nRF51 SDK - S110 SoftDevice
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Functions

uint32_t sd_ble_enable (ble_enable_params_t *p_ble_enable_params)
 Enable the bluetooth stack. More...
 
uint32_t sd_ble_evt_get (uint8_t *p_dest, uint16_t *p_len)
 Get an event from the pending events queue. More...
 
uint32_t sd_ble_tx_buffer_count_get (uint8_t *p_count)
 Get the total number of available application transmission buffers in the BLE stack. More...
 
uint32_t sd_ble_uuid_vs_add (ble_uuid128_t const *const p_vs_uuid, uint8_t *const p_uuid_type)
 Add a Vendor Specific UUID. More...
 
uint32_t sd_ble_uuid_decode (uint8_t uuid_le_len, uint8_t const *const p_uuid_le, ble_uuid_t *const p_uuid)
 Decode little endian raw UUID bytes (16-bit or 128-bit) into a 24 bit ble_uuid_t structure. More...
 
uint32_t sd_ble_uuid_encode (ble_uuid_t const *const p_uuid, uint8_t *const p_uuid_le_len, uint8_t *const p_uuid_le)
 Encode a ble_uuid_t structure into little endian raw UUID bytes (16-bit or 128-bit). More...
 
uint32_t sd_ble_version_get (ble_version_t *p_version)
 Get Version Information. More...
 
uint32_t sd_ble_user_mem_reply (uint16_t conn_handle, ble_user_mem_block_t *p_block)
 Provide a user memory block. More...
 
uint32_t sd_ble_opt_set (uint32_t opt_id, ble_opt_t const *p_opt)
 Set a BLE option. More...
 
uint32_t sd_ble_opt_get (uint32_t opt_id, ble_opt_t *p_opt)
 Get a BLE option. More...
 

Detailed Description

Function Documentation

uint32_t sd_ble_enable ( ble_enable_params_t p_ble_enable_params)

Enable the bluetooth stack.

Parameters
[in]p_ble_enable_paramsPointer to ble_enable_params_t

This call initializes the bluetooth stack, no other BLE related call can be called before this one has been executed.

Returns
NRF_SUCCESS BLE stack has been initialized successfully
NRF_ERROR_INVALID_ADDR Invalid or not sufficiently aligned pointer supplied.
uint32_t sd_ble_evt_get ( uint8_t *  p_dest,
uint16_t *  p_len 
)

Get an event from the pending events queue.

Parameters
[in]p_destPointer to buffer to be filled in with an event, or NULL to retrieve the event length. This buffer must be 4-byte aligned in memory.
[in,out]p_lenPointer the length of the buffer, on return it is filled with the event length.

This call allows the application to pull a BLE event from the BLE stack. The application is signalled that an event is available from the BLE Stack by the triggering of the SD_EVT_IRQn interrupt (mapped to IRQ 22). The application is free to choose whether to call this function from thread mode (main context) or directly from the Interrupt Service Routine that maps to SD_EVT_IRQn. In any case however, and because the BLE stack runs at a higher priority than the application, this function should be called in a loop (until NRF_ERROR_NOT_FOUND is returned) every time SD_EVT_IRQn is raised to ensure that all available events are pulled from the stack. Failure to do so could potentially leave events in the internal queue without the application being aware of this fact. Sizing the p_dest buffer is equally important, since the application needs to provide all the memory necessary for the event to be copied into application memory. If the buffer provided is not large enough to fit the entire contents of the event, NRF_ERROR_DATA_SIZE will be returned and the application can then call again with a larger buffer size. Please note that because of the variable length nature of some events, sizeof(ble_evt_t) will not always be large enough to fit certain events, and so it is the application's responsability to provide an amount of memory large enough so that the relevant event is copied in full. The application may "peek" the event length by providing p_dest as a NULL pointer and inspecting the value of *p_len upon return.

Note
The pointer supplied must be aligned to the extend defined by BLE_EVTS_PTR_ALIGNMENT
Returns
NRF_SUCCESS Event pulled and stored into the supplied buffer.
NRF_ERROR_INVALID_ADDR Invalid or not sufficiently aligned pointer supplied.
NRF_ERROR_NOT_FOUND No events ready to be pulled.
NRF_ERROR_DATA_SIZE Event ready but could not fit into the supplied buffer.
uint32_t sd_ble_opt_get ( uint32_t  opt_id,
ble_opt_t p_opt 
)

Get a BLE option.

