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/*
* Copyright (C) 2017,2018 Konsulko Group
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include <glib.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <json-c/json.h>
#include <gst/gst.h>
#include <afb/afb-binding.h>
#include "radio_impl.h"
#define SI_NODE "/sys/firmware/devicetree/base/si468x@0/compatible"
#define SI_CTL "/usr/bin/si_ctl"
#define SI_CTL_CMDLINE_MAXLEN 128
#define SI_CTL_OUTPUT_MAXLEN 128
#define GST_PIPELINE_LEN 256
// Structure to describe FM band plans, all values in Hz.
typedef struct {
char *name;
uint32_t min;
uint32_t max;
uint32_t step;
} fm_band_plan_t;
static fm_band_plan_t known_fm_band_plans[5] = {
{ .name = "US", .min = 87900000, .max = 107900000, .step = 200000 },
{ .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 },
{ .name = "EU", .min = 87500000, .max = 108000000, .step = 50000 },
{ .name = "ITU-1", .min = 87500000, .max = 108000000, .step = 50000 },
{ .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 }
};
static unsigned int bandplan = 0;
static bool corking = false;
static bool present = false;
static uint32_t current_frequency;
static int scan_valid_snr_threshold = 128;
static int scan_valid_rssi_threshold = 128;
static bool scanning = false;
// stream state
static GstElement *pipeline;
static bool running;
static void (*freq_callback)(uint32_t, void*);
static void *freq_callback_data;
static uint32_t kf_get_min_frequency(radio_band_t band);
static void kf_scan_stop(void);
static gboolean handle_message(GstBus *bus, GstMessage *msg, __attribute__((unused)) void *ptr)
{
GstState state;
if (GST_MESSAGE_TYPE(msg) == GST_MESSAGE_REQUEST_STATE) {
gst_message_parse_request_state(msg, &state);
if (state == GST_STATE_PAUSED)
corking = true;
else if (state == GST_STATE_PLAYING)
corking = false;
}
return TRUE;
}
static int kf_init(void)
{
GKeyFile* conf_file;
int conf_file_present = 0;
struct stat statbuf;
char *value_str;
char cmd[SI_CTL_CMDLINE_MAXLEN];
int rc;
char gst_pipeline_str[GST_PIPELINE_LEN];
if(present)
return 0;
// Check for Kingfisher SI486x devicetree node
if(stat(SI_NODE, &statbuf) != 0)
return -1;
// Check for Cogent's si_ctl utility
if(stat(SI_CTL, &statbuf) != 0)
return -1;
// Load settings from configuration file if it exists
conf_file = g_key_file_new();
if(conf_file &&
g_key_file_load_from_dirs(conf_file,
"AGL.conf",
(const gchar**) g_get_system_config_dirs(),
NULL,
G_KEY_FILE_KEEP_COMMENTS,
NULL) == TRUE) {
conf_file_present = 1;
// Set band plan if it is specified
value_str = g_key_file_get_string(conf_file,
"radio",
"fmbandplan",
NULL);
if(value_str) {
unsigned int i;
for(i = 0;
i < sizeof(known_fm_band_plans) / sizeof(fm_band_plan_t);
i++) {
if(!strcasecmp(value_str, known_fm_band_plans[i].name)) {
bandplan = i;
break;
}
}
}
}
if(conf_file_present) {
GError *error = NULL;
int n;
// Allow over-riding scanning parameters just in case a demo
// setup needs to do so to work reliably.
