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temperature_iT18/beken_rtt_sdk_release-SDK_3.0.76/applications/app_temperature.c

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2025-05-10 16:03:55 +08:00
#include <rtthread.h>
#include <finsh.h>
#include "common.h"
#include "param_config.h"
#include "ble_pub.h"
#include "drv_oled.h"
#include <rtthread.h>
#include <rtdevice.h>
#include "wlan_ui_pub.h"
#include "sys_ctrl_pub.h"
#include "sys_ctrl.h"
#include "target_util_pub.h"
#include "drv_model_pub.h"
#include "app_temperature.h"
#include "app_voice_player.h"
#ifdef PKG_USING_EASYFLASH
#include "easyflash.h"
#endif
#include "saradc_intf.h"
#include "saradc_pub.h"
#include "ring_queue.h"
#include "opus_encoder.h"
#include "charge.h"
static app_temperature_info_t temperature_info;
//static app_dev_info_t dev_info;
static app_box_info_t box_info;
static beken_timer_t timer_detect;
static beken_timer_t timer_hall_detect;
static beken_timer_t timer_poweroff;
static beken_timer_t timer_bind;
static beken_timer_t timer_idle;
int start_bind_detect = 0;
int hall_key_down_count = 0;
int hall_io_state = 0;
static ADC_OBJ box_batt_adc;
static int box_battery_percent = -1;
uint16_t last_body_temp = 0;
rt_thread_t tid_show_wait_temp;
static app_ui_mode app_mode = UI_IDLE;
rt_thread_t tid_show_detect_temp;
static RingQueue ring_queue;
/**
*
*/
uint8_t box_bind_mac[32];
/**
*
*/
uint8_t ble_device_mac[6] = {0xe5, 0xe6, 0xb6, 0x09, 0x28, 0x37};
//uint8_t ble_device_name[12] = {0};
int ble_device_rssi = -100;
int ble_found_bind_dev = 0;
/**
* BLE 广
*/
int temperature_adv_get_name(recv_adv_t *r_ind,char *name){
int name_len = 0;
const uint8_t *p = r_ind->data;
const uint8_t *end = r_ind->data + r_ind->data_len;
while (p < end)
{
uint8_t current_length = *p++;
// current_length是类型+数据的总字节数。当前指针已经移动到类型字段。
if (current_length == 0)
{
break;
}
if (p + current_length > end)
{ // 类型1字节 + 数据长度current_length -1字节
// 数据不够,退出
break;
}
uint8_t type = *p++;
uint8_t data_len = current_length - 1; // 扣除类型字节后的数据长度
const uint8_t *data_ptr = p;
switch (type)
{
case 0x09: // Complete Local Name
if(data_len){
name_len = data_len;
rt_strncpy(name,(char*)data_ptr,data_len);
//rt_snprintf(name,data_len,"%s",data_ptr);
}
break;
default:
break;
}
p += data_len; // p之前已经移动到数据部分开始处此时加上数据长度让指针移动到下一个AD结构
}
return name_len;
}
/**
* 广
*/
void temperature_adv_callback(recv_adv_t *r_ind)
{
//获取BLE 设备名称
char str_name[12] ={0};
int ret = temperature_adv_get_name(r_ind,str_name);
signed char rssi = (signed char)r_ind->rssi;
if(ret){
#if 0
bk_printf("ble dev (%s): %02x:%02x:%02x:%02x:%02x:%02x,rssi:%d\r\n",str_name,r_ind->adv_addr[0], r_ind->adv_addr[1], r_ind->adv_addr[2],
r_ind->adv_addr[3], r_ind->adv_addr[4], r_ind->adv_addr[5],rssi);
#endif
}else{
//没有名称的 跳过!
return;
}
//不等于 IT12 跳过!