This call allows the application to retrieve the value of an option.

Parameters
[in]opt_idOption ID.
[out]p_optPointer to a ble_opt_t structure to be filled in.
Return values
NRF_SUCCESSOption retrieved successfully.
NRF_ERROR_INVALID_ADDRInvalid pointer supplied.
BLE_ERROR_INVALID_CONN_HANDLEInvalid Connection Handle.
NRF_ERROR_INVALID_PARAMInvalid parameter(s) supplied, check parameter limits and constraints.
NRF_ERROR_INVALID_STATEUnable to retrieve the parameter at this time.
NRF_ERROR_BUSYThe stack is busy or the previous procedure has not completed.
NRF_ERROR_NOT_SUPPORTEDThis option is not supported.
uint32_t sd_ble_opt_set ( uint32_t  opt_id,
ble_opt_t const *  p_opt 
)

Set a BLE option.

This call allows the application to set the value of an option.

Parameters
[in]opt_idOption ID.
[in]p_optPointer to a ble_opt_t structure containing the option value.
Return values
NRF_SUCCESSOption set successfully.
NRF_ERROR_INVALID_ADDRInvalid pointer supplied.
BLE_ERROR_INVALID_CONN_HANDLEInvalid Connection Handle.
NRF_ERROR_INVALID_PARAMInvalid parameter(s) supplied, check parameter limits and constraints.
NRF_ERROR_INVALID_STATEUnable to set the parameter at this time.
NRF_ERROR_BUSYThe stack is busy or the previous procedure has not completed.
uint32_t sd_ble_tx_buffer_count_get ( uint8_t *  p_count)

Get the total number of available application transmission buffers in the BLE stack.

This call allows the application to obtain the total number of transmission buffers available for application data. Please note that this does not give the number of free buffers, but rather the total amount of them. The application has two options to handle its own application transmission buffers:

  • Use a simple arithmetic calculation: at boot time the application should use this function to find out the total amount of buffers available to it and store it in a variable. Every time a packet that consumes an application buffer is sent using any of the exposed functions in this BLE API, the application should decrement that variable. Conversely, whenever a BLE_EVT_TX_COMPLETE event is received by the application it should retrieve the count field in such event and add that number to the same variable storing the number of available packets. This mechanism allows the application to be aware at any time of the number of application packets available in the BLE stack's internal buffers, and therefore it can know with certainty whether it is possible to send more data or it has to wait for a BLE_EVT_TX_COMPLETE event before it proceeds.
  • Choose to simply not keep track of available buffers at all, and instead handle the BLE_ERROR_NO_TX_BUFFERS error by queueing the packet to be transmitted and try again as soon as a BLE_EVT_TX_COMPLETE event arrives.

The API functions that may consume an application buffer depending on the parameters supplied to them can be found below:

Parameters
[out]p_countPointer to a uint8_t which will contain the number of application transmission buffers upon successful return.
Returns
NRF_SUCCESS Number of application transmission buffers retrieved successfully.
NRF_ERROR_INVALID_ADDR Invalid pointer supplied.
uint32_t sd_ble_user_mem_reply ( uint16_t  conn_handle,
ble_user_mem_block_t p_block 
)

Provide a user memory block.

Note
This call can only be used as a response to a BLE_EVT_USER_MEM_REQUEST event issued to the application.
Parameters
[in]conn_handleConnection handle.
[in]p_blockPointer to a user memory block structure.
Returns
NRF_SUCCESS Successfully queued a response to the peer.
BLE_ERROR_INVALID_CONN_HANDLE Invalid Connection Handle.
NRF_ERROR_INVALID_STATE No execute write request pending.
uint32_t sd_ble_uuid_decode ( uint8_t  uuid_le_len,
uint8_t const *const  p_uuid_le,
ble_uuid_t *const  p_uuid 
)

Decode little endian raw UUID bytes (16-bit or 128-bit) into a 24 bit ble_uuid_t structure.

