ChinaUWBProject.git

			@@ -5,12 +5,12 @@
			#include "mk_power.h"
			#include "mk_sleep_timer.h"
			#include "lib_ranging.h"
			#include "lib_aoa.h"
			#include "dw_app_anchor.h"
			#include "global_param.h"
			#include "board.h"
			#include "Lora.h"
			#include "lib_aoa.h"

			#include <serial_at_cmd_app.h>
			extern int simple_main(void);
			extern int temp_main(void);
			void Calibration_Time(void);
			@@ -37,7 +37,7 @@
			extern uint8_t group_id;
			static uint16_t anc_id_recv,tag_id_recv;
			static int16_t rec_antdelay;
			extern uint32_t dev_id;
			extern uint16_t dev_id;
			static uint16_t taglist_pos,tmp_time;
			extern uint16_t tag_frequency;
			extern uint16_t disoffset;
			@@ -47,7 +47,7 @@
			//resp函数
			void PushAnchorDataArray(uint16_t ancid,int16_t dist,uint8_t battary);//找到自己的id信息对应位置更新自己的交互信息
			static void resp_msg_set_ts(uint8_t *ts_field, int64_t ts);//用来对应位置放入时间戳
			static uint16_t tagid_list[TAG_NUM_IN_SYS];
			uint16_t tagid_list[TAG_NUM_IN_SYS];
			uint16_t CmpTagInList(uint16_t tagid);
			uint8_t Anchor_RecNearPoll(uint8_t ancrec_nearbasepos);
			static uint8_t send_buffer[100];
			@@ -97,7 +97,7 @@
			/* RX window open in advance */
			#define RX_WIN_IN_ADVANCE_US (150)

			#define DELAY_BETWEEN_TWO_FRAME_UUS 300 //yuan1400
			#define DELAY_BETWEEN_TWO_FRAME_UUS 500 //yuan1400

			/* Field index in frame */
			#define MSG_SEQ_NUM_IDX 2
			@@ -108,7 +108,6 @@
			#define HALF_SECOND_TIME 624000000
			/* Length of the common part of the message */
			#define MSG_COMMON_LEN 10

			#define UWB_DELAY_TIME_US 496
			static uint8_t receive_flag=0;
			struct mk_uwb_configure
			@@ -117,23 +116,6 @@
			struct UWB_CONFIG_T phy_cfg;
			};

