ChinaUWBProject.git

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			/*
			* Copyright (c) 2019-2023 Beijing Hanwei Innovation Technology Ltd. Co. and
			* its subsidiaries and affiliates (collectly called MKSEMI).
			*
			* All rights reserved.
			*
			* Redistribution and use in source and binary forms, with or without
			* modification, are permitted provided that the following conditions are met:
			*
			* 1. Redistributions of source code must retain the above copyright notice,
			* this list of conditions and the following disclaimer.
			*
			* 2. Redistributions in binary form, except as embedded into an MKSEMI
			* integrated circuit in a product or a software update for such product,
			* must reproduce the above copyright notice, this list of conditions and
			* the following disclaimer in the documentation and/or other materials
			* provided with the distribution.
			*
			* 3. Neither the name of MKSEMI nor the names of its contributors may be used
			* to endorse or promote products derived from this software without
			* specific prior written permission.
			*
			* 4. This software, with or without modification, must only be used with a
			* MKSEMI integrated circuit.
			*
			* 5. Any software provided in binary form under this license must not be
			* reverse engineered, decompiled, modified and/or disassembled.
			*
			* THIS SOFTWARE IS PROVIDED BY MKSEMI "AS IS" AND ANY EXPRESS OR IMPLIED
			* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
			* MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE
			* DISCLAIMED. IN NO EVENT SHALL MKSEMI OR CONTRIBUTORS BE LIABLE FOR ANY
			* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
			* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
			* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
			* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
			* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
			* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
			*/

			#include "mk_trace.h"
			#include "mk_power.h"
			#include "mk_gpio.h"
			#include "mk_uwb.h"
			#include "mk_clock.h"
			#include "mk_trng.h"
			#include "wsf_msg.h"
			#include "ranging_custom.h"
			#include "lib_aoa.h"
			#include "libc_rom.h"
			#if KF_EN
			#include "lib_kf.h"
			#endif
			#if PDOA_3D_EN
			#include "lib_pdoa_3d.h"
			#endif

			#include "board.h"

			#if PDOA_3D_EN
			#define PDOA_3D_SUPPORT_NUM 100
			#define PDOA_3D_TIMEOUT_MS 2000
			static struct PDOA_3D_MAC_ADDR_T mac_addr_cache[PDOA_3D_SUPPORT_NUM];
			static struct PDOA_3D_PDOA_DATA_T pdoa_data_cache[PDOA_3D_SUPPORT_NUM];
			#endif

			#if KF_EN && FILTER_EN
			#define KF_SUPPORT_NUM 6
			#define KF_TIMEOUT_MS 2000
			static struct KF_MAC_ADDR_T kf_mac_addr_cache[KF_SUPPORT_NUM];
			static struct KF_CHANNEL_CACHE_T kf_channel_cache[KF_SUPPORT_NUM];
			static struct KF_MAT_VALUE_CACHE_T kf_mat_value_cache[KF_SUPPORT_NUM];
			#endif

			static uint16_t user_poll_data_len = 0;
			static uint8_t user_poll_data[MSG_POLL_USER_DATA_LEN];

			static uint16_t user_response_data_len = 0;
			static uint8_t user_response_data[MSG_RESPONSE_USER_DATA_LEN];

			static struct RANGING_USER_PKT_T ranging_user_pkt;

			struct RANGING_ENV_T ranging_env;

			static struct RANGING_CB_T ranging_cb;

			static struct UWB_OP_T op = {
			.session_configure = ranging_configure,
			.session_start = ranging_start,
			.session_stop = ranging_stop,
			.session_local_addr_set = ranging_local_addr_set,
			.session_peer_addr_set = ranging_peer_addr_set,
			.session_responder_addr_add = ranging_responder_addr_add,
			.session_responder_list_clr = ranging_responder_list_clr,
			.session_responder_num_get = ranging_responder_num_get,
			.session_responder_addr_get = ranging_responder_addr_get,
			.session_set_ccc_ursk = NULL,
			};

			static void ranging_timer_callback(void *dev, uint32_t time);

			static void uwb_pkt_tx_done_ind(const struct MAC_HW_REPORT_T *tx, enum RANGING_STAGE_T stage);
			static uint16_t uwb_pkt_rx_done_ind(const struct MAC_HW_REPORT_T *rx, enum RANGING_STAGE_T stage);

			static void ranging_tx_process(struct MAC_HW_REPORT_T *tx_report);
			static void ranging_rx_process(struct MAC_HW_REPORT_T *rx_report);
			void app_session_init(void);

			//------------------------------------------------------------------------------
			int ranging_init(uint8_t handle_id)
			{
			/* store handler ID */
			ranging_cb.handle_id = handle_id;

			/* init rx queue */
			WSF_QUEUE_INIT(&ranging_cb.msg_queue);

			ranging_cb.daemon_timer.handlerId = handle_id;
			ranging_cb.daemon_timer.msg.event = RANGING_DAEMON_TIMER_MSG;

			LOG_INFO(TRACE_MODULE_APP, "Ranging lib version: %s\r\n", MK8000_get_rangelib_version());
			LOG_INFO(TRACE_MODULE_APP, "AoA lib version: %s\r\n", MK8000_get_aoalib_version());

