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sdr_plutosdr.c
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sdr_plutosdr.c
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// Part of readsb, a Mode-S/ADSB/TIS message decoder.
//
// sdr_pluto.c: PlutoSDR support
//
// Copyright (c) 2019 Michael Wolf <[email protected]>
//
// This file 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
// any later version.
//
// This file 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 <http://www.gnu.org/licenses/>.
#include <iio.h>
#include <ad9361.h>
#include "readsb.h"
#include "sdr_plutosdr.h"
static struct {
input_format_t input_format;
int dev_index;
struct iio_channel *rx0_i;
struct iio_channel *rx0_q;
struct iio_buffer *rxbuf;
struct iio_context *ctx;
struct iio_device *dev;
int16_t *readbuf;
iq_convert_fn converter;
struct converter_state *converter_state;
char *uri;
char *network;
} PLUTOSDR;
static struct timespec thread_cpu;
void plutosdrInitConfig()
{
PLUTOSDR.readbuf = NULL;
PLUTOSDR.converter = NULL;
PLUTOSDR.converter_state = NULL;
PLUTOSDR.uri = NULL;
PLUTOSDR.network = strdup("pluto.local");
}
bool plutosdrHandleOption(int argc, char *argv)
{
switch (argc) {
case OptPlutoUri:
PLUTOSDR.uri = strdup(argv);
break;
case OptPlutoNetwork:
PLUTOSDR.network = strdup(argv);
break;
}
return true;
}
bool plutosdrOpen()
{
PLUTOSDR.ctx = iio_create_default_context();
if (PLUTOSDR.ctx == NULL && PLUTOSDR.uri != NULL) {
PLUTOSDR.ctx = iio_create_context_from_uri(PLUTOSDR.uri);
}
else if (PLUTOSDR.ctx == NULL) {
PLUTOSDR.ctx = iio_create_network_context(PLUTOSDR.network);
}
if (PLUTOSDR.ctx == NULL) {
char buf[1024];
iio_strerror(errno, buf, sizeof(buf));
fprintf(stderr, "plutosdr: Failed creating IIO context: %s\n", buf);
return false;
}
struct iio_scan_context *ctx;
struct iio_context_info **info;
ctx = iio_create_scan_context(NULL, 0);
if (ctx) {
int info_count = iio_scan_context_get_info_list(ctx, &info);
if(info_count > 0) {
fprintf(stderr, "plutosdr: %s\n", iio_context_info_get_description(info[0]));
iio_context_info_list_free(info);
}
iio_scan_context_destroy(ctx);
}
int device_count = iio_context_get_devices_count(PLUTOSDR.ctx);
if (!device_count) {
fprintf(stderr, "plutosdr: No supported PLUTOSDR devices found.\n");
plutosdrClose();
}
fprintf(stderr, "plutosdr: Context has %d device(s).\n", device_count);
PLUTOSDR.dev = iio_context_find_device(PLUTOSDR.ctx, "cf-ad9361-lpc");
if (PLUTOSDR.dev == NULL) {
fprintf(stderr, "plutosdr: Error opening the PLUTOSDR device: %s\n", strerror(errno));
plutosdrClose();
}
struct iio_channel* phy_chn = iio_device_find_channel(iio_context_find_device(PLUTOSDR.ctx, "ad9361-phy"), "voltage0", false);
iio_channel_attr_write(phy_chn, "rf_port_select", "A_BALANCED");
iio_channel_attr_write_longlong(phy_chn, "rf_bandwidth", (long long)1750000);
iio_channel_attr_write_longlong(phy_chn, "sampling_frequency", (long long)Modes.sample_rate);
if (Modes.gain == MODES_AUTO_GAIN) {
iio_channel_attr_write(phy_chn, "gain_control_mode", "slow_attack");
} else {
// We use 10th of dB here, max is 77dB up to 1300MHz
if (Modes.gain > 770)
Modes.gain = 770;
iio_channel_attr_write(phy_chn, "gain_control_mode", "manual");
iio_channel_attr_write_longlong(phy_chn, "hardwaregain", Modes.gain / 10);
}
iio_channel_attr_write_bool(
iio_device_find_channel(iio_context_find_device(PLUTOSDR.ctx, "ad9361-phy"), "altvoltage1", true)
, "powerdown", true); // Turn OFF TX LO
iio_channel_attr_write_longlong(
iio_device_find_channel(iio_context_find_device(PLUTOSDR.ctx, "ad9361-phy"), "altvoltage0", true)
, "frequency", (long long)Modes.freq); // Set RX LO frequency
PLUTOSDR.rx0_i = iio_device_find_channel(PLUTOSDR.dev, "voltage0", false);
if (!PLUTOSDR.rx0_i)
PLUTOSDR.rx0_i = iio_device_find_channel(PLUTOSDR.dev, "altvoltage0", false);
PLUTOSDR.rx0_q = iio_device_find_channel(PLUTOSDR.dev, "voltage1", false);
if (!PLUTOSDR.rx0_q)
