Ken Todotani / nRF51822

Nordic stack and drivers for the mbed BLE API

Dependents:   BLE_Health_Thermometer2

Fork of nRF51822 by Nordic Semiconductor

nordic/nrf-sdk/s110/nrf_soc.h@14:5ca08f962e4f, 2014-05-29 (annotated)

Committer:
Rohit Grover
Date:
Thu May 29 09:51:36 2014 +0100
Revision:
14:5ca08f962e4f
Parent:
0:eff01767de02
Child:
37:c29c330d942c
use accessors for GattCharacteristic

Who changed what in which revision?

UserRevisionLine numberNew contents of line
bogdanm 0:eff01767de02 1 /* Copyright (c) 2011 Nordic Semiconductor. All Rights Reserved.
bogdanm 0:eff01767de02 2 *
bogdanm 0:eff01767de02 3 * The information contained herein is confidential property of Nordic Semiconductor. The use,
bogdanm 0:eff01767de02 4 * copying, transfer or disclosure of such information is prohibited except by express written
bogdanm 0:eff01767de02 5 * agreement with Nordic Semiconductor.
bogdanm 0:eff01767de02 6 *
bogdanm 0:eff01767de02 7 */
bogdanm 0:eff01767de02 8
bogdanm 0:eff01767de02 9 /**
bogdanm 0:eff01767de02 10 @defgroup nrf_soc_api SoC Library API
bogdanm 0:eff01767de02 11 @{
bogdanm 0:eff01767de02 12
bogdanm 0:eff01767de02 13 @brief APIs for the SoC library.
bogdanm 0:eff01767de02 14
bogdanm 0:eff01767de02 15 */
bogdanm 0:eff01767de02 16
bogdanm 0:eff01767de02 17 #ifndef NRF_SOC_H__
bogdanm 0:eff01767de02 18 #define NRF_SOC_H__
bogdanm 0:eff01767de02 19
bogdanm 0:eff01767de02 20 #include <stdint.h>
bogdanm 0:eff01767de02 21 #include <stdbool.h>
bogdanm 0:eff01767de02 22 #include "nordic_global.h"
bogdanm 0:eff01767de02 23 #include "nrf_svc.h"
bogdanm 0:eff01767de02 24 #include "nrf51.h"
bogdanm 0:eff01767de02 25 #include "nrf51_bitfields.h"
bogdanm 0:eff01767de02 26 #include "nrf_error_soc.h"
bogdanm 0:eff01767de02 27
bogdanm 0:eff01767de02 28 /** @addtogroup NRF_SOC_DEFINES Defines
bogdanm 0:eff01767de02 29 * @{ */
bogdanm 0:eff01767de02 30
bogdanm 0:eff01767de02 31 /**@brief The number of the lowest SVC number reserved for the SoC library. */
bogdanm 0:eff01767de02 32 #define SOC_SVC_BASE 0x20
bogdanm 0:eff01767de02 33
bogdanm 0:eff01767de02 34 /**@brief Guranteed time for application to process radio inactive notification. */
bogdanm 0:eff01767de02 35 #define NRF_RADIO_NOTIFICATION_INACTIVE_GUARANTEED_TIME_US (62)
bogdanm 0:eff01767de02 36
bogdanm 0:eff01767de02 37 #define SOC_ECB_KEY_LENGTH (16) /**< ECB key length. */
bogdanm 0:eff01767de02 38 #define SOC_ECB_CLEARTEXT_LENGTH (16) /**< ECB cleartext length. */
bogdanm 0:eff01767de02 39 #define SOC_ECB_CIPHERTEXT_LENGTH (SOC_ECB_CLEARTEXT_LENGTH) /**< ECB ciphertext length. */
bogdanm 0:eff01767de02 40
bogdanm 0:eff01767de02 41 #define SD_EVT_IRQn (SWI2_IRQn) /**< SoftDevice Event IRQ number. Used for both protocol events and SoC events. */
bogdanm 0:eff01767de02 42 #define SD_EVT_IRQHandler (SWI2_IRQHandler) /**< SoftDevice Event IRQ handler. Used for both protocol events and SoC events. */
bogdanm 0:eff01767de02 43 #define RADIO_NOTIFICATION_IRQn (SWI1_IRQn) /**< The radio notification IRQ number. */
bogdanm 0:eff01767de02 44 #define RADIO_NOTIFICATION_IRQHandler (SWI1_IRQHandler) /**< The radio notification IRQ handler. */
bogdanm 0:eff01767de02 45
bogdanm 0:eff01767de02 46 /** @} */
bogdanm 0:eff01767de02 47
bogdanm 0:eff01767de02 48 /** @addtogroup NRF_SOC_TYPES Types
bogdanm 0:eff01767de02 49 * @{ */
bogdanm 0:eff01767de02 50
bogdanm 0:eff01767de02 51 /**@brief The SVC numbers used by the SVC functions in the SoC library. */
bogdanm 0:eff01767de02 52 enum NRF_SOC_SVCS
bogdanm 0:eff01767de02 53 {
bogdanm 0:eff01767de02 54 SD_MUTEX_NEW = SOC_SVC_BASE,
bogdanm 0:eff01767de02 55 SD_MUTEX_ACQUIRE,
bogdanm 0:eff01767de02 56 SD_MUTEX_RELEASE,
bogdanm 0:eff01767de02 57 SD_NVIC_ENABLEIRQ,
bogdanm 0:eff01767de02 58 SD_NVIC_DISABLEIRQ,
bogdanm 0:eff01767de02 59 SD_NVIC_GETPENDINGIRQ,
bogdanm 0:eff01767de02 60 SD_NVIC_SETPENDINGIRQ,
bogdanm 0:eff01767de02 61 SD_NVIC_CLEARPENDINGIRQ,
bogdanm 0:eff01767de02 62 SD_NVIC_SETPRIORITY,
bogdanm 0:eff01767de02 63 SD_NVIC_GETPRIORITY,
bogdanm 0:eff01767de02 64 SD_NVIC_SYSTEMRESET,
bogdanm 0:eff01767de02 65 SD_NVIC_CRITICAL_REGION_ENTER,
bogdanm 0:eff01767de02 66 SD_NVIC_CRITICAL_REGION_EXIT,
bogdanm 0:eff01767de02 67 SD_RAND_APPLICATION_POOL_CAPACITY,
bogdanm 0:eff01767de02 68 SD_RAND_APPLICATION_BYTES_AVAILABLE,
bogdanm 0:eff01767de02 69 SD_RAND_APPLICATION_GET_VECTOR,
bogdanm 0:eff01767de02 70 SD_POWER_MODE_SET,
bogdanm 0:eff01767de02 71 SD_POWER_SYSTEM_OFF,
bogdanm 0:eff01767de02 72 SD_POWER_RESET_REASON_GET,
bogdanm 0:eff01767de02 73 SD_POWER_RESET_REASON_CLR,
bogdanm 0:eff01767de02 74 SD_POWER_POF_ENABLE,
bogdanm 0:eff01767de02 75 SD_POWER_POF_THRESHOLD_SET,
bogdanm 0:eff01767de02 76 SD_POWER_RAMON_SET,
bogdanm 0:eff01767de02 77 SD_POWER_RAMON_CLR,
bogdanm 0:eff01767de02 78 SD_POWER_RAMON_GET,
bogdanm 0:eff01767de02 79 SD_POWER_GPREGRET_SET,
bogdanm 0:eff01767de02 80 SD_POWER_GPREGRET_CLR,
bogdanm 0:eff01767de02 81 SD_POWER_GPREGRET_GET,
bogdanm 0:eff01767de02 82 SD_POWER_DCDC_MODE_SET,
bogdanm 0:eff01767de02 83 SD_APP_EVT_WAIT,
bogdanm 0:eff01767de02 84 SD_CLOCK_HFCLK_REQUEST,
bogdanm 0:eff01767de02 85 SD_CLOCK_HFCLK_RELEASE,
bogdanm 0:eff01767de02 86 SD_CLOCK_HFCLK_IS_RUNNING,
bogdanm 0:eff01767de02 87 SD_PPI_CHANNEL_ENABLE_GET,
bogdanm 0:eff01767de02 88 SD_PPI_CHANNEL_ENABLE_SET,
bogdanm 0:eff01767de02 89 SD_PPI_CHANNEL_ENABLE_CLR,
bogdanm 0:eff01767de02 90 SD_PPI_CHANNEL_ASSIGN,
bogdanm 0:eff01767de02 91 SD_PPI_GROUP_TASK_ENABLE,
bogdanm 0:eff01767de02 92 SD_PPI_GROUP_TASK_DISABLE,
bogdanm 0:eff01767de02 93 SD_PPI_GROUP_ASSIGN,
bogdanm 0:eff01767de02 94 SD_PPI_GROUP_GET,
bogdanm 0:eff01767de02 95 SD_RADIO_NOTIFICATION_CFG_SET,
bogdanm 0:eff01767de02 96 SD_ECB_BLOCK_ENCRYPT,
bogdanm 0:eff01767de02 97 SD_RESERVED1,
bogdanm 0:eff01767de02 98 SD_RESERVED2,
bogdanm 0:eff01767de02 99 SD_RESERVED3,
bogdanm 0:eff01767de02 100 SD_EVT_GET,
