get_tree(); mb_eeprom->mboard_eeprom_cpp = ptree->access(eeprom_path).get(); ) } uhd_error uhd_usrp_set_mboard_eeprom( uhd_usrp_handle h, uhd_mboard_eeprom_handle mb_eeprom, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::fs_path eeprom_path = str(boost::format("/mboards/%d/eeprom") % mboard); uhd::property_tree::sptr ptree = USRP(h)->get_device()->get_tree(); ptree->access(eeprom_path).set(mb_eeprom->mboard_eeprom_cpp); ) } uhd_error uhd_usrp_get_dboard_eeprom( uhd_usrp_handle h, uhd_dboard_eeprom_handle db_eeprom, const char* unit, const char* slot, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::fs_path eeprom_path = str(boost::format("/mboards/%d/dboards/%s/%s_eeprom") % mboard % slot % unit); uhd::property_tree::sptr ptree = USRP(h)->get_device()->get_tree(); db_eeprom->dboard_eeprom_cpp = ptree->access(eeprom_path).get(); ) } uhd_error uhd_usrp_set_dboard_eeprom( uhd_usrp_handle h, uhd_dboard_eeprom_handle db_eeprom, const char* unit, const char* slot, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::fs_path eeprom_path = str(boost::format("/mboards/%d/dboards/%s/%s_eeprom") % mboard % slot % unit); uhd::property_tree::sptr ptree = USRP(h)->get_device()->get_tree(); ptree->access(eeprom_path).set(db_eeprom->dboard_eeprom_cpp); ) } /**************************************************************************** * RX methods ***************************************************************************/ uhd_error uhd_usrp_set_rx_subdev_spec( uhd_usrp_handle h, uhd_subdev_spec_handle subdev_spec, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_subdev_spec(subdev_spec->subdev_spec_cpp, mboard); ) } uhd_error uhd_usrp_get_rx_subdev_spec( uhd_usrp_handle h, size_t mboard, uhd_subdev_spec_handle subdev_spec_out ){ UHD_SAFE_C_SAVE_ERROR(h, subdev_spec_out->subdev_spec_cpp = USRP(h)->get_rx_subdev_spec(mboard); ) } uhd_error uhd_usrp_get_rx_num_channels( uhd_usrp_handle h, size_t *num_channels_out ){ UHD_SAFE_C_SAVE_ERROR(h, *num_channels_out = USRP(h)->get_rx_num_channels(); ) } uhd_error uhd_usrp_get_rx_subdev_name( uhd_usrp_handle h, size_t chan, char* rx_subdev_name_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, std::string rx_subdev_name = USRP(h)->get_rx_subdev_name(chan); strncpy(rx_subdev_name_out, rx_subdev_name.c_str(), strbuffer_len); ) } uhd_error uhd_usrp_set_rx_rate( uhd_usrp_handle h, double rate, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_rate(rate, chan); ) } uhd_error uhd_usrp_get_rx_rate( uhd_usrp_handle h, size_t chan, double *rate_out ){ UHD_SAFE_C_SAVE_ERROR(h, *rate_out = USRP(h)->get_rx_rate(chan); ) } uhd_error uhd_usrp_get_rx_rates( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle rates_out ){ UHD_SAFE_C_SAVE_ERROR(h, rates_out->meta_range_cpp = USRP(h)->get_rx_rates(chan); ) } uhd_error uhd_usrp_set_rx_freq( uhd_usrp_handle h, uhd_tune_request_t *tune_request, size_t chan, uhd_tune_result_t *tune_result ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::tune_request_t tune_request_cpp = uhd_tune_request_c_to_cpp(tune_request); uhd::tune_result_t tune_result_cpp = USRP(h)->set_rx_freq(tune_request_cpp, chan); uhd_tune_result_cpp_to_c(tune_result_cpp, tune_result); ) } uhd_error uhd_usrp_get_rx_freq( uhd_usrp_handle h, size_t chan, double *freq_out ){ UHD_SAFE_C_SAVE_ERROR(h, *freq_out = USRP(h)->get_rx_freq(chan); ) } uhd_error uhd_usrp_get_rx_freq_range( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle freq_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, freq_range_out->meta_range_cpp = USRP(h)->get_rx_freq_range(chan); ) } uhd_error uhd_usrp_get_fe_rx_freq_range( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle freq_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, freq_range_out->meta_range_cpp = USRP(h)->get_fe_rx_freq_range(chan); ) } uhd_error