PLUTOSDR.rx0_q = iio_device_find_channel(PLUTOSDR.dev, "altvoltage1", false);
ad9361_set_bb_rate(iio_context_find_device(PLUTOSDR.ctx, "ad9361-phy"), Modes.sample_rate);
iio_channel_enable(PLUTOSDR.rx0_i);
iio_channel_enable(PLUTOSDR.rx0_q);
PLUTOSDR.rxbuf = iio_device_create_buffer(PLUTOSDR.dev, Modes.sdr_buf_samples, false);
if (!PLUTOSDR.rxbuf) {
perror("plutosdr: Could not create RX buffer");
}
if (!(PLUTOSDR.readbuf = cmalloc(Modes.sdr_buf_size * 4))) {
fprintf(stderr, "plutosdr: Failed to allocate read buffer\n");
plutosdrClose();
return false;
}
PLUTOSDR.converter = init_converter(INPUT_SC16,
Modes.sample_rate,
Modes.dc_filter,
&PLUTOSDR.converter_state);
if (!PLUTOSDR.converter) {
fprintf(stderr, "plutosdr: Can't initialize sample converter\n");
plutosdrClose();
return false;
}
return true;
}
static void plutosdrCallback(int16_t *buf, uint32_t len) {
struct mag_buf *outbuf;
struct mag_buf *lastbuf;
uint32_t slen;
unsigned next_free_buffer;
unsigned free_bufs;
int64_t block_duration;
static int was_odd = 0;
static int dropping = 0;
static uint64_t sampleCounter = 0;
lockReader();
next_free_buffer = (Modes.first_free_buffer + 1) % MODES_MAG_BUFFERS;
outbuf = &Modes.mag_buffers[Modes.first_free_buffer];
lastbuf = &Modes.mag_buffers[(Modes.first_free_buffer + MODES_MAG_BUFFERS - 1) % MODES_MAG_BUFFERS];
free_bufs = (Modes.first_filled_buffer - next_free_buffer + MODES_MAG_BUFFERS) % MODES_MAG_BUFFERS;
if (len != Modes.sdr_buf_size) {
fprintf(stderr, "weirdness: plutosdr gave us a block with an unusual size (got %u bytes, expected %u bytes)\n",
(unsigned) len, (unsigned) Modes.sdr_buf_size);
if (len > Modes.sdr_buf_size) {
unsigned discard = (len - Modes.sdr_buf_size + 1) / 2;
outbuf->dropped += discard;
buf += discard * 2;
len -= discard * 2;
}
}
if (was_odd) {
++buf;
--len;
++outbuf->dropped;
}
was_odd = (len & 1);
slen = len / 2;
if (free_bufs == 0 || (dropping && free_bufs < MODES_MAG_BUFFERS / 2)) {
dropping = 1;
outbuf->dropped += slen;
sampleCounter += slen;
unlockReader();
return;
}
dropping = 0;
unlockReader();
outbuf->sampleTimestamp = sampleCounter * 12e6 / Modes.sample_rate;
sampleCounter += slen;
block_duration = 1e3 * slen / Modes.sample_rate;
outbuf->sysTimestamp = mstime();
outbuf->sysMicroseconds = mono_micro_seconds();
outbuf->sysTimestamp -= block_duration;
outbuf->sysMicroseconds -= block_duration * 1000;
if (outbuf->dropped == 0) {
memcpy(outbuf->data, lastbuf->data + lastbuf->length, Modes.trailing_samples * sizeof (uint16_t));
} else {
memset(outbuf->data, 0, Modes.trailing_samples * sizeof (uint16_t));
}
outbuf->length = slen;
PLUTOSDR.converter(buf, &outbuf->data[Modes.trailing_samples], slen, PLUTOSDR.converter_state, &outbuf->mean_level, &outbuf->mean_power);
lockReader();
Modes.mag_buffers[next_free_buffer].dropped = 0;
Modes.mag_buffers[next_free_buffer].length = 0;
Modes.first_free_buffer = next_free_buffer;
end_cpu_timing(&thread_cpu, &Modes.reader_cpu_accumulator);
start_cpu_timing(&thread_cpu);
wakeDecode();
unlockReader();
}
void plutosdrRun() {
void *p_dat, *p_end;
ptrdiff_t p_inc;
if (!PLUTOSDR.dev) {
return;
}
start_cpu_timing(&thread_cpu);
while (!Modes.exit) {
int16_t *p = PLUTOSDR.readbuf;
uint32_t len = (uint32_t) iio_buffer_refill(PLUTOSDR.rxbuf) / 2;
p_inc = iio_buffer_step(PLUTOSDR.rxbuf);
p_end = iio_buffer_end(PLUTOSDR.rxbuf);
p_dat = iio_buffer_first(PLUTOSDR.rxbuf, PLUTOSDR.rx0_i);
for (p_dat = iio_buffer_first(PLUTOSDR.rxbuf, PLUTOSDR.rx0_i); p_dat < p_end; p_dat += p_inc) {
*p++ = ((int16_t*) p_dat)[0]; // Real (I)
*p++ = ((int16_t*) p_dat)[1]; // Imag (Q)
}
plutosdrCallback(PLUTOSDR.readbuf, len);
}
}
void plutosdrClose() {
if(PLUTOSDR.readbuf) {
free(PLUTOSDR.readbuf);
}
if (PLUTOSDR.rxbuf) {
iio_buffer_destroy(PLUTOSDR.rxbuf);
}
if (PLUTOSDR.rx0_i) {
iio_channel_disable(PLUTOSDR.rx0_i);
}
if (PLUTOSDR.rx0_q) {
iio_channel_disable(PLUTOSDR.rx0_q);
}
if (PLUTOSDR.ctx) {
iio_context_destroy(PLUTOSDR.ctx);
}
free(PLUTOSDR.network);
free(PLUTOSDR.uri);
}