			///* Default communication configuration. */
			//static struct mk_uwb_configure config = {//原来的基站非110k代码
			// .phy_work_mode = (uint8_t)(PHY_TX \| PHY_RX),
			// .phy_cfg.ch_num = 5, /* Channel number. */
			// .phy_cfg.code_index = 9, /* TX preamble code. */
			// .phy_cfg.mean_prf = MEAN_PRF_64M, /* Data rate 6.8M */
			// .phy_cfg.data_bit_rate = DATA_BR_6M8, /* data rate 6.8M. */
			// .phy_cfg.sync_sym = PREAM_LEN_128, /* Preamble duration, length of preamble 128 */
			// .phy_cfg.sfd_sym = BPRF_NSFD2_8, /* Identifier for SFD sequence */
			// .phy_cfg.ranging_bit = 1, /* ranging bit set. */
			// .phy_cfg.trx_mode = TRX_MODE_15_4Z_BPRF, /* IEEE802.15.4z - BPRF mode */
			// .phy_cfg.sts_pkt_cfg = STS_PKT_CFG_0, /* SP0 Frame */
			// .phy_cfg.sts_segnum = STS_SEGNUM_BPRF_1, /* Number of STS segments in the frame */
			// .phy_cfg.sts_seglen = STS_SEGLEN_BPRF_64, /* Number of symbols in an STS segment */
			// .phy_cfg.rx_ant_id = UWB_RX_ANT_3, /* UWB RX antenna port */
			//};
			#ifdef DW1000
			static struct mk_uwb_configure config = {
			.phy_work_mode = (uint8_t)(PHY_TX \| PHY_RX),
			.phy_cfg.ch_num = 5, /* Channel number. */
			@@ -149,72 +131,12 @@
			.phy_cfg.sts_seglen = STS_SEGLEN_BPRF_64, /* Number of symbols in an STS segment */
			.phy_cfg.rx_ant_id = UWB_RX_ANT_3, /* UWB RX antenna port */
			};
			#elif defined STS_MODE
			static struct mk_uwb_configure config = {
			.phy_work_mode = (uint8_t)(PHY_TX \| PHY_RX),
			.phy_cfg.ch_num = 5, /* Channel number. */
			.phy_cfg.code_index = 9, /* TRX preamble code */
			.phy_cfg.mean_prf = MEAN_PRF_64M, /* Mean prf 64/128/256M */
			.phy_cfg.data_bit_rate = DATA_BR_6M8, /* Data rate 6.8M */
			.phy_cfg.sync_sym = PREAM_LEN_128, /* Preamble duration, length of preamble 128 */
			.phy_cfg.sfd_sym = BPRF_NSFD2_8, /* Identifier for SFD sequence */
			.phy_cfg.ranging_bit = 1, /* ranging bit set 1 */
			.phy_cfg.trx_mode = TRX_MODE_15_4Z_BPRF, /* IEEE802.15.4z - BPRF mode */
			.phy_cfg.sts_pkt_cfg = STS_PKT_CFG_1, /* SP1 Frame */
			.phy_cfg.sts_segnum = STS_SEGNUM_BPRF_1, /* Number of STS segments in the frame */
			.phy_cfg.sts_seglen = STS_SEGLEN_BPRF_64, /* Number of symbols in an STS segment */
			.phy_cfg.rx_ant_id = UWB_RX_ANT_3, /* UWB RX antenna port */
			};
			/* Use the default key and IV specified in the IEEE 802.15.4z attachment */
			static struct UWB_STS_KEY_CONFIG_T sts_iv_key = {
			.sts_vcounter = 0x1F9A3DE4,
			.sts_vupper0 = 0xD37EC3CA,
			.sts_vupper1 = 0xC44FA8FB,
			.sts_vupper2 = 0x362EEB34,
			.sts_key0 = 0x14EB220F,
			.sts_key1 = 0xF86050A8,
			.sts_key2 = 0xD1D336AA,
			.sts_key3 = 0x14148674,
			};
			#elif defined MK_MODE
			static struct mk_uwb_configure config = {
			.phy_work_mode = (uint8_t)(PHY_TX \| PHY_RX),
			.phy_cfg.ch_num = 9, /* Channel number. */
			.phy_cfg.code_index = 9, /* TX preamble code. */
			.phy_cfg.mean_prf = MEAN_PRF_64M, /* Data rate 6.8M */
			.phy_cfg.data_bit_rate = DATA_BR_6M8, /* data rate 6.8M. */
			.phy_cfg.sync_sym = PREAM_LEN_128, /* Preamble duration, length of preamble 128 */
			.phy_cfg.sfd_sym = BPRF_NSFD2_8, /* Identifier for SFD sequence */
			.phy_cfg.ranging_bit = 1, /* ranging bit set. */
			.phy_cfg.trx_mode = TRX_MODE_15_4Z_BPRF, /* IEEE802.15.4z - BPRF mode */
			.phy_cfg.sts_pkt_cfg = STS_PKT_CFG_0, /* SP0 Frame */
			.phy_cfg.sts_segnum = STS_SEGNUM_BPRF_1, /* Number of STS segments in the frame */
			.phy_cfg.sts_seglen = STS_SEGLEN_BPRF_64, /* Number of symbols in an STS segment */
			.phy_cfg.rx_ant_id = UWB_RX_ANT_3, /* UWB RX antenna port */
			};
			#endif

			static struct anchor_id_car{
			uint16_t anchor_new_id;
			uint16_t change_num;
			};
			/* Buffer to store received frame */

			/* Frames used in the ranging process
			* Poll message:
			* - byte 0 - 1: 0x8841 to indicate a data frame using 16-bit addressing.
			* - byte 2: sequence number, incremented for each new frame.
			* - byte 3 - 4: PAN Id 0x4B4d
			* - byte 5 - 6: Destination address
			* - byte 7 - 8: Source address
			* - byte 9: Message type (0x02 RANGING_POLL / 0x03 RANGING_RESPONSE / 0x04 RANGING_FINAL)
			* Response message:
			* - byte 10: activity code (0x07 to tell the initiator to go on with the ranging exchange)
			* Final message:
			* - byte 10 - 13: poll message transmission timestamp.
			* - byte 14 - 17: response message reception timestamp.
			* - byte 18 - 21: final message transmission timestamp.
			*/
			static uint8_t rx_poll_msg[] = {0x41, 0x88, 0, 0x4D, 0x4B, 0x53, 0x45, 0x4D, 0x49, 0x02};
			static uint8_t tx_resp_msg[] = {0x41, 0x88, 0, 0x4D, 0x4B, 0x4D, 0x49, 0x53, 0x45, 0x03, 0x07};
			static uint8_t rx_final_msg[] = {0x41, 0x88, 0, 0x4D, 0x4B, 0x53, 0x45, 0x4D, 0x49, 0x04, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
			@@ -282,8 +204,17 @@
			uint32_t range_timeout_us = 2000000;//yuan5000
			uint8_t flag_temp2,flag_temp1;
			uint16_t uwb_losttimer;
			uint8_t lorarec_usart_send[200]={0x55,0xaa};
			uint16_t lorarec_tagid;
			extern uint8_t send_lora_data[250];
			uint8_t Lora_upanc_time;
			uint8_t update_tag_time;
			extern uint16_t mubiao_anchor_ID;
			uint8_t Lora_qingqiu_flag;
			extern uint16_t Lora_qingqiu_bao;
			static void rx_int_callback(struct MAC_HW_REPORT_T *rx_report)
			{ uint8_t valid_sts=0;
			uint16_t checksum1 = 0,dest_id;
			// Power off radio
			power_off_radio();

