amiro-lld / drivers / DW1000 / v1 / deca_instance.h @ 1304b12b
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1 | 69a601a5 | Cung Sang | /*! ----------------------------------------------------------------------------
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2 | * @file instance.h
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3 | * @brief DecaWave header for application level instance
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4 | *
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5 | * @attention
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6 | *
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7 | * Copyright 2015 (c) DecaWave Ltd, Dublin, Ireland.
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8 | *
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9 | * All rights reserved.
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10 | *
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11 | * @author DecaWave
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12 | */
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13 | 9466e34d | Thomas Schöpping | #ifndef DECAINSTANCE_H
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14 | #define DECAINSTANCE_H
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15 | 69a601a5 | Cung Sang | |
16 | #ifdef __cplusplus
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17 | extern "C" { |
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18 | #endif
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19 | |||
20 | #include <amiro-lld.h> |
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21 | #include <alld_DW1000.h> |
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22 | |||
23 | /******************************************************************************************************************
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24 | ********************* NOTES on DW (MP) features/options ***********************************************************
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25 | *******************************************************************************************************************/
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26 | #define DEEP_SLEEP (0) //To enable deep-sleep set this to 1 |
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27 | //DEEP_SLEEP mode can be used, for example, by a Tag instance to put the DW1000 into low-power deep-sleep mode:
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28 | // when the Anchor is sending the range report back to the Tag, the Tag will enter sleep after a ranging exchange is finished
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29 | // once it receives a report or times out, before the next poll message is sent (before next ranging exchange is started).
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30 | |||
31 | #define CORRECT_RANGE_BIAS (1) // Compensate for small bias due to uneven accumulator growth at close up high power |
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32 | |||
33 | |||
34 | #define ANCTOANCTWR (1) //if set to 1 then anchor to anchor TWR will be done in the last slot |
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35 | |||
36 | #define DISCOVERY (0) //set to 1 to enable tag discovery - tags starts by sending blinks (with own ID) and then |
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37 | //anchor assigns a slot to it and gives it short address
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38 | /******************************************************************************************************************
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39 | *******************************************************************************************************************
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40 | *******************************************************************************************************************/
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41 | |||
42 | #define NUM_INST 1 |
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43 | #define SPEED_OF_LIGHT (299702547.0) // in m/s in air |
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44 | #define MASK_40BIT (0x00FFFFFFFFFF) // DW1000 counter is 40 bits |
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45 | #define MASK_TXDTS (0x00FFFFFFFE00) //The TX timestamp will snap to 8 ns resolution - mask lower 9 bits. |
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46 | |||
47 | //! callback events
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48 | #define DWT_SIG_RX_NOERR 0 |
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49 | #define DWT_SIG_TX_DONE 1 // Frame has been sent |
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50 | #define DWT_SIG_RX_OKAY 2 // Frame Received with Good CRC |
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51 | #define DWT_SIG_RX_ERROR 3 // Frame Received but CRC is wrong |
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52 | #define DWT_SIG_RX_TIMEOUT 4 // Timeout on receive has elapsed |
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53 | #define DWT_SIG_TX_AA_DONE 6 // ACK frame has been sent (as a result of auto-ACK) |
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54 | #define DWT_SIG_RX_BLINK 7 // Received ISO EUI 64 blink message |
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55 | #define DWT_SIG_RX_PHR_ERROR 8 // Error found in PHY Header |
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56 | #define DWT_SIG_RX_SYNCLOSS 9 // Un-recoverable error in Reed Solomon Decoder |
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57 | #define DWT_SIG_RX_SFDTIMEOUT 10 // Saw preamble but got no SFD within configured time |
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58 | #define DWT_SIG_RX_PTOTIMEOUT 11 // Got preamble detection timeout (no preamble detected) |
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59 | |||
60 | #define DWT_SIG_TX_PENDING 12 // TX is pending |
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61 | #define DWT_SIG_TX_ERROR 13 // TX failed |
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62 | #define DWT_SIG_RX_PENDING 14 // RX has been re-enabled |
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63 | #define DWT_SIG_DW_IDLE 15 // DW radio is in IDLE (no TX or RX pending) |
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64 | |||
65 | #define SIG_RX_UNKNOWN 99 // Received an unknown frame |
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66 | |||
67 | //DecaRTLS frame function codes
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68 | #define RTLS_DEMO_MSG_TAG_POLL (0x81) // Tag poll message |
