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chen

2025-01-10 fa86ebd985aaf06c2257a41f04e131a74a3c79bc

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#include "mk_trace.h"
#include "mk_uwb.h"
#include "mk_phy.h"
#include "mk_misc.h"
#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 "lib_aoa.h"
 
extern int simple_main(void);
extern int temp_main(void);
void Calibration_Time(void);
void TagListUpdate(void);
void TagListUpdate_person_num(void);
void Uwb_init(void);
void OpenUWB(void);
void CloseUWB(void);
int Anchor_App(void);
extern void IO_LED_control_change(uint8_t data);
extern void IO_control_init(void);
 
extern void updata_led_power_state(void);
/*receive buffer*/
static uint8_t rx_buf[150];
static uint8_t uwb_sendbuffer[150];
static volatile uint16_t rx_state;
static volatile uint16_t rx_length;
 
//resp±äÁ¿
static uint8_t frame_seq_nb2,battary,button,rec_nearbase_num,ancidlist_num;
static uint16_t ancidlist_rec[TAG_NUM_IN_SYS],ancidlist_send[TAG_NUM_IN_SYS],rec_ancidlist[TAG_NUM_IN_SYS];
static int16_t rec_ancdistlist[TAG_NUM_IN_SYS];
extern uint8_t group_id;
static uint16_t anc_id_recv,tag_id_recv;
static int16_t rec_antdelay;
extern uint32_t dev_id;
static uint16_t taglist_pos,tmp_time;
extern uint16_t tag_frequency;
extern uint16_t disoffset;
static uint8_t frame_len,recpoll_len,current_syncid,new_tagid,seize_anchor,result,g_start_sync_flag;
extern uint8_t gps_power_state,motor_power_state,uwb_state,air780_power_state,gps_success_state,red_charge_state,green_charge_state,air780_success_state;
int poll_rx_num,resp_tx_num;
//respº¯Êý
void PushAnchorDataArray(uint16_t ancid,int16_t dist,uint8_t battary);//ÕÒµ½×Ô¼ºµÄidÐÅÏ¢¶ÔӦλÖøüÐÂ×Ô¼ºµÄ½»»¥ÐÅÏ¢
static void resp_msg_set_ts(uint8_t *ts_field, int64_t ts);//ÓÃÀ´¶ÔӦλÖ÷ÅÈëʱ¼ä´Á
static 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];
static uint8_t tagofflinetime[TAG_NUM_IN_SYS];
uint32_t temp_count=0;
uint32_t temp_count1=0;
uint32_t temp_count2=0;
uint32_t temp_count3=0;
uint32_t temp_count7=0;
uint32_t temp_internal=0;
int16_t elevation = 0;
int16_t azimuth = 0;
uint8_t fom = 0;
int32_t distance;
uint8_t taglist_num;
float *sts_rssi=NULL;
extern uint8_t recev_error_num;
uint8_t uwb_rx_flag;
extern Operation_step UWB_work_state;
extern int16_t first_search_flag;
typedef enum 
{
        SEARCH,
    CLOSE,
    RANGE,
}enumwltagstate;
/* Ranging period */
#define RANGING_PERIOD_MS (1000)
 
/* This is the delay from Frame RX POLL frame to send RESP Frame */
#define POLL_RX_TO_RESP_TX_DLY_US 550U //yuan550¼«ÏÞ
 
#define RESP_TX_TO_FINAL_RX_DLY_US 500U
 
/* RX sync window size 50 ms*/
#define RX_SYNC_WIN_US 5000U //yuan1000  7000success
 
/* RX sync window size 50 ms*/
#define RX_SYNC_WIN_US_TEMP 2000000U //yuan1000  7000success
 
/* Receive poll timeout 500us*/
#define POLL_RX_TIMEOUT_US 500
 
/* Receive final timeout 500us */
#define FINAL_RX_TIMEOUT_US 500
 
/* RX window open in advance */
#define RX_WIN_IN_ADVANCE_US (150)
 
