Antonio Vilei
BLE_API wrapper library for STMicroelectronics' BlueNRG Bluetooth Low Energy expansion board shield
Fork of
X_NUCLEO_IDB0XA1
by 
ST Expansion SW Team
x-nucleo-idb0xa1/bluenrg-hci/bluenrg_gap_aci.h
- Committer:
- avilei
- Date:
- 2016-06-17
- Revision:
- 232:f2a7da5d24e1
- Parent:
- 219:9981f62cdb1a
File content as of revision 232:f2a7da5d24e1:
/******************** (C) COPYRIGHT 2014 STMicroelectronics ********************
* File Name : bluenrg_gap_aci.h
* Author : AMS - AAS
* Version : V1.0.0
* Date : 26-Jun-2014
* Description : Header file with GAP commands for BlueNRG FW6.3.
********************************************************************************
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
* CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*******************************************************************************/
#ifndef __BLUENRG_GAP_ACI_H__
#define __BLUENRG_GAP_ACI_H__
/**
*@addtogroup GAP GAP
*@brief GAP layer.
*@{
*/
/**
*@defgroup GAP_Functions GAP functions
*@brief API for GAP layer.
*@{
*/
/**
* @brief Initialize the GAP layer.
* @note Register the GAP service with the GATT.
* All the standard GAP characteristics will also be added:
* @li Device Name
* @li Appearance
* @li Peripheral Preferred Connection Parameters (peripheral role only)
* @code
tBleStatus ret;
uint16_t service_handle, dev_name_char_handle, appearance_char_handle;
ret = aci_gap_init_IDB05A1(1, 0, 0x07, &service_handle, &dev_name_char_handle, &appearance_char_handle);
if(ret){
PRINTF("GAP_Init failed.\n");
reboot();
}
const char *name = "BlueNRG";
ret = aci_gatt_update_char_value(service_handle, dev_name_char_handle, 0, strlen(name), (uint8_t *)name);
if(ret){
PRINTF("aci_gatt_update_char_value failed.\n");
}
* @endcode
* @param role Bitmap of allowed roles: see @ref gap_roles "GAP roles".
* @param privacy_enabled Enable (1) or disable (0) privacy.
* @param device_name_char_len Length of the device name characteristic
* @param[out] service_handle Handle of the GAP service.
* @param[out] dev_name_char_handle Device Name Characteristic handle
* @param[out] appearance_char_handle Appearance Characteristic handle
* @retval tBleStatus Value indicating success or error code.
*/
tBleStatus aci_gap_init_IDB05A1(uint8_t role, uint8_t privacy_enabled,
uint8_t device_name_char_len,
uint16_t* service_handle,
uint16_t* dev_name_char_handle,
uint16_t* appearance_char_handle);
/**
* @brief Initialize the GAP layer.
* @note Register the GAP service with the GATT.
* All the standard GAP characteristics will also be added:
* @li Device Name
* @li Appearance
* @li Peripheral Privacy Flag (peripheral role only)
* @li Reconnection Address (peripheral role only)
* @li Peripheral Preferred Connection Parameters (peripheral role only)
* @code
tBleStatus ret;
uint16_t service_handle, dev_name_char_handle, appearance_char_handle;
ret = aci_gap_init_IDB04A1(1, &service_handle, &dev_name_char_handle, &appearance_char_handle);
if(ret){
PRINTF("GAP_Init failed.\n");
reboot();
}
const char *name = "BlueNRG";
ret = aci_gatt_update_char_value(service_handle, dev_name_char_handle, 0, strlen(name), (uint8_t *)name);
if(ret){
PRINTF("aci_gatt_update_char_value failed.\n");
}
* @endcode
* @param role One of the allowed roles: @ref GAP_PERIPHERAL_ROLE or @ref GAP_CENTRAL_ROLE. See @ref gap_roles "GAP roles".
* @param[out] service_handle Handle of the GAP service.
* @param[out] dev_name_char_handle Device Name Characteristic handle
* @param[out] appearance_char_handle Appearance Characteristic handle
* @retval tBleStatus Value indicating success or error code.
*/
tBleStatus aci_gap_init_IDB04A1(uint8_t role,
uint16_t* service_handle,
uint16_t* dev_name_char_handle,
uint16_t* appearance_char_handle);
/**
* @brief Set the Device in non-discoverable mode.
* @note This command will disable the LL advertising.
* @retval tBleStatus Value indicating success or error code.
*/
tBleStatus aci_gap_set_non_discoverable(void);
/**
* @brief Put the device in limited discoverable mode
* (as defined in GAP specification volume 3, section 9.2.3).
* @note The device will be discoverable for TGAP (lim_adv_timeout) = 180 seconds.
* The advertising can be disabled at any time by issuing
* aci_gap_set_non_discoverable() command.
* The AdvIntervMin and AdvIntervMax parameters are optional. If both
* are set to 0, the GAP will use default values (250 ms and 500 ms respectively).
* Host can set the Local Name, a Service UUID list and the Slave Connection
* Minimum and Maximum. If provided, these data will be inserted into the
* advertising packet payload as AD data. These parameters are optional
* in this command. These values can be also set using aci_gap_update_adv_data()
* separately.
* The total size of data in advertising packet cannot exceed 31 bytes.
* With this command, the BLE Stack will also add automatically the following
* standard AD types:
* @li AD Flags
* @li TX Power Level
*
* When advertising timeout happens (i.e. limited discovery period has elapsed), controller generates
* @ref EVT_BLUE_GAP_LIMITED_DISCOVERABLE event.
*
* Example:
* @code
*
* #define ADV_INTERVAL_MIN_MS 100
* #define ADV_INTERVAL_MAX_MS 200
*
* tBleStatus ret;
*
* const char local_name[] = {AD_TYPE_COMPLETE_LOCAL_NAME,'B','l','u','e','N','R','G'};
* const uint8_t serviceUUIDList[] = {AD_TYPE_16_BIT_SERV_UUID,0x34,0x12};
*
* ret = aci_gap_set_limited_discoverable(ADV_IND, (ADV_INTERVAL_MIN_MS*1000)/0.625,
* (ADV_INTERVAL_MAX_MS*1000)/0.625,
* STATIC_RANDOM_ADDR, NO_WHITE_LIST_USE,
* sizeof(local_name), local_name,
* sizeof(serviceUUIDList), serviceUUIDList,
* 0, 0);
* @endcode
*
* @param AdvType One of the advertising types:
* @arg @ref ADV_IND Connectable undirected advertising
* @arg @ref ADV_SCAN_IND Scannable undirected advertising
* @arg @ref ADV_NONCONN_IND Non connectable undirected advertising
* @param AdvIntervMin Minimum advertising interval.
* Range: 0x0020 to 0x4000
* Default: 250 ms
* Time = N * 0.625 msec
* Time Range: 20 ms to 10.24 sec (minimum 100 ms for ADV_SCAN_IND or ADV_NONCONN_IND).
* @param AdvIntervMax Maximum advertising interval.
* Range: 0x0020 to 0x4000
* Default: 500 ms
* Time = N * 0.625 msec
* Time Range: 20 ms to 10.24 sec (minimum 100 ms for ADV_SCAN_IND or ADV_NONCONN_IND).
