/** * Copyright (c) 2014 - 2020, Nordic Semiconductor ASA * * 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 a Nordic * Semiconductor ASA 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 Nordic Semiconductor ASA 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 * Nordic Semiconductor ASA 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 NORDIC SEMICONDUCTOR ASA "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 NORDIC SEMICONDUCTOR ASA 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. * */ #ifndef BOARDS_H #define BOARDS_H #include "nrf_gpio.h" #include "nordic_common.h" #if defined(BOARD_NRF6310) #include "nrf6310.h" #elif defined(BOARD_PCA10000) #include "pca10000.h" #elif defined(BOARD_PCA10001) #include "pca10001.h" #elif defined(BOARD_PCA10002) #include "pca10000.h" #elif defined(BOARD_PCA10003) #include "pca10003.h" #elif defined(BOARD_PCA20006) #include "pca20006.h" #elif defined(BOARD_PCA10028) #include "pca10028.h" #elif defined(BOARD_PCA10031) #include "pca10031.h" #elif defined(BOARD_PCA10036) #include "pca10036.h" #elif defined(BOARD_PCA10040) #include "pca10040.h" #elif defined(BOARD_PCA10056) #include "pca10056.h" #elif defined(BOARD_PCA10100) #include "pca10100.h" #elif defined(BOARD_PCA10112) #include "pca10112.h" #elif defined(BOARD_PCA20020) #include "pca20020.h" #elif defined(BOARD_PCA10059) #include "pca10059.h" #elif defined(BOARD_WT51822) #include "wt51822.h" #elif defined(BOARD_N5DK1) #include "n5_starterkit.h" #elif defined (BOARD_D52DK1) #include "d52_starterkit.h" #elif defined (BOARD_ARDUINO_PRIMO) #include "arduino_primo.h" #elif defined (CUSTOM_BOARD_INC) #include STRINGIFY(CUSTOM_BOARD_INC.h) #elif defined(BOARD_CUSTOM) #include "custom_board.h" #else #error "Board is not defined" #endif #if defined (SHIELD_BSP_INC) #include STRINGIFY(SHIELD_BSP_INC.h) #endif #ifdef __cplusplus extern "C" { #endif /**@defgroup BSP_BOARD_INIT_FLAGS Board initialization flags. * @{ */ #define BSP_INIT_NONE 0 /**< No initialization of LEDs or buttons (@ref bsp_board_init).*/ #define BSP_INIT_LEDS (1 << 0) /**< Enable LEDs during initialization (@ref bsp_board_init).*/ #define BSP_INIT_BUTTONS (1 << 1) /**< Enable buttons during initialization (@ref bsp_board_init).*/ /**@} */ /** * Function for returning the state of an LED. * * @param led_idx LED index (starting from 0), as defined in the board-specific header. * * @return True if the LED is turned on. */ bool bsp_board_led_state_get(uint32_t led_idx); /** * Function for turning on an LED. * * @param led_idx LED index (starting from 0), as defined in the board-specific header. */ void bsp_board_led_on(uint32_t led_idx); /** * Function for turning off an LED. * * @param led_idx LED index (starting from 0), as defined in the board-specific header. */ void bsp_board_led_off(uint32_t led_idx); /** * Function for inverting the state of an LED. * * @param led_idx LED index (starting from 0), as defined in the board-specific header. */ void bsp_board_led_invert(uint32_t led_idx); /** * Function for turning off all LEDs. */ void bsp_board_leds_off(void); /** * Function for turning on all LEDs. */ void bsp_board_leds_on(void); /** * Function for initializing the BSP handling for the board. * * @note This also initializes the USB DFU trigger library if @ref BOARDS_WITH_USB_DFU_TRIGGER is 1. * * @param[in] init_flags Flags specifying what to initialize (LEDs/buttons). * See @ref BSP_BOARD_INIT_FLAGS. */ void bsp_board_init(uint32_t init_flags); /** * Function for converting pin number to LED index. * * @param pin_number Pin number. * * @return LED index of the given pin or 0xFFFFFFFF if invalid pin provided. */ uint32_t bsp_board_pin_to_led_idx(uint32_t pin_number); /** * Function for converting LED index to pin number. * * @param led_idx LED index. * * @return Pin number. */ uint32_t bsp_board_led_idx_to_pin(uint32_t led_idx); /** * Function for returning the state of a button. * * @param button_idx Button