if(strstr(str_name,BLE_TEMPERATURE_DEVICE_IT12) == NULL){
return;
}
#if 1
bk_printf("\r\n");
bk_printf("ble dev (%s): %02x:%02x:%02x:%02x:%02x:%02x,rssi:%d\r\n",str_name,r_ind->adv_addr[0], r_ind->adv_addr[1], r_ind->adv_addr[2],
r_ind->adv_addr[3], r_ind->adv_addr[4], r_ind->adv_addr[5],rssi);
#endif
//如果当前是绑定模式 则收集BLE 测温设备 判断信号值,然后绑定
if(app_mode == UI_BOX_BIND){
//简单匹配 选择信号值最大的
bk_printf("app_mode == UI_BOX_BIND\r\n");
if(rssi > ble_device_rssi){
ble_found_bind_dev = 1;
ble_device_rssi = rssi;
rt_memcpy(ble_device_mac,r_ind->adv_addr,6);
bk_printf("found better !bind - > ble_device : %s \r\n",str_name);
}
return;
}
bk_printf("bind dev : %s \r\n", box_bind_mac);
// 判断是否是绑定的设备 如果不是则跳出
//bind: box_bind_mac
//current:
char str_current [32];
rt_memset(str_current,0,sizeof(str_current));
rt_sprintf(str_current,"%02x:%02x:%02x:%02x:%02x:%02x",r_ind->adv_addr[0],r_ind->adv_addr[1],r_ind->adv_addr[2],r_ind->adv_addr[3],r_ind->adv_addr[4],r_ind->adv_addr[5]);
if(rt_strcmp((char*)str_current, (char*)box_bind_mac) != 0){
return;
}else{
bk_printf("same : %s \r\n",str_current);
}
//int i;
//for (i = 0; i < r_ind->data_len; i++)
//{
// bk_printf("0x%02x,", r_ind->data[i]);
//}
//bk_printf("\r\n");
const uint8_t *p = r_ind->data;
const uint8_t *end = r_ind->data + r_ind->data_len;
int j = 0;
while (p < end)
{
uint8_t current_length = *p++;
// current_length是类型+数据的总字节数。当前指针已经移动到类型字段。
if (current_length == 0)
{
break;
}
if (p + current_length > end)
{ // 类型1字节 + 数据长度current_length -1字节
// 数据不够,退出
break;
}
uint8_t type = *p++;
uint8_t data_len = current_length - 1; // 扣除类型字节后的数据长度
const uint8_t *data_ptr = p;
switch (type)
{
case 0x01: // Flags
break;
case 0xFF: // Manufacturer Specific Data
bk_printf("FF: ");
for (j = 0; j < data_len; j++)
{
bk_printf("0x%02x ", data_ptr[j]);
}
bk_printf("\r\n");
uint16_t body = (data_ptr[1] & 0xff) | (((data_ptr[0] & 0xff) << 8));
uint16_t obj = (data_ptr[3] & 0xff) | (((data_ptr[2] & 0xff) << 8));
uint16_t env = (data_ptr[5] & 0xff) | (((data_ptr[4] & 0xff) << 8));
uint16_t batt = data_ptr[6] & 0xff;
temperature_info.temperature_body = body;
temperature_info.temperature_obj = obj;
temperature_info.temperature_env = env;
temperature_info.batt_val = batt;
bk_printf("temp-> body : %d obj : %d env : %d batt : %d\r\n", body, obj, env, batt);
break;
// 其他需要的类型可以继续添加
default:
break;
}
p += data_len; // p之前已经移动到数据部分开始处此时加上数据长度让指针移动到下一个AD结构
}
//复制设备名称
rt_memset(temperature_info.device_name,0,sizeof(temperature_info.device_name));
rt_memcpy(temperature_info.device_name,str_name,sizeof(str_name));
//rt_strcmp((char*)str_name,(char*)temperature_info.device_name);
bk_printf("!!!ble_device : %s %s \r\n",str_name,temperature_info.device_name);
rtos_reload_timer(&timer_idle);
//在超时或者等待温度页面 第一次接受到温度 显示设备信息
if(app_mode == UI_IDLE || app_mode == UI_WAIT_TEMPERATURE || app_mode == UI_SHOW_MEMORY_INFO || app_mode == UI_SHOW_DEVICE_INFO|| app_mode == UI_BOX_BATTERY){
