/* SoapySDR device access * * (C) 2017 by Andreas Eversberg * All Rights Reserved * * 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 . */ #include #include #include #include #include #include #include #include #include "soapy.h" #include "../libdebug/debug.h" extern int sdr_rx_overflow; static SoapySDRDevice *sdr = NULL; SoapySDRStream *rxStream = NULL; SoapySDRStream *txStream = NULL; static int tx_samps_per_buff, rx_samps_per_buff; static double samplerate; static uint64_t rx_count = 0; static uint64_t tx_count = 0; static int parse_args(SoapySDRKwargs *args, const char *_args_string) { char *args_string = strdup(_args_string), *key, *val; memset(args, 0, sizeof(*args)); while (args_string && *args_string) { key = args_string; val = strchr(key, '='); if (!val) { PDEBUG(DSOAPY, DEBUG_ERROR, "Error parsing SDR args: No '=' after key\n"); soapy_close(); return -EIO; } *val++ = '\0'; args_string = strchr(val, ','); if (args_string) *args_string++ = '\0'; PDEBUG(DSOAPY, DEBUG_DEBUG, "SDR device args: key='%s' value='%s'\n", key, val); SoapySDRKwargs_set(args, key, val); } return 0; } int soapy_open(size_t channel, const char *_device_args, const char *_stream_args, const char *_tune_args, const char *tx_antenna, const char *rx_antenna, const char *clock_source, double tx_frequency, double rx_frequency, double lo_offset, double rate, double tx_gain, double rx_gain, double bandwidth) { double got_frequency, got_rate, got_gain, got_bandwidth; const char *got_antenna, *got_clock; size_t num_channels; SoapySDRKwargs device_args; SoapySDRKwargs stream_args; SoapySDRKwargs tune_args; int rc; samplerate = rate; /* parsing ARGS */ PDEBUG(DSOAPY, DEBUG_INFO, "Using device args \"%s\"\n", _device_args); rc = parse_args(&device_args, _device_args); if (rc < 0) return rc; PDEBUG(DSOAPY, DEBUG_INFO, "Using stream args \"%s\"\n", _stream_args); rc = parse_args(&stream_args, _stream_args); if (rc < 0) return rc; PDEBUG(DSOAPY, DEBUG_INFO, "Using tune args \"%s\"\n", _tune_args); rc = parse_args(&tune_args, _tune_args); if (rc < 0) return rc; if (lo_offset) { char val[32]; snprintf(val, sizeof(val), "%.0f", lo_offset); val[sizeof(val) - 1] = '\0'; SoapySDRKwargs_set(&tune_args, "OFFSET", val); } /* create SoapySDR device */ sdr = SoapySDRDevice_make(&device_args); if (!sdr) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to create SoapySDR\n"); soapy_close(); return -EIO; } /* clock source */ if (clock_source && clock_source[0]) { if (!strcasecmp(clock_source, "list")) { char **clocks; size_t clocks_length; int i; clocks = SoapySDRDevice_listClockSources(sdr, &clocks_length); if (!clocks) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to request list of clock sources!\n"); soapy_close(); return -EIO; } if (clocks_length) { for (i = 0; i < (int)clocks_length; i++) PDEBUG(DSOAPY, DEBUG_NOTICE, "Clock source: '%s'\n", clocks[i]); got_clock = SoapySDRDevice_getClockSource(sdr); PDEBUG(DSOAPY, DEBUG_NOTICE, "Default clock source: '%s'\n", got_clock); } else PDEBUG(DSOAPY, DEBUG_NOTICE, "There are no clock sources configurable for this device.\n"); soapy_close(); return 1; } if (SoapySDRDevice_setClockSource(sdr, clock_source) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set clock source to '%s'\n", clock_source); soapy_close(); return -EIO; } got_clock = SoapySDRDevice_getClockSource(sdr); if (!!strcasecmp(clock_source, got_clock)) { PDEBUG(DSOAPY, DEBUG_NOTICE, "Given clock source '%s' was accepted, but driver claims to use '%s'\n", clock_source, got_clock); soapy_close(); return -EINVAL; } } if (rx_frequency) { /* get number of channels and check if requested channel is in range */ num_channels = SoapySDRDevice_getNumChannels(sdr, SOAPY_SDR_RX); PDEBUG(DSOAPY, DEBUG_DEBUG, "We have %d RX channel, selecting channel #%d\n", (int)num_channels, (int)channel); if (channel >= num_channels) { PDEBUG(DSOAPY, DEBUG_ERROR, "Requested channel #%d (capable of RX) does not exist. Please select channel %d..