bogdanm 0:eff01767de02 101 SD_TEMP_GET,
bogdanm 0:eff01767de02 102 SD_FLASH_ERASE_PAGE,
bogdanm 0:eff01767de02 103 SD_FLASH_WRITE,
bogdanm 0:eff01767de02 104 SD_FLASH_PROTECT,
bogdanm 0:eff01767de02 105 SVC_SOC_LAST
bogdanm 0:eff01767de02 106 };
bogdanm 0:eff01767de02 107
bogdanm 0:eff01767de02 108 /**@brief Possible values of a ::nrf_mutex_t. */
bogdanm 0:eff01767de02 109 enum NRF_MUTEX_VALUES
bogdanm 0:eff01767de02 110 {
bogdanm 0:eff01767de02 111 NRF_MUTEX_FREE,
bogdanm 0:eff01767de02 112 NRF_MUTEX_TAKEN
bogdanm 0:eff01767de02 113 };
bogdanm 0:eff01767de02 114
bogdanm 0:eff01767de02 115 /**@brief Possible values of ::nrf_app_irq_priority_t. */
bogdanm 0:eff01767de02 116 enum NRF_APP_PRIORITIES
bogdanm 0:eff01767de02 117 {
bogdanm 0:eff01767de02 118 NRF_APP_PRIORITY_HIGH = 1,
bogdanm 0:eff01767de02 119 NRF_APP_PRIORITY_LOW = 3
bogdanm 0:eff01767de02 120 };
bogdanm 0:eff01767de02 121
bogdanm 0:eff01767de02 122 /**@brief Possible values of ::nrf_power_mode_t. */
bogdanm 0:eff01767de02 123 enum NRF_POWER_MODES
bogdanm 0:eff01767de02 124 {
bogdanm 0:eff01767de02 125 NRF_POWER_MODE_CONSTLAT, /**< Constant latency mode. See power management in the reference manual. */
bogdanm 0:eff01767de02 126 NRF_POWER_MODE_LOWPWR /**< Low power mode. See power management in the reference manual. */
bogdanm 0:eff01767de02 127 };
bogdanm 0:eff01767de02 128
bogdanm 0:eff01767de02 129
bogdanm 0:eff01767de02 130 /**@brief Possible values of ::nrf_power_failure_threshold_t */
bogdanm 0:eff01767de02 131 enum NRF_POWER_THRESHOLDS
bogdanm 0:eff01767de02 132 {
bogdanm 0:eff01767de02 133 NRF_POWER_THRESHOLD_V21, /**< 2.1 Volts power failure threshold. */
bogdanm 0:eff01767de02 134 NRF_POWER_THRESHOLD_V23, /**< 2.3 Volts power failure threshold. */
bogdanm 0:eff01767de02 135 NRF_POWER_THRESHOLD_V25, /**< 2.5 Volts power failure threshold. */
bogdanm 0:eff01767de02 136 NRF_POWER_THRESHOLD_V27 /**< 2.7 Volts power failure threshold. */
bogdanm 0:eff01767de02 137 };
bogdanm 0:eff01767de02 138
bogdanm 0:eff01767de02 139
bogdanm 0:eff01767de02 140 /**@brief Possible values of ::nrf_power_dcdc_mode_t. */
bogdanm 0:eff01767de02 141 enum NRF_POWER_DCDC_MODES
bogdanm 0:eff01767de02 142 {
bogdanm 0:eff01767de02 143 NRF_POWER_DCDC_MODE_OFF, /**< The DCDC is always off. */
bogdanm 0:eff01767de02 144 NRF_POWER_DCDC_MODE_ON, /**< The DCDC is always on. */
bogdanm 0:eff01767de02 145 NRF_POWER_DCDC_MODE_AUTOMATIC /**< The DCDC is automatically managed. */
bogdanm 0:eff01767de02 146 };
bogdanm 0:eff01767de02 147
bogdanm 0:eff01767de02 148 /**@brief Possible values of ::nrf_radio_notification_distance_t. */
bogdanm 0:eff01767de02 149 enum NRF_RADIO_NOTIFICATION_DISTANCES
bogdanm 0:eff01767de02 150 {
bogdanm 0:eff01767de02 151 NRF_RADIO_NOTIFICATION_DISTANCE_NONE = 0, /**< The event does not have a notification. */
bogdanm 0:eff01767de02 152 NRF_RADIO_NOTIFICATION_DISTANCE_800US, /**< The distance from the active notification to start of radio activity. */
bogdanm 0:eff01767de02 153 NRF_RADIO_NOTIFICATION_DISTANCE_1740US, /**< The distance from the active notification to start of radio activity. */
bogdanm 0:eff01767de02 154 NRF_RADIO_NOTIFICATION_DISTANCE_2680US, /**< The distance from the active notification to start of radio activity. */
bogdanm 0:eff01767de02 155 NRF_RADIO_NOTIFICATION_DISTANCE_3620US, /**< The distance from the active notification to start of radio activity. */
bogdanm 0:eff01767de02 156 NRF_RADIO_NOTIFICATION_DISTANCE_4560US, /**< The distance from the active notification to start of radio activity. */
bogdanm 0:eff01767de02 157 NRF_RADIO_NOTIFICATION_DISTANCE_5500US /**< The distance from the active notification to start of radio activity. */
bogdanm 0:eff01767de02 158 };
bogdanm 0:eff01767de02 159
bogdanm 0:eff01767de02 160
bogdanm 0:eff01767de02 161 /**@brief Possible values of ::nrf_radio_notification_type_t. */
bogdanm 0:eff01767de02 162 enum NRF_RADIO_NOTIFICATION_TYPES
bogdanm 0:eff01767de02 163 {
bogdanm 0:eff01767de02 164 NRF_RADIO_NOTIFICATION_TYPE_NONE = 0, /**< The event does not have a radio notification signal. */
bogdanm 0:eff01767de02 165 NRF_RADIO_NOTIFICATION_TYPE_INT_ON_ACTIVE, /**< Using interrupt for notification when the radio will be enabled. */
bogdanm 0:eff01767de02 166 NRF_RADIO_NOTIFICATION_TYPE_INT_ON_INACTIVE, /**< Using interrupt for notification when the radio has been disabled. */
bogdanm 0:eff01767de02 167 NRF_RADIO_NOTIFICATION_TYPE_INT_ON_BOTH, /**< Using interrupt for notification both when the radio will be enabled and disabled. */
bogdanm 0:eff01767de02 168 };
bogdanm 0:eff01767de02 169
bogdanm 0:eff01767de02 170 /**@brief SoC Events. */
bogdanm 0:eff01767de02 171 enum NRF_SOC_EVTS
bogdanm 0:eff01767de02 172 {
bogdanm 0:eff01767de02 173 NRF_EVT_HFCLKSTARTED, /**< Event indicating that the HFCLK has started. */
bogdanm 0:eff01767de02 174 NRF_EVT_POWER_FAILURE_WARNING, /**< Event indicating that a power failure warning has occurred. */
bogdanm 0:eff01767de02 175 NRF_EVT_FLASH_OPERATION_SUCCESS, /**< Event indicating that the ongoing flash operation has completed successfully. */
bogdanm 0:eff01767de02 176 NRF_EVT_FLASH_OPERATION_ERROR, /**< Event indicating that the ongoing flash operation has timed out with an error. */
bogdanm 0:eff01767de02 177 NRF_EVT_RESERVED1,
bogdanm 0:eff01767de02 178 NRF_EVT_RESERVED2,
bogdanm 0:eff01767de02 179 NRF_EVT_RESERVED3,
bogdanm 0:eff01767de02 180 NRF_EVT_RESERVED4,
bogdanm 0:eff01767de02 181 NRF_EVT_RESERVED5,
bogdanm 0:eff01767de02 182 NRF_EVT_NUMBER_OF_EVTS
bogdanm 0:eff01767de02 183 };
bogdanm 0:eff01767de02 184
bogdanm 0:eff01767de02 185 /** @} */
bogdanm 0:eff01767de02 186
bogdanm 0:eff01767de02 187 /** @addtogroup NRF_SOC_TYPES Types
bogdanm 0:eff01767de02 188 * @{ */
bogdanm 0:eff01767de02 189
bogdanm 0:eff01767de02 190 /**@brief Represents a mutex for use with the nrf_mutex functions.
