/** @file * @brief Internal APIs for Bluetooth connection handling. */ /* * Copyright (c) 2015 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ typedef enum __packed { BT_CONN_DISCONNECTED, BT_CONN_CONNECT_SCAN, BT_CONN_CONNECT_DIR_ADV, BT_CONN_CONNECT, BT_CONN_CONNECTED, BT_CONN_DISCONNECT, } bt_conn_state_t; /* bt_conn flags: the flags defined here represent connection parameters */ enum { BT_CONN_AUTO_CONNECT, BT_CONN_BR_LEGACY_SECURE, /* 16 digits legacy PIN tracker */ BT_CONN_USER, /* user I/O when pairing */ BT_CONN_BR_PAIRING, /* BR connection in pairing context */ BT_CONN_BR_NOBOND, /* SSP no bond pairing tracker */ BT_CONN_BR_PAIRING_INITIATOR, /* local host starts authentication */ BT_CONN_CLEANUP, /* Disconnected, pending cleanup */ BT_CONN_AUTO_PHY_UPDATE, /* Auto-update PHY */ BT_CONN_SLAVE_PARAM_UPDATE, /* If slave param update timer fired */ BT_CONN_SLAVE_PARAM_SET, /* If slave param were set from app */ BT_CONN_SLAVE_PARAM_L2CAP, /* If should force L2CAP for CPUP */ /* Total number of flags - must be at the end of the enum */ BT_CONN_NUM_FLAGS, }; struct bt_conn_le { bt_addr_le_t dst; bt_addr_le_t init_addr; bt_addr_le_t resp_addr; u16_t interval; u16_t interval_min; u16_t interval_max; u16_t latency; u16_t timeout; u16_t pending_latency; u16_t pending_timeout; u8_t features[8]; struct bt_keys *keys; /* Delayed work for connection update and timeout handling */ struct k_delayed_work update_work; }; #if defined(CONFIG_BT_BREDR) /* For now reserve space for 2 pages of LMP remote features */ #define LMP_MAX_PAGES 2 struct bt_conn_br { bt_addr_t dst; u8_t remote_io_capa; u8_t remote_auth; u8_t pairing_method; /* remote LMP features pages per 8 bytes each */ u8_t features[LMP_MAX_PAGES][8]; struct bt_keys_link_key *link_key; }; struct bt_conn_sco { /* Reference to ACL Connection */ struct bt_conn *acl; u16_t pkt_type; }; #endif typedef void (*bt_conn_tx_cb_t)(struct bt_conn *conn); struct bt_conn_tx { sys_snode_t node; bt_conn_tx_cb_t cb; }; struct bt_conn { u16_t handle; u8_t type; u8_t role; ATOMIC_DEFINE(flags, BT_CONN_NUM_FLAGS); /* Which local identity address this connection uses */ u8_t id; #if defined(CONFIG_BT_SMP) || defined(CONFIG_BT_BREDR) bt_security_t sec_level; bt_security_t required_sec_level; u8_t encrypt; #endif /* CONFIG_BT_SMP || CONFIG_BT_BREDR */ /* Connection error or reason for disconnect */ u8_t err; bt_conn_state_t state; u16_t rx_len; struct net_buf *rx; /* Sent but not acknowledged TX packets */ sys_slist_t tx_pending; /* Acknowledged but not yet notified TX packets */ struct k_fifo tx_notify; /* Queue for outgoing ACL data */ struct k_fifo tx_queue; /* Active L2CAP channels */ sys_slist_t channels; atomic_t ref; union { struct bt_conn_le le; #if defined(CONFIG_BT_BREDR) struct bt_conn_br br; struct bt_conn_sco sco; #endif }; }; /* Process incoming data for a connection */ void bt_conn_recv(struct bt_conn *conn, struct net_buf *buf, u8_t flags); /* Send data over a connection */ int bt_conn_send_cb(struct bt_conn *conn, struct net_buf *buf, bt_conn_tx_cb_t cb); static inline int bt_conn_send(struct bt_conn *conn, struct net_buf *buf) { return bt_conn_send_cb(conn, buf, NULL); } /* Add a new LE connection */ struct bt_conn *bt_conn_add_le(const bt_addr_le_t *peer); /* Add a new BR/EDR connection */ struct bt_conn *bt_conn_add_br(const bt_addr_t *peer); /* Add a new SCO connection */ struct bt_conn *bt_conn_add_sco(const bt_addr_t *peer, int link_type); /* Cleanup SCO references */ void bt_sco_cleanup(struct bt_conn *sco_conn); /* Look up an existing sco connection by BT address */ struct bt_conn *bt_conn_lookup_addr_sco(const bt_addr_t *peer); /* Look up an existing connection by BT address */ struct bt_conn *bt_conn_lookup_addr_br(const bt_addr_t *peer); void bt_conn_pin_code_req(struct bt_conn *conn); u8_t bt_conn_get_io_capa(void); u8_t bt_conn_ssp_get_auth(const struct bt_conn *conn); void bt_conn_ssp_auth(struct bt_conn *conn, u32_t passkey); void bt_conn_disconnect_all(u8_t id); /* Look up an existing connection */ struct bt_conn *bt_conn_lookup_handle(u16_t handle); /* Compare an address with bt_conn destination address */ int bt_conn_addr_le_cmp(const struct bt_conn *conn, const bt_addr_le_t *peer); /* Helpers for identifying & looking up connections based on the the index to * the connection list. This is useful for O(1) lookups, but can't be used * e.g. as the handle since that's assigned to us by the controller. */ #define BT_CONN_ID_INVALID 0xff struct bt_conn *bt_conn_lookup_id(u8_t id); /* Look up a connection state. For BT_ADDR_LE_ANY, returns the first connection * with the specific state */ struct bt_conn *bt_conn_lookup_state_le(const bt_addr_le_t *peer, const bt_conn_state_t state); /* Set connection object in certain state and perform action related to state */ void bt_conn_set_state(struct bt_conn *conn, bt_conn_state_t state); int bt_conn_le_conn_update(struct bt_conn *conn, const struct bt_le_conn_param *param); void notify_le_param_updated(struct bt_conn *conn); bool le_param_req(struct bt_conn *conn, struct bt_le_conn_param *param); #if defined(CONFIG_BT_SMP) /* rand and ediv should be in BT order */ int bt_conn_le_start_encryption(struct bt_conn *conn, u8_t rand[8], u8_t ediv[2], const u8_t *ltk, size_t len); /* Notify higher layers that RPA was resolved */ void bt_conn_identity_resolved(struct bt_conn *conn); #endif /* CONFIG_BT_SMP */ #if defined(CONFIG_BT_SMP) || defined(CONFIG_BT_BREDR) /* Notify higher layers that connection security changed */ void bt_conn_security_changed(struct bt_conn *conn); #endif /* CONFIG_BT_SMP || CONFIG_BT_BREDR */ /* Prepare a PDU to be sent over a connection */ struct net_buf *bt_conn_create_pdu(struct net_buf_pool *pool, size_t reserve); /* Initialize connection management */ int bt_conn_init(void); /* Selects based on connecton type right semaphore for ACL packets */ struct k_sem *bt_conn_get_pkts(struct bt_conn *conn); /* k_poll related helpers for the TX thread */ int bt_conn_prepare_events(struct k_poll_event events[]); void bt_conn_process_tx(struct bt_conn *conn); void bt_conn_notify_tx(struct bt_conn *conn);