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zephyr/subsys/bluetooth/controller/ll_sw/pdu.h
Vinayak Kariappa Chettimada 85790c95a9 Bluetooth: Controller: Introduce EVENT_MAFS_MIN_US value 
Introduce Controller dependent EVENT_MAFS_MIN_US value to
use as the value when populating the aux offset between
Extended Advertising primary and auxiliary channel PDUs.

This can be used as workaround for peers having difficulty
receiving Extended Advertising PDUs with near 300 us MAFS
values used in aux offset calculations.

Signed-off-by: Vinayak Kariappa Chettimada <vich@nordicsemi.no>
2024-08-14 10:46:48 +01:00

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/*
* Copyright (c) 2016 Nordic Semiconductor ASA
* Copyright (c) 2016 Vinayak Kariappa Chettimada
*
* SPDX-License-Identifier: Apache-2.0
*/
/*
* PDU fields sizes
*/
#define PDU_PREAMBLE_SIZE(phy) (phy&0x3)
#define PDU_ACCESS_ADDR_SIZE 4
#define PDU_HEADER_SIZE 2
#define PDU_MIC_SIZE 4
#define PDU_CRC_SIZE 3
#define PDU_OVERHEAD_SIZE(phy) (PDU_PREAMBLE_SIZE(phy) + \
PDU_ACCESS_ADDR_SIZE + \
PDU_HEADER_SIZE + \
PDU_CRC_SIZE)
#define BDADDR_SIZE 6
#define ADVA_SIZE BDADDR_SIZE
#define SCANA_SIZE BDADDR_SIZE
#define INITA_SIZE BDADDR_SIZE
#define TARGETA_SIZE BDADDR_SIZE
#define LLDATA_SIZE 22
/* Constant offsets in extended header (TargetA is present in PDUs with AdvA) */
#define ADVA_OFFSET 0
#define TGTA_OFFSET (ADVA_OFFSET + BDADDR_SIZE)
#define BYTES2US(bytes, phy) (((bytes)<<3)/BIT((phy&0x3)>>1))
/* Advertisement channel minimum payload size */
#define PDU_AC_PAYLOAD_SIZE_MIN 1
/* Advertisement channel maximum legacy payload size */
#define PDU_AC_LEG_PAYLOAD_SIZE_MAX 37
/* Advertisement channel maximum legacy advertising/scan data size */
#define PDU_AC_LEG_DATA_SIZE_MAX 31
#if defined(CONFIG_BT_CTLR_ADV_EXT)
/* Advertisement channel maximum extended payload size */
#define PDU_AC_EXT_PAYLOAD_SIZE_MAX 255
/* Extended Scan and Periodic Sync Rx PDU time reservation */
#if defined(CONFIG_BT_CTLR_SCAN_AUX_SYNC_RESERVE_MIN)
#define PDU_AC_EXT_PAYLOAD_RX_SIZE 0U
#else /* !CONFIG_BT_CTLR_SCAN_AUX_SYNC_RESERVE_MIN */
#define PDU_AC_EXT_PAYLOAD_RX_SIZE PDU_AC_EXT_PAYLOAD_SIZE_MAX
#endif /* !CONFIG_BT_CTLR_SCAN_AUX_SYNC_RESERVE_MIN */
#define PDU_AC_EXT_HEADER_SIZE_MIN offsetof(struct pdu_adv_com_ext_adv, \
ext_hdr_adv_data)
#define PDU_AC_EXT_HEADER_SIZE_MAX 63
/* TODO: PDU_AC_EXT_PAYLOAD_OVERHEAD can be reduced based on supported
* features, like omitting support for periodic advertising will reduce
* 18 octets in the Common Extended Advertising Payload Format.
*/
#define PDU_AC_EXT_PAYLOAD_OVERHEAD (PDU_AC_EXT_HEADER_SIZE_MIN + \
PDU_AC_EXT_HEADER_SIZE_MAX)
#endif /* CONFIG_BT_CTLR_ADV_EXT */
#if defined(CONFIG_BT_CTLR_ADV_EXT) && defined(CONFIG_BT_BROADCASTER)
#define PDU_AC_PAYLOAD_SIZE_MAX MAX(MIN((PDU_AC_EXT_PAYLOAD_OVERHEAD + \
CONFIG_BT_CTLR_ADV_DATA_LEN_MAX), \
PDU_AC_EXT_PAYLOAD_SIZE_MAX), \
PDU_AC_LEG_PAYLOAD_SIZE_MAX)
#define PDU_AC_EXT_AD_DATA_LEN_MAX (PDU_AC_PAYLOAD_SIZE_MAX - \
PDU_AC_EXT_PAYLOAD_OVERHEAD)
#else /* !CONFIG_BT_CTLR_ADV_EXT || !CONFIG_BT_BROADCASTER */
#define PDU_AC_PAYLOAD_SIZE_MAX PDU_AC_LEG_PAYLOAD_SIZE_MAX
#endif /* !CONFIG_BT_CTLR_ADV_EXT || !CONFIG_BT_BROADCASTER */
/* Link Layer header size of Adv PDU. Assumes pdu_adv is packed */
#define PDU_AC_LL_HEADER_SIZE (offsetof(struct pdu_adv, payload))
/* Link Layer Advertisement channel maximum PDU buffer size */
#define PDU_AC_LL_SIZE_MAX (PDU_AC_LL_HEADER_SIZE + PDU_AC_PAYLOAD_SIZE_MAX)
/* Advertisement channel Access Address */
#define PDU_AC_ACCESS_ADDR 0x8e89bed6
/* Advertisement channel CRC init value */
#define PDU_AC_CRC_IV 0x555555
/* CRC polynomial */
#define PDU_CRC_POLYNOMIAL ((0x5bUL) | ((0x06UL) << 8) | ((0x00UL) << 16))
/* Data channel minimum payload size and time in us */
#define PDU_DC_PAYLOAD_SIZE_MIN 27
#define PDU_DC_PAYLOAD_TIME_MIN 328
#define PDU_DC_PAYLOAD_TIME_MIN_CODED 2704
/* Data channel maximum payload size and time in us */
#define PDU_DC_PAYLOAD_SIZE_MAX 251
#define PDU_DC_PAYLOAD_TIME_MAX_CODED 17040
#if defined(CONFIG_BT_CTLR_DF)
#define PDU_DC_PAYLOAD_TIME_MAX 2128
#else /* !CONFIG_BT_CTLR_DF */
#define PDU_DC_PAYLOAD_TIME_MAX 2120
#endif /* !CONFIG_BT_CTLR_DF */