* @param OwnAddrType Type of our address used during advertising
* (@ref PUBLIC_ADDR,@ref STATIC_RANDOM_ADDR).
* @param AdvFilterPolicy Filter policy:
* @arg NO_WHITE_LIST_USE
* @arg WHITE_LIST_FOR_ONLY_SCAN
* @arg WHITE_LIST_FOR_ONLY_CONN
* @arg WHITE_LIST_FOR_ALL
* @param LocalNameLen Length of LocalName array.
* @param LocalName Array containing the Local Name AD data. First byte is the AD type:
* @ref AD_TYPE_SHORTENED_LOCAL_NAME or @ref AD_TYPE_COMPLETE_LOCAL_NAME.
* @param ServiceUUIDLen Length of ServiceUUIDList array.
* @param ServiceUUIDList This is the list of the UUIDs AD Types as defined in Volume 3,
* Section 11.1.1 of GAP Specification. First byte is the AD Type.
* @arg @ref AD_TYPE_16_BIT_SERV_UUID
* @arg @ref AD_TYPE_16_BIT_SERV_UUID_CMPLT_LIST
* @arg @ref AD_TYPE_128_BIT_SERV_UUID
* @arg @ref AD_TYPE_128_BIT_SERV_UUID_CMPLT_LIST
* @param SlaveConnIntervMin Slave connection interval minimum value suggested by Peripheral.
* If SlaveConnIntervMin and SlaveConnIntervMax are not 0x0000,
* Slave Connection Interval Range AD structure will be added in advertising
* data.
* Connection interval is defined in the following manner:
* connIntervalmin = Slave_Conn_Interval_Min x 1.25ms
* Slave_Conn_Interval_Min range: 0x0006 to 0x0C80
* Value of 0xFFFF indicates no specific minimum.
* @param SlaveConnIntervMax Slave connection interval maximum value suggested by Peripheral.
* If SlaveConnIntervMin and SlaveConnIntervMax are not 0x0000,
* Slave Connection Interval Range AD structure will be added in advertising
* data.
* ConnIntervalmax = Slave_Conn_Interval_Max x 1.25ms
* Slave_Conn_Interval_Max range: 0x0006 to 0x0C80
* Slave_ Conn_Interval_Max shall be equal to or greater than the Slave_Conn_Interval_Min.
* Value of 0xFFFF indicates no specific maximum.
*
* @retval tBleStatus Value indicating success or error code.
*/
tBleStatus aci_gap_set_limited_discoverable(uint8_t AdvType, uint16_t AdvIntervMin, uint16_t AdvIntervMax,
uint8_t OwnAddrType, uint8_t AdvFilterPolicy, uint8_t LocalNameLen,
const char *LocalName, uint8_t ServiceUUIDLen, uint8_t* ServiceUUIDList,
uint16_t SlaveConnIntervMin, uint16_t SlaveConnIntervMax);
/**
* @brief Put the Device in general discoverable mode (as defined in GAP specification volume 3, section 9.2.4).
* @note The device will be discoverable until the Host issue Bluehci_Gap_Set_Non_Discoverable command.
* The Adv_Interval_Min and Adv_Interval_Max parameters are optional. If both are set to 0, the GAP uses
* the default values for advertising intervals for IDB04A1 (1.28 s and 2.56 s respectively).
* For IDB05A1:
* When using connectable undirected advertising events:\n
* @li Adv_Interval_Min = 30 ms
* @li Adv_Interval_Max = 60 ms
* \nWhen using non-connectable advertising events or scannable undirected advertising events:\n
* @li Adv_Interval_Min = 100 ms
* @li Adv_Interval_Max = 150 ms
* Host can set the Local Name, a Service UUID list and the Slave Connection Interval Range. If provided,
* these data will be inserted into the advertising packet payload as AD data. These parameters are optional
* in this command. These values can be also set using aci_gap_update_adv_data() separately.
* The total size of data in advertising packet cannot exceed 31 bytes.
* With this command, the BLE Stack will also add automatically the following standard AD types:
* @li AD Flags
* @li TX Power Level
*
* Usage example:
*
* @code
*
* #define ADV_INTERVAL_MIN_MS 800
* #define ADV_INTERVAL_MAX_MS 900
* #define CONN_INTERVAL_MIN_MS 100
* #define CONN_INTERVAL_MAX_MS 300
*
* tBleStatus ret;
*
* const char local_name[] = {AD_TYPE_COMPLETE_LOCAL_NAME,'B','l','u','e','N','R','G'};
* const uint8_t serviceUUIDList[] = {AD_TYPE_16_BIT_SERV_UUID,0x34,0x12};
*
* ret = aci_gap_set_discoverable(ADV_IND, (ADV_INTERVAL_MIN_MS*1000)/625,
* (ADV_INTERVAL_MAX_MS*1000)/625,
* STATIC_RANDOM_ADDR, NO_WHITE_LIST_USE,
* sizeof(local_name), local_name,
* 0, NULL,
* (CONN_INTERVAL_MIN_MS*1000)/1250,
* (CONN_INTERVAL_MAX_MS*1000)/1250);
* @endcode
*
* @param AdvType One of the advertising types:
* @arg @ref ADV_IND Connectable undirected advertising
* @arg @ref ADV_SCAN_IND Scannable undirected advertising
* @arg @ref ADV_NONCONN_IND Non connectable undirected advertising
* @param AdvIntervMin Minimum advertising interval.
* Range: 0x0020 to 0x4000
* Default: 1.28 s
* Time = N * 0.625 msec
* Time Range: 20 ms to 10.24 sec (minimum 100 ms for ADV_SCAN_IND or ADV_NONCONN_IND).
* @param AdvIntervMax Maximum advertising interval.
* Range: 0x0020 to 0x4000
* Default: 2.56 s
* Time = N * 0.625 msec
* Time Range: 20 ms to 10.24 sec (minimum 100 ms for ADV_SCAN_IND or ADV_NONCONN_IND).
* @param OwnAddrType Type of our address used during advertising
* (@ref PUBLIC_ADDR,@ref STATIC_RANDOM_ADDR).
* @param AdvFilterPolicy Filter policy:
* @arg @ref NO_WHITE_LIST_USE
* @arg @ref WHITE_LIST_FOR_ONLY_SCAN
* @arg @ref WHITE_LIST_FOR_ONLY_CONN
* @arg @ref WHITE_LIST_FOR_ALL
* @param LocalNameLen Length of LocalName array.
* @param LocalName Array containing the Local Name AD data. First byte is the AD type:
* @ref AD_TYPE_SHORTENED_LOCAL_NAME or @ref AD_TYPE_COMPLETE_LOCAL_NAME.
* @param ServiceUUIDLen Length of ServiceUUIDList array.
* @param ServiceUUIDList This is the list of the UUIDs AD Types as defined in Volume 3,
* Section 11.1.1 of GAP Specification. First byte is the AD Type.
* @arg @ref AD_TYPE_16_BIT_SERV_UUID
* @arg @ref AD_TYPE_16_BIT_SERV_UUID_CMPLT_LIST
* @arg @ref AD_TYPE_128_BIT_SERV_UUID
* @arg @ref AD_TYPE_128_BIT_SERV_UUID_CMPLT_LIST
* @param SlaveConnIntervMin Slave connection interval minimum value suggested by Peripheral.
