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/** @file
* @brief Bluetooth connection handling
*/
/*
* Copyright (c) 2015-2016 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef ZEPHYR_INCLUDE_BLUETOOTH_CONN_H_
#define ZEPHYR_INCLUDE_BLUETOOTH_CONN_H_
/**
* @brief Connection management
* @defgroup bt_conn Connection management
* @ingroup bluetooth
* @{
*/
#include <stdbool.h>
#include <bluetooth/bluetooth.h>
#include <bluetooth/hci_err.h>
#include <bluetooth/addr.h>
#ifdef __cplusplus
extern "C" {
#endif
/** Opaque type representing a connection to a remote device */
struct bt_conn;
/** Connection parameters for LE connections */
struct bt_le_conn_param {
u16_t interval_min;
u16_t interval_max;
u16_t latency;
u16_t timeout;
};
/** Helper to declare connection parameters inline
*
* @param int_min Minimum Connection Interval (N * 1.25 ms)
* @param int_max Maximum Connection Interval (N * 1.25 ms)
* @param lat Connection Latency
* @param to Supervision Timeout (N * 10 ms)
*/
#define BT_LE_CONN_PARAM(int_min, int_max, lat, to) \
((struct bt_le_conn_param[]) { { \
.interval_min = (int_min), \
.interval_max = (int_max), \
.latency = (lat), \
.timeout = (to), \
} })
/** Default LE connection parameters:
* Connection Interval: 30-50 ms
* Latency: 0
* Timeout: 4 s
*/
#define BT_LE_CONN_PARAM_DEFAULT BT_LE_CONN_PARAM(BT_GAP_INIT_CONN_INT_MIN, \
BT_GAP_INIT_CONN_INT_MAX, \
0, 400)
/** @brief Increment a connection's reference count.
*
* Increment the reference count of a connection object.
*
* @param conn Connection object.
*
* @return Connection object with incremented reference count.
*/
struct bt_conn *bt_conn_ref(struct bt_conn *conn);
/** @brief Decrement a connection's reference count.
*
* Decrement the reference count of a connection object.
*
* @param conn Connection object.
*/
void bt_conn_unref(struct bt_conn *conn);
/** @brief Iterate through all existing connections.
*
* @param type Connection Type
* @param func Function to call for each connection.
* @param data Data to pass to the callback function.
*/
void bt_conn_foreach(int type, void (*func)(struct bt_conn *conn, void *data),
void *data);
/** @brief Look up an existing connection by address.
*
* Look up an existing connection based on the remote address.
*
* @param id Local identity (in most cases BT_ID_DEFAULT).
* @param peer Remote address.
*
* @return Connection object or NULL if not found. The caller gets a
* new reference to the connection object which must be released with
* bt_conn_unref() once done using the object.
*/
struct bt_conn *bt_conn_lookup_addr_le(u8_t id, const bt_addr_le_t *peer);
/** @brief Get destination (peer) address of a connection.
*
* @param conn Connection object.
*
* @return Destination address.
*/
const bt_addr_le_t *bt_conn_get_dst(const struct bt_conn *conn);
/** @brief Get array index of a connection
*
* This function is used to map bt_conn to index of an array of
* connections. The array has CONFIG_BT_MAX_CONN elements.
*
* @param conn Connection object.
*
* @return Index of the connection object.
* The range of the returned value is 0..CONFIG_BT_MAX_CONN-1
*/
u8_t bt_conn_index(struct bt_conn *conn);
/** Connection Type */
enum {
/** LE Connection Type */
BT_CONN_TYPE_LE = BIT(0),
/** BR/EDR Connection Type */
BT_CONN_TYPE_BR = BIT(1),
/** SCO Connection Type */
BT_CONN_TYPE_SCO = BIT(2),
/** All Connection Type */
BT_CONN_TYPE_ALL = BT_CONN_TYPE_LE | BT_CONN_TYPE_BR | BT_CONN_TYPE_SCO,
};
/** LE Connection Info Structure */
struct bt_conn_le_info {
/** Source (Local) Identity Address */
const bt_addr_le_t *src;
/** Destination (Remote) Identity Address or remote Resolvable Private
* Address (RPA) before identity has been resolved.