/* Data channel control PDU maximum payload size */
#if defined(CONFIG_BT_CONN)
#if defined(CONFIG_BT_CTLR_CONN_ISO)
#if defined(CONFIG_BT_CENTRAL) && defined(CONFIG_BT_PERIPHERAL)
/* Isochronous Central and Peripheral */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(cis_req)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(cis_req)
#elif defined(CONFIG_BT_CENTRAL)
/* Isochronous Central */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(cis_req)
#if defined(CONFIG_BT_CTLR_CONN_PARAM_REQ)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_param_req)
#elif defined(CONFIG_BT_CTLR_LE_ENC)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_rsp)
#else /* !CONFIG_BT_CTLR_LE_ENC */
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(cis_rsp)
#endif /* !CONFIG_BT_CTLR_LE_ENC */
#elif defined(CONFIG_BT_PERIPHERAL)
/* Isochronous Peripheral */
#if defined(CONFIG_BT_CTLR_CONN_PARAM_REQ)
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_param_req)
#elif defined(CONFIG_BT_CTLR_LE_ENC)
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_rsp)
#else /* !CONFIG_BT_CTLR_LE_ENC */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(cis_rsp)
#endif /* !CONFIG_BT_CTLR_LE_ENC */
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(cis_req)
#endif /* !CONFIG_BT_PERIPHERAL */
#elif defined(CONFIG_BT_CTLR_CONN_PARAM_REQ)
/* Central and Peripheral with Connection Parameter Request */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_param_req)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_param_req)
#elif defined(CONFIG_BT_CTLR_LE_ENC)
#if defined(CONFIG_BT_CENTRAL) && defined(CONFIG_BT_PERIPHERAL)
/* Central and Peripheral with encryption */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_req)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_req)
#elif defined(CONFIG_BT_CENTRAL)
/* Central with encryption */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_req)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_rsp)
#elif defined(CONFIG_BT_PERIPHERAL)
/* Peripheral with encryption */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_rsp)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(enc_req)
#endif /* !CONFIG_BT_PERIPHERAL */
#else /* !CONFIG_BT_CTLR_LE_ENC */
#if defined(CONFIG_BT_CENTRAL) && defined(CONFIG_BT_PERIPHERAL)
/* Central and Peripheral without encryption */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_update_ind)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_update_ind)
#elif defined(CONFIG_BT_CENTRAL)
/* Central without encryption */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_update_ind)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(feature_rsp)
#elif defined(CONFIG_BT_PERIPHERAL)
/* Peripheral without encryption */
#define PDU_DC_CTRL_TX_SIZE_MAX PDU_DATA_LLCTRL_LEN(feature_rsp)
#define PDU_DC_CTRL_RX_SIZE_MAX PDU_DATA_LLCTRL_LEN(conn_update_ind)
#endif /* !CONFIG_BT_PERIPHERAL */
#endif /* !CONFIG_BT_CTLR_LE_ENC */
#else /* !CONFIG_BT_CONN */
#define PDU_DC_CTRL_TX_SIZE_MAX 0U
#define PDU_DC_CTRL_RX_SIZE_MAX 0U
#endif /* !CONFIG_BT_CONN */
/* Link Layer header size of Data PDU. Assumes pdu_data is packed */
#define PDU_DC_LL_HEADER_SIZE (offsetof(struct pdu_data, lldata))
/* Link Layer Max size of an empty PDU. TODO: Remove; only used in Nordic LLL */
#define PDU_EM_LL_SIZE_MAX (PDU_DC_LL_HEADER_SIZE)
/* Link Layer header size of BIS PDU. Assumes pdu_bis is packed */
#define PDU_BIS_LL_HEADER_SIZE (offsetof(struct pdu_bis, payload))
/* Event Active Clock Jitter */
#define EVENT_CLOCK_JITTER_US 2
/* Event interframe timings */
#define EVENT_IFS_US 150
/* Standard allows 2 us timing uncertainty inside the event */
#define EVENT_IFS_MAX_US (EVENT_IFS_US + EVENT_CLOCK_JITTER_US)
/* Specification defined Minimum AUX Frame Space (MAFS) */
#define EVENT_MAFS_US 300
/* Controller dependent MAFS minimum used to populate aux_offset */
#define EVENT_MAFS_MIN_US MAX(EVENT_MAFS_US, PDU_ADV_AUX_OFFSET_MIN_US)
/* Standard allows 2 us timing uncertainty inside the event */
#define EVENT_MAFS_MAX_US (EVENT_MAFS_US + EVENT_CLOCK_JITTER_US)
/* Controller defined back to back transmit MAFS for extended advertising */
#define EVENT_B2B_MAFS_US (CONFIG_BT_CTLR_ADV_AUX_PDU_BACK2BACK_AFS)