n = g_key_file_get_integer(conf_file,
"radio",
"scan_valid_snr_threshold",
&error);
if(!error) {
AFB_INFO("Scan valid SNR level set to %d", n);
scan_valid_snr_threshold = n;
}
error = NULL;
n = g_key_file_get_integer(conf_file,
"radio",
"scan_valid_rssi_threshold",
&error);
if(!error) {
AFB_INFO("Scan valid SNR level set to %d", n);
scan_valid_rssi_threshold = n;
}
g_key_file_free(conf_file);
}
AFB_INFO("Using FM Bandplan: %s", known_fm_band_plans[bandplan].name);
current_frequency = kf_get_min_frequency(BAND_FM);
snprintf(cmd,
sizeof(cmd),
"%s /dev/i2c-12 0x65 -b fm -p %s -t %d -u %d -c %d",
SI_CTL,
known_fm_band_plans[bandplan].name,
scan_valid_snr_threshold,
scan_valid_rssi_threshold,
current_frequency / 1000);
rc = system(cmd);
if(rc != 0) {
AFB_ERROR("%s failed, rc = %d", SI_CTL, rc);
return -1;
}
// Initialize GStreamer
gst_init(NULL, NULL);
// Use PipeWire output
rc = snprintf(gst_pipeline_str,
GST_PIPELINE_LEN,
"alsasrc device=hw:radio ! queue ! audioconvert ! audioresample ! pwaudiosink stream-properties=\"p,media.role=Multimedia\"");
if(rc >= GST_PIPELINE_LEN) {
AFB_ERROR("pipeline string too long");
return -1;
}
pipeline = gst_parse_launch(gst_pipeline_str, NULL);
if(!pipeline) {
AFB_ERROR("pipeline construction failed!");
return -1;
}
// Start pipeline in paused state
gst_element_set_state(pipeline, GST_STATE_PAUSED);
gst_bus_add_watch(gst_element_get_bus(pipeline), (GstBusFunc) handle_message, NULL);
present = true;
return 0;
}
static void kf_set_output(const char *output)
{
}
static uint32_t kf_get_frequency(void)
{
return current_frequency;
}
static void kf_set_frequency(uint32_t frequency)
{
char cmd[SI_CTL_CMDLINE_MAXLEN];
int rc;
if(!present)
return;
if(scanning)
return;
if(frequency < known_fm_band_plans[bandplan].min ||
frequency > known_fm_band_plans[bandplan].max)
return;
kf_scan_stop();
snprintf(cmd, sizeof(cmd), "%s /dev/i2c-12 0x65 -c %d", SI_CTL, frequency / 1000);
rc = system(cmd);
if(rc == 0)
current_frequency = frequency;
if(freq_callback)
freq_callback(current_frequency, freq_callback_data);
}
static void kf_set_frequency_callback(radio_freq_callback_t callback,
void *data)
{
freq_callback = callback;
freq_callback_data = data;
}
static char * kf_get_rds_info(void) {
char cmd[SI_CTL_CMDLINE_MAXLEN];
char line[SI_CTL_OUTPUT_MAXLEN];
char * rds = NULL;
FILE *fp;
if (scanning)
goto done;
snprintf(cmd, sizeof(cmd), "%s /dev/i2c-12 0x65 -m", SI_CTL);
fp = popen(cmd, "r");
if(fp == NULL) {
fprintf(stderr, "Could not run: %s!\n", cmd);
goto done;
}
/* Look for "Name:" in output */
while (fgets(line, sizeof(line), fp) != NULL) {
char* nS = strstr(line, "Name:");
char * end;
if (!nS)
continue;
end = nS+strlen("Name:");
/* remove the trailing '\n' */
end[strlen(end)-1] = '\0';
rds = strdup(end);
break;
}
/* Make sure si_ctl has finished */
pclose(fp);
done:
return rds;
}
static radio_band_t kf_get_band(void)
{
return BAND_FM;
}
static void kf_set_band(radio_band_t band)
{
// We only support FM, so do nothing
}
static int kf_band_supported(radio_band_t band)
{
if(band == BAND_FM)
return 1;
return 0;
}
static uint32_t kf_get_min_frequency(radio_band_t band)
{
return known_fm_band_plans[bandplan].min;
}
static uint32_t kf_get_max_frequency(radio_band_t band)
{
return known_fm_band_plans[bandplan].max;
}
