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amiro-os / test / periphery-lld / DW1000_v1 / aos_test_DW1000.c @ 3cee92c7

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1 e05848a6 Robin Ewers
/*
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AMiRo-OS is an operating system designed for the Autonomous Mini Robot (AMiRo) platform.
3 84f0ce9e Thomas Schöpping
Copyright (C) 2016..2019  Thomas Schöpping et al.
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program.  If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <amiroos.h>
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#include <aos_test_DW1000.h>
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#if (AMIROOS_CFG_TESTS_ENABLE == true) || defined(__DOXYGEN__)
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#include <aos_debug.h>
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#include <chprintf.h>
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#include <aos_thread.h>
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#include <math.h>
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#include <module.h>
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#include <alld_DW1000.h>
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#include <deca_instance.h>
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/******************************************************************************/
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/* LOCAL DEFINITIONS                                                          */
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/******************************************************************************/
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#define TEST_SNIPPETS_DW1000   // switch between test and demo apps
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#define SWS1_SHF_MODE 0x02  //short frame mode (6.81M)
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#define SWS1_CH5_MODE 0x04  //channel 5 mode
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#define SWS1_ANC_MODE 0x08  //anchor mode
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#define SWS1_A1A_MODE 0x10  //anchor/tag address A1
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#define SWS1_A2A_MODE 0x20  //anchor/tag address A2
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#define SWS1_A3A_MODE 0x40  //anchor/tag address A3
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#define S1_SWITCH_ON  (1)
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#define S1_SWITCH_OFF (0)
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/******************************************************************************/
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/* EXPORTED VARIABLES                                                         */
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/******************************************************************************/
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/******************************************************************************/
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/* LOCAL TYPES                                                                */
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/******************************************************************************/
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/******************************************************************************/
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/* LOCAL VARIABLES                                                            */
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/******************************************************************************/
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uint8_t s1switch = 0;
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int instance_anchaddr = 0;
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int dr_mode = 0;
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int chan, tagaddr, ancaddr;
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int instance_mode = ANCHOR;
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/******************************************************************************/
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/* LOCAL FUNCTIONS                                                            */
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/******************************************************************************/
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/*! @brief Configure instance tag/anchor/etc... addresses */
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void addressconfigure(uint8_t s1switch, uint8_t mode){
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  uint16_t instAddress ;
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  instance_anchaddr = (((s1switch & SWS1_A1A_MODE) << 2) + (s1switch & SWS1_A2A_MODE) + ((s1switch & SWS1_A3A_MODE) >> 2)) >> 4;
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  if(mode == ANCHOR) {
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    if(instance_anchaddr > 3) {
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      instAddress = GATEWAY_ANCHOR_ADDR | 0x4 ; //listener
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    }
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    else {
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      instAddress = GATEWAY_ANCHOR_ADDR | (uint16_t)instance_anchaddr;
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    }
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  }
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  else{
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    instAddress = (uint16_t)instance_anchaddr;
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  }
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  instancesetaddresses(instAddress);
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}
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/*! @brief returns the use case / operational mode */
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int decarangingmode(uint8_t s1switch){
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  int mode = 0;
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  if(s1switch & SWS1_SHF_MODE)  {
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    mode = 1;
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  }
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  if(s1switch & SWS1_CH5_MODE) {
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    mode = mode + 2;
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  }
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  return mode;
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}
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/*! @brief Check connection setting and initialize DW1000 module */
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int32_t inittestapplication(uint8_t s1switch, DW1000Driver* drv){
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  uint32_t devID ;
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  int result;
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  setHighSpeed_SPI(FALSE, drv);          //low speed spi max. ~4M
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  devID = instancereaddeviceid() ;
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  if(DWT_DEVICE_ID != devID) {
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    clear_SPI_chip_select();
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    Sleep(1);
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    set_SPI_chip_select();
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    Sleep(7);
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    devID = instancereaddeviceid() ;
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    if(DWT_DEVICE_ID != devID){
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      return(-1) ;
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    }    
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    dwt_softreset();
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  }
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    reset_DW1000();  //reset the DW1000 by driving the RSTn line low
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  if((s1switch & SWS1_ANC_MODE) == 0){
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    instance_mode = TAG;
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  }
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  else{
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    instance_mode = ANCHOR;
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  }
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  result = instance_init(drv) ;
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  if (0 > result){
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    return(-1) ;
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  }
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  setHighSpeed_SPI(TRUE, drv);       // high speed spi max. ~ 20M
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  devID = instancereaddeviceid() ;
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  if (DWT_DEVICE_ID != devID){
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    return(-1) ;
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  }
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  addressconfigure(s1switch, (uint8_t)instance_mode) ;
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  if((instance_mode == ANCHOR) && (instance_anchaddr > 0x3)){
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    instance_mode = LISTENER;
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  }
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  instancesetrole(instance_mode) ;       // Set this instance role
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  dr_mode = decarangingmode(s1switch);
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  chan = chConfig[dr_mode].channelNumber ;
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  instance_config(&chConfig[dr_mode], &sfConfig[dr_mode], drv) ;
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  return (int32_t)devID;
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}
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/*! @brief Main Entry point to Initialization of UWB DW1000 configuration  */
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#pragma GCC optimize ("O3")
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int UWB_Init(DW1000Driver* drv){
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  /*! Software defined Configurartion for TAG, ANC, and other settings as needed */
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  s1switch = S1_SWITCH_OFF << 1  // (on = 6.8 Mbps, off = 110 kbps)
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           | S1_SWITCH_OFF << 2  // (on = CH5, off = CH2)
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           | S1_SWITCH_OFF << 3  // (on = Anchor, off = TAG)
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           | S1_SWITCH_OFF << 4  // (configure Tag or anchor ID no.)