/* Controller defined back to back transmit MAFS for periodic advertising */
#define EVENT_SYNC_B2B_MAFS_US (CONFIG_BT_CTLR_ADV_SYNC_PDU_BACK2BACK_AFS)
/* Minimum Subevent Space timings */
#define EVENT_MSS_US 150
/* Standard allows 2 us timing uncertainty inside the event */
#define EVENT_MSS_MAX_US (EVENT_MSS_US + EVENT_CLOCK_JITTER_US)
/* Instant maximum value and maximum latency (or delta) past the instant */
#define EVENT_INSTANT_MAX 0xffff
#define EVENT_INSTANT_LATENCY_MAX 0x7fff
/* Channel Map Unused channels count minimum */
#define CHM_USED_COUNT_MIN 2U
/* Channel Map hop count minimum and maximum */
#define CHM_HOP_COUNT_MIN 5U
#define CHM_HOP_COUNT_MAX 16U
/* Offset Units field encoding */
#define OFFS_UNIT_BITS 13
#define OFFS_UNIT_30_US 30
#define OFFS_UNIT_300_US 300
#define OFFS_UNIT_VALUE_30_US 0
#define OFFS_UNIT_VALUE_300_US 1
/* Value specified in BT Spec. Vol 6, Part B, section 2.3.4.6 */
#define OFFS_ADJUST_US 2457600UL
/* Macros for getting offset/phy from pdu_adv_aux_ptr */
#define PDU_ADV_AUX_PTR_OFFSET_GET(aux_ptr) ((aux_ptr)->offs_phy_packed[0] | \
(((aux_ptr)->offs_phy_packed[1] & 0x1F) << 8))
#define PDU_ADV_AUX_PTR_PHY_GET(aux_ptr) (((aux_ptr)->offs_phy_packed[1] >> 5) & 0x07)
/* Macros for getting/setting offset/offset_units/offset_adjust from pdu_adv_sync_info */
#define PDU_ADV_SYNC_INFO_OFFSET_GET(si) ((si)->offs_packed[0] | \
(((si)->offs_packed[1] & 0x1F) << 8))
#define PDU_ADV_SYNC_INFO_OFFS_UNITS_GET(si) (((si)->offs_packed[1] >> 5) & 0x01)
#define PDU_ADV_SYNC_INFO_OFFS_ADJUST_GET(si) (((si)->offs_packed[1] >> 6) & 0x01)
#define PDU_ADV_SYNC_INFO_OFFS_SET(si, offs, offs_units, offs_adjust) \
do { \
(si)->offs_packed[0] = (offs) & 0xFF; \
(si)->offs_packed[1] = (((offs) >> 8) & 0x1F) + \
(((offs_units) << 5) & 0x20) + \
(((offs_adjust) << 6) & 0x40); \
} while (0)
/* Advertiser's Sleep Clock Accuracy Value */
#define SCA_500_PPM 500 /* 51 ppm to 500 ppm */
#define SCA_50_PPM 50 /* 0 ppm to 50 ppm */
#define SCA_VALUE_500_PPM 0 /* 51 ppm to 500 ppm */
#define SCA_VALUE_50_PPM 1 /* 0 ppm to 50 ppm */
/* Sleep Clock Accuracy, calculate drift in microseconds */
#define SCA_DRIFT_50_PPM_US(t) (((t) * 50UL) / 1000000UL)
#define SCA_DRIFT_500_PPM_US(t) (((t) * 500UL) / 1000000UL)
/* transmitWindowDelay times (us) */
#define WIN_DELAY_LEGACY 1250
#define WIN_DELAY_UNCODED 2500
#define WIN_DELAY_CODED 3750
/* Channel Map Size */
#define PDU_CHANNEL_MAP_SIZE 5
/* Advertising Data */
#define PDU_ADV_DATA_HEADER_SIZE 2U
#define PDU_ADV_DATA_HEADER_LEN_SIZE 1U
#define PDU_ADV_DATA_HEADER_TYPE_SIZE 1U
#define PDU_ADV_DATA_HEADER_LEN_OFFSET 0U
#define PDU_ADV_DATA_HEADER_TYPE_OFFSET 1U
#define PDU_ADV_DATA_HEADER_DATA_OFFSET 2U
/* Advertising Data Types in ACAD */
#define PDU_ADV_DATA_TYPE_CHANNEL_MAP_UPDATE_IND 0x28
/*
* Macros to return correct Data Channel PDU time
* Note: formula is valid for 1M, 2M and Coded S8
* see BT spec Version 5.1 Vol 6. Part B, chapters 2.1 and 2.2
* for packet formats and thus lengths
*/
#define PHY_LEGACY 0
#define PHY_1M BIT(0)
#define PHY_2M BIT(1)
#define PHY_CODED BIT(2)
#define PHY_FLAGS_S2 0
#define PHY_FLAGS_S8 BIT(0)
/* Macros for getting/setting did/sid from pdu_adv_adi */
#define PDU_ADV_ADI_DID_GET(adi) ((adi)->did_sid_packed[0] | \
(((adi)->did_sid_packed[1] & 0x0F) << 8))
#define PDU_ADV_ADI_SID_GET(adi) (((adi)->did_sid_packed[1] >> 4) & 0x0F)
#define PDU_ADV_ADI_SID_SET(adi, sid) (adi)->did_sid_packed[1] = (((sid) << 4) + \
((adi)->did_sid_packed[1] & 0x0F))
#define PDU_ADV_ADI_DID_SID_SET(adi, did, sid) \
do { \
(adi)->did_sid_packed[0] = (did) & 0xFF; \
(adi)->did_sid_packed[1] = (((did) >> 8) & 0x0F) + ((sid) << 4); \
} while (0)
#if defined(CONFIG_BT_CTLR_PHY_CODED)
#define CODED_PHY_PREAMBLE_TIME_US 80
#define CODED_PHY_ACCESS_ADDRESS_TIME_US 256
#define CODED_PHY_CI_TIME_US 16
#define CODED_PHY_TERM1_TIME_US 24
#define CODED_PHY_CRC_SIZE 24
#define CODED_PHY_TERM2_SIZE 3
#define FEC_BLOCK1_US ((CODED_PHY_ACCESS_ADDRESS_TIME_US) + \
(CODED_PHY_CI_TIME_US) + \
(CODED_PHY_TERM1_TIME_US))
/* cs = 0, S2 coding scheme, use PHY_FLAGS_S2
* cs = 1, S8 coding scheme, use PHY_FLAGS_S8
*
* Not using the term CI, Coding Indicator, where in the Spec its defined value
* of 0 is S8 encoding, 1 is S2 encoding.
