static void init_device_list(void)
{
unsigned int i, num = iio_context_get_devices_count(ctx);
GtkTreeIter iter;
gtk_list_store_clear(device_list_store);
for (i = 0; i < num; i++) {
struct iio_device *dev = iio_context_get_device(ctx, i);
unsigned int j, nch = iio_device_get_channels_count(dev);
const char *id;
bool input = false;
for (j = 0; !input && j < nch; j++) {
struct iio_channel *chn =
iio_device_get_channel(dev, j);
input = !iio_channel_is_output(chn) &&
iio_channel_find_attr(chn, "raw");
}
if (!input)
continue;
id = iio_device_get_name(dev);
if (!id)
id = iio_device_get_id(dev);
gtk_list_store_append(device_list_store, &iter);
gtk_list_store_set(device_list_store, &iter, 0, id, 1, 0, -1);
}
gtk_tree_sortable_set_sort_column_id(
GTK_TREE_SORTABLE(GTK_TREE_MODEL(device_list_store)),
0, GTK_SORT_ASCENDING);
}
static ssize_t network_write_chn_attr(const struct iio_channel *chn,
const char *attr, const char *src, size_t len)
{
if (attr && !iio_channel_find_attr(chn, attr))
return -ENOENT;
return network_write_attr_helper(chn->dev, chn, attr, src, len, false);
}
ssize_t iiod_client_read_attr(struct iiod_client *client, int desc,
const struct iio_device *dev, const struct iio_channel *chn,
const char *attr, char *dest, size_t len, bool is_debug)
{
const char *id = iio_device_get_id(dev);
char buf[1024];
ssize_t ret;
if (attr) {
if (chn) {
if (!iio_channel_find_attr(chn, attr))
return -ENOENT;
} else if (is_debug) {
if (!iio_device_find_debug_attr(dev, attr))
return -ENOENT;
} else {
if (!iio_device_find_attr(dev, attr))
return -ENOENT;
}
}
if (chn)
snprintf(buf, sizeof(buf), "READ %s %s %s %s\r\n", id,
iio_channel_is_output(chn) ? "OUTPUT" : "INPUT",
iio_channel_get_id(chn), attr ? attr : "");
else if (is_debug)
snprintf(buf, sizeof(buf), "READ %s DEBUG %s\r\n",
id, attr ? attr : "");
else
snprintf(buf, sizeof(buf), "READ %s %s\r\n",
id, attr ? attr : "");
iio_mutex_lock(client->lock);
ret = (ssize_t) iiod_client_exec_command(client, desc, buf);
if (ret < 0)
goto out_unlock;
if ((size_t) ret + 1 > len) {
ret = -EIO;
goto out_unlock;
}
/* +1: Also read the trailing \n */
ret = iiod_client_read_all(client, desc, dest, ret + 1);
if (ret > 0) {
/* Discard the trailing \n */
ret--;
/* Replace it with a \0 just in case */
dest[ret] = '\0';
}
out_unlock:
iio_mutex_unlock(client->lock);
return ret;
}
static bool is_valid_dmm_channel(struct iio_channel *chn)
{
const char *id;
if (iio_channel_is_output(chn))
return false;
if (!iio_channel_find_attr(chn, "raw"))
return false;
/* find the name */
id = iio_channel_get_id(chn);
/* Must have 'scale', or be a temperature, which doesn't need scale */
if (!strstr(id, "temp") && !iio_channel_find_attr(chn, "scale"))
return false;
return true;
}
ssize_t iiod_client_write_attr(struct iiod_client *client, int desc,
const struct iio_device *dev, const struct iio_channel *chn,
const char *attr, const char *src, size_t len, bool is_debug)
{
struct iio_context_pdata *pdata = client->pdata;
const struct iiod_client_ops *ops = client->ops;
const char *id = iio_device_get_id(dev);
char buf[1024];
ssize_t ret;
int resp;
if (attr) {
if (chn) {
if (!iio_channel_find_attr(chn, attr))
return -ENOENT;
} else if (is_debug) {
