modules/hal_nordic/nrfx/nrfx_glue.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2018, Nordic Semiconductor ASA
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef NRFX_GLUE_H__
 #define NRFX_GLUE_H__

 #include <sys/__assert.h>
 #include <sys/atomic.h>
 #include <irq.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * @defgroup nrfx_glue nrfx_glue.h
  * @{
  * @ingroup nrfx
  *
  * @brief This file contains macros that should be implemented according to
  *        the needs of the host environment into which @em nrfx is integrated.
  */

 //------------------------------------------------------------------------------

 /**
  * @brief Macro for placing a runtime assertion.
  *
  * @param expression Expression to be evaluated.
  */
 #ifndef NRFX_ASSERT
 #define NRFX_ASSERT(expression)  __ASSERT_NO_MSG(expression)
 #endif

 /**
  * @brief Macro for placing a compile time assertion.
  *
  * @param expression Expression to be evaluated.
  */
 #define NRFX_STATIC_ASSERT(expression) \
         BUILD_ASSERT(expression, "assertion failed")

 //------------------------------------------------------------------------------

 /**
  * @brief Macro for setting the priority of a specific IRQ.
  *
  * @param irq_number IRQ number.
  * @param priority   Priority to be set.
  */
 #define NRFX_IRQ_PRIORITY_SET(irq_number, priority)  // Intentionally empty.
                                                      // Priorities of IRQs are
                                                      // set through IRQ_CONNECT.

 /**
  * @brief Macro for enabling a specific IRQ.
  *
  * @param irq_number IRQ number.
  */
 #define NRFX_IRQ_ENABLE(irq_number)  irq_enable(irq_number)

 /**
  * @brief Macro for checking if a specific IRQ is enabled.
  *
  * @param irq_number IRQ number.
  *
  * @retval true  If the IRQ is enabled.
  * @retval false Otherwise.
  */
 #define NRFX_IRQ_IS_ENABLED(irq_number)  irq_is_enabled(irq_number)

 /**
  * @brief Macro for disabling a specific IRQ.
  *
  * @param irq_number IRQ number.
  */
 #define NRFX_IRQ_DISABLE(irq_number)  irq_disable(irq_number)

 /**
  * @brief Macro for setting a specific IRQ as pending.
  *
  * @param irq_number IRQ number.
  */
 #define NRFX_IRQ_PENDING_SET(irq_number)  NVIC_SetPendingIRQ(irq_number)

 /**
  * @brief Macro for clearing the pending status of a specific IRQ.
  *
  * @param irq_number IRQ number.
  */
 #define NRFX_IRQ_PENDING_CLEAR(irq_number)  NVIC_ClearPendingIRQ(irq_number)

 /**
  * @brief Macro for checking the pending status of a specific IRQ.
  *
  * @retval true  If the IRQ is pending.
  * @retval false Otherwise.
  */
 #define NRFX_IRQ_IS_PENDING(irq_number)  (NVIC_GetPendingIRQ(irq_number) == 1)

 /** @brief Macro for entering into a critical section. */
 #define NRFX_CRITICAL_SECTION_ENTER()  { unsigned int irq_lock_key = irq_lock();

 /** @brief Macro for exiting from a critical section. */
 #define NRFX_CRITICAL_SECTION_EXIT()     irq_unlock(irq_lock_key); }

 //------------------------------------------------------------------------------

 /**
  * @brief When set to a non-zero value, this macro specifies that
  *        @ref nrfx_coredep_delay_us uses a precise DWT-based solution.
  *        A compilation error is generated if the DWT unit is not present
  *        in the SoC used.
  */
 #define NRFX_DELAY_DWT_BASED    0

 /**
  * @brief Macro for delaying the code execution for at least the specified time.
  *
  * @param us_time Number of microseconds to wait.
  */
 #define NRFX_DELAY_US(us_time)  nrfx_busy_wait(us_time)
 /* This is a k_busy_wait wrapper, added to avoid the inclusion of kernel.h */
 void nrfx_busy_wait(uint32_t usec_to_wait);