%d!\n", (int)channel, 0, (int)num_channels - 1); soapy_close(); return -EIO; } /* antenna */ if (rx_antenna && rx_antenna[0]) { if (!strcasecmp(rx_antenna, "list")) { char **antennas; size_t antennas_length; int i; antennas = SoapySDRDevice_listAntennas(sdr, SOAPY_SDR_RX, channel, &antennas_length); if (!antennas) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to request list of RX antennas!\n"); soapy_close(); return -EIO; } for (i = 0; i < (int)antennas_length; i++) PDEBUG(DSOAPY, DEBUG_NOTICE, "RX Antenna: '%s'\n", antennas[i]); got_antenna = SoapySDRDevice_getAntenna(sdr, SOAPY_SDR_RX, channel); PDEBUG(DSOAPY, DEBUG_NOTICE, "Default RX Antenna: '%s'\n", got_antenna); soapy_close(); return 1; } if (SoapySDRDevice_setAntenna(sdr, SOAPY_SDR_RX, channel, rx_antenna) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set RX antenna to '%s'\n", rx_antenna); soapy_close(); return -EIO; } got_antenna = SoapySDRDevice_getAntenna(sdr, SOAPY_SDR_RX, channel); if (!!strcasecmp(rx_antenna, got_antenna)) { PDEBUG(DSOAPY, DEBUG_NOTICE, "Given RX antenna '%s' was accepted, but driver claims to use '%s'\n", rx_antenna, got_antenna); soapy_close(); return -EINVAL; } } /* set rate */ if (SoapySDRDevice_setSampleRate(sdr, SOAPY_SDR_RX, channel, rate) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set RX rate to %.0f Hz\n", rate); soapy_close(); return -EIO; } /* see what rate actually is */ got_rate = SoapySDRDevice_getSampleRate(sdr, SOAPY_SDR_RX, channel); if (fabs(got_rate - rate) > 1.0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Given RX rate %.3f Hz is not supported, try %.3f Hz\n", rate, got_rate); soapy_close(); return -EINVAL; } if (rx_gain) { /* set gain */ if (SoapySDRDevice_setGain(sdr, SOAPY_SDR_RX, channel, rx_gain) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set RX gain to %.0f\n", rx_gain); soapy_close(); return -EIO; } /* see what gain actually is */ got_gain = SoapySDRDevice_getGain(sdr, SOAPY_SDR_RX, channel); if (fabs(got_gain - rx_gain) > 0.001) { PDEBUG(DSOAPY, DEBUG_NOTICE, "Given RX gain %.3f is not supported, we use %.3f\n", rx_gain, got_gain); rx_gain = got_gain; } } /* hack to make limesdr tune rx to tx */ if (tx_frequency == rx_frequency) rx_frequency += 1.0; /* set frequency */ if (SoapySDRDevice_setFrequency(sdr, SOAPY_SDR_RX, channel, rx_frequency, &tune_args) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set RX frequency to %.0f Hz\n", rx_frequency); soapy_close(); return -EIO; } /* see what frequency actually is */ got_frequency = SoapySDRDevice_getFrequency(sdr, SOAPY_SDR_RX, channel); if (fabs(got_frequency - rx_frequency) > 100.0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Given RX frequency %.0f Hz is not supported, try %.0f Hz\n", rx_frequency, got_frequency); soapy_close(); return -EINVAL; } /* set bandwidth */ if (SoapySDRDevice_setBandwidth(sdr, SOAPY_SDR_RX, channel, bandwidth) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set RX bandwidth to %.0f Hz\n", bandwidth); soapy_close(); return -EIO; } /* see what bandwidth actually is */ got_bandwidth = SoapySDRDevice_getBandwidth(sdr, SOAPY_SDR_RX, channel); if (fabs(got_bandwidth - bandwidth) > 100.0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Given RX bandwidth %.0f Hz is not supported, try %.0f Hz\n", bandwidth, got_bandwidth); soapy_close(); return -EINVAL; } /* set up streamer */ if (SoapySDRDevice_setupStream(sdr, &rxStream, SOAPY_SDR_RX, SOAPY_SDR_CF32, &channel, 1, &stream_args) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set RX streamer args\n"); soapy_close(); return -EIO; } /* get buffer sizes */ rx_samps_per_buff = SoapySDRDevice_getStreamMTU(sdr, rxStream); if (rx_samps_per_buff == 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to get RX streamer sample buffer\n"); soapy_close(); return -EIO; } } if (tx_frequency) { /* get number of channels and check if requested channel is in range */ num_channels = SoapySDRDevice_getNumChannels(sdr, SOAPY_SDR_TX); PDEBUG(DSOAPY, DEBUG_DEBUG, "We have %d TX channel, selecting channel #%d\n", (int)num_channels, (int)channel); if (channel >= num_channels) { PDEBUG(DSOAPY, DEBUG_ERROR, "Requested channel #%d (capable of TX) does not exist. Please select channel %d..%d!\n", (int)channel, 0, (int)num_channels - 1); soapy_close(); return -EIO; } /* antenna */ if (tx_antenna && tx_antenna[0]) { if (!strcasecmp(tx_antenna, "list")) { char **antennas; size_t antennas_length; int i; antennas = SoapySDRDevice_listAntennas(sdr, SOAPY_SDR_TX, channel, &antennas_length); if (!antennas) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to request list of TX antennas!\n"); soapy_close(); return -EIO; } for (i = 0; i < (int)antennas_length; i++) PDEBUG(DSOAPY, DEBUG_NOTICE, "TX Antenna: '%s'\n", antennas[i]); got_antenna = SoapySDRDevice_getAntenna(sdr, SOAPY_SDR_TX, channel); PDEBUG(DSOAPY, DEBUG_NOTICE, "Default TX Antenna: '%s'\n", got_antenna); soapy_close(); return 1; } if (SoapySDRDevice_setAntenna(sdr, SOAPY_SDR_TX, channel, tx_antenna) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set TX antenna to '%s'\n", tx_antenna); soapy_close(); return -EIO; } got_antenna = SoapySDRDevice_getAntenna(sdr, SOAPY_SDR_TX, channel); if (!!strcasecmp(tx_antenna, got_antenna)) { PDEBUG(DSOAPY, DEBUG_NOTICE, "Given TX antenna '%s' was accepted, but driver claims to use '%s'\n", tx_antenna, got_antenna); soapy_close(); return -EINVAL; } } /* set rate */ if (SoapySDRDevice_setSampleRate(sdr, SOAPY_SDR_TX, channel, rate) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set TX rate to %.0f Hz\n", rate); soapy_close(); return -EIO; } /* see what rate actually is */ got_rate = SoapySDRDevice_getSampleRate(sdr, SOAPY_SDR_TX, channel); if (fabs(got_rate - rate) > 1.0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Given TX rate %.3f Hz is not supported, try %.3f Hz\n", rate, got_rate); soapy_close(); return -EINVAL; } if (tx_gain) { /* set gain */ if (SoapySDRDevice_setGain(sdr, SOAPY_SDR_TX, channel, tx_gain) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set TX gain to %.0f\n", tx_gain); soapy_close(); return -EIO; } /* see what gain actually is */ got_gain = SoapySDRDevice_getGain(sdr, SOAPY_SDR_TX, channel); if (fabs(got_gain - tx_gain) > 0.001) { PDEBUG(DSOAPY, DEBUG_NOTICE, "Given TX gain %.3f is not supported, we use %.3f\n", tx_gain, got_gain); tx_gain = got_gain; } } /* set frequency */ if (SoapySDRDevice_setFrequency(sdr, SOAPY_SDR_TX, channel, tx_frequency, &tune_args) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set TX frequency to %.0f Hz\n", tx_frequency); soapy_close(); return -EIO; } /* see what frequency actually is */ got_frequency = SoapySDRDevice_getFrequency(sdr, SOAPY_SDR_TX, channel); if (fabs(got_frequency - tx_frequency) > 100.0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Given TX frequency %.0f Hz is not supported, try %.0f Hz\n", tx_frequency, got_frequency); soapy_close(); return -EINVAL; } /* set bandwidth */ if (SoapySDRDevice_setBandwidth(sdr, SOAPY_SDR_TX, channel, bandwidth) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set