* If SlaveConnIntervMin and SlaveConnIntervMax are not 0x0000,
* Slave Connection Interval Range AD structure will be added in advertising
* data.
* Connection interval is defined in the following manner:
* connIntervalmin = Slave_Conn_Interval_Min x 1.25ms
* Slave_Conn_Interval_Min range: 0x0006 to 0x0C80
* Value of 0xFFFF indicates no specific minimum.
* @param SlaveConnIntervMax Slave connection interval maximum value suggested by Peripheral.
* If SlaveConnIntervMin and SlaveConnIntervMax are not 0x0000,
* Slave Connection Interval Range AD structure will be added in advertising
* data.
* ConnIntervalmax = Slave_Conn_Interval_Max x 1.25ms
* Slave_Conn_Interval_Max range: 0x0006 to 0x0C80
* Slave_ Conn_Interval_Max shall be equal to or greater than the Slave_Conn_Interval_Min.
* Value of 0xFFFF indicates no specific maximum.
*
* @retval tBleStatus Value indicating success or error code.
*/
tBleStatus aci_gap_set_discoverable(uint8_t AdvType, uint16_t AdvIntervMin, uint16_t AdvIntervMax,
uint8_t OwnAddrType, uint8_t AdvFilterPolicy, uint8_t LocalNameLen,
const char *LocalName, uint8_t ServiceUUIDLen, uint8_t* ServiceUUIDList,
uint16_t SlaveConnIntervMin, uint16_t SlaveConnIntervMax);
/**
* @brief Set the Device in direct connectable mode (as defined in GAP specification Volume 3, Section 9.3.3).
* @note If the privacy is enabled, the reconnection address is used for advertising, otherwise the address
* of the type specified in OwnAddrType is used. The device will be in directed connectable mode only
* for 1.28 seconds. If no connection is established within this duration, the device enters non
* discoverable mode and advertising will have to be again enabled explicitly.
* The controller generates a @ref EVT_LE_CONN_COMPLETE event with the status set to @ref HCI_DIRECTED_ADV_TIMEOUT
* if the connection was not established and 0x00 if the connection was successfully established.
*
* Usage example:
* @code
*
* tBleStatus ret;
*
* const uint8_t central_address[] = {0x43,0x27,0x84,0xE1,0x80,0x02};
* ret = aci_gap_set_direct_connectable_IDB05A1(PUBLIC_ADDR, HIGH_DUTY_CYCLE_DIRECTED_ADV, PUBLIC_ADDR, central_address);
* @endcode
*
*
*
* @param OwnAddrType Type of our address used during advertising (@ref PUBLIC_ADDR,@ref STATIC_RANDOM_ADDR).
* @param directed_adv_type Type of directed advertising (@ref HIGH_DUTY_CYCLE_DIRECTED_ADV, @ref LOW_DUTY_CYCLE_DIRECTED_ADV).
* @param InitiatorAddrType Type of peer address (@ref PUBLIC_ADDR,@ref STATIC_RANDOM_ADDR).
* @param InitiatorAddr Initiator's address (Little Endian).
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_direct_connectable_IDB05A1(uint8_t own_addr_type, uint8_t directed_adv_type, uint8_t initiator_addr_type, const uint8_t *initiator_addr);
/**
* @brief Set the Device in direct connectable mode (as defined in GAP specification Volume 3, Section 9.3.3).
* @note If the privacy is enabled, the reconnection address is used for advertising, otherwise the address
* of the type specified in OwnAddrType is used. The device will be in directed connectable mode only
* for 1.28 seconds. If no connection is established within this duration, the device enters non
* discoverable mode and advertising will have to be again enabled explicitly.
* The controller generates a @ref EVT_LE_CONN_COMPLETE event with the status set to @ref HCI_DIRECTED_ADV_TIMEOUT
* if the connection was not established and 0x00 if the connection was successfully established.
*
* Usage example:
* @code
*
* tBleStatus ret;
*
* const uint8_t central_address = {0x43,0x27,0x84,0xE1,0x80,0x02};
* ret = aci_gap_set_direct_connectable_IDB04A1(PUBLIC_ADDR, PUBLIC_ADDR, central_address);
* @endcode
*
*
*
* @param OwnAddrType Type of our address used during advertising (@ref PUBLIC_ADDR,@ref STATIC_RANDOM_ADDR).
* @param InitiatorAddrType Type of peer address (@ref PUBLIC_ADDR,@ref STATIC_RANDOM_ADDR).
* @param InitiatorAddr Initiator's address (Little Endian).
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_direct_connectable_IDB04A1(uint8_t own_addr_type, uint8_t initiator_addr_type, const uint8_t *initiator_addr);
/**
* @brief Set the IO capabilities of the device.
* @note This command has to be given only when the device is not in a connected state.
* @param io_capability One of the allowed codes for IO Capability:
* @arg @ref IO_CAP_DISPLAY_ONLY
* @arg @ref IO_CAP_DISPLAY_YES_NO
* @arg @ref IO_CAP_KEYBOARD_ONLY
* @arg @ref IO_CAP_NO_INPUT_NO_OUTPUT
* @arg @ref IO_CAP_KEYBOARD_DISPLAY
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_io_capability(uint8_t io_capability);
/**
* @brief Set the authentication requirements for the device.
* @note If the oob_enable is set to 0, oob_data will be ignored.
* This command has to be given only when the device is not in a connected state.
* @param mitm_mode MITM mode:
* @arg @ref MITM_PROTECTION_NOT_REQUIRED
* @arg @ref MITM_PROTECTION_REQUIRED
* @param oob_enable If OOB data are present or not:
* @arg @ref OOB_AUTH_DATA_ABSENT
* @arg @ref OOB_AUTH_DATA_PRESENT
* @param oob_data Out-Of-Band data
* @param min_encryption_key_size Minimum size of the encryption key to be used during the pairing process
* @param max_encryption_key_size Maximum size of the encryption key to be used during the pairing process
* @param use_fixed_pin If application wants to use a fixed pin or not:
* @arg @ref USE_FIXED_PIN_FOR_PAIRING
* @arg @ref DONOT_USE_FIXED_PIN_FOR_PAIRING
* If a fixed pin is not used, it has to be provided by the application with
* aci_gap_pass_key_response() after @ref EVT_BLUE_GAP_PASS_KEY_REQUEST event.
* @param fixed_pin If use_fixed_pin is USE_FIXED_PIN_FOR_PAIRING, this is the value of the pin that will
* be used during pairing if MIMT protection is enabled. Any value between 0 to 999999 is
* accepted.
* @param bonding_mode One of the bonding modes:
* @arg @ref BONDING
* @arg @ref NO_BONDING
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_auth_requirement(uint8_t mitm_mode,
uint8_t oob_enable,
uint8_t oob_data[16],
uint8_t min_encryption_key_size,
uint8_t max_encryption_key_size,
uint8_t use_fixed_pin,
uint32_t fixed_pin,
uint8_t bonding_mode);
/**
* @brief Set the authorization requirements of the device.
* @note This command has to be given only when the device is not in a connected state.
* @param conn_handle Handle of the connection in case BlueNRG is configured as a master (otherwise it can be also 0).