			LOG_INFO(TRACE_MODULE_APP, "UWB_RX_OPEN_IN_ADVANCE %d\r\n", UWB_RX_OPEN_IN_ADVANCE);
			LOG_INFO(TRACE_MODULE_APP, "UWB_RX_WINDOW %d\r\n", UWB_RX_WINDOW);
			LOG_INFO(TRACE_MODULE_APP, "UWB_EVT_PREFETCH_TIME %d\r\n", UWB_EVT_PREFETCH_TIME);

			return 0;
			}

			int ranging_deinit(void)
			{
			return 0;
			}

			// This function will be called by the uwbapi_session_init()
			void app_session_init(void)
			{
			// register process handler for MAC TX done and RX done
			mac_register_process_handler(ranging_tx_process, ranging_rx_process);

			uwbs_handler_init(&op);
			uwb_app_config.responder_num_max = RESPONDER_NUM_MAX;
			}

			void ranging_configure(void)
			{
			ranging_env.ranging_period = MS_TO_PHY_TIMER_COUNT(uwb_app_config.session_param.ranging_interval);
			ranging_env.slot_interval = RSTU_TO_PHY_TIMER_COUNT(uwb_app_config.session_param.slot_duration);
			ranging_env.enable = 0;
			ranging_env.tof = 0;
			ranging_env.range_data.measurements_num = 0;
			for (uint8_t i = 0; i < MEASUREMENT_NUM_MAX; i++)
			{
			ranging_env.range_data.measurements[i].status = STATUS_VENDOR_RESERVED;
			}
			ranging_env.range_data.ranging_type = 0x1; // TWR (SS-TWR, DS-TWR)
			ranging_env.range_data.ranging_interval = uwb_app_config.session_param.ranging_interval;
			ranging_env.range_data.mac_addr_mode = uwbs_mac_addr_mode_get();
			ranging_env.range_data.session_id = uwb_app_config.session_id;

			uwbs_configure(PHY_TX \| PHY_RX, uwb_app_config.session_param.tx_power_level);

			#if CSI_EN
			ranging_aux_out_opt_set(CH_LEN_DEFAULT, 3);
			#endif

			#if (ANT_PATTERN == ANT_PATTERN_SQUARE)
			struct AOA_ANGLE_SPAN_T aoa_span;
			#if AOA_3D_EN
			aoa_span.Ndim = 2;
			aoa_span.el_low = 0;
			aoa_span.el_high = 90;
			aoa_span.el_step = 5;
			aoa_span.az_low = 0;
			aoa_span.az_high = 359;
			aoa_span.az_step = 3;
			#else
			aoa_span.Ndim = 2;
			aoa_span.el_low = 90;
			aoa_span.el_high = 90;
			aoa_span.el_step = 5;
			aoa_span.az_low = 0;
			aoa_span.az_high = 359;
			aoa_span.az_step = 1;
			#endif
			aoa_angle_search_span_set(&aoa_span);
			#endif

			#if AOA_EN
			aoa_aux_info_set(AOA_AUX_ANT_IQ_RSSI_PDOA_AOA_FOM);
			aoa_steering_vector_set((const float *)((uint32_t)((uwb_app_config.ppdu_params.ch_num == 9) ? svec_ch9_ptr : svec_ch5_ptr) \| SRAM_BASE));
			#else
			aoa_aux_info_set(AOA_AUX_ANT_IQ_RSSI);
			#endif

			aoa_param_config();

			#if PDOA_3D_EN
			pdoa_3d_param_config(ANT_PATTERN, ANT_LAYOUT, PDOA_3D_AMBIGUITY_LEVEL_HIGH, mac_addr_cache, pdoa_data_cache, PDOA_3D_SUPPORT_NUM, PDOA_3D_TIMEOUT_MS);
			// pdoa_angle_reverse_set(1, 0);
			#endif

			#if FILTER_EN
			if (uwb_app_config.filter_en)
			{
			#if KF_EN
			loc_post_kf_config(uwb_app_config.session_param.ranging_interval, kf_mac_addr_cache, kf_channel_cache, kf_mat_value_cache, KF_SUPPORT_NUM,
			KF_TIMEOUT_MS);
			#else
			loc_post_filter_config(uwb_app_config.session_param.ranging_interval, 1, uwb_app_config.session_param.aoa_result_req);
			#endif
			}
			#endif

			#if RANGING_FOM_FILTER_EN
			ranging_debug_csi_en_set(1);
			#endif

			ranging_user_pkt.session_id = (uint16_t)uwb_app_config.session_id;
			}

			void ranging_start(void)
			{
			ranging_env.enable = 1;
			ranging_env.anchor_point = phy_timer_count_get();
			enum DEV_ROLE_T dev_role = uwb_app_config.session_param.device_role;
			if (dev_role == DEV_ROLE_INITIATOR)
			{
			uwb_app_config.ranging_stage = RANGING_POLL;
			}
			else
			{
			uwb_app_config.ranging_stage = RANGING_SYNC;
			}
			phy_timer_target_set(ranging_env.anchor_point + ranging_env.ranging_period - UWB_EVT_PREFETCH_TIME, ranging_timer_callback);
			power_mode_request(POWER_UNIT_APP, POWER_MODE_POWER_DOWN);
			ranging_env.count = 0;
			ranging_env.count_last = 0;
			ranging_env.lost_cnt = 0;

			WsfTimerStartMs(&ranging_cb.daemon_timer, uwb_app_config.session_param.ranging_interval * 10, WSF_TIMER_PERIODIC);
			LOG_INFO(TRACE_MODULE_APP, "Ranging start, role %d\r\n", dev_role);
			}

			void ranging_stop(void)
			{
			ranging_env.enable = 0;
			WsfTimerStop(&ranging_cb.daemon_timer);
			}

			void ranging_restart(void)
			{
			ranging_stop();
			mac_restart();
			ranging_start();
			LOG_INFO(TRACE_MODULE_APP, "Ranging restart\r\n");
			}

			int8_t ranging_tx_power_get(void)
			{
			return uwb_tx_power_get(uwb_app_config.ppdu_params.ch_num, uwb_app_config.session_param.tx_power_level);
			}

			void ranging_local_addr_set(uint16_t short_addr)
			{
			uwbs_local_short_addr_set(short_addr);
			}