if (!iio_device_find_debug_attr(dev, attr))
return -ENOENT;
} else {
if (!iio_device_find_attr(dev, attr))
return -ENOENT;
}
}
if (chn)
snprintf(buf, sizeof(buf), "WRITE %s %s %s %s %lu\r\n", id,
iio_channel_is_output(chn) ? "OUTPUT" : "INPUT",
iio_channel_get_id(chn), attr ? attr : "",
(unsigned long) len);
else if (is_debug)
snprintf(buf, sizeof(buf), "WRITE %s DEBUG %s %lu\r\n",
id, attr ? attr : "", (unsigned long) len);
else
snprintf(buf, sizeof(buf), "WRITE %s %s %lu\r\n",
id, attr ? attr : "", (unsigned long) len);
iio_mutex_lock(client->lock);
ret = ops->write(pdata, desc, buf, strlen(buf));
if (ret < 0)
goto out_unlock;
ret = iiod_client_write_all(client, desc, src, len);
if (ret < 0)
goto out_unlock;
ret = iiod_client_read_integer(client, desc, &resp);
if (ret < 0)
goto out_unlock;
ret = (ssize_t) resp;
out_unlock:
iio_mutex_unlock(client->lock);
return ret;
}
static gboolean dmm_update(gpointer foo)
{
GtkTreeIter tree_iter;
char *name, *device, *channel, tmp[128];
gboolean loop, enabled;
double value;
GtkTextBuffer *buf;
GtkTextIter text_iter;
/* start at the top every time */
buf = gtk_text_buffer_new(NULL);
gtk_text_buffer_get_iter_at_offset(buf, &text_iter, 0);
if (this_page == gtk_notebook_get_current_page(nbook) || plugin_detached) {
loop = gtk_tree_model_get_iter_first(GTK_TREE_MODEL(channel_list_store), &tree_iter);
while (loop) {
gtk_tree_model_get(GTK_TREE_MODEL(channel_list_store), &tree_iter,
0, &name,
1, &enabled,
2, &device,
3, &channel,
-1);
if (enabled) {
struct iio_device *dev =
get_device(device);
struct iio_channel *chn =
get_channel(dev, channel);
if (iio_channel_find_attr(chn, "raw"))
value = read_double_attr(chn, "raw");
else if (iio_channel_find_attr(chn, "processed"))
value = read_double_attr(chn, "processed");
else if (iio_channel_find_attr(chn, "input"))
value = read_double_attr(chn, "input");
else {
sprintf(tmp, "skipping %s", name);
goto dmm_update_next;
}
if (iio_channel_find_attr(chn, "offset"))
value += read_double_attr(chn,
"offset");
if (iio_channel_find_attr(chn, "scale"))
value *= read_double_attr(chn,
"scale");
if (!strncmp(channel, "voltage", 7))
sprintf(tmp, "%s = %f Volts\n", name, value / 1000);
else if (!strncmp(channel, "temp", 4))
sprintf(tmp, "%s = %3.2f °C\n", name, value / 1000);
else if (!strncmp(channel, "current", 4))
sprintf(tmp, "%s = %f Milliampere\n", name, value);
else if (!strncmp(channel, "accel", 5))
sprintf(tmp, "%s = %f m/s²\n", name, value);
else if (!strncmp(channel, "anglvel", 7))
sprintf(tmp, "%s = %f rad/s\n", name, value);
else if (!strncmp(channel, "pressure", 8))
sprintf(tmp, "%s = %f kPa\n", name, value);
else if (!strncmp(channel, "magn", 4))
sprintf(tmp, "%s = %f Gauss\n", name, value);
else
sprintf(tmp, "%s = %f\n", name, value);
gtk_text_buffer_insert(buf, &text_iter, tmp, -1);
}
dmm_update_next:
loop = gtk_tree_model_iter_next(GTK_TREE_MODEL(channel_list_store), &tree_iter);
}
gtk_text_view_set_buffer(GTK_TEXT_VIEW(dmm_results), buf);
g_object_unref(buf);
}
return dmm_update_loop_running;
}
static GtkWidget * fmcomms2_init(GtkWidget *notebook, const char *ini_fn)
{
GtkBuilder *builder;
GtkWidget *dds_container;
struct iio_channel *ch0, *ch1;
can_update_widgets = false;
ctx = osc_create_context();