* @param authorization_enable @arg @ref AUTHORIZATION_NOT_REQUIRED : Authorization not required
* @arg @ref AUTHORIZATION_REQUIRED : Authorization required. This enables
* the authorization requirement in the device and when a remote device
* tries to connect to GATT server, @ref EVT_BLUE_GAP_AUTHORIZATION_REQUEST event
* will be sent to the Host.
*
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_author_requirement(uint16_t conn_handle, uint8_t authorization_enable);
/**
* @brief Provide the pass key that will be used during pairing.
* @note This command should be sent by the Host in response to @ref EVT_BLUE_GAP_PASS_KEY_REQUEST event.
* @param conn_handle Connection handle
* @param passkey Pass key that will be used during the pairing process. Must be a number between
* 0 and 999999.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_pass_key_response(uint16_t conn_handle, uint32_t passkey);
/**
* @brief Authorize a device to access attributes.
* @note Application should send this command after it has received a @ref EVT_BLUE_GAP_AUTHORIZATION_REQUEST.
*
* @param conn_handle Connection handle
* @param authorize @arg @ref CONNECTION_AUTHORIZED : Authorize (accept connection)
* @arg @ref CONNECTION_REJECTED : Reject (reject connection)
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_authorization_response(uint16_t conn_handle, uint8_t authorize);
/**
* @brief Put the device into non-connectable mode.
* @param adv_type One of the allowed advertising types:
* @arg @ref ADV_SCAN_IND : Scannable undirected advertising
* @arg @ref ADV_NONCONN_IND : Non-connectable undirected advertising
* @param own_address_type If Privacy is disabled, then the peripheral address can be
* @arg @ref PUBLIC_ADDR.
* @arg @ref STATIC_RANDOM_ADDR.
* If Privacy is enabled, then the peripheral address can be
* @arg @ref RESOLVABLE_PRIVATE_ADDR
* @arg @ref NON_RESOLVABLE_PRIVATE_ADDR
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_non_connectable_IDB05A1(uint8_t adv_type, uint8_t own_address_type);
/**
* @brief Put the device into non-connectable mode.
* @param adv_type One of the allowed advertising types:
* @arg @ref ADV_SCAN_IND : Scannable undirected advertising
* @arg @ref ADV_NONCONN_IND : Non-connectable undirected advertising
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_non_connectable_IDB04A1(uint8_t adv_type);
/**
* @brief Put the device into undirected connectable mode.
* @note If privacy is enabled in the device, a resolvable private address is generated and used
* as the advertiser's address. If not, the address of the type specified in own_addr_type
* is used for advertising.
* @param own_addr_type Type of our address used during advertising:
* if BLUENRG (IDB04A1)
* @arg @ref PUBLIC_ADDR.
* @arg @ref STATIC_RANDOM_ADDR.
* else if BLUENRG_MS (IDB05A1)
* If Privacy is disabled:
* @arg @ref PUBLIC_ADDR.
* @arg @ref STATIC_RANDOM_ADDR.
* If Privacy is enabled:
* @arg @ref RESOLVABLE_PRIVATE_ADDR
* @arg @ref NON_RESOLVABLE_PRIVATE_ADDR
* @param adv_filter_policy Filter policy:
* @arg @ref NO_WHITE_LIST_USE
* @arg @ref WHITE_LIST_FOR_ALL
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_undirected_connectable(uint8_t own_addr_type, uint8_t adv_filter_policy);
/**
* @brief Send a slave security request to the master.
* @note This command has to be issued to notify the master of the security requirements of the slave.
* The master may encrypt the link, initiate the pairing procedure, or reject the request.
* @param conn_handle Connection handle
* @param bonding One of the bonding modes:
* @arg @ref BONDING
* @arg @ref NO_BONDING
* @param mitm_protection If MITM protection is required or not:
* @arg @ref MITM_PROTECTION_NOT_REQUIRED
* @arg @ref MITM_PROTECTION_REQUIRED
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_slave_security_request(uint16_t conn_handle, uint8_t bonding, uint8_t mitm_protection);
/**
* @brief Update advertising data.
* @note This command can be used to update the advertising data for a particular AD type.
* If the AD type specified does not exist, then it is added to the advertising data.
* If the overall advertising data length is more than 31 octets after the update, then
* the command is rejected and the old data is retained.
* @param AdvLen Length of AdvData array
* @param AdvData Advertisement Data, formatted as specified in Bluetooth specification
* (Volume 3, Part C, 11), including data length. It can contain more than one AD type.
* Example
* @code
* tBleStatus ret;
* const char local_name[] = {AD_TYPE_COMPLETE_LOCAL_NAME,'B','l','u','e','N','R','G'};
* const uint8_t serviceUUIDList[] = {AD_TYPE_16_BIT_SERV_UUID,0x34,0x12};
* const uint8_t manuf_data[] = {4, AD_TYPE_MANUFACTURER_SPECIFIC_DATA, 0x05, 0x02, 0x01};
*
* ret = aci_gap_set_discoverable(ADV_IND, 0, 0, STATIC_RANDOM_ADDR, NO_WHITE_LIST_USE,
* 8, local_name, 3, serviceUUIDList, 0, 0);
* ret = aci_gap_update_adv_data(5, manuf_data);
* @endcode
*
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_update_adv_data(uint8_t AdvLen, const uint8_t *AdvData);
/**
* @brief Delete an AD Type
* @note This command can be used to delete the specified AD type from the advertisement data if
* present.
* @param ad_type One of the allowed AD types (see @ref AD_Types)
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_delete_ad_type(uint8_t ad_type);
/**
* @brief Get the current security settings
* @note This command can be used to get the current security settings of the device.
* @param mitm_protection @arg 0: Not required
* @arg 1: Required
* @param bonding @arg 0: No bonding mode
* @arg 1: Bonding mode
* @param oob_data @arg 0: Data absent
* @arg 1: Data present
* @param passkey_required @arg 0: Not required
* @arg 1: Fixed pin is present which is being used
* @arg 2: Passkey required for pairing. An event will be generated
* when required.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_get_security_level(uint8_t* mitm_protection, uint8_t* bonding,
uint8_t* oob_data, uint8_t* passkey_required);
/**
* @brief Add addresses of bonded devices into the controller's whitelist.
* @note The command will return an error if there are no devices in the database or if it was unable
* to add the device into the whitelist.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_configure_whitelist(void);
/**
* @brief Terminate a connection.
* @note A @ref EVT_DISCONN_COMPLETE event will be generated when the link is disconnected.
* @param conn_handle Connection handle
* @param reason Reason for requesting disconnection. The error code can be any of ones as specified
* for the disconnected command in the HCI specification (See @ref HCI_Error_codes).
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_terminate(uint16_t conn_handle, uint8_t reason);
/**
* @brief Clear the security database.
* @note All the devices in the security database will be removed.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_clear_security_database(void);
/**
* @brief Allows the security manager to complete the pairing procedure and re-bond with the master.
* @note This command can be issued by the application if a @ref EVT_BLUE_GAP_BOND_LOST event is generated.
* @param conn_handle
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_allow_rebond_IDB05A1(uint16_t conn_handle);
/**
* @brief Allows the security manager to complete the pairing procedure and re-bond with the master.
* @note This command can be issued by the application if a @ref EVT_BLUE_GAP_BOND_LOST event is generated.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_allow_rebond_IDB04A1(void);
/**
* @brief Start the limited discovery procedure.