			void ranging_peer_addr_set(uint16_t short_addr)
			{
			uwbs_peer_short_addr_set(short_addr);
			}

			uint8_t ranging_responder_addr_add(uint16_t addr)
			{
			if (ranging_env.responder_num < RESPONDER_NUM_MAX)
			{
			LOG_INFO(TRACE_MODULE_APP, "Responder %d %04x\r\n", ranging_env.responder_num, addr);
			ranging_env.responder_list[ranging_env.responder_num] = addr;
			ranging_env.responder_num++;
			ranging_env.main_ant_id = uwb_app_config.ppdu_params.rx_ant_id;
			return 1;
			}
			return 0;
			}

			uint8_t ranging_responder_addr_set(uint8_t idx, uint16_t addr)
			{
			if (idx < ranging_env.responder_num)
			{
			ranging_env.responder_list[idx] = addr;
			return 1;
			}
			return 0;
			}

			void ranging_responder_list_clr(void)
			{
			ranging_env.responder_num = 0;
			}

			uint16_t ranging_responder_addr_get(uint8_t idx)
			{
			return ranging_env.responder_list[idx];
			}

			uint8_t ranging_responder_idx_get(uint16_t addr)
			{
			for (uint8_t i = 0; i < ranging_env.responder_num; i++)
			{
			if (ranging_env.responder_list[i] == addr)
			{
			return i;
			}
			}
			return (0xFF);
			}

			uint8_t ranging_responder_num_get(void)
			{
			return ranging_env.responder_num;
			}

			uint8_t ranging_poll_msg_set(uint16_t data_len, const uint8_t *data)
			{
			user_poll_data_len = sizeof(user_poll_data);

			if (user_poll_data_len > data_len)
			{
			user_poll_data_len = data_len;
			}

			for (uint8_t ii = 0; ii < user_poll_data_len; ii++)
			{
			user_poll_data[ii] = data[ii];
			}

			// The return value is 0, the poll message is set successfully
			// The return value is 1 is set failed
			return (user_poll_data_len == data_len) ? 0 : 1;
			}

			uint8_t ranging_response_msg_set(uint16_t data_len, const uint8_t *data)
			{
			user_response_data_len = sizeof(user_response_data);

			if (user_response_data_len > data_len)
			{
			user_response_data_len = data_len;
			}

			for (uint8_t ii = 0; ii < user_response_data_len; ii++)
			{
			user_response_data[ii] = data[ii];
			}

			// The return value is 0, the response message is set successfully
			// The return value is 1 is set failed
			return (user_response_data_len == data_len) ? 0 : 1;
			}

			// ts_a - ts_b
			int64_t ranging_timestamp_diff(int64_t ts_a, int64_t ts_b)
			{
			if (ts_a < ts_b)
			{
			return (0x20000000000 - ts_b + ts_a);
			}
			else
			{
			return (ts_a - ts_b);
			}
			}

			// unit: 15.6ps
			int64_t ranging_tround(enum DEV_ROLE_T role, uint8_t dev_idx)
			{
			int64_t tx_timestamp;
			int64_t rx_timestamp;
			if (role == DEV_ROLE_INITIATOR)
			{
			tx_timestamp = ranging_env.tx_poll_time;
			rx_timestamp = ranging_env.rx_response_time[dev_idx];
			}
			else
			{
			tx_timestamp = ranging_env.tx_response_time;
			rx_timestamp = ranging_env.rx_final_time;
			}

			int64_t tround = ranging_timestamp_diff(rx_timestamp, tx_timestamp);

			// correct antenna delay
			tround -= ranging_ant_delays_get(uwb_app_config.ppdu_params.rx_ant_id);

			return tround;
			}

			// unit: 15.6ps
			int64_t ranging_treply(enum DEV_ROLE_T role, uint8_t dev_idx)
			{
			int64_t tx_timestamp;
			int64_t rx_timestamp;
			if (role == DEV_ROLE_INITIATOR)
			{
			tx_timestamp = ranging_env.tx_final_time;
			rx_timestamp = ranging_env.rx_response_time[dev_idx];
			}
			else
			{
			tx_timestamp = ranging_env.tx_response_time;
			rx_timestamp = ranging_env.rx_poll_time;
			}

			int64_t treply = ranging_timestamp_diff(tx_timestamp, rx_timestamp);

			// correct antenna delay
			treply += ranging_ant_delays_get(uwb_app_config.ppdu_params.rx_ant_id);

			return treply;
			}

			uint8_t ranging_count_get(void)
			{
			return ranging_env.count;
			}

			void ranging_poll_pkt_construct(void)
			{
			ranging_user_pkt.msg_type = RANGING_POLL;
			ranging_user_pkt.msg.poll_msg[MSG_POLL_RESPONDER_NUM_IDX] = ranging_env.responder_num;

			for (uint8_t i = 0; i < ranging_env.responder_num; i++)
			{
			if (uwb_app_config.ranging_flow_mode == (uint8_t)RANGING_FLOW_CONTENTION)
			{
			ranging_env.responder_list[i] = 0;
			}
			ranging_user_pkt.msg.poll_msg[MSG_POLL_RESPONDER_ID_IDX(i)] = ranging_env.responder_list[i] & 0xff;
			ranging_user_pkt.msg.poll_msg[MSG_POLL_RESPONDER_ID_IDX(i) + 1] = (ranging_env.responder_list[i] >> 8) & 0xff;
			ranging_user_pkt.msg.poll_msg[MSG_POLL_RESPONDER_SLOT_IDX(i)] = i;
			}

			ranging_user_pkt.msg.poll_msg[MSG_POLL_TX_PWR_IDX] = uwb_app_config.session_param.tx_power_level;
			memcpy(&ranging_user_pkt.msg.poll_msg[MSG_POLL_USER_DATA_IDX], user_poll_data, user_poll_data_len);
			}