 //------------------------------------------------------------------------------

 /** @brief Atomic 32-bit unsigned type. */
 #define nrfx_atomic_t  atomic_t

 /**
  * @brief Macro for storing a value to an atomic object and returning its previous value.
  *
  * @param[in] p_data Atomic memory pointer.
  * @param[in] value  Value to store.
  *
  * @return Previous value of the atomic object.
  */
 #define NRFX_ATOMIC_FETCH_STORE(p_data, value)  atomic_set(p_data, value)

 /**
  * @brief Macro for running a bitwise OR operation on an atomic object and returning its previous value.
  *
  * @param[in] p_data Atomic memory pointer.
  * @param[in] value  Value of the second operand in the OR operation.
  *
  * @return Previous value of the atomic object.
  */
 #define NRFX_ATOMIC_FETCH_OR(p_data, value)  atomic_or(p_data, value)

 /**
  * @brief Macro for running a bitwise AND operation on an atomic object
  *        and returning its previous value.
  *
  * @param[in] p_data Atomic memory pointer.
  * @param[in] value  Value of the second operand in the AND operation.
  *
  * @return Previous value of the atomic object.
  */
 #define NRFX_ATOMIC_FETCH_AND(p_data, value)  atomic_and(p_data, value)

 /**
  * @brief Macro for running a bitwise XOR operation on an atomic object
  *        and returning its previous value.
  *
  * @param[in] p_data Atomic memory pointer.
  * @param[in] value  Value of the second operand in the XOR operation.
  *
  * @return Previous value of the atomic object.
  */
 #define NRFX_ATOMIC_FETCH_XOR(p_data, value)  atomic_xor(p_data, value)

 /**
  * @brief Macro for running an addition operation on an atomic object
  *        and returning its previous value.
  *
  * @param[in] p_data Atomic memory pointer.
  * @param[in] value  Value of the second operand in the ADD operation.
  *
  * @return Previous value of the atomic object.
  */
 #define NRFX_ATOMIC_FETCH_ADD(p_data, value)  atomic_add(p_data, value)

 /**
  * @brief Macro for running a subtraction operation on an atomic object
  *        and returning its previous value.
  *
  * @param[in] p_data Atomic memory pointer.
  * @param[in] value  Value of the second operand in the SUB operation.
  *
  * @return Previous value of the atomic object.
  */
 #define NRFX_ATOMIC_FETCH_SUB(p_data, value)  atomic_sub(p_data, value)

 //------------------------------------------------------------------------------

 /**
  * @brief When set to a non-zero value, this macro specifies that the
  *        @ref nrfx_error_codes and the @ref nrfx_err_t type itself are defined
  *        in a customized way and the default definitions from @c <nrfx_error.h>
  *        should not be used.
  */
 #define NRFX_CUSTOM_ERROR_CODES 0

 //------------------------------------------------------------------------------

 /**
  * @brief When set to a non-zero value, this macro specifies that inside HALs
  *        the event registers are read back after clearing, on devices that
  *        otherwise could defer the actual register modification.
  */
 #define NRFX_EVENT_READBACK_ENABLED 1

 //------------------------------------------------------------------------------

 /** @brief Bitmask that defines DPPI channels that are reserved for use outside of the nrfx library. */
 #define NRFX_DPPI_CHANNELS_USED   (NRFX_PPI_CHANNELS_USED_BY_BT_CTLR |    \
 				   NRFX_PPI_CHANNELS_USED_BY_802154_DRV | \
 				   NRFX_PPI_CHANNELS_USED_BY_MPSL)

 /** @brief Bitmask that defines DPPI groups that are reserved for use outside of the nrfx library. */
 #define NRFX_DPPI_GROUPS_USED     (NRFX_PPI_GROUPS_USED_BY_BT_CTLR |    \
 				   NRFX_PPI_GROUPS_USED_BY_802154_DRV | \
 				   NRFX_PPI_GROUPS_USED_BY_MPSL)