The raw UUID bytes excluding bytes 12 and 13 (i.e. bytes 0-11 and 14-15) of p_uuid_le are compared to the corresponding ones in each entry of the table of vendor specific UUIDs pouplated with sd_ble_uuid_vs_add to look for a match. If there is such a match, bytes 12 and 13 are returned as p_uuid->uuid and the index relative to BLE_UUID_TYPE_VENDOR_BEGIN as p_uuid->type.

Note
If the UUID length supplied is 2, then the type set by this call will always be BLE_UUID_TYPE_BLE.
Parameters
[in]uuid_le_lenLength in bytes of the buffer pointed to by p_uuid_le (must be 2 or 16 bytes).
[in]p_uuid_lePointer pointing to little endian raw UUID bytes.
[in,out]p_uuidPointer to a ble_uuid_t structure to be filled in.
Returns
NRF_SUCCESS Successfully decoded into the ble_uuid_t structure.
NRF_ERROR_INVALID_ADDR Invalid pointer supplied.
NRF_ERROR_INVALID_LENGTH Invalid UUID length.
NRF_ERROR_NOT_FOUND For a 128-bit UUID, no match in the populated table of UUIDs.
uint32_t sd_ble_uuid_encode ( ble_uuid_t const *const  p_uuid,
uint8_t *const  p_uuid_le_len,
uint8_t *const  p_uuid_le 
)

Encode a ble_uuid_t structure into little endian raw UUID bytes (16-bit or 128-bit).

Note
The pointer to the destination buffer p_uuid_le may be NULL, in which case only the validitiy and size of p_uuid is computed.
Parameters
[in]p_uuidPointer to a ble_uuid_t structure that will be encoded into bytes.
[out]p_uuid_le_lenPointer to a uint8_t that will be filled with the encoded length (2 or 16 bytes).
[out]p_uuid_lePointer to a buffer where the little endian raw UUID bytes (2 or 16) will be stored.
Returns
NRF_SUCCESS Successfully encoded into the buffer.
NRF_ERROR_INVALID_ADDR Invalid pointer supplied.
NRF_ERROR_INVALID_PARAM Invalid UUID type.
uint32_t sd_ble_uuid_vs_add ( ble_uuid128_t const *const  p_vs_uuid,
uint8_t *const  p_uuid_type 
)

Add a Vendor Specific UUID.

This call enables the application to add a vendor specific UUID to the BLE stack's table, for later use all other modules and APIs. This then allows the application to use the shorter, 24-bit ble_uuid_t format when dealing with both 16-bit and 128-bit UUIDs without having to check for lengths and having split code paths. The way that this is accomplished is by extending the grouping mechanism that the Bluetooth SIG standard base UUID uses for all other 128-bit UUIDs. The type field in the ble_uuid_t structure is an index (relative to BLE_UUID_TYPE_VENDOR_BEGIN) to the table populated by multiple calls to this function, and the uuid field in the same structure contains the 2 bytes at indices 12 and 13. The number of possible 128-bit UUIDs available to the application is therefore the number of Vendor Specific UUIDs added with the help of this function times 65536, although restricted to modifying bytes 12 and 13 for each of the entries in the supplied array.

Note
Bytes 12 and 13 of the provided UUID will not be used internally, since those are always replaced by the 16-bit uuid field in ble_uuid_t.
Parameters
[in]p_vs_uuidPointer to a 16-octet (128-bit) little endian Vendor Specific UUID disregarding bytes 12 and 13.
[out]p_uuid_typePointer where the type field in ble_uuid_t corresponding to this UUID will be stored.
Returns
NRF_SUCCESS Successfully added the Vendor Specific UUID.
NRF_ERROR_INVALID_ADDR If p_vs_uuid or p_uuid_type is NULL or invalid.
NRF_ERROR_NO_MEM If there are no more free slots for VS UUIDs.
NRF_ERROR_FORBIDDEN If p_vs_uuid has already been added to the VS UUID table.
uint32_t sd_ble_version_get ( ble_version_t p_version)

Get Version Information.

This call allows the application to get the BLE stack version information.

Parameters
[in]p_versionPointer to ble_version_t structure to be filled in.
Returns
NRF_SUCCESS Version information stored successfully.
NRF_ERROR_INVALID_ADDR Invalid pointer supplied.
NRF_ERROR_BUSY The stack is busy (typically doing a locally-initiated disconnection procedure).