			void ranging_response_pkt_construct(void)
			{
			ranging_user_pkt.msg_type = RANGING_RESPONSE;
			uint16_t responder_id = uwbs_local_short_addr_get();
			ranging_user_pkt.msg.response_msg[MSG_RESPONSE_RESPONDER_ID_IDX] = responder_id & 0xff;
			ranging_user_pkt.msg.response_msg[MSG_RESPONSE_RESPONDER_ID_IDX + 1] = (responder_id >> 8) & 0xff;
			ranging_user_pkt.msg.response_msg[MSG_RESPONSE_TX_PWR_IDX] = uwb_app_config.session_param.tx_power_level;
			memcpy(&ranging_user_pkt.msg.response_msg[MSG_RESPONSE_USER_DATA_IDX], user_response_data, user_response_data_len);
			}

			void ranging_final_pkt_construct(void)
			{
			ranging_user_pkt.msg_type = RANGING_FINAL;
			ranging_user_pkt.msg.final_msg[MSG_FINAL_RESPONDER_NUM_IDX] = ranging_env.responder_num;

			int64_t Ttotal = ranging_timestamp_diff(ranging_env.tx_final_time, ranging_env.tx_poll_time);

			for (int i = 0; i < 5; i++)
			{
			ranging_user_pkt.msg.final_msg[MSG_FINAL_TREPLY_IDX + i] = (Ttotal >> (i * 8)) & 0xff;
			}

			for (uint8_t n = 0; n < ranging_env.responder_num; n++)
			{
			int64_t tround = 0;

			if (ranging_env.responder_response_flag & (1 << n))
			{
			tround = ranging_tround(DEV_ROLE_INITIATOR, n);
			}

			// update final packet
			for (int i = 0; i < 5; i++)
			{
			ranging_user_pkt.msg.final_msg[MSG_FINAL_TROUND_IDX(n) + i] = (tround >> (i * 8)) & 0xff;
			}
			}

			for (uint8_t n = 0; n < ranging_env.responder_num; n++)
			{
			memcpy(&ranging_user_pkt.msg.final_msg[MSG_FINAL_FOM_IDX(n)], &ranging_env.frame[n], RFRAME_INF_SIZE);
			}
			}

			void ranging_result_pkt_construct(void)
			{
			ranging_user_pkt.msg_type = RANGING_RESULT;
			uint16_t responder_id = uwbs_local_short_addr_get();
			ranging_user_pkt.msg.result_msg[0] = responder_id & 0xff;
			ranging_user_pkt.msg.result_msg[1] = (responder_id >> 8) & 0xff;

			struct RANGING_MEASUREMENT_T *range_result = &ranging_env.range_data.measurements[0];
			ranging_user_pkt.msg.result_msg[2] = range_result->distance & 0xff;
			ranging_user_pkt.msg.result_msg[3] = (range_result->distance >> 8) & 0xff;

			ranging_user_pkt.msg.result_msg[4] = ranging_env.frame[0].fom;
			ranging_user_pkt.msg.result_msg[5] = ranging_env.frame[0].NLoS;

			ranging_user_pkt.msg.result_msg[6] = ranging_env.frame[1].fom;
			ranging_user_pkt.msg.result_msg[7] = ranging_env.frame[1].NLoS;
			}

			uint8_t ranging_poll_pkt_process(uint8_t *pkt_data, uint16_t pkt_len)
			{
			uint8_t ret = 0;
			struct RANGING_USER_PKT_T ranging_recv_pkt = (struct RANGING_USER_PKT_T )pkt_data;

			ranging_env.responder_num = 0;
			ranging_env.responder_slot_idx = 0;

			if ((ranging_recv_pkt->session_id == ranging_user_pkt.session_id) && (ranging_recv_pkt->msg_type == RANGING_POLL))
			{
			ranging_env.responder_num = ranging_recv_pkt->msg.poll_msg[MSG_POLL_RESPONDER_NUM_IDX];

			if (uwb_app_config.ranging_flow_mode == (uint8_t)RANGING_FLOW_CONTENTION)
			{
			ranging_env.responder_slot_idx = ranging_recv_pkt->msg.poll_msg[MSG_POLL_RESPONDER_SLOT_IDX((uint8_t)(rand() % ranging_env.responder_num))];
			ret = 1;
			}
			else
			{
			for (uint8_t i = 0; i < ranging_env.responder_num; i++)
			{
			uint16_t responder_id = READ_SHORT(&ranging_recv_pkt->msg.poll_msg[MSG_POLL_RESPONDER_ID_IDX(i)]);
			if (uwbs_local_short_addr_get() == responder_id)
			{
			ranging_env.responder_slot_idx = ranging_recv_pkt->msg.poll_msg[MSG_POLL_RESPONDER_SLOT_IDX(i)];
			ret = 1;
			break;
			}
			}
			}
			}
			return ret;
			}

			#if defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
			#pragma clang diagnostic push
			#pragma clang diagnostic ignored "-Wswitch-enum"
			#pragma clang diagnostic ignored "-Wunreachable-code-break"
			#pragma clang diagnostic ignored "-Wcast-align"
			#endif

			static void ranging_timer_callback(void *dev, uint32_t time)
			{
			// board_led_on(BOARD_LED_1);
			if (ranging_env.enable)
			{
			enum RANGING_STAGE_T stage = uwb_app_config.ranging_stage;
			uint32_t target_time;
			if (uwb_app_config.session_param.device_role == DEV_ROLE_INITIATOR)
			{
			switch (stage)
			{
			case RANGING_IDLE:
			ASSERT(0, "RANGING_IDLE\r\n");
			break;