bk_printf("!app_mode : %d \r\n",app_mode);
app_enter_ui(UI_SHOW_DEVICE_INFO);
voice_player_play_tts(VOICE_CN_DETECT_START);
}
//如果当前温度和之前相同 不刷新温度
uint16_t temp_body = temperature_info.temperature_body;
if(last_body_temp == temp_body){
//return;
}
last_body_temp = temp_body;
app_enter_ui(UI_SHOW_TEMPERATURE);
//添加数据到队列,数量足够后取出所有温度数据 计算方差 如果小于 N N可以趋近于0 暂定小于100 则表示温度稳定
RingQueue_enqueue(&ring_queue,(int)last_body_temp);
int size = RingQueue_size(&ring_queue);
bk_printf("RingQueue_size -> %d \r\n", size);
if (RingQueue_isFull(&ring_queue)) {
int i = 0;
int t_datas[MAX_SIZE];
for(i = 0;i < MAX_SIZE; i++){
int value = 0;
RingQueue_dequeue(&ring_queue,&value);
t_datas[i] = value;
bk_printf("%d ", value);
}
bk_printf("\r\n", size);
//计算平均值
int sum = 0;
for(i = 0;i < MAX_SIZE; i++){
sum += t_datas[i];
}
int mean_value = sum / MAX_SIZE;
bk_printf("mean_value:%d \r\n", mean_value);
//判断温度是否在规定范围
//if(mean_value < BLE_TEMPERATURE_LIMIT_MIN || mean_value > BLE_TEMPERATURE_LIMIT_MAX){
// return;
//}
//计算方差
double sumOfSquares = 0;
for (int i = 0; i < MAX_SIZE; i++) {
sumOfSquares += (t_datas[i] - mean_value) * (t_datas[i] - mean_value);
}
int variance_value = sumOfSquares / MAX_SIZE; // 注意这里是n而不是n-1对于样本方差
bk_printf("variance_value:%d \r\n", variance_value);
//方差小于 20 表示温度稳定 //10
if(variance_value <= 20){
//测量完成
temperature_info.device_state = STATE_DETECT_FINISH;
bk_printf("detect Finish :%d \r\n", mean_value);
app_detect_record_t record;
record.temperature_value = (uint16)mean_value;
temperature_save_record(&record);
voice_player_play_tts(VOICE_CN_DETECT_FINISH);
rt_thread_mdelay(1500);
voice_player_play_temperature(mean_value);
}
}
}
UINT32 usb_power_is_pluged(void)
{
UINT32 reg;
reg = sctrl_analog_get((SCTRL_BASE + 0x21*4));
return (reg & (1 << 21));
}
void timer_check_device_run_callback(void *arg){
uint16_t reg_charge = CHARGE_REG0X2_CHARGE_X_STA_GET(0);
//rt_kprintf("charge status: %d\r\n", reg_charge);
//未接入充电 5376 接入充电 38144
if(reg_charge == 5376){
box_info.charge_state = 0;
}else{
box_info.charge_state = 1;
}
// box_info.charge_state = 0;
rt_kprintf("usb_power_is_pluged reg:%d state:%d\r\n", reg_charge, box_info.charge_state);
//合盖状态接入充电 ---> 关机
if (box_info.hall_state == 0)
{
if (box_info.charge_state)
{
// 接入充电 并且合盖 执行关机
rtos_stop_timer(&timer_poweroff);
//延迟关机
//启动定时3秒关机
rtos_start_timer(&timer_poweroff);
}
}
}
/**
* ...
*/
static void app_temperature_ui_wait_entry(void *parameter)
{
int i = 0;
int ui_wait_step = 0;
while (1)
{
if(i >2000){
i = 0;
}
i++;
if(app_mode == UI_WAIT_TEMPERATURE || app_mode == UI_IDLE ||UI_SHOW_MEMORY_INFO){
if(i%50==0){ //500ms
OLED_Clear();
switch (ui_wait_step)
{
case 0:
OLED_ShowString(0+20,0,(u8 *)"",32,1);
ui_wait_step =1;
break;
case 1:
OLED_ShowString(0+20,0,(u8 *)".",32,1);
ui_wait_step =2;
break;
case 2:
OLED_ShowString(0+20,0,(u8 *)"..",32,1);
ui_wait_step =3;
break;
case 3:
OLED_ShowString(0+20,0,(u8 *)"...",32,1);
ui_wait_step =0;
break;
break;