* @note The controller is commanded to start active scanning. When this procedure is started,
* only the devices in limited discoverable mode are returned to the upper layers.
* The procedure is terminated when either the upper layers issue a command to terminate the
* procedure by issuing the command aci_gap_terminate_gap_procedure() with the procedure code
* set to @ref GAP_LIMITED_DISCOVERY_PROC or a timeout happens. When the procedure is terminated
* due to any of the above reasons, @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is returned with
* the procedure code set to @ref GAP_LIMITED_DISCOVERY_PROC.
* The device found when the procedure is ongoing is returned to the upper layers through the
* event @ref EVT_BLUE_GAP_DEVICE_FOUND (for IDB04A1) and @ref EVT_LE_ADVERTISING_REPORT (for IDB05A1).
* @param scanInterval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scanWindow Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param own_address_type Type of our address used during advertising (@ref PUBLIC_ADDR, @ref STATIC_RANDOM_ADDR).
* @param filterDuplicates Duplicate filtering enabled or not.
* @arg 0x00: Do not filter the duplicates
* @arg 0x01: Filter duplicates
*
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_limited_discovery_proc(uint16_t scanInterval, uint16_t scanWindow,
uint8_t own_address_type, uint8_t filterDuplicates);
/**
* @brief Start the general discovery procedure.
* @note The controller is commanded to start active scanning. The procedure is terminated when
* either the upper layers issue a command to terminate the procedure by issuing the command
* aci_gap_terminate_gap_procedure() with the procedure code set to GAP_GENERAL_DISCOVERY_PROC
* or a timeout happens. When the procedure is terminated due to any of the above reasons,
* @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is returned with the procedure code set to
* @ref GAP_GENERAL_DISCOVERY_PROC. The device found when the procedure is ongoing is returned to
* the upper layers through the event @ref EVT_BLUE_GAP_DEVICE_FOUND (for IDB04A1) and @ref EVT_LE_ADVERTISING_REPORT (for IDB05A1).
* @param scanInterval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scanWindow Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param own_address_type Type of our address used during advertising (@ref PUBLIC_ADDR, @ref STATIC_RANDOM_ADDR).
* @param filterDuplicates Duplicate filtering enabled or not.
* @arg 0x00: Do not filter the duplicates
* @arg 0x01: Filter duplicates
*
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_general_discovery_proc(uint16_t scanInterval, uint16_t scanWindow,
uint8_t own_address_type, uint8_t filterDuplicates);
/**
* @brief Start the name discovery procedure.
* @note A LE_Create_Connection call will be made to the controller by GAP with the initiator filter
* policy set to ignore whitelist and process connectable advertising packets only for the
* specified device. Once a connection is established, GATT procedure is started to read the
* device name characteristic. When the read is completed (successfully or unsuccessfully),
* a @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is given to the upper layer. The event also
* contains the name of the device if the device name was read successfully.
* @param scanInterval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scanWindow Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param peer_bdaddr_type Type of the peer address (@ref PUBLIC_ADDR, @ref STATIC_RANDOM_ADDR).
* @param peer_bdaddr Address of the peer device with which a connection has to be established.
* @param own_bdaddr_type Type of our address used during advertising (PUBLIC_ADDR,STATIC_RANDOM_ADDR).
* @param conn_min_interval Minimum value for the connection event interval. This shall be less than or
* equal to Conn_Interval_Max.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_max_interval Maximum value for the connection event interval. This shall be greater than or
* equal to Conn_Interval_Min.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_latency Slave latency for the connection in number of connection events.\n
* Range: 0x0000 to 0x01F4
* @param supervision_timeout Supervision timeout for the LE Link.\n
* Range: 0x000A to 0x0C80\n
* Time = N x 10 msec\n
* Time Range: 100 msec to 32 seconds
* @param min_conn_length Minimum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @param max_conn_length Maximum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_name_discovery_proc(uint16_t scanInterval, uint16_t scanWindow,
uint8_t peer_bdaddr_type, tBDAddr peer_bdaddr,
uint8_t own_bdaddr_type, uint16_t conn_min_interval,
uint16_t conn_max_interval, uint16_t conn_latency,
uint16_t supervision_timeout, uint16_t min_conn_length,
uint16_t max_conn_length);
/**
* @brief Start the auto connection establishment procedure.
* @note The devices specified are added to the white list of the controller and a LE_Create_Connection
* call will be made to the controller by GAP with the initiator filter policy set to
* use whitelist to determine which advertiser to connect to. When a command is issued to
* terminate the procedure by upper layer, a LE_Create_Connection_Cancel call will be made to the
* controller by GAP.
* The procedure is terminated when either a connection is successfully established with one of
* the specified devices in the white list or the procedure is explicitly terminated by issuing
* the command aci_gap_terminate_gap_procedure() with the procedure code set to
* @ref GAP_AUTO_CONNECTION_ESTABLISHMENT_PROC. A @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is returned with
* the procedure code set to @ref GAP_AUTO_CONNECTION_ESTABLISHMENT_PROC.
* @param scanInterval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scanWindow Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param own_bdaddr_type Type of our address used during advertising (PUBLIC_ADDR,STATIC_RANDOM_ADDR).
* @param conn_min_interval Minimum value for the connection event interval. This shall be less than or
* equal to Conn_Interval_Max.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_max_interval Maximum value for the connection event interval. This shall be greater than or
* equal to Conn_Interval_Min.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_latency Slave latency for the connection in number of connection events.\n
* Range: 0x0000 to 0x01F4
* @param supervision_timeout Supervision timeout for the LE Link.\n
* Range: 0x000A to 0x0C80\n
* Time = N x 10 msec\n
* Time Range: 100 msec to 32 seconds
* @param min_conn_length Minimum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @param max_conn_length Maximum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @cond BLUENRG
* @param use_reconn_addr If 1, the provided reconnection address is used as our address during the procedure (the address
* has been previously notified to the application through @ref EVT_BLUE_GAP_RECONNECTION_ADDRESS event).\n
* @param reconn_addr Reconnection address used if use_reconn_addr is 1.
* @endcond
* @param num_whitelist_entries Number of devices that have to be added to the whitelist.
* @param addr_array addr_array will contain the addresses that have to be added into the whitelist. The
* format of the addr_array should be: address type followed by address.
* Example:
* @code
* uint8_t addr_array[] = {PUBLIC_ADDR,0x01,0x00,0x00,0xe1,0x80,0x02,
* PUBLIC_ADDR,0x02,0x00,0x00,0xe1,0x80,0x02};
* @endcode
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_auto_conn_establish_proc_IDB05A1(uint16_t scanInterval, uint16_t scanWindow,
uint8_t own_bdaddr_type, uint16_t conn_min_interval,
uint16_t conn_max_interval, uint16_t conn_latency,
uint16_t supervision_timeout, uint16_t min_conn_length,
uint16_t max_conn_length,
uint8_t num_whitelist_entries,
const uint8_t *addr_array);
tBleStatus aci_gap_start_auto_conn_establish_proc_IDB04A1(uint16_t scanInterval, uint16_t scanWindow,
uint8_t own_bdaddr_type, uint16_t conn_min_interval,
uint16_t conn_max_interval, uint16_t conn_latency,
uint16_t supervision_timeout, uint16_t min_conn_length,
uint16_t max_conn_length,
uint8_t use_reconn_addr,
const tBDAddr reconn_addr,
uint8_t num_whitelist_entries,
const uint8_t *addr_array);
/**
* @brief Start a general connection establishment procedure.
