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5e587e0527729e449a1750d77165aac1e4abdc2f
99_7018_lmx/apps/earphone/xtell_Sensor/send_data.c
lmx 5e587e0527 最新代码
2025-11-13 09:50:42 +08:00

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#include "system/includes.h"
#include "btstack/btstack_task.h"
#include "app_config.h"
#include "app_action.h"
#include "asm/pwm_led.h"
#include "tone_player.h"
#include "ui_manage.h"
#include "gpio.h"
#include "app_main.h"
#include "asm/charge.h"
#include "update.h"
#include "app_power_manage.h"
#include "audio_config.h"
#include "app_charge.h"
#include "bt_profile_cfg.h"
#include "dev_manager/dev_manager.h"
#include "update_loader_download.h"
#include "./sensor/SC7U22.h"
#include "./buffer/circle_buffer.h"
#include "btstack/avctp_user.h"
#include "calculate/skiing_tracker.h"
#include "xtell.h"
///////////////////////////////////////////////////////////////////////////////////////////////////
//宏定义
#define ENABLE_XLOG 1
#ifdef xlog
#undef xlog
#endif
#if ENABLE_XLOG
#define xlog(format, ...) printf("[XT:%s] " format, __func__, ##__VA_ARGS__)
#else
#define xlog(format, ...) ((void)0)
#endif
//
///////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
//START -- 函数定义
void send_data_to_ble_client(const u8* data, u16 length);
extern void create_process(u16* pid, const char* name, void *priv, void (*func)(void *priv), u32 msec);
//END -- 函数定义
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
//START -- 变量定义
// --- 任务ID ---
static u16 xtell_i2c_test_id;
static u16 collect_data_id;
static u16 ble_send_data_id;
static u16 sensor_read_data_id;
static u16 calculate_data_id;
// --- 环形缓冲区 ---
#define SENSOR_DATA_BUFFER_SIZE 512
static u8 sensor_data_buffer[SENSOR_DATA_BUFFER_SIZE];
static circle_buffer_t sensor_cb;
//--- test ---
// 全局变量
u16 gsensor_id=0;
u16 test_id=0;
//END -- 变量定义
//////////////////////////////////////////////////////////////////////////////////////////////////
// /**
// * @brief 向匿名上位机发送数据帧
// * @param function_id 功能码 (例如 0x01, 0x03)
// * @param data 指向 int16_t 数据数组的指针 (例如加速度、欧拉角)
// * @param data_len int16_t 数据的个数 (例如发送6轴数据时为6发送3个欧拉角时为3)
// * @param status_byte 附加的状态字节 (例如 SHOCK_STA 或 FUSION_STA)
// */
// void send_data_anotc(uint8_t function_id, int16_t* data, uint8_t data_len, uint8_t status_byte) {
// // 定义一个足够大的缓冲区来构建数据帧
// // 最大长度(ID 0x01): 1(HEAD)+1(D_ADDR)+1(ID)+1(LEN)+13(DATA)+1(SC)+1(AC) = 19字节
// uint8_t buffer[32];
// uint8_t data_payload_len = data_len * sizeof(int16_t) + sizeof(uint8_t);
// // 1. 填充帧头和地址
// buffer[0] = 0xAA; // 帧头 HEAD
// buffer[1] = 0xFF; // 目标地址 D_ADDR
// // 2. 填充功能码和数据长度
// buffer[2] = function_id;
// buffer[3] = data_payload_len;
// // 3. 填充数据内容 (DATA)
// // 首先使用 memcpy 拷贝主要的 int16_t 数组数据
// // &buffer[4] 是数据区的起始地址
// memcpy(&buffer[4], (uint8_t*)data, data_len * sizeof(int16_t));
// // 然后在数据区末尾填充状态字节
// buffer[4 + data_len * sizeof(int16_t)] = status_byte;
// // 4. 计算校验和 (SC 和 AC)
// uint8_t sum_check = 0;
// uint8_t add_check = 0;
// // SC: 和校验 (从帧头到数据区最后一个字节)
// for (int i = 0; i < 4 + data_payload_len; ++i) {
// sum_check += buffer[i];
// }
// // 将SC填充到缓冲区
// buffer[4 + data_payload_len] = sum_check;
// // AC: 附加校验 (从帧头到SC)
// for (int i = 0; i < 4 + data_payload_len + 1; ++i) {
// add_check += buffer[i];
// }
// // 将AC填充到缓冲区
// buffer[4 + data_payload_len + 1] = add_check;
// // 5. 发送整个数据帧
// uint16_t frame_length = 4 + data_payload_len + 2;