*/
#define FEC_BLOCK2_US(octets, mic, cs) (((((PDU_HEADER_SIZE) + \
(octets) + \
(mic)) << 3) + \
(CODED_PHY_CRC_SIZE) + \
(CODED_PHY_TERM2_SIZE)) << \
(1 + (((cs) & 0x01) << 1)))
#define PDU_US(octets, mic, phy, cs) (((phy) & PHY_CODED) ? \
((CODED_PHY_PREAMBLE_TIME_US) + \
(FEC_BLOCK1_US) + \
FEC_BLOCK2_US((octets), (mic), \
(cs))) : \
(((PDU_PREAMBLE_SIZE(phy) + \
(PDU_ACCESS_ADDR_SIZE) + \
(PDU_HEADER_SIZE) + \
(octets) + \
(mic) + \
(PDU_CRC_SIZE)) << 3) / \
BIT(((phy) & 0x03) >> 1)))
#define PDU_MAX_US(octets, mic, phy) PDU_US((octets), (mic), (phy), \
PHY_FLAGS_S8)
#else /* !CONFIG_BT_CTLR_PHY_CODED */
#define PDU_US(octets, mic, phy, cs) (((PDU_PREAMBLE_SIZE(phy) + \
(PDU_ACCESS_ADDR_SIZE) + \
(PDU_HEADER_SIZE) + \
(octets) + \
(mic) + \
(PDU_CRC_SIZE)) << 3) / \
BIT(((phy) & 0x03) >> 1))
#define PDU_MAX_US(octets, mic, phy) PDU_US((octets), (mic), (phy), 0)
#endif /* !CONFIG_BT_CTLR_PHY_CODED */
#define PDU_DC_MAX_US(octets, phy) PDU_MAX_US((octets), (PDU_MIC_SIZE), (phy))
#define PDU_DC_US(octets, mic, phy, cs) PDU_US((octets), (mic), (phy), (cs))
#define PDU_AC_MAX_US(octets, phy) PDU_MAX_US((octets), 0, (phy))
#define PDU_AC_US(octets, phy, cs) PDU_US((octets), 0, (phy), (cs))
#define PDU_BIS_MAX_US(octets, enc, phy) PDU_MAX_US((octets), \
((enc) ? \
(PDU_MIC_SIZE) : 0), \
(phy))
#define PDU_BIS_US(octets, enc, phy, s8) PDU_US((octets), \
((enc) ? (PDU_MIC_SIZE) : 0), \
(phy), (s8))
#define PDU_CIS_MAX_US(octets, enc, phy) PDU_MAX_US((octets), \
((enc) ? \
(PDU_MIC_SIZE) : 0), \
(phy))
#define PDU_CIS_OFFSET_MIN_US 500U
struct pdu_adv_adv_ind {
uint8_t addr[BDADDR_SIZE];
uint8_t data[PDU_AC_LEG_DATA_SIZE_MAX];
} __packed;
struct pdu_adv_direct_ind {
uint8_t adv_addr[BDADDR_SIZE];
uint8_t tgt_addr[BDADDR_SIZE];
} __packed;
struct pdu_adv_scan_rsp {
uint8_t addr[BDADDR_SIZE];
uint8_t data[PDU_AC_LEG_DATA_SIZE_MAX];
} __packed;
struct pdu_adv_scan_req {
uint8_t scan_addr[BDADDR_SIZE];
uint8_t adv_addr[BDADDR_SIZE];
} __packed;
struct pdu_adv_connect_ind {
uint8_t init_addr[BDADDR_SIZE];
uint8_t adv_addr[BDADDR_SIZE];
struct {
uint8_t access_addr[4];
uint8_t crc_init[3];
uint8_t win_size;
uint16_t win_offset;
uint16_t interval;
uint16_t latency;
uint16_t timeout;
uint8_t chan_map[PDU_CHANNEL_MAP_SIZE];
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t hop:5;
uint8_t sca:3;
#else
uint8_t sca:3;
uint8_t hop:5;
#endif /* CONFIG_LITTLE_ENDIAN */
} __packed;
} __packed;
struct pdu_adv_ext_hdr {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t adv_addr:1;
uint8_t tgt_addr:1;
uint8_t cte_info:1;
uint8_t adi:1;
uint8_t aux_ptr:1;
uint8_t sync_info:1;
uint8_t tx_pwr:1;
uint8_t rfu:1;
#else
uint8_t rfu:1;
uint8_t tx_pwr:1;
uint8_t sync_info:1;
uint8_t aux_ptr:1;
uint8_t adi:1;
uint8_t cte_info:1;
uint8_t tgt_addr:1;
uint8_t adv_addr:1;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t data[0];
} __packed;
struct pdu_adv_com_ext_adv {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t ext_hdr_len:6;
uint8_t adv_mode:2;
#else
uint8_t adv_mode:2;
uint8_t ext_hdr_len:6;
#endif /* CONFIG_LITTLE_ENDIAN */
union {
struct pdu_adv_ext_hdr ext_hdr;
uint8_t ext_hdr_adv_data[0];
};
} __packed;
enum pdu_adv_mode {
EXT_ADV_MODE_NON_CONN_NON_SCAN = 0x00,
EXT_ADV_MODE_CONN_NON_SCAN = 0x01,
EXT_ADV_MODE_NON_CONN_SCAN = 0x02,
};
#define PDU_ADV_SID_COUNT 16
struct pdu_adv_adi {
/* did:12
* sid:4
* NOTE: This layout as bitfields is not portable for BE using
* endianness conversion macros.
*/
uint8_t did_sid_packed[2];
} __packed;
struct pdu_adv_aux_ptr {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t chan_idx:6;
uint8_t ca:1;
uint8_t offs_units:1;
#else
uint8_t offs_units:1;
uint8_t ca:1;
uint8_t chan_idx:6;
#endif /* CONFIG_LITTLE_ENDIAN */
/* offs:13
* phy:3
* NOTE: This layout as bitfields is not portable for BE using
* endianness conversion macros.
*/
uint8_t offs_phy_packed[2];
} __packed;
enum pdu_adv_aux_ptr_ca {
EXT_ADV_AUX_PTR_CA_500_PPM = 0x00,
EXT_ADV_AUX_PTR_CA_50_PPM = 0x01,
};
enum pdu_adv_offs_units {
EXT_ADV_AUX_PTR_OFFS_UNITS_30 = 0x00,
EXT_ADV_AUX_PTR_OFFS_UNITS_300 = 0x01,
};
enum pdu_adv_aux_phy {
EXT_ADV_AUX_PHY_LE_1M = 0x00,
EXT_ADV_AUX_PHY_LE_2M = 0x01,
EXT_ADV_AUX_PHY_LE_CODED = 0x02,
};
struct pdu_adv_sync_info {
/* offs:13
* offs_units:1
* offs_adjust:1
* rfu:1
* NOTE: This layout as bitfields is not portable for BE using
* endianness conversion macros.