default:
break;
}
OLED_Refresh();
}
rt_thread_mdelay(10);
}
}
rt_kprintf("ui_wait finish !!!\r\n");
}
void app_show_box_battery(){
rt_kprintf("UI->app_show_box_battery\r\n");
OLED_Clear();
char str_batt[12] = {0};
rt_sprintf(str_batt,"%d%",box_battery_percent);
extern unsigned char f35x40_box_ico[];
//满电显示屏显示不全 缩小字体显示
if(box_battery_percent >= 100){
OLED_ShowPicture(3,5,35,40,(u8 *)&f35x40_box_ico,1);
OLED_ShowString(38,15,(u8 *)str_batt,16,1);
}else{
OLED_ShowPicture(1,3,35,40,(u8 *)&f35x40_box_ico,1);
//OLED_DrawCircle(15, 20, 10);
//OLED_DrawCircle(15, 20, 7);
OLED_ShowString(36,8,(u8 *)str_batt,24,1);
}
OLED_Refresh();
}
/**
*
*/
void app_show_memory_detect_info(){
rt_kprintf("UI->app_show_last_detect_info\r\n");
app_detect_record_t record;
rt_memset(&record,0,sizeof(app_detect_record_t));
temperature_read_record(&record);
if(record.temperature_value == 0){
rt_kprintf("no record\r\n");
return;
}
OLED_Clear();
OLED_ShowString(2,1,(u8 *)"M1",16,1);
char str_temp[12]={0};
rt_sprintf(str_temp,"%d.%d C\n",record.temperature_value/100,record.temperature_value/10%10);
//rt_sprintf(str_temp,"")
//OLED_ShowString(0,18,(u8 *)"36.5 C",24,1);
OLED_ShowString(0,18,(u8 *)str_temp,24,1);
OLED_DrawCircle(55,15,4);
OLED_Refresh();
rt_thread_mdelay(1000);
}
/**
*
*/
void app_show_temperature_device_info(){
rt_kprintf("UI->app_show_temperature_device_info\r\n");
OLED_Clear();
//char str_device[16]={0};
//rt_sprintf(str_device,"%s",temperature_info.device_name);
OLED_ShowString(0,5,(u8 *)temperature_info.device_name,16,1);
extern unsigned char f40x20_box_batt[];
OLED_ShowPicture(0,23,40,20,(u8 *)&f40x20_box_batt,1);
char str_batt[16]={0};
rt_sprintf(str_batt,":%d%",temperature_info.batt_val);
OLED_ShowString(35,25,(u8 *)str_batt,16,1);
OLED_Refresh();
rt_thread_mdelay(2000);
//app_enter_ui(UI_WAIT_TEMPERATURE);
}
/**
*
*/
void app_show_wait_temperature(){
rt_kprintf("UI->app_show_wait_temperature\r\n");
if(tid_show_wait_temp){
rt_thread_detach(tid_show_wait_temp);
tid_show_wait_temp = NULL;
}
tid_show_wait_temp = rt_thread_create("wait_temp",app_temperature_ui_wait_entry,RT_NULL,1024 * 8,21,10);
if (tid_show_wait_temp)
rt_thread_startup(tid_show_wait_temp);
}
static void app_temperature_ui_detect_entry(void *parameter)
{
int i = 0;
int ui_show_point = 0;
while (1)
{
if(i >2000){
i = 0;
}
i++;
//1s刷新一次 用于 屏幕上的点 闪烁
if(i%100==0){ //1000ms
OLED_Clear();
//rt_kprintf("UI->app_ui_show_temperautre \r\n");
uint16_t temp_body = last_body_temp;
char str_temp[8]={0};
rt_sprintf(str_temp,"%d.%d \n",temp_body/100,temp_body/10%10);
//rt_kprintf("%s\r\n",str_temp);
if(temp_body > BLE_TEMPERATURE_LIMIT_MIN && temp_body < BLE_TEMPERATURE_LIMIT_MAX){
OLED_Clear();
rt_memset(str_temp,0,sizeof(str_temp));
rt_sprintf(str_temp,"%d",temp_body/100);//整数
OLED_ShowString(0,0+10,(u8*)str_temp,32,1);
OLED_ShowChar(32,0+10,'.',32,1);//小数点
rt_memset(str_temp,0,sizeof(str_temp));
rt_sprintf(str_temp,"%d",temp_body/10%10);//小数点后一位