uhd_usrp_set_rx_gain( uhd_usrp_handle h, double gain, size_t chan, const char *gain_name ){ UHD_SAFE_C_SAVE_ERROR(h, std::string name(gain_name); if(name.empty()){ USRP(h)->set_rx_gain(gain, chan); } else{ USRP(h)->set_rx_gain(gain, name, chan); } ) } uhd_error uhd_usrp_set_normalized_rx_gain( uhd_usrp_handle h, double gain, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_normalized_rx_gain(gain, chan); ) } uhd_error uhd_usrp_set_rx_agc( uhd_usrp_handle h, bool enable, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_agc(enable, chan); ) } uhd_error uhd_usrp_get_rx_gain( uhd_usrp_handle h, size_t chan, const char *gain_name, double *gain_out ){ UHD_SAFE_C_SAVE_ERROR(h, std::string name(gain_name); if(name.empty()){ *gain_out = USRP(h)->get_rx_gain(chan); } else{ *gain_out = USRP(h)->get_rx_gain(name, chan); } ) } uhd_error uhd_usrp_get_normalized_rx_gain( uhd_usrp_handle h, size_t chan, double *gain_out ){ UHD_SAFE_C_SAVE_ERROR(h, *gain_out = USRP(h)->get_normalized_rx_gain(chan); ) } uhd_error uhd_usrp_get_rx_gain_range( uhd_usrp_handle h, const char* name, size_t chan, uhd_meta_range_handle gain_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, gain_range_out->meta_range_cpp = USRP(h)->get_rx_gain_range(name, chan); ) } uhd_error uhd_usrp_get_rx_gain_names( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *gain_names_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*gain_names_out)->string_vector_cpp = USRP(h)->get_rx_gain_names(chan); ) } uhd_error uhd_usrp_set_rx_antenna( uhd_usrp_handle h, const char* ant, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_antenna(std::string(ant), chan); ) } uhd_error uhd_usrp_get_rx_antenna( uhd_usrp_handle h, size_t chan, char* ant_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, std::string rx_antenna = USRP(h)->get_rx_antenna(chan); strncpy(ant_out, rx_antenna.c_str(), strbuffer_len); ) } uhd_error uhd_usrp_get_rx_antennas( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *antennas_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*antennas_out)->string_vector_cpp = USRP(h)->get_rx_antennas(chan); ) } uhd_error uhd_usrp_set_rx_bandwidth( uhd_usrp_handle h, double bandwidth, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_bandwidth(bandwidth, chan); ) } uhd_error uhd_usrp_get_rx_bandwidth( uhd_usrp_handle h, size_t chan, double *bandwidth_out ){ UHD_SAFE_C_SAVE_ERROR(h, *bandwidth_out = USRP(h)->get_rx_bandwidth(chan); ) } uhd_error uhd_usrp_get_rx_bandwidth_range( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle bandwidth_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, bandwidth_range_out->meta_range_cpp = USRP(h)->get_rx_bandwidth_range(chan); ) } uhd_error uhd_usrp_get_rx_sensor( uhd_usrp_handle h, const char* name, size_t chan, uhd_sensor_value_handle *sensor_value_out ){ UHD_SAFE_C_SAVE_ERROR(h, delete (*sensor_value_out)->sensor_value_cpp; (*sensor_value_out)->sensor_value_cpp = new uhd::sensor_value_t(USRP(h)->get_rx_sensor(name, chan)); ) } uhd_error uhd_usrp_get_rx_sensor_names( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *sensor_names_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*sensor_names_out)->string_vector_cpp = USRP(h)->get_rx_sensor_names(chan); ) } uhd_error uhd_usrp_set_rx_dc_offset_enabled( uhd_usrp_handle h, bool enb, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_dc_offset(enb, chan); ) } uhd_error uhd_usrp_set_rx_iq_balance_enabled( uhd_usrp_handle h, bool enb, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_rx_iq_balance(enb, chan); ) } /**************************************************************************** * TX methods ***************************************************************************/ uhd_error uhd_usrp_set_tx_subdev_spec( uhd_usrp_handle h, uhd_subdev_spec_handle