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authorEhsan Takalloo <ehsan.takalloo@gmail.com>2020-08-10 17:18:39 +0430
committerScott Murray <scott.murray@konsulko.com>2020-09-01 13:13:55 -0400
commit4cdb281367813ffc12face0bbcba300fe6e7e2d3 (patch)
treee69cfe4402212d1db80f963c54c7c7d86205e898 /binding
parent377a25d3f0831b5fd4a0ac01358ec86341d2531e (diff)
Add rds event
Update types in radio_impl_tef665x.c and radio_impl_tef665x.h Add rds verb to tef665x and send latest rds as response Implement rds parser based on rds standard structure and tef-665x user-manual for rds group types 0A, 0B, 1A, 2A, 2B and 4A Implement scan_start verb for tef-665x Implement scan_stop verb for tef-665x Implement get stereo_mode verb for tef-665x Fix an issue in tef665x_set_frequency_callback Update README.md file Signed-off-by: Ehsan Takalloo <ehsan.takalloo@gmail.com> Change-Id: Ife057e46c52fc420541dbad3b4f51c7d01707a3d
Diffstat (limited to 'binding')
-rw-r--r--binding/radio-binding.c24
-rw-r--r--binding/radio_impl.h4
-rw-r--r--binding/radio_impl_tef665x.c1358
-rw-r--r--binding/tef665x.h98
4 files changed, 1368 insertions, 116 deletions
diff --git a/binding/radio-binding.c b/binding/radio-binding.c
index 6df4b6d..0ab5565 100644
--- a/binding/radio-binding.c
+++ b/binding/radio-binding.c
@@ -36,6 +36,7 @@ static radio_impl_ops_t *radio_impl_ops;
static afb_event_t freq_event;
static afb_event_t scan_event;
static afb_event_t status_event;
+static afb_event_t rds_event;
static bool playing;
@@ -64,6 +65,12 @@ static void scan_callback(uint32_t frequency, void *data)
afb_event_push(scan_event, json_object_get(jresp));
}
+static void rds_callback(void *rds_data)
+{
+ //rds_data is a json object
+ afb_event_push(rds_event, json_object_get(rds_data));
+}
+
/*
* Binding verb handlers
*/
@@ -464,7 +471,10 @@ static void subscribe(afb_req_t request)
afb_req_subscribe(request, scan_event);
} else if(!strcasecmp(value, "status")) {
afb_req_subscribe(request, status_event);
- } else {
+ } else if(!strcasecmp(value, "rds")) {
+ afb_req_subscribe(request, rds_event);
+ }
+ else {
afb_req_reply(request, NULL, "failed", "Invalid event");
return;
}
@@ -488,6 +498,10 @@ static void unsubscribe(afb_req_t request)
afb_req_unsubscribe(request, scan_event);
} else if(!strcasecmp(value, "status")) {
afb_req_unsubscribe(request, status_event);
+
+ } else if(!strcasecmp(value, "rds")) {
+ afb_req_unsubscribe(request, rds_event);
+
} else {
afb_req_reply(request, NULL, "failed", "Invalid event");
return;
@@ -572,6 +586,12 @@ static int init(afb_api_t api)
if(rc == 0) {
AFB_API_NOTICE(afbBindingV3root, "%s found\n", radio_impl_ops->name);
radio_impl_ops->set_frequency_callback(freq_callback, NULL);
+ if(radio_impl_ops->set_rds_callback)
+ {
+ radio_impl_ops->set_rds_callback(rds_callback);
+ }
+
+
} else {
return rc;
}
@@ -600,7 +620,7 @@ static int init(afb_api_t api)
freq_event = afb_daemon_make_event("frequency");
scan_event = afb_daemon_make_event("station_found");
status_event = afb_daemon_make_event("status");
-
+ rds_event = afb_daemon_make_event("rds");
return 0;
}
diff --git a/binding/radio_impl.h b/binding/radio_impl.h
index 009df9b..2867d7f 100644
--- a/binding/radio_impl.h
+++ b/binding/radio_impl.h
@@ -33,6 +33,8 @@ typedef void (*radio_scan_callback_t)(uint32_t frequency, void *data);
typedef void (*radio_freq_callback_t)(uint32_t frequency, void *data);
+typedef void (*radio_rds_callback_t)(void *rds_data);
+
typedef enum {
MONO = 0,
STEREO
@@ -52,6 +54,8 @@ typedef struct {
void (*set_frequency_callback)(radio_freq_callback_t callback,
void *data);
+ void (*set_rds_callback)(radio_rds_callback_t callback);
+
radio_band_t (*get_band)(void);
void (*set_band)(radio_band_t band);
diff --git a/binding/radio_impl_tef665x.c b/binding/radio_impl_tef665x.c
index a1cc2e3..eeac170 100644
--- a/binding/radio_impl_tef665x.c
+++ b/binding/radio_impl_tef665x.c
@@ -14,10 +14,11 @@
/*
TODO:
at this point:
- - complete the rest of verbs.
+ - complete the set stereo_mode verb.
- find a way to tell the service which i2c chanel is used.
- separate the functions of driver from the verbs by creating new c file.
- find a way of monitoring the quality of tuning and correct it time by time.
+ - use Interupt for getting RDS data
*/
#include <stdio.h>
#include <stdlib.h>
@@ -30,15 +31,17 @@
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <linux/i2c-dev.h>
+#include <linux/i2c.h>
#include <stdarg.h>
#include <error.h>
#include <gst/gst.h>
-
+#include <time.h>
//#include <json-c/json.h>
//#include <gst/gst.h>
#include <afb/afb-binding.h>
+#include <pthread.h>
#include "radio_impl.h"
#include "tef665x.h"
@@ -55,15 +58,16 @@
#define TEF665x_IS_CRYSTAL_CLK 0 //crstal
#define TEF665x_IS_EXT_CLK 1 //external clock input
-#define High_16bto8b(a) ((u8)((a) >> 8))
-#define Low_16bto8b(a) ((u8)(a))
-#define Convert8bto16b(a) ((ushort)(((ushort)(*(a))) << 8 |((ushort)(*(a+1)))))
+#define High_16bto8b(a) ((uint8_t)((a) >> 8))
+#define Low_16bto8b(a) ((uint8_t)(a))
+#define Convert8bto16b(a) ((uint16_t)(((uint16_t)(*(a))) << 8 |((uint16_t)(*(a+1)))))
#define GST_PIPELINE_LEN 256
-const u8 tef665x_patch_cmdTab1[] = {3, 0x1c,0x00,0x00};
-const u8 tef665x_patch_cmdTab2[] = {3, 0x1c,0x00,0x74};
-const u8 tef665x_patch_cmdTab3[] = {3, 0x1c,0x00,0x75};
+const uint8_t tef665x_patch_cmdTab1[] = {3, 0x1c,0x00,0x00};
+const uint8_t tef665x_patch_cmdTab2[] = {3, 0x1c,0x00,0x74};
+const uint8_t tef665x_patch_cmdTab3[] = {3, 0x1c,0x00,0x75};
+
typedef struct {
char *name;
@@ -72,6 +76,62 @@ typedef struct {
uint32_t step;
} band_plan_t;
+typedef struct
+{
+ int16_t level;
+ uint16_t usn;
+ uint16_t wam;
+ int16_t offset;
+ uint16_t bandw;
+}sig_quality_t;
+
+typedef struct{
+ radio_scan_callback_t callback;
+ radio_scan_direction_t direction;
+ void* data;
+}scan_data_t;
+typedef struct rds_data
+{
+ bool Text_Changed;
+ bool TrafficAnnouncement;
+ bool TrafficProgram;
+ bool Music_Speech;
+
+ uint32_t Alternative_Freq[25];
+ uint8_t Alternative_Freq_Counter;
+ uint8_t Num_AlterFreq;
+
+ uint16_t PICode;
+ uint8_t DI_Seg;
+ uint8_t PTY_Code;
+
+ uint8_t Year;
+ uint8_t Month;
+ uint8_t Day;
+ uint8_t Hour;
+ uint8_t Min;
+
+ uint8_t PTYN_Size;
+ uint8_t raw_data[12];
+
+ char PS_Name[16];
+ char RT[128];
+ char PTYN[16];
+} rds_data_t;
+
+//thread for handling RDS and Mutex
+pthread_t rds_thread;
+rds_data_t RDS_Message;
+pthread_mutex_t RDS_Mutex;
+
+
+//Threads for handling Scan
+pthread_t scan_thread;
+
+pthread_mutex_t scan_mutex;
+
+char _Temp[64]={0};
+
static band_plan_t known_fm_band_plans[5] = {
{ .name = "US", .min = 87900000, .max = 107900000, .step = 200000 },
{ .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 },
@@ -80,7 +140,7 @@ static band_plan_t known_fm_band_plans[5] = {
{ .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 }
};
static band_plan_t known_am_band_plans[1] = {
- { .name = "W-ASIA", .min = 522000, .max = 1620000, .step = 5000 }
+ { .name = "W-ASIA", .min = 522000, .max = 1620000, .step = 9000 }
};
static unsigned int fm_bandplan = 2;
@@ -93,6 +153,15 @@ static bool scanning = false;
static GstElement *pipeline;
static bool running;
+
+uint32_t AlterFreqOffset=0;
+
+static void (*freq_callback)(uint32_t, void*);
+static void (*rds_callback) (void*);
+static void *freq_callback_data;
+
+void Get_quality_status (sig_quality_t *);
+int tef665x_set_rds (uint32_t i2c_file_desc);
#define DEBUG 0
#if DEBUG == 1
@@ -101,12 +170,20 @@ static bool running;
#define _debug(x, y)
#endif
-static uint file_desc;
+static uint32_t file_desc;
static radio_band_t current_band;
static uint32_t current_am_frequency;
static uint32_t current_fm_frequency;
+static void tef665x_scan_stop (void);
+static void tef665x_set_frequency (uint32_t);
+static void tef665x_search_frequency (uint32_t);
+
+static uint32_t tef665x_get_min_frequency (radio_band_t);
+static uint32_t tef665x_get_max_frequency (radio_band_t);
+static uint32_t tef665x_get_frequency_step (radio_band_t);
+
static gboolean handle_message(GstBus *bus, GstMessage *msg, __attribute__((unused)) void *ptr)
{
GstState state;
@@ -125,11 +202,11 @@ static gboolean handle_message(GstBus *bus, GstMessage *msg, __attribute__((unus
return TRUE;
}
-static int tef665x_set_cmd(int i2c_file_desc, TEF665x_MODULE module, u8 cmd, int len, ...)
