ChinaUWBProject.git

			@@ -40,252 +40,143 @@

			#include "mk_trace.h"
			#include "mk_wdt.h"
			#include "mk_calib.h"
			#include "mk_reset.h"
			#include "mk_gpio.h"
			#include "mk_misc.h"
			#include "mk_sleep_timer.h"
			#include "mk_power.h"
			#include "mk_uwb.h"
			#include "mk_calib.h"
			#include "mk_uart.h"
			#include "mk_spi.h"
			#include "mk_flash.h"
			#include "libc_rom.h"
			#include "Usart.h"
			#include <serial_at_cmd_app.h>
			#include <global_param.h>

			#include "board.h"

			#include "pal_sys.h"
			#include "wsf_os.h"
			#include "wsf_timer.h"
			#include "wsf_buf.h"
			#include "wsf_nvm.h"
			#include "mk_power.h"
			#include "Usart.h"
			#include "mk_adc.h"
			#include "mk_sleep_timer.h"
			#include "lis3dh_driver.h"
			#include "sn74hc595.h"
			#include "mk_4G.h"
			#include "UART.h"
			#include "AIR780EDriver.h"
			#include "Internet.h"
			#include "HIDO_ATLite.h"
			#include "HIDO_Timer.h"

			extern int simple_main(void);
			extern int temp_main(void);
			#define TEST_UART_POLL_MODE 0
			#define TEST_UART_INTERUPT_MODE 1
			#define TEST_UART_DMA_MODE 2
			#define TEST_UART_MODE TEST_UART_DMA_MODE
			#include "app.h"
			#include "ranging_fira.h"
			#include "uwb_api.h"
			#include "lib_ranging.h"
			#include "uci_tl_task.h"
			#include "libc_rom.h"

			#define NUM_SAMPLES 1
			#define BIND_TRIGGER_TIME 60000
			extern uint8_t mUsartReceivePack[100];
			extern uint8_t mUsart2ReceivePack[150];
			extern uint8_t state5V_prase_flag,gps_prase_flag;
			uint32_t dev_id;
			uint8_t group_id;
			uint16_t tag_frequency;
			uint16_t disoffset;
			uint16_t warning_distance,prewarning_distance;
			int16_t fVoltage_mv,first_search_flag;
			uint8_t bat_percent,g_start_send_flag=1;
			int link_success_flag;
			uint8_t state5v,link_error_count;
			uint8_t gps_power_state,motor_power_state=1,uwb_state,air780_power_state,gps_success_state,chaging_state,changed_state,air780_success_state;
			float nomove_count=0;
			static uint32_t sample[NUM_SAMPLES] = {0};
			uint8_t recev_error_num,send_messgae_count,send_flag,control_state;

			typedef enum
			{ UN_BIND=0,
			LINK_SUCCESS,
			SEARCH_DEV,
			}Operation_step;
			Operation_step Operation_state;


			Commend_SendDate send_struct;
			static struct ADC_CFG_T usr_adc_cfg = {
			.mode = ADC_MODE_CONTINUE, /* Selected single conversion mode */
			.clk_sel = ADC_CLK_HIGH, /* Selected 62.4M high speed clock */
			.vref_sel = ADC_SEL_VREF_INT, /* Using internal reference voltage (1.2V)*/
			.rate = 500000, /* ADC works at high frequency system clock, the maximum sampling rate is 2M */
			.channel_p = ADC_IN_EXTPIN0, /* ADC positive channel --> GPIO0 */
			.channel_n = ADC_IN_VREF, /* ADC negative channel --> Vref */
			.int_en = false,
			.dma_en = false, /* DMA support only in continue mode */
			.acc_num = 0,
			.high_pulse_time = 4,
			.settle_time = 1,
			};
			struct UART_CFG_T test_uart_cfg =
			{
			.parity = UART_PARITY_NONE,
			.stop = UART_STOP_BITS_1,
			.data = UART_DATA_BITS_8,
			.flow = UART_FLOW_CONTROL_NONE,
			.rx_level = UART_RXFIFO_CHAR_1,
			.tx_level = UART_TXFIFO_EMPTY,
			.baud = BAUD_115200,
			#if (TEST_UART_MODE == TEST_UART_POLL_MODE)
			.dma_en = false,
			.int_rx = false,
			.int_tx = false,
			#elif (TEST_UART_MODE == TEST_UART_INTERUPT_MODE)
			.dma_en = false,
			.int_rx = true,
			.int_tx = true,
			#elif (TEST_UART_MODE == TEST_UART_DMA_MODE)
			.dma_en = true,
			.int_rx = false,
			.int_tx = false,
			#ifdef UWB_UCI_TEST_EN
			#include "uwb_test.h"
			#endif
			};
			static void uart_receive_callback(void *dev, uint32_t err_code)
			{
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);
			}
			static void adc_callback(void *data, uint32_t number)