#define DELAY_BETWEEN_TWO_FRAME_UUS 500 //yuan1400
 
/* Field index in frame */
#define MSG_SEQ_NUM_IDX 2
#define FINAL_MSG_POLL_TX_TS_IDX 10
#define FINAL_MSG_RESP_RX_TS_IDX 14
#define FINAL_MSG_FINAL_TX_TS_IDX 18
#define DELAY_DEFAULT 1000
#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
{
    uint8_t phy_work_mode; /* PHY_TX / PHY_RX / PHT_TX|PHY_RX */
    struct UWB_CONFIG_T phy_cfg;
};
 
///* Default communication configuration. */
//static struct mk_uwb_configure config = {//Ô­À´µÄ»ùÕ¾·Ç110k´úÂë
//    .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.                           */
    .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 = NON_STD_NSFD5_8,          /* Identifier for SFD sequence               */
    .phy_cfg.ranging_bit = 1,                 /* ranging bit set 1                         */
    .phy_cfg.trx_mode = TRX_MODE_15_4A,  /* 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                       */
};
#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};
 
/* Count value of phy counter when transmitting and receiving frames */
static uint32_t poll_rx_en_start_u32;
static uint32_t resp_tx_en_start_u32;
static uint32_t resp_tx_timeout;
int64_t temp_resp_i64;
/* 41 bits timestamps of frames transmission/reception. */
int64_t poll_rx_ts_i64;
int64_t resp_tx_ts_i64;
int64_t final_rx_ts_i64;
 
/* Frame sequence number, incremented after each transmission. */
static uint8_t frame_seq_nb = 0;
 
/* MAC report data structure */
static struct MAC_HW_REPORT_T rx_rpt;
 
enum SIMPLE_FSM_T
{
    SIMPLE_IDLE = 0,
    SIMPLE_POLL = 1,
    SIMPLE_RESPONSE = 2,
    SIMPLE_FINAL = 3,
};
 
static enum SIMPLE_FSM_T state = SIMPLE_IDLE;
 
/**
 * @brief Correct TX timestamp of the ranging frame.
 *
 * @param[in] timestamp    PHY timer count of TX
 * @return TX timestamp (unit: 15.65ps)
 */
static int64_t ranging_tx_time_correct(uint32_t timestamp)
{
    int64_t tx_timestamp = ranging_tx_time(timestamp);
 
    // correct antenna delay (TX using the same antenna as RX)
    tx_timestamp += ranging_ant_delays_get(config.phy_cfg.rx_ant_id) / 2;
 
    return tx_timestamp;
}
 
/**
 * @brief Correct RX timestamp of the ranging frame.
 *
 * @param[in] ind    MAC RX report
 * @return RX timestamp (unit: 15.65ps)
 */
static int64_t ranging_rx_time_correct(const struct MAC_HW_REPORT_T *ind)
{
    int64_t rx_timestamp = ranging_rx_time(ind);
 
    // correct antenna delay
    rx_timestamp -= ranging_ant_delays_get(config.phy_cfg.rx_ant_id) / 2;
 
    return rx_timestamp;
}
 
/* RX done process handler. */
int8_t rssi;
uint32_t range_timeout_us = 2000000;//yuan5000
uint8_t flag_temp2,flag_temp1;
uint16_t uwb_losttimer;
static void rx_int_callback(struct MAC_HW_REPORT_T *rx_report)
{        uint8_t valid_sts=0;
    // Power off radio
    power_off_radio();
 
    /** UWB RX success */
    if (rx_report->err_code == UWB_RX_OK)
    {
        /* Received data does not contain FCS */
        rx_length = rx_report->pkt_len;
        memcpy(rx_buf, rx_report->pkt_data, rx_length);
        memcpy(&rx_rpt, rx_report, sizeof(struct MAC_HW_REPORT_T));
        /* Calculate rx timestamp */
        temp_count= phy_timer_count_get();
        poll_rx_en_start_u32 = rx_rpt.timestamp - phy_shr_duration();
        poll_rx_ts_i64 = ranging_rx_time_correct(&rx_rpt);
        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
    }
    else
    {
        /* UWB_PLD_ERR     payload error             */
        /* UWB_PHR_ERR     PHR error                 */
        /* UWB_SFD_ERR     Sfd error                 */
        /* UWB_BD_ERR      Preamble detection error  */
        /* UWB_TO_ERR      Receive timeout           */
        /* UWB_STS_ERR     STS error                 */
                    temp_count= phy_timer_count_get();
        memcpy(&rx_rpt, rx_report, sizeof(struct MAC_HW_REPORT_T));
        rx_length = 0;
            //    OpenUWB();//ÔٴοªÆôUWB½ÓÊÕ
    }
    OpenUWB();//ÔٴοªÆôUWB½ÓÊÕ
}
 