bogdanm 0:eff01767de02 191 * @note Accessing the value directly is not safe, use the mutex functions!
bogdanm 0:eff01767de02 192 */
bogdanm 0:eff01767de02 193 typedef volatile uint8_t nrf_mutex_t;
bogdanm 0:eff01767de02 194
bogdanm 0:eff01767de02 195 /**@brief The interrupt priorities available to the application while the softdevice is active. */
bogdanm 0:eff01767de02 196 typedef uint8_t nrf_app_irq_priority_t;
bogdanm 0:eff01767de02 197
bogdanm 0:eff01767de02 198 /**@brief Represents a power mode, used in power mode functions */
bogdanm 0:eff01767de02 199 typedef uint8_t nrf_power_mode_t;
bogdanm 0:eff01767de02 200
bogdanm 0:eff01767de02 201 /**@brief Represents a power failure threshold value. */
bogdanm 0:eff01767de02 202 typedef uint8_t nrf_power_failure_threshold_t;
bogdanm 0:eff01767de02 203
bogdanm 0:eff01767de02 204 /**@brief Represents a DCDC mode value. */
bogdanm 0:eff01767de02 205 typedef uint32_t nrf_power_dcdc_mode_t;
bogdanm 0:eff01767de02 206
bogdanm 0:eff01767de02 207 /**@brief Radio notification distances. */
bogdanm 0:eff01767de02 208 typedef uint8_t nrf_radio_notification_distance_t;
bogdanm 0:eff01767de02 209
bogdanm 0:eff01767de02 210 /**@brief Radio notification types. */
bogdanm 0:eff01767de02 211 typedef uint8_t nrf_radio_notification_type_t;
bogdanm 0:eff01767de02 212
bogdanm 0:eff01767de02 213
bogdanm 0:eff01767de02 214 /**@brief AES ECB data structure */
bogdanm 0:eff01767de02 215 typedef struct
bogdanm 0:eff01767de02 216 {
bogdanm 0:eff01767de02 217 uint8_t key[SOC_ECB_KEY_LENGTH]; /**< Encryption key. */
bogdanm 0:eff01767de02 218 uint8_t cleartext[SOC_ECB_CLEARTEXT_LENGTH]; /**< Clear Text data. */
bogdanm 0:eff01767de02 219 uint8_t ciphertext[SOC_ECB_CIPHERTEXT_LENGTH]; /**< Cipher Text data. */
bogdanm 0:eff01767de02 220 } nrf_ecb_hal_data_t;
bogdanm 0:eff01767de02 221
bogdanm 0:eff01767de02 222 /** @} */
bogdanm 0:eff01767de02 223
bogdanm 0:eff01767de02 224 /** @addtogroup NRF_SOC_FUNCTIONS Functions
bogdanm 0:eff01767de02 225 * @{ */
bogdanm 0:eff01767de02 226
bogdanm 0:eff01767de02 227 /**@brief Initialize a mutex.
bogdanm 0:eff01767de02 228 *
bogdanm 0:eff01767de02 229 * @param[in] p_mutex Pointer to the mutex to initialize.
bogdanm 0:eff01767de02 230 *
bogdanm 0:eff01767de02 231 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 232 */
bogdanm 0:eff01767de02 233 SVCALL(SD_MUTEX_NEW, uint32_t, sd_mutex_new(nrf_mutex_t * p_mutex));
bogdanm 0:eff01767de02 234
bogdanm 0:eff01767de02 235 /**@brief Attempt to acquire a mutex.
bogdanm 0:eff01767de02 236 *
bogdanm 0:eff01767de02 237 * @param[in] p_mutex Pointer to the mutex to acquire.
bogdanm 0:eff01767de02 238 *
bogdanm 0:eff01767de02 239 * @retval ::NRF_SUCCESS The mutex was successfully acquired.
bogdanm 0:eff01767de02 240 * @retval ::NRF_ERROR_SOC_MUTEX_ALREADY_TAKEN The mutex could not be acquired.
bogdanm 0:eff01767de02 241 */
bogdanm 0:eff01767de02 242 SVCALL(SD_MUTEX_ACQUIRE, uint32_t, sd_mutex_acquire(nrf_mutex_t * p_mutex));
bogdanm 0:eff01767de02 243
bogdanm 0:eff01767de02 244 /**@brief Release a mutex.
bogdanm 0:eff01767de02 245 *
bogdanm 0:eff01767de02 246 * @param[in] p_mutex Pointer to the mutex to release.
bogdanm 0:eff01767de02 247 *
bogdanm 0:eff01767de02 248 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 249 */
bogdanm 0:eff01767de02 250 SVCALL(SD_MUTEX_RELEASE, uint32_t, sd_mutex_release(nrf_mutex_t * p_mutex));
bogdanm 0:eff01767de02 251
bogdanm 0:eff01767de02 252 /**@brief Enable External Interrupt.
bogdanm 0:eff01767de02 253 * @note Corresponds to NVIC_EnableIRQ in CMSIS.
bogdanm 0:eff01767de02 254 *
bogdanm 0:eff01767de02 255 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 256 *
bogdanm 0:eff01767de02 257 * @param[in] IRQn See the NVIC_EnableIRQ documentation in CMSIS.
bogdanm 0:eff01767de02 258 *
bogdanm 0:eff01767de02 259 * @retval ::NRF_SUCCESS The interrupt was enabled.
bogdanm 0:eff01767de02 260 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE The interrupt is not available for the application.
bogdanm 0:eff01767de02 261 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_PRIORITY_NOT_ALLOWED The interrupt has a priority not available for the application.
bogdanm 0:eff01767de02 262 */
bogdanm 0:eff01767de02 263 SVCALL(SD_NVIC_ENABLEIRQ, uint32_t, sd_nvic_EnableIRQ(IRQn_Type IRQn));
bogdanm 0:eff01767de02 264
bogdanm 0:eff01767de02 265 /**@brief Disable External Interrupt.
bogdanm 0:eff01767de02 266 * @note Corresponds to NVIC_DisableIRQ in CMSIS.
bogdanm 0:eff01767de02 267 *
bogdanm 0:eff01767de02 268 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 269 *
bogdanm 0:eff01767de02 270 * @param[in] IRQn See the NVIC_DisableIRQ documentation in CMSIS
bogdanm 0:eff01767de02 271 *
bogdanm 0:eff01767de02 272 * @retval ::NRF_SUCCESS The interrupt was disabled.
bogdanm 0:eff01767de02 273 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE The interrupt is not available for the application.
bogdanm 0:eff01767de02 274 */
bogdanm 0:eff01767de02 275 SVCALL(SD_NVIC_DISABLEIRQ, uint32_t, sd_nvic_DisableIRQ(IRQn_Type IRQn));
bogdanm 0:eff01767de02 276
bogdanm 0:eff01767de02 277 /**@brief Get Pending Interrupt.
bogdanm 0:eff01767de02 278 * @note Corresponds to NVIC_GetPendingIRQ in CMSIS.
bogdanm 0:eff01767de02 279 *
bogdanm 0:eff01767de02 280 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 281 *
bogdanm 0:eff01767de02 282 * @param[in] IRQn See the NVIC_GetPendingIRQ documentation in CMSIS.
bogdanm 0:eff01767de02 283 * @param[out] p_pending_irq Return value from NVIC_GetPendingIRQ.