*/
const bt_addr_le_t *dst;
/** Local device address used during connection setup. */
const bt_addr_le_t *local;
/** Remote device address used during connection setup. */
const bt_addr_le_t *remote;
u16_t interval; /** Connection interval */
u16_t latency; /** Connection slave latency */
u16_t timeout; /** Connection supervision timeout */
};
/** BR/EDR Connection Info Structure */
struct bt_conn_br_info {
const bt_addr_t *dst; /** Destination (Remote) BR/EDR address */
};
/** Connection role (master or slave) */
enum {
BT_CONN_ROLE_MASTER,
BT_CONN_ROLE_SLAVE,
};
/** @brief Connection Info Structure
*
*
* @param type Connection Type
* @param role Connection Role
* @param id Which local identity the connection was created with
* @param le LE Connection specific Info
* @param br BR/EDR Connection specific Info
*/
struct bt_conn_info {
u8_t type;
u8_t role;
u8_t id;
union {
struct bt_conn_le_info le;
struct bt_conn_br_info br;
};
};
/** @brief Get connection info
*
* @param conn Connection object.
* @param info Connection info object.
*
* @return Zero on success or (negative) error code on failure.
*/
int bt_conn_get_info(const struct bt_conn *conn, struct bt_conn_info *info);
/** @brief Update the connection parameters.
*
* @param conn Connection object.
* @param param Updated connection parameters.
*
* @return Zero on success or (negative) error code on failure.
*/
int bt_conn_le_param_update(struct bt_conn *conn,
const struct bt_le_conn_param *param);
/** @brief Disconnect from a remote device or cancel pending connection.
*
* Disconnect an active connection with the specified reason code or cancel
* pending outgoing connection.
*
* @param conn Connection to disconnect.
* @param reason Reason code for the disconnection.
*
* @return Zero on success or (negative) error code on failure.
*/
int bt_conn_disconnect(struct bt_conn *conn, u8_t reason);
/** @brief Initiate an LE connection to a remote device.
*
* Allows initiate new LE link to remote peer using its address.
* Returns a new reference that the the caller is responsible for managing.
*
* This uses the General Connection Establishment procedure.
*
* @param peer Remote address.
* @param param Initial connection parameters.
*
* @return Valid connection object on success or NULL otherwise.
*/
struct bt_conn *bt_conn_create_le(const bt_addr_le_t *peer,
const struct bt_le_conn_param *param);
/** @brief Automatically connect to remote devices in whitelist.
*
* This uses the Auto Connection Establishment procedure.
*
* @param param Initial connection parameters.
*
* @return Zero on success or (negative) error code on failure.
*/
int bt_conn_create_auto_le(const struct bt_le_conn_param *param);
/** @brief Stop automatic connect creation.
*
* @return Zero on success or (negative) error code on failure.
*/
int bt_conn_create_auto_stop(void);
/** @brief Automatically connect to remote device if it's in range.
*
* This function enables/disables automatic connection initiation.
* Every time the device loses the connection with peer, this connection
* will be re-established if connectable advertisement from peer is received.
*
* Note: Auto connect is disabled during explicit scanning.
*
* @param addr Remote Bluetooth address.
* @param param If non-NULL, auto connect is enabled with the given
* parameters. If NULL, auto connect is disabled.
*
* @return Zero on success or error code otherwise.
*/
int bt_le_set_auto_conn(const bt_addr_le_t *addr,
const struct bt_le_conn_param *param);
/** @brief Initiate directed advertising to a remote device
*
* Allows initiating a new LE connection to remote peer with the remote
* acting in central role and the local device in peripheral role.
*
* The advertising type will either be BT_LE_ADV_DIRECT_IND, or
* BT_LE_ADV_DIRECT_IND_LOW_DUTY if the BT_LE_ADV_OPT_DIR_MODE_LOW_DUTY
* option was used as part of the advertising parameters.
*
* In case of high duty cycle this will result in a callback with
* connected() with a new connection or with an error.
*
* The advertising may be canceled with bt_conn_disconnect().