*/
uint8_t offs_packed[2];
uint16_t interval;
uint8_t sca_chm[PDU_CHANNEL_MAP_SIZE];
uint8_t aa[4];
uint8_t crc_init[3];
uint16_t evt_cntr;
} __packed;
#define PDU_SYNC_INFO_SCA_CHM_SCA_BYTE_OFFSET 4
#define PDU_SYNC_INFO_SCA_CHM_SCA_BIT_POS 5
#define PDU_SYNC_INFO_SCA_CHM_SCA_BIT_MASK \
(0x07 << (PDU_SYNC_INFO_SCA_CHM_SCA_BIT_POS))
struct pdu_adv_sync_chm_upd_ind {
uint8_t chm[PDU_CHANNEL_MAP_SIZE];
uint16_t instant;
} __packed;
enum pdu_adv_type {
PDU_ADV_TYPE_ADV_IND = 0x00,
PDU_ADV_TYPE_DIRECT_IND = 0x01,
PDU_ADV_TYPE_NONCONN_IND = 0x02,
PDU_ADV_TYPE_SCAN_REQ = 0x03,
PDU_ADV_TYPE_AUX_SCAN_REQ = PDU_ADV_TYPE_SCAN_REQ,
PDU_ADV_TYPE_SCAN_RSP = 0x04,
PDU_ADV_TYPE_ADV_IND_SCAN_RSP = 0x05,
PDU_ADV_TYPE_CONNECT_IND = 0x05,
PDU_ADV_TYPE_AUX_CONNECT_REQ = PDU_ADV_TYPE_CONNECT_IND,
PDU_ADV_TYPE_SCAN_IND = 0x06,
PDU_ADV_TYPE_EXT_IND = 0x07,
PDU_ADV_TYPE_AUX_ADV_IND = PDU_ADV_TYPE_EXT_IND,
PDU_ADV_TYPE_AUX_SCAN_RSP = PDU_ADV_TYPE_EXT_IND,
PDU_ADV_TYPE_AUX_SYNC_IND = PDU_ADV_TYPE_EXT_IND,
PDU_ADV_TYPE_AUX_CHAIN_IND = PDU_ADV_TYPE_EXT_IND,
PDU_ADV_TYPE_AUX_CONNECT_RSP = 0x08,
} __packed;
struct pdu_adv {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t type:4;
uint8_t rfu:1;
uint8_t chan_sel:1;
uint8_t tx_addr:1;
uint8_t rx_addr:1;
#else
uint8_t rx_addr:1;
uint8_t tx_addr:1;
uint8_t chan_sel:1;
uint8_t rfu:1;
uint8_t type:4;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t len;
union {
uint8_t payload[0];
struct pdu_adv_adv_ind adv_ind;
struct pdu_adv_direct_ind direct_ind;
struct pdu_adv_scan_req scan_req;
struct pdu_adv_scan_rsp scan_rsp;
struct pdu_adv_connect_ind connect_ind;
#if defined(CONFIG_BT_CTLR_ADV_EXT)
struct pdu_adv_com_ext_adv adv_ext_ind;
#endif /* CONFIG_BT_CTLR_ADV_EXT */
} __packed;
} __packed;
enum pdu_data_llid {
PDU_DATA_LLID_RESV = 0x00,
PDU_DATA_LLID_DATA_CONTINUE = 0x01,
PDU_DATA_LLID_DATA_START = 0x02,
PDU_DATA_LLID_CTRL = 0x03,
};
enum pdu_data_llctrl_type {
PDU_DATA_LLCTRL_TYPE_CONN_UPDATE_IND = 0x00,
PDU_DATA_LLCTRL_TYPE_CHAN_MAP_IND = 0x01,
PDU_DATA_LLCTRL_TYPE_TERMINATE_IND = 0x02,
PDU_DATA_LLCTRL_TYPE_ENC_REQ = 0x03,
PDU_DATA_LLCTRL_TYPE_ENC_RSP = 0x04,
PDU_DATA_LLCTRL_TYPE_START_ENC_REQ = 0x05,
PDU_DATA_LLCTRL_TYPE_START_ENC_RSP = 0x06,
PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP = 0x07,
PDU_DATA_LLCTRL_TYPE_FEATURE_REQ = 0x08,
PDU_DATA_LLCTRL_TYPE_FEATURE_RSP = 0x09,
PDU_DATA_LLCTRL_TYPE_PAUSE_ENC_REQ = 0x0A,
PDU_DATA_LLCTRL_TYPE_PAUSE_ENC_RSP = 0x0B,
PDU_DATA_LLCTRL_TYPE_VERSION_IND = 0x0C,
PDU_DATA_LLCTRL_TYPE_REJECT_IND = 0x0D,
PDU_DATA_LLCTRL_TYPE_PER_INIT_FEAT_XCHG = 0x0E,
PDU_DATA_LLCTRL_TYPE_CONN_PARAM_REQ = 0x0F,
PDU_DATA_LLCTRL_TYPE_CONN_PARAM_RSP = 0x10,
PDU_DATA_LLCTRL_TYPE_REJECT_EXT_IND = 0x11,
PDU_DATA_LLCTRL_TYPE_PING_REQ = 0x12,
PDU_DATA_LLCTRL_TYPE_PING_RSP = 0x13,
PDU_DATA_LLCTRL_TYPE_LENGTH_REQ = 0x14,
PDU_DATA_LLCTRL_TYPE_LENGTH_RSP = 0x15,
PDU_DATA_LLCTRL_TYPE_PHY_REQ = 0x16,
PDU_DATA_LLCTRL_TYPE_PHY_RSP = 0x17,
PDU_DATA_LLCTRL_TYPE_PHY_UPD_IND = 0x18,
PDU_DATA_LLCTRL_TYPE_MIN_USED_CHAN_IND = 0x19,
PDU_DATA_LLCTRL_TYPE_CTE_REQ = 0x1A,
PDU_DATA_LLCTRL_TYPE_CTE_RSP = 0x1B,
PDU_DATA_LLCTRL_TYPE_CLOCK_ACCURACY_REQ = 0x1D,
PDU_DATA_LLCTRL_TYPE_CLOCK_ACCURACY_RSP = 0x1E,
PDU_DATA_LLCTRL_TYPE_CIS_REQ = 0x1F,
PDU_DATA_LLCTRL_TYPE_CIS_RSP = 0x20,
PDU_DATA_LLCTRL_TYPE_CIS_IND = 0x21,
PDU_DATA_LLCTRL_TYPE_CIS_TERMINATE_IND = 0x22,
PDU_DATA_LLCTRL_TYPE_UNUSED = 0xFF
};
struct pdu_data_llctrl_conn_update_ind {
uint8_t win_size;
uint16_t win_offset;
uint16_t interval;
uint16_t latency;
uint16_t timeout;
uint16_t instant;
} __packed;
struct pdu_data_llctrl_chan_map_ind {
uint8_t chm[PDU_CHANNEL_MAP_SIZE];
uint16_t instant;
} __packed;
struct pdu_data_llctrl_terminate_ind {
uint8_t error_code;
} __packed;
struct pdu_data_llctrl_enc_req {
uint8_t rand[8];
uint8_t ediv[2];
uint8_t skdm[8];
uint8_t ivm[4];
} __packed;
struct pdu_data_llctrl_enc_rsp {
uint8_t skds[8];
uint8_t ivs[4];
} __packed;