			case RANGING_POLL:
			{
			ranging_env.anchor_point += ranging_env.ranging_period;
			ranging_user_pkt.seq_num++;
			ranging_env.slot_idx = 0;
			ranging_env.responder_response_flag = 0;
			ranging_env.initiator_result_flag = 0;
			// send poll
			ranging_poll_pkt_construct();

			target_time = ranging_env.anchor_point;

			if (uwb_app_config.ranging_flow_mode == (uint8_t)RANGING_FLOW_CONTENTION)
			{
			power_on_radio(1, 1);
			mac_tx(EVT_MODE_MAC_FIX_PHY_ASAP, target_time, 0, (uint8_t *)&ranging_user_pkt,
			user_poll_data_len + MSG_HEADER_LEN + MSG_POLL_USER_DATA_IDX);
			}
			else
			{
			power_on_radio(1, 0);
			mac_tx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time, 0, (uint8_t *)&ranging_user_pkt,
			user_poll_data_len + MSG_HEADER_LEN + MSG_POLL_USER_DATA_IDX);
			}

			power_mode_request(POWER_UNIT_APP, POWER_MODE_SLEEP);
			}
			break;

			case RANGING_RESPONSE:
			{
			ranging_env.slot_idx++;
			// receive response
			power_on_radio(0, 1);
			sts_lsp_store();

			target_time = ranging_env.anchor_point + ranging_env.slot_idx * ranging_env.slot_interval;
			mac_rx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time - UWB_RX_OPEN_IN_ADVANCE, UWB_RX_WINDOW);
			}
			break;

			case RANGING_FINAL:
			{
			ranging_env.slot_idx++;
			// Store tx timestamp
			target_time = ranging_env.anchor_point + (1 + ranging_env.responder_num) * ranging_env.slot_interval;
			ranging_env.tx_final_time = ranging_tx_time(target_time + phy_shr_duration());

			// send final
			ranging_final_pkt_construct();
			power_on_radio(1, 0);
			mac_tx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time, 0, (uint8_t *)&ranging_user_pkt, MSG_HEADER_LEN + MSG_FINAL_USER_DATA_IDX);
			}
			break;

			#if RANGING_RESULT_REPORT_EN
			case RANGING_RESULT:
			{
			ranging_env.slot_idx++;
			// receive result
			power_on_radio(0, 1);
			sts_lsp_store();

			target_time = ranging_env.anchor_point + ranging_env.slot_idx * ranging_env.slot_interval;
			mac_rx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time - UWB_RX_OPEN_IN_ADVANCE, UWB_RX_WINDOW);
			}
			break;
			#endif

			default:
			ASSERT(0, "UNKNOWN STAGE\r\n");
			break;
			}
			}
			else
			{
			switch (stage)
			{
			case RANGING_IDLE:
			ASSERT(0, "RANGING_IDLE\r\n");
			break;

			case RANGING_SYNC:
			{
			ranging_env.anchor_point += ranging_env.ranging_period;
			// receive sync
			power_on_radio(0, 1);

			if (uwb_app_config.session_param.aoa_result_req)
			{
			#if DYNAMIC_UPDATE_MAIN_ANTENNA_EN
			// dynamic switch main antenna
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 1, ranging_env.main_ant_id);
			aoa_param_update(ranging_env.main_ant_id);
			#else
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 0, 0);
			#endif
			}
			sts_lsp_store();

			mac_rx(EVT_MODE_MAC_PHY_ASAP, 0, ranging_env.ranging_period);
			power_mode_request(POWER_UNIT_APP, POWER_MODE_SLEEP);
			ranging_env.responder_final_flag = 0;
			}
			break;

			case RANGING_POLL:
			{
			ranging_env.anchor_point += ranging_env.ranging_period;
			// receive poll
			power_on_radio(0, 1);

			if (uwb_app_config.session_param.aoa_result_req)
			{
			#if DYNAMIC_UPDATE_MAIN_ANTENNA_EN
			// dynamic switch main antenna
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 1, ranging_env.main_ant_id);
			aoa_param_update(ranging_env.main_ant_id);
			#else
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 0, 0);
			#endif
			}
			sts_lsp_store();

			target_time = ranging_env.anchor_point - LPM_PPM_COMPENSATION(LOW_POWER_CLOCK_PPM, uwb_app_config.session_param.ranging_interval);
			mac_rx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time - UWB_RX_OPEN_IN_ADVANCE,
			UWB_RX_WINDOW + LPM_PPM_COMPENSATION(LOW_POWER_CLOCK_PPM, uwb_app_config.session_param.ranging_interval));
			power_mode_request(POWER_UNIT_APP, POWER_MODE_SLEEP);
			ranging_env.responder_final_flag = 0;
			}
			break;

			case RANGING_RESPONSE:
			{
			// send response
			ranging_response_pkt_construct();

			target_time = ranging_env.anchor_point + (1 + ranging_env.responder_slot_idx) * ranging_env.slot_interval;

			if (uwb_app_config.ranging_flow_mode == (uint8_t)RANGING_FLOW_CONTENTION)
			{
			power_on_radio(1, 1);
			mac_tx(EVT_MODE_MAC_FIX_PHY_ASAP, target_time, 0, (uint8_t *)&ranging_user_pkt,
			user_response_data_len + MSG_HEADER_LEN + MSG_RESPONSE_USER_DATA_IDX);
			}
			else
			{
			power_on_radio(1, 0);
			mac_tx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time, 0, (uint8_t *)&ranging_user_pkt,
			user_response_data_len + MSG_HEADER_LEN + MSG_RESPONSE_USER_DATA_IDX);
			}
			}
			break;

			case RANGING_FINAL:
			{
			// receive final
			power_on_radio(0, 1);

			if (uwb_app_config.session_param.aoa_result_req)
			{
			#if DYNAMIC_UPDATE_MAIN_ANTENNA_EN
			// dynamic switch main antenna
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 1, ranging_env.main_ant_id);
			aoa_param_update(ranging_env.main_ant_id);
			#else
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_SWITCH_EVERY_4SYM, 0, 0);
			#endif
			}
			sts_lsp_store();

			target_time = ranging_env.anchor_point + (1 + ranging_env.responder_num) * ranging_env.slot_interval;
			mac_rx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time - UWB_RX_OPEN_IN_ADVANCE, UWB_RX_WINDOW);
			}
			break;