*
* Returns a new reference that the the caller is responsible for managing.
*
* @param peer Remote address.
* @param param Directed advertising parameters.
*
* @return Valid connection object on success or NULL otherwise.
*/
struct bt_conn *bt_conn_create_slave_le(const bt_addr_le_t *peer,
const struct bt_le_adv_param *param);
/** Security level. */
typedef enum __packed {
/** Level 0: Only for BR/EDR special cases, like SDP */
BT_SECURITY_L0,
/** Level 1: No encryption and no authentication. */
BT_SECURITY_L1,
/** Level 2: Encryption and no authentication (no MITM). */
BT_SECURITY_L2,
/** Level 3: Encryption and authentication (MITM). */
BT_SECURITY_L3,
/** Level 4: Authenticated Secure Connections and 128-bit key. */
BT_SECURITY_L4,
BT_SECURITY_NONE __deprecated = BT_SECURITY_L0,
BT_SECURITY_LOW __deprecated = BT_SECURITY_L1,
BT_SECURITY_MEDIUM __deprecated = BT_SECURITY_L2,
BT_SECURITY_HIGH __deprecated = BT_SECURITY_L3,
BT_SECURITY_FIPS __deprecated = BT_SECURITY_L4,
/** Bit to force new pairing procedure, bit-wise OR with requested
* security level.
*/
BT_SECURITY_FORCE_PAIR = BIT(7),
} bt_security_t;
/** @brief Set security level for a connection.
*
* This function enable security (encryption) for a connection. If device is
* already paired with sufficiently strong key encryption will be enabled. If
* link is already encrypted with sufficiently strong key this function does
* nothing.
*
* If device is not paired pairing will be initiated. If device is paired and
* keys are too weak but input output capabilities allow for strong enough keys
* pairing will be initiated.
*
* This function may return error if required level of security is not possible
* to achieve due to local or remote device limitation (e.g., input output
* capabilities), or if the maximum number of paired devices has been reached.
*
* This function may return error if the pairing procedure has already been
* initiated by the local device or the peer device.
*
* @param conn Connection object.
* @param sec Requested security level.
*
* @return 0 on success or negative error
*/
int bt_conn_set_security(struct bt_conn *conn, bt_security_t sec);
/** @brief Get security level for a connection.
*
* @return Connection security level
*/
bt_security_t bt_conn_get_security(struct bt_conn *conn);
static inline int __deprecated bt_conn_security(struct bt_conn *conn,
bt_security_t sec)
{
return bt_conn_set_security(conn, sec);
}
/** @brief Get encryption key size.
*
* This function gets encryption key size.
* If there is no security (encryption) enabled 0 will be returned.
*
* @param conn Existing connection object.
*
* @return Encryption key size.
*/
u8_t bt_conn_enc_key_size(struct bt_conn *conn);
enum bt_security_err {
/** Security procedure successful. */
BT_SECURITY_ERR_SUCCESS,
/** Authentication failed. */
BT_SECURITY_ERR_AUTH_FAIL,
/** PIN or encryption key is missing. */
BT_SECURITY_ERR_PIN_OR_KEY_MISSING,
/** OOB data is not available. */
BT_SECURITY_ERR_OOB_NOT_AVAILABLE,
/** The requested security level could not be reached. */
BT_SECURITY_ERR_AUTH_REQUIREMENT,
/** Pairing is not supported */
BT_SECURITY_ERR_PAIR_NOT_SUPPORTED,
/** Pairing is not allowed. */
BT_SECURITY_ERR_PAIR_NOT_ALLOWED,
/** Invalid parameters. */
BT_SECURITY_ERR_INVALID_PARAM,
/** Pairing failed but the exact reason could not be specified. */
BT_SECURITY_ERR_UNSPECIFIED,
};
/** @brief Connection callback structure.
*
* This structure is used for tracking the state of a connection.
* It is registered with the help of the bt_conn_cb_register() API.
* It's permissible to register multiple instances of this @ref bt_conn_cb
* type, in case different modules of an application are interested in
* tracking the connection state. If a callback is not of interest for
* an instance, it may be set to NULL and will as a consequence not be
* used for that instance.