			@@ -301,22 +232,11 @@
			poll_rx_num++;
			rssi = rx_report->rssi;
			receive_flag=1;
			Anchor_App();
			#ifdef STS_MODE
			valid_sts= sts_valid_check();
			if (valid_sts)
			{
			aoa_calculate(&elevation, &azimuth);
			aoa_fom_get(NULL, &fom);
			// float pdoa[3];
			// pdoa[0] = pdoa_select_get(0, 3);
			// pdoa[1] = pdoa_select_get(1, 3);
			// pdoa[2] = pdoa_select_get(2, 3);
			// LOG_INFO(TRACE_MODULE_APP, "PDOA: %f %f %f\r\n", pdoa[0], pdoa[1], pdoa[2]);

			sts_rssi = sts_rssi_output_get();
			}
			#endif
			// uart_send(UART_ID0, rx_buf,rx_length, NULL);
			if(rx_buf[MESSAGE_TYPE_IDX]==MBX_POLL)
			{
			Anchor_App();
			}
			}
			else
			{
			@@ -329,9 +249,10 @@
			temp_count= phy_timer_count_get();
			memcpy(&rx_rpt, rx_report, sizeof(struct MAC_HW_REPORT_T));
			rx_length = 0;
			OpenUWB();//再次开启UWB接收
			// OpenUWB();//再次开启UWB接收
			}
			//OpenUWB();//再次开启UWB接收
			OpenUWB();//再次开启UWB接收
			// LOG_INFO(TRACE_MODULE_APP,"RXdone_uwb_rx打开\r\n");
			}

			/* TX done process handler. */
			@@ -346,15 +267,20 @@
			temp_count= phy_timer_count_get();
			temp_internal=temp_count;
			resp_tx_num++;
			OpenUWB();//再次开启UWB接收
			// if(update_tag_time>0)
			// {
			// OpenUWB();//再次开启UWB接收
			// LOG_INFO(TRACE_MODULE_APP,"TXdone_uwb_rx打开\r\n");
			// }
			//LOG_INFO(TRACE_MODULE_APP, "poll_rx_num is %d,resp_tx_num is %d\r\n",poll_rx_num,resp_tx_num);
			}
			}
			uint32_t start_receive_count,end_receive_count,poll_timeout,current_count,temp_resp;
			uint16_t anchordata_id[TAG_NUM_IN_SYS],anchordata_dist[TAG_NUM_IN_SYS];
			int16_t anchordata_id[TAG_NUM_IN_SYS],anchordata_dist[TAG_NUM_IN_SYS];
			static uint8_t anchordata_bat[TAG_NUM_IN_SYS];
			static uint16_t anchordata_version[TAG_NUM_IN_SYS];
			uint8_t anchordata_num = 0;
			static int32_t tagdist_list[TAG_NUM_IN_SYS];
			uint16_t tagdist_list[TAG_NUM_IN_SYS];
			uint16_t random_time;
			//anchor
			int32_t hist_dist;
			@@ -396,7 +322,7 @@
			{ uint16_t i;
			for(i=0; i<taglist_num; i++)
			{
			if(memcmp(&tagid,&anchordata_id[i],2)==0)
			if(memcmp(&tagid,&tagid_list[i],2)==0)
			break;
			}
			if(i==taglist_num)
			@@ -405,6 +331,15 @@
			return i;
			}

			uint16_t ExistInTagList(uint16_t tagid)
			{ uint16_t i;
			for(i=0; i<taglist_num; i++)
			{
			if(memcmp(&tagid,&tagid_list[i],2)==0)
			return 1;
			}
			return 0;
			}
			uint16_t CmpCarInExistList(uint16_t tagid)
			{ uint16_t i;
			for(i=0; i<anchordata_num; i++)
			@@ -429,24 +364,40 @@
			}
			}

			//void TagListUpdate(void)
			//{
			// uint8_t i,j=0;
			// for(i=0; i<anchordata_num; i++)
			// {
			// if(tagofflinetime[i]++<QUIT_SLOT_TIME)
			// {
			// anchordata_id[j]=anchordata_id[i];
			// tagofflinetime[j++]=tagofflinetime[i];
			// }
			// }
			// anchordata_num=j;
			//}
			void TagListUpdate(void)
			{
			uint8_t i,j=0;
			for(i=0; i<anchordata_num; i++)
			uint16_t i,j=0,k=0;
			for(i=0; i<taglist_num; i++)
			{
			if(tagofflinetime[i]++<QUIT_SLOT_TIME)
			if(tagofflinetime[i]++<TAG_KEEPTIMES)
			{
			anchordata_id[j]=anchordata_id[i];
			tagid_list[j]=tagid_list[i];
			tagdist_list[j] = tagdist_list[i];
			anchordata_bat[j]=anchordata_bat[i];//电量随之更新
			anchordata_version[j]=anchordata_version[i];
			tagofflinetime[j++]=tagofflinetime[i];
			}
			}
			anchordata_num=j;
			}
			taglist_num=j;
			}