bogdanm 0:eff01767de02 284 *
bogdanm 0:eff01767de02 285 * @retval ::NRF_SUCCESS The interrupt is available for the application.
bogdanm 0:eff01767de02 286 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE IRQn is not available for the application.
bogdanm 0:eff01767de02 287 */
bogdanm 0:eff01767de02 288 SVCALL(SD_NVIC_GETPENDINGIRQ, uint32_t, sd_nvic_GetPendingIRQ(IRQn_Type IRQn, uint32_t * p_pending_irq));
bogdanm 0:eff01767de02 289
bogdanm 0:eff01767de02 290 /**@brief Set Pending Interrupt.
bogdanm 0:eff01767de02 291 * @note Corresponds to NVIC_SetPendingIRQ in CMSIS.
bogdanm 0:eff01767de02 292 *
bogdanm 0:eff01767de02 293 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 294 *
bogdanm 0:eff01767de02 295 * @param[in] IRQn See the NVIC_SetPendingIRQ documentation in CMSIS.
bogdanm 0:eff01767de02 296 *
bogdanm 0:eff01767de02 297 * @retval ::NRF_SUCCESS The interrupt is set pending.
bogdanm 0:eff01767de02 298 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE IRQn is not available for the application.
bogdanm 0:eff01767de02 299 */
bogdanm 0:eff01767de02 300 SVCALL(SD_NVIC_SETPENDINGIRQ, uint32_t, sd_nvic_SetPendingIRQ(IRQn_Type IRQn));
bogdanm 0:eff01767de02 301
bogdanm 0:eff01767de02 302 /**@brief Clear Pending Interrupt.
bogdanm 0:eff01767de02 303 * @note Corresponds to NVIC_ClearPendingIRQ in CMSIS.
bogdanm 0:eff01767de02 304 *
bogdanm 0:eff01767de02 305 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 306 *
bogdanm 0:eff01767de02 307 * @param[in] IRQn See the NVIC_ClearPendingIRQ documentation in CMSIS.
bogdanm 0:eff01767de02 308 *
bogdanm 0:eff01767de02 309 * @retval ::NRF_SUCCESS The interrupt pending flag is cleared.
bogdanm 0:eff01767de02 310 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE IRQn is not available for the application.
bogdanm 0:eff01767de02 311 */
bogdanm 0:eff01767de02 312 SVCALL(SD_NVIC_CLEARPENDINGIRQ, uint32_t, sd_nvic_ClearPendingIRQ(IRQn_Type IRQn));
bogdanm 0:eff01767de02 313
bogdanm 0:eff01767de02 314 /**@brief Set Interrupt Priority.
bogdanm 0:eff01767de02 315 * @note Corresponds to NVIC_SetPriority in CMSIS.
bogdanm 0:eff01767de02 316 *
bogdanm 0:eff01767de02 317 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 318 * @pre{priority is valid and not reserved by the stack}
bogdanm 0:eff01767de02 319 *
bogdanm 0:eff01767de02 320 * @param[in] IRQn See the NVIC_SetPriority documentation in CMSIS.
bogdanm 0:eff01767de02 321 * @param[in] priority A valid IRQ priority for use by the application.
bogdanm 0:eff01767de02 322 *
bogdanm 0:eff01767de02 323 * @retval ::NRF_SUCCESS The interrupt and priority level is available for the application.
bogdanm 0:eff01767de02 324 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE IRQn is not available for the application.
bogdanm 0:eff01767de02 325 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_PRIORITY_NOT_ALLOWED The interrupt priority is not available for the application.
bogdanm 0:eff01767de02 326 */
bogdanm 0:eff01767de02 327 SVCALL(SD_NVIC_SETPRIORITY, uint32_t, sd_nvic_SetPriority(IRQn_Type IRQn, nrf_app_irq_priority_t priority));
bogdanm 0:eff01767de02 328
bogdanm 0:eff01767de02 329 /**@brief Get Interrupt Priority.
bogdanm 0:eff01767de02 330 * @note Corresponds to NVIC_GetPriority in CMSIS.
bogdanm 0:eff01767de02 331 *
bogdanm 0:eff01767de02 332 * @pre{IRQn is valid and not reserved by the stack}
bogdanm 0:eff01767de02 333 *
bogdanm 0:eff01767de02 334 * @param[in] IRQn See the NVIC_GetPriority documentation in CMSIS.
bogdanm 0:eff01767de02 335 * @param[out] p_priority Return value from NVIC_GetPriority.
bogdanm 0:eff01767de02 336 *
bogdanm 0:eff01767de02 337 * @retval ::NRF_SUCCESS The interrupt priority is returned in p_priority.
bogdanm 0:eff01767de02 338 * @retval ::NRF_ERROR_SOC_NVIC_INTERRUPT_NOT_AVAILABLE - IRQn is not available for the application.
bogdanm 0:eff01767de02 339 */
bogdanm 0:eff01767de02 340 SVCALL(SD_NVIC_GETPRIORITY, uint32_t, sd_nvic_GetPriority(IRQn_Type IRQn, nrf_app_irq_priority_t * p_priority));
bogdanm 0:eff01767de02 341
bogdanm 0:eff01767de02 342 /**@brief System Reset.
bogdanm 0:eff01767de02 343 * @note Corresponds to NVIC_SystemReset in CMSIS.
bogdanm 0:eff01767de02 344 *
bogdanm 0:eff01767de02 345 * @retval ::NRF_ERROR_SOC_NVIC_SHOULD_NOT_RETURN
bogdanm 0:eff01767de02 346 */
bogdanm 0:eff01767de02 347 SVCALL(SD_NVIC_SYSTEMRESET, uint32_t, sd_nvic_SystemReset(void));
bogdanm 0:eff01767de02 348
bogdanm 0:eff01767de02 349 /**@brief Enters critical region.
bogdanm 0:eff01767de02 350 *
bogdanm 0:eff01767de02 351 * @post Application interrupts will be disabled.
bogdanm 0:eff01767de02 352 * @sa sd_nvic_critical_region_exit
bogdanm 0:eff01767de02 353 *
bogdanm 0:eff01767de02 354 * @param[out] p_is_nested_critical_region 1: If in a nested critical region.
bogdanm 0:eff01767de02 355 * 0: Otherwise.
bogdanm 0:eff01767de02 356 *
bogdanm 0:eff01767de02 357 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 358 */
bogdanm 0:eff01767de02 359 SVCALL(SD_NVIC_CRITICAL_REGION_ENTER, uint32_t, sd_nvic_critical_region_enter(uint8_t * p_is_nested_critical_region));
bogdanm 0:eff01767de02 360
bogdanm 0:eff01767de02 361 /**@brief Exit critical region.
bogdanm 0:eff01767de02 362 *
bogdanm 0:eff01767de02 363 * @pre Application has entered a critical region using ::sd_nvic_critical_region_enter.
bogdanm 0:eff01767de02 364 * @post If not in a nested critical region, the application interrupts will restored to the state before ::sd_nvic_critical_region_enter was called.
bogdanm 0:eff01767de02 365 *
bogdanm 0:eff01767de02 366 * @param[in] is_nested_critical_region If this is set to 1, the critical region won't be exited. @sa sd_nvic_critical_region_enter.
bogdanm 0:eff01767de02 367 *
bogdanm 0:eff01767de02 368 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 369 */
bogdanm 0:eff01767de02 370 SVCALL(SD_NVIC_CRITICAL_REGION_EXIT, uint32_t, sd_nvic_critical_region_exit(uint8_t is_nested_critical_region));
bogdanm 0:eff01767de02 371
bogdanm 0:eff01767de02 372 /**@brief Query the capacity of the application random pool.
bogdanm 0:eff01767de02 373 *
bogdanm 0:eff01767de02 374 * @param[out] p_pool_capacity The capacity of the pool.
bogdanm 0:eff01767de02 375 *
bogdanm 0:eff01767de02 376 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 377 */
bogdanm 0:eff01767de02 378 SVCALL(SD_RAND_APPLICATION_POOL_CAPACITY, uint32_t, sd_rand_application_pool_capacity_get(uint8_t * p_pool_capacity));
bogdanm 0:eff01767de02 379
bogdanm 0:eff01767de02 380 /**@brief Get number of random bytes available to the application.
