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#pragma once
typedef int trx_sched_rts_func(struct l1sched_trx *l1t, uint8_t tn,
uint32_t fn, enum trx_chan_type chan);
typedef ubit_t *trx_sched_dl_func(struct l1sched_trx *l1t, uint8_t tn,
uint32_t fn, enum trx_chan_type chan,
uint8_t bid, uint16_t *nbits);
typedef int trx_sched_ul_func(struct l1sched_trx *l1t, uint8_t tn,
uint32_t fn, enum trx_chan_type chan,
uint8_t bid, sbit_t *bits, uint16_t nbits,
int8_t rssi, float toa);
struct trx_chan_desc {
/*! \brief Is this on a PDCH (PS) ? */
int pdch;
/*! \brief TRX Channel Type */
enum trx_chan_type chan;
/*! \brief Channel Number (like in RSL) */
uint8_t chan_nr;
/*! \brief Link ID (like in RSL) */
uint8_t link_id;
/*! \brief Human-readable name */
const char *name;
/*! \brief function to call when we want to generate RTS.req to L2 */
trx_sched_rts_func *rts_fn;
/*! \brief function to call when DATA.req received from L2 */
trx_sched_dl_func *dl_fn;
/*! \brief function to call when burst received from PHY */
trx_sched_ul_func *ul_fn;
/*! \brief is this channel automatically active at start? */
int auto_active;
};
extern const struct trx_chan_desc trx_chan_desc[_TRX_CHAN_MAX];
extern const ubit_t _sched_tsc[8][26];
extern const ubit_t _sched_egprs_tsc[8][78];
const ubit_t _sched_fcch_burst[148];
const ubit_t _sched_sch_train[64];
struct msgb *_sched_dequeue_prim(struct l1sched_trx *l1t, int8_t tn, uint32_t fn,
enum trx_chan_type chan);
int _sched_compose_ph_data_ind(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t *l2,
uint8_t l2_len, float rssi,
int16_t ta_offs_qbits, int16_t link_qual_cb,
uint16_t ber10k,
enum osmo_ph_pres_info_type presence_info);
int _sched_compose_tch_ind(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t *tch, uint8_t tch_len);
ubit_t *tx_idle_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
ubit_t *tx_fcch_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
ubit_t *tx_sch_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
ubit_t *tx_data_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
ubit_t *tx_pdtch_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
ubit_t *tx_tchf_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
ubit_t *tx_tchh_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, uint16_t *nbits);
int rx_rach_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, sbit_t *bits, uint16_t nbits,
int8_t rssi, float toa);
int rx_data_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, sbit_t *bits, uint16_t nbits,
int8_t rssi, float toa);
int rx_pdtch_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, sbit_t *bits, uint16_t nbits,
int8_t rssi, float toa);
int rx_tchf_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, sbit_t *bits, uint16_t nbits,
int8_t rssi, float toa);
int rx_tchh_fn(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn,
enum trx_chan_type chan, uint8_t bid, sbit_t *bits, uint16_t nbits,
int8_t rssi, float toa);
const ubit_t *_sched_dl_burst(struct l1sched_trx *l1t, uint8_t tn,
uint32_t fn, uint16_t *nbits);
int _sched_rts(struct l1sched_trx *l1t, uint8_t tn, uint32_t fn);
void _sched_act_rach_det(struct l1sched_trx *l1t, uint8_t tn, uint8_t ss, int activate);
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