+static int tef665x_set_cmd(int i2c_file_desc, TEF665x_MODULE module, uint8_t cmd, int len, ...)
{
int i, ret;
- u8 buf[TEF665x_CMD_LEN_MAX];
- ushort temp;
+ uint8_t buf[TEF665x_CMD_LEN_MAX];
+ uint16_t temp;
va_list vArgs;
va_start(vArgs, len);
@@ -155,10 +232,10 @@ static int tef665x_set_cmd(int i2c_file_desc, TEF665x_MODULE module, u8 cmd, int
return temp;
}
-static int tef665x_get_cmd(int i2c_file_desc, TEF665x_MODULE module, u8 cmd, u8 *receive, int len)
+static int tef665x_get_cmd(int i2c_file_desc, TEF665x_MODULE module, uint8_t cmd, uint8_t *receive, int len)
{
- u8 temp;
- u8 buf[3];
+ uint8_t temp;
+ uint8_t buf[3];
int ret;
buf[0]= module; //module, FM/AM/APP
@@ -170,6 +247,8 @@ static int tef665x_get_cmd(int i2c_file_desc, TEF665x_MODULE module, u8 cmd, u8
ret = read(i2c_file_desc, receive, len);
temp = (ret == len) ? 1 : 0;
_debug("return value", temp);
+ if(temp==0)
+ AFB_ERROR("Error Number: %d: %s",errno,strerror(errno));
return temp;
}
@@ -185,9 +264,9 @@ index
3 = active state; FM
4 = active state; AM
*/
-static int appl_get_operation_status(int i2c_file_desc ,u8 *status)
+static int appl_get_operation_status(int i2c_file_desc ,uint8_t *status)
{
- u8 buf[2];
+ uint8_t buf[2];
int ret;
ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_APPL,
@@ -248,20 +327,20 @@ static int tef665x_power_on(int i2c_file_desc)
return ret;
}
-static int tef665x_writeTab(int i2c_file_desc,const u8 *tab)
+static int tef665x_writeTab(int i2c_file_desc,const uint8_t *tab)
{
int ret;
ret = write(i2c_file_desc, tab + 1, tab[0]);
return (ret != tab[0]) ? 0 : 1;
}
-static int tef665x_patch_load(int i2c_file_desc, const u8 *bytes, ushort size)
+static int tef665x_patch_load(int i2c_file_desc, const uint8_t *bytes, uint16_t size)
{
- u8 buf[25]; //the size which we break the data into, is 24 bytes.
+ uint8_t buf[25]; //the size which we break the data into, is 24 bytes.
int ret, i;
- ushort num = size / 24;
- ushort rem = size % 24;
+ uint16_t num = size / 24;
+ uint16_t rem = size % 24;
buf[0] = 0x1b;
@@ -422,17 +501,17 @@ index
0 = crystal oscillator operation (default)
1 = external clock input operation
*/
-static int tef665x_appl_set_referenceClock(uint i2c_file_desc, ushort frequency_high, ushort frequency_low, ushort type)
+static int tef665x_appl_set_referenceClock(uint32_t i2c_file_desc, uint16_t frequency_high, uint16_t frequency_low, uint16_t type)
{
return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_APPL,
TEF665X_Cmd_Set_ReferenceClock,
- 11,
+ 9,
frequency_high, frequency_low, type);
}
-static int appl_set_referenceClock(uint i2c_file_desc, uint frequency, bool is_ext_clk) //0x3d 0x900
+static int appl_set_referenceClock(uint32_t i2c_file_desc, uint32_t frequency, bool is_ext_clk) //0x3d 0x900
{
- return tef665x_appl_set_referenceClock(i2c_file_desc,(ushort)(frequency >> 16), (ushort)frequency, is_ext_clk);
+ return tef665x_appl_set_referenceClock(i2c_file_desc,(uint16_t)(frequency >> 16), (uint16_t)frequency, is_ext_clk);
}
/*
@@ -444,7 +523,7 @@ index
[ 15:0 ]
1 = goto �active� state with operation mode of �radio standby�
*/
-static int tef665x_appl_activate(uint i2c_file_desc ,ushort mode)
+static int tef665x_appl_activate(uint32_t i2c_file_desc ,uint16_t mode)
{
return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_APPL,
TEF665X_Cmd_Activate,
@@ -452,7 +531,7 @@ static int tef665x_appl_activate(uint i2c_file_desc ,ushort mode)
mode);
}
-static int appl_activate(uint i2c_file_desc)
+static int appl_activate(uint32_t i2c_file_desc)
{
return tef665x_appl_activate(i2c_file_desc, 1);
}
@@ -489,11 +568,11 @@ index
4410 = 44.1 kHz (default)
4800 = 48.0 kHz
*/
-static int tef665x_audio_set_dig_io(u8 i2c_file_desc, ushort signal, ushort mode, ushort format, ushort operation, ushort samplerate)
+static int tef665x_audio_set_dig_io(uint8_t i2c_file_desc, uint16_t signal, uint16_t mode, uint16_t format, uint16_t operation, uint16_t samplerate)
{
int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO,
TEF665X_Cmd_Set_Dig_IO,
- 15,
+ 13,
signal, mode, format, operation, samplerate);
if(ret)
{
@@ -523,7 +602,7 @@ index
1 = output enabled (default)
*/
-static int tef665x_audio_set_ana_out(uint i2c_file_desc, ushort signal,ushort mode)
+static int tef665x_audio_set_ana_out(uint32_t i2c_file_desc, uint16_t signal,uint16_t mode)
{
int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO,
TEF665X_Cmd_Set_Ana_Out,
@@ -560,7 +639,7 @@ index
224 = audio processor (default)
240 = sin wave generator
*/
-static int tef665x_set_output_src(uint i2c_file_desc, u8 signal, u8 src)
+static int tef665x_set_output_src(uint32_t i2c_file_desc, uint8_t signal, uint8_t src)
{
int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO,
TEF665X_Cmd_Set_Output_Source,
@@ -621,11 +700,11 @@ static int tef665x_idle_state(int i2c_file_desc)
return 0;
}
-static int tef665x_para_load(uint i2c_file_desc)
+static int tef665x_para_load(uint32_t i2c_file_desc)
{
int i;
int r;
- const u8 *p = init_para;
+ const uint8_t *p = init_para;
for(i = 0; i < sizeof(init_para); i += (p[i]+1))
{
@@ -635,6 +714,9 @@ static int tef665x_para_load(uint i2c_file_desc)
}
}
+ //Initiate RDS
+ tef665x_set_rds(i2c_file_desc);
+
_debug("return value", r);
return r;
}
@@ -668,7 +750,7 @@ index
MW 522 � 1710 522 � 1710 kHz / 1 kHz step size
SW 2300 � 27000 2.3 � 27 MHz / 1 kHz step size
*/
-static int tef665x_radio_tune_to (uint i2c_file_desc, bool fm, ushort mode,ushort frequency )
+static int tef665x_radio_tune_to (uint32_t i2c_file_desc, bool fm, uint16_t mode,uint16_t frequency )
{
return tef665x_set_cmd(i2c_file_desc, fm ? TEF665X_MODULE_FM: TEF665X_MODULE_AM,
TEF665X_Cmd_Tune_To,
@@ -676,16 +758,16 @@ static int tef665x_radio_tune_to (uint i2c_file_desc, bool fm, ushort mode,ushor
mode, frequency);
}
-static int FM_tune_to(uint i2c_file_desc, AR_TuningAction_t mode, ushort frequency)
+static int FM_tune_to(uint32_t i2c_file_desc, AR_TuningAction_t mode, uint16_t frequency)
{
- int ret = tef665x_radio_tune_to(i2c_file_desc, 1, (ushort)mode, frequency);
+ int ret = tef665x_radio_tune_to(i2c_file_desc, 1, (uint16_t)mode, frequency);
_debug("return value", ret);
return ret;
}
-static int AM_tune_to(uint i2c_file_desc, AR_TuningAction_t mode,ushort frequency)
+static int AM_tune_to(uint32_t i2c_file_desc, AR_TuningAction_t mode,uint16_t frequency)
{
- int ret = tef665x_radio_tune_to(i2c_file_desc, 0, (ushort)mode, frequency);
+ int ret = tef665x_radio_tune_to(i2c_file_desc, 0, (uint16_t)mode, frequency);
_debug("return value", ret);
return ret;
}
@@ -701,7 +783,7 @@ index
0 = mute disabled
1 = mute active (default)
*/
-int tef665x_audio_set_mute(uint i2c_file_desc, ushort mode)
+int tef665x_audio_set_mute(uint32_t i2c_file_desc, uint16_t mode)
{
int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO,
TEF665X_Cmd_Set_Mute,
@@ -730,7 +812,7 @@ index
-599 � +240 = -60 � +24 dB volume
0 = 0 dB (default)f665x_patch_init function: "3"t,int16_t volume)
*/
-static int tef665x_audio_set_volume(uint i2c_file_desc, ushort volume)
+static int tef665x_audio_set_volume(uint32_t i2c_file_desc, uint16_t volume)
{
return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO,
TEF665X_Cmd_Set_Volume,
@@ -747,7 +829,7 @@ index
*/
int appl_get_identification(int i2c_file_desc)
{
- u8 buf[6];
+ uint8_t buf[6];
int ret;
ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_APPL,
@@ -767,15 +849,15 @@ int appl_get_identification(int i2c_file_desc)
//mute=1, unmute=0
-int audio_set_mute(uint i2c_file_desc, bool mute)
+int audio_set_mute(uint32_t i2c_file_desc, bool mute)
{
return tef665x_audio_set_mute(i2c_file_desc, mute);//AUDIO_Set_Mute mode = 0 : disable mute
}
//-60 � +24 dB volume
-int audio_set_volume(uint i2c_file_desc, int vol)
+int audio_set_volume(uint32_t i2c_file_desc, int vol)
{
- return tef665x_audio_set_volume(i2c_file_desc, (ushort)vol);
+ return tef665x_audio_set_volume(i2c_file_desc, (uint16_t)vol);
}
/*
@@ -791,7 +873,7 @@ index
(default)
*/
-static int tef665x_audio_set_operationMode(uint i2c_file_desc, ushort mode)
+static int tef665x_audio_set_operationMode(uint32_t i2c_file_desc, uint16_t mode)
{
_debug("normal: 0 standby: 1 requested", 1);
int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_APPL,
@@ -814,12 +896,12 @@ static int tef665x_audio_set_operationMode(uint i2c_file_desc, ushort mode)
//TRUE = ON;
//FALSE = OFF
-static void radio_powerSwitch(uint i2c_file_desc, bool OnOff)
+static void radio_powerSwitch(uint32_t i2c_file_desc, bool OnOff)
{
tef665x_audio_set_operationMode(i2c_file_desc, OnOff? 0 : 1);//standby mode = 1
}
-static void radio_modeSwitch(uint i2c_file_desc, bool mode_switch, AR_TuningAction_t mode, ushort frequency)
+static void radio_modeSwitch(uint32_t i2c_file_desc, bool mode_switch, AR_TuningAction_t mode, uint16_t frequency)
{
if(mode_switch) //FM
@@ -832,7 +914,602 @@ static void radio_modeSwitch(uint i2c_file_desc, bool mode_switch, AR_TuningActi
}
}
-static int tef665x_wait_active(uint i2c_file_desc)
+/*
+module 32 FM
+cmd 81 Set_RDS
+
+index
+1 mode
+ [ 15:0 ]
+ RDS operation mode
+ 0 = OFF
+ 1 = decoder mode (default), output of RDS groupe data (Block A, B, C, D)
+ from get_rds_status, get_rds_data FM cmd 130/131
+
+2 restart
+ [ 15:0 ]
+ RDS decoder restart
+ 0 = no control
+ 1 = manual restart, starlooking for new RDS data immidiately
+ 2 = automatic restart after tuning (default)
+ 3 = flush, empty RDS output buffer.