bogdanm 0:eff01767de02 381 *
bogdanm 0:eff01767de02 382 * @param[out] p_bytes_available The number of bytes currently available in the pool.
bogdanm 0:eff01767de02 383 *
bogdanm 0:eff01767de02 384 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 385 */
bogdanm 0:eff01767de02 386 SVCALL(SD_RAND_APPLICATION_BYTES_AVAILABLE, uint32_t, sd_rand_application_bytes_available_get(uint8_t * p_bytes_available));
bogdanm 0:eff01767de02 387
bogdanm 0:eff01767de02 388 /**@brief Get random bytes from the application pool.
bogdanm 0:eff01767de02 389
bogdanm 0:eff01767de02 390 @param[out] p_buff Pointer to unit8_t buffer for storing the bytes.
bogdanm 0:eff01767de02 391 @param[in] length Number of bytes to take from pool and place in p_buff.
bogdanm 0:eff01767de02 392
bogdanm 0:eff01767de02 393 @retval ::NRF_SUCCESS The requested bytes were written to p_buff.
bogdanm 0:eff01767de02 394 @retval ::NRF_ERROR_SOC_RAND_NOT_ENOUGH_VALUES No bytes were written to the buffer, because there were not enough bytes available.
bogdanm 0:eff01767de02 395 */
bogdanm 0:eff01767de02 396 SVCALL(SD_RAND_APPLICATION_GET_VECTOR, uint32_t, sd_rand_application_vector_get(uint8_t * p_buff, uint8_t length));
bogdanm 0:eff01767de02 397
bogdanm 0:eff01767de02 398 /**@brief Gets the reset reason register.
bogdanm 0:eff01767de02 399 *
bogdanm 0:eff01767de02 400 * @param[out] p_reset_reason Contents of the NRF_POWER->RESETREAS register.
bogdanm 0:eff01767de02 401 *
bogdanm 0:eff01767de02 402 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 403 */
bogdanm 0:eff01767de02 404 SVCALL(SD_POWER_RESET_REASON_GET, uint32_t, sd_power_reset_reason_get(uint32_t * p_reset_reason));
bogdanm 0:eff01767de02 405
bogdanm 0:eff01767de02 406 /**@brief Clears the bits of the reset reason register.
bogdanm 0:eff01767de02 407 *
bogdanm 0:eff01767de02 408 * @param[in] reset_reason_clr_msk Contains the bits to clear from the reset reason register.
bogdanm 0:eff01767de02 409 *
bogdanm 0:eff01767de02 410 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 411 */
bogdanm 0:eff01767de02 412 SVCALL(SD_POWER_RESET_REASON_CLR, uint32_t, sd_power_reset_reason_clr(uint32_t reset_reason_clr_msk));
bogdanm 0:eff01767de02 413
bogdanm 0:eff01767de02 414 /**@brief Sets the power mode when in CPU sleep.
bogdanm 0:eff01767de02 415 *
bogdanm 0:eff01767de02 416 * @param[in] power_mode The power mode to use when in CPU sleep. @sa sd_app_evt_wait
bogdanm 0:eff01767de02 417 *
bogdanm 0:eff01767de02 418 * @retval ::NRF_SUCCESS The power mode was set.
bogdanm 0:eff01767de02 419 * @retval ::NRF_ERROR_SOC_POWER_MODE_UNKNOWN The power mode was unknown.
bogdanm 0:eff01767de02 420 */
bogdanm 0:eff01767de02 421 SVCALL(SD_POWER_MODE_SET, uint32_t, sd_power_mode_set(nrf_power_mode_t power_mode));
bogdanm 0:eff01767de02 422
bogdanm 0:eff01767de02 423 /**@brief Puts the chip in System OFF mode.
bogdanm 0:eff01767de02 424 *
bogdanm 0:eff01767de02 425 * @retval ::NRF_ERROR_SOC_POWER_OFF_SHOULD_NOT_RETURN
bogdanm 0:eff01767de02 426 */
bogdanm 0:eff01767de02 427 SVCALL(SD_POWER_SYSTEM_OFF, uint32_t, sd_power_system_off(void));
bogdanm 0:eff01767de02 428
bogdanm 0:eff01767de02 429 /**@brief Enables or disables the power-fail comparator.
bogdanm 0:eff01767de02 430 *
bogdanm 0:eff01767de02 431 * Enabling this will give a softdevice event (NRF_EVT_POWER_FAILURE_WARNING) when the power failure warning occurs.
bogdanm 0:eff01767de02 432 * The event can be retrieved with sd_evt_get();
bogdanm 0:eff01767de02 433 *
bogdanm 0:eff01767de02 434 * @param[in] pof_enable True if the power-fail comparator should be enabled, false if it should be disabled.
bogdanm 0:eff01767de02 435 *
bogdanm 0:eff01767de02 436 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 437 */
bogdanm 0:eff01767de02 438 SVCALL(SD_POWER_POF_ENABLE, uint32_t, sd_power_pof_enable(uint8_t pof_enable));
bogdanm 0:eff01767de02 439
bogdanm 0:eff01767de02 440 /**@brief Sets the power-fail threshold value.
bogdanm 0:eff01767de02 441 *
bogdanm 0:eff01767de02 442 * @param[in] threshold The power-fail threshold value to use.
bogdanm 0:eff01767de02 443 *
bogdanm 0:eff01767de02 444 * @retval ::NRF_SUCCESS The power failure threshold was set.
bogdanm 0:eff01767de02 445 * @retval ::NRF_ERROR_SOC_POWER_POF_THRESHOLD_UNKNOWN The power failure threshold is unknown.
bogdanm 0:eff01767de02 446 */
bogdanm 0:eff01767de02 447 SVCALL(SD_POWER_POF_THRESHOLD_SET, uint32_t, sd_power_pof_threshold_set(nrf_power_failure_threshold_t threshold));
bogdanm 0:eff01767de02 448
bogdanm 0:eff01767de02 449 /**@brief Sets bits in the NRF_POWER->RAMON register.
bogdanm 0:eff01767de02 450 *
bogdanm 0:eff01767de02 451 * @param[in] ramon Contains the bits needed to be set in the NRF_POWER->RAMON register.
bogdanm 0:eff01767de02 452 *
bogdanm 0:eff01767de02 453 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 454 */
bogdanm 0:eff01767de02 455 SVCALL(SD_POWER_RAMON_SET, uint32_t, sd_power_ramon_set(uint32_t ramon));
bogdanm 0:eff01767de02 456
bogdanm 0:eff01767de02 457 /** @brief Clears bits in the NRF_POWER->RAMON register.
bogdanm 0:eff01767de02 458 *
bogdanm 0:eff01767de02 459 * @param ramon Contains the bits needed to be cleared in the NRF_POWER->RAMON register.
bogdanm 0:eff01767de02 460 *
bogdanm 0:eff01767de02 461 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 462 */
bogdanm 0:eff01767de02 463 SVCALL(SD_POWER_RAMON_CLR, uint32_t, sd_power_ramon_clr(uint32_t ramon));
bogdanm 0:eff01767de02 464
bogdanm 0:eff01767de02 465 /**@brief Get contents of NRF_POWER->RAMON register, indicates power status of ram blocks.
bogdanm 0:eff01767de02 466 *
bogdanm 0:eff01767de02 467 * @param[out] p_ramon Content of NRF_POWER->RAMON register.
bogdanm 0:eff01767de02 468 *
bogdanm 0:eff01767de02 469 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 470 */
bogdanm 0:eff01767de02 471 SVCALL(SD_POWER_RAMON_GET, uint32_t, sd_power_ramon_get(uint32_t * p_ramon));
bogdanm 0:eff01767de02 472
bogdanm 0:eff01767de02 473 /**@brief Set bits in the NRF_POWER->GPREGRET register.
bogdanm 0:eff01767de02 474 *
bogdanm 0:eff01767de02 475 * @param[in] gpregret_msk Bits to be set in the GPREGRET register.
bogdanm 0:eff01767de02 476 *
bogdanm 0:eff01767de02 477 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 478 */
bogdanm 0:eff01767de02 479 SVCALL(SD_POWER_GPREGRET_SET, uint32_t, sd_power_gpregret_set(uint32_t gpregret_msk));
bogdanm 0:eff01767de02 480
bogdanm 0:eff01767de02 481 /**@brief Clear bits in the NRF_POWER->GPREGRET register.