			#if RANGING_RESULT_REPORT_EN
			case RANGING_RESULT:
			{
			// send result
			ranging_result_pkt_construct();
			power_on_radio(1, 0);
			target_time = ranging_env.anchor_point + (1 + ranging_env.responder_num + 1 + ranging_env.responder_slot_idx) * ranging_env.slot_interval;
			mac_tx(EVT_MODE_MAC_ASAP_PHY_FIX, target_time, 0, (uint8_t *)&ranging_user_pkt,
			user_response_data_len + MSG_HEADER_LEN + MSG_RESULT_INFO_LEN);
			}
			break;
			#endif

			default:
			ASSERT(0, "UNKNOWN STAGE\r\n");
			break;
			}
			}

			mac_start();
			}
			else
			{
			power_mode_clear(POWER_UNIT_APP);
			LOG_INFO(TRACE_MODULE_APP, "Ranging stop\r\n");
			}
			// board_led_off(BOARD_LED_1);
			}

			enum RANGING_STAGE_T ranging_fsm(const struct MAC_HW_REPORT_T *ind)
			{
			uint16_t status;
			struct RANGING_USER_PKT_T ranging_recv_pkt = (struct RANGING_USER_PKT_T )&ind->pkt_data[0];
			enum RANGING_STAGE_T stage = uwb_app_config.ranging_stage;

			// board_led_on(BOARD_LED_2);
			power_off_radio();
			if (ranging_env.enable)
			{
			ranging_env.count++;
			uint32_t target_time = ranging_env.anchor_point;

			if (uwb_app_config.session_param.device_role == DEV_ROLE_INITIATOR)
			{
			switch (stage)
			{
			case RANGING_IDLE:
			break;

			case RANGING_POLL:
			{
			// Store tx timestamp
			ranging_env.tx_poll_time = ranging_tx_time(ind->timestamp);
			ranging_env.anchor_point = ind->timestamp - phy_shr_duration();

			if (ind->err_code == UWB_TX_OK)
			{
			target_time = ranging_env.anchor_point + ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESPONSE;
			}
			else
			{
			target_time = ranging_env.anchor_point + ranging_env.ranging_period;
			uwb_app_config.ranging_stage = RANGING_POLL;
			}

			// process tx-poll packet
			uwb_pkt_tx_done_ind(ind, stage);
			}
			break;

			case RANGING_RESPONSE:
			{
			// process rx-response packet
			status = uwb_pkt_rx_done_ind(ind, stage);
			if (status == UWB_RX_OK)
			{
			if ((ranging_recv_pkt->session_id == ranging_user_pkt.session_id) && (ranging_recv_pkt->msg_type == RANGING_RESPONSE))
			{
			uint16_t responder_id = READ_SHORT(&ranging_recv_pkt->msg.response_msg[MSG_RESPONSE_RESPONDER_ID_IDX]);
			uint8_t responder_idx = ranging_env.slot_idx - 1;

			if (uwb_app_config.ranging_flow_mode == (uint8_t)RANGING_FLOW_CONTENTION)
			{
			ranging_responder_addr_set(responder_idx, responder_id);
			ranging_env.rx_response_time[responder_idx] = ranging_rx_time(ind);
			ranging_env.responder_response_flag \|= (1 << responder_idx);
			}
			else
			{
			if (ranging_env.responder_list[responder_idx] == responder_id)
			{
			// board_led_on(BOARD_LED_1);
			// fast - 74us
			// regular - 144us
			ranging_env.rx_response_time[responder_idx] = ranging_rx_time(ind);
			ranging_env.responder_response_flag \|= (1 << responder_idx);
			// board_led_off(BOARD_LED_1);
			}
			else
			{
			ranging_env.rx_response_time[responder_idx] = 0;
			}
			}
			#if RANGING_FOM_FILTER_EN
			// update response taps
			ranging_env.frame[responder_idx].fap_valid =
			first_path_align(ranging_env.frame[responder_idx].gaps, &ranging_env.frame[responder_idx].gaps_num, debug_csi.rframe[0].cir,
			debug_csi.rframe[0].first_tap, PWR_TH, TAP_MARGIN);
			#endif
			}
			}

			if (ranging_env.slot_idx < ranging_env.responder_num)
			{
			target_time += (ranging_env.slot_idx + 1) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESPONSE;
			}
			else
			{
			if (ranging_env.responder_response_flag)
			{
			target_time += (ranging_env.slot_idx + 1) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_FINAL;
			}
			else
			{
			target_time += ranging_env.ranging_period;
			uwb_app_config.ranging_stage = RANGING_POLL;
			}
			}
			sts_lsp_store_stop();
			}
			break;

			case RANGING_FINAL:
			{
			#if RANGING_RESULT_REPORT_EN
			target_time += (ranging_env.slot_idx + 1) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESULT;
			#else
			target_time += ranging_env.ranging_period;
			uwb_app_config.ranging_stage = RANGING_POLL;
			#endif
			// process tx-final packet
			uwb_pkt_tx_done_ind(ind, stage);
			}
			break;
			#if RANGING_RESULT_REPORT_EN
			case RANGING_RESULT:
			{
			// process rx-result packet
			status = uwb_pkt_rx_done_ind(ind, stage);
			if (status == UWB_RX_OK)
			{
			uint8_t responder_idx = ranging_env.slot_idx - ranging_env.responder_num - 2;
			if ((ranging_recv_pkt->session_id == ranging_user_pkt.session_id) && (ranging_recv_pkt->msg_type == RANGING_RESULT))
			{
			ranging_env.initiator_result_flag \|= (1 << responder_idx);
			}
			}