			#ifdef CELL_PHONE_EN
			#include "mk_efuse.h"

			#define EFUSE_FLASH_EN_ADDR (0x67)
			#define EFUSE_FLASH_EN_BIT (0x80)

			bool check_flash_bit_of_efuse(void);
			bool program_efuse(void);

			bool check_flash_bit_of_efuse(void)
			{
			uint32_t result = (uint32_t )data;
			for (uint16_t i = 0; i < number; i++)
			{
			// LOG_INFO(TRACE_MODULE_APP, "The voltage measured %d mv\r\n",
			// ADC_INTERNAL_VREF_MV + adc_code_to_mv((int16_t)*result, ADC_INTERNAL_VREF_MV));
			fVoltage_mv=ADC_INTERNAL_VREF_MV + adc_code_to_mv((int16_t)*result, ADC_INTERNAL_VREF_MV);
			fVoltage_mv=fVoltage_mv*2;
			if(fVoltage_mv < 3300)
			{
			bat_percent = 0;
			}
			else if(fVoltage_mv > 4100)
			{
			bat_percent = 100;
			}
			else
			{
			bat_percent = ((fVoltage_mv - 3300) /8);
			}
			}
			LOG_INFO(TRACE_MODULE_APP, "The voltage is %%%d \r\n",bat_percent);
			uint8_t val;
			val = efuse_read_byte(EFUSE_FLASH_EN_ADDR);
			return ((val & EFUSE_FLASH_EN_BIT) ? true : false);
			}
			//void UartInit(void)
			//{
			//board_pins_config();
			//uart_open(UART_ID1, &test_uart_cfg);
			//board_debug_console_open(TRACE_PORT_UART0);
			//uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);
			//}

			bool program_efuse(void)
			{
			efuse_program_byte(EFUSE_FLASH_EN_ADDR, EFUSE_FLASH_EN_BIT);
			if (check_flash_bit_of_efuse())
			{
			LOG_INFO(TRACE_MODULE_APP, "Program eFuse INT_FLASH bit successfully.\r\n");
			return true;
			}
			else
			{
			LOG_INFO(TRACE_MODULE_APP, "Program eFuse INT_FLASH bit failed.\r\n");
			return false;
			}
			return true;
			}
			#endif

			//*****************************************************************************
			//
			// WSF buffer pools.
			//
			//*****************************************************************************
			#define WSF_BUF_POOLS 5
			void Fira_Change_Task(void);
			extern uint8_t normal_flag,log_4g_enable_flag;
			extern uint16_t ip0,ip1,ip2,ip3,port;
			uint8_t group_id,enable_sleep_count;
			uint32_t dev_id;
			uint16_t disoffset;
			// Default pool descriptor.
			static wsfBufPoolDesc_t poolDescriptors[WSF_BUF_POOLS] = {
			{32, 26}, {64, 24}, {128, 4}, {256 + 32, 4}, {1024 + 32, 2},
			};

			static void sleep_timer_callback(void *dev, uint32_t time)
			{

			nomove_count++;
			send_messgae_count+=g_com_map[COM_INTERVAL];
			//if(send_messgae_count>=g_com_map[4G_INTERNAL]){
			//send_message_count=0;
			//send_flag=1;
			//}