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69 | #define RTLS_DEMO_MSG_ANCH_RESP (0x70) // Anchor response to poll |
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70 | #define RTLS_DEMO_MSG_ANCH_POLL (0x71) // Anchor to anchor poll message |
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71 | #define RTLS_DEMO_MSG_ANCH_RESP2 (0x72) // Anchor response to poll from anchor |
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72 | #define RTLS_DEMO_MSG_ANCH_FINAL (0x73) // Anchor final massage back to Anchor |
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73 | #define RTLS_DEMO_MSG_TAG_FINAL (0x82) // Tag final massage back to Anchor |
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74 | |||
75 | |||
76 | //lengths including the Decaranging Message Function Code byte
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77 | #define TAG_POLL_MSG_LEN 2 // FunctionCode(1), Range Num (1) |
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78 | #define ANCH_RESPONSE_MSG_LEN 8 // FunctionCode(1), Sleep Correction Time (2), Measured_TOF_Time(4), Range Num (1) (previous) |
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79 | #define TAG_FINAL_MSG_LEN 33 // FunctionCode(1), Range Num (1), Poll_TxTime(5), |
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80 | // Resp0_RxTime(5), Resp1_RxTime(5), Resp2_RxTime(5), Resp3_RxTime(5), Final_TxTime(5), Valid Response Mask (1)
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81 | |||
82 | #define MAX_MAC_MSG_DATA_LEN (TAG_FINAL_MSG_LEN) //max message len of the above |
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83 | |||
84 | #define STANDARD_FRAME_SIZE 127 |
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85 | //#define STANDARD_FRAME_SIZE 80
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86 | |||
87 | #define ADDR_BYTE_SIZE_L (8) |
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88 | #define ADDR_BYTE_SIZE_S (2) |
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89 | |||
90 | #define FRAME_CONTROL_BYTES 2 |
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91 | #define FRAME_SEQ_NUM_BYTES 1 |
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92 | #define FRAME_PANID 2 |
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93 | #define FRAME_CRC 2 |
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94 | #define FRAME_SOURCE_ADDRESS_S (ADDR_BYTE_SIZE_S)
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95 | #define FRAME_DEST_ADDRESS_S (ADDR_BYTE_SIZE_S)
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96 | #define FRAME_SOURCE_ADDRESS_L (ADDR_BYTE_SIZE_L)
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97 | #define FRAME_DEST_ADDRESS_L (ADDR_BYTE_SIZE_L)
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98 | #define FRAME_CTRLP (FRAME_CONTROL_BYTES + FRAME_SEQ_NUM_BYTES + FRAME_PANID) //5 |
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99 | #define FRAME_CRTL_AND_ADDRESS_L (FRAME_DEST_ADDRESS_L + FRAME_SOURCE_ADDRESS_L + FRAME_CTRLP) //21 bytes for 64-bit addresses) |
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100 | #define FRAME_CRTL_AND_ADDRESS_S (FRAME_DEST_ADDRESS_S + FRAME_SOURCE_ADDRESS_S + FRAME_CTRLP) //9 bytes for 16-bit addresses) |
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101 | #define FRAME_CRTL_AND_ADDRESS_LS (FRAME_DEST_ADDRESS_L + FRAME_SOURCE_ADDRESS_S + FRAME_CTRLP) //15 bytes for 1 16-bit address and 1 64-bit address) |
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102 | #define MAX_USER_PAYLOAD_STRING_LL (STANDARD_FRAME_SIZE-FRAME_CRTL_AND_ADDRESS_L-TAG_FINAL_MSG_LEN-FRAME_CRC) //127 - 21 - 16 - 2 = 88 |
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103 | #define MAX_USER_PAYLOAD_STRING_SS (STANDARD_FRAME_SIZE-FRAME_CRTL_AND_ADDRESS_S-TAG_FINAL_MSG_LEN-FRAME_CRC) //127 - 9 - 16 - 2 = 100 |
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104 | #define MAX_USER_PAYLOAD_STRING_LS (STANDARD_FRAME_SIZE-FRAME_CRTL_AND_ADDRESS_LS-TAG_FINAL_MSG_LEN-FRAME_CRC) //127 - 15 - 16 - 2 = 94 |
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105 | |||
106 | //NOTE: the user payload assumes that there are only 88 "free" bytes to be used for the user message (it does not scale according to the addressing modes)
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107 | #define MAX_USER_PAYLOAD_STRING MAX_USER_PAYLOAD_STRING_LL
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108 | |||
109 | #define MAX_TAG_LIST_SIZE (8) |
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110 | #define MAX_ANCHOR_LIST_SIZE (4) //this is limited to 4 in this application |
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111 | #define NUM_EXPECTED_RESPONSES (3) //e.g. MAX_ANCHOR_LIST_SIZE - 1 |
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112 | #define NUM_EXPECTED_RESPONSES_ANC (1) //anchors A0, A1 and A2 are involved in anchor to anchor ranging |
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113 | #define NUM_EXPECTED_RESPONSES_ANC0 (2) //anchor A0 expects response from A1 and A2 |
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114 | |||
115 | #define GATEWAY_ANCHOR_ADDR (0x8000) |
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116 | #define A1_ANCHOR_ADDR (0x8001) |
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117 | #define A2_ANCHOR_ADDR (0x8002) |
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118 | #define A3_ANCHOR_ADDR (0x8003) |
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119 | |||
120 | |||
121 | // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
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122 | // NOTE: the maximum RX timeout is ~ 65ms
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123 | // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
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124 | |||
125 | #define INST_DONE_WAIT_FOR_NEXT_EVENT 1 //this signifies that the current event has been processed and instance is ready for next one |
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126 | #define INST_DONE_WAIT_FOR_NEXT_EVENT_TO 2 //this signifies that the current event has been processed and that instance is waiting for next one with a timeout |
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127 | //which will trigger if no event coming in specified time
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128 | #define INST_NOT_DONE_YET 0 //this signifies that the instance is still processing the current event |
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129 | |||
130 | //application data message byte offsets
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131 | #define FCODE 0 // Function code is 1st byte of messageData |