if (!ctx)
return NULL;
dev = iio_context_find_device(ctx, PHY_DEVICE);
dds = iio_context_find_device(ctx, DDS_DEVICE);
cap = iio_context_find_device(ctx, CAP_DEVICE);
udc_rx = iio_context_find_device(ctx, UDC_RX_DEVICE);
udc_tx = iio_context_find_device(ctx, UDC_TX_DEVICE);
has_udc_driver = (udc_rx && udc_tx);
ch0 = iio_device_find_channel(dev, "voltage0", false);
ch1 = iio_device_find_channel(dev, "voltage1", false);
dac_tx_manager = dac_data_manager_new(dds, NULL, ctx);
if (!dac_tx_manager) {
iio_context_destroy(ctx);
return NULL;
}
const char *env_freq_span = getenv("OSC_UPDN_FREQ_SPAN");
const char *env_freq_mix_sign = getenv("OSC_UPDN_FREQ_MIX_SIGN");
if(!env_freq_span) {
updn_freq_span = 2;
} else {
errno = 0;
updn_freq_span = g_strtod(env_freq_span, NULL);
if (errno)
updn_freq_span = 2;
}
if(!env_freq_mix_sign) {
updn_freq_mix_sign = 1;
} else {
if (!strncmp(env_freq_mix_sign, "-", 1))
updn_freq_mix_sign = -1;
else
updn_freq_mix_sign = 1;
}
builder = gtk_builder_new();
nbook = GTK_NOTEBOOK(notebook);
if (!gtk_builder_add_from_file(builder, "fmcomms2.glade", NULL))
gtk_builder_add_from_file(builder, OSC_GLADE_FILE_PATH "fmcomms2.glade", NULL);
is_2rx_2tx = ch1 && iio_channel_find_attr(ch1, "hardwaregain");
fmcomms2_panel = GTK_WIDGET(gtk_builder_get_object(builder, "fmcomms2_panel"));
/* Global settings */
ensm_mode = GTK_WIDGET(gtk_builder_get_object(builder, "ensm_mode"));
ensm_mode_available = GTK_WIDGET(gtk_builder_get_object(builder, "ensm_mode_available"));
calib_mode = GTK_WIDGET(gtk_builder_get_object(builder, "calib_mode"));
calib_mode_available = GTK_WIDGET(gtk_builder_get_object(builder, "calib_mode_available"));
trx_rate_governor = GTK_WIDGET(gtk_builder_get_object(builder, "trx_rate_governor"));
trx_rate_governor_available = GTK_WIDGET(gtk_builder_get_object(builder, "trx_rate_governor_available"));
tx_path_rates = GTK_WIDGET(gtk_builder_get_object(builder, "label_tx_path"));
rx_path_rates = GTK_WIDGET(gtk_builder_get_object(builder, "label_rx_path"));
filter_fir_config = GTK_WIDGET(gtk_builder_get_object(builder, "filter_fir_config"));
enable_fir_filter_rx = GTK_WIDGET(gtk_builder_get_object(builder, "enable_fir_filter_rx"));
fir_filter_en_tx = GTK_WIDGET(gtk_builder_get_object(builder, "fir_filter_en_tx"));
enable_fir_filter_rx_tx = GTK_WIDGET(gtk_builder_get_object(builder, "enable_fir_filter_tx_rx"));
disable_all_fir_filters = GTK_WIDGET(gtk_builder_get_object(builder, "disable_all_fir_filters"));
up_down_converter = GTK_WIDGET(gtk_builder_get_object(builder, "checkbox_up_down_converter"));
section_toggle[SECTION_GLOBAL] = GTK_TOGGLE_TOOL_BUTTON(gtk_builder_get_object(builder, "global_settings_toggle"));
section_setting[SECTION_GLOBAL] = GTK_WIDGET(gtk_builder_get_object(builder, "global_settings"));
section_toggle[SECTION_TX] = GTK_TOGGLE_TOOL_BUTTON(gtk_builder_get_object(builder, "tx_toggle"));
section_setting[SECTION_TX] = GTK_WIDGET(gtk_builder_get_object(builder, "tx_settings"));
section_toggle[SECTION_RX] = GTK_TOGGLE_TOOL_BUTTON(gtk_builder_get_object(builder, "rx_toggle"));
section_setting[SECTION_RX] = GTK_WIDGET(gtk_builder_get_object(builder, "rx_settings"));
section_toggle[SECTION_FPGA] = GTK_TOGGLE_TOOL_BUTTON(gtk_builder_get_object(builder, "fpga_toggle"));