 /** @brief Bitmask that defines PPI channels that are reserved for use outside of the nrfx library. */
 #define NRFX_PPI_CHANNELS_USED    (NRFX_PPI_CHANNELS_USED_BY_BT_CTLR |    \
 				   NRFX_PPI_CHANNELS_USED_BY_802154_DRV | \
 				   NRFX_PPI_CHANNELS_USED_BY_MPSL |       \
 				   NRFX_PPI_CHANNELS_USED_BY_PWM_SW)

 /** @brief Bitmask that defines PPI groups that are reserved for use outside of the nrfx library. */
 #define NRFX_PPI_GROUPS_USED      (NRFX_PPI_GROUPS_USED_BY_BT_CTLR |    \
 				   NRFX_PPI_GROUPS_USED_BY_802154_DRV | \
 				   NRFX_PPI_GROUPS_USED_BY_MPSL)

 /** @brief Bitmask that defines GPIOTE channels that are reserved for use outside of the nrfx library. */
 #define NRFX_GPIOTE_CHANNELS_USED NRFX_GPIOTE_CHANNELS_USED_BY_PWM_SW

 #if defined(CONFIG_BT_CTLR)
 extern const uint32_t z_bt_ctlr_used_nrf_ppi_channels;
 extern const uint32_t z_bt_ctlr_used_nrf_ppi_groups;
 #define NRFX_PPI_CHANNELS_USED_BY_BT_CTLR   z_bt_ctlr_used_nrf_ppi_channels
 #define NRFX_PPI_GROUPS_USED_BY_BT_CTLR     z_bt_ctlr_used_nrf_ppi_groups
 #else
 #define NRFX_PPI_CHANNELS_USED_BY_BT_CTLR   0
 #define NRFX_PPI_GROUPS_USED_BY_BT_CTLR     0
 #endif

 #if defined(CONFIG_NRF_802154_RADIO_DRIVER)
 extern const uint32_t g_nrf_802154_used_nrf_ppi_channels;
 extern const uint32_t g_nrf_802154_used_nrf_ppi_groups;
 #define NRFX_PPI_CHANNELS_USED_BY_802154_DRV   g_nrf_802154_used_nrf_ppi_channels
 #define NRFX_PPI_GROUPS_USED_BY_802154_DRV     g_nrf_802154_used_nrf_ppi_groups
 #else
 #define NRFX_PPI_CHANNELS_USED_BY_802154_DRV   0
 #define NRFX_PPI_GROUPS_USED_BY_802154_DRV     0
 #endif

 #if defined(CONFIG_NRF_802154_RADIO_DRIVER) && \
 	!defined(CONFIG_NRF_802154_SL_OPENSOURCE)
 extern const uint32_t z_mpsl_used_nrf_ppi_channels;
 extern const uint32_t z_mpsl_used_nrf_ppi_groups;
 #define NRFX_PPI_CHANNELS_USED_BY_MPSL   z_mpsl_used_nrf_ppi_channels
 #define NRFX_PPI_GROUPS_USED_BY_MPSL     z_mpsl_used_nrf_ppi_groups
 #else
 #define NRFX_PPI_CHANNELS_USED_BY_MPSL   0
 #define NRFX_PPI_GROUPS_USED_BY_MPSL     0
 #endif