			uint16_t g_com_receive_id;
			uint8_t cmd_flag,position;;
			uint8_t Anchor_RecNearPoll(uint8_t ancrec_nearbasepos)//根据自己是否为新基站定制消息去发送，根据是否抢占判断
			{
			uint16_t checksum1 = 0;
			temp_count2=poll_rx_en_start_u32;

			memcpy(&send_buffer[GROUP_ID_IDX],&group_id,1);//组id
			@@ -466,7 +417,8 @@
			// resp_tx_en_start_u32 = phy_timer_count_get()+US_TO_PHY_TIMER_COUNT(20rec_nearbase_num+POLL_RX_TO_RESP_TX_DLY_US+ancrec_nearbaseposDELAY_BETWEEN_TWO_FRAME_UUS);//后面的需要根据已有基站数量进行更改，如果是抢占自己最后一个回复，要有底数
			// //这里应该有问题问一下钟工
			// }//此处设置绝对时间将poll u32改为phy_timer_count_get()
			resp_tx_en_start_u32 = poll_rx_en_start_u32+US_TO_PHY_TIMER_COUNT(POLL_RX_TO_RESP_TX_DLY_US);
			position=ancrec_nearbasepos;
			resp_tx_en_start_u32 = poll_rx_en_start_u32+US_TO_PHY_TIMER_COUNT(POLL_RX_TO_RESP_TX_DLY_US)+ancrec_nearbasepos*US_TO_PHY_TIMER_COUNT(DELAY_BETWEEN_TWO_FRAME_UUS);//加入帧间隔
			resp_tx_ts_i64 = ranging_tx_time_correct(resp_tx_en_start_u32 + phy_shr_duration());//修正时间戳
			/* Write all timestamps in the final message. See NOTE 8 below. */
			resp_msg_set_ts(&send_buffer[RESP_MSG_POLL_RX_TS_IDX], poll_rx_ts_i64);
			@@ -475,9 +427,12 @@
			temp_resp_i64=resp_tx_ts_i64;
			temp_count3= phy_timer_count_get();
			flag_temp2=uwb_tx(send_buffer, 40,1 ,resp_tx_en_start_u32);//立即发送测试size大小
			tagofflinetime[taglist_pos] = 0;//更新标签通信
			// temp_count1=phy_timer_count_get();
			//while(mac_is_busy());
			gpio_pin_clr(SCL_PIN);
			//gpio_pin_clr(SCL_PIN);


			}

			uint16_t uwb_searchcount;
			@@ -536,82 +491,57 @@
			// update_led_power_state();//更新等状态防止震动卡死在搜索
			}
			}
			uint16_t g_com_receive_id;

			void CloseUWB(void)
			{
			uwb_rx_force_off(1);
			uwb_rx_flag=0;
			LOG_INFO(TRACE_MODULE_APP,"关闭uwb_rx\r\n");
			// LOG_INFO(TRACE_MODULE_APP,"关闭uwb_rx\r\n");
			}
			void OpenUWB(void)
			{
			flag_temp1=uwb_rx(0, 0,range_timeout_us);//提交接收请求
			uwb_rx_flag=1;
			LOG_INFO(TRACE_MODULE_APP,"打开uwb_rx\r\n");
			// LOG_INFO(TRACE_MODULE_APP,"打开uwb_rx\r\n");
			}
			void UWBOneSecondTask(void)
			{
			uwb_losttimer++;
			TagListUpdate();
			if(uwb_losttimer>g_com_map[UWB_RNAGE_TIME])
			uwb_losttimer=g_com_map[UWB_RNAGE_TIME]+1;//防止溢出
			}
			uint8_t uwbsend[200];
			extern uint32_t maintime;
			void UWBIdleTask(void)
			{