+
+3 interface
+ [ 15:0 ]
+ 0 = no pin interface.
+ 2 = data available status output; active low (GPIO feature 'DAVN')
+ 4 = legecy 2-wire demodulator data and clock output ('RDDA' and 'RDCL')
+*/
+int tef665x_set_rds(uint32_t i2c_file_desc)
+{
+ return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_FM,
+ TEF665X_Cmd_Set_RDS,
+ 9,//Total Bytes to be sent
+ TEF665X_Cmd_Set_RDS_mode, // default
+ TEF665X_Cmd_Set_RDS_autorestart, // restart after tune
+ 0x002 // no interface
+ );
+}
+
+
+/*
+ * @brief Adding Alternative Frequencies to RDS Data Structure
+ *
+ * @param uint8_t* : raw data of alternative frequency (Group 0A of RDS)
+ * @param rds_data_t* : Pointer to RDS Data Structure
+ * @return void
+ */
+void Extract_Alt_Freqs(uint8_t* buf,rds_data_t *Rds_STU)
+{
+ for(int Buffer_Index=6;Buffer_Index<8;Buffer_Index++)
+ {
+ if(buf[Buffer_Index]>204){
+ if(250>buf[Buffer_Index]&&buf[Buffer_Index]>224)
+ {
+ Rds_STU->Num_AlterFreq=buf[Buffer_Index]-224;
+
+ if(Rds_STU->Alternative_Freq_Counter == Rds_STU->Num_AlterFreq)
+ {
+ Rds_STU->Alternative_Freq_Counter = 0;
+ }
+ AlterFreqOffset=87500000;
+ }
+ else if(buf[Buffer_Index]==205)
+ {
+ AFB_ERROR("Filler Code");
+ }
+ else if(buf[Buffer_Index]==224)
+ {
+ AFB_ERROR("No AF Exists");
+ }
+ else if(buf[Buffer_Index]==250)
+ {
+ AFB_ERROR("An LF/MF Frequency Follows");
+ AlterFreqOffset=144000;
+ }
+ else if(buf[Buffer_Index]>250)
+ {
+ AFB_WARNING("Alternative Frequency Not Assigned");
+ }
+ }
+ else if(buf[Buffer_Index]>0)
+ {
+ if(AlterFreqOffset == 87500000)
+ {
+ Rds_STU->Alternative_Freq[Rds_STU->Alternative_Freq_Counter]=
+ buf[Buffer_Index] * 100000 + AlterFreqOffset;
+
+ Rds_STU->Alternative_Freq_Counter++;
+
+ if(Rds_STU->Alternative_Freq_Counter == Rds_STU->Num_AlterFreq)
+ {
+ Rds_STU->Alternative_Freq_Counter = 0;
+ }
+ }
+ else if(AlterFreqOffset == 144000)
+ {
+ Rds_STU->Alternative_Freq[Rds_STU->Alternative_Freq_Counter]=
+ ((uint32_t)buf[Buffer_Index]) * 9000 + AlterFreqOffset;
+
+ Rds_STU->Alternative_Freq_Counter++;
+
+ if(Rds_STU->Alternative_Freq_Counter == Rds_STU->Num_AlterFreq)
+ {
+ Rds_STU->Alternative_Freq_Counter = 0;
+ }
+ }
+ else
+ {
+ AFB_WARNING("Alternative Frequency is not defined");
+ }
+ }
+ else
+ {
+ AFB_ERROR("Alternative Frequency- Not to be used");
+ }
+ }
+}
+
+/*
+ * @brief Checking rds error code (determined by decoder)
+ *
+ * 0 : no error; block data was received with matching data and syndrome
+ * 1 : small error; possible 1 bit reception error detected; data is corrected
+ * 2 : large error; theoretical correctable error detected; data is corrected
+ * 3 : uncorrectable error; no data correction possible
+ *
+ * @param Errors : Error Code of blocks A,B,C and D of RDS
+ * @return void
+ */
+void Check_RDS_Error(uint8_t Errors[])
+{
+ for (int i=0;i<4;i++){
+ if(Errors[i]==1){
+ AFB_WARNING("RDS Block %d Reception Error; small error; possible 1 bit reception error detected; data is corrected",i+1);
+ }
+ else if(Errors[i]==2){
+ AFB_WARNING("RDS Block %d Reception Error; large error; theoretical correctable error detected; data is corrected",i+1);
+ }
+ else if(Errors[i]==3){
+ AFB_ERROR("RDS Block %d Reception Error; uncorrectable error; no data correction possible",i+1);
+ }
+ }
+}
+
+/*
+ * @brief Getting rds_data_t and Process its raw_data
+ *
+ * @param rds_data_t * : Pointer to latest RDS Data Structure
+ */
+void *Process_RDS_Words(void* rds_words){
+ pthread_detach(pthread_self());
+
+ rds_data_t *Rds_STU = rds_words;
+ uint8_t *raw_data = Rds_STU->raw_data;
+ int8_t group_Ver = -1;
+ uint8_t GType0 = 0;
+ bool DI_Seg = 0;
+ bool M_S = 0;
+ bool TA = 0;
+
+ //Parse 1st Section
+ bool DataAvailable = (raw_data[0] >> 7) & 1;
+ bool DataLoss = (raw_data[0] >> 6) & 1 == 1;
+ bool DataAvailType = (raw_data[0] >> 5) & 1 == 0;
+ bool GroupType = (raw_data[0] >> 4) & 1;
+ bool SyncStatus = (raw_data[0] >> 1) & 1;
+
+ //Parse Last Section(Error Codes)
+ uint8_t Error_A = raw_data[10] >> 6;
+ uint8_t Error_B = raw_data[10] >> 4 & 3;
+ uint8_t Error_C = raw_data[10] >> 2 & 3;
+ uint8_t Error_D = raw_data[10] & 3;
+ uint8_t Errors[]={Error_A,Error_B,Error_C,Error_D};
+
+ //Inform user about Error Blocks Status Codes
+ Check_RDS_Error(Errors);
+
+ if(Error_A==0){
+ //Bytes 2 and 3 are inside Block A
+ //raw_data[2]and raw_data[3] Contains PI Code
+ Rds_STU->PICode=Convert8bto16b(&raw_data[2]);
+ }
+ else{
+ AFB_ERROR("Error_A=%d",Error_A);
+ }
+
+ bool GTypeVer=GType0;
+ uint16_t GType=raw_data[4]>>4;
+ //Bytes 4 and 5 are inside Block B
+ if(Error_B==0){
+ GTypeVer=raw_data[4]>>3 & 1;
+ GType=raw_data[4]>>4;
+ Rds_STU->TrafficProgram=raw_data[4]>>2&1;
+ Rds_STU->PTY_Code= (raw_data[4] & 3) << 3 | raw_data[5] >> 5;
+ }
+
+ //Position Of Character
+ uint8_t CharPos=0;
+
+ //Extract Data based on Group Type values
+ switch (GType)
+ {
+ case 0:
+ {
+ if(Error_B==0)
+ {
+ CharPos = raw_data[5] & 3;
+
+ Rds_STU->TrafficAnnouncement = raw_data[5] >> 4 & 1;
+ Rds_STU->Music_Speech = raw_data[5] >> 3 & 1;
+ Rds_STU->DI_Seg = (raw_data[5] >> 2 & 1) * (2 ^ (3 - CharPos));
+ }
+
+ if(Error_C==0)
+ {
+ //Group Type 0A
+ if (GType==0)
+ {
+ Extract_Alt_Freqs(raw_data,Rds_STU);
+ }
+
+ //Group Type 0B
+ else
+ {
+ Rds_STU->PICode=Convert8bto16b(&raw_data[6]);
+ }
+ }
+
+ if(Error_D == 0 && Error_B == 0)
+ {
+ if(raw_data[8] != 0x7f)
+ {
+ Rds_STU->PS_Name[CharPos*2] = raw_data[8];
+ }
+ else
+ {
