/* bts.h * * Copyright (C) 2012 Ivan Klyuchnikov * Copyright (C) 2013 by Holger Hans Peter Freyther * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #pragma once #ifdef __cplusplus extern "C" { #include #include #include #include #include #include } #include "poll_controller.h" #include "sba.h" #include "tbf.h" #include "gprs_ms_storage.h" #include "gprs_coding_scheme.h" #endif #include #define LLC_CODEL_DISABLE 0 #define LLC_CODEL_USE_DEFAULT (-1) #define MAX_GPRS_CS 9 struct BTS; struct GprsMs; /* * PDCH instance */ struct gprs_rlcmac_pdch { #ifdef __cplusplus struct gprs_rlcmac_paging *dequeue_paging(); struct msgb *packet_paging_request(); void add_paging(struct gprs_rlcmac_paging *pag); void free_resources(); bool is_enabled() const; void enable(); void disable(); /* dispatching of messages */ int rcv_block(uint8_t *data, uint8_t len, uint32_t fn, struct pcu_l1_meas *meas); int rcv_block_gprs(uint8_t *data, uint32_t fn, struct pcu_l1_meas *meas, GprsCodingScheme cs); int rcv_data_block(uint8_t *data, uint32_t fn, struct pcu_l1_meas *meas, GprsCodingScheme cs); gprs_rlcmac_bts *bts_data() const; BTS *bts() const; uint8_t trx_no() const; struct gprs_rlcmac_ul_tbf *ul_tbf_by_tfi(uint8_t tfi); struct gprs_rlcmac_dl_tbf *dl_tbf_by_tfi(uint8_t tfi); void attach_tbf(gprs_rlcmac_tbf *tbf); void detach_tbf(gprs_rlcmac_tbf *tbf); unsigned num_tbfs(enum gprs_rlcmac_tbf_direction dir) const; void reserve(enum gprs_rlcmac_tbf_direction dir); void unreserve(enum gprs_rlcmac_tbf_direction dir); unsigned num_reserved(enum gprs_rlcmac_tbf_direction dir) const; uint8_t assigned_usf() const; uint32_t assigned_tfi(enum gprs_rlcmac_tbf_direction dir) const; #endif uint8_t m_is_enabled; /* TS is enabled */ uint8_t tsc; /* TSC of this slot */ uint8_t next_ul_tfi; /* next uplink TBF/TFI to schedule (0..31) */ uint8_t next_dl_tfi; /* next downlink TBF/TFI to schedule (0..31) */ uint8_t next_ctrl_prio; /* next kind of ctrl message to schedule */ struct llist_head paging_list; /* list of paging messages */ uint32_t last_rts_fn; /* store last frame number of RTS */ /* back pointers */ struct gprs_rlcmac_trx *trx; uint8_t ts_no; #ifdef __cplusplus private: int rcv_control_block(bitvec *rlc_block, uint32_t fn); void rcv_control_ack(Packet_Control_Acknowledgement_t *, uint32_t fn); void rcv_control_dl_ack_nack(Packet_Downlink_Ack_Nack_t *, uint32_t fn); void rcv_control_egprs_dl_ack_nack(EGPRS_PD_AckNack_t *, uint32_t fn); void rcv_resource_request(Packet_Resource_Request_t *t, uint32_t fn); void rcv_measurement_report(Packet_Measurement_Report_t *t, uint32_t fn); gprs_rlcmac_tbf *tbf_from_list_by_tfi( LListHead *tbf_list, uint8_t tfi, enum gprs_rlcmac_tbf_direction dir); gprs_rlcmac_tbf *tbf_by_tfi(uint8_t tfi, enum gprs_rlcmac_tbf_direction dir); #endif uint8_t m_num_tbfs[2]; uint8_t m_num_reserved[2]; uint8_t m_assigned_usf; /* bit set */ uint32_t m_assigned_tfi[2]; /* bit set */ struct gprs_rlcmac_tbf *m_tbfs[2][32]; }; struct gprs_rlcmac_trx { void *fl1h; uint16_t arfcn; struct gprs_rlcmac_pdch pdch[8]; /* back pointers */ struct BTS *bts; uint8_t trx_no; #ifdef __cplusplus void reserve_slots(enum gprs_rlcmac_tbf_direction dir, uint8_t slots); void unreserve_slots(enum gprs_rlcmac_tbf_direction dir, uint8_t slots); #endif }; #ifdef __cplusplus extern "C" { #endif void bts_update_tbf_ta(const char *p, uint32_t fn, uint8_t trx_no, uint8_t ts, uint8_t ta); #ifdef __cplusplus } #endif /** * This is the data from C. As soon as our minimal compiler is gcc 4.7 * we can start to compile pcu_vty.c with c++ and remove the split. */ struct gprs_rlcmac_bts { uint8_t bsic; uint8_t fc_interval; uint16_t