 #if defined(CONFIG_PWM_NRF5_SW)
 #define PWM_NRF5_SW_NODE DT_INST(0, nordic_nrf_sw_pwm)
 #define PWM_NRF5_SW_GENERATOR_NODE DT_PHANDLE(PWM_NRF5_SW_NODE, generator)
 #if DT_NODE_HAS_COMPAT(PWM_NRF5_SW_GENERATOR_NODE, nordic_nrf_rtc)
 #define PWM_NRF5_SW_PPI_CHANNELS_PER_PIN	3
 #else
 #define PWM_NRF5_SW_PPI_CHANNELS_PER_PIN	2
 #endif /* DT_NODE_HAS_COMPAT(PWM_NRF5_SW_GENERATOR_NODE, nordic_nrf_rtc) */
 #define NRFX_PPI_CHANNELS_USED_BY_PWM_SW \
     (BIT_MASK(DT_PROP(PWM_NRF5_SW_NODE, channel_count) *	\
 	      PWM_NRF5_SW_PPI_CHANNELS_PER_PIN)			\
          << DT_PROP(PWM_NRF5_SW_NODE, ppi_base))
 #define NRFX_GPIOTE_CHANNELS_USED_BY_PWM_SW \
     DT_PROP(PWM_NRF5_SW_NODE, channel_count)
 #else
 #define NRFX_PPI_CHANNELS_USED_BY_PWM_SW    0
 #define NRFX_GPIOTE_CHANNELS_USED_BY_PWM_SW 0
 #endif

 /** @brief Bitmask that defines EGU instances that are reserved for use outside of the nrfx library. */
 #define NRFX_EGUS_USED            0

 /** @brief Bitmask that defines TIMER instances that are reserved for use outside of the nrfx library. */
 #define NRFX_TIMERS_USED          0

 //------------------------------------------------------------------------------

 /**
  * @brief Function helping to integrate nrfx IRQ handlers with IRQ_CONNECT.
  *
  * This function simply calls the nrfx IRQ handler supplied as the parameter.
  * It is intended to be used in the following way:
  * IRQ_CONNECT(IRQ_NUM, IRQ_PRI, nrfx_isr, nrfx_..._irq_handler, 0);
  *
  * @param[in] irq_handler  Pointer to the nrfx IRQ handler to be called.
  */
 void nrfx_isr(const void *irq_handler);

 #if defined(CONFIG_SOC_SERIES_BSIM_NRFXX)
 #include "nrfx_glue_bsim.h"
 #endif

 /** @} */

 #ifdef __cplusplus
 }
 #endif

 #endif // NRFX_GLUE_H__
	/*
	* Copyright (c) 2018, Nordic Semiconductor ASA
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef NRFX_GLUE_H__
	#define NRFX_GLUE_H__

	#include <sys/__assert.h>
	#include <sys/atomic.h>
	#include <irq.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @defgroup nrfx_glue nrfx_glue.h
	* @{
	* @ingroup nrfx
	*
	* @brief This file contains macros that should be implemented according to
	* the needs of the host environment into which @em nrfx is integrated.
	*/

	//------------------------------------------------------------------------------

	/**
	* @brief Macro for placing a runtime assertion.
	*
	* @param expression Expression to be evaluated.
	*/
	#ifndef NRFX_ASSERT
	#define NRFX_ASSERT(expression) __ASSERT_NO_MSG(expression)
	#endif

	/**
	* @brief Macro for placing a compile time assertion.
	*
	* @param expression Expression to be evaluated.
	*/
	#define NRFX_STATIC_ASSERT(expression) \
	BUILD_ASSERT(expression, "assertion failed")

	//------------------------------------------------------------------------------

	/**
	* @brief Macro for setting the priority of a specific IRQ.
	*
	* @param irq_number IRQ number.
	* @param priority Priority to be set.
	*/
	#define NRFX_IRQ_PRIORITY_SET(irq_number, priority) // Intentionally empty.
	// Priorities of IRQs are
	// set through IRQ_CONNECT.