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132 | #define PTXT 2 // Poll TX time |
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133 | #define RRXT0 7 // A0 Response RX time |
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134 | #define RRXT1 12 // A1 Response RX time |
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135 | #define RRXT2 17 // A2 Response RX time |
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136 | #define RRXT3 22 // A3 Response RX time |
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137 | #define FTXT 27 // Final TX time |
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138 | #define VRESP 32 // Mask of valid response times (e.g. if bit 1 = A0's response time is valid) |
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139 | #define RES_TAG_SLP0 1 // Response tag sleep correction LSB |
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140 | #define RES_TAG_SLP1 2 // Response tag sleep correction MSB |
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141 | #define TOFR 3 // ToF (n-1) 4 bytes |
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142 | #define TOFRN 7 // range number 1 byte |
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143 | #define POLL_RNUM 1 // Poll message range number |
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144 | |||
145 | //this it the delay used for configuring the receiver on delay (wait for response delay)
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146 | //NOTE: this RX_RESPONSE_TURNAROUND is dependent on the microprocessor and code optimisations
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147 | #define RX_RESPONSEX_TURNAROUND (50) //takes about 100 us for response to come back |
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148 | #define RX_RESPONSE1_TURNAROUND (200) //takes about 200 us for the 1st response to come back (from A0) |
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149 | #define RX_RESPONSE1_TURNAROUND_6M81 (300) //takes about 100 us for response to come back |
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150 | #define RX_RESPONSE1_TURNAROUND_110K (300) //takes about 100 us for response to come back |
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151 | |||
152 | //Tag will range to 3 or 4 anchors
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153 | //Each ranging exchange will consist of minimum of 3 messages (Poll, Response, Final)
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154 | //and a maximum of 6 messages (Poll, Response x 4, Final)
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155 | //Thus the ranging exchange will take either 28 ms for 110 kbps and 5 ms for 6.81 Mbps.
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156 | //NOTE: the above times are for 110k rate with 64 symb non-standard SFD and 1024 preamble length
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157 | |||
158 | typedef enum instanceModes{LISTENER, TAG, ANCHOR, ANCHOR_RNG, NUM_MODES} INST_MODE; |
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159 | |||
160 | //Listener = in this mode, the instance only receives frames, does not respond
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161 | //Tag = Exchanges DecaRanging messages (Poll-Response-Final) with Anchor and enabling Anchor to calculate the range between the two instances
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162 | //Anchor = see above
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163 | //Anchor_Rng = the anchor (assumes a tag function) and ranges to another anchor - used in Anchor to Anchor TWR for auto positioning function
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164 | |||
165 | #define TOF_REPORT_NUL 0 |
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166 | #define TOF_REPORT_T2A 1 |
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167 | #define TOF_REPORT_A2A 2 |
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168 | |||
169 | #define INVALID_TOF (0xABCDFFFF) |
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170 | |||
171 | typedef enum inst_states |
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172 | { |
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173 | TA_INIT, //0
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174 | |||
175 | TA_TXE_WAIT, //1 - state in which the instance will enter sleep (if ranging finished) or proceed to transmit a message
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176 | TA_TXPOLL_WAIT_SEND, //2 - configuration and sending of Poll message
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177 | TA_TXFINAL_WAIT_SEND, //3 - configuration and sending of Final message
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178 | TA_TXRESPONSE_WAIT_SEND, //4 - a place holder - response is sent from call back
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179 | TA_TX_WAIT_CONF, //6 - confirmation of TX done message
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180 | |||
181 | TA_RXE_WAIT, //7
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182 | TA_RX_WAIT_DATA, //8
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183 | |||
184 | TA_SLEEP_DONE, //9
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185 | TA_TXRESPONSE_SENT_POLLRX, //10
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186 | TA_TXRESPONSE_SENT_RESPRX, //11
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187 | TA_TXRESPONSE_SENT_TORX //12
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188 | |||
189 | } INST_STATES; |
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190 | |||
191 | |||
192 | // This file defines data and functions for access to Parameters in the Device
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193 | //message structure for Poll, Response and Final message
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194 | |||
195 | typedef struct |
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196 | { |
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197 | uint8_t frameCtrl[2]; // frame control bytes 00-01 |
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198 | uint8_t seqNum; // sequence_number 02
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199 | uint8_t panID[2]; // PAN ID 03-04 |
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200 | uint8_t destAddr[ADDR_BYTE_SIZE_L]; // 05-12 using 64 bit addresses
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201 | uint8_t sourceAddr[ADDR_BYTE_SIZE_L]; // 13-20 using 64 bit addresses
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202 | uint8_t messageData[MAX_USER_PAYLOAD_STRING_LL] ; // 22-124 (application data and any user payload)