struct pdu_data_llctrl_start_enc_req {
/* no members */
} __packed;
struct pdu_data_llctrl_start_enc_rsp {
/* no members */
} __packed;
struct pdu_data_llctrl_unknown_rsp {
uint8_t type;
} __packed;
struct pdu_data_llctrl_feature_req {
uint8_t features[8];
} __packed;
struct pdu_data_llctrl_feature_rsp {
uint8_t features[8];
} __packed;
struct pdu_data_llctrl_pause_enc_req {
/* no members */
} __packed;
struct pdu_data_llctrl_pause_enc_rsp {
/* no members */
} __packed;
struct pdu_data_llctrl_version_ind {
uint8_t version_number;
uint16_t company_id;
uint16_t sub_version_number;
} __packed;
struct pdu_data_llctrl_reject_ind {
uint8_t error_code;
} __packed;
struct pdu_data_llctrl_per_init_feat_xchg {
uint8_t features[8];
} __packed;
struct pdu_data_llctrl_conn_param_req {
uint16_t interval_min;
uint16_t interval_max;
uint16_t latency;
uint16_t timeout;
uint8_t preferred_periodicity;
uint16_t reference_conn_event_count;
uint16_t offset0;
uint16_t offset1;
uint16_t offset2;
uint16_t offset3;
uint16_t offset4;
uint16_t offset5;
} __packed;
struct pdu_data_llctrl_conn_param_rsp {
uint16_t interval_min;
uint16_t interval_max;
uint16_t latency;
uint16_t timeout;
uint8_t preferred_periodicity;
uint16_t reference_conn_event_count;
uint16_t offset0;
uint16_t offset1;
uint16_t offset2;
uint16_t offset3;
uint16_t offset4;
uint16_t offset5;
} __packed;
/*
* According to Spec Core v5.3, section 2.4.2.17
* LL_CONNECTION_PARAM_RSP and LL_CONNECTION_PARAM_REQ are identical
* This is utilized in pdu encode/decode, and for this is needed a common struct
*/
struct pdu_data_llctrl_conn_param_req_rsp_common {
uint16_t interval_min;
uint16_t interval_max;
uint16_t latency;
uint16_t timeout;
uint8_t preferred_periodicity;
uint16_t reference_conn_event_count;
uint16_t offset0;
uint16_t offset1;
uint16_t offset2;
uint16_t offset3;
uint16_t offset4;
uint16_t offset5;
} __packed;
struct pdu_data_llctrl_reject_ext_ind {
uint8_t reject_opcode;
uint8_t error_code;
} __packed;
struct pdu_data_llctrl_ping_req {
/* no members */
} __packed;
struct pdu_data_llctrl_ping_rsp {
/* no members */
} __packed;
struct pdu_data_llctrl_length_req {
uint16_t max_rx_octets;
uint16_t max_rx_time;
uint16_t max_tx_octets;
uint16_t max_tx_time;
} __packed;
struct pdu_data_llctrl_length_rsp {
uint16_t max_rx_octets;
uint16_t max_rx_time;
uint16_t max_tx_octets;
uint16_t max_tx_time;
} __packed;
/*
* According to Spec Core v5.3, section 2.4.2.21
* LL_LENGTH_REQ and LL_LENGTH_RSP are identical
* This is utilized in pdu encode/decode, and for this is needed a common struct
*/
struct pdu_data_llctrl_length_req_rsp_common {
uint16_t max_rx_octets;
uint16_t max_rx_time;
uint16_t max_tx_octets;
uint16_t max_tx_time;
} __packed;
struct pdu_data_llctrl_phy_req {
uint8_t tx_phys;
uint8_t rx_phys;
} __packed;
struct pdu_data_llctrl_phy_rsp {
uint8_t tx_phys;
uint8_t rx_phys;
} __packed;
struct pdu_data_llctrl_phy_upd_ind {
uint8_t c_to_p_phy;
uint8_t p_to_c_phy;
uint16_t instant;
} __packed;
struct pdu_data_llctrl_min_used_chans_ind {
uint8_t phys;
uint8_t min_used_chans;
} __packed;
struct pdu_data_llctrl_cte_req {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t min_cte_len_req : 5;
uint8_t rfu : 1;
uint8_t cte_type_req : 2;
#else
uint8_t cte_type_req : 2;
uint8_t rfu : 1;
uint8_t min_cte_len_req : 5;
#endif /* CONFIG_LITTLE_ENDIAN */
} __packed;
struct pdu_data_llctrl_cte_rsp {
/* no members */
} __packed;
struct pdu_data_llctrl_clock_accuracy_req {
uint8_t sca;
} __packed;
struct pdu_data_llctrl_clock_accuracy_rsp {
uint8_t sca;
} __packed;
struct pdu_data_llctrl_cis_req {
uint8_t cig_id;
uint8_t cis_id;
uint8_t c_phy;
uint8_t p_phy;
/* c_max_sdu:12
* rfu:3
* framed:1
* NOTE: This layout as bitfields is not portable for BE using
* endianness conversion macros.
*/
uint8_t c_max_sdu_packed[2];
/* p_max_sdu:12
* rfu:4
* NOTE: This layout as bitfields is not portable for BE using
* endianness conversion macros.