			if(HIDO_TimerGetTick()-uwbtasktimer >=1)
			if(maintime-uwbtasktimer >=1)
			{
			uwbtasktimer = HIDO_TimerGetTick();
			uwbtasktimer = maintime;
			UWBOneSecondTask();
			// uwbsend[0]=0x55;
			// uwbsend[1]=0xaa;
			// uwbsend[2]=0x40;
			// uwbsend[3]=taglist_num;
			// memcpy(&uwbsend[4],&tagid_list,taglist_num*2);
			// memcpy(&uwbsend[4+taglist_num2],&tagdist_list,taglist_num2);
			// memcpy(&uwbsend[4+taglist_num4],&anchordata_version,taglist_num2);
			// uart_send(UART_ID0, uwbsend,taglist_num*6+4, NULL);
			// for(int i=0;i<anchordata_num;i++)
			// {
			// LOG_INFO(TRACE_MODULE_APP,"当前测距基站ID:%x,距离:%d.\r\n",anchordata_id[i],anchordata_dist[i]);
			// }
			}
			}
			int uwb_app_poll(void)
			{
			switch(wltag_state)
			{
			case RANGE:
			if(HIDO_TimerGetTick()-wltag_uwbtimer>2&&uwb_rx_flag==0)
			{
			wltag_uwbtimer = HIDO_TimerGetTick();
			OpenUWB();
			}
			else if(HIDO_TimerGetTick()-wltag_uwbtimer>1&&uwb_rx_flag==1)
			{
			wltag_uwbtimer = HIDO_TimerGetTick();
			CloseUWB();
			}
			if(uwb_losttimer>g_com_map[UWB_RNAGE_TIME])
			{
			wltag_statetimer = HIDO_TimerGetTick();
			if(uwb_rx_flag==0)//若要切换到搜索模式时没有开启则开启UWB
			{
			OpenUWB();
			}
			wltag_state = SEARCH;
			}
			break;
			case SEARCH:
			if(HIDO_TimerGetTick()-wltag_statetimer>1)
			{
			wltag_statetimer = HIDO_TimerGetTick();
			wltag_state = CLOSE;
			CloseUWB();
			}
			break;
			case CLOSE:
			if(HIDO_TimerGetTick()-wltag_statetimer>g_com_map[UWB_WAIT_TIME])
			{
			wltag_statetimer = HIDO_TimerGetTick();
			wltag_state = SEARCH;
			OpenUWB();
			}
			break;
			}
			UWBIdleTask();
			}
			int Anchor_App(void)
			{
			uint8_t i;
			uint16_t tempid;
			uint8_t i;
			uint16_t tempid;
			if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL)//判断是否是和自己是同一组通讯的且为poll包
			{ flag_recsuccess = 1;
			wltag_state=RANGE;//成功后从search切换为range
			@@ -625,169 +555,60 @@
			memcpy(rec_ancidlist,&rx_buf[FZ_NEARBASEID_INDEX],2*rec_nearbase_num);
			memcpy(rec_ancdistlist,&rx_buf[FZ_NEARBASEID_INDEX+2rec_nearbase_num],2rec_nearbase_num);
			memcpy(&rec_antdelay,&rx_buf[FZ_NEARBASEID_INDEX+rec_nearbase_num*4],2);
			for(i=0; i<rec_nearbase_num; i++)
			{
			if(rec_ancidlist[i] == dev_id)
			{ temp_recdist_before_offset=rec_ancdistlist[i];
			rec_ancdistlist[i]+=(int16_t)g_com_map[DIST_OFFSET];
			PushAnchorDataArray(tag_id_recv,rec_ancdistlist[i],battary);
			}
			}
			for(i=0; i<rec_nearbase_num; i++)
			{
			memcpy(&tempid,&rx_buf[FZ_NEARBASEID_INDEX+i*2],2);
			if(tempid==dev_id)//也是比id如果有就更新没有就抢占
			{
			seize_anchor=0; //非抢占。已存在列表中
			Anchor_RecNearPoll(i);
			break;
			}
			}
			// for(i=0; i<rec_nearbase_num; i++)
			// {
			// if(rec_ancidlist[i] == dev_id)
			// { temp_recdist_before_offset=rec_ancdistlist[i];
			// rec_ancdistlist[i]+=(int16_t)g_com_map[DIST_OFFSET];
			// PushAnchorDataArray(tag_id_recv,rec_ancdistlist[i],battary);
			// }
			// }
			// for(i=0; i<rec_nearbase_num; i++)
			// {
			// memcpy(&tempid,&rx_buf[FZ_NEARBASEID_INDEX+i*2],2);
			// if(tempid==dev_id)//也是比id如果有就更新没有就抢占
			// {
			// seize_anchor=0; //非抢占。已存在列表中
			// Anchor_RecNearPoll(i);
			// break;
			// }
			// }

			if(i==rec_nearbase_num)
			{
			seize_anchor=1; //抢占anchor
			Anchor_RecNearPoll(i);
			}
			}else{
			OpenUWB();//接收到不是自己的包再次开启UWB接收
			// if(i==rec_nearbase_num)
			// {
			// seize_anchor=1; //抢占anchor
			// Anchor_RecNearPoll(i);
			// }
			taglist_pos=CmpTagInList(tag_id_recv);
			if(taglist_num>=ANC_MAX_NUM)
			return 0;
			for(i=0; i<rec_nearbase_num; i++)
			{
			memcpy(&tempid,&rx_buf[FZ_NEARBASEID_INDEX+i*2],2);
			if(tempid==dev_id)
			{
			Anchor_RecNearPoll(i);
			tagdist_list[taglist_pos]=rec_ancdistlist[i];
			anchordata_bat[taglist_pos] = battary;//保存该基站电量
			// anchordata_version[taglist_pos] = battary;//保存该基站版本号
			memcpy(& anchordata_version[taglist_pos],&rx_buf[7],2);
			if(taglist_pos==taglist_num)// taglist_pos==taglist_num 说明这个基站不在当前列表中
			{ //tempid==dev_id 说明基站下发测距报文有这个标签的信息
			taglist_num++; //满足上述两种情况才会添加基站ID进入列表中，否则会出现标签不在基站列表中，标签也不响应的情况
			tagid_list[taglist_pos] = tag_id_recv;