bogdanm 0:eff01767de02 482 *
bogdanm 0:eff01767de02 483 * @param[in] gpregret_msk Bits to be clear in the GPREGRET register.
bogdanm 0:eff01767de02 484 *
bogdanm 0:eff01767de02 485 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 486 */
bogdanm 0:eff01767de02 487 SVCALL(SD_POWER_GPREGRET_CLR, uint32_t, sd_power_gpregret_clr(uint32_t gpregret_msk));
bogdanm 0:eff01767de02 488
bogdanm 0:eff01767de02 489 /**@brief Get contents of the NRF_POWER->GPREGRET register.
bogdanm 0:eff01767de02 490 *
bogdanm 0:eff01767de02 491 * @param[out] p_gpregret Contents of the GPREGRET register.
bogdanm 0:eff01767de02 492 *
bogdanm 0:eff01767de02 493 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 494 */
bogdanm 0:eff01767de02 495 SVCALL(SD_POWER_GPREGRET_GET, uint32_t, sd_power_gpregret_get(uint32_t *p_gpregret));
bogdanm 0:eff01767de02 496
bogdanm 0:eff01767de02 497 /**@brief Sets the DCDC mode.
bogdanm 0:eff01767de02 498 *
bogdanm 0:eff01767de02 499 * Depending on the internal state of the SoftDevice, the mode change may not happen immediately.
bogdanm 0:eff01767de02 500 * The DCDC mode switch will be blocked when occurring in close proximity to radio transmissions. When
bogdanm 0:eff01767de02 501 * the radio transmission is done, the last mode will be used.
bogdanm 0:eff01767de02 502 *
bogdanm 0:eff01767de02 503 * @param[in] dcdc_mode The mode of the DCDC.
bogdanm 0:eff01767de02 504 *
bogdanm 0:eff01767de02 505 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 506 * @retval ::NRF_ERROR_INVALID_PARAM The DCDC mode is invalid.
bogdanm 0:eff01767de02 507 */
bogdanm 0:eff01767de02 508 SVCALL(SD_POWER_DCDC_MODE_SET, uint32_t, sd_power_dcdc_mode_set(nrf_power_dcdc_mode_t dcdc_mode));
bogdanm 0:eff01767de02 509
bogdanm 0:eff01767de02 510 /**@brief Request the high frequency crystal oscillator.
bogdanm 0:eff01767de02 511 *
bogdanm 0:eff01767de02 512 * Will start the high frequency crystal oscillator, the startup time of the crystal varies
bogdanm 0:eff01767de02 513 * and the ::sd_clock_hfclk_is_running function can be polled to check if it has started.
bogdanm 0:eff01767de02 514 *
bogdanm 0:eff01767de02 515 * @see sd_clock_hfclk_is_running
bogdanm 0:eff01767de02 516 * @see sd_clock_hfclk_release
bogdanm 0:eff01767de02 517 *
bogdanm 0:eff01767de02 518 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 519 */
bogdanm 0:eff01767de02 520 SVCALL(SD_CLOCK_HFCLK_REQUEST, uint32_t, sd_clock_hfclk_request(void));
bogdanm 0:eff01767de02 521
bogdanm 0:eff01767de02 522 /**@brief Releases the high frequency crystal oscillator.
bogdanm 0:eff01767de02 523 *
bogdanm 0:eff01767de02 524 * Will stop the high frequency crystal oscillator, this happens immediately.
bogdanm 0:eff01767de02 525 *
bogdanm 0:eff01767de02 526 * @see sd_clock_hfclk_is_running
bogdanm 0:eff01767de02 527 * @see sd_clock_hfclk_request
bogdanm 0:eff01767de02 528 *
bogdanm 0:eff01767de02 529 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 530 */
bogdanm 0:eff01767de02 531 SVCALL(SD_CLOCK_HFCLK_RELEASE, uint32_t, sd_clock_hfclk_release(void));
bogdanm 0:eff01767de02 532
bogdanm 0:eff01767de02 533 /**@brief Checks if the high frequency crystal oscillator is running.
bogdanm 0:eff01767de02 534 *
bogdanm 0:eff01767de02 535 * @see sd_clock_hfclk_request
bogdanm 0:eff01767de02 536 * @see sd_clock_hfclk_release
bogdanm 0:eff01767de02 537 *
bogdanm 0:eff01767de02 538 * @param[out] p_is_running 1 if the external crystal oscillator is running, 0 if not.
bogdanm 0:eff01767de02 539 *
bogdanm 0:eff01767de02 540 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 541 */
bogdanm 0:eff01767de02 542 SVCALL(SD_CLOCK_HFCLK_IS_RUNNING, uint32_t, sd_clock_hfclk_is_running(uint32_t * p_is_running));
bogdanm 0:eff01767de02 543
bogdanm 0:eff01767de02 544 /**@brief Waits for an application event.
bogdanm 0:eff01767de02 545 *
bogdanm 0:eff01767de02 546 * An application event is either an application interrupt or a pended interrupt when the
bogdanm 0:eff01767de02 547 * interrupt is disabled. When the interrupt is enabled it will be taken immediately since
bogdanm 0:eff01767de02 548 * this function will wait in thread mode, then the execution will return in the application's
bogdanm 0:eff01767de02 549 * main thread. When an interrupt is disabled and gets pended it will return to the application's
bogdanm 0:eff01767de02 550 * thread main. The application must ensure that the pended flag is cleared using
bogdanm 0:eff01767de02 551 * ::sd_nvic_ClearPendingIRQ in order to sleep using this function. This is only necessary for
bogdanm 0:eff01767de02 552 * disabled interrupts, as the interrupt handler will clear the pending flag automatically for
bogdanm 0:eff01767de02 553 * enabled interrupts.
bogdanm 0:eff01767de02 554 *
bogdanm 0:eff01767de02 555 * In order to wake up from disabled interrupts, the SEVONPEND flag has to be set in the Cortex-M0
bogdanm 0:eff01767de02 556 * System Control Register (SCR). @sa CMSIS_SCB
bogdanm 0:eff01767de02 557 *
bogdanm 0:eff01767de02 558 * @note If an application interrupt has happened since the last time sd_app_evt_wait was
bogdanm 0:eff01767de02 559 * called this function will return immediately and not go to sleep. This is to avoid race
bogdanm 0:eff01767de02 560 * conditions that can occur when a flag is updated in the interrupt handler and processed
bogdanm 0:eff01767de02 561 * in the main loop.
bogdanm 0:eff01767de02 562 *
bogdanm 0:eff01767de02 563 * @post An application interrupt has happened or a interrupt pending flag is set.
bogdanm 0:eff01767de02 564 *
bogdanm 0:eff01767de02 565 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 566 */
bogdanm 0:eff01767de02 567 SVCALL(SD_APP_EVT_WAIT, uint32_t, sd_app_evt_wait(void));
bogdanm 0:eff01767de02 568
bogdanm 0:eff01767de02 569 /**@brief Get PPI channel enable register contents.
bogdanm 0:eff01767de02 570 *
bogdanm 0:eff01767de02 571 * @param[out] p_channel_enable The contents of the PPI CHEN register.
bogdanm 0:eff01767de02 572 *
bogdanm 0:eff01767de02 573 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 574 */
bogdanm 0:eff01767de02 575 SVCALL(SD_PPI_CHANNEL_ENABLE_GET, uint32_t, sd_ppi_channel_enable_get(uint32_t * p_channel_enable));
bogdanm 0:eff01767de02 576
bogdanm 0:eff01767de02 577 /**@brief Set PPI channel enable register.
bogdanm 0:eff01767de02 578 *
bogdanm 0:eff01767de02 579 * @param[in] channel_enable_set_msk Mask containing the bits to set in the PPI CHEN register.
bogdanm 0:eff01767de02 580 *
bogdanm 0:eff01767de02 581 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 582 */
bogdanm 0:eff01767de02 583 SVCALL(SD_PPI_CHANNEL_ENABLE_SET, uint32_t, sd_ppi_channel_enable_set(uint32_t channel_enable_set_msk));
bogdanm 0:eff01767de02 584
bogdanm 0:eff01767de02 585 /**@brief Clear PPI channel enable register.