*/
struct bt_conn_cb {
/** @brief A new connection has been established.
*
* This callback notifies the application of a new connection.
* In case the err parameter is non-zero it means that the
* connection establishment failed.
*
* @param conn New connection object.
* @param err HCI error. Zero for success, non-zero otherwise.
*
* @p err can mean either of the following:
* - @ref BT_HCI_ERR_UNKNOWN_CONN_ID Creating the connection started by
* @ref bt_conn_create_le was canceled either by the user through
* @ref bt_conn_disconnect or by the timeout in the host through
* :option:`CONFIG_BT_CREATE_CONN_TIMEOUT`.
* - @p BT_HCI_ERR_ADV_TIMEOUT Directed advertiser started by @ref
* bt_conn_create_slave_le with high duty cycle timed out after 1.28
* seconds.
*/
void (*connected)(struct bt_conn *conn, u8_t err);
/** @brief A connection has been disconnected.
*
* This callback notifies the application that a connection
* has been disconnected.
*
* @param conn Connection object.
* @param reason HCI reason for the disconnection.
*/
void (*disconnected)(struct bt_conn *conn, u8_t reason);
/** @brief LE connection parameter update request.
*
* This callback notifies the application that a remote device
* is requesting to update the connection parameters. The
* application accepts the parameters by returning true, or
* rejects them by returning false. Before accepting, the
* application may also adjust the parameters to better suit
* its needs.
*
* It is recommended for an application to have just one of these
* callbacks for simplicity. However, if an application registers
* multiple it needs to manage the potentially different
* requirements for each callback. Each callback gets the
* parameters as returned by previous callbacks, i.e. they are not
* necessarily the same ones as the remote originally sent.
*
* @param conn Connection object.
* @param param Proposed connection parameters.
*
* @return true to accept the parameters, or false to reject them.
*/
bool (*le_param_req)(struct bt_conn *conn,
struct bt_le_conn_param *param);
/** @brief The parameters for an LE connection have been updated.
*
* This callback notifies the application that the connection
* parameters for an LE connection have been updated.
*
* @param conn Connection object.
* @param interval Connection interval.
* @param latency Connection latency.
* @param timeout Connection supervision timeout.
*/
void (*le_param_updated)(struct bt_conn *conn, u16_t interval,
u16_t latency, u16_t timeout);
#if defined(CONFIG_BT_SMP)
/** @brief Remote Identity Address has been resolved.
*
* This callback notifies the application that a remote
* Identity Address has been resolved
*
* @param conn Connection object.
* @param rpa Resolvable Private Address.
* @param identity Identity Address.
*/
void (*identity_resolved)(struct bt_conn *conn,
const bt_addr_le_t *rpa,
const bt_addr_le_t *identity);
#endif /* CONFIG_BT_SMP */
#if defined(CONFIG_BT_SMP) || defined(CONFIG_BT_BREDR)
/** @brief The security level of a connection has changed.
*
* This callback notifies the application that the security level
* of a connection has changed.
*
* @param conn Connection object.
* @param level New security level of the connection.
* @param err Security error. Zero for success, non-zero otherwise.
*/
void (*security_changed)(struct bt_conn *conn, bt_security_t level,
enum bt_security_err err);
#endif /* defined(CONFIG_BT_SMP) || defined(CONFIG_BT_BREDR) */
struct bt_conn_cb *_next;
};
/** @brief Register connection callbacks.
*
* Register callbacks to monitor the state of connections.
*
* @param cb Callback struct.
*/
void bt_conn_cb_register(struct bt_conn_cb *cb);
/** Enable/disable bonding.
*
* Set/clear the Bonding flag in the Authentication Requirements of
* SMP Pairing Request/Response data.
* The initial value of this flag depends on BT_BONDABLE Kconfig setting.
* For the vast majority of applications calling this function shouldn't be
* needed.
*
* @param enable Value allowing/disallowing to be bondable.
*/
void bt_set_bondable(bool enable);
/** Allow/disallow remote OOB data to be used for pairing.