	/**
	* @brief Macro for enabling a specific IRQ.
	*
	* @param irq_number IRQ number.
	*/
	#define NRFX_IRQ_ENABLE(irq_number) irq_enable(irq_number)

	/**
	* @brief Macro for checking if a specific IRQ is enabled.
	*
	* @param irq_number IRQ number.
	*
	* @retval true If the IRQ is enabled.
	* @retval false Otherwise.
	*/
	#define NRFX_IRQ_IS_ENABLED(irq_number) irq_is_enabled(irq_number)

	/**
	* @brief Macro for disabling a specific IRQ.
	*
	* @param irq_number IRQ number.
	*/
	#define NRFX_IRQ_DISABLE(irq_number) irq_disable(irq_number)

	/**
	* @brief Macro for setting a specific IRQ as pending.
	*
	* @param irq_number IRQ number.
	*/
	#define NRFX_IRQ_PENDING_SET(irq_number) NVIC_SetPendingIRQ(irq_number)

	/**
	* @brief Macro for clearing the pending status of a specific IRQ.
	*
	* @param irq_number IRQ number.
	*/
	#define NRFX_IRQ_PENDING_CLEAR(irq_number) NVIC_ClearPendingIRQ(irq_number)

	/**
	* @brief Macro for checking the pending status of a specific IRQ.
	*
	* @retval true If the IRQ is pending.
	* @retval false Otherwise.
	*/
	#define NRFX_IRQ_IS_PENDING(irq_number) (NVIC_GetPendingIRQ(irq_number) == 1)

	/** @brief Macro for entering into a critical section. */
	#define NRFX_CRITICAL_SECTION_ENTER() { unsigned int irq_lock_key = irq_lock();

	/** @brief Macro for exiting from a critical section. */
	#define NRFX_CRITICAL_SECTION_EXIT() irq_unlock(irq_lock_key); }

	//------------------------------------------------------------------------------

	/**
	* @brief When set to a non-zero value, this macro specifies that
	* @ref nrfx_coredep_delay_us uses a precise DWT-based solution.
	* A compilation error is generated if the DWT unit is not present
	* in the SoC used.
	*/
	#define NRFX_DELAY_DWT_BASED 0

	/**
	* @brief Macro for delaying the code execution for at least the specified time.
	*
	* @param us_time Number of microseconds to wait.
	*/
	#define NRFX_DELAY_US(us_time) nrfx_busy_wait(us_time)
	/* This is a k_busy_wait wrapper, added to avoid the inclusion of kernel.h */
	void nrfx_busy_wait(uint32_t usec_to_wait);

	//------------------------------------------------------------------------------

	/** @brief Atomic 32-bit unsigned type. */
	#define nrfx_atomic_t atomic_t

	/**
	* @brief Macro for storing a value to an atomic object and returning its previous value.
	*
	* @param[in] p_data Atomic memory pointer.
	* @param[in] value Value to store.
	*
	* @return Previous value of the atomic object.
	*/
	#define NRFX_ATOMIC_FETCH_STORE(p_data, value) atomic_set(p_data, value)

	/**
	* @brief Macro for running a bitwise OR operation on an atomic object and returning its previous value.
	*
	* @param[in] p_data Atomic memory pointer.
	* @param[in] value Value of the second operand in the OR operation.
	*
	* @return Previous value of the atomic object.
	*/
	#define NRFX_ATOMIC_FETCH_OR(p_data, value) atomic_or(p_data, value)

	/**
	* @brief Macro for running a bitwise AND operation on an atomic object
	* and returning its previous value.
	*
	* @param[in] p_data Atomic memory pointer.
	* @param[in] value Value of the second operand in the AND operation.
	*
	* @return Previous value of the atomic object.
	*/
	#define NRFX_ATOMIC_FETCH_AND(p_data, value) atomic_and(p_data, value)

	/**
	* @brief Macro for running a bitwise XOR operation on an atomic object
	* and returning its previous value.
	*
	* @param[in] p_data Atomic memory pointer.
	* @param[in] value Value of the second operand in the XOR operation.
	*
	* @return Previous value of the atomic object.
	*/
	#define NRFX_ATOMIC_FETCH_XOR(p_data, value) atomic_xor(p_data, value)

	/**
	* @brief Macro for running an addition operation on an atomic object
	* and returning its previous value.
	*
	* @param[in] p_data Atomic memory pointer.
	* @param[in] value Value of the second operand in the ADD operation.
	*
	* @return Previous value of the atomic object.
	*/
	#define NRFX_ATOMIC_FETCH_ADD(p_data, value) atomic_add(p_data, value)