// // Serial_Send_Buffer(buffer, frame_length);
// for (int i = 0; i < frame_length; ++i) {
// // 使用 %c 格式化字符来发送单个字节的原始值
// printf("%c", buffer[i]);
// }
// printf("\n");
// }
void ble_send_data(signed short *acc_gyro_input, float *Angle_output){
char buffer[50]; //一次最多发送50字节
u8 len = 0;
//AA FF 01 六轴数据 EE
//TO DO
send_data_to_ble_client(&buffer,len);
//AA FF 02 欧若拉角数据 EE
// TO DO
send_data_to_ble_client(&buffer,len);
}
// 从环形缓冲区读取数据并发送
void send_sensor_data_task(void) {
// printf("xtell_ble_send\n");
}
#if 0
BLE_send_data_t BLE_send_data;
void test(){
signed short acc_data_buf[3] = {0};
signed short gyr_data_buf[3] = {0};
signed short acc_gyro_input[6] = {0};
float Angle_output[3] = {0};
// xlog("============start\n");
SL_SC7U22_RawData_Read(acc_data_buf,gyr_data_buf);
BLE_send_data = sensor_processing_task(acc_data_buf, gyr_data_buf);
u8 data[50];
data[0] = 0xBB;
data[1] = 0xBE;
data[2] = 0x01;
data[3] = sizeof(BLE_send_data_t); //后续包的数据长度
// send_data_to_ble_client(&data,sizeof(BLE_send_data_t)+4);
memcpy(&data[4], &BLE_send_data, sizeof(BLE_send_data_t));
static int count = 0;
if(count >=10){
count = 0;
char* division = "==========\n";
send_data_to_ble_client(division,strlen(division));
char log_buffer[100]; // 100个字符应该足够了
// 使用 snprintf 进行格式化
int num_chars_written = snprintf(
log_buffer, // 目标缓冲区
sizeof(log_buffer), // 目标缓冲区的最大容量
"s %d, %dcm/s, %dcm\n", // 格式化字符串
BLE_send_data.skiing_state, // 第一个 %d 的参数
BLE_send_data.speed_cms, // 第二个 %d 的参数
BLE_send_data.distance_cm // 第三个 %d 的参数
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
extern BLE_KS_send_data_t KS_data;
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"Acc:%d, %d, %d\n",
KS_data.acc_KS[0],KS_data.acc_KS[1],KS_data.acc_KS[2]
); // cm/s^2
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"Gyr_dps:%d, %d, %d\n",
KS_data.gyr_KS_dps[0],
KS_data.gyr_KS_dps[1],
KS_data.gyr_KS_dps[2]
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"angle: %d, %d, %d\n",
KS_data.angle_KS[0],
KS_data.angle_KS[1],
KS_data.angle_KS[2]
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
extern debug_t debug1;
extern debug_t debug2;
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"debug:%.2f,%.2f,%.2f(%.2f),%.2f\n",
debug1.acc_variance,
debug1.gyr_variance,
debug1.acc_magnitude,
debug2.acc_magnitude, //滤波后的加速度
debug1.gyr_magnitude
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
xlog("Call interval\n");
}
count++;
memset(&BLE_send_data, 0, sizeof(BLE_send_data_t));
memset(&data, 0, 50);
// xlog("end============\n");
}
#endif
#define SENSOR_DATA_BUFFER_SIZE 100 // 定义缓冲区可以存储100个sensor_data_t元素
static circle_buffer_t sensor_read; // 环形缓冲区管理结构体
typedef struct {
signed short acc_data[3];
signed short gyr_data[3];
float angle[3];
} sensor_data_t;
static sensor_data_t sensor_read_buffer[SENSOR_DATA_BUFFER_SIZE]; // 存放sensor读到的数据
static circle_buffer_t sensor_send; // 环形缓冲区管理结构体
static BLE_send_data_t sensor_send_buffer[SENSOR_DATA_BUFFER_SIZE]; // 存放ble要发送的数据
/**
* @brief //读取传感器的数据放进缓冲区
*
*/
void sensor_read_data(){
// xlog("=======sensor_read_data START\n");
static signed short combined_raw_data[6];
static int initialized = 0;
static int calibration_done = 0;
char status = 0;
if(circle_buffer_is_full(&sensor_read)){
// xlog("sensor_read_data: read buffer full\n");
return;
}
static sensor_data_t tmp;
SL_SC7U22_RawData_Read(tmp.acc_data,tmp.gyr_data);
// xlog("=======sensor_read_data middle 1\n");