/* TX done process handler. */
static void tx_int_callback(struct MAC_HW_REPORT_T *tx_report)
{
    // Power off radio
    power_off_radio();
 
    /** UWB TX success */
    if (tx_report->err_code == UWB_TX_OK)
    {
        temp_count= phy_timer_count_get();
        temp_internal=temp_count;
        resp_tx_num++;
        //        OpenUWB();//ÔٴοªÆôUWB½ÓÊÕ
        //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];
static uint8_t anchordata_bat[TAG_NUM_IN_SYS];
uint8_t anchordata_num = 0;
static int32_t tagdist_list[TAG_NUM_IN_SYS];
uint16_t random_time;
//anchor
int32_t hist_dist;
int16_t temp_recdist_before_offset;
int16_t dist_temp;
void PushAnchorDataArray(uint16_t ancid,int16_t dist,uint8_t battary)
{
    uint8_t i;
    for(i=0; i<anchordata_num; i++)
    {
        if(anchordata_id[i] == ancid)//²éѯ±êÇ©ÊÇ·ñÔÚ×Ô¼ºÒÑͨѶÁбíÖÐ
        {
 
            break;
        }
    }
    if(i==anchordata_num)
    {
        if(anchordata_num<TAG_NUM_IN_SYS-1)
            anchordata_num++;
    }
    anchordata_id[i] = ancid;//Óë֮ͨÐŵıêÇ©id´æÈ뵱ǰ±íÖÐ
        distance=dist*0.5+(int16_t)anchordata_dist[i]*0.5;
    anchordata_dist[i] = dist;
    anchordata_bat[i] = battary;
    tagofflinetime[i]=0;//²»¶Ï¸üе±Ç°TAG¶ÔÓ¦ÀëÏßʱ¼ä
        dist_temp=dist;
//    if(dist>0)
        
//        if(temp_recdist_before_offset!=0&&distance!=0x1ffff)
//        {
//    distance=dist*0.5+distance*0.5;
//        }else{
//            distance=dist;
//        }
        
}
//uint16_t CmpTagInList(uint16_t tagid)
//{   uint16_t i;
//    for(i=0; i<taglist_num; i++)
//    {
//        if(memcmp(&tagid,&anchordata_id[i],2)==0)
//            break;
//    }
//    if(i==taglist_num)
//        return taglist_num;
//    //tagofflinetime[i] = 0;
//    return i;
//}yuan
uint16_t CmpTagInList(uint16_t tagid)
{   uint16_t i;
    for(i=0; i<taglist_num; i++)
    {
        if(memcmp(&tagid,&tagid_list[i],2)==0)
            break;
    }
    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++)
    {
        if(memcmp(&tagid,&anchordata_id[i],2)==0)
            break;
    }
    if(i==anchordata_num)
        return anchordata_num;
    //tagofflinetime[i] = 0;
    return i;
}
 
static void resp_msg_set_ts(uint8_t *ts_field, int64_t ts)
{
    int i,ts2;
    ts2=(int32_t)ts;
    for (i = 0; i < 4; i++)
    {
        ts_field[i] = (uint8_t)ts2;
        ts2 >>= 8;
    }
}
 