bogdanm 0:eff01767de02 586 *
bogdanm 0:eff01767de02 587 * @param[in] channel_enable_clr_msk Mask containing the bits to clear in the PPI CHEN register.
bogdanm 0:eff01767de02 588 *
bogdanm 0:eff01767de02 589 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 590 */
bogdanm 0:eff01767de02 591 SVCALL(SD_PPI_CHANNEL_ENABLE_CLR, uint32_t, sd_ppi_channel_enable_clr(uint32_t channel_enable_clr_msk));
bogdanm 0:eff01767de02 592
bogdanm 0:eff01767de02 593 /**@brief Assign endpoints to a PPI channel.
bogdanm 0:eff01767de02 594 *
bogdanm 0:eff01767de02 595 * @param[in] channel_num Number of the PPI channel to assign.
bogdanm 0:eff01767de02 596 * @param[in] evt_endpoint Event endpoint of the PPI channel.
bogdanm 0:eff01767de02 597 * @param[in] task_endpoint Task endpoint of the PPI channel.
bogdanm 0:eff01767de02 598 *
bogdanm 0:eff01767de02 599 * @retval ::NRF_ERROR_SOC_PPI_INVALID_CHANNEL The channel number is invalid.
bogdanm 0:eff01767de02 600 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 601 */
bogdanm 0:eff01767de02 602 SVCALL(SD_PPI_CHANNEL_ASSIGN, uint32_t, sd_ppi_channel_assign(uint8_t channel_num, const volatile void * evt_endpoint, const volatile void * task_endpoint));
bogdanm 0:eff01767de02 603
bogdanm 0:eff01767de02 604 /**@brief Task to enable a channel group.
bogdanm 0:eff01767de02 605 *
bogdanm 0:eff01767de02 606 * @param[in] group_num Number of the channel group.
bogdanm 0:eff01767de02 607 *
bogdanm 0:eff01767de02 608 * @retval ::NRF_ERROR_SOC_PPI_INVALID_GROUP The group number is invalid
bogdanm 0:eff01767de02 609 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 610 */
bogdanm 0:eff01767de02 611 SVCALL(SD_PPI_GROUP_TASK_ENABLE, uint32_t, sd_ppi_group_task_enable(uint8_t group_num));
bogdanm 0:eff01767de02 612
bogdanm 0:eff01767de02 613 /**@brief Task to disable a channel group.
bogdanm 0:eff01767de02 614 *
bogdanm 0:eff01767de02 615 * @param[in] group_num Number of the PPI group.
bogdanm 0:eff01767de02 616 *
bogdanm 0:eff01767de02 617 * @retval ::NRF_ERROR_SOC_PPI_INVALID_GROUP The group number is invalid.
bogdanm 0:eff01767de02 618 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 619 */
bogdanm 0:eff01767de02 620 SVCALL(SD_PPI_GROUP_TASK_DISABLE, uint32_t, sd_ppi_group_task_disable(uint8_t group_num));
bogdanm 0:eff01767de02 621
bogdanm 0:eff01767de02 622 /**@brief Assign PPI channels to a channel group.
bogdanm 0:eff01767de02 623 *
bogdanm 0:eff01767de02 624 * @param[in] group_num Number of the channel group.
bogdanm 0:eff01767de02 625 * @param[in] channel_msk Mask of the channels to assign to the group.
bogdanm 0:eff01767de02 626 *
bogdanm 0:eff01767de02 627 * @retval ::NRF_ERROR_SOC_PPI_INVALID_GROUP The group number is invalid.
bogdanm 0:eff01767de02 628 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 629 */
bogdanm 0:eff01767de02 630 SVCALL(SD_PPI_GROUP_ASSIGN, uint32_t, sd_ppi_group_assign(uint8_t group_num, uint32_t channel_msk));
bogdanm 0:eff01767de02 631
bogdanm 0:eff01767de02 632 /**@brief Gets the PPI channels of a channel group.
bogdanm 0:eff01767de02 633 *
bogdanm 0:eff01767de02 634 * @param[in] group_num Number of the channel group.
bogdanm 0:eff01767de02 635 * @param[out] p_channel_msk Mask of the channels assigned to the group.
bogdanm 0:eff01767de02 636 *
bogdanm 0:eff01767de02 637 * @retval ::NRF_ERROR_SOC_PPI_INVALID_GROUP The group number is invalid.
bogdanm 0:eff01767de02 638 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 639 */
bogdanm 0:eff01767de02 640 SVCALL(SD_PPI_GROUP_GET, uint32_t, sd_ppi_group_get(uint8_t group_num, uint32_t * p_channel_msk));
bogdanm 0:eff01767de02 641
bogdanm 0:eff01767de02 642 /**@brief Configures the Radio Notification signal.
bogdanm 0:eff01767de02 643 *
bogdanm 0:eff01767de02 644 * @note
bogdanm 0:eff01767de02 645 * - The notification signal latency depends on the interrupt priority settings of SWI used
bogdanm 0:eff01767de02 646 * for notification signal.
bogdanm 0:eff01767de02 647 * - In the period between the ACTIVE signal and the start of the Radio Event, the SoftDevice
bogdanm 0:eff01767de02 648 * will interrupt the application to do Radio Event preparation.
bogdanm 0:eff01767de02 649 * - Using the Radio Notification feature may limit the bandwidth, as the SoftDevice may have
bogdanm 0:eff01767de02 650 * to shorten the connection events to have time for the Radio Notification signals.
bogdanm 0:eff01767de02 651 *
bogdanm 0:eff01767de02 652 * @param[in] type Type of notification signal.
bogdanm 0:eff01767de02 653 * @ref NRF_RADIO_NOTIFICATION_TYPE_NONE shall be used to turn off radio
bogdanm 0:eff01767de02 654 * notification. Using @ref NRF_RADIO_NOTIFICATION_DISTANCE_NONE is
bogdanm 0:eff01767de02 655 * recommended (but not required) to be used with
bogdanm 0:eff01767de02 656 * @ref NRF_RADIO_NOTIFICATION_TYPE_NONE.
bogdanm 0:eff01767de02 657 *
bogdanm 0:eff01767de02 658 * @param[in] distance Distance between the notification signal and start of radio activity.
bogdanm 0:eff01767de02 659 * This parameter is ignored when @ref NRF_RADIO_NOTIFICATION_TYPE_NONE or
bogdanm 0:eff01767de02 660 * @ref NRF_RADIO_NOTIFICATION_TYPE_INT_ON_INACTIVE is used.
bogdanm 0:eff01767de02 661 *
bogdanm 0:eff01767de02 662 * @retval ::NRF_ERROR_INVALID_PARAM The group number is invalid.
bogdanm 0:eff01767de02 663 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 664 */
bogdanm 0:eff01767de02 665 SVCALL(SD_RADIO_NOTIFICATION_CFG_SET, uint32_t, sd_radio_notification_cfg_set(nrf_radio_notification_type_t type, nrf_radio_notification_distance_t distance));
bogdanm 0:eff01767de02 666
bogdanm 0:eff01767de02 667 /**@brief Encrypts a block according to the specified parameters.
bogdanm 0:eff01767de02 668 *
bogdanm 0:eff01767de02 669 * 128-bit AES encryption.
bogdanm 0:eff01767de02 670 *
bogdanm 0:eff01767de02 671 * @param[in, out] p_ecb_data Pointer to the ECB parameters' struct (two input
bogdanm 0:eff01767de02 672 * parameters and one output parameter).
bogdanm 0:eff01767de02 673 *
bogdanm 0:eff01767de02 674 * @retval ::NRF_SUCCESS
bogdanm 0:eff01767de02 675 */
bogdanm 0:eff01767de02 676 SVCALL(SD_ECB_BLOCK_ENCRYPT, uint32_t, sd_ecb_block_encrypt(nrf_ecb_hal_data_t * p_ecb_data));
bogdanm 0:eff01767de02 677
bogdanm 0:eff01767de02 678 /**@brief Gets any pending events generated by the SoC API.
bogdanm 0:eff01767de02 679 *
bogdanm 0:eff01767de02 680 * The application should keep calling this function to get events, until ::NRF_ERROR_NOT_FOUND is returned.
bogdanm 0:eff01767de02 681 *
bogdanm 0:eff01767de02 682 * @param[out] p_evt_id Set to one of the values in @ref NRF_SOC_EVTS, if any events are pending.