*
* Set/clear the OOB data flag for SMP Pairing Request/Response data.
* The initial value of this flag depends on BT_OOB_DATA_PRESENT Kconfig
* setting.
*
* @param enable Value allowing/disallowing remote OOB data.
*/
void bt_set_oob_data_flag(bool enable);
/**
* @brief Set OOB data during LE SC pairing procedure
*
* This function allows to set OOB data during the LE SC pairing procedure. The
* function should only be called in response to the oob_data_request() callback
* provided that LE SC method is used for pairing.
*
* The user should submit OOB data according to the information received in the
* callback. This may yield three different configurations: with only local OOB
* data present, with only remote OOB data present or with both local and
* remote OOB data present.
*
* @param conn Connection object
* @param oobd_local Local OOB data or NULL if not present
* @param oobd_remote Remote OOB data or NULL if not present
*
* @return Zero on success or error code otherwise, positive in case
* of protocol error or negative (POSIX) in case of stack internal error
*/
int bt_le_oob_set_sc_data(struct bt_conn *conn,
const struct bt_le_oob_sc_data *oobd_local,
const struct bt_le_oob_sc_data *oobd_remote);
/**
* @brief Get OOB data used for LE SC pairing procedure
*
* This function allows to get OOB data during the LE SC pairing procedure that
* were set by the bt_le_oob_set_sc_data() API.
*
* Note: The OOB data will only be available as long as the connection object
* associated with it is valid.
*
* @param conn Connection object
* @param oobd_local Local OOB data or NULL if not set
* @param oobd_remote Remote OOB data or NULL if not set
*
* @return Zero on success or error code otherwise, positive in case
* of protocol error or negative (POSIX) in case of stack internal error
*/
int bt_le_oob_get_sc_data(struct bt_conn *conn,
const struct bt_le_oob_sc_data **oobd_local,
const struct bt_le_oob_sc_data **oobd_remote);
/** @def BT_PASSKEY_INVALID
*
* Special passkey value that can be used to disable a previously
* set fixed passkey.
*/
#define BT_PASSKEY_INVALID 0xffffffff
/** @brief Set a fixed passkey to be used for pairing.
*
* This API is only available when the CONFIG_BT_FIXED_PASSKEY
* configuration option has been enabled.
*
* Sets a fixed passkey to be used for pairing. If set, the
* pairing_confim() callback will be called for all incoming pairings.
*
* @param passkey A valid passkey (0 - 999999) or BT_PASSKEY_INVALID
* to disable a previously set fixed passkey.
*
* @return 0 on success or a negative error code on failure.
*/
int bt_passkey_set(unsigned int passkey);
/** Info Structure for OOB pairing */
struct bt_conn_oob_info {
/** Type of OOB pairing method */
enum {
/** LE legacy pairing */
BT_CONN_OOB_LE_LEGACY,
/** LE SC pairing */
BT_CONN_OOB_LE_SC,
} type;
union {
/** LESC OOB pairing parameters */
struct {
/** OOB data configuration */
enum {
/** Local OOB data requested */
BT_CONN_OOB_LOCAL_ONLY,
/** Remote OOB data requested */
BT_CONN_OOB_REMOTE_ONLY,
/** Both local and remote OOB data requested */
BT_CONN_OOB_BOTH_PEERS,
/** No OOB data requested */
BT_CONN_OOB_NO_DATA,
} oob_config;
} lesc;
};
};
/** Authenticated pairing callback structure */
struct bt_conn_auth_cb {
/** @brief Display a passkey to the user.
*
* When called the application is expected to display the given
* passkey to the user, with the expectation that the passkey will
* then be entered on the peer device. The passkey will be in the
* range of 0 - 999999, and is expected to be padded with zeroes so
* that six digits are always shown. E.g. the value 37 should be
* shown as 000037.
*
* This callback may be set to NULL, which means that the local
* device lacks the ability do display a passkey. If set
* to non-NULL the cancel callback must also be provided, since
* this is the only way the application can find out that it should
* stop displaying the passkey.
*
* @param conn Connection where pairing is currently active.
* @param passkey Passkey to show to the user.