memcpy(&combined_raw_data[0], tmp.acc_data, 3 * sizeof(signed short));
memcpy(&combined_raw_data[3], tmp.gyr_data, 3 * sizeof(signed short));
if (!calibration_done) { //第1次启动开启零漂检测
status = SL_SC7U22_Angle_Output(1, combined_raw_data, tmp.angle, 0);
if (status == 1) {
calibration_done = 1;
printf("Sensor calibration successful! Skiing mode is active.\n");
}
} else {
// printf("Calculate the time interval =============== start\n");
status = SL_SC7U22_Angle_Output(0, combined_raw_data, tmp.angle, 0);
memcpy(tmp.acc_data, &combined_raw_data[0], 3 * sizeof(signed short));
memcpy(tmp.gyr_data, &combined_raw_data[3], 3 * sizeof(signed short));
circle_buffer_write(&sensor_read, &tmp);
}
// xlog("=======sensor_read_data END\n");
}
void calculate_data(){
// xlog("=======start\n");
sensor_data_t tmp;
if(circle_buffer_is_empty(&sensor_read)){
// xlog("sensor_read_buffer: read buffer empty\n");
return;
}
circle_buffer_read(&sensor_read, &tmp);
BLE_send_data_t data_by_calculate = sensor_processing_task(tmp.acc_data, tmp.gyr_data,tmp.angle);
if(circle_buffer_is_full(&sensor_send))
return;
circle_buffer_write(&sensor_send, &data_by_calculate);
// extern void BLE_send_data();
// BLE_send_data();
// xlog("=======end\n");
}
static int count = 0;
extern char xt_Check_Flag;
void BLE_send_data(){
if(circle_buffer_is_empty(&sensor_send)){
// xlog("sensor_send_buffer: send buffer empty\n");
return;
}
#ifdef XTELL_TEST
BLE_send_data_t tmp;
circle_buffer_read(&sensor_send, &tmp);
if(count >=50){
int num_chars_written;
count = 0;
char* division = "==========\n";
send_data_to_ble_client(division,strlen(division));
char log_buffer[100]; // 100个字符应该足够了
// extern char iic_read_len;
// extern char iic_write_result;
// num_chars_written = snprintf(log_buffer, sizeof(log_buffer),"SL_SC7U22_Check=0x%d, %d, %d\n", xt_Check_Flag, iic_read_len, iic_write_result);
// send_data_to_ble_client(&log_buffer,strlen(log_buffer));
memset(&log_buffer, 0, 100);
// 使用 snprintf 进行格式化
num_chars_written = snprintf(
log_buffer, // 目标缓冲区
sizeof(log_buffer), // 目标缓冲区的最大容量
"s %d, %dcm/s, %dcm\n", // 格式化字符串
tmp.skiing_state, // 第一个 %d 的参数
tmp.speed_cms, // 第二个 %d 的参数
tmp.distance_cm // 第三个 %d 的参数
);
send_data_to_ble_client(&log_buffer, strlen(log_buffer));
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"Acc:%d, %d, %d\n",
tmp.acc_data[0],tmp.acc_data[1],tmp.acc_data[2]
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"Gyr:%d, %d, %d\n",
tmp.gyr_data[0],tmp.gyr_data[1],tmp.gyr_data[2]
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"Angle:%.1f, %.1f, %1.f\n",
tmp.angle_data[0],tmp.angle_data[1],tmp.angle_data[2]
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
short acc_mo_cms = sqrtf(tmp.acc_data[0]*tmp.acc_data[0] + tmp.acc_data[1]*tmp.acc_data[1] + tmp.acc_data[2]*tmp.acc_data[2])-900;
memset(&log_buffer, 0, 100);
num_chars_written = snprintf(
log_buffer,
sizeof(log_buffer),
"acc_cm/s^2:%d\n",
acc_mo_cms
);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
// xlog("s %d, %dcm/s, %dcm\n",tmp.skiing_state, tmp.speed_cms, tmp.distance_cm);
// xlog("Acc:%d, %d, %d\n", tmp.acc_data[0],tmp.acc_data[1],tmp.acc_data[2]);
// xlog("GYR:%d, %d, %d\n", tmp.gyr_data[0],tmp.gyr_data[1],tmp.gyr_data[2]);
}
count++;
#else
#endif
}
//iic测试调用的
#if 0
static u16 xt_iic_test_id;
char log_buffer_1[100];
extern char sen_log_buffer_1[100];
extern char sen_log_buffer_2[100];
extern char sen_log_buffer_3[100];
extern char sen_log_buffer_4[100];
