AAR HAL
- group nrf_aar_hal
Hardware access layer for managing the Accelerated Address Resolver (AAR) peripheral.
Enums
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enum nrf_aar_event_t
AAR events.
Values:
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enumerator NRF_AAR_EVENT_END
Address resolution procedure complete.
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enumerator NRF_AAR_EVENT_RESOLVED
Address resolved.
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enumerator NRF_AAR_EVENT_NOTRESOLVED
Address not resolved.
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enumerator NRF_AAR_EVENT_END
Functions
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NRF_STATIC_INLINE bool nrf_aar_event_check(NRF_AAR_Type const *p_reg, nrf_aar_event_t event)
Function for retrieving the state of the AAR event.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event to be checked.
- Return values:
true – Event is set.
false – Event is not set.
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NRF_STATIC_INLINE void nrf_aar_event_clear(NRF_AAR_Type *p_reg, nrf_aar_event_t event)
Function for clearing the specified AAR event.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event to be cleared.
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NRF_STATIC_INLINE uint32_t nrf_aar_event_address_get(NRF_AAR_Type const *p_reg, nrf_aar_event_t event)
Function for getting the address of the specified AAR event register.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event to get the address of.
- Returns:
Address of the specified event register.
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NRF_STATIC_INLINE void nrf_aar_int_enable(NRF_AAR_Type *p_reg, uint32_t mask)
Function for enabling the specified interrupts.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of interrupts to be enabled.
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NRF_STATIC_INLINE uint32_t nrf_aar_int_enable_check(NRF_AAR_Type const *p_reg, uint32_t mask)
Function for checking if the specified interrupts are enabled.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of interrupts to be checked.
- Returns:
Mask of enabled interrupts.
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NRF_STATIC_INLINE void nrf_aar_int_disable(NRF_AAR_Type *p_reg, uint32_t mask)
Function for disabling the specified interrupts.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of interrupts to be disabled.
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NRF_STATIC_INLINE void nrf_aar_task_trigger(NRF_AAR_Type *p_reg, nrf_aar_task_t task)
Function for starting an AAR task.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task to be activated.
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NRF_STATIC_INLINE uint32_t nrf_aar_task_address_get(NRF_AAR_Type const *p_reg, nrf_aar_task_t task)
Function for getting the address of a specific AAR task register.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Requested AAR task.
- Returns:
Address of the specified task register.
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NRF_STATIC_INLINE void nrf_aar_enable(NRF_AAR_Type *p_reg)
Function for enabling AAR.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
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NRF_STATIC_INLINE void nrf_aar_disable(NRF_AAR_Type *p_reg)
Function for disabling AAR.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
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NRF_STATIC_INLINE void nrf_aar_irk_pointer_set(NRF_AAR_Type *p_reg, uint8_t const *irk_ptr)
Function for setting the pointer to the Identity Resolving Keys (IRK) data structure.
The size of the provided data structure must correspond to the number of keys available. Each key occupies 16 bytes.
See also
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
irk_ptr – [in] Pointer to the IRK data structure. Must point to the Data RAM region.
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NRF_STATIC_INLINE uint8_t const *nrf_aar_irk_pointer_get(NRF_AAR_Type const *p_reg)
Function for getting the pointer to the Identity Resolving Keys data structure.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
- Returns:
Pointer to the IRK data structure.
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NRF_STATIC_INLINE void nrf_aar_irk_number_set(NRF_AAR_Type *p_reg, uint8_t irk_num)
Function for setting the number of keys available in the Identity Resolving Keys data structure.
See also
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
irk_num – [in] Number of keys available in the IRK data structure. Maximum is 16. Must correspond to the size of the provided IRK data structure.
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NRF_STATIC_INLINE uint8_t nrf_aar_irk_number_get(NRF_AAR_Type const *p_reg)
Function for getting the number of keys available in the Identity Resolving Keys data structure.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
- Returns:
Number of keys in the IRK data structure.
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NRF_STATIC_INLINE void nrf_aar_addr_pointer_set(NRF_AAR_Type *p_reg, uint8_t const *addr_ptr)
Function for setting the pointer to the resolvable address.
The resolvable address must consist of 6 bytes.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
addr_ptr – [in] Pointer to the address to resolve using the available IRK keys. Must point to the Data RAM region.
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NRF_STATIC_INLINE uint8_t const *nrf_aar_addr_pointer_get(NRF_AAR_Type const *p_reg)
Function for getting the pointer to the resolvable address.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
- Returns:
Pointer to the address to resolve.
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NRF_STATIC_INLINE void nrf_aar_scratch_pointer_set(NRF_AAR_Type *p_reg, uint8_t *scratch_ptr)
Function for setting the pointer to the scratch data area.
The scratch data area is used for temporary storage during the address resolution procedure. A space of minimum 3 bytes must be reserved for the scratch data area.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
scratch_ptr – [in] Pointer to the scratch data area. Must point to the Data RAM region.
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NRF_STATIC_INLINE uint8_t *nrf_aar_scratch_pointer_get(NRF_AAR_Type const *p_reg)
Function for getting the pointer to the scratch data area.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
- Returns:
Pointer to the scratch data area.
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NRF_STATIC_INLINE uint8_t nrf_aar_resolution_status_get(NRF_AAR_Type const *p_reg)
Function for getting the index of the Identity Resolving Key that was used the last time an address was resolved.
This function can be used to get the IRK index that matched the resolvable address, provided that NRF_AAR_EVENT_RESOLVED occured. Otherwise, it will return the index of the last IRK stored in the IRK data structure.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
- Returns:
The index of the IRK that was used the last time an address was resolved.
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NRF_STATIC_INLINE void nrf_aar_subscribe_set(NRF_AAR_Type *p_reg, nrf_aar_task_t task, uint8_t channel)
Function for setting the subscribe configuration for a given AAR task.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task for which to set the configuration.
channel – [in] Channel through which to subscribe events.
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NRF_STATIC_INLINE void nrf_aar_subscribe_clear(NRF_AAR_Type *p_reg, nrf_aar_task_t task)
Function for clearing the subscribe configuration for a given AAR task.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task for which to clear the configuration.
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NRF_STATIC_INLINE void nrf_aar_publish_set(NRF_AAR_Type *p_reg, nrf_aar_event_t event, uint8_t channel)
Function for setting the publish configuration for a given AAR event.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event for which to set the configuration.
channel – [in] Channel through which to publish the event.
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NRF_STATIC_INLINE void nrf_aar_publish_clear(NRF_AAR_Type *p_reg, nrf_aar_event_t event)
Function for clearing the publish configuration for a given AAR event.
- Parameters:
p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event for which to clear the configuration.
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enum nrf_aar_event_t