section_setting[SECTION_FPGA] = GTK_WIDGET(gtk_builder_get_object(builder, "fpga_settings"));
/* Receive Chain */
rf_port_select_rx = GTK_WIDGET(gtk_builder_get_object(builder, "rf_port_select_rx"));
rx_gain_control_rx1 = GTK_WIDGET(gtk_builder_get_object(builder, "gain_control_mode_rx1"));
rx_gain_control_rx2 = GTK_WIDGET(gtk_builder_get_object(builder, "gain_control_mode_rx2"));
rx_gain_control_modes_rx1 = GTK_WIDGET(gtk_builder_get_object(builder, "gain_control_mode_available_rx1"));
rx_gain_control_modes_rx2 = GTK_WIDGET(gtk_builder_get_object(builder, "gain_control_mode_available_rx2"));
rx1_rssi = GTK_WIDGET(gtk_builder_get_object(builder, "rssi_rx1"));
rx2_rssi = GTK_WIDGET(gtk_builder_get_object(builder, "rssi_rx2"));
rx_fastlock_profile = GTK_WIDGET(gtk_builder_get_object(builder, "rx_fastlock_profile"));
/* Transmit Chain */
rf_port_select_tx = GTK_WIDGET(gtk_builder_get_object(builder, "rf_port_select_tx"));
tx_fastlock_profile = GTK_WIDGET(gtk_builder_get_object(builder, "tx_fastlock_profile"));
tx1_rssi = GTK_WIDGET(gtk_builder_get_object(builder, "rssi_tx1"));
tx2_rssi = GTK_WIDGET(gtk_builder_get_object(builder, "rssi_tx2"));
dds_container = GTK_WIDGET(gtk_builder_get_object(builder, "dds_transmit_block"));
gtk_container_add(GTK_CONTAINER(dds_container), dac_data_manager_get_gui_container(dac_tx_manager));
gtk_widget_show_all(dds_container);
rx_phase_rotation[0] = GTK_WIDGET(gtk_builder_get_object(builder, "rx1_phase_rotation"));
rx_phase_rotation[1] = GTK_WIDGET(gtk_builder_get_object(builder, "rx2_phase_rotation"));
gtk_combo_box_set_active(GTK_COMBO_BOX(ensm_mode_available), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(trx_rate_governor_available), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(rx_gain_control_modes_rx1), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(rx_gain_control_modes_rx2), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(rf_port_select_rx), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(rf_port_select_tx), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(rx_fastlock_profile), 0);
gtk_combo_box_set_active(GTK_COMBO_BOX(tx_fastlock_profile), 0);
/* Set FMCOMMS2/3 max sampling freq -> 61.44MHz and FMCOMMS4 -> 122.88 */
GtkWidget *sfreq = GTK_WIDGET(gtk_builder_get_object(builder, "sampling_freq_tx"));
GtkAdjustment *sfreq_adj = gtk_spin_button_get_adjustment(GTK_SPIN_BUTTON(sfreq));
if (is_2rx_2tx)
gtk_adjustment_set_upper(sfreq_adj, 61.44);
else
gtk_adjustment_set_upper(sfreq_adj, 122.88);
/* Bind the IIO device files to the GUI widgets */
glb_widgets = widgets;
/* Global settings */
iio_combo_box_init(&glb_widgets[num_glb++],
dev, NULL, "ensm_mode", "ensm_mode_available",
ensm_mode_available, NULL);
iio_combo_box_init(&glb_widgets[num_glb++],
dev, NULL, "calib_mode", "calib_mode_available",
calib_mode_available, NULL);
iio_combo_box_init(&glb_widgets[num_glb++],
dev, NULL, "trx_rate_governor", "trx_rate_governor_available",
trx_rate_governor_available, NULL);
dcxo_coarse_num = num_glb;
iio_spin_button_int_init_from_builder(&glb_widgets[num_glb++],
dev, NULL, "dcxo_tune_coarse", builder, "dcxo_coarse_tune",
0);
dcxo_fine_num = num_glb;