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203 | uint8_t fcs[2] ; // 125-126 we allow space for the CRC as it is logically part of the message. However ScenSor TX calculates and adds these bytes. |
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204 | } srd_msg_dlsl ; |
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205 | |||
206 | typedef struct |
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207 | { |
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208 | uint8_t frameCtrl[2]; // frame control bytes 00-01 |
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209 | uint8_t seqNum; // sequence_number 02
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210 | uint8_t panID[2]; // PAN ID 03-04 |
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211 | uint8_t destAddr[ADDR_BYTE_SIZE_S]; // 05-06
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212 | uint8_t sourceAddr[ADDR_BYTE_SIZE_S]; // 07-08
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213 | uint8_t messageData[MAX_USER_PAYLOAD_STRING_SS] ; // 09-124 (application data and any user payload)
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214 | uint8_t fcs[2] ; // 125-126 we allow space for the CRC as it is logically part of the message. However ScenSor TX calculates and adds these bytes. |
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215 | } srd_msg_dsss ; |
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216 | |||
217 | typedef struct |
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218 | { |
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219 | uint8_t frameCtrl[2]; // frame control bytes 00-01 |
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220 | uint8_t seqNum; // sequence_number 02
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221 | uint8_t panID[2]; // PAN ID 03-04 |
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222 | uint8_t destAddr[ADDR_BYTE_SIZE_L]; // 05-12 using 64 bit addresses
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223 | uint8_t sourceAddr[ADDR_BYTE_SIZE_S]; // 13-14
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224 | uint8_t messageData[MAX_USER_PAYLOAD_STRING_LS] ; // 15-124 (application data and any user payload)
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225 | uint8_t fcs[2] ; // 125-126 we allow space for the CRC as it is logically part of the message. However ScenSor TX calculates and adds these bytes. |
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226 | } srd_msg_dlss ; |
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227 | |||
228 | typedef struct |
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229 | { |
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230 | uint8_t frameCtrl[2]; // frame control bytes 00-01 |
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231 | uint8_t seqNum; // sequence_number 02
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232 | uint8_t panID[2]; // PAN ID 03-04 |
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233 | uint8_t destAddr[ADDR_BYTE_SIZE_S]; // 05-06
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234 | uint8_t sourceAddr[ADDR_BYTE_SIZE_L]; // 07-14 using 64 bit addresses
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235 | uint8_t messageData[MAX_USER_PAYLOAD_STRING_LS] ; // 15-124 (application data and any user payload)
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236 | uint8_t fcs[2] ; // 125-126 we allow space for the CRC as it is logically part of the message. However ScenSor TX calculates and adds these bytes. |
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237 | } srd_msg_dssl ; |
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238 | |||
239 | 26dead12 | Cung Sang | typedef struct __attribute__((packed)) |
240 | 69a601a5 | Cung Sang | { |
241 | uint8_t channelNumber ; // valid range is 1 to 11
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242 | uint8_t preambleCode ; // 00 = use NS code, 1 to 24 selects code
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243 | uint8_t pulseRepFreq ; // NOMINAL_4M, NOMINAL_16M, or NOMINAL_64M
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244 | uint8_t dataRate ; // DATA_RATE_1 (110K), DATA_RATE_2 (850K), DATA_RATE_3 (6M81)
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245 | uint8_t preambleLen ; // values expected are 64, (128), (256), (512), 1024, (2048), and 4096
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246 | uint8_t pacSize ; |
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247 | uint8_t nsSFD ; |
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248 | uint16_t sfdTO; //!< SFD timeout value (in symbols) e.g. preamble length (128) + SFD(8) - PAC + some margin ~ 135us... DWT_SFDTOC_DEF; //default value
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249 | } instanceConfig_t ; |
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250 | |||
251 | typedef struct |
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252 | { |
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253 | uint16_t slotPeriod ; //slot period (time for 1 tag to range to 4 anchors)
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254 | uint16_t numSlots ; // number of slots in one superframe (number of tags supported)
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255 | uint16_t sfPeriod ; // superframe period in ms
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256 | |||
257 | uint16_t pollSleepDly ; // the minimum SLEEP time should be FRAME PERIOD so that tags don't interfere
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258 | uint16_t replyDly ; //response delay time (Tag or Anchor when sending Final/Response messages respectively)
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259 | } sfConfig_t ; |
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260 | |||
261 | /******************************************************************************************************************
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262 | *******************************************************************************************************************
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263 | *******************************************************************************************************************/
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264 | |||
265 | //size of the event queue, in this application there should be at most 2 unprocessed events,
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266 | //i.e. if there is a transmission with wait for response then the TX callback followed by RX callback could be executed
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267 | //in turn and the event queued up before the instance processed the TX event.