*/
uint8_t p_max_sdu[2];
uint8_t c_sdu_interval[3];
uint8_t p_sdu_interval[3];
uint16_t c_max_pdu;
uint16_t p_max_pdu;
uint8_t nse;
uint8_t sub_interval[3];
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t c_bn:4;
uint8_t p_bn:4;
#else
uint8_t p_bn:4;
uint8_t c_bn:4;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t c_ft;
uint8_t p_ft;
uint16_t iso_interval;
uint8_t cis_offset_min[3];
uint8_t cis_offset_max[3];
uint16_t conn_event_count;
} __packed;
struct pdu_data_llctrl_cis_rsp {
uint8_t cis_offset_min[3];
uint8_t cis_offset_max[3];
uint16_t conn_event_count;
} __packed;
struct pdu_data_llctrl_cis_ind {
uint8_t aa[4];
uint8_t cis_offset[3];
uint8_t cig_sync_delay[3];
uint8_t cis_sync_delay[3];
uint16_t conn_event_count;
} __packed;
struct pdu_data_llctrl_cis_terminate_ind {
uint8_t cig_id;
uint8_t cis_id;
uint8_t error_code;
} __packed;
struct pdu_data_llctrl {
uint8_t opcode;
union {
struct pdu_data_llctrl_conn_update_ind conn_update_ind;
struct pdu_data_llctrl_chan_map_ind chan_map_ind;
struct pdu_data_llctrl_terminate_ind terminate_ind;
struct pdu_data_llctrl_enc_req enc_req;
struct pdu_data_llctrl_enc_rsp enc_rsp;
struct pdu_data_llctrl_start_enc_req start_enc_req;
struct pdu_data_llctrl_start_enc_rsp start_enc_rsp;
struct pdu_data_llctrl_unknown_rsp unknown_rsp;
struct pdu_data_llctrl_feature_req feature_req;
struct pdu_data_llctrl_feature_rsp feature_rsp;
struct pdu_data_llctrl_pause_enc_req pause_enc_req;
struct pdu_data_llctrl_pause_enc_rsp pause_enc_rsp;
struct pdu_data_llctrl_version_ind version_ind;
struct pdu_data_llctrl_reject_ind reject_ind;
struct pdu_data_llctrl_per_init_feat_xchg per_init_feat_xchg;
struct pdu_data_llctrl_conn_param_req conn_param_req;
struct pdu_data_llctrl_conn_param_rsp conn_param_rsp;
struct pdu_data_llctrl_reject_ext_ind reject_ext_ind;
struct pdu_data_llctrl_ping_req ping_req;
struct pdu_data_llctrl_ping_rsp ping_rsp;
struct pdu_data_llctrl_length_req length_req;
struct pdu_data_llctrl_length_rsp length_rsp;
struct pdu_data_llctrl_phy_req phy_req;
struct pdu_data_llctrl_phy_rsp phy_rsp;
struct pdu_data_llctrl_phy_upd_ind phy_upd_ind;
struct pdu_data_llctrl_min_used_chans_ind min_used_chans_ind;
struct pdu_data_llctrl_cte_req cte_req;
struct pdu_data_llctrl_cte_rsp cte_rsp;
struct pdu_data_llctrl_clock_accuracy_req clock_accuracy_req;
struct pdu_data_llctrl_clock_accuracy_rsp clock_accuracy_rsp;
struct pdu_data_llctrl_cis_req cis_req;
struct pdu_data_llctrl_cis_rsp cis_rsp;
struct pdu_data_llctrl_cis_ind cis_ind;
struct pdu_data_llctrl_cis_terminate_ind cis_terminate_ind;
} __packed;
} __packed;
#define PDU_DATA_LLCTRL_LEN(type) (offsetof(struct pdu_data_llctrl, type) + \
sizeof(struct pdu_data_llctrl_ ## type))
#if defined(CONFIG_BT_CTLR_PROFILE_ISR)
struct profile {
uint16_t lcur;
uint16_t lmin;
uint16_t lmax;
uint16_t cur;
uint16_t min;
uint16_t max;
uint16_t radio;
uint16_t lll;
uint16_t ull_high;
uint16_t ull_low;
uint8_t radio_ticks;
uint8_t lll_ticks;
uint8_t ull_high_ticks;
uint8_t ull_low_ticks;
} __packed;
#endif /* CONFIG_BT_CTLR_PROFILE_ISR */
struct pdu_data {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t ll_id:2;
uint8_t nesn:1;
uint8_t sn:1;
uint8_t md:1;
#if defined(CONFIG_BT_CTLR_DF_CONN_CTE_TX) || defined(CONFIG_BT_CTLR_DF_CONN_CTE_RX)
uint8_t cp:1;
uint8_t rfu:2;
#else
uint8_t rfu:3;
#endif
#else
#if defined(CONFIG_BT_CTLR_DF_CONN_CTE_TX) || defined(CONFIG_BT_CTLR_DF_CONN_CTE_RX)
uint8_t rfu:2;
uint8_t cp:1;
#else
uint8_t rfu:3;
#endif
uint8_t md:1;
uint8_t sn:1;
uint8_t nesn:1;
uint8_t ll_id:2;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t len;
struct pdu_data_vnd_octet3 octet3;
union {
struct pdu_data_llctrl llctrl;
uint8_t lldata[0];
#if defined(CONFIG_BT_CTLR_CONN_RSSI)
uint8_t rssi;
#endif /* CONFIG_BT_CTLR_CONN_RSSI */
#if defined(CONFIG_BT_CTLR_PROFILE_ISR)
struct profile profile;
#endif /* CONFIG_BT_CTLR_PROFILE_ISR */
} __packed;
} __packed;
/* Generic ISO pdu, could be CIS or BIS
* To be used when referring to component without knowing CIS or BIS type
*/
struct pdu_iso {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t ll_id:2;
uint8_t hdr_other:6;
#else
uint8_t hdr_other:6;
uint8_t ll_id:2;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t len;
struct pdu_iso_vnd_octet3 octet3;
uint8_t payload[0];
} __packed;
/* ISO SDU segmentation header */
#define PDU_ISO_SEG_HDR_SIZE 2
#define PDU_ISO_SEG_TIMEOFFSET_SIZE 3
struct pdu_iso_sdu_sh {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t sc:1;
uint8_t cmplt:1;
uint8_t rfu:6;
uint8_t len;
/* Note, timeoffset only available in first segment of sdu */
uint32_t timeoffset:24;
uint32_t payload:8;
#else
uint8_t rfu:6;
uint8_t cmplt:1;
uint8_t sc:1;
uint8_t len;
/* Note, timeoffset only available in first segment of sdu */
uint32_t timeoffset:24;
uint32_t payload:8;
#endif /* CONFIG_LITTLE_ENDIAN */
} __packed;
enum pdu_cis_llid {
/** Unframed complete or end fragment */
PDU_CIS_LLID_COMPLETE_END = 0x00,
/** Unframed start or continuation fragment */
PDU_CIS_LLID_START_CONTINUE = 0x01,
/** Framed; one or more segments of a SDU */
PDU_CIS_LLID_FRAMED = 0x02
};
struct pdu_cis {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t ll_id:2;