//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)
{
uint16_t i,j=0,k=0;
    for(i=0; i<taglist_num; i++)
    {
             if(tagofflinetime[i]++<TAG_KEEPTIMES)
        {
            tagid_list[j]=tagid_list[i];
            tagdist_list[j] = tagdist_list[i];
            tagofflinetime[j++]=tagofflinetime[i];
        }
        }
         taglist_num=j;
}
 
uint8_t position;
uint8_t Anchor_RecNearPoll(uint8_t ancrec_nearbasepos)//¸ù¾Ý×Ô¼ºÊÇ·ñΪлùÕ¾¶¨ÖÆÏûϢȥ·¢ËÍ£¬¸ù¾ÝÊÇ·ñÇÀÕ¼ÅжÏ
{
    temp_count2=poll_rx_en_start_u32;
 
    memcpy(&send_buffer[GROUP_ID_IDX],&group_id,1);//×éid
    memcpy(&send_buffer[ANCHOR_ID_IDX],&dev_id,2);//×ÔÉíid
    memcpy(&send_buffer[TAG_ID_IDX],&tag_id_recv,2);//½ÓÊÜÕßid
    send_buffer[MESSAGE_TYPE_IDX]=MBX_RESPONSE;
 
//    if(rec_nearbase_num == ancrec_nearbasepos)//ÇÀռģʽ×Ô¼ºÎªÐ»ùÕ¾
//    {
//        random_time = (phy_timer_count_get()%100);//¶à»ùÕ¾ÇÀÕ¼Ò»¸öλÖÃʱ±ÜÃâÒ»¸öÒ²ÊÕ²»µ½µÄÇé¿ö¾Íÿһ¸öËæ»ú´í¿ª¼¸Ê®uS
//        //resp_tx_time = (poll_rx_ts+((random_time+rec_nearbase_num*20 + POLL_RX_TO_RESP_TX_DLY_UUS+ancrec_nearbasepos*DELAY_BETWEEN_TWO_FRAME_UUS) * UUS_TO_DWT_TIME)) >> 8;//¼ÆËãResponse·¢ËÍʱ¼äT3¡£
//        // (resp_tx_en_start_u32) is the moment when TX enable
//        resp_tx_en_start_u32 = phy_timer_count_get()+US_TO_PHY_TIMER_COUNT(20*rec_nearbase_num+POLL_RX_TO_RESP_TX_DLY_US+rec_nearbase_num*DELAY_BETWEEN_TWO_FRAME_UUS);//ºóÃæµÄÐèÒª¸ù¾ÝÒÑÓлùÕ¾ÊýÁ¿½øÐиü¸Ä£¬Èç¹ûÊÇÇÀÕ¼×Ô¼º×îºóÒ»¸ö»Ø¸´£¬ÒªÓе×Êý
//                
//        } else {
//        //resp_tx_time = (poll_rx_ts + ((rec_nearbase_num*20+POLL_RX_TO_RESP_TX_DLY_UUS+ancrec_nearbasepos*DELAY_BETWEEN_TWO_FRAME_UUS) * UUS_TO_DWT_TIME)) >> 8;//¼ÆËãResponse·¢ËÍʱ¼äT3¡£
//       resp_tx_en_start_u32 = phy_timer_count_get()+US_TO_PHY_TIMER_COUNT(20*rec_nearbase_num+POLL_RX_TO_RESP_TX_DLY_US+ancrec_nearbasepos*DELAY_BETWEEN_TWO_FRAME_UUS);//ºóÃæµÄÐèÒª¸ù¾ÝÒÑÓлùÕ¾ÊýÁ¿½øÐиü¸Ä£¬Èç¹ûÊÇÇÀÕ¼×Ô¼º×îºóÒ»¸ö»Ø¸´£¬ÒªÓе×Êý
//                //ÕâÀïÓ¦¸ÃÓÐÎÊÌâÎÊÒ»ÏÂÖÓ¹¤
//        }//´Ë´¦ÉèÖþø¶Ôʱ¼ä½«poll u32¸ÄΪphy_timer_count_get()
        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);//¼ÓÈëÖ¡¼ä¸ô
    resp_tx_ts_i64 = ranging_tx_time_correct(resp_tx_en_start_u32 + phy_shr_duration());//ÐÞÕýʱ¼ä´Á
    /* 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);
    resp_msg_set_ts(&send_buffer[RESP_MSG_RESP_TX_TS_IDX], resp_tx_ts_i64);//´Ë´¦Ê±¼ä´Áint64Ö±½Óת»»Îªuint64²»ÖªµÀ»á²»»áÓдíÎó
    memcpy(&send_buffer[RESP_MSG_ANC_DISTOFFSET],&disoffset,2);//²î¸öÐÞÕýoffset,ÐÞÕýÓзûºÅµ«ÊÇÕâ¸öcom±íΪÎÞ·ûºÅµÄ,´«¹ýÈ¥Ö±½Ó¸³¸øInt16_tÏ൱ÓÚ»¹Ô­ÁË
    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);//Á¢¼´·¢ËͲâÊÔsize´óС
        tagofflinetime[taglist_pos] = 0;//¸üбêǩͨÐÅ
//    temp_count1=phy_timer_count_get();
    //while(mac_is_busy());
    //gpio_pin_clr(SCL_PIN);
}
 