subdev_spec, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_tx_subdev_spec(subdev_spec->subdev_spec_cpp, mboard); ) } uhd_error uhd_usrp_get_tx_subdev_spec( uhd_usrp_handle h, size_t mboard, uhd_subdev_spec_handle subdev_spec_out ){ UHD_SAFE_C_SAVE_ERROR(h, subdev_spec_out->subdev_spec_cpp = USRP(h)->get_tx_subdev_spec(mboard); ) } uhd_error uhd_usrp_get_tx_num_channels( uhd_usrp_handle h, size_t *num_channels_out ){ UHD_SAFE_C_SAVE_ERROR(h, *num_channels_out = USRP(h)->get_tx_num_channels(); ) } uhd_error uhd_usrp_get_tx_subdev_name( uhd_usrp_handle h, size_t chan, char* tx_subdev_name_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, std::string tx_subdev_name = USRP(h)->get_tx_subdev_name(chan); strncpy(tx_subdev_name_out, tx_subdev_name.c_str(), strbuffer_len); ) } uhd_error uhd_usrp_set_tx_rate( uhd_usrp_handle h, double rate, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_tx_rate(rate, chan); ) } uhd_error uhd_usrp_get_tx_rate( uhd_usrp_handle h, size_t chan, double *rate_out ){ UHD_SAFE_C_SAVE_ERROR(h, *rate_out = USRP(h)->get_tx_rate(chan); ) } uhd_error uhd_usrp_get_tx_rates( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle rates_out ){ UHD_SAFE_C_SAVE_ERROR(h, rates_out->meta_range_cpp = USRP(h)->get_tx_rates(chan); ) } uhd_error uhd_usrp_set_tx_freq( uhd_usrp_handle h, uhd_tune_request_t *tune_request, size_t chan, uhd_tune_result_t *tune_result ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::tune_request_t tune_request_cpp = uhd_tune_request_c_to_cpp(tune_request); uhd::tune_result_t tune_result_cpp = USRP(h)->set_tx_freq(tune_request_cpp, chan); uhd_tune_result_cpp_to_c(tune_result_cpp, tune_result); ) } uhd_error uhd_usrp_get_tx_freq( uhd_usrp_handle h, size_t chan, double *freq_out ){ UHD_SAFE_C_SAVE_ERROR(h, *freq_out = USRP(h)->get_tx_freq(chan); ) } uhd_error uhd_usrp_get_tx_freq_range( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle freq_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, freq_range_out->meta_range_cpp = USRP(h)->get_tx_freq_range(chan); ) } uhd_error uhd_usrp_get_fe_tx_freq_range( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle freq_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, freq_range_out->meta_range_cpp = USRP(h)->get_fe_tx_freq_range(chan); ) } uhd_error uhd_usrp_set_tx_gain( uhd_usrp_handle h, double gain, size_t chan, const char *gain_name ){ UHD_SAFE_C_SAVE_ERROR(h, std::string name(gain_name); if(name.empty()){ USRP(h)->set_tx_gain(gain, chan); } else{ USRP(h)->set_tx_gain(gain, name, chan); } ) } uhd_error uhd_usrp_set_normalized_tx_gain( uhd_usrp_handle h, double gain, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_normalized_tx_gain(gain, chan); ) } uhd_error uhd_usrp_get_tx_gain( uhd_usrp_handle h, size_t chan, const char *gain_name, double *gain_out ){ UHD_SAFE_C_SAVE_ERROR(h, std::string name(gain_name); if(name.empty()){ *gain_out = USRP(h)->get_tx_gain(chan); } else{ *gain_out = USRP(h)->get_tx_gain(name, chan); } ) } uhd_error uhd_usrp_get_normalized_tx_gain( uhd_usrp_handle h, size_t chan, double *gain_out ){ UHD_SAFE_C_SAVE_ERROR(h, *gain_out = USRP(h)->get_normalized_tx_gain(chan); ) } uhd_error uhd_usrp_get_tx_gain_range( uhd_usrp_handle h, const char* name, size_t chan, uhd_meta_range_handle gain_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, gain_range_out->meta_range_cpp = USRP(h)->get_tx_gain_range(name, chan); ) } uhd_error uhd_usrp_get_tx_gain_names( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *gain_names_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*gain_names_out)->string_vector_cpp = USRP(h)->get_tx_gain_names(chan); ) } uhd_error uhd_usrp_set_tx_antenna( uhd_usrp_handle h, const char* ant, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_tx_antenna(std::string(ant), chan); ) } uhd_error uhd_usrp_get_tx_antenna( uhd_usrp_handle