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           | S1_SWITCH_OFF << 5  // (configure Tag or anchor ID no.)
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           | S1_SWITCH_OFF << 6  // (configure Tag or anchor ID no.)
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           | S1_SWITCH_OFF << 7; // Not use in this demo
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  port_DisableEXT_IRQ();           //disable ScenSor IRQ until we configure the device
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  if(inittestapplication(s1switch, drv) == -1) {
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    return (-1); //error
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  }
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  aosThdMSleep(5);
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  port_EnableEXT_IRQ();  //enable DW1000 IRQ before starting
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  return 0;
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}
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/******************************************************************************/
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/* EXPORTED FUNCTIONS                                                         */
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/******************************************************************************/
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aos_testresult_t aosTestDw1000Func(BaseSequentialStream* stream, const aos_test_t* test) {
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  aosDbgCheck(test->data != NULL &&
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      ((aos_test_dw1000data_t*)test->data)->driver != NULL &&
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      ((aos_test_dw1000data_t*)test->data)->evtsource != NULL);
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  aos_testresult_t result = {0, 0};  
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#if (BOARD_MIC9404x_CONNECTED == true)
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  // Enable 3.3V and 1.8V supply voltages for powering up the DW1000 module in AMiRo Light Ring
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  if ((test->data != NULL) && (((aos_test_dw1000data_t*)(test->data))->mic9404xd != NULL)){
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//      && (((aos_test_dw1000data_t*)(test->data))->driver == NULL)){
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    mic9404x_lld_state_t state;
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    uint32_t status = APAL_STATUS_OK;
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    chprintf(stream, "reading current status of the Power..\n");
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    status = mic9404x_lld_get(((aos_test_dw1000data_t*)(test->data))->mic9404xd, &state);
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    if (status == APAL_STATUS_OK) {
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      aosTestPassedMsg(stream, &result, "power %s\n", (state == MIC9404x_LLD_STATE_ON) ? "enabled" : "disabled");
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    } else {
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      aosTestFailed(stream, &result);
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    }
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    if (state == MIC9404x_LLD_STATE_OFF) {
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      chprintf(stream, "enabling the power ...\n");
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      status = mic9404x_lld_set(((aos_test_dw1000data_t*)(test->data))->mic9404xd, MIC9404x_LLD_STATE_ON);
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      status |= mic9404x_lld_get(((aos_test_dw1000data_t*)(test->data))->mic9404xd, &state);
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      if (state == MIC9404x_LLD_STATE_ON) {
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        aosThdSSleep(2);
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        status |= mic9404x_lld_get(((aos_test_dw1000data_t*)(test->data))->mic9404xd, &state);
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      }
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      if ((status == APAL_STATUS_OK) && (state == MIC9404x_LLD_STATE_ON)) {
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        aosTestPassed(stream, &result);
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      } else {
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        aosTestFailed(stream, &result);
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      }
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    }
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    aosThdSleep(1);
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    return result;
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  }
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#endif  /* BOARD_MIC9404x_CONNECTED == true */
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  chprintf(stream, "init DW1000...\n");
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  dwt_initialise(DWT_LOADUCODE, ((aos_test_dw1000data_t*)test->data)->driver);
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  aosThdMSleep(5);
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/*! Test snippets for DW1000.