uint16_t uwb_searchcount;
uint8_t flag_recsuccess;
 
uint32_t start_receive_count_calibration;
uint32_t current_count_calibration;
uint32_t get_in_num,get_out_num;
struct anchor_id_car anchor_id_in_car[TAG_NUM_IN_SYS],anchor_id_out_car[TAG_NUM_IN_SYS];
int16_t change_count[TAG_NUM_IN_SYS];
uint16_t anchor_id_in[TAG_NUM_IN_SYS],anchor_id_out[TAG_NUM_IN_SYS];
uint8_t secondtask_search_count,secondtask_search_flag;
extern uint8_t g_start_send_flag,search_open_flag = 1,link_success_flag,flag_secondtask;
enumwltagstate wltag_state=RANGE;
uint32_t wltag_statetimer,wltag_uwbtimer;
uint32_t uwbtasktimer=0,uwbtagsendtimer=0;
 
uint16_t CmpCarInTable(uint16_t tagid)
{   uint16_t i;
    for(i=0; i<get_in_num; i++)
    {
        if(memcmp(&tagid,&anchor_id_in[i],2)==0)
            break;
    }
    if(i==get_in_num)
        return get_in_num;
    //tagofflinetime[i] = 0;
    return i;
}
void Calibration_Time(void)
{    
    current_count_calibration=phy_timer_count_get();
    if((current_count_calibration-start_receive_count_calibration>=MS_TO_PHY_TIMER_COUNT(500)||current_count_calibration+(UINT32_MAX-start_receive_count_calibration)>=MS_TO_PHY_TIMER_COUNT(500))
        &&!((end_receive_count-current_count_calibration<=MS_TO_PHY_TIMER_COUNT(200))||(end_receive_count+(UINT32_MAX-current_count_calibration)<=MS_TO_PHY_TIMER_COUNT(200))))
    {
        start_receive_count_calibration=current_count_calibration;//¸üпªÊ¼Ê±¼ä
//        MotorPoll();
        
        if(secondtask_search_count++%2==0)
    {
        secondtask_search_flag = 1;
    }else{
        secondtask_search_flag = 0;
    }
        if(secondtask_search_flag)//¸üÐÂSʱ¼äTICK
        {
        HIDO_TimerTick();
        TagListUpdate();
//    GPS_Poll();
//        if(nomove_count<=g_com_map[NOMOVESLEEP_TIME])//·ÀÖ¹Òç³ö
//    nomove_count++;
//        else{
//        nomove_count=g_com_map[NOMOVESLEEP_TIME]+1;
//        }
        }
//        update_led_power_state();//¸üеÈ״̬·ÀÖ¹Õ𶯿¨ËÀÔÚËÑË÷
    }
}
uint16_t g_com_receive_id;
void CloseUWB(void)
{
        uwb_rx_force_off(1);
        uwb_rx_flag=0;
    //LOG_INFO(TRACE_MODULE_APP,"¹Ø±Õuwb_rx\r\n");
}
void OpenUWB(void)
{
        flag_temp1=uwb_rx(0, 0,range_timeout_us);//Ìá½»½ÓÊÕÇëÇó
        uwb_rx_flag=1;
        //LOG_INFO(TRACE_MODULE_APP,"´ò¿ªuwb_rx\r\n");
}    
void UWBOneSecondTask(void)
{
 TagListUpdate();//¸üбêÇ©Êý
 uwb_losttimer++;
 if(uwb_losttimer>g_com_map[UWB_RNAGE_TIME])
 uwb_losttimer=g_com_map[UWB_RNAGE_TIME]+1;//·ÀÖ¹Òç³ö
}
void UWBIdleTask(void)
{
 