			if(Operation_state==LINK_SUCCESS){//成功时清0错误计数
			link_error_count=0;
			g_start_send_flag=1;
			}
			if(Operation_state==SEARCH_DEV){
			// if(first_search_flag){//当第一次连接断开产生时才开始计数
			//link_error_count=0;
			// }
			link_error_count++;
			if(link_error_count==60)
			link_error_count=0;
			//link_error_count+=g_com_map[COM_INTERVAL];
			//if(link_error_count>=g_com_map[4G_INTERNAL])
			//link_error_count=0;
			updata_led_power_state();//更新灯状态
			}
			HIDO_TimerTick();
			}
			static void voltage_input_handler(enum IO_PIN_T pin)
			{

			}
			static void move_handler(enum IO_PIN_T pin)
			{
			nomove_count=0;
			// LOG_INFO(TRACE_MODULE_APP, "Wake up by sleep timer %d\r\n", time);
			}
			void Program_Init(void)
			{
			Usart1ParseDataCallback = UsartParseDataHandler;//需改为默认为gps处理，UsartParseDataHandler为升级处理当调试时候改为
			parameter_init_anchor();//g_com_map表初始化角色默认为基站
			dev_id=g_com_map[DEV_ID];//这里不太对
			group_id=g_com_map[GROUP_ID];//组ID
			tag_frequency = 1000/g_com_map[COM_INTERVAL];//测距频率这个存的是测距时间
			memcpy(&disoffset,&g_com_map[DIST_OFFSET],2);
			warning_distance=g_com_map[STATIONARY_TIME];
			prewarning_distance=g_com_map[ALARM_DISTANCE2];
			send_struct.warnDistence=warning_distance;
			send_struct.alarmDistence=prewarning_distance;//更新报警距离
			memcpy(&send_struct.gunLableId,&g_com_map[BIND_DEV_ID],2);//更新绑定ID
			send_struct.tagId=dev_id;//更新设备ID
			{
			Usart1ParseDataCallback = UsartParseDataHandler;//需改为默认为gps处理，UsartParseDataHandler为升级处理当调试时候改为
			parameter_init_anchor();//g_com_map表初始化角色默认为基站
			dev_id=g_com_map[DEV_ID];//这里不太对
			group_id=(uint8_t)g_com_map[GROUP_ID];//组ID
			// tag_frequency = 1000/g_com_map[COM_INTERVAL];//测距频率这个存的是测距时间
			memcpy(&disoffset,&g_com_map[DIST_OFFSET],2);
			// g_com_map[ALARM_DISTANCE1] = 40;
			// g_com_map[ALARM_DISTANCE2] = 40;
			// warning_distance=g_com_map[ALARM_DISTANCE1];
			// prewarning_distance=g_com_map[ALARM_DISTANCE2];
			//g_com_map[SEND_4G_SECOND]
			// if(g_com_map[SEND_4G_SECOND]<30)
			// {
			// gps_open_flag=0;
			// }else{
			// gps_open_flag=1;
			// }
			g_com_map[MODBUS_MODE] = 0;
			log_4g_enable_flag=g_com_map[LOG_4G_ENABLE];
			ip0 = (g_com_map[TCP_IP_0]>>12&0xf)1000+(g_com_map[TCP_IP_0]>>8&0xf)100+(g_com_map[TCP_IP_0]>>4&0xf)*10+(g_com_map[TCP_IP_0]&0xf);
			ip1 = (g_com_map[TCP_IP_1]>>12&0xf)1000+(g_com_map[TCP_IP_1]>>8&0xf)100+(g_com_map[TCP_IP_1]>>4&0xf)*10+(g_com_map[TCP_IP_1]&0xf);
			ip2 = (g_com_map[TCP_IP_2]>>12&0xf)1000+(g_com_map[TCP_IP_2]>>8&0xf)100+(g_com_map[TCP_IP_2]>>4&0xf)*10+(g_com_map[TCP_IP_2]&0xf);
			ip3 = (g_com_map[TCP_IP_3]>>12&0xf)1000+(g_com_map[TCP_IP_3]>>8&0xf)100+(g_com_map[TCP_IP_3]>>4&0xf)*10+(g_com_map[TCP_IP_3]&0xf);
			port = g_com_map[TCP_PORT];
			g_com_map[VERSION] = (1<<8)\|0;
			LOG_INFO(TRACE_MODULE_APP,"设备ID: %x .\r\n",dev_id);
			LOG_INFO(TRACE_MODULE_APP,"固件版本:4G-GPS定位手环 V%d.%d. \r\n",g_com_map[VERSION]>>8,g_com_map[VERSION]&0xff);
			LOG_INFO(TRACE_MODULE_APP,"服务器地址: %d.%d.%d.%d:%d.\r\n",ip0,ip1,ip2,ip3,port);
			}