TX bandwidth to %.0f Hz\n", bandwidth); soapy_close(); return -EIO; } /* see what bandwidth actually is */ got_bandwidth = SoapySDRDevice_getBandwidth(sdr, SOAPY_SDR_TX, channel); if (fabs(got_bandwidth - bandwidth) > 100.0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Given TX bandwidth %.0f Hz is not supported, try %.0f Hz\n", bandwidth, got_bandwidth); soapy_close(); return -EINVAL; } /* set up streamer */ if (SoapySDRDevice_setupStream(sdr, &txStream, SOAPY_SDR_TX, SOAPY_SDR_CF32, &channel, 1, &stream_args) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to set TX streamer args\n"); soapy_close(); return -EIO; } /* get buffer sizes */ tx_samps_per_buff = SoapySDRDevice_getStreamMTU(sdr, txStream); if (tx_samps_per_buff == 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to get TX streamer sample buffer\n"); soapy_close(); return -EIO; } } return 0; } /* start streaming */ int soapy_start(void) { /* enable rx stream */ if (SoapySDRDevice_activateStream(sdr, rxStream, 0, 0, 0) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to issue RX stream command\n"); return -EIO; } /* enable tx stream */ if (SoapySDRDevice_activateStream(sdr, txStream, 0, 0, 0) != 0) { PDEBUG(DSOAPY, DEBUG_ERROR, "Failed to issue TX stream command\n"); return -EIO; } return 0; } void soapy_close(void) { PDEBUG(DSOAPY, DEBUG_DEBUG, "Clean up SoapySDR\n"); if (txStream) { SoapySDRDevice_deactivateStream(sdr, txStream, 0, 0); SoapySDRDevice_closeStream(sdr, txStream); txStream = NULL; } if (rxStream) { SoapySDRDevice_deactivateStream(sdr, rxStream, 0, 0); SoapySDRDevice_closeStream(sdr, rxStream); rxStream = NULL; } if (sdr) { SoapySDRDevice_unmake(sdr); sdr = NULL; } } int soapy_send(float *buff, int num) { const void *buffs_ptr[1]; int chunk; int sent = 0, count; int flags = 0; while (num) { chunk = num; if (chunk > tx_samps_per_buff) chunk = tx_samps_per_buff; /* create tx metadata */ buffs_ptr[0] = buff; count = SoapySDRDevice_writeStream(sdr, txStream, buffs_ptr, chunk, &flags, 0, 1000000); if (count <= 0) { PDEBUG(DUHD, DEBUG_ERROR, "Failed to write to TX streamer (error=%d)\n", count); break; } sent += count; buff += count * 2; num -= count; } /* increment tx counter */ tx_count += sent; return sent; } /* read what we got, return 0, if buffer is empty, otherwise return the number of samples */ int soapy_receive(float *buff, int max) { void *buffs_ptr[1]; int got = 0, count; long long timeNs; int flags = 0; while (1) { if (max < rx_samps_per_buff) { /* no more space this time */ sdr_rx_overflow = 1; break; } /* read RX stream */ buffs_ptr[0] = buff; count = SoapySDRDevice_readStream(sdr, rxStream, buffs_ptr, rx_samps_per_buff, &flags, &timeNs, 0); if (count > 0) { /* commit received data to buffer */ got += count; buff += count * 2; max -= count; } else { /* got nothing this time */ break; } } /* update current rx time */ rx_count += got; return got; } /* estimate number of samples that can be sent */ int soapy_get_tosend(int latspl) { int tosend; /* we need the rx time stamp to determine how much data is already sent in advance */ if (rx_count == 0) return 0; /* if we have not yet sent any data, we set initial tx time stamp */ if (tx_count == 0) tx_count = rx_count; /* we check how advance our transmitted time stamp is */ tosend = latspl - (tx_count - rx_count); /* in case of underrun: */ if (tosend > latspl) { // It is normal that we have underruns, prior initial filling of buffer. // FIXME: better solution to detect underrun // PDEBUG(DSOAPY, DEBUG_ERROR, "SDR TX underrun!\n"); tosend = 0; tx_count = rx_count; } if (tosend < 0) tosend = 0; return tosend; }