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 * @Note: Event IRQ for DW1000 should be tested separately
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 */
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#if defined(TEST_SNIPPETS_DW1000)
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  uint32_t actual_deviceId;
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  port_DisableEXT_IRQ();
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  setHighSpeed_SPI(false, ((aos_test_dw1000data_t*)test->data)->driver);
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  chprintf(stream, "expected device ID (LS SPI): 0xDECA0130\n");
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  aosThdMSleep(5);
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  actual_deviceId = instancereaddeviceid();
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  chprintf(stream, "actual read ID: 0x%x\n", actual_deviceId);
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  aosThdMSleep(5);
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  //if the read of device ID fails, the DW1000 could be asleep
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  if(DWT_DEVICE_ID != actual_deviceId){
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    clear_SPI_chip_select();
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    aosThdMSleep(1);
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    set_SPI_chip_select();
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    aosThdMSleep(7);
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    actual_deviceId = instancereaddeviceid() ;
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    if(DWT_DEVICE_ID != actual_deviceId){
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      chprintf(stream, "SPI is not working or Unsupported Device ID\n");
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      chprintf(stream, "actual device ID is: 0x%x\n", actual_deviceId);
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      chprintf(stream, "expected device ID: 0xDECA0130\n");
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      aosThdMSleep(5);
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    }
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    //clear the sleep bit - so that after the hard reset below the DW does not go into sleep
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    dwt_softreset();
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  }
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  /*! Test1: Low speed SPI result */
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  if (actual_deviceId == DWT_DEVICE_ID){
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    aosTestPassed(stream, &result);
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  } else {
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    aosTestFailed(stream, &result);
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  }
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  reset_DW1000();
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  chprintf(stream, "initialise instance for DW1000\n");
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  aosThdSleep(1);
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  int x_init = instance_init(((aos_test_dw1000data_t*)test->data)->driver) ;
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  if (0 != x_init){
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    chprintf(stream, "init error with return value: %d\n", x_init);
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    aosThdSleep(1);
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  }
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  else {
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    chprintf(stream, "init success with return value: %d\n", x_init);
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    aosThdSleep(1);
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  }
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  /*! Test2: Initialization  result*/
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  if (x_init == 0){
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    aosTestPassed(stream, &result);
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  } else {
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    aosTestFailed(stream, &result);
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  }
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  setHighSpeed_SPI(true, ((aos_test_dw1000data_t*)test->data)->driver);
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  chprintf(stream, "expected device ID (HS SPI): 0xDECA0130\n");
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  actual_deviceId = instancereaddeviceid();
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  chprintf(stream, "actual read ID: 0x%x\n", actual_deviceId);
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  aosThdMSleep(1);
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  /*! Test3: High speed SPI result*/
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  if (actual_deviceId == DWT_DEVICE_ID){
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    aosTestPassed(stream, &result);
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  } else {
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    aosTestFailed(stream, &result);
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  }
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  port_EnableEXT_IRQ();
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  reset_DW1000();
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  chprintf(stream, "initialise the configuration for UWB application\n");
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  aosThdSleep(1);
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  int uwb_init = UWB_Init(((aos_test_dw1000data_t*)test->data)->driver);
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  if (0 != uwb_init){
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    chprintf(stream, "UWB config error with return value: %d\n", uwb_init);
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    aosThdSleep(1);
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  }
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  else {
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    chprintf(stream, "UWB config success with return value: %d\n", uwb_init);
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    aosThdSleep(1);
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  }
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  /*! Test4: UWB configuration result
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   * If all the four tests are passed, the module is ready to run.
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   * Note that the interrupt IRQn should be tested separately.
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   */
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  if (uwb_init == 0){
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    aosTestPassed(stream, &result);
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  } else {
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    aosTestFailed(stream, &result);
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  }
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  /************** End of TEST_SNIPPETS_DW1000*****************/
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#else /* defined(TEST_SNIPPETS_DW1000) */
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  /*! RUN THE STATE MACHINE DEMO APP (RTLS) */
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  chprintf(stream, "initialise the State Machine\n");
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  aosThdSleep(2);
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  /* Initialize UWB system with user defined configuration  */
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  int uwb_init = UWB_Init(((aos_test_dw1000data_t*)test->data)->driver);
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  if (0 != uwb_init){
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    chprintf(stream, "error in UWB config with return value: %d\n", uwb_init);
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  }
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  else {
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    chprintf(stream, "succeed the init of UWB config\n");
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  }
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  aosThdSleep(1);
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  chprintf(stream, "running the RTLS demo application ...\n");
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  aosThdSleep(1);
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  /*! Run the localization system demo app as a thread */
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  while(1){
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    instance_run();
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//    aosThdUSleep(100);
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  }
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#endif  /* defined(TEST_SNIPPETS_DW1000) */
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  return result;
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}
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#endif /* (AMIROOS_CFG_TESTS_ENABLE == true) */