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locodeck.c
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locodeck.c
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/**
* || ____ _ __
* +------+ / __ )(_) /_______________ _____ ___
* | 0xBC | / __ / / __/ ___/ ___/ __ `/_ / / _ \
* +------+ / /_/ / / /_/ /__/ / / /_/ / / /_/ __/
* || || /_____/_/\__/\___/_/ \__,_/ /___/\___/
*
* Crazyflie control firmware
*
* Copyright (C) 2016 Bitcraze AB
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*
* locodeck.c: Dwm1000 deck driver.
*/
#define DEBUG_MODULE "DWM"
#include <stdint.h>
#include <string.h>
#include "stm32fxxx.h"
#include "FreeRTOS.h"
#include "semphr.h"
#include "task.h"
#include "queue.h"
#include "deck.h"
#include "system.h"
#include "debug.h"
#include "log.h"
#include "param.h"
#include "nvicconf.h"
#include "estimator.h"
#include "locodeck.h"
#include "lpsTdoa2Tag.h"
#include "lpsTdoa3Tag.h"
#include "lpsTwrTag.h"
#define CS_PIN DECK_GPIO_IO1
// LOCO deck alternative IRQ and RESET pins(IO_2, IO_3) instead of default (RX1, TX1), leaving UART1 free for use
#ifdef LOCODECK_USE_ALT_PINS
#define GPIO_PIN_IRQ GPIO_Pin_5
#define GPIO_PIN_RESET GPIO_Pin_4
#define GPIO_PORT GPIOB
#define EXTI_PortSource EXTI_PortSourceGPIOB
#define EXTI_PinSource EXTI_PinSource5
#define EXTI_LineN EXTI_Line5
#define EXTI_IRQChannel EXTI9_5_IRQn
#else
#define GPIO_PIN_IRQ GPIO_Pin_11
#define GPIO_PIN_RESET GPIO_Pin_10
#define GPIO_PORT GPIOC
#define EXTI_PortSource EXTI_PortSourceGPIOC
#define EXTI_PinSource EXTI_PinSource11
#define EXTI_LineN EXTI_Line11
#define EXTI_IRQChannel EXTI15_10_IRQn
#endif
#define DEFAULT_RX_TIMEOUT 10000
#define ANTENNA_OFFSET 154.6 // In meter
// The anchor position can be set using parameters
// As an option you can set a static position in this file and set
// combinedAnchorPositionOk to enable sending the anchor rangings to the Kalman filter
static lpsAlgoOptions_t algoOptions = {
// .userRequestedMode is the wanted algorithm, available as a parameter
#if LPS_TDOA_ENABLE
.userRequestedMode = lpsMode_TDoA2,
#elif LPS_TDOA3_ENABLE
.userRequestedMode = lpsMode_TDoA3,
#elif defined(LPS_TWR_ENABLE)
.userRequestedMode = lpsMode_TWR,
#else
.userRequestedMode = lpsMode_auto,
#endif
// .currentRangingMode is the currently running algorithm, available as a log
// lpsMode_auto is an impossible mode which forces initialization of the requested mode
// at startup
.currentRangingMode = lpsMode_auto,
.modeAutoSearchActive = true,
.modeAutoSearchDoInitialize = true,
};
struct {
uwbAlgorithm_t *algorithm;
char *name;
} algorithmsList[LPS_NUMBER_OF_ALGORITHMS + 1] = {
[lpsMode_TWR] = {.algorithm = &uwbTwrTagAlgorithm, .name="TWR"},
[lpsMode_TDoA2] = {.algorithm = &uwbTdoa2TagAlgorithm, .name="TDoA2"},
[lpsMode_TDoA3] = {.algorithm = &uwbTdoa3TagAlgorithm, .name="TDoA3"},
};
#if LPS_TDOA_ENABLE
static uwbAlgorithm_t *algorithm = &uwbTdoa2TagAlgorithm;
#elif LPS_TDOA3_ENABLE
static uwbAlgorithm_t *algorithm = &uwbTdoa3TagAlgorithm;
#else
static uwbAlgorithm_t *algorithm = &uwbTwrTagAlgorithm;
#endif
static bool isInit = false;
static SemaphoreHandle_t irqSemaphore;