static uint32_t kf_get_frequency_step(radio_band_t band)
{
uint32_t ret = 0;
switch (band) {
case BAND_AM:
ret = 1000; // 1 kHz
break;
case BAND_FM:
ret = known_fm_band_plans[bandplan].step;
break;
default:
break;
}
return ret;
}
static bool kf_get_corking_state(void)
{
return corking;
}
static void kf_start(void)
{
if(!present)
return;
if(!running) {
// Start pipeline
gst_element_set_state(pipeline, GST_STATE_PLAYING);
running = true;
}
}
static void kf_stop(void)
{
GstEvent *event;
if(present && running) {
// Stop pipeline
running = false;
gst_element_set_state(pipeline, GST_STATE_PAUSED);
// Flush pipeline
// This seems required to avoid stutters on starts after a stop
event = gst_event_new_flush_start();
gst_element_send_event(GST_ELEMENT(pipeline), event);
event = gst_event_new_flush_stop(TRUE);
gst_element_send_event(GST_ELEMENT(pipeline), event);
}
}
static void kf_scan_start(radio_scan_direction_t direction,
radio_scan_callback_t callback,
void *data)
{
int rc;
char cmd[SI_CTL_CMDLINE_MAXLEN];
char line[SI_CTL_OUTPUT_MAXLEN];
uint32_t new_frequency = 0;
FILE *fp;
if(!present)
return;
if(scanning)
return;
scanning = true;
snprintf(cmd,
SI_CTL_CMDLINE_MAXLEN,
"%s /dev/i2c-12 0x65 -l %s",
SI_CTL, direction == SCAN_FORWARD ? "up" : "down");
fp = popen(cmd, "r");
if(fp == NULL) {
AFB_ERROR("Could not run: %s!", cmd);
return;
}
// Look for "Frequency:" in output
while(fgets(line, SI_CTL_OUTPUT_MAXLEN, fp) != NULL) {
if(strncmp("Frequency:", line, 10) == 0) {
new_frequency = atoi(line + 10);
//AFB_DEBUG("%s: got new_frequency = %d", __FUNCTION__, new_frequency);
break;
}
}
// Make sure si_ctl has finished
rc = pclose(fp);
if(rc != 0) {
// Make sure we reset to original frequency, the Si4689 seems
// to auto-mute sometimes on failed scans, this hopefully works
// around that.
new_frequency = 0;
}
if(new_frequency) {
current_frequency = new_frequency * 1000;
// Push up the new frequency
// This is more efficient than calling kf_set_frequency and calling
// out to si_ctl again.
if(freq_callback)
freq_callback(current_frequency, freq_callback_data);
} else {
// Assume no station found, go back to starting frequency
kf_set_frequency(current_frequency);
}
// Push up scan state
if(callback)
callback(current_frequency, data);
scanning = false;
}
static void kf_scan_stop(void)
{
// ATM, it's not straightforward to stop a scan since we're using the si_ctl utility...
}
static radio_stereo_mode_t kf_get_stereo_mode(void)
{
return STEREO;
}
static void kf_set_stereo_mode(radio_stereo_mode_t mode)
{
// We only support stereo, so do nothing
}
radio_impl_ops_t kf_impl_ops = {
.name = "Kingfisher Si4689",
.init = kf_init,
.set_output = kf_set_output,
.get_frequency = kf_get_frequency,
.set_frequency = kf_set_frequency,
.set_frequency_callback = kf_set_frequency_callback,
.get_band = kf_get_band,
.set_band = kf_set_band,
.band_supported = kf_band_supported,
.get_min_frequency = kf_get_min_frequency,
.get_max_frequency = kf_get_max_frequency,
.get_frequency_step = kf_get_frequency_step,
.get_corking_state = kf_get_corking_state,
.start = kf_start,
.stop = kf_stop,
.scan_start = kf_scan_start,
.scan_stop = kf_scan_stop,
.get_stereo_mode = kf_get_stereo_mode,
.set_stereo_mode = kf_set_stereo_mode,
.get_rds_info = kf_get_rds_info
};
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