	/**
	* @brief Macro for running a subtraction operation on an atomic object
	* and returning its previous value.
	*
	* @param[in] p_data Atomic memory pointer.
	* @param[in] value Value of the second operand in the SUB operation.
	*
	* @return Previous value of the atomic object.
	*/
	#define NRFX_ATOMIC_FETCH_SUB(p_data, value) atomic_sub(p_data, value)

	//------------------------------------------------------------------------------

	/**
	* @brief When set to a non-zero value, this macro specifies that the
	* @ref nrfx_error_codes and the @ref nrfx_err_t type itself are defined
	* in a customized way and the default definitions from @c <nrfx_error.h>
	* should not be used.
	*/
	#define NRFX_CUSTOM_ERROR_CODES 0

	//------------------------------------------------------------------------------

	/**
	* @brief When set to a non-zero value, this macro specifies that inside HALs
	* the event registers are read back after clearing, on devices that
	* otherwise could defer the actual register modification.
	*/
	#define NRFX_EVENT_READBACK_ENABLED 1

	//------------------------------------------------------------------------------

	/** @brief Bitmask that defines DPPI channels that are reserved for use outside of the nrfx library. */
	#define NRFX_DPPI_CHANNELS_USED (NRFX_PPI_CHANNELS_USED_BY_BT_CTLR \| \
	NRFX_PPI_CHANNELS_USED_BY_802154_DRV \| \
	NRFX_PPI_CHANNELS_USED_BY_MPSL)

	/** @brief Bitmask that defines DPPI groups that are reserved for use outside of the nrfx library. */
	#define NRFX_DPPI_GROUPS_USED (NRFX_PPI_GROUPS_USED_BY_BT_CTLR \| \
	NRFX_PPI_GROUPS_USED_BY_802154_DRV \| \
	NRFX_PPI_GROUPS_USED_BY_MPSL)

	/** @brief Bitmask that defines PPI channels that are reserved for use outside of the nrfx library. */
	#define NRFX_PPI_CHANNELS_USED (NRFX_PPI_CHANNELS_USED_BY_BT_CTLR \| \
	NRFX_PPI_CHANNELS_USED_BY_802154_DRV \| \
	NRFX_PPI_CHANNELS_USED_BY_MPSL \| \
	NRFX_PPI_CHANNELS_USED_BY_PWM_SW)

	/** @brief Bitmask that defines PPI groups that are reserved for use outside of the nrfx library. */
	#define NRFX_PPI_GROUPS_USED (NRFX_PPI_GROUPS_USED_BY_BT_CTLR \| \
	NRFX_PPI_GROUPS_USED_BY_802154_DRV \| \
	NRFX_PPI_GROUPS_USED_BY_MPSL)

	/** @brief Bitmask that defines GPIOTE channels that are reserved for use outside of the nrfx library. */
	#define NRFX_GPIOTE_CHANNELS_USED NRFX_GPIOTE_CHANNELS_USED_BY_PWM_SW

	#if defined(CONFIG_BT_CTLR)
	extern const uint32_t z_bt_ctlr_used_nrf_ppi_channels;
	extern const uint32_t z_bt_ctlr_used_nrf_ppi_groups;
	#define NRFX_PPI_CHANNELS_USED_BY_BT_CTLR z_bt_ctlr_used_nrf_ppi_channels
	#define NRFX_PPI_GROUPS_USED_BY_BT_CTLR z_bt_ctlr_used_nrf_ppi_groups
	#else
	#define NRFX_PPI_CHANNELS_USED_BY_BT_CTLR 0
	#define NRFX_PPI_GROUPS_USED_BY_BT_CTLR 0
	#endif