static SemaphoreHandle_t algoSemaphore;
static dwDevice_t dwm_device;
static dwDevice_t *dwm = &dwm_device;
static QueueHandle_t lppShortQueue;
static uint32_t timeout;
static void txCallback(dwDevice_t *dev)
{
timeout = algorithm->onEvent(dev, eventPacketSent);
}
static void rxCallback(dwDevice_t *dev)
{
timeout = algorithm->onEvent(dev, eventPacketReceived);
}
static void rxTimeoutCallback(dwDevice_t * dev) {
timeout = algorithm->onEvent(dev, eventReceiveTimeout);
}
// This function is called from the memory sub system that runs in a different
// task, protect it from concurrent calls from this task
// TODO krri Break the dependency, do not call directly from other modules into the deck driver
bool locoDeckGetAnchorPosition(const uint8_t anchorId, point_t* position)
{
if (!isInit) {
return false;
}
xSemaphoreTake(algoSemaphore, portMAX_DELAY);
bool result = algorithm->getAnchorPosition(anchorId, position);
xSemaphoreGive(algoSemaphore);
return result;
}
// This function is called from the memory sub system that runs in a different
// task, protect it from concurrent calls from this task
// TODO krri Break the dependency, do not call directly from other modules into the deck driver
uint8_t locoDeckGetAnchorIdList(uint8_t unorderedAnchorList[], const int maxListSize) {
if (!isInit) {
return 0;
}
xSemaphoreTake(algoSemaphore, portMAX_DELAY);
uint8_t result = algorithm->getAnchorIdList(unorderedAnchorList, maxListSize);
xSemaphoreGive(algoSemaphore);
return result;
}
// This function is called from the memory sub system that runs in a different
// task, protect it from concurrent calls from this task
// TODO krri Break the dependency, do not call directly from other modules into the deck driver
uint8_t locoDeckGetActiveAnchorIdList(uint8_t unorderedAnchorList[], const int maxListSize) {
if (!isInit) {
return 0;
}
xSemaphoreTake(algoSemaphore, portMAX_DELAY);
uint8_t result = algorithm->getActiveAnchorIdList(unorderedAnchorList, maxListSize);
xSemaphoreGive(algoSemaphore);
return result;
}
static bool switchToMode(const lpsMode_t newMode) {
bool result = false;
if (lpsMode_auto != newMode && newMode <= LPS_NUMBER_OF_ALGORITHMS) {
algoOptions.currentRangingMode = newMode;
algorithm = algorithmsList[algoOptions.currentRangingMode].algorithm;
algorithm->init(dwm);
timeout = algorithm->onEvent(dwm, eventTimeout);
result = true;
}
return result;
}
static void autoModeSearchTryMode(const lpsMode_t newMode, const uint32_t now) {
// Set up next time to check
algoOptions.nextSwitchTick = now + LPS_AUTO_MODE_SWITCH_PERIOD;
switchToMode(newMode);
}
static lpsMode_t autoModeSearchGetNextMode() {
lpsMode_t newMode = algoOptions.currentRangingMode + 1;
if (newMode > LPS_NUMBER_OF_ALGORITHMS) {
newMode = lpsMode_TWR;
}
return newMode;
}
static void processAutoModeSwitching() {
uint32_t now = xTaskGetTickCount();
if (algoOptions.modeAutoSearchActive) {
if (algoOptions.modeAutoSearchDoInitialize) {
autoModeSearchTryMode(lpsMode_TDoA2, now);
algoOptions.modeAutoSearchDoInitialize = false;
} else {
if (now > algoOptions.nextSwitchTick) {
if (algorithm->isRangingOk()) {
// We have found an algorithm, stop searching and lock to it.