OLED_ShowString(40,0+10,(u8*)str_temp,32,1);
OLED_ShowChar(61,16,'C',24,1);
//屏幕上的点(度) 闪烁
if(ui_show_point){
OLED_DrawCircle(62,10,4);
//未测量完成才允许闪烁
if(temperature_info.device_state == STATE_DETECT_ING){
ui_show_point = 0;
}
}else{
ui_show_point = 1;
}
}
if(temp_body < BLE_TEMPERATURE_LIMIT_MIN){
OLED_Clear();
//OLED_ShowString(0+10,0+5,(u8 *)"LOW",32,1);
OLED_ShowChinese(3,5,0,32,1); //低
OLED_ShowChinese(35,5,2,32,1);//温
}
if(temp_body > BLE_TEMPERATURE_LIMIT_MAX){
OLED_Clear();
//OLED_ShowString(0+5,0+5,(u8 *)"HIGH",32,1);
OLED_ShowChinese(3,5,9,32,1); //超
OLED_ShowChinese(35,5,2,32,1);//温
}
OLED_Refresh();
}
rt_thread_mdelay(10);
//}
}
rt_kprintf("ui_detect finish !!!\r\n");
}
/**
*
*/
void app_show_detect_temperature(){
rt_kprintf("UI->app_show_detect_temperature\r\n");
//退出正在进行的动画线程
if(tid_show_wait_temp){
rt_thread_detach(tid_show_wait_temp);
tid_show_wait_temp = NULL;
}
//退出正在进行测温的动画线程
if(tid_show_detect_temp){
rt_thread_detach(tid_show_detect_temp);
tid_show_detect_temp = NULL;
}
tid_show_detect_temp = rt_thread_create("do_detect",app_temperature_ui_detect_entry,RT_NULL,1024 * 8,21,10);
if (tid_show_detect_temp)
rt_thread_startup(tid_show_detect_temp);
}
void app_ui_show_bind(){
rt_kprintf("UI->app_ui_show_bind \r\n");
OLED_Clear();
//OLED_ShowString(0+5,0+5,(u8 *)"BIND",32,1);
OLED_ShowChinese(3,3,3,32,1); //绑
OLED_ShowChinese(35,3,4,32,1);//定
OLED_Refresh();
}
/**
*
*/
void app_ui_show_temperautre(){
rt_kprintf("UI->app_ui_show_temperautre \r\n");
uint16_t temp_body = last_body_temp;
char str_temp[8]={0};
rt_sprintf(str_temp,"%d.%d \n",temp_body/100,temp_body/10%10);
rt_kprintf("%s\r\n",str_temp);
if(temp_body > BLE_TEMPERATURE_LIMIT_MIN && temp_body < BLE_TEMPERATURE_LIMIT_MAX){
OLED_Clear();
rt_memset(str_temp,0,sizeof(str_temp));
rt_sprintf(str_temp,"%d",temp_body/100);//整数
OLED_ShowString(0,0+10,(u8*)str_temp,32,1);
OLED_ShowChar(32,0+10,'.',32,1);//小数点
rt_memset(str_temp,0,sizeof(str_temp));
rt_sprintf(str_temp,"%d",temp_body/10%10);//小数点后一位
OLED_ShowString(40,0+10,(u8*)str_temp,32,1);
OLED_DrawCircle(60,10,4);
OLED_ShowChar(58,16,'C',24,1);
}
if(temp_body < BLE_TEMPERATURE_LIMIT_MIN){
OLED_Clear();
//OLED_ShowString(0+10,0+5,(u8 *)"LOW",32,1);
OLED_ShowChinese(3,5,0,32,1); //低
OLED_ShowChinese(35,5,2,32,1);//温
}
if(temp_body > BLE_TEMPERATURE_LIMIT_MAX){
OLED_Clear();
//OLED_ShowString(0+5,0+5,(u8 *)"HIGH",32,1);
OLED_ShowChinese(3,5,9,32,1); //超
OLED_ShowChinese(35,5,2,32,1);//温
}
OLED_Refresh();
}
void app_enter_ui(app_ui_mode mode){
if(app_mode == mode){
return;
}
app_mode = mode;
//等待其它页面线程退出
rt_thread_mdelay(50);
if(tid_show_wait_temp){
rt_thread_delete(tid_show_wait_temp);
tid_show_wait_temp = NULL;
}
//退出正在进行测温的动画线程
if(tid_show_detect_temp){
rt_thread_detach(tid_show_detect_temp);
tid_show_detect_temp = NULL;
}
switch (mode)
{
case UI_BOX_BATTERY:
app_show_box_battery();
//app_show_do_detect_temperature();
break;
case UI_SHOW_DEVICE_INFO:
app_show_temperature_device_info();
break;
case UI_IDLE:
case UI_WAIT_TEMPERATURE:
app_show_wait_temperature();
break;
case UI_BOX_BIND:
app_ui_show_bind();
break;
case UI_SHOW_TEMPERATURE:
//app_ui_show_temperautre();
app_show_detect_temperature();
break;
case UI_SHOW_MEMORY_INFO:
app_show_memory_detect_info();
break;
default:
break;
}
}
/**
*
*/
void temperature_save_record(app_detect_record_t *record){
EfErrCode result = EF_NO_ERR;
//char t[sizeof(app_detect_record_t)] = {0x88,0x86,0x89};
//app_detect_record_t record;
//record.temperature_value = t_value;
char data[32];
rt_memset(data,0,sizeof(data));
rt_sprintf(data,"%d",record->temperature_value);
result = ef_set_env(BLE_TEMPERATURE_FLASH_RECORD_KEY_TEMPERATURE, data);
result = ef_save_env();
if (result == EF_NO_ERR)
{
rt_kprintf("temperature_save_record success !!!\r\n");
}else{
rt_kprintf("temperature_save_record failed !!!\r\n");
}
}
/**
*
*/
void temperature_read_record(app_detect_record_t *record){
rt_memset(record,0,sizeof(app_detect_record_t));
/*获取easy flash存入的数据*/
char *t = ef_get_env(BLE_TEMPERATURE_FLASH_RECORD_KEY_TEMPERATURE);
if(t != NULL){
//rt_kprintf("%02X %02X %02X %02X %02X %02X %02X %02X %02X %02X\r\n",t[0],t[1],t[2],t[3],t[4],t[5],t[6],t[7],t[8],t[9]);
//rt_memcpy(record,t,sizeof(app_detect_record_t));
uint16 temp = atoi(t);
record->temperature_value = temp;
}else{
rt_kprintf("temperature_read_record error\r\n");
}
}
void box_show_ble_device_info(app_temperature_info_t *temperature_info){
OLED_Clear();
//OLED_ShowString(0+5,0+5,(u8 *)"BIND",32,1);
OLED_DrawCircle(10,20,10);
OLED_ShowString(22,0+5,(u8 *)"30%",24,1);
rt_thread_mdelay(1500);
}
void box_poweroff_timeout_callback(void *arg){
rtos_stop_timer(&timer_poweroff);
bk_gpio_config_output(BLE_TEMPERATURE_BOX_POWER_CTR);
bk_gpio_output(BLE_TEMPERATURE_BOX_POWER_CTR,0);
rt_kprintf("box poweroff !!!\r\n");
}
/**
* FLASH xx:xx:xx:xx:xx:xx
*/
void box_bind_timeout_callback(void *arg){
rtos_stop_timer(&timer_bind);
rt_kprintf("box_bind callback\r\n");
if(ble_found_bind_dev){
char str_bind_mac[32];
rt_memset(str_bind_mac,0,sizeof(str_bind_mac));
rt_sprintf(str_bind_mac,"%02x:%02x:%02x:%02x:%02x:%02x",ble_device_mac[0], ble_device_mac[1], ble_device_mac[2],
ble_device_mac[3], ble_device_mac[4], ble_device_mac[5]);
bk_printf("BIND: %s\r\n",str_bind_mac);
EfErrCode result = EF_NO_ERR;
// 将要写入的数据存放到 easy flash 环境变量
result = ef_set_env(BLE_TEMPERATURE_FLASH_CONFIG_KEY_BIND_MAC, str_bind_mac);
// 保存数据
result = ef_save_env();
if (result == EF_NO_ERR)
{
rt_strncpy((char*)box_bind_mac,(char*)str_bind_mac,rt_strlen(str_bind_mac));
voice_player_play_tts(VOICE_CN_BIND_SUCC);
OLED_Clear();
// OLED_ShowString(0+15,0+5,(u8 *)"OK",32,1);
OLED_ShowChinese(3, 3, 5, 32, 1); // 成
OLED_ShowChinese(35, 3, 6, 32, 1); // 功
OLED_Refresh();
rt_thread_mdelay(1000);
}
}
//app_enter_bind_mode(false);
app_enter_ui(UI_IDLE);
rt_kprintf("exit bind mode !!!\r\n");
}
/*
广
*/
void timer_app_idle_callback(void *arg){