iio_spin_button_int_init_from_builder(&glb_widgets[num_glb++],
dev, NULL, "dcxo_tune_fine", builder, "dcxo_fine_tune",
0);
rx_widgets = &glb_widgets[num_glb];
/* Receive Chain */
iio_combo_box_init(&rx_widgets[num_rx++],
dev, ch0, "gain_control_mode",
"gain_control_mode_available",
rx_gain_control_modes_rx1, NULL);
iio_combo_box_init(&rx_widgets[num_rx++],
dev, ch0, "rf_port_select",
"rf_port_select_available",
rf_port_select_rx, NULL);
if (is_2rx_2tx)
iio_combo_box_init(&rx_widgets[num_rx++],
dev, ch1, "gain_control_mode",
"gain_control_mode_available",
rx_gain_control_modes_rx2, NULL);
rx1_gain = num_rx;
iio_spin_button_int_init_from_builder(&rx_widgets[num_rx++],
dev, ch0, "hardwaregain", builder,
"hardware_gain_rx1", NULL);
if (is_2rx_2tx) {
rx2_gain = num_rx;
iio_spin_button_int_init_from_builder(&rx_widgets[num_rx++],
dev, ch1, "hardwaregain", builder,
"hardware_gain_rx2", NULL);
}
rx_sample_freq = num_rx;
iio_spin_button_int_init_from_builder(&rx_widgets[num_rx++],
dev, ch0, "sampling_frequency", builder,
"sampling_freq_rx", &mhz_scale);
iio_spin_button_add_progress(&rx_widgets[num_rx - 1]);
iio_spin_button_int_init_from_builder(&rx_widgets[num_rx++],
dev, ch0, "rf_bandwidth", builder, "rf_bandwidth_rx",
&mhz_scale);
iio_spin_button_add_progress(&rx_widgets[num_rx - 1]);
rx_lo = num_rx;
ch1 = iio_device_find_channel(dev, "altvoltage0", true);
if (iio_channel_find_attr(ch1, "frequency"))
freq_name = "frequency";
else
freq_name = "RX_LO_frequency";
iio_spin_button_s64_init_from_builder(&rx_widgets[num_rx++],
dev, ch1, freq_name, builder,
"rx_lo_freq", &mhz_scale);
iio_spin_button_add_progress(&rx_widgets[num_rx - 1]);
iio_toggle_button_init_from_builder(&rx_widgets[num_rx++],
dev, ch0, "quadrature_tracking_en", builder,
"quad", 0);
iio_toggle_button_init_from_builder(&rx_widgets[num_rx++],
dev, ch0, "rf_dc_offset_tracking_en", builder,
"rfdc", 0);
iio_toggle_button_init_from_builder(&rx_widgets[num_rx++],
dev, ch0, "bb_dc_offset_tracking_en", builder,
"bbdc", 0);
iio_spin_button_init_from_builder(&rx_widgets[num_rx],
dev, ch1, "calibphase",
builder, "rx1_phase_rotation", NULL);
iio_spin_button_add_progress(&rx_widgets[num_rx++]);
ch0 = iio_device_find_channel(dev, "altvoltage0", true);
if (iio_channel_find_attr(ch0, "fastlock_store"))
rx_fastlock_store_name = "fastlock_store";
else
rx_fastlock_store_name = "RX_LO_fastlock_store";
if (iio_channel_find_attr(ch0, "fastlock_recall"))
rx_fastlock_recall_name = "fastlock_recall";
else
rx_fastlock_recall_name = "RX_LO_fastlock_recall";
/* Transmit Chain */
tx_widgets = &rx_widgets[num_rx];
ch0 = iio_device_find_channel(dev, "voltage0", true);
if (is_2rx_2tx)
ch1 = iio_device_find_channel(dev, "voltage1", true);
tx_rssi_available = ch0 && iio_channel_find_attr(ch0, "rssi");
if (is_2rx_2tx)
tx_rssi_available = tx_rssi_available &&
(ch1 && iio_channel_find_attr(ch1, "rssi"));
iio_combo_box_init(&tx_widgets[num_tx++],
dev, ch0, "rf_port_select",
"rf_port_select_available",
rf_port_select_tx, NULL);
iio_spin_button_init_from_builder(&tx_widgets[num_tx++],
dev, ch0, "hardwaregain", builder,
"hardware_gain_tx1", &inv_scale);
if (is_2rx_2tx)
iio_spin_button_init_from_builder(&tx_widgets[num_tx++],
dev, ch1, "hardwaregain", builder,