			void IdleTask(void)
			static void board_init(void)
			{
			if(gpio_pin_get_val(INPUT_5V_Pin))
			{

			if(state5v==0)
			{
			state5v=1;
			state5V_prase_flag=state5v;
			gps_prase_flag=0;//解除gps解析
			uart1_change_from_gps_to_debug();
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);//开启dma
			//UartInit();
			}

			//UART_CheckSend();
			}else{
			if(state5v==1)
			{
			state5v=0;
			state5V_prase_flag=state5v;
			gps_prase_flag=1;//恢复gps解析
			uart1_change_from_debug_to_gps();
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);//开启dma
			//UartDeinit();
			}
			UART_CheckReceive();
			}
			}
			int bind_check(void)
			{
			if(g_com_map[BIND_DEV_ID]!=0x00)
			{
			return 1;
			//绑定信息为1说明设备已经被下发绑定
			}else{
			return 0;
			//绑定信息为0说明设备未被绑定
			}
			}
			void check_if_in_search(void)
			{
			if(link_success_flag==1){//如果第一次测距收包成功那么则进入连接测距模式
			Operation_state=LINK_SUCCESS;
			}else{//否则进入搜索模式
			Operation_state=SEARCH_DEV;
			if(first_search_flag==0)
			first_search_flag=1;
			}
			}


			int main(void)
			{
			board_clock_run();
			board_pins_config();
			IIC2_Init();
			board_debug_console_open(TRACE_PORT_UART0);
			// Reset reason
			reset_cause_get();
			reset_cause_clear();

			// Load calibration parameters from NVM
			uint32_t internal_flash = (REG_READ(0x40000018) >> 17) & 0x1;
			uint32_t external_flash = (REG_READ(0x40010030) >> 28) & 0x3;

			// Clock configuration
			board_clock_run();
			boot_deinit();//新加的
			// Pin configuration
			board_pins_config();
			// Trace configuration
			board_debug_console_open(TRACE_PORT_UART1);
			// Reset reason
			reset_cause_get();
			reset_cause_clear();

			#ifndef CELL_PHONE_EN
			// Load calibration parameters from NVM
			if (internal_flash \|\| external_flash == 1)
			{
			WsfNvmInit();
			@@ -296,107 +187,189 @@
			{
			board_calibration_params_default();
			}
			#else
			if (internal_flash)
			{
			program_efuse();
			}
			board_calibration_params_default();
			#endif

			// Chip calibration
			calib_chip();

			// Disable watchdog timer
			wdt_close(WDT_ID0);
			// LOG_INFO(TRACE_MODULE_APP, "UWB simple example\r\n");

			// open system timer
			//sys_timer_open();

			// TODO 4G
			Uart_Register(UART_ID_4G, UART_ID1);
			AIR780EDriver_PinRegister(AIR780E_PIN_3V8_EN, IO_PIN_5);
			AIR780EDriver_PinRegister(AIR780E_PIN_PWRKEY, IO_PIN_6);
			Internet_Init();

			gpio_open();
			//board_led_init();