algoOptions.modeAutoSearchActive = false;
DEBUG_PRINT("Automatic mode: detected %s\n", algorithmsList[algoOptions.currentRangingMode].name);
} else {
lpsMode_t newMode = autoModeSearchGetNextMode();
autoModeSearchTryMode(newMode, now);
}
}
}
}
}
static void resetAutoSearchMode() {
algoOptions.modeAutoSearchActive = true;
algoOptions.modeAutoSearchDoInitialize = true;
}
static void handleModeSwitch() {
if (algoOptions.userRequestedMode == lpsMode_auto) {
processAutoModeSwitching();
} else {
resetAutoSearchMode();
if (algoOptions.userRequestedMode != algoOptions.currentRangingMode) {
if (switchToMode(algoOptions.userRequestedMode)) {
DEBUG_PRINT("Switching to mode %s\n", algorithmsList[algoOptions.currentRangingMode].name);
}
}
}
}
static void uwbTask(void* parameters) {
lppShortQueue = xQueueCreate(10, sizeof(lpsLppShortPacket_t));
algoOptions.currentRangingMode = lpsMode_auto;
systemWaitStart();
while(1) {
xSemaphoreTake(algoSemaphore, portMAX_DELAY);
handleModeSwitch();
xSemaphoreGive(algoSemaphore);
if (xSemaphoreTake(irqSemaphore, timeout / portTICK_PERIOD_MS)) {
do{
xSemaphoreTake(algoSemaphore, portMAX_DELAY);
dwHandleInterrupt(dwm);
xSemaphoreGive(algoSemaphore);
} while(digitalRead(GPIO_PIN_IRQ) != 0);
} else {
xSemaphoreTake(algoSemaphore, portMAX_DELAY);
timeout = algorithm->onEvent(dwm, eventTimeout);
xSemaphoreGive(algoSemaphore);
}
}
}
static lpsLppShortPacket_t lppShortPacket;
bool lpsSendLppShort(uint8_t destId, void* data, size_t length)
{
bool result = false;
if (isInit)
{
lppShortPacket.dest = destId;
lppShortPacket.length = length;
memcpy(lppShortPacket.data, data, length);
result = xQueueSend(lppShortQueue, &lppShortPacket,0) == pdPASS;
}
return result;
}
bool lpsGetLppShort(lpsLppShortPacket_t* shortPacket)
{
return xQueueReceive(lppShortQueue, shortPacket, 0) == pdPASS;
}
static uint8_t spiTxBuffer[196];
static uint8_t spiRxBuffer[196];
static uint16_t spiSpeed = SPI_BAUDRATE_2MHZ;
/************ Low level ops for libdw **********/
static void spiWrite(dwDevice_t* dev, const void *header, size_t headerLength,
const void* data, size_t dataLength)
{
spiBeginTransaction(spiSpeed);
digitalWrite(CS_PIN, LOW);
memcpy(spiTxBuffer, header, headerLength);
memcpy(spiTxBuffer+headerLength, data, dataLength);
spiExchange(headerLength+dataLength, spiTxBuffer, spiRxBuffer);
digitalWrite(CS_PIN, HIGH);
spiEndTransaction();
}
static void spiRead(dwDevice_t* dev, const void *header, size_t headerLength,
void* data, size_t dataLength)
{
spiBeginTransaction(spiSpeed);
digitalWrite(CS_PIN, LOW);
memcpy(spiTxBuffer, header, headerLength);
memset(spiTxBuffer+headerLength, 0, dataLength);
spiExchange(headerLength+dataLength, spiTxBuffer, spiRxBuffer);
memcpy(data, spiRxBuffer+headerLength, dataLength);
digitalWrite(CS_PIN, HIGH);
spiEndTransaction();
}
#if LOCODECK_USE_ALT_PINS
void __attribute__((used)) EXTI5_Callback(void)
#else
void __attribute__((used)) EXTI11_Callback(void)
#endif
{
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;
NVIC_ClearPendingIRQ(EXTI_IRQChannel);
EXTI_ClearITPendingBit(EXTI_LineN);
//To unlock RadioTask
xSemaphoreGiveFromISR(irqSemaphore, &xHigherPriorityTaskWoken);
if(xHigherPriorityTaskWoken)
portYIELD();
}
static void spiSetSpeed(dwDevice_t* dev, dwSpiSpeed_t speed)
{
if (speed == dwSpiSpeedLow)
{
spiSpeed = SPI_BAUDRATE_2MHZ;
}
else if (speed == dwSpiSpeedHigh)
{
spiSpeed = SPI_BAUDRATE_21MHZ;
}
}
static void delayms(dwDevice_t* dev, unsigned int delay)
{
vTaskDelay(M2T(delay));
}
static dwOps_t dwOps = {
.spiRead = spiRead,
.spiWrite = spiWrite,