+ Rds_STU->PS_Name[CharPos*2] = (char)'\0';
+ }
+ if(raw_data[9] != 0x7f)
+ {
+ Rds_STU->PS_Name[CharPos*2+1] = raw_data[9];
+ }
+ else
+ {
+ Rds_STU->PS_Name[CharPos*2+1] = (char)'\0';
+ }
+ }
+ }
+ break;
+ case 1:
+ {
+ //Group Type 1A
+ if(GTypeVer == 0)
+ {
+ if(Error_D == 0)
+ {
+ Rds_STU->Day = raw_data[8] >> 3;
+ Rds_STU->Hour = raw_data[8] >> 3;
+ Rds_STU->Min = ((raw_data[8] & 7) << 2) | (raw_data[9] >> 6) ;
+ }
+ }
+ }
+ break;
+ case 2:
+ {
+ //Group Type 2A:
+ if(GTypeVer == 0)
+ {
+ uint8_t Text_pos = raw_data[5] & 15;
+
+ if(Error_B == 0 && Error_C == 0)
+ {
+
+ if(raw_data[6] !=0x7f && raw_data[6] != '\n')
+ {
+ Rds_STU->RT[Text_pos*4] = raw_data[6];
+ }
+ else{
+ Rds_STU->RT[Text_pos*4] = (char)'\0';
+ }
+ if(raw_data[7]!=0x7f&&raw_data[7]!='\n')
+ {
+ Rds_STU->RT[Text_pos*4+1] = raw_data[7];
+ }
+ else
+ {
+ Rds_STU->RT[Text_pos*4+1] = (char)'\0';
+ }
+ }
+ if(Error_B == 0 && Error_D == 0)
+ {
+ if(raw_data[8] != 0x7f && raw_data[8] != '\n')
+ {
+ Rds_STU->RT[Text_pos*4+2] = raw_data[8];
+ }
+ else{
+ Rds_STU->RT[Text_pos*4+2] = (char)'\0';
+ }
+ if(raw_data[9] != 0x7f && raw_data[9] != '\n')
+ {
+ Rds_STU->RT[Text_pos*4+3] = raw_data[9];
+ }
+ else
+ {
+ Rds_STU->RT[Text_pos*4+3] = (char)'\0';
+ }
+ }
+ }
+
+ //Group Type 2B:
+ else{
+ if(Error_B==0 && Error_D==0)
+ {
+ //Clear All Radio Text if flag was changed
+ if(raw_data[5] >> 4 & 1 != Rds_STU->Text_Changed)
+ {
+ memcpy(Rds_STU->RT, _Temp , 64);
+ }
+
+ uint8_t Text_pos = raw_data[5] & 15;
+ if(raw_data[8] != 0x7f && raw_data[8] != '\n')
+ {
+
+ Rds_STU->RT[Text_pos*2] = raw_data[8];
+ }
+ else{
+ Rds_STU->RT[Text_pos*2] = (char)'\0';
+ }
+ if(raw_data[9] != 0x7f && raw_data[9] != '\n')
+ {
+ Rds_STU->RT[Text_pos*2+1] = raw_data[9];
+ }
+ else
+ {
+ Rds_STU->RT[Text_pos*2+1] = (char)'\0';
+ }
+ }
+ }
+ }
+ break;
+ case 4:
+ {
+ //Group Type 4A
+ if(GTypeVer == 0)
+ {
+ if(Error_B == 0 && Error_C == 0 && Error_D == 0)
+ {
+ //Following caclulations are based on RDS Standard
+ uint32_t Modified_Julian_Day = ((raw_data[5] & 3) << 15) | (raw_data[6] << 7) | (raw_data[7]>>1);
+ int y2 = (int)((((double)Modified_Julian_Day)-15078.2)/365.25);
+ int m2 = (int)((((double)Modified_Julian_Day)-14956.1-((double)y2*365.25))/30.6001);
+ int d2 = (double)Modified_Julian_Day-14956-(int)(y2*365.25)-(int)(m2*30.6001);
+ int k = 0;
+
+ if(m2 == 14 || m2 == 15)
+ {
+ k = 1;
+ }
+
+ Rds_STU->Day = d2;
+ Rds_STU->Month = m2 - 1 + k * 12;
+ Rds_STU->Year = y2 + k;
+
+ uint8_t UTCHour = ((raw_data[7] & 1) << 4) | (raw_data[8] >> 4);
+ uint8_t UTCMinute = ((raw_data[8] & 15) << 2) | (raw_data[9] >> 6);
+
+ //Check Negative Offset
+ bool NegOff = raw_data[9] & 32;
+ uint8_t LocTimeOff = raw_data[9] & 31;
+
+ if(!NegOff)
+ {
+ Rds_STU->Min = UTCMinute + LocTimeOff % 2;
+ while(UTCMinute > 60)
+ {
+ UTCHour++;
+ UTCMinute = UTCMinute - 60;
+ }
+
+ Rds_STU->Hour = UTCHour + LocTimeOff / 2;
+ while(Rds_STU->Hour > 24){
+ Rds_STU->Hour = Rds_STU->Hour - 24;
+ }
+
+
+ }
+ else{
+ Rds_STU->Min = UTCMinute + LocTimeOff % 2;
+ while(UTCMinute < 0)
+ {
+ UTCHour--;
+ UTCMinute = UTCMinute + 60;
+ }
+ Rds_STU->Hour = UTCHour + LocTimeOff / 2;
+ while(Rds_STU->Hour<0)
+ {
+ Rds_STU->Hour = Rds_STU->Hour + 24;
+
+ }
+ }
+ }
+ }
+ //Group Type 4B
+ else
+ {
+ AFB_WARNING("Groupe Type 4B are not supported yet");
+ }
+ }
+ case 8:
+ {
+ AFB_WARNING("Groupe Type 8A and 8B are not supported yet");
+
+ }
+ case 10:
+ {
+ AFB_WARNING("Groupe Type 10A and 10B are not supported yet");
+ /*
+ if(Error_B == 0){
+ uint8_t pos = 0;
+ pos=(raw_data[5] & 1) * 4;
+
+ if(Error_C == 0){
+ Rds_STU->PTYN[pos] = raw_data[6];
+ Rds_STU->PTYN[pos+1] = raw_data[7];
+ Rds_STU->PTYN_Size = pos + 2;
+ }
+ if(Error_D == 0){
+ Rds_STU->PTYN[pos+2] = raw_data[8];
+ Rds_STU->PTYN[pos+3] = raw_data[9];
+ Rds_STU->PTYN_Size = pos + 4;
+ }
+ }
+ /**/
+ }
+ break;
+ default:
+ AFB_ERROR("Unsupported Group %d",GType);
+ break;
+ }
+
+ if(!DataAvailable)
+ {
+ AFB_ERROR("RDS Data is not available");
+ }
+
+ if(DataLoss)
+ {
+ AFB_ERROR("previous data was not read, replaced by newer data");
+ }
+
+ if(GroupType == 0)
+ {
+ group_Ver = 0;
+ }
+ else
+ {
+ group_Ver = 1;
+ }
+
+ if(!SyncStatus)
+ {
+ AFB_ERROR(" RDS decoder not synchronized; no RDS data found");
+ }
+
+ if(GroupType != GTypeVer)
+ {
+ AFB_ERROR("Version is not Correct?");
+ }
+}
+
+/*
+module 32 FM
+cmd 131 get RDS data
+
+index
+1 status
+ [ 15:0 ]
+ FM RDS reception status.
+ [15] = dta availableflag
+ 0 = no data
+ 1 = data available
+ [14] = data loss flag
+ 0 = no data loss
+ 1 = previose data not read, replaced by newer data.
+ [13] = data available type
+ 0 = group data; continuos operation.
+ 1 = first PI data;data with PI code following decoder sync.
+ [12] = groupe type.
+ 0 = type A; A-B-C-D group (with PI code in the block A)
+ 1 = type B; A-B-C'-D group (with PI code in the block A and C')
+ [ 8:0 ] reserved
+
+2 A_Block
+ [ 15:0 ] = A block data
+
+3 B_Block
+ [ 15:0 ] = B block data
+
+4 C_Block
+ [ 15:0 ] = C block data
+
+5 D_Block
+ [ 15:0 ] = D block data
+
+6 dec error
+ [ 15:0 ]
+ error code determined by decoder
+ [ 15:14 ] = A block error
+ [ 13:12 ] = B block error
+ [ 11:10 ] = C block error
+ [ 9:8 ] = D block error
+ 0 = no error found
+ 1 = small error, correctable. data is corrected.
+ 2 = larg error, correctable. data is corrected.
+ 3 = uncorrectable error.
+ [ 7:0 ] = reserved.