*/
void (*passkey_display)(struct bt_conn *conn, unsigned int passkey);
/** @brief Request the user to enter a passkey.
*
* When called the user is expected to enter a passkey. The passkey
* must be in the range of 0 - 999999, and should be expected to
* be zero-padded, as that's how the peer device will typically be
* showing it (e.g. 37 would be shown as 000037).
*
* Once the user has entered the passkey its value should be given
* to the stack using the bt_conn_auth_passkey_entry() API.
*
* This callback may be set to NULL, which means that the local
* device lacks the ability to enter a passkey. If set to non-NULL
* the cancel callback must also be provided, since this is the
* only way the application can find out that it should stop
* requesting the user to enter a passkey.
*
* @param conn Connection where pairing is currently active.
*/
void (*passkey_entry)(struct bt_conn *conn);
/** @brief Request the user to confirm a passkey.
*
* When called the user is expected to confirm that the given
* passkey is also shown on the peer device.. The passkey will
* be in the range of 0 - 999999, and should be zero-padded to
* always be six digits (e.g. 37 would be shown as 000037).
*
* Once the user has confirmed the passkey to match, the
* bt_conn_auth_passkey_confirm() API should be called. If the
* user concluded that the passkey doesn't match the
* bt_conn_auth_cancel() API should be called.
*
* This callback may be set to NULL, which means that the local
* device lacks the ability to confirm a passkey. If set to non-NULL
* the cancel callback must also be provided, since this is the
* only way the application can find out that it should stop
* requesting the user to confirm a passkey.
*
* @param conn Connection where pairing is currently active.
* @param passkey Passkey to be confirmed.
*/
void (*passkey_confirm)(struct bt_conn *conn, unsigned int passkey);
/** @brief Request the user to provide OOB data.
*
* When called the user is expected to provide OOB data. The required
* data are indicated by the information structure.
*
* For LESC OOB pairing method, the user should provide local OOB data,
* remote OOB data or both depending on their availability. Their value
* should be given to the stack using the bt_le_oob_set_sc_data() API.
*
* This callback must be set to non-NULL in order to support OOB
* pairing.
*
* @param conn Connection where pairing is currently active.
* @param info OOB pairing information.
*/
void (*oob_data_request)(struct bt_conn *conn,
struct bt_conn_oob_info *info);
/** @brief Cancel the ongoing user request.
*
* This callback will be called to notify the application that it
* should cancel any previous user request (passkey display, entry
* or confirmation).
*
* This may be set to NULL, but must always be provided whenever the
* passkey_display, passkey_entry passkey_confirm or pairing_confirm
* callback has been provided.
*
* @param conn Connection where pairing is currently active.
*/
void (*cancel)(struct bt_conn *conn);
/** @brief Request confirmation for an incoming pairing.
*
* This callback will be called to confirm an incoming pairing
* request where none of the other user callbacks is applicable.
*
* If the user decides to accept the pairing the
* bt_conn_auth_pairing_confirm() API should be called. If the
* user decides to reject the pairing the bt_conn_auth_cancel() API
* should be called.
*
* This callback may be set to NULL, which means that the local
* device lacks the ability to confirm a pairing request. If set
* to non-NULL the cancel callback must also be provided, since
* this is the only way the application can find out that it should
* stop requesting the user to confirm a pairing request.
*
* @param conn Connection where pairing is currently active.
*/
void (*pairing_confirm)(struct bt_conn *conn);
#if defined(CONFIG_BT_BREDR)
/** @brief Request the user to enter a passkey.
*
* This callback will be called for a BR/EDR (Bluetooth Classic)
* connection where pairing is being performed. Once called the
* user is expected to enter a PIN code with a length between
* 1 and 16 digits. If the @a highsec parameter is set to true
* the PIN code must be 16 digits long.
*
* Once entered, the PIN code should be given to the stack using
* the bt_conn_auth_pincode_entry() API.
*
* This callback may be set to NULL, however in that case pairing
* over BR/EDR will not be possible. If provided, the cancel
* callback must be provided as well.
*
* @param conn Connection where pairing is currently active.
* @param highsec true if 16 digit PIN is required.