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268 | #define MAX_EVENT_NUMBER (6) |
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269 | |||
270 | 26dead12 | Cung Sang | typedef struct __attribute__((packed)) |
271 | 69a601a5 | Cung Sang | { |
272 | uint8_t type; // event type - if 0 there is no event in the queue
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273 | uint8_t type_save; // holds the event type - does not clear (used to show what event has been processed)
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274 | uint8_t type_pend; // set if there is a pending event
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275 | uint16_t rxLength ; // length of RX data (does not apply to TX events)
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276 | |||
277 | uint64_t timeStamp ; // last timestamp (Tx or Rx) - 40 bit DW1000 time
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278 | |||
279 | uint32_t timeStamp32l ; // last tx/rx timestamp - low 32 bits of the 40 bit DW1000 time
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280 | uint32_t timeStamp32h ; // last tx/rx timestamp - high 32 bits of the 40 bit DW1000 time
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281 | |||
282 | uint32_t uTimeStamp ; //32 bit system counter (ms) - STM32 tick time (at time of IRQ)
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283 | |||
284 | union {
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285 | //holds received frame (after a good RX frame event)
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286 | uint8_t frame[STANDARD_FRAME_SIZE]; |
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287 | srd_msg_dlsl rxmsg_ll ; //64 bit addresses
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288 | srd_msg_dssl rxmsg_sl ; |
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289 | srd_msg_dlss rxmsg_ls ; |
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290 | srd_msg_dsss rxmsg_ss ; //16 bit addresses
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291 | }msgu; |
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292 | |||
293 | //uint32_t eventtime ;
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294 | //uint32_t eventtimeclr ;
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295 | uint8_t gotit; //stores the instance function which processed the event (used for debug)
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296 | }event_data_t ; |
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297 | |||
298 | 26dead12 | Cung Sang | extern event_data_t dw_event_g;
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299 | 69a601a5 | Cung Sang | |
300 | // TX power and PG delay configuration structure
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301 | 26dead12 | Cung Sang | typedef struct __attribute__((packed)) { |
302 | 69a601a5 | Cung Sang | uint8_t PGdelay; |
303 | |||
304 | //TX POWER
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305 | //31:24 BOOST_0.125ms_PWR
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306 | //23:16 BOOST_0.25ms_PWR-TX_SHR_PWR
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307 | //15:8 BOOST_0.5ms_PWR-TX_PHR_PWR
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308 | //7:0 DEFAULT_PWR-TX_DATA_PWR
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309 | uint32_t txPwr[2]; // |
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310 | }tx_struct; |
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311 | |||
312 | 26dead12 | Cung Sang | typedef struct __attribute__((packed)) |
313 | 69a601a5 | Cung Sang | { |
314 | INST_MODE mode; //instance mode (tag or anchor)
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315 | |||
316 | INST_STATES testAppState ; //state machine - current state
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317 | INST_STATES nextState ; //state machine - next state
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318 | INST_STATES previousState ; //state machine - previous state
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319 | int done ; //done with the current event/wait for next event to arrive |
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320 | |||
321 | //configuration structures
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322 | dwt_config_t configData ; //DW1000 channel configuration
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323 | dwt_txconfig_t configTX ; //DW1000 TX power configuration
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324 | uint16_t txAntennaDelay ; //DW1000 TX antenna delay
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325 | uint16_t rxAntennaDelay ; //DW1000 RX antenna delay
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326 | uint32_t txPower ; //DW1000 TX power
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327 | uint8_t txPowerChanged ; //power has been changed - update the register on next TWR exchange
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328 | uint8_t antennaDelayChanged; //antenna delay has been changed - update the register on next TWR exchange
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329 | |||
330 | uint16_t instanceAddress16; //contains tag/anchor address
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331 | |||
332 | //timeouts and delays
