#ifndef _L1_IF_H #define _L1_IF_H #include #include #include #include #include #include #include #include #include enum { MQ_SYS_READ, MQ_L1_READ, MQ_TCH_READ, MQ_PDTCH_READ, _NUM_MQ_READ }; enum { MQ_SYS_WRITE, MQ_L1_WRITE, MQ_TCH_WRITE, MQ_PDTCH_WRITE, _NUM_MQ_WRITE }; struct calib_send_state { FILE *fp; const char *path; int last_file_idx; }; struct oc2gl1_hdl { struct gsm_time gsm_time; HANDLE hLayer1; /* handle to the L1 instance in the DSP */ uint32_t dsp_trace_f; /* currently operational DSP trace flags */ struct llist_head wlc_list; struct llist_head alarm_list; /* list of sent alarms */ struct phy_instance *phy_inst; struct osmo_timer_list alive_timer; unsigned int alive_prim_cnt; struct osmo_fd read_ofd[_NUM_MQ_READ]; /* osmo file descriptors */ struct osmo_wqueue write_q[_NUM_MQ_WRITE]; struct { /* from DSP/FPGA after L1 Init */ uint8_t dsp_version[3]; uint8_t fpga_version[3]; uint32_t band_support; uint8_t ver_major; uint8_t ver_minor; uint32_t options; } hw_info; struct calib_send_state st; uint8_t last_rf_mute[8]; struct { struct osmo_timer_list dsp_alive_timer; unsigned int dsp_alive_cnt; uint8_t dsp_alive_period; } hw_alive; }; #define msgb_l1prim(msg) ((GsmL1_Prim_t *)(msg)->l1h) #define msgb_sysprim(msg) ((Oc2g_Prim_t *)(msg)->l1h) typedef int l1if_compl_cb(struct gsm_bts_trx *trx, struct msgb *l1_msg, void *data); /* send a request primitive to the L1 and schedule completion call-back */ int l1if_req_compl(struct oc2gl1_hdl *fl1h, struct msgb *msg, l1if_compl_cb *cb, void *cb_data); int l1if_gsm_req_compl(struct oc2gl1_hdl *fl1h, struct msgb *msg, l1if_compl_cb *cb, void *cb_data); struct oc2gl1_hdl *l1if_open(struct phy_instance *pinst); int l1if_close(struct oc2gl1_hdl *hdl); int l1if_reset(struct oc2gl1_hdl *hdl); int l1if_activate_rf(struct oc2gl1_hdl *hdl, int on); int l1if_set_trace_flags(struct oc2gl1_hdl *hdl, uint32_t flags); int l1if_set_txpower(struct oc2gl1_hdl *fl1h, float tx_power); int l1if_set_txpower_backoff_8psk(struct oc2gl1_hdl *fl1h, uint8_t backoff); int l1if_set_txpower_c0_idle_pwr_red(struct oc2gl1_hdl *fl1h, uint8_t red); int l1if_set_max_cell_size(struct oc2gl1_hdl *fl1h, uint8_t cell_size); int l1if_mute_rf(struct oc2gl1_hdl *hdl, uint8_t mute[8], l1if_compl_cb *cb); struct msgb *l1p_msgb_alloc(void); struct msgb *sysp_msgb_alloc(void); uint32_t l1if_lchan_to_hLayer(struct gsm_lchan *lchan); struct gsm_lchan *l1if_hLayer_to_lchan(struct gsm_bts_trx *trx, uint32_t hLayer); /* tch.c */ int l1if_tch_encode(struct gsm_lchan *lchan, uint8_t *data, uint8_t *len, const uint8_t *rtp_pl, unsigned int rtp_pl_len, uint32_t fn, bool use_cache, bool marker); int l1if_tch_rx(struct gsm_bts_trx *trx, uint8_t chan_nr, struct msgb *l1p_msg); int l1if_tch_fill(struct gsm_lchan *lchan, uint8_t *l1_buffer); struct msgb *gen_empty_tch_msg(struct gsm_lchan *lchan, uint32_t fn); /* ciphering */ int l1if_set_ciphering(struct oc2gl1_hdl *fl1h, struct gsm_lchan *lchan, int dir_downlink); /* channel control */ int l1if_rsl_chan_act(struct gsm_lchan *lchan); int l1if_rsl_chan_rel(struct gsm_lchan *lchan); int l1if_rsl_chan_mod(struct gsm_lchan *lchan); int l1if_rsl_deact_sacch(struct gsm_lchan *lchan); int l1if_rsl_mode_modify(struct gsm_lchan *lchan); /* calibration loading */ int calib_load(struct oc2gl1_hdl *fl1h); /* public helpers for test */ int bts_check_for_ciph_cmd(struct oc2gl1_hdl *fl1h, struct msgb *msg, struct gsm_lchan *lchan); int l1if_ms_pwr_ctrl(struct gsm_lchan *lchan, const int uplink_target, const uint8_t ms_power, const float rxLevel); static inline struct oc2gl1_hdl *trx_oc2gl1_hdl(struct gsm_bts_trx *trx) { struct phy_instance *pinst = trx_phy_instance(trx); OSMO_ASSERT(pinst); return pinst->u.oc2g.hdl; } static inline struct gsm_bts_trx *oc2gl1_hdl_trx(struct oc2gl1_hdl *fl1h) { OSMO_ASSERT(fl1h->phy_inst); return fl1h->phy_inst->trx; } #endif /* _L1_IF_H */