.spiSetSpeed = spiSetSpeed,
.delayms = delayms,
};
/*********** Deck driver initialization ***************/
static void dwm1000Init(DeckInfo *info)
{
EXTI_InitTypeDef EXTI_InitStructure;
GPIO_InitTypeDef GPIO_InitStructure;
NVIC_InitTypeDef NVIC_InitStructure;
spiBegin();
// Init IRQ input
bzero(&GPIO_InitStructure, sizeof(GPIO_InitStructure));
GPIO_InitStructure.GPIO_Pin = GPIO_PIN_IRQ;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN;
//GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_DOWN;
GPIO_Init(GPIO_PORT, &GPIO_InitStructure);
SYSCFG_EXTILineConfig(EXTI_PortSource, EXTI_PinSource);
EXTI_InitStructure.EXTI_Line = EXTI_LineN;
EXTI_InitStructure.EXTI_Mode = EXTI_Mode_Interrupt;
EXTI_InitStructure.EXTI_Trigger = EXTI_Trigger_Rising;
EXTI_InitStructure.EXTI_LineCmd = ENABLE;
EXTI_Init(&EXTI_InitStructure);
// Init reset output
GPIO_InitStructure.GPIO_Pin = GPIO_PIN_RESET;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
GPIO_InitStructure.GPIO_OType = GPIO_OType_OD;
GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL;
GPIO_Init(GPIO_PORT, &GPIO_InitStructure);
// Init CS pin
pinMode(CS_PIN, OUTPUT);
// Reset the DW1000 chip
GPIO_WriteBit(GPIO_PORT, GPIO_PIN_RESET, 0);
vTaskDelay(M2T(10));
GPIO_WriteBit(GPIO_PORT, GPIO_PIN_RESET, 1);
vTaskDelay(M2T(10));
// Initialize the driver
dwInit(dwm, &dwOps); // Init libdw
int result = dwConfigure(dwm);
if (result != 0) {
isInit = false;
DEBUG_PRINT("Failed to configure DW1000!\r\n");
return;
}
dwEnableAllLeds(dwm);
dwTime_t delay = {.full = 0};
dwSetAntenaDelay(dwm, delay);
dwAttachSentHandler(dwm, txCallback);
dwAttachReceivedHandler(dwm, rxCallback);
dwAttachReceiveTimeoutHandler(dwm, rxTimeoutCallback);
dwNewConfiguration(dwm);
dwSetDefaults(dwm);
#ifdef LPS_LONGER_RANGE
dwEnableMode(dwm, MODE_SHORTDATA_MID_ACCURACY);
#else
dwEnableMode(dwm, MODE_SHORTDATA_FAST_ACCURACY);
#endif
dwSetChannel(dwm, CHANNEL_2);
dwUseSmartPower(dwm, true);
dwSetPreambleCode(dwm, PREAMBLE_CODE_64MHZ_9);
dwSetReceiveWaitTimeout(dwm, DEFAULT_RX_TIMEOUT);
dwCommitConfiguration(dwm);
// Enable interrupt
NVIC_InitStructure.NVIC_IRQChannel = EXTI_IRQChannel;
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = NVIC_VERY_HIGH_PRI;
NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
NVIC_Init(&NVIC_InitStructure);
vSemaphoreCreateBinary(irqSemaphore);
vSemaphoreCreateBinary(algoSemaphore);
xTaskCreate(uwbTask, "lps", 3*configMINIMAL_STACK_SIZE, NULL,
5/*priority*/, NULL);
isInit = true;
}
uint16_t locoDeckGetRangingState() {
return algoOptions.rangingState;
}
void locoDeckSetRangingState(const uint16_t newState) {
algoOptions.rangingState = newState;
}
static bool dwm1000Test()
{
if (!isInit) {
DEBUG_PRINT("Error while initializing DWM1000\n");
}
return isInit;
}
static const DeckDriver dwm1000_deck = {
.vid = 0xBC,
.pid = 0x06,
.name = "bcDWM1000",
.usedGpio = 0, // FIXME: set the used pins
.requiredEstimator = kalmanEstimator,
#ifdef LOCODECK_NO_LOW_INTERFERENCE
.requiredLowInterferenceRadioMode = false,
#else
.requiredLowInterferenceRadioMode = true,
#endif
.init = dwm1000Init,
.test = dwm1000Test,
};
DECK_DRIVER(dwm1000_deck);
PARAM_GROUP_START(deck)
PARAM_ADD(PARAM_UINT8 | PARAM_RONLY, bcDWM1000, &isInit)
PARAM_GROUP_STOP(deck)
LOG_GROUP_START(ranging)
LOG_ADD(LOG_UINT16, state, &algoOptions.rangingState)
LOG_GROUP_STOP(ranging)
LOG_GROUP_START(loco)
LOG_ADD(LOG_UINT8, mode, &algoOptions.currentRangingMode)
LOG_GROUP_STOP(loco)
PARAM_GROUP_START(loco)
PARAM_ADD(PARAM_UINT8, mode, &algoOptions.userRequestedMode)
PARAM_GROUP_STOP(loco)