			// adc_open(&usr_adc_cfg);
			IIC2_Init();
			Accelerometer_Init(); //加速度计初始化必须在IO_control_init之前因为复用SDA引脚
			IO_control_init();
			//adc_get(&sample[0], NUM_SAMPLES, adc_callback);//adc采样
			uart_open(UART_ID1, &test_uart_cfg);
			gps_air780_power_change(1,1);//开启gps，4G
			#ifdef CELL_PHONE_EN
			// Configure IO_04 for RF Switch
			gpio_pin_set_dir(IO_PIN_4, GPIO_DIR_OUT, 0);
			#else
			Program_Init();
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);
			// Initialize low power mode
			// led
			board_led_init();
			// board_led_on(BOARD_LED_1);
			#endif
			board_configure();
			}

			void app_process_handle(uint8_t msg_id, const void *param)
			{
			switch (msg_id)
			{
			case APP_TEST_TIMER1_MSG:
			{
			#if ANT_DELAY_CAL_EN
			// stop calibration
			uwbapi_session_stop(uwb_app_config.session_id);
			uwbapi_session_deinit(uwb_app_config.session_id);

			// restart UCI RX
			uci_tl_rx_restart();
			#endif
			}
			break;

			default:
			break;
			}
			}

			void Fira_Change_Task(void)
			{
			}

			static void uart_receive_callback(void *dev, uint32_t err_code)
			{
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);
			}

			int main(void)
			{
			// Initialize MCU system
			board_init();
			// Disable watchdog timer
			wdt_close(WDT_ID0);
			LOG_INFO(TRACE_MODULE_APP, "UCI FiRa example\r\n");
			if(gpio_pin_get_val(MODE_CHANGE_PIN))
			{


			// Platform init for WSF
			PalSysInit();

			// Initialize os

			//
			// Set up timers for the WSF scheduler.
			//
			WsfOsInit();
			WsfTimerInit();
			sys_tick_callback_set(WsfTimerUpdateTicks);

			//
			// Initialize a buffer pool for WSF dynamic memory needs.
			//
			uint32_t wsfBufMemLen = WsfBufInit(WSF_BUF_POOLS, poolDescriptors);

			if (wsfBufMemLen > FREE_MEM_SIZE)
			{
			LOG_INFO(TRACE_MODULE_APP, "Memory pool is not enough %d\r\n", wsfBufMemLen - FREE_MEM_SIZE);
			}
			//
			// Create app task
			//
			wsfHandlerId_t handlerId = WsfOsSetNextHandler(app_handler);
			app_init(handlerId);

			//
			// Create ranging task or test task
			//
			handlerId = WsfOsSetNextHandler(ranging_handler);
			ranging_init(handlerId);

			#ifdef UWB_UCI_TEST_EN
			// Create test task
			handlerId = WsfOsSetNextHandler(uwb_test_handler);
			uwb_test_init(handlerId);
			#endif

			#ifndef MY_MODE
			uwb_open();

			// set advanced parameters
			struct PHY_ADV_CONFIG_T adv_config =
			{
			// RPM0: 40, RPM3: 60
			.thres_fap_detect = 60,
			// RPM0: 4, RPM3: 8
			.nth_scale_factor = 8,
			// RFrame SP0: 0/1, Others: 0/1/2/3
			.ranging_performance_mode = 3,
			#if RX_ANT_PORTS_NUM == 4
			.skip_weakest_port_en = 1,
			#else
			.skip_weakest_port_en = 0,
			#endif
			};
			phy_adv_params_configure(&adv_config);

			// which RX ports will be used for AoA/PDoA
			phy_rx_ant_mode_set(RX_ANT_PORTS_COMBINATION);

			uwbs_init();
			uwb_app_config.ranging_flow_mode = (uint8_t)(RANGING_FLOW_FIRA);
			uwb_app_config.filter_en = (uint8_t)(FILTER_EN);
			uwb_app_config.session_param.tx_power_level = board_param.tx_power_fcc[CALIB_CH(uwb_app_config.ppdu_params.ch_num)];
			uwb_app_config.ppdu_params.rx_ant_id = (uint8_t)(RX_MAIN_ANT_PORT);