"hardware_gain_tx2", &inv_scale);
tx_sample_freq = num_tx;
iio_spin_button_int_init_from_builder(&tx_widgets[num_tx++],
dev, ch0, "sampling_frequency", builder,
"sampling_freq_tx", &mhz_scale);
iio_spin_button_add_progress(&tx_widgets[num_tx - 1]);
iio_spin_button_int_init_from_builder(&tx_widgets[num_tx++],
dev, ch0, "rf_bandwidth", builder,
"rf_bandwidth_tx", &mhz_scale);
iio_spin_button_add_progress(&tx_widgets[num_tx - 1]);
tx_lo = num_tx;
ch1 = iio_device_find_channel(dev, "altvoltage1", true);
if (iio_channel_find_attr(ch1, "frequency"))
freq_name = "frequency";
else
freq_name = "TX_LO_frequency";
iio_spin_button_s64_init_from_builder(&tx_widgets[num_tx++],
dev, ch1, freq_name, builder, "tx_lo_freq", &mhz_scale);
iio_spin_button_add_progress(&tx_widgets[num_tx - 1]);
ch1 = iio_device_find_channel(dev, "altvoltage1", true);
if (ini_fn)
load_profile(ini_fn);
/* Update all widgets with current values */
printf("Updating widgets...\n");
update_widgets();
rx_freq_info_update();
printf("Updating FIR filter...\n");
filter_fir_update();
gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(disable_all_fir_filters), true);
glb_settings_update_labels();
rssi_update_labels();
dac_data_manager_freq_widgets_range_update(dac_tx_manager,
get_gui_tx_sampling_freq() / 2.0);
dac_data_manager_update_iio_widgets(dac_tx_manager);
/* Widgets bindings */
g_builder_bind_property(builder, "rssi_tx1", "visible",
"label_rssi_tx1", "sensitive", G_BINDING_DEFAULT);
g_builder_bind_property(builder, "rssi_tx2", "visible",
"label_rssi_tx2", "sensitive", G_BINDING_DEFAULT);
/* Connect signals */
if (iio_channel_find_attr(ch1, "fastlock_store"))
tx_fastlock_store_name = "fastlock_store";
else
tx_fastlock_store_name = "TX_LO_fastlock_store";
if (iio_channel_find_attr(ch1, "fastlock_recall"))
tx_fastlock_recall_name = "fastlock_recall";
else
tx_fastlock_recall_name = "TX_LO_fastlock_recall";
g_builder_connect_signal(builder, "rx1_phase_rotation", "value-changed",
G_CALLBACK(rx_phase_rotation_set), (gpointer *)0);
g_builder_connect_signal(builder, "rx2_phase_rotation", "value-changed",
G_CALLBACK(rx_phase_rotation_set), (gpointer *)2);
g_builder_connect_signal(builder, "sampling_freq_tx", "value-changed",
G_CALLBACK(tx_sample_rate_changed), NULL);
g_builder_connect_signal(builder, "fmcomms2_settings_reload", "clicked",
G_CALLBACK(reload_button_clicked), NULL);
g_builder_connect_signal(builder, "filter_fir_config", "file-set",
G_CALLBACK(filter_fir_config_file_set_cb), NULL);
g_builder_connect_signal(builder, "rx_fastlock_store", "clicked",
G_CALLBACK(fastlock_clicked), (gpointer) 1);
g_builder_connect_signal(builder, "tx_fastlock_store", "clicked",
G_CALLBACK(fastlock_clicked), (gpointer) 2);
g_builder_connect_signal(builder, "rx_fastlock_recall", "clicked",
G_CALLBACK(fastlock_clicked), (gpointer) 3);
g_builder_connect_signal(builder, "tx_fastlock_recall", "clicked",
G_CALLBACK(fastlock_clicked), (gpointer) 4);
g_signal_connect_after(section_toggle[SECTION_GLOBAL], "clicked",
G_CALLBACK(hide_section_cb), section_setting[SECTION_GLOBAL]);
g_signal_connect_after(section_toggle[SECTION_TX], "clicked",
G_CALLBACK(hide_section_cb), section_setting[SECTION_TX]);
g_signal_connect_after(section_toggle[SECTION_RX], "clicked",