*/
void (*pincode_entry)(struct bt_conn *conn, bool highsec);
#endif
/** @brief notify that pairing process was complete.
*
* This callback notifies the application that the pairing process
* has been completed.
*
* @param conn Connection object.
* @param bonded pairing is bonded or not.
*/
void (*pairing_complete)(struct bt_conn *conn, bool bonded);
/** @brief notify that pairing process has failed.
*
* @param conn Connection object.
* @param reason Pairing failed reason
*/
void (*pairing_failed)(struct bt_conn *conn,
enum bt_security_err reason);
};
/** @brief Register authentication callbacks.
*
* Register callbacks to handle authenticated pairing. Passing NULL
* unregisters a previous callbacks structure.
*
* @param cb Callback struct.
*
* @return Zero on success or negative error code otherwise
*/
int bt_conn_auth_cb_register(const struct bt_conn_auth_cb *cb);
/** @brief Reply with entered passkey.
*
* This function should be called only after passkey_entry callback from
* bt_conn_auth_cb structure was called.
*
* @param conn Connection object.
* @param passkey Entered passkey.
*
* @return Zero on success or negative error code otherwise
*/
int bt_conn_auth_passkey_entry(struct bt_conn *conn, unsigned int passkey);
/** @brief Cancel ongoing authenticated pairing.
*
* This function allows to cancel ongoing authenticated pairing.
*
* @param conn Connection object.
*
* @return Zero on success or negative error code otherwise
*/
int bt_conn_auth_cancel(struct bt_conn *conn);
/** @brief Reply if passkey was confirmed to match by user.
*
* This function should be called only after passkey_confirm callback from
* bt_conn_auth_cb structure was called.
*
* @param conn Connection object.
*
* @return Zero on success or negative error code otherwise
*/
int bt_conn_auth_passkey_confirm(struct bt_conn *conn);
/** @brief Reply if incoming pairing was confirmed by user.
*
* This function should be called only after pairing_confirm callback from
* bt_conn_auth_cb structure was called if user confirmed incoming pairing.
*
* @param conn Connection object.
*
* @return Zero on success or negative error code otherwise
*/
int bt_conn_auth_pairing_confirm(struct bt_conn *conn);
/** @brief Reply with entered PIN code.
*
* This function should be called only after PIN code callback from
* bt_conn_auth_cb structure was called. It's for legacy 2.0 devices.
*
* @param conn Connection object.
* @param pin Entered PIN code.
*
* @return Zero on success or negative error code otherwise
*/
int bt_conn_auth_pincode_entry(struct bt_conn *conn, const char *pin);
/** Connection parameters for BR/EDR connections */
struct bt_br_conn_param {
bool allow_role_switch;
};
/** Helper to declare BR/EDR connection parameters inline
*
* @param role_switch True if role switch is allowed
*/
#define BT_BR_CONN_PARAM(role_switch) \
((struct bt_br_conn_param[]) { { \
.allow_role_switch = (role_switch), \
} })
/** Default BR/EDR connection parameters:
* Role switch allowed
*/
#define BT_BR_CONN_PARAM_DEFAULT BT_BR_CONN_PARAM(true)
/** @brief Initiate an BR/EDR connection to a remote device.
*
* Allows initiate new BR/EDR link to remote peer using its address.
* Returns a new reference that the the caller is responsible for managing.
*
* @param peer Remote address.
* @param param Initial connection parameters.
*
* @return Valid connection object on success or NULL otherwise.
*/
struct bt_conn *bt_conn_create_br(const bt_addr_t *peer,
const struct bt_br_conn_param *param);
/** @brief Initiate an SCO connection to a remote device.
*
* Allows initiate new SCO link to remote peer using its address.
* Returns a new reference that the the caller is responsible for managing.
*
* @param peer Remote address.
*
* @return Valid connection object on success or NULL otherwise.
*/
struct bt_conn *bt_conn_create_sco(const bt_addr_t *peer);
#ifdef __cplusplus
}
#endif
/**
* @}
*/
#endif /* ZEPHYR_INCLUDE_BLUETOOTH_CONN_H_ */