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333 | int32_t tagSleepTime_ms; //in milliseconds - defines the nominal Tag sleep time period
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334 | int32_t tagSleepRnd; //add an extra slot duration to sleep time to avoid collision before getting synced by anchor 0
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335 | |||
336 | //this is the delay used for the delayed transmit
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337 | uint64_t pollTx2FinalTxDelay ; //this is delay from Poll Tx time to Final Tx time in DW1000 units (40-bit)
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338 | uint64_t pollTx2FinalTxDelayAnc ; //this is delay from Poll Tx time to Final Tx time in DW1000 units (40-bit) for Anchor to Anchor ranging
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339 | uint64_t fixedReplyDelayAnc ; |
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340 | uint32_t fixedReplyDelayAncP ; |
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341 | int ancRespRxDelay ;
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342 | |||
343 | int fwtoTime_sy ; //this is final message duration (longest out of ranging messages) |
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344 | int fwtoTimeAnc_sy ;
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345 | uint32_t delayedReplyTime; // delayed reply time of ranging-init/response/final message
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346 | |||
347 | uint32_t rxTimeouts ; |
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348 | |||
349 | //message structure used for holding the data of the frame to transmit before it is written to the DW1000
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350 | srd_msg_dsss msg_f ; // ranging message frame with 16-bit addresses
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351 | |||
352 | //Tag function address/message configuration
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353 | uint8_t shortAdd_idx ; // device's 16-bit address low byte (used as index into arrays [0 - 3])
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354 | uint8_t eui64[8]; // device's EUI 64-bit address |
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355 | uint16_t psduLength ; // used for storing the TX frame length
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356 | uint8_t frameSN; // modulo 256 frame sequence number - it is incremented for each new frame transmission
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357 | uint16_t panID ; // panid used in the frames
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358 | |||
359 | //64 bit timestamps
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360 | //union of TX timestamps
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361 | union {
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362 | uint64_t txTimeStamp ; // last tx timestamp
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363 | uint64_t tagPollTxTime ; // tag's poll tx timestamp
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364 | uint64_t anchorRespTxTime ; // anchor's reponse tx timestamp
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365 | }txu; |
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366 | uint64_t tagPollRxTime ; // receive time of poll message
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367 | |||
368 | |||
369 | //application control parameters
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370 | uint8_t wait4ack ; // if this is set to DWT_RESPONSE_EXPECTED, then the receiver will turn on automatically after TX completion
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371 | |||
372 | int8_t responseTO ; |
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373 | uint8_t instToSleep; // if set the instance will go to sleep before sending the blink/poll message
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374 | uint8_t stopTimer; // stop/disable an active timer
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375 | uint8_t instanceTimerEn; // enable/start a timer
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376 | uint32_t instanceWakeTime; //
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377 | uint32_t nextSleepPeriod; |
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378 | |||
379 | uint8_t gotTO; // got timeout event
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380 | |||
381 | uint8_t rxResponseMaskAnc; |
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382 | uint8_t rxResponseMask; // bit mask - bit 0 = received response from anchor ID = 0, bit 1 from anchor ID = 1 etc...
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383 | uint8_t rxResponseMaskReport; |
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384 | uint8_t rangeNum; // incremented for each sequence of ranges (each slot)
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385 | uint8_t rangeNumA[MAX_TAG_LIST_SIZE]; // array which holds last range number from each tag
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386 | uint8_t rangeNumAnc; // incremented for each sequence of ranges (each slot) - anchor to anchor ranging
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387 | uint8_t rangeNumAAnc[MAX_ANCHOR_LIST_SIZE]; //array which holds last range number for each anchor