G_CALLBACK(hide_section_cb), section_setting[SECTION_RX]);
g_signal_connect_after(section_toggle[SECTION_FPGA], "clicked",
G_CALLBACK(hide_section_cb), section_setting[SECTION_FPGA]);
g_signal_connect_after(ensm_mode_available, "changed",
G_CALLBACK(glb_settings_update_labels), NULL);
g_signal_connect_after(calib_mode_available, "changed",
G_CALLBACK(glb_settings_update_labels), NULL);
g_signal_connect_after(trx_rate_governor_available, "changed",
G_CALLBACK(glb_settings_update_labels), NULL);
g_signal_connect_after(rx_gain_control_modes_rx1, "changed",
G_CALLBACK(glb_settings_update_labels), NULL);
g_signal_connect_after(rx_gain_control_modes_rx2, "changed",
G_CALLBACK(glb_settings_update_labels), NULL);
if (tx_rssi_available)
g_signal_connect(rf_port_select_rx, "changed",
G_CALLBACK(rf_port_select_rx_changed_cb), NULL);
g_signal_connect_after(enable_fir_filter_rx, "toggled",
G_CALLBACK(filter_fir_enable), NULL);
g_signal_connect_after(fir_filter_en_tx, "toggled",
G_CALLBACK(filter_fir_enable), NULL);
g_signal_connect_after(enable_fir_filter_rx_tx, "toggled",
G_CALLBACK(filter_fir_enable), NULL);
g_signal_connect_after(disable_all_fir_filters, "toggled",
G_CALLBACK(filter_fir_enable), NULL);
g_signal_connect(up_down_converter, "toggled",
G_CALLBACK(up_down_converter_toggled_cb), NULL);
make_widget_update_signal_based(glb_widgets, num_glb);
make_widget_update_signal_based(rx_widgets, num_rx);
make_widget_update_signal_based(tx_widgets, num_tx);
iio_spin_button_set_on_complete_function(&rx_widgets[rx_sample_freq],
sample_frequency_changed_cb, NULL);
iio_spin_button_set_on_complete_function(&tx_widgets[tx_sample_freq],
sample_frequency_changed_cb, NULL);
iio_spin_button_set_on_complete_function(&rx_widgets[rx_lo],
sample_frequency_changed_cb, NULL);
iio_spin_button_set_on_complete_function(&tx_widgets[tx_lo],
sample_frequency_changed_cb, NULL);
add_ch_setup_check_fct("cf-ad9361-lpc", channel_combination_check);
struct iio_device *adc_dev;
struct extra_dev_info *adc_info;
adc_dev = iio_context_find_device(get_context_from_osc(), CAP_DEVICE);
if (adc_dev) {
adc_info = iio_device_get_data(adc_dev);
if (adc_info)
adc_info->plugin_fft_corr = 20 * log10(1/sqrt(HANNING_ENBW));
}
block_diagram_init(builder, 2, "fmcomms2.svg", "AD_FMCOMM2S2_RevC.jpg");
gtk_file_chooser_set_current_folder (GTK_FILE_CHOOSER(filter_fir_config), OSC_FILTER_FILE_PATH);
dac_data_manager_set_buffer_chooser_current_folder(dac_tx_manager, OSC_WAVEFORM_FILE_PATH);
if (!is_2rx_2tx) {
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "frame_rx2")));
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "frame_fpga_rx2")));
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "table_hw_gain_tx2")));
}
if (!tx_rssi_available) {
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "rssi_tx1")));
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "rssi_tx2")));
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "label_rssi_tx1")));
gtk_widget_hide(GTK_WIDGET(gtk_builder_get_object(builder, "label_rssi_tx2")));
}
gtk_widget_set_visible(up_down_converter, has_udc_driver);
g_timeout_add(1000, (GSourceFunc) update_display, ctx);
can_update_widgets = true;
return fmcomms2_panel;
}