			#elif defined MY_MODE
			Uwb_init();//默认为我们测距配置
			OpenUWB();
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);
			#endif
			//
			// Create UCI transmission layer task
			//
			handlerId = WsfOsSetNextHandler(uci_tl_handler);
			uci_tl_init(handlerId);

			// Initialize low power mode
			power_init();
			// g_com_map[BIND_DEV_ID]=0x1122;//测试
			if(bind_check())//绑定后才提前开启测距
			{link_success_flag=temp_main();//上机开启接收2s绑定成功则进行下面轮询测距流程,不成功则1分后再次开启2s接收
			check_if_in_search();
			}else{
			send_struct.bindState=false;
			Operation_state=UN_BIND;
			}
			sleep_timer_open(true, SLEEP_TIMER_MODE_RELOAD, sleep_timer_callback);
			//sleep_timer_start(__MS_TO_32K_CNT(g_com_map[COM_INTERVAL]));//测试
			sleep_timer_start(__MS_TO_32K_CNT(1000));//测试
			board_5V_input_init(voltage_input_handler);
			board_acceleration_detection_init(move_handler);
			#if LOW_POWER_EN
			power_mode_request(POWER_UNIT_USER, POWER_MODE_POWER_DOWN);
			uwb_app_config.low_power_en = 1;
			#else
			power_mode_request(POWER_UNIT_USER, POWER_MODE_SLEEP);
			uwb_app_config.low_power_en = 0;
			#endif

			// Enable sleep timer
			sleep_timer_open(true, SLEEP_TIMER_MODE_ONESHOT, sleep_timer_callback);

			while (1)
			{
			// TODO
			Internet_Poll();
			HIDO_ATLitePoll();
			HIDO_TimerPoll();

			switch(Operation_state){
			case LINK_SUCCESS:
			{//连接成功进行轮询测距
			if(g_start_send_flag){
			g_start_send_flag = 0;
			uwb_led_on();
			simple_main();
			uwb_led_off();
			IdleTask();
			}else{
			IdleTask();
			}
			}
			break;
			case SEARCH_DEV:
			{//接包不成功或者通讯失败进入搜索模式
			if(link_error_count==0\|\|first_search_flag){
			first_search_flag=0;
			uwb_led_on();
			link_success_flag=temp_main();//第一次开启接收2s绑定失败后则进行下面1分钟后重新开启2s绑定流程
			uwb_led_off();
			if(link_success_flag)
			Operation_state=LINK_SUCCESS;
			}
			IdleTask();
			}
			break;
			case UN_BIND:
			{uwb_led_off();//关闭uwb指示灯
			IdleTask();
			}
			break;
			}

			//3种情况后都要发包和休眠
			//if(send_flag){
			//message_construct();
			//send_udp;
			//air780_success_state=0;//关闭4G成功发送灯
			//blink_led(&air780_success_state);//成功测距闪烁4G状态灯
			//air780_success_state=0;
			//}
			#ifdef DEBUG_MODE
			if(!gpio_pin_get_val(INPUT_5V_Pin)){
			trace_flush();
			uint32_t lock = int_lock();
			//LOG_INFO(TRACE_MODULE_APP, "进入低功耗");
			power_enter_power_down_mode(0);
			int_unlock(lock);
			}
			wsfOsDispatcher();
			#ifdef MY_MODE
			if(normal_flag)
			{
			IdleTask();
			}
			#endif
			power_manage();
			}
			}else{
			// adc_open(&usr_adc_cfg);
			Uwb_init();//默认为我们测距配置
			OpenUWB();
			uart_receive(UART_ID1,m_EUART_DMA_RXBuf,EUART_RX_BUF_SIZE,uart_receive_callback);
			while (1)
			{
			uwb_app_poll();//我们的测距逻辑
			IdleTask();
			}
			}

			}

			void app_restore_from_power_down(void)
			{
			}