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388 | uint16_t sframePeriod; |
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389 | uint16_t slotPeriod; |
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390 | uint16_t numSlots; |
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391 | uint32_t a0SlotTime; |
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392 | uint32_t a1SlotTime; |
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393 | int32_t tagSleepCorrection; |
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394 | int32_t tagSleepCorrection2; |
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395 | |||
396 | //diagnostic counters/data, results and logging
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397 | uint32_t tof[MAX_TAG_LIST_SIZE]; //this is an array which holds last ToF from particular tag (ID 0-7)
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398 | |||
399 | //this is an array which holds last ToF to each anchor it should
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400 | uint32_t tofArray[MAX_ANCHOR_LIST_SIZE]; //contain 4 ToF to 4 anchors all relating to same range number sequence
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401 | |||
402 | uint32_t tofAnc[MAX_ANCHOR_LIST_SIZE]; //this is an array which holds last ToFs from particular anchors (0, 0-1, 0-2, 1-2)
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403 | |||
404 | //this is an array which holds last ToFs of the Anchor to Anchor ranging
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405 | uint32_t tofArrayAnc[MAX_ANCHOR_LIST_SIZE]; //it contains 3 ToFs relating to same range number sequence (0, 0-1, 0-2, 1-2)
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406 | |||
407 | int txMsgCount; //number of transmitted messages |
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408 | int rxMsgCount; //number of received messages |
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409 | int lateTX; //number of "LATE" TX events |
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410 | int lateRX; //number of "LATE" RX events |
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411 | |||
412 | int longTermRangeCount ; //total number of ranges |
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413 | |||
414 | int newRange; //flag set when there is a new range to report TOF_REPORT_A2A or TOF_REPORT_T2A |
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415 | int newRangeAncAddress; //last 4 bytes of anchor address - used for printing/range output display |
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416 | int newRangeTagAddress; //last 4 bytes of tag address - used for printing/range output display |
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417 | 26dead12 | Cung Sang | uint32_t newRangeTime; |
418 | 69a601a5 | Cung Sang | |
419 | uint8_t gatewayAnchor ; //set to TRUE = 1 if anchor address == GATEWAY_ANCHOR_ADDR
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420 | |||
421 | //event queue - used to store DW1000 events as they are processed by the dw_isr/callback functions
|
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422 | event_data_t dwevent[MAX_EVENT_NUMBER]; //this holds any TX/RX events and associated message data
|
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423 | event_data_t saved_dwevent; //holds an RX event while the ACK is being sent
|
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424 | uint8_t dweventIdxOut; |
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425 | uint8_t dweventIdxIn; |
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426 | uint8_t dweventPeek; |
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427 | uint8_t monitor; |
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428 | uint32_t timeofTx ; |
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429 | |||
430 | uint8_t rxRespsIdx; //index into the array below (current tag (4bits)/seq number(4bits))
|
||
431 | int8_t rxResps[256];
|
||
432 | |||
433 | int dwIDLE; //set to 1 when the RST goes high after wake up (it is set in process_dwRSTn_irq) |
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434 | |||
435 | } instance_data_t ; |
||
436 | |||
437 | //-------------------------------------------------------------------------------------------------------------
|
||
438 | //
|
||
439 | // Functions used in logging/displaying range and status data
|
||
440 | //
|
||
441 | //-------------------------------------------------------------------------------------------------------------
|
||
442 | |||
443 | // function to calculate and report the Time of Flight to the GUI/display
|
||
444 | int reportTOF(int idx, uint32_t tofx); |
||
445 | void clearDistTable(int idx); |
||
446 | void setTagDist(int tidx, int aidx); |
||
447 | double getTagDist(int idx); |
||
448 | |||
449 | // clear the status/ranging data
|
||
450 | void instanceclearcounts(void) ; |
||
451 | |||
452 | //-------------------------------------------------------------------------------------------------------------
|
||
453 | //
|
||
454 | // Functions used in driving/controlling the ranging application
|
||
455 | //
|
||
456 | //-------------------------------------------------------------------------------------------------------------
|
||
457 | |||
458 | void instance_close(void); |
||