    if(HIDO_TimerGetTick()-uwbtasktimer >=1)
    {
        uwbtasktimer = HIDO_TimerGetTick();
        UWBOneSecondTask();
    }
}
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)//ÈôÒªÇл»µ½ËÑË÷ģʽʱûÓпªÆôÔò¿ªÆôUWB
            {
                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;
            if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL)//ÅжÏÊÇ·ñÊǺÍ×Ô¼ºÊÇͬһ×éͨѶµÄÇÒΪpoll°ü
        {    flag_recsuccess = 1;
                        wltag_state=RANGE;//³É¹¦ºó´ÓsearchÇл»Îªrange
                        memcpy(&g_com_receive_id,&rx_buf[TAG_ID_IDX],2);
                      //temp_count2=phy_timer_count_get();
                        uwb_losttimer=0;//³É¹¦²â¾àÇå0 lostʱ¼ä
            frame_seq_nb2 = rx_buf[SEQUENCE_IDX];//»ñÈ¡°üÐò
            battary = rx_buf[BATTARY_IDX];
            rec_nearbase_num=rx_buf[FZ_NEARBASENUM_INDEX];  //±êÇ©´«¹ýÀ´µÄËûÓë»ùÕ¾½»»¥µÄ»ùÕ¾idÊýÄ¿
            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+2*rec_nearbase_num],2*rec_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)//Ò²ÊDZÈidÈç¹ûÓо͸üÐÂûÓоÍÇÀÕ¼
//                {
//                    seize_anchor=0;  //·ÇÇÀÕ¼¡£ÒÑ´æÔÚÁбíÖÐ
//                    Anchor_RecNearPoll(i);
//                    break;
//                }
//            }
 
//            if(i==rec_nearbase_num)
//            {
//                seize_anchor=1;   //ÇÀÕ¼anchor
//                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];
                                                if(taglist_pos==taglist_num)// taglist_pos==taglist_num ËµÃ÷Õâ¸ö»ùÕ¾²»ÔÚµ±Ç°ÁбíÖÐ
                                                {   //tempid==dev_id ËµÃ÷»ùվϷ¢²â¾à±¨ÎÄÓÐÕâ¸ö±êÇ©µÄÐÅÏ¢
                                                        taglist_num++;          //Âú×ãÉÏÊöÁ½ÖÖÇé¿ö²Å»áÌí¼Ó»ùÕ¾ID½øÈëÁбíÖУ¬·ñÔò»á³öÏÖ±êÇ©²»ÔÚ»ùÕ¾ÁбíÖУ¬±êÇ©Ò²²»ÏìÓ¦µÄÇé¿ö
                                                        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)))//µ±»ùÕ¾²»ÔÚ±êÇ©ÁбíÖУ¬±êÇ©Ò²²»ÔÚ»ùÕ¾ÁбíÖÐʱ£¬Ëæ»úÕÒ¸öʱ¼äƬ»Ø¸´»ùÕ¾¡£
                {
                       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);//¿ªÆô½ÓÊÕ
    
   // 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);//¶àÒ»¸ö¶à0.4msĬÈÏ0.4ms¼ÆËãΪ0.125*4*100000,ĬÈÏ¿ªÆô1mss
    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)//Ñ­»·½ÓÊÜ°üÌå,ÈôΪ124.8KÔòÊÇ+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)//³É¹¦½ÓÊÕ
    {
 
