/** @file * @brief Internal APIs for Bluetooth ISO handling. */ /* * Copyright (c) 2020 Intel Corporation * Copyright (c) 2021 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ #include struct iso_data { /** BT_BUF_ISO_IN */ uint8_t type; /* Index into the bt_conn storage array */ uint8_t index; /** ISO connection handle */ uint16_t handle; }; enum bt_iso_cig_state { BT_ISO_CIG_STATE_IDLE, BT_ISO_CIG_STATE_CONFIGURED, BT_ISO_CIG_STATE_ACTIVE, BT_ISO_CIG_STATE_INACTIVE }; struct bt_iso_cig { /** List of ISO channels to setup as CIS (the CIG). */ sys_slist_t cis_channels; /** Total number of CISes in the CIG. */ uint8_t num_cis; /** The CIG ID */ uint8_t id; /** The CIG state * * Refer to BT Core Spec 5.3, Vol 6, Part 6, Figure 4.63 */ enum bt_iso_cig_state state; }; enum { BT_BIG_INITIALIZED, /* Creating a BIG as a broadcaster */ BT_BIG_PENDING, /* Creating a BIG as a receiver */ BT_BIG_SYNCING, BT_BIG_NUM_FLAGS, }; struct bt_iso_big { /** List of ISO channels to setup as BIS (the BIG). */ sys_slist_t bis_channels; /** Total number of BISes in the BIG. */ uint8_t num_bis; /** The BIG handle */ uint8_t handle; ATOMIC_DEFINE(flags, BT_BIG_NUM_FLAGS); }; #define iso(buf) ((struct iso_data *)net_buf_user_data(buf)) #if defined(CONFIG_BT_ISO_MAX_CHAN) extern struct bt_conn iso_conns[CONFIG_BT_ISO_MAX_CHAN]; #endif /* Process ISO buffer */ void hci_iso(struct net_buf *buf); /* Allocates RX buffer */ struct net_buf *bt_iso_get_rx(k_timeout_t timeout); /* Process CIS Established event */ void hci_le_cis_established(struct net_buf *buf); /* Process CIS Request event */ void hci_le_cis_req(struct net_buf *buf); /** Process BIG complete event */ void hci_le_big_complete(struct net_buf *buf); /** Process BIG terminate event */ void hci_le_big_terminate(struct net_buf *buf); /** Process BIG sync established event */ void hci_le_big_sync_established(struct net_buf *buf); /** Process BIG sync lost event */ void hci_le_big_sync_lost(struct net_buf *buf); /* Notify ISO channels of a new connection */ void bt_iso_connected(struct bt_conn *iso); /* Notify ISO channels of a disconnect event */ void bt_iso_disconnected(struct bt_conn *iso); /* Allocate ISO PDU */ #if defined(CONFIG_NET_BUF_LOG) struct net_buf *bt_iso_create_pdu_timeout_debug(struct net_buf_pool *pool, size_t reserve, k_timeout_t timeout, const char *func, int line); #define bt_iso_create_pdu_timeout(_pool, _reserve, _timeout) \ bt_iso_create_pdu_timeout_debug(_pool, _reserve, _timeout, \ __func__, __LINE__) #define bt_iso_create_pdu(_pool, _reserve) \ bt_iso_create_pdu_timeout_debug(_pool, _reserve, K_FOREVER, \ __func__, __line__) #else struct net_buf *bt_iso_create_pdu_timeout(struct net_buf_pool *pool, size_t reserve, k_timeout_t timeout); #define bt_iso_create_pdu(_pool, _reserve) \ bt_iso_create_pdu_timeout(_pool, _reserve, K_FOREVER) #endif /* Allocate ISO Fragment */ #if defined(CONFIG_NET_BUF_LOG) struct net_buf *bt_iso_create_frag_timeout_debug(size_t reserve, k_timeout_t timeout, const char *func, int line); #define bt_iso_create_frag_timeout(_reserve, _timeout) \ bt_iso_create_frag_timeout_debug(_reserve, _timeout, \ __func__, __LINE__) #define bt_iso_create_frag(_reserve) \ bt_iso_create_frag_timeout_debug(_reserve, K_FOREVER, \ __func__, __LINE__) #else struct net_buf *bt_iso_create_frag_timeout(size_t reserve, k_timeout_t timeout); #define bt_iso_create_frag(_reserve) \ bt_iso_create_frag_timeout(_reserve, K_FOREVER) #endif #if defined(CONFIG_BT_DEBUG_ISO) void bt_iso_chan_set_state_debug(struct bt_iso_chan *chan, uint8_t state, const char *func, int line); #define bt_iso_chan_set_state(_chan, _state) \ bt_iso_chan_set_state_debug(_chan, _state, __func__, __LINE__) #else void bt_iso_chan_set_state(struct bt_iso_chan *chan, uint8_t state); #endif /* CONFIG_BT_DEBUG_ISO */ /* Process incoming data for a connection */ void bt_iso_recv(struct bt_conn *iso, struct net_buf *buf, uint8_t flags);