459 | // Call init, then call config, then call run. call close when finished
|
||
460 | // initialise the instance (application) structures and DW1000 device
|
||
461 | 26dead12 | Cung Sang | int instance_init(DW1000Driver* drv);
|
462 | 33f54213 | Cung Sang | |
463 | 69a601a5 | Cung Sang | // configure the instance and DW1000 device
|
464 | 4172c48d | Cung Sang | void instance_config(instanceConfig_t *config, sfConfig_t *sfconfig, DW1000Driver* drv) ;
|
465 | 69a601a5 | Cung Sang | |
466 | // configure the MAC address
|
||
467 | void instancesetaddresses(uint16_t address) ;
|
||
468 | |||
469 | void inst_processrxtimeout(instance_data_t *inst);
|
||
470 | |||
471 | // called (periodically or from and interrupt) to process any outstanding TX/RX events and to drive the ranging application
|
||
472 | int instance_run(void) ; // returns indication of status report change |
||
473 | int testapprun(instance_data_t *inst, int message); |
||
474 | |||
475 | // calls the DW1000 interrupt handler
|
||
476 | #define instance_process_irq(x) dwt_isr() //call device interrupt handler |
||
477 | // configure TX/RX callback functions that are called from DW1000 ISR
|
||
478 | void instance_rxcallback(const dwt_cb_data_t *rxd); |
||
479 | void instance_txcallback(const dwt_cb_data_t *txd); |
||
480 | void instance_rxtimeoutcallback(const dwt_cb_data_t *rxd); |
||
481 | void instance_rxerrorcallback(const dwt_cb_data_t *rxd); |
||
482 | |||
483 | |||
484 | |||
485 | // sets the Tag sleep delay time (the time Tag "sleeps" between each ranging attempt)
|
||
486 | void instancesettagsleepdelay(int rangingsleep); |
||
487 | void instancesetreplydelay(int delayms); |
||
488 | |||
489 | // set/get the instance roles e.g. Tag/Anchor/Listener
|
||
490 | void instancesetrole(int mode) ; // |
||
491 | int instancegetrole(void) ; |
||
492 | // get the DW1000 device ID (e.g. 0xDECA0130 for DW1000)
|
||
493 | uint32_t instancereaddeviceid(void) ; // Return Device ID reg, enables validation of physical device presence |
||
494 | |||
495 | double instancegetidist(int idx); |
||
496 | double instancegetidistraw(int idx); |
||
497 | int instancegetidist_mm(int idx); |
||
498 | int instancegetidistraw_mm(int idx); |
||
499 | uint8_t instancevalidranges(void);
|
||
500 | void instancecleardisttableall(void); |
||
501 | |||
502 | void instance_backtoanchor(instance_data_t *inst);
|
||
503 | int instancesenddlypacket(instance_data_t *inst, int delayedTx); |
||
504 | |||
505 | int instancegetrnum(void); |
||
506 | int instancegetrnuma(int idx); |
||
507 | int instancegetrnumanc(int idx); |
||
508 | int instancegetlcount(void); |
||
509 | |||
510 | int instancenewrangeancadd(void); |
||
511 | int instancenewrangetagadd(void); |
||
512 | int instancenewrangepolltim(void); |
||
513 | int instancenewrange(void); |
||
514 | 26dead12 | Cung Sang | uint32_t instancenewrangetim(void);
|
515 | 69a601a5 | Cung Sang | |
516 | uint64_t convertmicrosectodevicetimeu (double microsecu);
|
||
517 | double convertdevicetimetosec(int32_t dt);
|
||
518 | |||
519 | |||
520 | 33f54213 | Cung Sang | // -------------------------------------------------------------------------------------------------------------------
|
521 | // Deca Calibration Values
|
||
522 | // -------------------------------------------------------------------------------------------------------------------
|
||
523 | |||
524 | #define DWT_PRF_64M_RFDLY (514.462f) |
||
525 | #define DWT_PRF_16M_RFDLY (513.9067f) |
||
526 | |||
527 | /* Extern declaration while defining them in .c file */
|
||
528 | 69a601a5 | Cung Sang | extern const uint16_t rfDelays[2]; |
529 | extern const uint16_t rfDelaysTREK[2]; |
||
530 | extern const tx_struct txSpectrumConfig[8]; |
||
531 | extern instance_data_t instance_data[NUM_INST] ;
|
||
532 | |||
533 | 33f54213 | Cung Sang | extern sfConfig_t sfConfig[4]; |
534 | extern instanceConfig_t chConfig[4]; |
||
535 | |||
536 | 69a601a5 | Cung Sang | |
537 | int instance_peekevent(void); |
||
538 | |||
539 | void instance_saveevent(event_data_t newevent, uint8_t etype);
|
||
540 | |||
541 | event_data_t instance_getsavedevent(void);
|
||
542 | |||
543 | void instance_putevent(event_data_t newevent, uint8_t etype);
|
||
544 | |||
545 | event_data_t* instance_getevent(int x);
|
||
546 | |||
547 | void instance_clearevents(void); |
||
548 | |||
549 | void instance_notify_DW1000_inIDLE(int idle); |
||
550 | |||
551 | double dwt_getrangebias(uint8_t chan, float range, uint8_t prf); |
||
552 | |||
553 | uint32_t dwt_getotptxpower(uint8_t prf, uint8_t chan); |
||
554 | |||
555 | uint16_t dwt_getTREKOTPantennadelay(uint8_t anchor, uint8_t chan, uint8_t datarate); |
||
556 | |||
557 | uint16_t dwt_readantennadelay(uint8_t prf); |
||
558 | |||
559 | // configure TX power
|
||
560 | void instanceconfigtxpower(uint32_t txpower);
|
||
561 | void instancesettxpower(void); |
||
562 | |||
563 | // configure the antenna delays
|
||
564 | void instanceconfigantennadelays(uint16_t tx, uint16_t rx);
|
||
565 | void instancesetantennadelays(void); |
||
566 | uint16_t instancetxantdly(void);
|
||
567 | uint16_t instancerxantdly(void);
|
||
568 | |||
569 | int instance_starttxtest(int framePeriod); |
||
570 | |||
571 | #ifdef __cplusplus
|
||
572 | } |
||
573 | #endif
|
||
574 | |||
575 | 9466e34d | Thomas Schöpping | #endif /* DECAINSTANCE_H */ |
576 |