extern char sen_log_buffer_5[100];
extern char w_log_buffer_1[100];
extern char w_log_buffer_2[100];
extern char w_log_buffer_3[100];
extern char w_log_buffer_4[100];
extern char w_log_buffer_5[100];
void xt_iic_test(){
char log_buffer[100];
send_data_to_ble_client(&log_buffer_1,strlen(log_buffer_1));
extern char iic_read_len;
extern char iic_write_result;
int num_chars_written = snprintf(log_buffer, sizeof(log_buffer),"SL_SC7U22_Check=0x%d,%d,%d\n", xt_Check_Flag, iic_read_len, iic_write_result);
extern void send_data_to_ble_client(const u8* data, u16 length);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
if(sen_log_buffer_1 != NULL)
send_data_to_ble_client(&sen_log_buffer_1,strlen(sen_log_buffer_1));
if(sen_log_buffer_2 != NULL)
send_data_to_ble_client(&sen_log_buffer_2,strlen(sen_log_buffer_2));
if(sen_log_buffer_3 != NULL)
send_data_to_ble_client(&sen_log_buffer_3,strlen(sen_log_buffer_3));
if(sen_log_buffer_4 != NULL)
send_data_to_ble_client(&sen_log_buffer_4,strlen(sen_log_buffer_4));
if(sen_log_buffer_5 != NULL)
send_data_to_ble_client(&sen_log_buffer_5,strlen(sen_log_buffer_5));
if(w_log_buffer_1 != NULL)
send_data_to_ble_client(&w_log_buffer_1,strlen(w_log_buffer_1));
if(w_log_buffer_2 != NULL)
send_data_to_ble_client(&w_log_buffer_2,strlen(w_log_buffer_2));
if(w_log_buffer_3 != NULL)
send_data_to_ble_client(&w_log_buffer_3,strlen(w_log_buffer_3));
if(w_log_buffer_4 != NULL)
send_data_to_ble_client(&w_log_buffer_4,strlen(w_log_buffer_4));
if(w_log_buffer_5 != NULL)
send_data_to_ble_client(&w_log_buffer_5,strlen(w_log_buffer_5));
// SL_SC7U22_Config();
}
#endif
#if 0
u16 xt_iic_test_id;
char hw_iic_init_result;
void xt_hw_iic_test(){
char log_buffer[100];
extern char iic_read_len;
extern char iic_write_result;
int num_chars_written = snprintf(log_buffer, sizeof(log_buffer),"init result:%d, SL_SC7U22_Check=0x%d,%d,%d\n",hw_iic_init_result, xt_Check_Flag, iic_read_len, iic_write_result);
extern void send_data_to_ble_client(const u8* data, u16 length);
send_data_to_ble_client(&log_buffer,strlen(log_buffer));
}
#endif
void xtell_task_create(void){
// int ret = hw_iic_init(0);
// xlog("hw_iic_init result:%d\n",ret);
// //初始化传感器
// SL_SC7U22_Config();
#if TCFG_GSENOR_USER_IIC_TYPE
int ret = hw_iic_init(0);
xlog("init iic result:%d\n", ret); //返回0成功
#else
int ret = soft_iic_init(0);
int num_chars_written = snprintf(log_buffer_1, sizeof(log_buffer_1),"init iic: %d\n", ret);
#endif
gpio_set_direction(IO_PORTE_05,0); //设置PE5 输出模式
gpio_set_pull_up(IO_PORTE_05,1);
gpio_direction_output(IO_PORTE_05,1);
os_time_dly(10);
SL_SC7U22_Config();
// extern u8 LIS2DH12_Config(void);
// LIS2DH12_Config();
xlog("xtell_task_create\n");
// 初始化环形缓冲区
// circle_buffer_init(&sensor_cb, sensor_data_buffer, SENSOR_DATA_BUFFER_SIZE);
circle_buffer_init(&sensor_read, sensor_read_buffer, SENSOR_DATA_BUFFER_SIZE, sizeof(sensor_data_t));
circle_buffer_init(&sensor_send, sensor_send_buffer, SENSOR_DATA_BUFFER_SIZE, sizeof(BLE_send_data_t));
//初始化滑雪追踪器
// SkiingTracker_Init(&skiing_data);
xlog("SkiingTracker_Init\n");
create_process(&sensor_read_data_id, "read",NULL, sensor_read_data, 10);
create_process(&calculate_data_id, "calculate",NULL, calculate_data, 5);
create_process(&ble_send_data_id, "send",NULL, BLE_send_data, 1);
#if 0
hw_iic_init_result = ret;
create_process(&xt_iic_test_id,"iic_test",NULL,xt_hw_iic_test,1000);
#endif
}
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