if(app_mode == UI_BOX_BIND){
return;
}
//app_enter_bind_mode(false);
temperature_info.device_state = STATE_DETECT_ING;
app_enter_ui(UI_IDLE);
rt_kprintf("back idle mode !!!\r\n");
}
/**
* hall开关状态
*
*/
void timer_hall_detect_callback(void *arg){
int hall = bk_gpio_input(38);
//rt_kprintf("hall -> %d\r\n",hall);
if(hall_io_state == hall){
return;
}
hall_io_state = hall;
box_info.hall_state = hall;
if(hall == 0){
if(!start_bind_detect){
start_bind_detect = 1;
}
hall_key_down_count ++;
rt_kprintf("detect hall down ,count :%d\r\n",hall_key_down_count);
//延迟关机
//启动定时3秒关机
rtos_start_timer(&timer_poweroff);
}else{
//如果启动定时开机后 检测到开盖,则取消开机
if(rtos_is_timer_running(&timer_poweroff)){
//rt_kprintf("stop poweroff timeout !!!\r\n");
rtos_stop_timer(&timer_poweroff);
}
if(start_bind_detect && hall_key_down_count == 5){
rt_kprintf("enter bind !!!\r\n");
start_bind_detect = 0;
hall_key_down_count = 0;
rt_memset(ble_device_mac,0,sizeof(ble_device_mac));
//收到的信号值 区域0 为越好
ble_device_rssi = -100;
//清除找到绑定设备标志
ble_found_bind_dev = 0;
//app_enter_bind_mode(true);
//进入绑定模式 并启动超时退出
app_enter_ui(UI_BOX_BIND);
voice_player_play_tts(VOICE_CN_SEARCH_DEVICE);
rtos_start_timer(&timer_bind);
}
}
}
// 中断触发的回调函数
void box_switch_irq_callback(unsigned char ucChannel)
{
rt_kprintf("Interrupt triggered!\n");
// 这里可以添加更多的处理逻辑
int hall = bk_gpio_input(38);
rt_kprintf("hall -> %d\r\n",hall);
}
int box_switch_init(void)
{
//关闭box 保持电源不关机
bk_gpio_config_output(39);
bk_gpio_output(39,1);
bk_gpio_config_input(38);
//启动中断失败
//gpio_int_enable(38,GMODE_INPUT_PULLDOWN,box_switch_irq_callback);
/* 按键引脚为输入模式*/
//rt_pin_mode(GPIO38 , PIN_MODE_INPUT);
/* 绑定中断, 下降沿模式, 回调函数名为box_switch_irq_callback */
//rt_pin_attach_irq(GPIO38 , PIN_IRQ_MODE_FALLING , box_switch_irq_callback, RT_NULL);
/* 使能中断*/
//rt_pin_irq_enable(GPIO38 , PIN_IRQ_ENABLE);
return 0;
}
void temperature_dev_config_init(){
rt_memset(&box_bind_mac,0,sizeof(box_bind_mac));
/*获取easy flash存入的数据*/
char *t = ef_get_env(BLE_TEMPERATURE_FLASH_CONFIG_KEY_BIND_MAC);
if(t != NULL){
rt_memcpy(&box_bind_mac,t,strlen(t));
rt_kprintf("\r\n");
rt_kprintf("BIND TDEVICE:%s\r\n",box_bind_mac);
rt_kprintf("\r\n");
}else{
rt_kprintf("easy_flash read error\r\n");
}
}
/****channel 1 - 7***/
static void box_adc_detect_callback(int new_mv, void *user_data)
{
static int cnt = 0;
box_batt_adc.user_data = (void*)new_mv;
if(cnt++ >= 20)
{
cnt = 0;
rt_kprintf("adc channel%d voltage:%d,%x\r\n",box_batt_adc.channel,new_mv,box_batt_adc.user_data);
int bat_volt = new_mv*2;
int batt_min = 3300;
int batt_max = 4200;
rt_kprintf("battery_calc --> bat_volt:%d\n",bat_volt);
if (bat_volt < batt_min) {
box_battery_percent=0;
} else if (bat_volt > batt_max) {
box_battery_percent= 100;
} else {
box_battery_percent= ((float)(bat_volt - batt_min) / (batt_max - batt_min)) * 100;
printf("battery_calc @@@ --> percent:%d\n",box_battery_percent);
}
if(box_battery_percent < 0){
box_battery_percent = 0;