			}
			break;
			}
			}
			if((i==rec_nearbase_num&&taglist_pos==taglist_num)\|\|(rec_nearbase_num==0&&!ExistInTagList(tag_id_recv)))//当基站不在标签列表中，标签也不在基站列表中时，随机找个时间片回复基站。
			{
			Anchor_RecNearPoll(rec_nearbase_num);
			}
			}

			}
			int UwbRange(void)
			{
			uint8_t i;
			uint16_t tempid;
			// The following peripherals will be initialized in the uwb_open function
			// phy/mac/aes/lsp/phy timers initialized
			//uwb_open();

			// // Set calibration parameters
			// uwb_calibration_params_set(config.phy_cfg.ch_num);

			// // set advanced parameters
			// struct PHY_ADV_CONFIG_T adv_config = {
			// .thres_fap_detect = 40,
			// .nth_scale_factor = 4,
			// .ranging_performance_mode = 0,
			// .skip_weakest_port_en = 0,
			// };
			// phy_adv_params_configure(&adv_config);

			// // uwb configure
			// uwb_configure(config.phy_work_mode, board_param.tx_power_fcc[CALIB_CH(config.phy_cfg.ch_num)], &config.phy_cfg);

			// ranging_frame_type_set(config.phy_cfg.sts_pkt_cfg);

			// Register rx interrupt callback function
			//mac_register_process_handler(tx_int_callback, rx_int_callback);

			receive_flag = 0;
			flag_recsuccess = 0;
			temp_count3=phy_timer_count_get();
			gpio_pin_set(SCL_PIN);
			sts_lsp_store();
			flag_temp1=uwb_rx(0, 0, range_timeout_us);//开启接收

			// while(mac_is_busy());
			// temp_count2=phy_timer_count_get();
			start_receive_count=phy_timer_count_get();
			poll_timeout=US_TO_PHY_TIMER_COUNT(range_timeout_us);//多一个多0.4ms默认0.4ms计算为0.1254100000,默认开启1mss
			end_receive_count=start_receive_count+poll_timeout;
			if(end_receive_count>=UINT32_MAX)
			{end_receive_count-=UINT32_MAX;}
			current_count=phy_timer_count_get();
			while(current_count<end_receive_count\|\|current_count>end_receive_count+HALF_SECOND_TIME)//循环接受包体,若为124.8K则是+62400000
			{
			current_count=phy_timer_count_get();
			while(mac_is_busy())
			{
			Calibration_Time();
			IdleTask();
			current_count=phy_timer_count_get();
			if(current_count>end_receive_count&&current_count<end_receive_count+HALF_SECOND_TIME)
			{
			break;
			}
			}
			sts_lsp_store_stop();


			if(receive_flag==1)//成功接收
			{

			//if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL&&!memcmp(&rx_buf[TAG_ID_IDX],&g_com_map[BIND_DEV_ID],2))//判断是否是和自己是同一组通讯的且为poll包
			if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL)//判断是否是和自己是同一组通讯的且为poll包
			{ flag_recsuccess = 1;
			memcpy(&g_com_receive_id,&rx_buf[TAG_ID_IDX],2);
			// sleep_timer_start(__MS_TO_32K_CNT(UWB_DELAY_TIME_US));//测试
			temp_count2=phy_timer_count_get();
			frame_seq_nb2 = rx_buf[SEQUENCE_IDX];//获取包序
			battary = rx_buf[BATTARY_IDX];
			rec_nearbase_num=rx_buf[FZ_NEARBASENUM_INDEX]; //标签传过来的他与基站交互的基站id数目
			memcpy(&tag_id_recv,&rx_buf[TAG_ID_IDX],2);
			memcpy(rec_ancidlist,&rx_buf[FZ_NEARBASEID_INDEX],2*rec_nearbase_num);
			memcpy(rec_ancdistlist,&rx_buf[FZ_NEARBASEID_INDEX+2rec_nearbase_num],2rec_nearbase_num);
			memcpy(&rec_antdelay,&rx_buf[FZ_NEARBASEID_INDEX+rec_nearbase_num*4],2);
			for(i=0; i<rec_nearbase_num; i++)
			{
			if(rec_ancidlist[i] == dev_id)
			{ temp_recdist_before_offset=rec_ancdistlist[i];
			rec_ancdistlist[i]+=(int16_t)g_com_map[DIST_OFFSET];
			PushAnchorDataArray(tag_id_recv,rec_ancdistlist[i],battary);
			}
			}
			for(i=0; i<rec_nearbase_num; i++)
			{
			memcpy(&tempid,&rx_buf[FZ_NEARBASEID_INDEX+i*2],2);
			if(tempid==dev_id)//也是比id如果有就更新没有就抢占
			{
			seize_anchor=0; //非抢占。已存在列表中
			Anchor_RecNearPoll(i);
			break;
			}
			}

			if(i==rec_nearbase_num)
			{
			seize_anchor=1; //抢占anchor
			Anchor_RecNearPoll(i);
			}
			recev_error_num=0;
			//range_timeout_us=5000;//恢复为5000进入range后
			//LOG_INFO(TRACE_MODULE_APP,"标签ID：%X,距离: %d 包序%d\r\n",g_com_receive_id,distance,frame_seq_nb2);


			gpio_pin_clr(SCL_PIN);
			//break;去掉break变为一对多
			}
			}
			sts_lsp_store();

			break;
			//失败或者接受被高发射机打断都会再次开启接收
			//flag_temp1=uwb_rx(0, 0, range_timeout_us);
			}
			delay_us(1);
			sts_lsp_store_stop();
			uwb_rx_force_off(1);