			if (ranging_env.slot_idx < (ranging_env.responder_num * 2 + 1))
			{
			target_time += (ranging_env.slot_idx + 1) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESULT;
			}
			else
			{
			target_time += ranging_env.ranging_period;
			uwb_app_config.ranging_stage = RANGING_POLL;
			}
			}
			break;
			#endif
			default:
			break;
			}
			}
			else
			{
			switch (stage)
			{
			case RANGING_IDLE:
			break;
			case RANGING_SYNC:
			{
			// process rx-poll packet
			status = uwb_pkt_rx_done_ind(ind, RANGING_POLL);

			if (status == UWB_RX_OK)
			{
			if (ranging_poll_pkt_process(ind->pkt_data, ind->pkt_len))
			{
			ranging_user_pkt.seq_num = ranging_recv_pkt->seq_num;
			// update anchor point
			ranging_env.anchor_point = ind->timestamp - phy_shr_duration();
			ranging_env.rx_poll_time = ranging_rx_time(ind);
			ranging_env.lost_cnt = 0;

			target_time = ranging_env.anchor_point + (1 + ranging_env.responder_slot_idx) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESPONSE;
			ranging_env.synced = 1;

			#if DYNAMIC_UPDATE_MAIN_ANTENNA_EN
			if (uwb_app_config.session_param.aoa_result_req)
			{
			// update main antenna
			sts_rx_main_ant_get(&ranging_env.main_ant_id);
			}
			#endif
			}
			}

			if (uwb_app_config.session_param.aoa_result_req)
			{
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_NEVER_SWITCH, 0, 0);
			}
			sts_lsp_store_stop();
			}
			break;

			case RANGING_POLL:
			{
			// process rx-poll packet
			status = uwb_pkt_rx_done_ind(ind, stage);

			if ((status == UWB_RX_OK) && ranging_poll_pkt_process(ind->pkt_data, ind->pkt_len))
			{
			ranging_user_pkt.seq_num = ranging_recv_pkt->seq_num;
			// update anchor point
			ranging_env.anchor_point = ind->timestamp - phy_shr_duration();
			ranging_env.rx_poll_time = ranging_rx_time(ind);
			ranging_env.lost_cnt = 0;

			target_time = ranging_env.anchor_point + (1 + ranging_env.responder_slot_idx) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESPONSE;

			#if DYNAMIC_UPDATE_MAIN_ANTENNA_EN
			if (uwb_app_config.session_param.aoa_result_req)
			{
			// update main antenna
			sts_rx_main_ant_get(&ranging_env.main_ant_id);
			}
			#endif
			}
			else
			{
			target_time += ranging_env.ranging_period;
			ranging_env.lost_cnt++;
			}

			if (ranging_env.lost_cnt > 3)
			{
			// receive sync again
			uwb_app_config.ranging_stage = RANGING_SYNC;
			}

			if (uwb_app_config.session_param.aoa_result_req)
			{
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_NEVER_SWITCH, 0, 0);
			}
			sts_lsp_store_stop();
			}
			break;

			case RANGING_RESPONSE:
			{
			// Store tx timestamp
			ranging_env.tx_response_time = ranging_tx_time(ind->timestamp);

			if (ind->err_code == UWB_TX_OK)
			{
			target_time += ranging_env.slot_interval * (1 + ranging_env.responder_num);
			uwb_app_config.ranging_stage = RANGING_FINAL;
			}
			else
			{
			target_time += ranging_env.ranging_period;
			#if ASYNC_MODE_EN
			uwb_app_config.ranging_stage = RANGING_SYNC;
			#else
			uwb_app_config.ranging_stage = RANGING_POLL;
			#endif
			}

			// process tx-response packet
			uwb_pkt_tx_done_ind(ind, stage);
			}
			break;

			case RANGING_FINAL:
			{
			// process rx-final packet
			status = uwb_pkt_rx_done_ind(ind, stage);

			if ((status == UWB_RX_OK) && (ranging_recv_pkt->session_id == ranging_user_pkt.session_id) && (ranging_recv_pkt->msg_type == RANGING_FINAL))
			{
			ranging_env.rx_final_time = ranging_rx_time(ind);
			ranging_env.lost_cnt = 0;
			ranging_env.responder_final_flag = 0x1;

			#if DYNAMIC_UPDATE_MAIN_ANTENNA_EN
			if (uwb_app_config.session_param.aoa_result_req)
			{
			// update main antenna
			sts_rx_main_ant_get(&ranging_env.main_ant_id);
			}
			#endif
			}
			else
			{
			ranging_env.lost_cnt++;
			}
			#if RANGING_RESULT_REPORT_EN
			if (ranging_env.lost_cnt == 0)
			{
			target_time =
			ranging_env.anchor_point + (1 + ranging_env.responder_num + 1 + ranging_env.responder_slot_idx) * ranging_env.slot_interval;
			uwb_app_config.ranging_stage = RANGING_RESULT;
			}
			else
			#endif
			{
			target_time += ranging_env.ranging_period;

			#if ASYNC_MODE_EN
			uwb_app_config.ranging_stage = RANGING_SYNC;
			#else
			uwb_app_config.ranging_stage = RANGING_POLL;
			#endif
			}

			if (uwb_app_config.session_param.aoa_result_req)
			{
			phy_rx_sts_switch_mode_set(uwb_app_config.ppdu_params.sts_pkt_cfg, STS_NEVER_SWITCH, 0, 0);
			}
			sts_lsp_store_stop();
			}
			break;