}
rt_kprintf("battery_calc --> percent:%d\n",box_battery_percent);
adc_obj_stop(&box_batt_adc);
}
}
void box_init_power(){
int channel;
channel = 7;
saradc_work_create();
adc_obj_init(&box_batt_adc, box_adc_detect_callback, channel, &box_batt_adc);
adc_obj_start(&box_batt_adc);
}
static void charger_module_enable(UINT32 enable)
{
sctrl_analog_set(SCTRL_ANALOG_CTRL4, (sctrl_analog_get(SCTRL_ANALOG_CTRL4) & ~(1 << 12)) | (!!enable << 12));
}
void temperature_led_ble(bool onoff){
//GPIO1
if(onoff){
bk_gpio_config_output(1);
bk_gpio_output(1,1);
}else{
bk_gpio_config_output(1);
bk_gpio_output(1,0);
}
}
void temperature_init(void){
extern long list_memheap(void);
list_memheap();
bk_wlan_stop(BK_STATION);
temperature_led_ble(0);
// 查询绑定设备
//uint8_t test_device_mac[6] = {0xe5, 0xe6, 0xb6, 0x09, 0x28, 0x37};
//rt_memcmp(dev_info.bind_mac, test_device_mac, sizeof(test_device_mac));
box_init_power();
//初始化GPIO
gpio_init();
//初始化OLED显示屏
OLED_Init();
// user_app_start();
rt_thread_mdelay(500);
while(1){
if(box_battery_percent >= 0){
break;
}
rt_thread_mdelay(20);
}
app_enter_ui(UI_BOX_BATTERY);
rt_thread_mdelay(2000);
easyflash_init();
ef_print_env();
temperature_dev_config_init();
//app_enter_bind_mode(false);
RingQueue_init(&ring_queue);
//app_show_last_detect_info();
app_enter_ui(UI_SHOW_MEMORY_INFO);
//app_enter_ui(UI_WAIT_TEMPERATURE);
//初始化BLE
belon_ble_active();
//启动BLE MASTER 扫描BLE测温设备
belon_ble_init_scan();
rt_thread_mdelay(100);
//启动BLE SLAVE 发广播提供APP 连接进行设置
belon_ble_init_adv();
//启动定时器 定时更新温度显示
rtos_init_timer(&timer_detect, BLE_TEMPERATURE_DETECT_DEVICE_INTERVAL, timer_check_device_run_callback, NULL);
rtos_start_timer(&timer_detect);
//初始化HALL按键检测
box_switch_init();
//霍尔检测 50ms一次 中断不好使 先这样处理
rtos_init_timer(&timer_hall_detect, BLE_TEMPERATURE_HALL_DETECT_INTERVAL, timer_hall_detect_callback, NULL);
rtos_start_timer(&timer_hall_detect);
rtos_init_timer(&timer_poweroff, BLE_TEMPERATURE_POWEROFF_TIMEOUT, box_poweroff_timeout_callback, NULL);
rtos_init_timer(&timer_bind, BLE_TEMPERATURE_BIND_MODE_TIMEOUT, box_bind_timeout_callback, NULL);
rtos_init_timer(&timer_idle, BLE_TEMPERATURE_IDLE_MODE_TIMEOUT, timer_app_idle_callback, NULL);
charger_module_enable(0);
//sctrl_ctrl(CMD_SCTRL_USB_CHARGE_STOP, 0);
voice_player_mute(1);
voice_player_init();
list_memheap();
//app_tcp_init();
//app_tcp_connect();
//char m_data[128] ={0x12};
//app_tcp_send(m_data,sizeof(m_data));
//voice_play(1);
//rt_thread_mdelay(1000);
//voice_play(2);
//rt_thread_mdelay(1000);
//voice_play(3);
//rt_thread_mdelay(1000);
/*
voice_play(4);
rt_thread_mdelay(1000);
voice_play(5);
rt_thread_mdelay(1000);
voice_play(6);
rt_thread_mdelay(1000);
voice_play(7);
rt_thread_mdelay(1000);
voice_play(8);
rt_thread_mdelay(1000);
voice_play(9);
rt_thread_mdelay(1000);
voice_play(10);
rt_thread_mdelay(1000);
voice_play(11);
rt_thread_mdelay(1000);
voice_play(0);*/
}
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