+*/
+/*
+ * @brief Get RDS Data fron Tef-665
+ *
+ * Getting RDS Data From I2C and Calling a thread to process raw data
+ *
+ * @param i2c_file_desc : I2C File Descriptor
+ * @param Rds_STU : RDS Data Structure
+ *
+ */
+int tef665x_get_rds_data(uint32_t i2c_file_desc, rds_data_t *Rds_STU)
+{
+
+ int ret;
+ uint8_t buf[12];
+
+ ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM,
+ TEF665X_Cmd_Get_RDS_Data,
+ buf, sizeof(buf));
+
+ if(ret == 1) {
+ memcpy(Rds_STU->raw_data,buf,12);
+ pthread_t t0;
+ pthread_create(&t0, NULL,Process_RDS_Words ,(void *) (Rds_STU));
+ }
+ return ret;
+}
+
+void Clear_RDS_Data(rds_data_t *Rds_STU){
+
+ Rds_STU-> Text_Changed=0;
+ Rds_STU-> TrafficAnnouncement=0;
+ Rds_STU-> TrafficProgram=0;
+ Rds_STU-> Music_Speech=0;
+
+ Rds_STU-> DI_Seg=0;
+ Rds_STU-> PTY_Code=0;
+ Rds_STU-> Num_AlterFreq=0;
+ Rds_STU->PTYN_Size=0;
+
+ Rds_STU-> Day=0;
+ Rds_STU-> Month=0;
+ Rds_STU-> Year=0;
+
+ Rds_STU-> Hour=0;
+ Rds_STU-> Min=0;
+
+ /*memcpy(Rds_STU->Alternative_Freq,_Temp,25);/**/
+ for(uint8_t i=0;i<25;i++){
+ Rds_STU->Alternative_Freq[i]=0;
+ }
+ memcpy(Rds_STU-> PS_Name,_Temp,8);
+ Rds_STU-> PS_Name[0]='\0';
+ memcpy(Rds_STU-> RT,_Temp,64);
+ Rds_STU-> RT[0]='\0';
+ memcpy(Rds_STU-> PTYN,_Temp,8);
+ Rds_STU-> PTYN[0]='\0';
+
+ Rds_STU-> PICode=0;
+ Rds_STU->Alternative_Freq_Counter=0;
+ Rds_STU->PTYN_Size=0;
+}
+
+//Check if RDS is available
+int tef665x_get_rds_status(uint32_t i2c_file_desc, uint16_t *status)
+{
+ int ret = 0;
+ uint8_t buf[2];
+
+ ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM,
+ TEF665X_Cmd_Get_RDS_Status,
+ buf, sizeof(buf));
+
+ if(ret == 1){
+ status[0] =buf[0];
+ status[1] =buf[1];
+ }
+
+ return ret;
+}
+
+static int tef665x_wait_active(uint32_t i2c_file_desc)
{
TEF665x_STATE status;
//usleep(50000);
@@ -869,15 +1546,16 @@ static int tef665x_wait_active(uint i2c_file_desc)
return 0;
}
- if(SET_SUCCESS == audio_set_volume(i2c_file_desc, 23))//set to -10db
- {
- _debug("set vol to", 25);
- }
- else
- {
- _debug("vol not set", 0);
- return 0;
- }
+ // //if(SET_SUCCESS == audio_set_volume(i2c_file_desc, 35))//set to -10db
+ // {
+ // _debug("set vol to", 25);
+ // }
+
+ // else
+ // {
+ // _debug("vol not set", 0);
+ // return 0;
+ // }
return 1;
}
}
@@ -922,9 +1600,9 @@ static void tef665x_chip_init(int i2c_file_desc)
}
-static int i2c_init(const char *i2c, int state, uint *i2c_file_desc)
+static int i2c_init(const char *i2c, int state, uint32_t *i2c_file_desc)
{
- int fd, t;
+ int fd = 0, t;
if(state == _open)
{
@@ -952,6 +1630,108 @@ static int i2c_init(const char *i2c, int state, uint *i2c_file_desc)
return 0;
}
+/*
+module 32/33 FM/AM
+cmd 129 Get_Quality_Data
+
+index
+1 status
+ [ 15:0 ]
+ quality detector status
+ [15] = AF_update flag
+ 0 = continuous quality data with time stamp
+ 1 = AF_Update sampled data
+ [14:10] = reserved
+ 0 = no data loss
+ 1 = previose data not read, replaced by newer data.
+ [9:0] = quality time stamp
+ 0 = tuning is in progress, no quality data available
+ 1 … 320 (* 0.1 ms) = 0.1 … 32 ms after tuning,
+ quality data available, reliability depending on time stamp
+ 1000 = > 32 ms after tuning
+ quality data continuously updated
+
+2 level
+ [ 15:0 ] (signed)
+ level detector result
+ -200 … 1200 (0.1 * dBuV) = -20 … 120 dBuV RF input level
+ actual range and accuracy is limited by noise and agc
+
+3 usn
+ [ 15:0 ] = noise detector
+ FM ultrasonic noise detector
+ 0 … 1000 (*0.1 %) = 0 … 100% relative usn detector result
+
+4 wam
+ [ 15:0 ] = radio frequency offset
+ FM ‘wideband-AM’ multipath detector
+ 0 … 1000 (*0.1 %) = 0 … 100% relative wam detector result
+
+5 offset
+ [ 15:0 ] (signed) = radio frequency offset
+ -1200 … 1200 (*0.1 kHz) = -120 kHz … 120 kHz radio frequency error
+ actual range and accuracy is limited by noise and bandwidth
+
+6 bandwidth
+ [ 15:0 ] = IF bandwidth
+ FM 560 … 3110 [*0.1 kHz] = IF bandwidth 56 … 311 kHz; narrow … wide
+ AM 30 … 80 [*0.1 kHz] = IF bandwidth 3 … 8 kHz; narrow … wide
+
+7 modulation
+ [ 15:0 ] = modulation detector
+ FM 0 … 1000 [*0.1 %] = 0 … 100% modulation = 0 … 75 kHz FM dev.
+*/
+void Get_quality_status(sig_quality_t *quality){
+
+ uint32_t i2c_file_desc=0;
+ int ret = i2c_init(I2C_DEV, _open, &i2c_file_desc);
+
+ uint8_t data[14];
+ int16_t level=0;
+ uint16_t usn=0;
+ uint16_t wam=0;
+ int16_t offset=0;
+ uint16_t bw=0;
+
+ for (int looper=0;looper<1;looper++){
+ if(current_band==BAND_FM){
+ ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM,
+ TEF665X_Cmd_Get_Quality_Data,
+ data, sizeof(data));
+ }
+ else{
+ ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_AM,
+ TEF665X_Cmd_Get_Quality_Data,
+ data, sizeof(data));
+ }
+
+
+ int status=((data[0]&0b00000011)<<8|data[1]);
+ if(status!=1000){
+ AFB_ERROR("Data is not ready, try again; quality time stamp: %d",status);
+ looper--;
+ usleep(1000);
+ continue;
+ }
+
+ level =(data[2] <<8|data[3] );
+ usn =(data[4] <<8|data[5] );
+ wam =(data[6] <<8|data[7] );
+ offset =(data[8] <<8|data[9] );
+ bw =(data[10]<<8|data[11]);
+ }
+ i2c_init(I2C_DEV, _close, &i2c_file_desc);
+
+ quality->offset = offset;
+ quality->bandw = bw;
+ quality->level = level;
+ quality->wam = wam;
+ quality->usn = usn;
+
+
+ return;
+}
+
static void tef665x_start(void)
{
int ret;
@@ -971,6 +1751,374 @@ static void tef665x_start(void)
}
}
+/*
+ * @brief Send_Rds_Result to rds subscribers
+ *
+ * @param rds_data_t : a rds message structure
+ * @return The JsonObject of rds info
+ */
+void *Send_Rds_Result(rds_data_t* RDS_Message){
+ //Kill the thread when it was over
+ pthread_detach(pthread_self());
+
+ json_object *ret_json;
+ json_object *Alternative_Freqs;
+
+
+ ret_json = json_object_new_object();
+ Alternative_Freqs=json_object_new_array();
+
+
+
+ for(uint8_t af=0 ; af<25 ; af++)
+ {
+ if(RDS_Message->Alternative_Freq[af]!=NULL&&RDS_Message->Alternative_Freq[af]!=0)
+ {
+ json_object_array_add(Alternative_Freqs,json_object_new_int(RDS_Message->Alternative_Freq[af]));
+ }
+ }
+
+ //Prepare JSon Object
+ json_object_object_add(ret_json, "name" , json_object_new_string(RDS_Message->PS_Name));
+ json_object_object_add(ret_json, "radiotext" , json_object_new_string(RDS_Message->RT));
+ json_object_object_add(ret_json, "alternatives" , (Alternative_Freqs));
+ json_object_object_add(ret_json, "minute" , json_object_new_int (RDS_Message->Min));
+ json_object_object_add(ret_json, "hour" , json_object_new_int (RDS_Message->Hour));
+ json_object_object_add(ret_json, "day" , json_object_new_int (RDS_Message->Day));
+ json_object_object_add(ret_json, "month" , json_object_new_int (RDS_Message->Month));
+ json_object_object_add(ret_json, "year" , json_object_new_int (RDS_Message->Year));
+ json_object_object_add(ret_json, "pi" , json_object_new_int (RDS_Message->PICode));
+ json_object_object_add(ret_json, "pty" , json_object_new_int (RDS_Message->PTY_Code));
+ json_object_object_add(ret_json, "ta" , json_object_new_int (RDS_Message->TrafficAnnouncement));
+ json_object_object_add(ret_json, "tp" , json_object_new_int (RDS_Message->TrafficProgram));
+ json_object_object_add(ret_json, "ms" , json_object_new_int (RDS_Message->Music_Speech));
+
+ //Send JsonObject to rds Subscribers
+ if(rds_callback){
+ rds_callback(ret_json);
+ }
+
+ return ret_json;
+}
+
+/*
+ * @brief Create an infinit Loop to get RDS Packets and Send them to subscribers
+ *
+ * RDS data will be available every 85 ms;
+ * Currently availability of RDS is checkes by tef665x_get_rds_status function
+ *
+ * @param rds_data_t : a rds message structure
+ * @return The JsonObject of latest rds info
+ */
+void *Get_RDS_Packets(rds_data_t *StuRDS){
+ pthread_detach(pthread_self());
+ uint32_t fd = 0;
+
+ int ret = i2c_init(I2C_DEV, _open, &fd);
+ uint8_t status[2];
+
+ ret=tef665x_get_rds_status(fd, status);
+
+ if(ret==1){
+ if(status[0]>7){