			// if(!flag_recsuccess)
			// {
			// //sleep_timer_start(__MS_TO_32K_CNT(UWB_DELAY_TIME_US-3));//测试
			// //LOG_INFO(TRACE_MODULE_APP,"测距失败，计数：%d\r\n",recev_error_num);
			// if(recev_error_num++>5)
			// {
			// recev_error_num=0;
			// UWB_work_state=SEARCH_DEV;
			// uwb_searchcount = 0;
			// search_open_flag = 1;
			// }
			//}



			return 0;
			}
			void Uwb_init(void)
			{
			@@ -835,219 +656,5 @@
			phy_rx_sts_switch_mode_set(config.phy_cfg.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 0, 0);
			#endif
			mac_register_process_handler(tx_int_callback, rx_int_callback);//初始化回调
			}
			//主函数绑定接受逻辑
			int UwbSearch(void)
			{
			uint8_t i;
			uint16_t tempid;
			// The following peripherals will be initialized in the uwb_open function
			// phy/mac/aes/lsp/phy timers initialized
			uwb_open();
			#ifdef STS_MODE
			// Set STS key and IV
			phy_sts_key_configure(&sts_iv_key);

			// which RX ports will be used for AoA/PDoA
			phy_rx_ant_mode_set(RX_ANT_PORTS_COMBINATION);
			#endif
			// Set calibration parameters
			uwb_calibration_params_set(config.phy_cfg.ch_num);

			#ifndef STS_MODE
			// set advanced parameters
			struct PHY_ADV_CONFIG_T adv_config = {
			.thres_fap_detect = 40,
			.nth_scale_factor = 4,
			.ranging_performance_mode = 0,
			.skip_weakest_port_en = 0,
			};
			#else
			// set advanced parameters
			struct PHY_ADV_CONFIG_T adv_config = {
			.thres_fap_detect = 40,
			.nth_scale_factor = 4,
			.ranging_performance_mode = 3,
			.skip_weakest_port_en = 0,
			};
			#endif
			phy_adv_params_configure(&adv_config);

			// uwb configure
			uwb_configure(config.phy_work_mode, board_param.tx_power_fcc[CALIB_CH(config.phy_cfg.ch_num)], &config.phy_cfg);

			#ifdef STS_MODE
			ranging_lib_init();
			#endif
			ranging_frame_type_set(config.phy_cfg.sts_pkt_cfg);

			#ifdef STS_MODE
			aoa_aux_info_set(AOA_AUX_ANT_IQ_RSSI_PDOA_AOA_FOM);
			aoa_steering_vector_set((const float *)((uint32_t)((config.phy_cfg.ch_num == 9) ? svec_ch9_ptr : svec_ch5_ptr) \| SRAM_BASE));

			aoa_param_config();

			phy_rx_sts_switch_mode_set(config.phy_cfg.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 0, 0);
			#endif
			// Register rx interrupt callback function
			mac_register_process_handler(tx_int_callback, rx_int_callback);

			receive_flag = 0;
			temp_count3=phy_timer_count_get();
			gpio_pin_set(SCL_PIN);
			sts_lsp_store();
			flag_temp2=uwb_rx(0, 0, RX_SYNC_WIN_US_TEMP);//开启接收
			start_receive_count=phy_timer_count_get();
			poll_timeout=US_TO_PHY_TIMER_COUNT(2000000);//多一个多0.4ms默认0.4ms计算为0.1254100000,默认开启1mss
			end_receive_count=start_receive_count+poll_timeout;
			if(end_receive_count>=UINT32_MAX)
			{
			end_receive_count-=UINT32_MAX;
			}
			current_count=phy_timer_count_get();
			while(current_count<end_receive_count\|\|current_count>end_receive_count+HALF_SECOND_TIME)//循环接受包体,若为124.8K则是+62400000
			{
			while(mac_is_busy())
			{
			IdleTask();
			current_count=phy_timer_count_get();
			if(current_count>end_receive_count&&current_count<end_receive_count+HALF_SECOND_TIME)
			{
			break;
			}
			}
			sts_lsp_store_stop();