        //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))//ÅжÏÊÇ·ñÊǺÍ×Ô¼ºÊÇͬһ×éͨѶµÄÇÒΪpoll°ü
            if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL)//ÅжÏÊÇ·ñÊǺÍ×Ô¼ºÊÇͬһ×éͨѶµÄÇÒΪpoll°ü
        {    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));//²âÊÔ
                      temp_count2=phy_timer_count_get();
            frame_seq_nb2 = rx_buf[SEQUENCE_IDX];//»ñÈ¡°üÐò
            battary = rx_buf[BATTARY_IDX];
            rec_nearbase_num=rx_buf[FZ_NEARBASENUM_INDEX];  //±êÇ©´«¹ýÀ´µÄËûÓë»ùÕ¾½»»¥µÄ»ùÕ¾idÊýÄ¿
            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+2*rec_nearbase_num],2*rec_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)//Ò²ÊDZÈidÈç¹ûÓо͸üÐÂûÓоÍÇÀÕ¼
                {
                    seize_anchor=0;  //·ÇÇÀÕ¼¡£ÒÑ´æÔÚÁбíÖÐ
                    Anchor_RecNearPoll(i);
                    break;
                }
            }
 
            if(i==rec_nearbase_num)
            {
                seize_anchor=1;   //ÇÀÕ¼anchor
                Anchor_RecNearPoll(i);
            }
                        recev_error_num=0;
               //range_timeout_us=5000;//»Ö¸´Îª5000½øÈërangeºó
           //LOG_INFO(TRACE_MODULE_APP,"±êÇ©ID£º%X,¾àÀë: %d °üÐò%d\r\n",g_com_receive_id,distance,frame_seq_nb2);
                    
                    
                        gpio_pin_clr(SCL_PIN);
        //break;È¥µôbreak±äΪһ¶Ô¶à
                }
    } 
            sts_lsp_store();
            
            break;
        //ʧ°Ü»òÕß½ÓÊܱ»¸ß·¢Éä»ú´ò¶Ï¶¼»áÔٴοªÆô½ÓÊÕ
            //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));//²âÊÔ
//        //LOG_INFO(TRACE_MODULE_APP,"²â¾àʧ°Ü£¬¼ÆÊý£º%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)
{
        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);
        #if (defined STS_MODE) || (defined MK_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
        mac_register_process_handler(tx_int_callback, rx_int_callback);//³õʼ»¯»Øµ÷
}
//Ö÷º¯Êý°ó¶¨½ÓÊÜÂß¼­
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);//¿ªÆô½ÓÊÕ
    start_receive_count=phy_timer_count_get();
    poll_timeout=US_TO_PHY_TIMER_COUNT(2000000);//¶àÒ»¸ö¶à0.4msĬÈÏ0.4ms¼ÆËãΪ0.125*4*100000,ĬÈÏ¿ªÆô1mss
    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)//Ñ­»·½ÓÊÜ°üÌå,ÈôΪ124.8KÔòÊÇ+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)//³É¹¦½ÓÊÕ
        {
//            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))//ÅжÏÊÇ·ñÊǺÍ×Ô¼ºÊÇͬһ×éͨѶµÄÇÒΪpoll°ü
            if(group_id==rx_buf[GROUP_ID_IDX]&&rx_buf[MESSAGE_TYPE_IDX] == MBX_POLL)//ÅжÏÊÇ·ñÊǺÍ×Ô¼ºÊÇͬһ×éͨѶµÄÇÒΪpoll°ü
                        {   
                              sleep_timer_start(__MS_TO_32K_CNT(UWB_DELAY_TIME_US-13));//²âÊÔ
                                range_timeout_us=20000;//½«Ï´Îrange¿ªÆôºó³¬Ê±Ê±¼äÉèΪ20msÖ®ºóÔÙrangeÀï»Ö¸´
                                temp_count2=phy_timer_count_get();
                frame_seq_nb2 = rx_buf[SEQUENCE_IDX];//»ñÈ¡°üÐò
                battary = rx_buf[BATTARY_IDX];
                rec_nearbase_num=rx_buf[FZ_NEARBASENUM_INDEX];  //±êÇ©´«¹ýÀ´µÄËûÓë»ùÕ¾½»»¥µÄ»ùÕ¾idÊýÄ¿
                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+2*rec_nearbase_num],2*rec_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)//Ò²ÊDZÈidÈç¹ûÓо͸üÐÂûÓоÍÇÀÕ¼
                    {
                        seize_anchor=0;  //·ÇÇÀÕ¼¡£ÒÑ´æÔÚÁбíÖÐ
                        Anchor_RecNearPoll(i);
                        break;
                    }
                }
 