+ //RDS must update all the time, except the times we are scanning or changing frequency
+ //when scanning or changing frequncy, we unlock RDS_Mutex and it will end this thread
+ for (int ref_cnt=0; pthread_mutex_trylock(&RDS_Mutex) != 0;ref_cnt++){
+ //Get New RDS Data
+ tef665x_get_rds_data(fd,StuRDS);
+
+ //Send RDS Data after rexeiving 22 Packets
+ if(ref_cnt%22==0){
+ pthread_t t0;
+ pthread_create(&t0, NULL,Send_Rds_Result ,(void *) (&RDS_Message));
+ }
+
+ //Wait for 85ms before reading available rds data
+ usleep(85000);
+ }
+ pthread_mutex_unlock (&RDS_Mutex);
+ }
+
+ else{
+ AFB_ERROR("RDS is Not Valid0");
+ }
+ }
+
+ else{
+ AFB_ERROR("RDS is Not Valid1");
+ }
+ i2c_init(I2C_DEV, _close, &fd);
+}
+
+/*
+ * @brief Free Allocated Memory for Scan Thread and Unlock Scan Mutex
+ *
+ * @param scan_data : scan_data_t contains direction of search and callback
+ * for station_found event
+ */
+static void scan_cleanup_handler(void *scan_data)
+{
+ pthread_mutex_unlock(&scan_mutex);
+ free(scan_data);
+ scanning=false;
+}
+
+/*
+ * @brief Create a loop to scan from current frequency to find a valid frequency
+ *
+ * If found a valid frequency, send station_found to subscribers and break the loop;
+ * If the direction was forward and reach the maximum frequency, Search Must continue
+ * from minimum frequency
+ * If the direction was backward and reach the minimum frequency, Search Must continue
+ * from maximum frequency
+ * If no valid frequency found, scan will stop at the begining point
+ * If stop_scan called, scan_mutex will be unlocked and thread must be stopped
+ *
+ * @param scan_data : scan_data_t contains direction of search and callback
+ * for station_found event
+ */
+void *scan_frequencies(scan_data_t* scan_data){
+ pthread_cleanup_push(scan_cleanup_handler, (void *)scan_data);
+
+ //Kill the thread when it was over
+ pthread_detach(pthread_self());
+
+ //Set Scan Flag
+ scanning=true;
+
+ //"Unlock Mutex" Flag
+ bool unlck_mtx = false;
+ uint32_t new_freq = 0;
+ uint32_t init_freq = 0;
+
+ init_freq = current_band == BAND_FM ? current_fm_frequency : current_am_frequency;
+
+ //First Mute Current Frequency
+ tef665x_search_frequency(init_freq);
+
+ //freq_step will be negative if direction was backward and positive if direction was forward
+ uint32_t freq_step = tef665x_get_frequency_step(current_band) * (scan_data->direction==SCAN_FORWARD?1:-1);
+
+ //Continue loop until reaching the initial frequency
+ while(init_freq != new_freq)
+ {
+ //Check Status of scan_mutex
+ unlck_mtx = pthread_mutex_trylock(&scan_mutex)==0;
+
+ //break the loop if scan_mutex was unlocked
+ if(unlck_mtx)
+ {
+ break;
+ }
+
+ if(current_band==BAND_FM)
+ {
+ new_freq = current_fm_frequency + freq_step;
+
+ //Searching Step is 100 KHz
+ //If frequency reached to initial point, the search must stop
+ while (((new_freq/10000)%10)!=0 && init_freq != new_freq){
+ new_freq = new_freq+freq_step;
+ }
+ }
+ else
+ {
+ new_freq = current_am_frequency + freq_step;
+ }
+
+ //Set Freq to min when it was more than Max Value
+ if(new_freq>tef665x_get_max_frequency(current_band))
+ {
+ new_freq=tef665x_get_min_frequency(current_band);
+ }
+
+ //Set Freq to max when it was less than Min Value
+ if(new_freq<tef665x_get_min_frequency(current_band))
+ {
+ new_freq=tef665x_get_max_frequency(current_band);
+ }
+
+ //Tune to new frequency
+ tef665x_search_frequency(new_freq);
+
+ //wait 30 ms to make sure quality data is available
+ for(int i=0;i<30;i++)
+ {
+ usleep(1000);
+
+ //Check scan_mutex lock for handling stop_scan
+ unlck_mtx=pthread_mutex_trylock(&scan_mutex)==0;
+ if(unlck_mtx)
+ {
+ break;
+ }
+ }
+ if(unlck_mtx)
+ {
+ break;
+ }
+
+ //Get Quality of tuned frequeency
+ sig_quality_t quality;
+ Get_quality_status(&quality);
+
+ if((quality.level >260 && quality.usn<100) || quality.bandw>1200)
+ {
+ AFB_DEBUG("Quality is valid");
+ AFB_INFO("level is: 0x%4X : %d",quality.level,quality.level);
+ AFB_INFO("usn is: 0x%4X : %d",quality.usn,quality.usn);
+ AFB_INFO("offset is: 0x%4X : %d",quality.offset,quality.offset);
+ AFB_INFO("wam is: 0x%4X : %d",quality.wam,quality.wam);
+ AFB_INFO("Bandwidth is: 0x%4X : %d",quality.bandw,quality.bandw);
+
+ //Send
+ if(scan_data->callback)
+ {
+ scan_data->callback(new_freq,NULL);
+ }
+ else
+ {
+ AFB_DEBUG("callback is not valid");
+ }
+
+ break;
+ }
+ else
+ {
+ AFB_DEBUG("Quality is not valid");
+ AFB_ERROR("level is: 0x%4X : %d",quality.level,quality.level);
+ AFB_ERROR("usn is: 0x%4X %d",quality.usn,quality.usn);
+ AFB_ERROR("offset is: 0x%4X %d",quality.offset,quality.offset);
+ AFB_ERROR("wam is: 0x%4X %d",quality.wam,quality.wam);
+ AFB_ERROR("bandwidth is: 0x%4X %d",quality.bandw,quality.bandw);
+ }
+
+ usleep(100);
+ }
+
+ //Calling last pthread_cleanup_push
+ pthread_cleanup_pop(1);
+}
+
+/*
+ * @brief Get latest RDS Info and send rds jsonObject as response
+ *
+ * @return: cast rds_json(json_object) to (char *) and return result as response
+ */
+static char *tef665x_get_rds_info(void)
+{
+ //If Getting RDS Result wasn't already started, Start it now
+ if(pthread_mutex_trylock(&RDS_Mutex) == 0)
+ {
+ AFB_DEBUG("Create the thread.");
+ pthread_create(&rds_thread, NULL,Get_RDS_Packets ,(void *) (&RDS_Message));
+ }
+
+ //Send latest available rds data
+ json_object *rds_json=(json_object *)Send_Rds_Result(&RDS_Message);
+
+ //Convert json_object to char* and send it as response
+ return (char *)json_object_to_json_string(rds_json);
+}
+
+/*
+ * @brief Start Scan
+ *
+ * @param radio_scan_direction_t direction which is the scan direction and can be
+ * SCAN_FORWARD or SCAN_BACKWARD
+ * @param radio_scan_callback_t callback which is the callback for sending result of search to
+ * station_found ecent subscribers
+ * @return void
+ */
+static void tef665x_scan_start(radio_scan_direction_t direction,
+ radio_scan_callback_t callback,
+ void *data)
+{
+
+ //Stop RDS if enabled
+ pthread_mutex_unlock (&RDS_Mutex);
+
+ //Stop current scan:
+ if(scanning)
+ {
+ tef665x_scan_stop();
+ }
+
+ scan_data_t *inputs;
+
+ //Clean RDS Message since frequency will change
+ Clear_RDS_Data(&RDS_Message);
+ usleep(10000);
+
+ AFB_DEBUG("check Mutex Condition");
+
+ //check if is there any activated search
+ if(pthread_mutex_trylock(&scan_mutex)==0&&!scanning)
+ {
+ AFB_DEBUG("Start Scanning...");
+
+ inputs=malloc(sizeof(*inputs));
+ if(!inputs)
+ return -ENOMEM;
+
+ inputs->direction= direction;
+ inputs->callback= callback;
+ inputs->data=data;
+
+ pthread_create(&scan_thread, NULL,scan_frequencies ,(void *) inputs);
+ }
+}
+
+/*
+ * @brief Stop Scan
+ *
+ * By unlocking scan_mutex, Scan thread will be stopped safely and update scanning flag
+ *
+ * @return void
+ */
+static void tef665x_scan_stop(void)
+{
+ pthread_mutex_unlock(&scan_mutex);
+ while(scanning)
+ {
+ usleep(100);
+ AFB_DEBUG(" Wait for unlocking scan Thread");
+ }
+}
+
+
+/*
+module 32 / 33 FM / AM
+cmd 133 Get_Signal_Status | status
+index
+1 status
+ [ 15:0 ] = Radio signal information
+ [15] = 0 : mono signal
+ [15] = 1 : FM stereo signal (stereo pilot detected)
+
+ [14] = 0 : analog signal
+ [14] = 1 : digital signal (blend input activated by digital processor or control)
+ (TEF6659 only)
+*/
+radio_stereo_mode_t tef665x_get_stereo_mode(void)
+{
+ uint32_t i2c_file_desc = 0;
+ int ret = i2c_init(I2C_DEV, _open, &i2c_file_desc);
+ uint8_t data[2];
+ if(current_band==BAND_FM){
+ ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM,
+ TEF665X_Cmd_Get_Signal_Status,
+ data, sizeof(data));
+ }
+ else{
+ ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_AM,
+ TEF665X_Cmd_Get_Signal_Status,
+ data, sizeof(data));
+ }
+ i2c_init(I2C_DEV, _close, &i2c_file_desc);
+ return data[0]>>7 ==1 ? STEREO:MONO;
+}
+
static void tef665x_stop(void)
{
int ret;
@@ -1023,8 +2171,8 @@ static int tef665x_init()
// I believe it's related to wireplumber on imx6.