* @note The host enables scanning in the controller with the scanner filter policy set
* to accept all advertising packets and from the scanning results all the devices
* are sent to the upper layer using the event @ref EVT_BLUE_GAP_DEVICE_FOUND (for IDB04A1) and @ref EVT_LE_ADVERTISING_REPORT (for IDB05A1).
* The upper layer then has to select one of the devices to which it wants to connect
* by issuing the command aci_gap_create_connection(). The procedure is terminated
* when a connection is established or the upper layer terminates the procedure by
* issuing the command aci_gap_terminate_gap_procedure() with the procedure code set to
* @ref GAP_GENERAL_CONNECTION_ESTABLISHMENT_PROC. On completion of the procedure a
* @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is generated with the procedure code set to
* @ref GAP_GENERAL_CONNECTION_ESTABLISHMENT_PROC.
* @param scan_type Passive or active scanning (@ref PASSIVE_SCAN, @ref ACTIVE_SCAN)
* @param scan_interval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scan_window Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param own_address_type Type of our address used during active scanning (@ref PUBLIC_ADDR, @ref STATIC_RANDOM_ADDR).
* @param filter_duplicates Duplicate filtering enabled or not.
* @arg 0x00: Do not filter the duplicates
* @arg 0x01: Filter duplicates
* @cond BLUENRG
* @param use_reconn_addr If 1, the provided reconnection address is used as our address during the procedure (the address
* has been previously notified to the application through @ref EVT_BLUE_GAP_RECONNECTION_ADDRESS event).\n
* @param reconn_addr Reconnection address used if use_reconn_addr is 1.
* @endcond
*
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_general_conn_establish_proc_IDB05A1(uint8_t scan_type, uint16_t scan_interval, uint16_t scan_window,
uint8_t own_address_type, uint8_t filter_duplicates);
tBleStatus aci_gap_start_general_conn_establish_proc_IDB04A1(uint8_t scan_type, uint16_t scan_interval, uint16_t scan_window,
uint8_t own_address_type, uint8_t filter_duplicates, uint8_t use_reconn_addr, const tBDAddr reconn_addr);
/**
* @brief Start a selective connection establishment procedure.
* @note The GAP adds the specified device addresses into white list and enables scanning in
* the controller with the scanner filter policy set to accept packets only from
* devices in whitelist. All the devices found are sent to the upper layer by the
* event @ref EVT_BLUE_GAP_DEVICE_FOUND (for IDB04A1) and @ref EVT_LE_ADVERTISING_REPORT (for IDB05A1). The upper layer then has to select one of the
* devices to which it wants to connect by issuing the command aci_gap_create_connection().
* On completion of the procedure a @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is generated
* with the procedure code set to @ref GAP_SELECTIVE_CONNECTION_ESTABLISHMENT_PROC.
* The procedure is terminated when a connection is established or the upper layer terminates
* the procedure by issuing the command aci_gap_terminate_gap_procedure with the procedure
* code set to @ref GAP_SELECTIVE_CONNECTION_ESTABLISHMENT_PROC.
* @param scan_type Passive or active scanning (@ref PASSIVE_SCAN, @ref ACTIVE_SCAN)
* @param scan_interval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scan_window Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param own_address_type Type of our address used during active scanning (@ref PUBLIC_ADDR, @ref STATIC_RANDOM_ADDR).
* @param filter_duplicates Duplicate filtering enabled or not.
* @arg 0x00: Do not filter the duplicates
* @arg 0x01: Filter duplicates
* @param num_whitelist_entries Number of devices that have to be added to the whitelist.
* @param addr_array addr_array will contain the addresses that have to be added into the whitelist. The
* format of the addr_array should be: address type followed by address.
* Example:
* @code
* uint8_t addr_array[] = {PUBLIC_ADDR,0x01,0x00,0x00,0xe1,0x80,0x02,
* PUBLIC_ADDR,0x02,0x00,0x00,0xe1,0x80,0x02};
* @endcode
*
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_selective_conn_establish_proc(uint8_t scan_type, uint16_t scan_interval, uint16_t scan_window,
uint8_t own_address_type, uint8_t filter_duplicates, uint8_t num_whitelist_entries,
const uint8_t *addr_array);
/**
* @brief Start the direct connection establishment procedure.
* @note A LE_Create_Connection call will be made to the controller by GAP with the initiator filter
* policy set to ignore whitelist and process connectable advertising packets only for the
* specified device. The procedure can be terminated explicitly by the upper layer by issuing
* the command aci_gap_terminate_gap_procedure(). When a command is issued to terminate the
* procedure by upper layer, a LE_Create_Connection_Cancel call will be made to the controller
* by GAP.
* On termination of the procedure, a @ref EVT_LE_CONN_COMPLETE event is returned. The procedure can
* be explicitly terminated by the upper layer by issuing the command
* aci_gap_terminate_gap_procedure() with the procedure_code set to @ref GAP_DIRECT_CONNECTION_ESTABLISHMENT_PROC.
* @param scanInterval Time interval from when the Controller started its last LE scan until it begins
* the subsequent LE scan. The scan interval should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param scanWindow Amount of time for the duration of the LE scan. Scan_Window shall be less than
* or equal to Scan_Interval. The scan window should be a number in the range
* 0x0004 to 0x4000. This corresponds to a time range 2.5 msec to 10240 msec.
* For a number N, Time = N x 0.625 msec.
* @param peer_bdaddr_type Type of the peer address (@ref PUBLIC_ADDR, @ref STATIC_RANDOM_ADDR).
* @param peer_bdaddr Address of the peer device with which a connection has to be established.
* @param own_bdaddr_type Type of our address used during advertising (PUBLIC_ADDR,STATIC_RANDOM_ADDR).
* @param conn_min_interval Minimum value for the connection event interval. This shall be less than or
* equal to Conn_Interval_Max.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_max_interval Maximum value for the connection event interval. This shall be greater than or
* equal to Conn_Interval_Min.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_latency Slave latency for the connection in number of connection events.\n
* Range: 0x0000 to 0x01F4
* @param supervision_timeout Supervision timeout for the LE Link.\n
* Range: 0x000A to 0x0C80\n
* Time = N x 10 msec\n
* Time Range: 100 msec to 32 seconds
* @param min_conn_length Minimum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @param max_conn_length Maximum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_create_connection(uint16_t scanInterval, uint16_t scanWindow,
uint8_t peer_bdaddr_type, tBDAddr peer_bdaddr,
uint8_t own_bdaddr_type, uint16_t conn_min_interval,
uint16_t conn_max_interval, uint16_t conn_latency,
uint16_t supervision_timeout, uint16_t min_conn_length,
uint16_t max_conn_length);
/**
* @brief Terminate the specified GAP procedure. @ref EVT_BLUE_GAP_PROCEDURE_COMPLETE event is
* returned with the procedure code set to the corresponding procedure.
* @param procedure_code One of the procedure codes (@ref gap_procedure_codes "GAP procedure codes").