			#if RANGING_RESULT_REPORT_EN
			case RANGING_RESULT:
			{
			target_time += ranging_env.ranging_period;

			#if ASYNC_MODE_EN
			uwb_app_config.ranging_stage = RANGING_SYNC;
			#else
			uwb_app_config.ranging_stage = RANGING_POLL;
			#endif
			// process tx-result packet
			uwb_pkt_tx_done_ind(ind, stage);
			}
			break;
			#endif

			default:
			break;
			}
			}

			stage = uwb_app_config.ranging_stage;
			if (RANGING_POLL == stage)
			{
			power_mode_request(POWER_UNIT_APP, POWER_MODE_POWER_DOWN);
			phy_timer_target_set(
			target_time - UWB_PERIOD_PREFETCH_TIME - LPM_PPM_COMPENSATION(LOW_POWER_CLOCK_PPM, uwb_app_config.session_param.ranging_interval),
			ranging_timer_callback);
			}
			else if (RANGING_SYNC == stage)
			{
			sts_lsp_store();
			// receive sync again
			power_on_radio(0, 1);
			mac_rx(EVT_MODE_MAC_PHY_ASAP, 0, ranging_env.ranging_period);
			mac_start();
			ranging_env.synced = 0;
			}
			else
			{
			phy_timer_target_set(target_time - UWB_EVT_PREFETCH_TIME, ranging_timer_callback);
			}
			}
			else
			{
			power_mode_clear(POWER_UNIT_APP);
			LOG_INFO(TRACE_MODULE_APP, "Ranging stop\r\n");
			}
			// board_led_off(BOARD_LED_2);

			return stage;
			}
			#if defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
			#pragma clang diagnostic pop
			#endif

			static void uwb_pkt_tx_done_ind(const struct MAC_HW_REPORT_T *tx, enum RANGING_STAGE_T stage)
			{
			struct UWB_PKT_TX_DONE_IND_T *ind;
			if ((ind = WsfMsgAlloc(sizeof(struct UWB_PKT_TX_DONE_IND_T) + tx->pkt_len)) != NULL)
			{
			ind->hdr.event = UWB_PKT_TX_DONE_MSG;
			ind->ranging_stage = (uint8_t)stage;
			ind->status = tx->err_code;

			ind->tx_len = tx->pkt_len;

			if ((ind->tx_len) && (tx->pkt_data != NULL))
			{
			memcpy(ind->tx_data, tx->pkt_data, tx->pkt_len);
			}

			// Send the message
			WsfMsgSend(ranging_cb.handle_id, ind);
			}
			else
			{
			LOG_WARNING(TRACE_MODULE_UWB, "memory is not enough for UWB_PKT_TX_DONE_IND_T\r\n");
			}
			}

			#if defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
			#pragma clang diagnostic push
			#pragma clang diagnostic ignored "-Wcast-qual"
			#endif
			static uint16_t uwb_pkt_rx_done_ind(const struct MAC_HW_REPORT_T *rx, enum RANGING_STAGE_T stage)
			{
			// send an indication to application
			struct UWB_PKT_RX_DONE_IND_T *ind = WsfMsgAlloc(sizeof(struct UWB_PKT_RX_DONE_IND_T) + rx->pkt_len);

			if (ind != NULL)
			{
			ind->hdr.event = UWB_PKT_RX_DONE_MSG;
			ind->ranging_stage = (uint8_t)stage;
			ind->status = rx->err_code;
			ind->rssi = rx->rssi;
			ind->snr = rx->snr;

			if (rx->err_code == UWB_RX_OK)
			{
			uint8_t sts_pkt_cfg = (rx->phy_header >> 28) & 0x3;
			if ((sts_pkt_cfg != SP0) && (sts_valid_check() == 0))
			{
			ind->status \|= UWB_STS_ERR;
			}

			if ((rx->pkt_len) && (rx->pkt_data != NULL))
			{
			memcpy(ind->rx_data, rx->pkt_data, rx->pkt_len);
			}
			ind->rx_len = rx->pkt_len;
			}

			#if RANGING_FOM_FILTER_EN
			if (ranging_debug_csi_en_get())
			{
			uint8_t frame_idx = (ind->ranging_stage == RANGING_FINAL ? 1 : 0);
			debug_csi.frame_idx = frame_idx;
			debug_csi.rframe_idx = frame_idx;

			uint32_t val = REG_READ(0x40003050);
			debug_csi.frame[frame_idx].rf_gain = (val & 0x07);
			debug_csi.frame[frame_idx].bb_gain = ((val >> 3) & 0x1f);
			debug_csi.frame[frame_idx].bd_cnt = phy_bd_cnt_get();
			debug_csi.frame[frame_idx].sfd_cnt = phy_sfd_cnt_get();
			debug_csi.frame[frame_idx].error_code = ind->status;
			if (rx->err_code != 0x0830)
			{
			debug_csi.frame[frame_idx].rssi = ind->rssi;
			debug_csi.frame[frame_idx].snr = ind->snr;

			dump_preamble_cir(frame_idx, 128);
			dump_sts_cir(frame_idx);
			}
			}
			#endif

			// Send the message
			WsfMsgSend(ranging_cb.handle_id, ind);
			return ind->status;
			}
			else
			{
			LOG_WARNING(TRACE_MODULE_UWB, "memory is not enough for UWB_PKT_RX_DONE_IND_T %d\r\n", rx->pkt_len);
			return 0xFFFF;
			}
			}
			#if defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
			#pragma clang diagnostic pop
			#endif

			static void ranging_tx_process(struct MAC_HW_REPORT_T *tx_report)
			{
			ranging_fsm(tx_report);
			}

			static void ranging_rx_process(struct MAC_HW_REPORT_T *rx_report)
			{
			ranging_fsm(rx_report);
			}