rc = snprintf(gst_pipeline_str,
GST_PIPELINE_LEN,
- "alsasrc ! audioconvert ! audioresample ! audio/x-raw, rate=(int)48000, channels=(int)2 \
- ! pwaudiosink stream-properties=\"p,media.role=Multimedia\" latency-time=(int)35000");
+ "alsasrc device=hw:1,0 ! audioconvert ! audioresample ! audio/x-raw, rate=48000, channels=2 \
+ ! pwaudiosink stream-properties=\"p,media.role=Multimedia\" latency-time=35000");
if(rc >= GST_PIPELINE_LEN) {
AFB_ERROR("pipeline string too long");
@@ -1047,14 +2195,24 @@ static int tef665x_init()
present = true;
+ //Initialize Mutex Lock for Scan and RDS
+ pthread_mutex_init(&scan_mutex, NULL);
+ pthread_mutex_init (&RDS_Mutex, NULL);
+
+ tef665x_start();
return 0;
}
static void tef665x_set_frequency_callback(radio_freq_callback_t callback,
void *data)
{
- //freq_callback = callback;
- //freq_callback_data = data;
+ freq_callback = callback;
+ freq_callback_data = data;
+}
+static void tef665x_set_rds_callback(radio_rds_callback_t callback)
+{
+ rds_callback = callback;
+
}
static void tef665x_set_output(const char *output)
{
@@ -1068,7 +2226,7 @@ static radio_band_t tef665x_get_band(void)
static void tef665x_set_band(radio_band_t band)
{
- uint fd = 0;
+ uint32_t fd = 0;
int ret = i2c_init(I2C_DEV, _open, &fd);
_debug("i2c_init ret value", ret);
@@ -1097,11 +2255,7 @@ static uint32_t tef665x_get_frequency(void)
static void tef665x_set_frequency(uint32_t frequency)
{
- uint fd = 0, f;
- int ret = i2c_init(I2C_DEV, _open, &fd);
-
- _debug("i2c_init ret value", ret);
-
+ uint32_t fd = 0;
if(!present)
return;
@@ -1122,7 +2276,7 @@ static void tef665x_set_frequency(uint32_t frequency)
}
}
- //tef665x_scan_stop();
+ int ret = i2c_init(I2C_DEV, _open, &fd);
if(current_band == BAND_FM){
current_fm_frequency = frequency;
@@ -1133,12 +2287,63 @@ static void tef665x_set_frequency(uint32_t frequency)
_debug("frequency set to AM :", frequency);
AM_tune_to(fd, eAR_TuningAction_Preset, frequency / 1000);
}
+ i2c_init(I2C_DEV, _close, &fd);
+
+ //Send Frequency data to subscribers
+ if(freq_callback)
+ {
+ freq_callback(frequency, freq_callback_data);
+ }
+ //Start RDS if the band was FM
+ if(current_band==BAND_FM){
+ //Unlock Mutex
+ pthread_mutex_unlock (&RDS_Mutex);
+
+ //Clean RDS Message
+ Clear_RDS_Data(&RDS_Message);
+ //Wait to make sure rds thread is finished
+ usleep(300000);
- //freq_callback(current_frequency, freq_callback_data);
+ //Restart RDS
+ tef665x_get_rds_info();
+ }
+}
+/*
+ * @brief Tune to a frequency in search mode
+ *
+ * Tune to new program and stay muted
+ * Sending new frequency to subscribers
+ *
+ * @param uint32_t which is the frequecy to be tuned
+ * @return void
+ */
+static void tef665x_search_frequency(uint32_t frequency)
+{
+ uint32_t fd = 0;
+ int ret = i2c_init(I2C_DEV, _open, &fd);
+ if(current_band == BAND_FM)
+ {
+ current_fm_frequency = frequency;
+ _debug("frequency set to FM :", frequency);
+ FM_tune_to(fd, eAR_TuningAction_Search, frequency / 10000);
+
+ }
+ else
+ {
+ current_am_frequency = frequency;
+ _debug("frequency set to AM :", frequency);
+ AM_tune_to(fd, eAR_TuningAction_Search, frequency / 1000);
+ }
i2c_init(I2C_DEV, _close, &fd);
+
+ //Send Frequency data to subscribers
+ if(freq_callback)
+ {
+ freq_callback(frequency, freq_callback_data);
+ }
}
static int tef665x_band_supported(radio_band_t band)
@@ -1191,15 +2396,16 @@ radio_impl_ops_t tef665x_impl_ops = {
.get_frequency = tef665x_get_frequency,
.set_frequency = tef665x_set_frequency,
.set_frequency_callback = tef665x_set_frequency_callback,
+ .set_rds_callback=tef665x_set_rds_callback,
.get_band = tef665x_get_band,
.set_band = tef665x_set_band,
.band_supported = tef665x_band_supported,
.get_min_frequency = tef665x_get_min_frequency,
.get_max_frequency = tef665x_get_max_frequency,
.get_frequency_step = tef665x_get_frequency_step,
- /*.scan_start = tef665x_scan_start,
+ .scan_start = tef665x_scan_start,
.scan_stop = tef665x_scan_stop,
.get_stereo_mode = tef665x_get_stereo_mode,
- .set_stereo_mode = tef665x_set_stereo_mode,
- .get_rds_info = tef665x_get_rds_info*/
+ //.set_stereo_mode = tef665x_set_stereo_mode,*/
+ .get_rds_info = tef665x_get_rds_info
};
diff --git a/binding/tef665x.h b/binding/tef665x.h
index add145b..10874e8 100644
--- a/binding/tef665x.h
+++ b/binding/tef665x.h
@@ -69,6 +69,13 @@ typedef enum
typedef enum
{
+ TEF665X_Cmd_Set_RDS_mode = 0x01, // default
+ TEF665X_Cmd_Set_RDS_autorestart= 0x02, // restart after tune
+ TEF665X_Cmd_Set_RDS_interface = 0, // no interface
+} TEF665x_FM_COMMAND;
+
+typedef enum
+{
TEF665X_Cmd_Tune_To = 0x01,
TEF665X_Cmd_Set_Tune_Options =0x02,
TEF665X_Cmd_Set_Bandwidth =0x0A, //10,
@@ -158,13 +165,14 @@ typedef enum
} TEF665x_AUDIO_CMD_22;
typedef enum{
- eDevTEF665x_Power_on,
eDevTEF665x_Boot_state ,
eDevTEF665x_Idle_state,
eDevTEF665x_Wait_Active,
eDevTEF665x_Active_state,
-
- eDevTEF665x_Not_Exist,
+
+ eDevTEF665x_Power_on,
+
+ eDevTEF665x_Not_Exist,
eDevTEF665x_Last
}TEF665x_STATE;
@@ -312,54 +320,68 @@ unsigned char lutByteValues[]=
0xB1, 0x3B, 0xB1, 0x97, 0xB3, 0x03
};
-const uint patchSize = sizeof(patchByteValues);
-const u8 *pPatchBytes = &patchByteValues[0];
+const uint32_t patchSize = sizeof(patchByteValues);
+const uint8_t *pPatchBytes = &patchByteValues[0];
-const uint lutSize = sizeof(lutByteValues);
-const u8 *pLutBytes = &lutByteValues[0];
+const uint32_t lutSize = sizeof(lutByteValues);
+const uint8_t *pLutBytes = &lutByteValues[0];
static const u8 init_para[] = {
//Set the Band related API settings...
-11, 0x20,0x0A,0x01,0x00,0x01,0x09,0x38,0x05,0xDC,0x04,0xB0,//FM_BandWidth Auto, FM_Set_Bandwidth (1, 1, 2360, 1500, 1200)
-5, 0x20,0x14,0x01,0x00,0x01,//FM_MphSuppression, FM_Set_MphSuppression (1, 1)
-7, 0x20,0x17,0x01,0x00,0x01,0x04,0xB0,//FM_NoiseBlanker, FM_Set_NoiseBlanker (1, 1, 1200)
+11, 0x20, 0x0A, 0x01, 0x00, 0x01, 0x09, 0x38, 0x05, 0xDC, 0x05, 0xDC, //FM_BandWidth Auto, FM_Set_Bandwidth (1, 1, 2360, 1500, 1200)
+5, 0x20, 0x14, 0x01, 0x00, 0x01, //FM_MphSuppression, FM_Set_MphSuppression (1, 1)
+//5, 0x20, 0x16, 0x01, 0x00, 0x01,
+7, 0x20, 0x17, 0x01, 0x00, 0x01, 0x05, 0xDC, //FM_NoiseBlanker, FM_Set_NoiseBlanker (1, 1, 1200)
//Set all Weaksignal API settings (LevelOffset)...
//Set the SoftMute API settings...