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_terminate_gap_procedure(uint8_t procedure_code);
/**
* @brief Start the connection parameter update procedure.
* @note Allowed by the Central to update the connection parameter of the specified connection.
* A Link Layer Connection Update procedure is started on the controller.
* On completion of the procedure, a @ref EVT_LE_CONN_UPDATE_COMPLETE event is returned to
* the upper layer.
* @param conn_handle Handle of the connection for which the update procedure has to be started.
* @param conn_min_interval Minimum value for the connection event interval. This shall be less than or
* equal to Conn_Interval_Max.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_max_interval Maximum value for the connection event interval. This shall be greater than or
* equal to Conn_Interval_Min.\n
* Range: 0x0006 to 0x0C80\n
* Time = N x 1.25 msec\n
* Time Range: 7.5 msec to 4 seconds
* @param conn_latency Slave latency for the connection in number of connection events.\n
* Range: 0x0000 to 0x01F4
* @param supervision_timeout Supervision timeout for the LE Link.\n
* Range: 0x000A to 0x0C80\n
* Time = N x 10 msec\n
* Time Range: 100 msec to 32 seconds
* @param min_conn_length Minimum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @param max_conn_length Maximum length of connection needed for the LE connection.\n
* Range: 0x0000 - 0xFFFF\n
* Time = N x 0.625 msec.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_connection_update(uint16_t conn_handle, uint16_t conn_min_interval,
uint16_t conn_max_interval, uint16_t conn_latency,
uint16_t supervision_timeout, uint16_t min_conn_length,
uint16_t max_conn_length);
/**
* @brief Send a pairing request.
* @note Send the SM pairing request to start a pairing process from a Central. The authentication
* requirements and IO capabilities should be set before issuing this command using
* aci_gap_set_io_capability() and aci_gap_set_auth_requirement().
* A @ref EVT_BLUE_GAP_PAIRING_CMPLT event is returned after the pairing process is completed.
* @param conn_handle Handle of the connection for which the pairing request has to be sent.
* @param force_rebond @arg 0x00: Pairing request is sent only if the device has not previously bonded
* @arg 0x01: Pairing request will be sent even if the device was previously bonded
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_send_pairing_request(uint16_t conn_handle, uint8_t force_rebond);
/**
* @brief Resolve a private address.
* @note This command tries to resolve the address provided with the IRKs present in its database. If
* the address is resolved successfully with any one of the IRKs present in the database, it
* returns success.
* @param address Address to be resolved.
* @param[in] actual_address The public or static random address of the peer device, distributed during pairing phase.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_resolve_private_address_IDB05A1(const tBDAddr private_address, tBDAddr actual_address);
/**
* @brief Resolve a private address.
* @note This command tries to resolve the address provided with the IRKs present in its database. If
* the address is resolved successfully with any one of the IRKs present in the database, it
* returns success.
* @param address Address to be resolved.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_resolve_private_address_IDB04A1(const tBDAddr private_address);
/**
* @brief This command gets the list of bonded devices.
* @note It returns the number of addresses and the corresponding address types and values.
* Example:
* @code
* tBleStatus ret;
* uint8_t num_devices = 0;
* uint8_t device_list[12*7];
* ret = aci_gap_get_bonded_devices(&num_devices, device_list, sizeof(device_list));
* for(int i = 0; i < num_devices; i+=7){
* uint8_t addr_type = device_list[i];
* uint8_t addr = device_list[i+1];
* printf("Type: %d, Addr: %02X%02X%02X%02X%02X%02X\n",addr_type,addr[5],addr[4],addr[3],addr[2],addr[1],addr[0]);
* }
* @endcode
*
* @param[in] num_devices The number of bonded devices.
* @param[in] device_list List of addresses. It contains a sequence of [address type, address] pairs, where address
* type can be @ref PUBLIC_ADDR or @arg @ref STATIC_RANDOM_ADDR.
* @param device_list_size Maximum size of the device_list buffer used to return the device list.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_get_bonded_devices(uint8_t *num_devices, uint8_t *device_list, uint8_t device_list_size);
/**
* @brief Puts the device into broadcast mode
* @note A privacy enabled device uses either a resolvable private address or a non-resolvable private address
* as specified in the own_addr_type parameter of the command.
* @param adv_interv_min Minimum advertising interval.
* Range: 0x00A0 to 0x4000
* Time = N * 0.625 msec
* Time Range: 100 ms to 10.24 sec
* @param adv_interv_max Maximum advertising interval.
* Range: 0x00A0 to 0x4000
* Time = N * 0.625 msec
* Time Range: 100 ms to 10.24 sec
* @param adv_type One of the allowed advertising types:
* @arg @ref ADV_SCAN_IND Scannable undirected advertising
* @arg @ref ADV_NONCONN_IND Non connectable undirected advertising
* @param own_address_type If Privacy is disabled, the broadcaster address can be
* @arg @ref PUBLIC_ADDR.
* @arg @ref STATIC_RANDOM_ADDR.
* If Privacy is enabled, then the broadcaster address can be
* @arg @ref RESOLVABLE_PRIVATE_ADDR
* @arg @ref NON_RESOLVABLE_PRIVATE_ADDR
* @param adv_data_length Length of the advertising data in the advertising packet
* @param adv_data Advertising data used by the device while advertising
* @param num_whitelist_entries Number of devices to be added to whitelist
* @param addr_array It will contain the addresses that have to be added into the whitelist. The
* format of the addr_array should be: address type followed by address.
* Example:
* @code
* uint8_t addr_array[] = {PUBLIC_ADDR,0x01,0x00,0x00,0xe1,0x80,0x02,
* PUBLIC_ADDR,0x02,0x00,0x00,0xe1,0x80,0x02};
* @endcode
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_set_broadcast_mode_IDB05A1(uint16_t adv_interv_min, uint16_t adv_interv_max, uint8_t adv_type,
uint8_t own_addr_type, uint8_t adv_data_length, const uint8_t *adv_data, uint8_t num_whitelist_entries,
const uint8_t *addr_array);
/**
* @brief Starts an observation procedure, when the device is in Observer role.
* @note The host enables scanning in the controller. The advertising reports are sent to the upper layer
* using standard @ref EVT_LE_ADVERTISING_REPORT subevent in @ref EVT_LE_META_EVENT. See Bluetooth
* Core v4.0, Vol. 2, part E, Ch. 7.7.65.2, LE Advertising Report Event.
* @param scan_interval Time interval from when the Controller started its last LE scan until it begins the subsequent LE scan.
* The scan interval should be a number in the range 0x0004 to 0x4000. This corresponds to a time range from 2.5 msec
* to 10240 msec. For a number N, Time = N * 0.625 msec.
* @param scan_window Amount of time for the duration of the LE scan. scan_window shall be less than or equal to scan_interval.
* The scan window should be a number in the range 0x0004 to 0x4000. This corresponds to a time range from 2.5 msec
* to 10240 msec. For a number N, Time = N * 0.625 msec.
* @param scan_type Passive or active scanning (@ref PASSIVE_SCAN, @ref ACTIVE_SCAN)
* @param own_address_type If Privacy is disabled, then the scanner address can be
* @arg @ref PUBLIC_ADDR.
* @arg @ref STATIC_RANDOM_ADDR.
