/* * Copyright (c) 2016 Nordic Semiconductor ASA * Copyright (c) 2016 Vinayak Kariappa Chettimada * * SPDX-License-Identifier: Apache-2.0 */ enum llcp { LLCP_NONE, LLCP_CONNECTION_UPDATE, LLCP_CHANNEL_MAP, LLCP_ENCRYPTION, LLCP_FEATURE_EXCHANGE, LLCP_VERSION_EXCHANGE, /* LLCP_TERMINATE, */ #if defined(CONFIG_BLUETOOTH_CONTROLLER_LE_PING) LLCP_PING, #endif /* CONFIG_BLUETOOTH_CONTROLLER_LE_PING */ }; struct shdr { uint32_t ticks_xtal_to_start; uint32_t ticks_active_to_start; uint32_t ticks_preempt_to_start; uint32_t ticks_slot; }; struct connection { struct shdr hdr; uint8_t access_addr[4]; uint8_t crc_init[3]; uint8_t data_channel_map[5]; uint8_t data_channel_count; uint8_t data_channel_hop; uint8_t data_channel_use; uint16_t handle; uint16_t event_counter; uint16_t conn_interval; uint16_t latency; uint16_t latency_prepare; uint16_t latency_event; #if defined(CONFIG_BLUETOOTH_CONTROLLER_DATA_LENGTH) uint16_t default_tx_octets; uint16_t max_tx_octets; uint16_t max_rx_octets; #endif /* CONFIG_BLUETOOTH_CONTROLLER_DATA_LENGTH */ uint16_t supervision_reload; uint16_t supervision_expire; uint16_t procedure_reload; uint16_t procedure_expire; #if defined(CONFIG_BLUETOOTH_CONTROLLER_LE_PING) uint16_t appto_reload; uint16_t appto_expire; uint16_t apto_reload; uint16_t apto_expire; #endif /* CONFIG_BLUETOOTH_CONTROLLER_LE_PING */ union { struct { uint8_t role:1; uint8_t connect_expire; } master; struct { uint8_t role:1; uint8_t sca:3; uint8_t latency_cancel:1; uint32_t window_widening_periodic_us; uint32_t window_widening_max_us; uint32_t window_widening_prepare_us; uint32_t window_widening_event_us; uint32_t window_size_prepare_us; uint32_t window_size_event_us; uint32_t force; uint32_t ticks_to_offset; } slave; } role; uint8_t llcp_req; uint8_t llcp_ack; enum llcp llcp_type; union { struct { uint16_t interval; uint16_t latency; uint16_t timeout; uint8_t preferred_periodicity; uint16_t instant; uint16_t offset0; uint16_t offset1; uint16_t offset2; uint16_t offset3; uint16_t offset4; uint16_t offset5; uint32_t ticks_ref; uint32_t ticks_to_offset_next; uint32_t win_offset_us; uint16_t *pdu_win_offset; uint8_t win_size; uint8_t state:3; #define LLCP_CONN_STATE_INPROG 0 /* master + slave proc in progress * until instant */ #define LLCP_CONN_STATE_INITIATE 1 /* master sends conn_update */ #define LLCP_CONN_STATE_REQ 2 /* master / slave send req */ #define LLCP_CONN_STATE_RSP 3 /* master rej / slave rej/rsp */ #define LLCP_CONN_STATE_APP_WAIT 4 /* app resp */ #define LLCP_CONN_STATE_RSP_WAIT 5 /* master rsp or slave conn_update * or rej */ uint8_t is_internal:2; } connection_update; struct { uint8_t initiate; uint8_t chm[5]; uint16_t instant; } channel_map; struct { uint8_t error_code; uint8_t rand[8]; uint8_t ediv[2]; uint8_t ltk[16]; uint8_t skd[16]; } encryption; } llcp; uint8_t llcp_features; struct { uint8_t tx:1; uint8_t rx:1; uint8_t version_number; uint16_t