-9, 0x20,0x2A,0x01,0x00,0x03,0x00,0x64,0x00,0xFA,//FM_SmlMode, FM_Set_SoftMute_Level (1, 3, 100, 250)
-11, 0x20,0x28,0x01,0x00,0x3C,0x00,0x78,0x00,0x0A,0x00,0x14,//FM_SmSlowAttack,FM_Set_SoftMute_Time (1, 60, 120, 10, 20)
-9, 0x20,0x2C,0x01,0x00,0x03,0x01,0x90,0x03,0xE8,//FM_Smm,FM_Set_SoftMute_Mph (1, 3, 400, 1000)
-9, 0x20,0x2B,0x01,0x00,0x03,0x01,0x90,0x03,0xE8,//FM_Smn,FM_Set_SoftMute_Noise (1, 3, 400, 1000)
-7, 0x20,0x2D,0x01,0x00,0x01,0x00,0x64,//FM_SmMaximum,FM_Set_SoftMute_Max (1, 1, 100)
+9, 0x20, 0x2A, 0x01, 0x00, 0x03, 0x00, 0x64, 0x00, 0xFA, //FM_SmlMode, FM_Set_SoftMute_Level (1, 3, 100, 250)
+11, 0x20, 0x28, 0x01, 0x00, 0x3C, 0x00, 0x78, 0x00, 0x0A, 0x00, 0x14, //FM_SmSlowAttack,FM_Set_SoftMute_Time (1, 60, 120, 10, 20)
+9, 0x20, 0x2C, 0x01, 0x00, 0x03, 0x01, 0x90, 0x03, 0xE8, //FM_Smm,FM_Set_SoftMute_Mph (1, 3, 400, 1000)
+9, 0x20, 0x2B, 0x01, 0x00, 0x03, 0x01, 0x90, 0x03, 0xE8, //FM_Smn,FM_Set_SoftMute_Noise (1, 3, 400, 1000)
+7, 0x20, 0x2D, 0x01, 0x00, 0x01, 0x00, 0x64, //FM_SmMaximum,FM_Set_SoftMute_Max (1, 1, 100)
//Set the HighCut API settings...
-9, 0x20,0x34,0x01,0x00,0x01,0x01,0xF4,0x00,0xC8,//FM_HclMode,FM_Set_HighCut_Level (1, 1, 500, 200)
-11, 0x20,0x32,0x01,0x00,0x3C,0x00,0x78,0x00,0x14,0x00,0x14,//FM_HcSlowAttack,FM_Set_HighCut_Time (1, 60, 120, 20, 20)
-11, 0x20,0x33,0x01,0x00,0x01,0x01,0x90,0x00,0xC8,0x03,0x20,//FM_Hco,FM_Set_HighCut_Mod (1, 1, 400, 200, 800)
-9, 0x20,0x36,0x01,0x00,0x01,0x00,0x64,0x00,0x64,//FM_Hcm,FM_Set_HighCut_Mph (1, 1, 100, 100)
-9, 0x20,0x35,0x01,0x00,0x01,0x00,0x64,0x00,0x64,//FM_Hcn,FM_Set_HighCut_Noise (1, 1, 100, 100)
-7, 0x20,0x38,0x01,0x00,0x01,0x3A,0x98,//FM_HcMinimum,FM_Set_HighCut_Min (1, 1, 15000)
-7, 0x20,0x3A,0x01,0x00,0x01,0x00,0x64,//FM_HcLowCutMinimum,FM_Set_LowCut_Min (1, 1, 100)
-7, 0x20,0x37,0x01,0x00,0x01,0x05,0xDC,//FM_HcMaximum,FM_Set_HighCut_Max (1, 1, 1500)
+9, 0x20, 0x34, 0x01, 0x00, 0x01, 0x01, 0xF4, 0x00, 0xC8, //FM_HclMode,FM_Set_HighCut_Level (1, 1, 500, 200)
+11, 0x20, 0x32, 0x01, 0x00, 0x3C, 0x00, 0x78, 0x00, 0x14, 0x00, 0x14, //FM_HcSlowAttack,FM_Set_HighCut_Time (1, 60, 120, 20, 20)
+11, 0x20, 0x33, 0x01, 0x00, 0x01, 0x01, 0x90, 0x00, 0xC8, 0x03, 0x20, //FM_Hco,FM_Set_HighCut_Mod (1, 1, 400, 200, 800)
+9, 0x20, 0x36, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Hcm,FM_Set_HighCut_Mph (1, 1, 100, 100)
+9, 0x20, 0x35, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Hcn,FM_Set_HighCut_Noise (1, 1, 100, 100)
+7, 0x20, 0x38, 0x01, 0x00, 0x01, 0x3A, 0x98, //FM_HcMinimum,FM_Set_HighCut_Min (1, 1, 15000)
+7, 0x20, 0x3A, 0x01, 0x00, 0x01, 0x00, 0x0A, //FM_HcLowCutMinimum,FM_Set_LowCut_Min (1, 1, 100)
+7, 0x20, 0x37, 0x01, 0x00, 0x01, 0x05, 0xDC, //FM_HcMaximum,FM_Set_HighCut_Max (1, 1, 1500)
//Set the Stereo API settings...
-9, 0x20,0x3E,0x01,0x00,0x01,0x01,0xF4,0x00,0xFA,//FM_StlMode,FM_Set_Stereo_Level (1, 1, 500, 250)
-11, 0x20,0x3C,0x01,0x00,0x3C,0x00,0x78,0x00,0x0A,0x00,0x14,//FM_StSlowAttack,FM_Set_Stereo_Time (1, 60, 120, 10, 20)
-11, 0x20,0x3D,0x01,0x00,0x01,0x00,0xC8,0x00,0xC8,0x03,0xE8,//FM_Sto,FM_Set_Stereo_Mod (1, 1, 200, 200, 1000)
-9, 0x20,0x40,0x01,0x00,0x01,0x00,0x64,0x00,0x64,//FM_Stm,FM_Set_Stereo_Mph (1, 1, 100, 100)
-9, 0x20,0x3F,0x01,0x00,0x01,0x00,0x64,0x00,0x64,//FM_Stn,FM_Set_Stereo_Noise (1, 1, 100, 100)
+9, 0x20, 0x3E, 0x01, 0x00, 0x01, 0x01, 0xF4, 0x00, 0xFA, //FM_StlMode,FM_Set_Stereo_Level (1, 1, 500, 250)
+11, 0x20, 0x3C, 0x01, 0x00, 0x3C, 0x00, 0x78, 0x00, 0x0A, 0x00, 0x14, //FM_StSlowAttack,FM_Set_Stereo_Time (1, 60, 120, 10, 20)
+11, 0x20, 0x3D, 0x01, 0x00, 0x01, 0x00, 0xC8, 0x00, 0xC8, 0x03, 0xE8, //FM_Sto,FM_Set_Stereo_Mod (1, 1, 200, 200, 1000)
+9, 0x20, 0x40, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Stm,FM_Set_Stereo_Mph (1, 1, 100, 100)
+9, 0x20, 0x3F, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Stn,FM_Set_Stereo_Noise (1, 1, 100, 100)
+7, 0x20, 0x39, 0x01, 0x00, 0x01, 0x00, 0x50,
+9, 0x20, 0x4A, 0x01, 0x00, 0x03, 0x00, 0x50, 0x00, 0x80,
+9, 0x20, 0x49, 0x01, 0x00, 0x03, 0x00, 0x50, 0x00, 0x80,
+
+//Set_Deemphasis
+5, 0x20, 0x1F, 0x01, 0x02, 0xEE,
+
+//Set RDS
+9, 0x20, 0x51, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x02,
//Set the Audio and Application related API settings...
-9, 0x40,0x03,0x01,0x00,0x00,0x00,0x21,0x00,0x03,//AM_GPIO 0 Feature
-9, 0x40,0x03,0x01,0x00,0x01,0x00,0x21,0x00,0x00,//AM_GPIO 1 Feature
-9, 0x40,0x03,0x01,0x00,0x02,0x00,0x21,0x00,0x00,//AM_GPIO 2 Feature
-9, 0x40,0x03,0x01,0x00,0x00,0x00,0x20,0x00,0x03,// FM_GPIO 0 Feature
-9, 0x40,0x03,0x01,0x00,0x01,0x00,0x20,0x00,0x00,//FM_GPIO 1 Feature
-9, 0x40,0x03,0x01,0x00,0x02,0x00,0x20,0x00,0x00,//FM_GPIO 2 Feature
-13, 0x30,0x16,0x01,0x00,0x21,0x00,0x00,0x00,0x20,0x00,0x00,0x11,0x3A,//Dig_IO_IIS_SD_1 Mode
-//5, 0x30,0x0B,0x01,0x00,0x00,//Mute
-//5, 0x30,0x0A,0x01,0xFF,0xf0,//Volume
-7, 0x30,0x0D,0x01,0x00,0x80,0x00,0xE0,//Audio Output Source DAC L/R
+9, 0x40, 0x03, 0x01, 0x00, 0x00, 0x00, 0x21, 0x00, 0x03, //AM_GPIO 0 Feature
+9, 0x40, 0x03, 0x01, 0x00, 0x01, 0x00, 0x21, 0x00, 0x00, //AM_GPIO 1 Feature
+9, 0x40, 0x03, 0x01, 0x00, 0x02, 0x00, 0x21, 0x00, 0x00, //AM_GPIO 2 Feature
+9, 0x40, 0x03, 0x01, 0x00, 0x00, 0x00, 0x20, 0x01, 0x01, //FM_GPIO 0 Feature set for RDS
+9, 0x40, 0x03, 0x01, 0x00, 0x01, 0x00, 0x20, 0x00, 0x00, //FM_GPIO 1 Feature
+9, 0x40, 0x03, 0x01, 0x00, 0x02, 0x00, 0x20, 0x00, 0x00, //FM_GPIO 2 Feature
+
+5, 0x20, 0x1E, 0x01, 0x00, 0x01 ,
+5, 0x20, 0x54, 0x01, 0x00, 0x00 ,
+7, 0x20, 0x0B, 0x01, 0x03, 0x7A, 0x00, 0x00
+//13, 0x30, 0x16, 0x01, 0x00, 0x21, 0x00, 0x00, 0x00, 0x20, 0x00, 0x00, 0x11, 0x3A, //Dig_IO_IIS_SD_1 Mode
+//5, 0x30, 0x0B, 0x01, 0x00, 0x00, //Mute
+//5, 0x30, 0x0A, 0x01, 0xFF, 0xf0, //Volume
+//7, 0x30, 0x0D, 0x01, 0x00, 0x80, 0x00, 0xE0,//Audio Output Source DAC L/R
};
typedef enum