	#if defined(CONFIG_NRF_802154_RADIO_DRIVER)
	extern const uint32_t g_nrf_802154_used_nrf_ppi_channels;
	extern const uint32_t g_nrf_802154_used_nrf_ppi_groups;
	#define NRFX_PPI_CHANNELS_USED_BY_802154_DRV g_nrf_802154_used_nrf_ppi_channels
	#define NRFX_PPI_GROUPS_USED_BY_802154_DRV g_nrf_802154_used_nrf_ppi_groups
	#else
	#define NRFX_PPI_CHANNELS_USED_BY_802154_DRV 0
	#define NRFX_PPI_GROUPS_USED_BY_802154_DRV 0
	#endif

	#if defined(CONFIG_NRF_802154_RADIO_DRIVER) && \
	!defined(CONFIG_NRF_802154_SL_OPENSOURCE)
	extern const uint32_t z_mpsl_used_nrf_ppi_channels;
	extern const uint32_t z_mpsl_used_nrf_ppi_groups;
	#define NRFX_PPI_CHANNELS_USED_BY_MPSL z_mpsl_used_nrf_ppi_channels
	#define NRFX_PPI_GROUPS_USED_BY_MPSL z_mpsl_used_nrf_ppi_groups
	#else
	#define NRFX_PPI_CHANNELS_USED_BY_MPSL 0
	#define NRFX_PPI_GROUPS_USED_BY_MPSL 0
	#endif

	#if defined(CONFIG_PWM_NRF5_SW)
	#define PWM_NRF5_SW_NODE DT_INST(0, nordic_nrf_sw_pwm)
	#define PWM_NRF5_SW_GENERATOR_NODE DT_PHANDLE(PWM_NRF5_SW_NODE, generator)
	#if DT_NODE_HAS_COMPAT(PWM_NRF5_SW_GENERATOR_NODE, nordic_nrf_rtc)
	#define PWM_NRF5_SW_PPI_CHANNELS_PER_PIN 3
	#else
	#define PWM_NRF5_SW_PPI_CHANNELS_PER_PIN 2
	#endif /* DT_NODE_HAS_COMPAT(PWM_NRF5_SW_GENERATOR_NODE, nordic_nrf_rtc) */
	#define NRFX_PPI_CHANNELS_USED_BY_PWM_SW \
	(BIT_MASK(DT_PROP(PWM_NRF5_SW_NODE, channel_count) * \
	PWM_NRF5_SW_PPI_CHANNELS_PER_PIN) \
	<< DT_PROP(PWM_NRF5_SW_NODE, ppi_base))
	#define NRFX_GPIOTE_CHANNELS_USED_BY_PWM_SW \
	DT_PROP(PWM_NRF5_SW_NODE, channel_count)
	#else
	#define NRFX_PPI_CHANNELS_USED_BY_PWM_SW 0
	#define NRFX_GPIOTE_CHANNELS_USED_BY_PWM_SW 0
	#endif

	/** @brief Bitmask that defines EGU instances that are reserved for use outside of the nrfx library. */
	#define NRFX_EGUS_USED 0

	/** @brief Bitmask that defines TIMER instances that are reserved for use outside of the nrfx library. */
	#define NRFX_TIMERS_USED 0

	//------------------------------------------------------------------------------

	/**
	* @brief Function helping to integrate nrfx IRQ handlers with IRQ_CONNECT.
	*
	* This function simply calls the nrfx IRQ handler supplied as the parameter.
	* It is intended to be used in the following way:
	* IRQ_CONNECT(IRQ_NUM, IRQ_PRI, nrfx_isr, nrfx_..._irq_handler, 0);
	*
	* @param[in] irq_handler Pointer to the nrfx IRQ handler to be called.
	*/
	void nrfx_isr(const void *irq_handler);

	#if defined(CONFIG_SOC_SERIES_BSIM_NRFXX)
	#include "nrfx_glue_bsim.h"
	#endif

	/** @} */

	#ifdef __cplusplus
	}
	#endif

	#endif // NRFX_GLUE_H__