h, size_t chan, char* ant_out, size_t strbuffer_len ){ UHD_SAFE_C_SAVE_ERROR(h, std::string tx_antenna = USRP(h)->get_tx_antenna(chan); strncpy(ant_out, tx_antenna.c_str(), strbuffer_len); ) } uhd_error uhd_usrp_get_tx_antennas( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *antennas_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*antennas_out)->string_vector_cpp = USRP(h)->get_tx_antennas(chan); ) } uhd_error uhd_usrp_set_tx_bandwidth( uhd_usrp_handle h, double bandwidth, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_tx_bandwidth(bandwidth, chan); ) } uhd_error uhd_usrp_get_tx_bandwidth( uhd_usrp_handle h, size_t chan, double *bandwidth_out ){ UHD_SAFE_C_SAVE_ERROR(h, *bandwidth_out = USRP(h)->get_tx_bandwidth(chan); ) } uhd_error uhd_usrp_get_tx_bandwidth_range( uhd_usrp_handle h, size_t chan, uhd_meta_range_handle bandwidth_range_out ){ UHD_SAFE_C_SAVE_ERROR(h, bandwidth_range_out->meta_range_cpp = USRP(h)->get_tx_bandwidth_range(chan); ) } uhd_error uhd_usrp_get_tx_sensor( uhd_usrp_handle h, const char* name, size_t chan, uhd_sensor_value_handle *sensor_value_out ){ UHD_SAFE_C_SAVE_ERROR(h, delete (*sensor_value_out)->sensor_value_cpp; (*sensor_value_out)->sensor_value_cpp = new uhd::sensor_value_t(USRP(h)->get_tx_sensor(name, chan)); ) } uhd_error uhd_usrp_get_tx_sensor_names( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *sensor_names_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*sensor_names_out)->string_vector_cpp = USRP(h)->get_tx_sensor_names(chan); ) } uhd_error uhd_usrp_set_tx_dc_offset_enabled( uhd_usrp_handle h, bool enb, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_tx_dc_offset(enb, chan); ) } uhd_error uhd_usrp_set_tx_iq_balance_enabled( uhd_usrp_handle h, bool enb, size_t chan ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_tx_iq_balance(enb, chan); ) } /**************************************************************************** * GPIO methods ***************************************************************************/ uhd_error uhd_usrp_get_gpio_banks( uhd_usrp_handle h, size_t chan, uhd_string_vector_handle *gpio_banks_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*gpio_banks_out)->string_vector_cpp = USRP(h)->get_gpio_banks(chan); ) } uhd_error uhd_usrp_set_gpio_attr( uhd_usrp_handle h, const char* bank, const char* attr, uint32_t value, uint32_t mask, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->set_gpio_attr(std::string(bank), std::string(attr), value, mask, mboard); ) } uhd_error uhd_usrp_get_gpio_attr( uhd_usrp_handle h, const char* bank, const char* attr, size_t mboard, uint32_t *attr_out ){ UHD_SAFE_C_SAVE_ERROR(h, *attr_out = USRP(h)->get_gpio_attr(std::string(bank), std::string(attr), mboard); ) } uhd_error uhd_usrp_enumerate_registers( uhd_usrp_handle h, size_t mboard, uhd_string_vector_handle *registers_out ){ UHD_SAFE_C_SAVE_ERROR(h, (*registers_out)->string_vector_cpp = USRP(h)->enumerate_registers(mboard); ) } uhd_error uhd_usrp_get_register_info( uhd_usrp_handle h, const char* path, size_t mboard, uhd_usrp_register_info_t *register_info_out ){ UHD_SAFE_C_SAVE_ERROR(h, uhd::usrp::multi_usrp::register_info_t register_info_cpp = USRP(h)->get_register_info(path, mboard); register_info_out->bitwidth = register_info_cpp.bitwidth; register_info_out->readable = register_info_cpp.readable; register_info_out->writable = register_info_cpp.writable; ) } uhd_error uhd_usrp_write_register( uhd_usrp_handle h, const char* path, uint32_t field, uint64_t value, size_t mboard ){ UHD_SAFE_C_SAVE_ERROR(h, USRP(h)->write_register(path, field, value, mboard); ) } uhd_error uhd_usrp_write_register( uhd_usrp_handle h, const char* path, uint32_t field, size_t mboard, uint64_t *value_out ){ UHD_SAFE_C_SAVE_ERROR(h, *value_out = USRP(h)->read_register(path, field, mboard); ) }