* If Privacy is enabled, then the scanner address can be
* @arg @ref RESOLVABLE_PRIVATE_ADDR
* @arg @ref NON_RESOLVABLE_PRIVATE_ADDR
* @param filter_duplicates Duplicate filtering enabled or not.
* @arg 0x00: Do not filter the duplicates
* @arg 0x01: Filter duplicates
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_start_observation_procedure(uint16_t scan_interval, uint16_t scan_window, uint8_t scan_type,
uint8_t own_address_type, uint8_t filter_duplicates);
/**
* @brief The command finds whether a device is bonded.
* @note If the device is using a resolvable private address and it has been bonded, then the command will return
* BLE_STATUS_SUCCESS.
* @param peer_address_type The address type of the peer device
* @arg @ref PUBLIC_ADDR.
* @arg @ref RANDOM_ADDR.
* @param peer_address Address used by the peer device while advertising.
* @return Value indicating success or error code.
*/
tBleStatus aci_gap_is_device_bonded_IDB05A1(uint8_t peer_address_type, const tBDAddr peer_address);
/**
* @}
*/
/**
* @defgroup GAP_Events GAP events
* @{
*/
/**
* This event is generated by the controller when the limited discoverable
* mode ends due to timeout (180 seconds). No parameters in the event.
*/
#define EVT_BLUE_GAP_LIMITED_DISCOVERABLE (0x0400)
/**
* This event is generated when the pairing process has completed successfully
* or a pairing procedure timeout has occurred or the pairing has failed.
* This is to notify the application that we have paired with a remote device
* so that it can take further actions or to notify that a timeout has occurred
* so that the upper layer can decide to disconnect the link. See @ref _evt_gap_pairing_cmplt.
*/
#define EVT_BLUE_GAP_PAIRING_CMPLT (0x0401)
typedef __packed struct _evt_gap_pairing_cmplt{
uint16_t conn_handle; /**< Connection handle on which the pairing procedure completed */
/**
* 0x00: Pairing Success. Pairing with a remote device was successful\n
* 0x01: Pairing Timeout. The SMP timeout has elapsed and no further SMP commands will be processed until reconnection\n
* 0x02: Pairing Failed. The pairing failed with the remote device.
*/
uint8_t status;
} PACKED evt_gap_pairing_cmplt;
/**
* This event is generated by the Security manager to the application when a pass key is required for pairing.
* When this event is received, the application has to respond with the aci_gap_pass_key_response() command.
* See @ref _evt_gap_pass_key_req.
*/
#define EVT_BLUE_GAP_PASS_KEY_REQUEST (0x0402)
typedef __packed struct _evt_gap_pass_key_req{
uint16_t conn_handle; /**< Connection handle for which the passkey has been requested. */
} PACKED evt_gap_pass_key_req;
/**
* This event is generated by the Security manager to the application when the application
* has set that authorization is required for reading/writing of attributes. This event will
* be generated as soon as the pairing is complete. When this event is received,
* aci_gap_authorization_response() command should be used by the application.
* See @ref _evt_gap_author_req.
*/
#define EVT_BLUE_GAP_AUTHORIZATION_REQUEST (0x0403)
typedef __packed struct _evt_gap_author_req{
uint16_t conn_handle; /**< Connection handle for which authorization has been requested. */
} PACKED evt_gap_author_req;
/**
* This event is generated when the slave security request is successfully sent to the master.
* No parameters for this event.
*/
#define EVT_BLUE_GAP_SLAVE_SECURITY_INITIATED (0X0404)
/**
* This event is generated when a pairing request is issued in response to a slave security
* request from a master which has previously bonded with the slave. When this event is received,
* the upper layer has to issue the command aci_gap_allow_rebond() in order to allow the slave
* to continue the pairing process with the master. No parameters for this event
*/
#define EVT_BLUE_GAP_BOND_LOST (0X0405)
/**
* The event is given by the GAP layer to the upper layers when a device is discovered during scanning
* as a consequence of one of the GAP procedures started by the upper layers. See @ref _evt_gap_device_found.
*/
#define EVT_BLUE_GAP_DEVICE_FOUND (0x0406)
typedef __packed struct _evt_gap_device_found{
uint8_t evt_type; /**< Type of event (@ref ADV_IND, @ref ADV_DIRECT_IND, @ref ADV_SCAN_IND, @ref ADV_NONCONN_IND, @ref SCAN_RSP) */
uint8_t bdaddr_type; /**< Type of the peer address (@ref PUBLIC_ADDR, @ref RANDOM_ADDR). */
tBDAddr bdaddr; /**< Address of the peer device found during scanning. */
uint8_t data_length; /**< Length of advertising or scan response data. */
uint8_t data_RSSI[VARIABLE_SIZE]; /**< Advertising or scan response data + RSSI. RSSI is last octect (signed integer). */
} PACKED evt_gap_device_found;
/**
* This event is sent by the GAP to the upper layers when a procedure previously started has been terminated
* by the upper layer or has completed for any other reason. See @ref _evt_gap_procedure_complete.
*/
#define EVT_BLUE_GAP_PROCEDURE_COMPLETE (0x0407)
typedef __packed struct _evt_gap_procedure_complete{
uint8_t procedure_code; /**< Terminated procedure. See @ref gap_procedure_codes "GAP procedure codes". */
/**
* @ref BLE_STATUS_SUCCESS, @ref BLE_STATUS_FAILED or @ref ERR_AUTH_FAILURE (procedure failed
* due to authentication requirements).
*/
uint8_t status;
/**
* Procedure specific data.\n
* @li For Name Discovery Procedure:\n
* the name of the peer device if the procedure completed successfully.
* @li For General Connection Establishment Procedure:\n
* The reconnection address written to the peripheral device if the peripheral is privacy enabled
*/
uint8_t data[VARIABLE_SIZE];
} PACKED evt_gap_procedure_complete;
/**
* This event is sent only by a privacy enabled Peripheral. The event is sent to the upper layers when the peripheral
* is not able to resolve the private address of the peer device after connecting to it.
*/
#define EVT_BLUE_GAP_ADDR_NOT_RESOLVED_IDB05A1 (0x0408)
typedef __packed struct _evt_gap_addr_not_resolved_IDB05A1{
uint16_t conn_handle; /**< Connection handle for which the private address could not be resolved with any of the stored IRK's. */
} PACKED evt_gap_addr_not_resolved_IDB05A1;
/**
* This event is raised when the reconnection address is generated during the general connection
* establishment procedure. The same address is set into the peer device also as a part of the general
* connection establishment procedure. In order to make use of the reconnection address the next time
* while connecting to the bonded peripheral, the application needs to use this reconnection address
* as its own address as well as the peer address to which it wants to connect. See aci_gap_start_general_conn_establish_proc()
* and aci_gap_start_auto_conn_establish_proc().
*/
#define EVT_BLUE_GAP_RECONNECTION_ADDRESS_IDB04A1 (0x0408)
typedef __packed struct _evt_gap_reconnection_addr_IDB04A1{
uint8_t reconnection_address[6]; /**< 6 bytes of reconnection address that has been generated */
} PACKED evt_gap_reconnection_addr_IDB04A1;
/**
* @}
*/
/**
* @}
*/
#endif /* __BLUENRG_GAP_ACI_H__ */