			temp_count2=phy_timer_count_get();
			if(receive_flag==1)//成功接收
			{
			// if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL&&!memcmp(&rx_buf[TAG_ID_IDX],&g_com_map[BIND_DEV_ID],2))//判断是否是和自己是同一组通讯的且为poll包
			if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL)//判断是否是和自己是同一组通讯的且为poll包
			{
			sleep_timer_start(__MS_TO_32K_CNT(UWB_DELAY_TIME_US-13));//测试
			range_timeout_us=20000;//将下次range开启后超时时间设为20ms之后再range里恢复
			temp_count2=phy_timer_count_get();
			frame_seq_nb2 = rx_buf[SEQUENCE_IDX];//获取包序
			battary = rx_buf[BATTARY_IDX];
			rec_nearbase_num=rx_buf[FZ_NEARBASENUM_INDEX]; //标签传过来的他与基站交互的基站id数目
			memcpy(&tag_id_recv,&rx_buf[TAG_ID_IDX],2);
			memcpy(rec_ancidlist,&rx_buf[FZ_NEARBASEID_INDEX],2*rec_nearbase_num);
			memcpy(rec_ancdistlist,&rx_buf[FZ_NEARBASEID_INDEX+2rec_nearbase_num],2rec_nearbase_num);
			memcpy(&rec_antdelay,&rx_buf[FZ_NEARBASEID_INDEX+rec_nearbase_num*4],2);
			for(i=0; i<rec_nearbase_num; i++)
			{
			if(rec_ancidlist[i] == dev_id)
			{
			temp_recdist_before_offset=rec_ancdistlist[i];
			rec_ancdistlist[i]+=(int16_t)g_com_map[DIST_OFFSET];
			PushAnchorDataArray(tag_id_recv,rec_ancdistlist[i],battary);
			}
			}
			for(i=0; i<rec_nearbase_num; i++)
			{
			memcpy(&tempid,&rx_buf[FZ_NEARBASEID_INDEX+i*2],2);
			if(tempid==dev_id)//也是比id如果有就更新没有就抢占
			{
			seize_anchor=0; //非抢占。已存在列表中
			Anchor_RecNearPoll(i);
			break;
			}
			}

			if(i==rec_nearbase_num)
			{
			seize_anchor=1; //抢占anchor
			Anchor_RecNearPoll(i);
			}

			gpio_pin_clr(SCL_PIN);//测试
			LOG_INFO(TRACE_MODULE_APP,"标签ID：%X,距离: %d 信号强度ANT0:%f,信号强度ANT2: %f\r\n",g_com_map[BIND_DEV_ID],distance,sts_rssi[0],sts_rssi[2]);
			return 1;//返回发送成功标志
			}

			}
			temp_count3=phy_timer_count_get();
			sts_lsp_store();
			flag_temp2=uwb_rx(0, 0, RX_SYNC_WIN_US_TEMP);//再次开启接收
			}
			delay_us(2);
			sts_lsp_store_stop();
			uwb_rx_force_off(1);
			// LOG_INFO(TRACE_MODULE_APP,"超时定时器：%x,%x,%x\r\n",start_receive_count,end_receive_count,current_count);
			gpio_pin_clr(SCL_PIN);//测试
			return 0;//返回绑定失败标志
			}
			//}

			#define SEARCH_TIMESTEMP 20
			void UWBPoll(void)
			{
			switch(UWB_work_state)
			{
			case LINK_SUCCESS:
			{ //连接成功进行轮询测距

			uwb_led_on();
			UwbRange();
			uwb_led_off();

			}
			break;
			case SEARCH_DEV:
			{
			UWB_work_state=LINK_SUCCESS;
			Uwb_init();
			// //接包不成功或者通讯失败进入搜索模式
			// if(search_open_flag)
			// {
			// LOG_INFO(TRACE_MODULE_APP,"开启搜索\r\n");
			// search_open_flag=0;
			// uwb_led_on();
			// link_success_flag=UwbSearch();//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)
			// UWB_work_state=LINK_SUCCESS;
			// }else{
			// LOG_INFO(TRACE_MODULE_APP,"等待进入搜索模式：%d\r\n",SEARCH_TIMESTEMP-uwb_searchcount);
			// }

			}
			break;
			case UN_BIND:
			{
			uwb_led_off();//关闭uwb指示灯
			}
			break;
			}
			if(UWB_work_state==LINK_SUCCESS)
			{ //成功时清0错误计数
			uwb_searchcount=0;
			}
			if(UWB_work_state==SEARCH_DEV)
			{
			if(!search_open_flag)
			{
			if(uwb_searchcount++>SEARCH_TIMESTEMP)
			{
			uwb_searchcount=0;
			search_open_flag=1;
			}
			}
			//link_error_count+=g_com_map[COM_INTERVAL];
			//if(link_error_count>=g_com_map[4G_INTERNAL])
			//link_error_count=0;
			// update_led_power_state();//更新灯状态
			}
			//LOG_INFO(TRACE_MODULE_APP,"UWB状态：%d\r\n",UWB_work_state);
			}

			uint8_t GetUWBBindState(void)
			{
			if(UWB_work_state == UN_BIND)
			{
			return 0;
			}
			return 1;
			}