uint8_t nesn:1;
uint8_t sn:1;
uint8_t cie:1;
uint8_t rfu0:1;
uint8_t npi:1;
uint8_t rfu1:1;
#else
uint8_t rfu1:1;
uint8_t npi:1;
uint8_t rfu0:1;
uint8_t cie:1;
uint8_t sn:1;
uint8_t nesn:1;
uint8_t ll_id:2;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t len;
struct pdu_cis_vnd_octet3 octet3;
uint8_t payload[0];
} __packed;
enum pdu_big_ctrl_type {
PDU_BIG_CTRL_TYPE_CHAN_MAP_IND = 0x00,
PDU_BIG_CTRL_TYPE_TERM_IND = 0x01,
};
struct pdu_big_ctrl_chan_map_ind {
uint8_t chm[PDU_CHANNEL_MAP_SIZE];
uint16_t instant;
} __packed;
struct pdu_big_ctrl_term_ind {
uint8_t reason;
uint16_t instant;
} __packed;
struct pdu_big_ctrl {
uint8_t opcode;
union {
uint8_t ctrl_data[0];
struct pdu_big_ctrl_chan_map_ind chan_map_ind;
struct pdu_big_ctrl_term_ind term_ind;
} __packed;
} __packed;
enum pdu_bis_llid {
/** Unframed complete or end fragment */
PDU_BIS_LLID_COMPLETE_END = 0x00,
/** Unframed start or continuation fragment */
PDU_BIS_LLID_START_CONTINUE = 0x01,
/** Framed; one or more segments of a SDU */
PDU_BIS_LLID_FRAMED = 0x02,
/** BIG Control PDU */
PDU_BIS_LLID_CTRL = 0x03,
};
struct pdu_bis {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t ll_id:2;
uint8_t cssn:3;
uint8_t cstf:1;
uint8_t rfu:2;
#else
uint8_t rfu:2;
uint8_t cstf:1;
uint8_t cssn:3;
uint8_t ll_id:2;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t len;
struct pdu_bis_vnd_octet3 octet3;
union {
uint8_t payload[0];
struct pdu_big_ctrl ctrl;
} __packed;
} __packed;
struct pdu_big_info {
/* offs:14 [0].0 - [1].5
* offs_units:1 [1].6
* iso_interval:12 [1].7 - [3].2
* num_bis:5 [3].3 - [3].7
*/
uint8_t bi_packed_0_3[4];
/* nse:5 [0].0 - [0].4
* bn:3 [0].5 - [0].7
* sub_interval:20 [1].0 - [3].3
* pto:4 [3].4 - [3].7
*/
uint8_t bi_packed_4_7[4];
/* spacing:20 [0].0 - [2].3
* irc:4 [2].4 - [2].7
*/
uint8_t bi_packed_8_11[3];
uint8_t max_pdu;
uint8_t rfu;
uint32_t seed_access_addr;
/* sdu_interval:20 [0].0 - [2].3
* max_sdu:12; [2].4 - [3].7
*/
uint8_t sdu_packed[4];
uint16_t base_crc_init;
uint8_t chm_phy[PDU_CHANNEL_MAP_SIZE]; /* 37 bit chm; 3 bit phy */
uint8_t payload_count_framing[5]; /* 39 bit count; 1 bit framing */
uint8_t giv[8]; /* encryption required */
uint8_t gskd[16]; /* encryption required */
} __packed;
#define PDU_BIG_INFO_CLEARTEXT_SIZE offsetof(struct pdu_big_info, giv)
#define PDU_BIG_INFO_ENCRYPTED_SIZE sizeof(struct pdu_big_info)
#define PDU_BIG_BN_MAX 0x07
#define PDU_BIG_PAYLOAD_COUNT_MAX 28
#define PDU_BIG_INFO_OFFS_GET(bi) \
util_get_bits(&(bi)->bi_packed_0_3[0], 0, 14)
#define PDU_BIG_INFO_OFFS_UNITS_GET(bi) \
util_get_bits(&(bi)->bi_packed_0_3[1], 6, 1)
#define PDU_BIG_INFO_ISO_INTERVAL_GET(bi) \
util_get_bits(&(bi)->bi_packed_0_3[1], 7, 12)
#define PDU_BIG_INFO_NUM_BIS_GET(bi) \
util_get_bits(&(bi)->bi_packed_0_3[3], 3, 5)
#define PDU_BIG_INFO_NSE_GET(bi) \
util_get_bits(&(bi)->bi_packed_4_7[0], 0, 5)
#define PDU_BIG_INFO_BN_GET(bi) \
util_get_bits(&(bi)->bi_packed_4_7[0], 5, 3)
#define PDU_BIG_INFO_SUB_INTERVAL_GET(bi) \
util_get_bits(&(bi)->bi_packed_4_7[1], 0, 20)
#define PDU_BIG_INFO_PTO_GET(bi) \
util_get_bits(&(bi)->bi_packed_4_7[3], 4, 4)
#define PDU_BIG_INFO_SPACING_GET(bi) \
util_get_bits(&(bi)->bi_packed_8_11[0], 0, 20)
#define PDU_BIG_INFO_IRC_GET(bi) \
util_get_bits(&(bi)->bi_packed_8_11[2], 4, 4)
#define PDU_BIG_INFO_SDU_INTERVAL_GET(bi) \
util_get_bits(&(bi)->sdu_packed[0], 0, 20)
#define PDU_BIG_INFO_MAX_SDU_GET(bi) \
util_get_bits(&(bi)->sdu_packed[2], 4, 12)
#define PDU_BIG_INFO_OFFS_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_0_3[0], 0, 14, val)
#define PDU_BIG_INFO_OFFS_UNITS_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_0_3[1], 6, 1, val)
#define PDU_BIG_INFO_ISO_INTERVAL_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_0_3[1], 7, 12, val)
#define PDU_BIG_INFO_NUM_BIS_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_0_3[3], 3, 5, val)
#define PDU_BIG_INFO_NSE_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_4_7[0], 0, 5, val)
#define PDU_BIG_INFO_BN_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_4_7[0], 5, 3, val)
#define PDU_BIG_INFO_SUB_INTERVAL_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_4_7[1], 0, 20, val)
#define PDU_BIG_INFO_PTO_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_4_7[3], 4, 4, val)
#define PDU_BIG_INFO_SPACING_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_8_11[0], 0, 20, val)
#define PDU_BIG_INFO_IRC_SET(bi, val) \
util_set_bits(&(bi)->bi_packed_8_11[2], 4, 4, val)
#define PDU_BIG_INFO_SDU_INTERVAL_SET(bi, val) \
util_set_bits(&(bi)->sdu_packed[0], 0, 20, val)
#define PDU_BIG_INFO_MAX_SDU_SET(bi, val) \
util_set_bits(&(bi)->sdu_packed[2], 4, 12, val)
struct pdu_dtm {
#ifdef CONFIG_LITTLE_ENDIAN
uint8_t type:4;
uint8_t rfu0:1;
#if defined(CONFIG_BT_CTLR_DF_CTE_TX)
uint8_t cp:1;
uint8_t rfu1:2;
#else
uint8_t rfu1:3;
#endif
#else
#if defined(CONFIG_BT_CTLR_DF_CTE_TX)
uint8_t rfu1:2;
uint8_t cp:1;
#else
uint8_t rfu1:3;
#endif
uint8_t rfu0:1;
uint8_t type:4;
#endif /* CONFIG_LITTLE_ENDIAN */
uint8_t len;
struct pdu_data_vnd_octet3 octet3;
uint8_t payload[0];
} __packed;
/* Direct Test Mode maximum payload size */
#define PDU_DTM_PAYLOAD_SIZE_MAX 255
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