index (starting from 0), as defined in the board-specific header. * * @return True if the button is pressed. */ bool bsp_board_button_state_get(uint32_t button_idx); /** * Function for converting pin number to button index. * * @param pin_number Pin number. * * @return Button index of the given pin or 0xFFFFFFFF if invalid pin provided. */ uint32_t bsp_board_pin_to_button_idx(uint32_t pin_number); /** * Function for converting button index to pin number. * * @param button_idx Button index. * * @return Pin number. */ uint32_t bsp_board_button_idx_to_pin(uint32_t button_idx); #define BSP_BOARD_LED_0 17 #define BSP_BOARD_LED_1 18 #define BSP_BOARD_LED_2 19 #define BSP_BOARD_LED_3 20 #define BSP_BOARD_LED_4 4 #define BSP_BOARD_LED_5 5 #define BSP_BOARD_LED_6 6 #define BSP_BOARD_LED_7 7 #define PIN_MASK(_pin) /*lint -save -e504 */ \ (1u << (uint32_t)((_pin) & (~P0_PIN_NUM))) \ /*lint -restore */ #define PIN_PORT(_pin) (((_pin) >= P0_PIN_NUM) ? NRF_P1 : NRF_GPIO) #ifdef BSP_LED_0 #define BSP_LED_0_MASK PIN_MASK(BSP_LED_0) #define BSP_LED_0_PORT PIN_PORT(BSP_LED_0) #else #define BSP_LED_0_MASK 0 #define BSP_LED_0_PORT 0 #endif #ifdef BSP_LED_1 #define BSP_LED_1_MASK PIN_MASK(BSP_LED_1) #define BSP_LED_1_PORT PIN_PORT(BSP_LED_1) #else #define BSP_LED_1_MASK 0 #define BSP_LED_1_PORT 0 #endif #ifdef BSP_LED_2 #define BSP_LED_2_MASK PIN_MASK(BSP_LED_2) #define BSP_LED_2_PORT PIN_PORT(BSP_LED_2) #else #define BSP_LED_2_MASK 0 #define BSP_LED_2_PORT 0 #endif #ifdef BSP_LED_3 #define BSP_LED_3_MASK PIN_MASK(BSP_LED_3) #define BSP_LED_3_PORT PIN_PORT(BSP_LED_3) #else #define BSP_LED_3_MASK 0 #define BSP_LED_3_PORT 0 #endif #ifdef BSP_LED_4 #define BSP_LED_4_MASK PIN_MASK(BSP_LED_4) #define BSP_LED_4_PORT PIN_PORT(BSP_LED_4) #else #define BSP_LED_4_MASK 0 #define BSP_LED_4_PORT 0 #endif #ifdef BSP_LED_5 #define BSP_LED_5_MASK PIN_MASK(BSP_LED_5) #define BSP_LED_5_PORT PIN_PORT(BSP_LED_5) #else #define BSP_LED_5_MASK 0 #define BSP_LED_5_PORT 0 #endif #ifdef BSP_LED_6 #define BSP_LED_6_MASK PIN_MASK(BSP_LED_6) #define BSP_LED_6_PORT PIN_PORT(BSP_LED_6) #else #define BSP_LED_6_MASK 0 #define BSP_LED_6_PORT 0 #endif #ifdef BSP_LED_7 #define BSP_LED_7_MASK PIN_MASK(BSP_LED_7) #define BSP_LED_7_PORT PIN_PORT(BSP_LED_7) #else #define BSP_LED_7_MASK 0 #define BSP_LED_7_PORT 0 #endif #define LEDS_MASK (BSP_LED_0_MASK | BSP_LED_1_MASK | \ BSP_LED_2_MASK | BSP_LED_3_MASK | \ BSP_LED_4_MASK | BSP_LED_5_MASK | \ BSP_LED_6_MASK | BSP_LED_7_MASK) #define BSP_BOARD_BUTTON_0 0 #define BSP_BOARD_BUTTON_1 1 #define BSP_BOARD_BUTTON_2 2 #define BSP_BOARD_BUTTON_3 3 #define BSP_BOARD_BUTTON_4 4 #define BSP_BOARD_BUTTON_5 5 #define BSP_BOARD_BUTTON_6 6 #define BSP_BOARD_BUTTON_7 7 #ifdef BSP_BUTTON_0 #define BSP_BUTTON_0_MASK (1<OUTSET = (leds_mask) & (LEDS_MASK & LEDS_INV_MASK); \ NRF_GPIO->OUTCLR = (leds_mask) & (LEDS_MASK & ~LEDS_INV_MASK); } while (0) /* This macro is supporting only P0 and should not be used if LEDs are on other ports. */ #define LEDS_ON(leds_mask) do { ASSERT(sizeof(leds_mask) == 4); \ NRF_GPIO->OUTCLR = (leds_mask) & (LEDS_MASK & LEDS_INV_MASK); \ NRF_GPIO->OUTSET = (leds_mask) & (LEDS_MASK & ~LEDS_INV_MASK); } while (0) /* This macro is supporting only P0 and should not be used if LEDs are on other ports. */ #define LED_IS_ON(leds_mask) ((leds_mask) & (NRF_GPIO->OUT ^ LEDS_INV_MASK) ) /* This macro is supporting only P0 and should not be used if LEDs are on other ports. */ #define LEDS_INVERT(leds_mask) do { uint32_t gpio_state = NRF_GPIO->OUT; \ ASSERT(sizeof(leds_mask) == 4); \ NRF_GPIO->OUTSET = ((leds_mask) & ~gpio_state); \ NRF_GPIO->OUTCLR = ((leds_mask) & gpio_state); } while (0) /* This macro is supporting only P0 and should not be used if LEDs are on other ports. */ #define LEDS_CONFIGURE(leds_mask) do { uint32_t pin; \ ASSERT(sizeof(leds_mask) == 4); \ for (pin = 0; pin < 32; pin++) \ if ( (leds_mask) & (1 << pin) ) \ nrf_gpio_cfg_output(pin); } while (0) #ifdef __cplusplus } #endif #endif