bogdanm 0:eff01767de02 683 *
bogdanm 0:eff01767de02 684 * @retval ::NRF_SUCCESS An event was pending. The event id is written in the p_evt_id parameter.
bogdanm 0:eff01767de02 685 * @retval ::NRF_ERROR_NOT_FOUND No pending events.
bogdanm 0:eff01767de02 686 */
bogdanm 0:eff01767de02 687 SVCALL(SD_EVT_GET, uint32_t, sd_evt_get(uint32_t * p_evt_id));
bogdanm 0:eff01767de02 688
bogdanm 0:eff01767de02 689 /**@brief Get the temperature measured on the chip
bogdanm 0:eff01767de02 690 *
bogdanm 0:eff01767de02 691 * This function will block until the temperature measurement is done.
bogdanm 0:eff01767de02 692 * It takes around 50us from call to return.
bogdanm 0:eff01767de02 693 *
bogdanm 0:eff01767de02 694 * @note Pan #28 in PAN-028 v 1.6 "Negative measured values are not represented correctly" is corrected by this function.
bogdanm 0:eff01767de02 695 *
bogdanm 0:eff01767de02 696 * @param[out] p_temp Result of temperature measurement. Die temperature in 0.25 degrees celsius.
bogdanm 0:eff01767de02 697 *
bogdanm 0:eff01767de02 698 * @retval ::NRF_SUCCESS A temperature measurement was done, and the temperature was written to temp
bogdanm 0:eff01767de02 699 */
bogdanm 0:eff01767de02 700 SVCALL(SD_TEMP_GET, uint32_t, sd_temp_get(int32_t * p_temp));
bogdanm 0:eff01767de02 701
bogdanm 0:eff01767de02 702 /**@brief Flash Write
bogdanm 0:eff01767de02 703 *
bogdanm 0:eff01767de02 704 * Commands to write a buffer to flash
bogdanm 0:eff01767de02 705 *
bogdanm 0:eff01767de02 706 * This call initiates the flash access command, and its completion will be communicated to the
bogdanm 0:eff01767de02 707 * application with exactly one of the following events:
bogdanm 0:eff01767de02 708 * - NRF_EVT_FLASH_OPERATION_SUCCESS - The command was successfully completed.
bogdanm 0:eff01767de02 709 * - NRF_EVT_FLASH_OPERATION_ERROR - The command could not be started.
bogdanm 0:eff01767de02 710 *
bogdanm 0:eff01767de02 711 * @note
bogdanm 0:eff01767de02 712 * - This call takes control over the radio and the CPU during flash erase and write to make sure that
bogdanm 0:eff01767de02 713 * they will not interfere with the flash access. This means that all interrupts will be blocked
bogdanm 0:eff01767de02 714 * for a predictable time (depending on the NVMC specification in nRF51 Series Reference Manual
bogdanm 0:eff01767de02 715 * and the command parameters).
bogdanm 0:eff01767de02 716 *
bogdanm 0:eff01767de02 717 *
bogdanm 0:eff01767de02 718 * @param[in] p_dst Pointer to start of flash location to be written.
bogdanm 0:eff01767de02 719 * @param[in] p_src Pointer to buffer with data to be written
bogdanm 0:eff01767de02 720 * @param[in] size Number of 32-bit words to write. Maximum size is 256 32bit words.
bogdanm 0:eff01767de02 721 *
bogdanm 0:eff01767de02 722 * @retval ::NRF_ERROR_INVALID_ADDR Tried to write to a non existing flash address, or p_dst or p_src was unaligned.
bogdanm 0:eff01767de02 723 * @retval ::NRF_ERROR_BUSY The previous command has not yet completed.
bogdanm 0:eff01767de02 724 * @retval ::NRF_ERROR_INVALID_LENGTH Size was 0, or more than 256 words.
bogdanm 0:eff01767de02 725 * @retval ::NRF_ERROR_FORBIDDEN Tried to write to or read from protected location.
bogdanm 0:eff01767de02 726 * @retval ::NRF_SUCCESS The command was accepted.
bogdanm 0:eff01767de02 727 */
bogdanm 0:eff01767de02 728 SVCALL(SD_FLASH_WRITE, uint32_t, sd_flash_write(uint32_t * const p_dst, uint32_t const * const p_src, uint32_t size));
bogdanm 0:eff01767de02 729
bogdanm 0:eff01767de02 730
bogdanm 0:eff01767de02 731 /**@brief Flash Erase page
bogdanm 0:eff01767de02 732 *
bogdanm 0:eff01767de02 733 * Commands to erase a flash page
bogdanm 0:eff01767de02 734 *
bogdanm 0:eff01767de02 735 * This call initiates the flash access command, and its completion will be communicated to the
bogdanm 0:eff01767de02 736 * application with exactly one of the following events:
bogdanm 0:eff01767de02 737 * - NRF_EVT_FLASH_OPERATION_SUCCESS - The command was successfully completed.
bogdanm 0:eff01767de02 738 * - NRF_EVT_FLASH_OPERATION_ERROR - The command could not be started.
bogdanm 0:eff01767de02 739 *
bogdanm 0:eff01767de02 740 * @note
bogdanm 0:eff01767de02 741 * - This call takes control over the radio and the CPU during flash erase and write to make sure that
bogdanm 0:eff01767de02 742 * they will not interfere with the flash access. This means that all interrupts will be blocked
bogdanm 0:eff01767de02 743 * for a predictable time (depending on the NVMC specification in nRF51 Series Reference Manual
bogdanm 0:eff01767de02 744 * and the command parameters).
bogdanm 0:eff01767de02 745 *
bogdanm 0:eff01767de02 746 *
bogdanm 0:eff01767de02 747 * @param[in] page_number Pagenumber of the page to erase
bogdanm 0:eff01767de02 748 * @retval ::NRF_ERROR_INTERNAL If a new session could not be opened due to an internal error.
bogdanm 0:eff01767de02 749 * @retval ::NRF_ERROR_INVALID_ADDR Tried to erase to a non existing flash page.
bogdanm 0:eff01767de02 750 * @retval ::NRF_ERROR_BUSY The previous command has not yet completed.
bogdanm 0:eff01767de02 751 * @retval ::NRF_ERROR_FORBIDDEN Tried to erase a protected page.
bogdanm 0:eff01767de02 752 * @retval ::NRF_SUCCESS The command was accepted.
bogdanm 0:eff01767de02 753 */
bogdanm 0:eff01767de02 754 SVCALL(SD_FLASH_ERASE_PAGE, uint32_t, sd_flash_page_erase(uint32_t page_number));
bogdanm 0:eff01767de02 755
bogdanm 0:eff01767de02 756
bogdanm 0:eff01767de02 757 /**@brief Flash Protection set
bogdanm 0:eff01767de02 758 *
bogdanm 0:eff01767de02 759 * Commands to set the flash protection registers PROTENSETx
bogdanm 0:eff01767de02 760 *
bogdanm 0:eff01767de02 761 * @note To read the values in PROTENSETx you can read them directly. They are only write-protected.
bogdanm 0:eff01767de02 762 *
bogdanm 0:eff01767de02 763 * @param[in] protenset0 Value to be written to PROTENSET0
bogdanm 0:eff01767de02 764 * @param[in] protenset1 Value to be written to PROTENSET1
bogdanm 0:eff01767de02 765 *
bogdanm 0:eff01767de02 766 * @retval ::NRF_ERROR_FORBIDDEN Tried to protect the SoftDevice
bogdanm 0:eff01767de02 767 * @retval ::NRF_SUCCESS Values successfully written to PROTENSETx
bogdanm 0:eff01767de02 768 */
bogdanm 0:eff01767de02 769 SVCALL(SD_FLASH_PROTECT, uint32_t, sd_flash_protect(uint32_t protenset0, uint32_t protenset1));
bogdanm 0:eff01767de02 770
bogdanm 0:eff01767de02 771
bogdanm 0:eff01767de02 772 /** @} */
bogdanm 0:eff01767de02 773
bogdanm 0:eff01767de02 774 #endif // NRF_SOC_H__
bogdanm 0:eff01767de02 775
bogdanm 0:eff01767de02 776 /**
bogdanm 0:eff01767de02 777 @}
bogdanm 0:eff01767de02 778 */