company_id; uint16_t sub_version_number; } llcp_version; struct { uint8_t req; uint8_t ack; uint8_t reason_own; uint8_t reason_peer; struct { struct radio_pdu_node_rx_hdr hdr; uint8_t reason; } radio_pdu_node_rx; } llcp_terminate; #if defined(CONFIG_BLUETOOTH_CONTROLLER_DATA_LENGTH) struct { uint8_t req; uint8_t ack; uint8_t state:2; #define LLCP_LENGTH_STATE_REQ 0 #define LLCP_LENGTH_STATE_ACK_WAIT 1 #define LLCP_LENGTH_STATE_RSP_WAIT 2 #define LLCP_LENGTH_STATE_RESIZE 3 uint16_t rx_octets; uint16_t tx_octets; } llcp_length; #endif /* CONFIG_BLUETOOTH_CONTROLLER_DATA_LENGTH */ uint8_t sn:1; uint8_t nesn:1; uint8_t pause_rx:1; uint8_t pause_tx:1; uint8_t enc_rx:1; uint8_t enc_tx:1; uint8_t refresh:1; uint8_t empty:1; struct ccm ccm_rx; struct ccm ccm_tx; struct radio_pdu_node_tx *pkt_tx_head; struct radio_pdu_node_tx *pkt_tx_ctrl; struct radio_pdu_node_tx *pkt_tx_data; struct radio_pdu_node_tx *pkt_tx_last; uint8_t packet_tx_head_len; uint8_t packet_tx_head_offset; #if defined(CONFIG_BLUETOOTH_CONTROLLER_CONN_RSSI) uint8_t rssi_latest; uint8_t rssi_reported; uint8_t rssi_sample_count; #endif /* CONFIG_BLUETOOTH_CONTROLLER_CONN_RSSI */ }; #define CONNECTION_T_SIZE MROUND(sizeof(struct connection)) struct pdu_data_q_tx { uint16_t handle; struct radio_pdu_node_tx *node_tx; }; /* Minimum Rx Data allocation size */ #define PACKET_RX_DATA_SIZE_MIN \ MROUND(offsetof(struct radio_pdu_node_rx, pdu_data) + \ (RADIO_ACPDU_SIZE_MAX + 1)) /* Minimum Tx Ctrl allocation size */ #define PACKET_TX_CTRL_SIZE_MIN \ MROUND(offsetof(struct radio_pdu_node_tx, pdu_data) + \ offsetof(struct pdu_data, payload) + 27) /** @todo fix starvation when ctrl rx in radio ISR * for multiple connections needs to tx back to peer. */ #define PACKET_MEM_COUNT_TX_CTRL 2 #define LL_MEM_CONN (sizeof(struct connection) * RADIO_CONNECTION_CONTEXT_MAX) #define LL_MEM_RXQ (sizeof(void *) * (RADIO_PACKET_COUNT_RX_MAX + 4)) #define LL_MEM_TXQ (sizeof(struct pdu_data_q_tx) * \ (RADIO_PACKET_COUNT_TX_MAX + 2)) #define LL_MEM_RX_POOL_SZ (MROUND(offsetof(struct radio_pdu_node_rx,\ pdu_data) + ((\ (RADIO_ACPDU_SIZE_MAX + 1) < \ (offsetof(struct pdu_data, payload) + \ RADIO_LL_LENGTH_OCTETS_RX_MAX)) ? \ (offsetof(struct pdu_data, payload) + \ RADIO_LL_LENGTH_OCTETS_RX_MAX) \ : \ (RADIO_ACPDU_SIZE_MAX + 1))) * \ (RADIO_PACKET_COUNT_RX_MAX + 3)) #define LL_MEM_RX_LINK_POOL (sizeof(void *) * 2 * ((RADIO_PACKET_COUNT_RX_MAX +\ 4) + RADIO_CONNECTION_CONTEXT_MAX)) #define LL_MEM_TX_CTRL_POOL (PACKET_TX_CTRL_SIZE_MIN * PACKET_MEM_COUNT_TX_CTRL) #define LL_MEM_TX_DATA_POOL ((MROUND(offsetof( \ struct radio_pdu_node_tx, pdu_data) + \ offsetof(struct pdu_data, payload) + \ RADIO_PACKET_TX_DATA_SIZE)) \ * (RADIO_PACKET_COUNT_TX_MAX + 1)) #define LL_MEM_TOTAL (LL_MEM_CONN + LL_MEM_RXQ + (LL_MEM_TXQ * 2) + \ LL_MEM_RX_POOL_SZ + \ LL_MEM_RX_LINK_POOL + LL_MEM_TX_CTRL_POOL + LL_MEM_TX_DATA_POOL)