                if(i==rec_nearbase_num)
                {
                    seize_anchor=1;   //ÇÀÕ¼anchor
                    Anchor_RecNearPoll(i);
                }
                
                gpio_pin_clr(SCL_PIN);//²âÊÔ
                                LOG_INFO(TRACE_MODULE_APP,"±êÇ©ID£º%X,¾àÀë: %d ÐźÅÇ¿¶ÈANT0:%f,ÐźÅÇ¿¶ÈANT2: %f\r\n",g_com_map[BIND_DEV_ID],distance,sts_rssi[0],sts_rssi[2]);
                return 1;//·µ»Ø·¢Ëͳɹ¦±êÖ¾
            }
 
        }
                temp_count3=phy_timer_count_get();
                sts_lsp_store();
        flag_temp2=uwb_rx(0, 0, RX_SYNC_WIN_US_TEMP);//ÔٴοªÆô½ÓÊÕ
    }
        delay_us(2);
        sts_lsp_store_stop();
        uwb_rx_force_off(1);
    // LOG_INFO(TRACE_MODULE_APP,"³¬Ê±¶¨Ê±Æ÷£º%x,%x,%x\r\n",start_receive_count,end_receive_count,current_count);
    gpio_pin_clr(SCL_PIN);//²âÊÔ
    return 0;//·µ»Ø°ó¶¨Ê§°Ü±êÖ¾
}
//}
 
#define SEARCH_TIMESTEMP 20
void UWBPoll(void)
{
    switch(UWB_work_state)
    {
    case LINK_SUCCESS:
    {   //Á¬½Ó³É¹¦½øÐÐÂÖѯ²â¾à
 
        uwb_led_on();
        UwbRange();
        uwb_led_off();
 
    }
    break;
    case SEARCH_DEV:
    {   
            UWB_work_state=LINK_SUCCESS;
            Uwb_init();
//            //½Ó°ü²»³É¹¦»òÕßͨѶʧ°Ü½øÈëËÑË÷ģʽ
//        if(search_open_flag)
//        {
//            LOG_INFO(TRACE_MODULE_APP,"¿ªÆôËÑË÷\r\n");
//            search_open_flag=0;
//            uwb_led_on();
//            link_success_flag=UwbSearch();//µÚÒ»´Î¿ªÆô½ÓÊÕ2s°ó¶¨Ê§°ÜºóÔò½øÐÐÏÂÃæ1·ÖÖÓºóÖØпªÆô2s°ó¶¨Á÷³Ì
//            uwb_led_off();
//            if(link_success_flag)
//                UWB_work_state=LINK_SUCCESS;
//        }else{
//            LOG_INFO(TRACE_MODULE_APP,"µÈ´ý½øÈëËÑË÷ģʽ£º%d\r\n",SEARCH_TIMESTEMP-uwb_searchcount);
//        }
 
    }
    break;
    case UN_BIND:
    {
        uwb_led_off();//¹Ø±ÕuwbָʾµÆ
    }
    break;
    }
    if(UWB_work_state==LINK_SUCCESS)
    {   //³É¹¦Ê±Çå0´íÎó¼ÆÊý
        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();//¸üеÆ״̬
    }
     //LOG_INFO(TRACE_MODULE_APP,"UWB״̬£º%d\r\n",UWB_work_state);
}
 
uint8_t GetUWBBindState(void)
{
    if(UWB_work_state == UN_BIND)
    {
        return 0;
    }
    return 1;
}