fc_bucket_time; uint32_t fc_bvc_bucket_size; uint32_t fc_bvc_leak_rate; uint32_t fc_ms_bucket_size; uint32_t fc_ms_leak_rate; uint8_t cs1; uint8_t cs2; uint8_t cs3; uint8_t cs4; uint8_t initial_cs_dl, initial_cs_ul; uint8_t initial_mcs_dl, initial_mcs_ul; uint8_t max_cs_dl, max_cs_ul; uint8_t max_mcs_dl, max_mcs_ul; uint8_t force_cs; /* 0=use from BTS 1=use from VTY */ uint16_t force_llc_lifetime; /* overrides lifetime from SGSN */ uint32_t llc_discard_csec; uint32_t llc_idle_ack_csec; uint32_t llc_codel_interval_msec; /* 0=disabled, -1=use default interval */ uint8_t t3142; uint8_t t3169; uint8_t t3191; uint16_t t3193_msec; uint8_t t3195; uint8_t n3101; uint8_t n3103; uint8_t n3105; struct gsmtap_inst *gsmtap; struct gprs_rlcmac_trx trx[8]; int (*alloc_algorithm)(struct gprs_rlcmac_bts *bts, struct GprsMs *ms, struct gprs_rlcmac_tbf *tbf, uint32_t cust, uint8_t single, int use_tbf); uint32_t alloc_algorithm_curst; /* options to customize algorithm */ uint8_t force_two_phase; uint8_t alpha, gamma; uint8_t egprs_enabled; uint32_t dl_tbf_idle_msec; /* hold time for idle DL TBFs */ /* 0 to support resegmentation in DL, 1 for no reseg */ uint8_t dl_arq_type; uint32_t ms_idle_sec; uint8_t cs_adj_enabled; uint8_t cs_adj_upper_limit; uint8_t cs_adj_lower_limit; struct {int16_t low; int16_t high; } cs_lqual_ranges[MAX_GPRS_CS]; uint16_t cs_downgrade_threshold; /* downgrade if less packets left (DL) */ uint16_t ws_base; uint16_t ws_pdch; /* increase WS by this value per PDCH */ /* State for dynamic algorithm selection */ int multislot_disabled; /** * Point back to the C++ object. This is used during the transition * period. */ struct BTS *bts; }; #ifdef __cplusplus /** * I represent a GSM BTS. I have one or more TRX, I know the current * GSM time and I have controllers that help with allocating resources * on my TRXs. */ struct BTS { public: enum { CTR_TBF_DL_ALLOCATED, CTR_TBF_DL_FREED, CTR_TBF_DL_ABORTED, CTR_TBF_UL_ALLOCATED, CTR_TBF_UL_FREED, CTR_TBF_UL_ABORTED, CTR_TBF_REUSED, CTR_TBF_ALLOC_ALGO_A, CTR_TBF_ALLOC_ALGO_B, CTR_TBF_FAILED_EGPRS_ONLY, CTR_RLC_SENT, CTR_RLC_RESENT, CTR_RLC_RESTARTED, CTR_RLC_STALLED, CTR_RLC_NACKED, CTR_RLC_FINAL_BLOCK_RESENT, CTR_RLC_ASS_TIMEDOUT, CTR_RLC_ASS_FAILED, CTR_RLC_ACK_TIMEDOUT, CTR_RLC_ACK_FAILED, CTR_RLC_REL_TIMEDOUT, CTR_RLC_LATE_BLOCK, CTR_RLC_SENT_DUMMY, CTR_RLC_SENT_CONTROL, CTR_RLC_DL_BYTES, CTR_RLC_DL_PAYLOAD_BYTES, CTR_RLC_UL_BYTES, CTR_RLC_UL_PAYLOAD_BYTES, CTR_DECODE_ERRORS, CTR_SBA_ALLOCATED, CTR_SBA_FREED, CTR_SBA_TIMEDOUT, CTR_LLC_FRAME_TIMEDOUT, CTR_LLC_FRAME_DROPPED, CTR_LLC_FRAME_SCHED, CTR_LLC_DL_BYTES, CTR_LLC_UL_BYTES, CTR_RACH_REQUESTS, CTR_SPB_UL_FIRST_SEGMENT, CTR_SPB_UL_SECOND_SEGMENT, CTR_SPB_DL_FIRST_SEGMENT, CTR_SPB_DL_SECOND_SEGMENT, CTR_11BIT_RACH_REQUESTS, CTR_IMMEDIATE_ASSIGN_UL_TBF, CTR_IMMEDIATE_ASSIGN_REJ, CTR_IMMEDIATE_ASSIGN_DL_TBF, CTR_CHANNEL_REQUEST_DESCRIPTION, CTR_PKT_UL_ASSIGNMENT, CTR_PKT_ACCESS_REJ, CTR_PKT_DL_ASSIGNMENT, CTR_RLC_RECV_CONTROL, CTR_PUA_POLL_TIMEDOUT, CTR_PUA_POLL_FAILED, CTR_PDA_POLL_TIMEDOUT, CTR_PDA_POLL_FAILED, CTR_PUAN_POLL_TIMEDOUT, CTR_PUAN_POLL_FAILED, CTR_PDAN_POLL_TIMEDOUT, CTR_PDAN_POLL_FAILED, CTR_GPRS_DL_CS1, CTR_GPRS_DL_CS2, CTR_GPRS_DL_CS3, CTR_GPRS_DL_CS4, CTR_EGPRS_DL_MCS1, CTR_EGPRS_DL_MCS2, CTR_EGPRS_DL_MCS3, CTR_EGPRS_DL_MCS4, CTR_EGPRS_DL_MCS5, CTR_EGPRS_DL_MCS6, CTR_EGPRS_DL_MCS7, CTR_EGPRS_DL_MCS8, CTR_EGPRS_DL_MCS9, CTR_GPRS_UL_CS1, CTR_GPRS_UL_CS2, CTR_GPRS_UL_CS3, CTR_GPRS_UL_CS4, CTR_EGPRS_UL_MCS1, CTR_EGPRS_UL_MCS2, CTR_EGPRS_UL_MCS3, CTR_EGPRS_UL_MCS4, CTR_EGPRS_UL_MCS5, CTR_EGPRS_UL_MCS6, CTR_EGPRS_UL_MCS7, CTR_EGPRS_UL_MCS8, CTR_EGPRS_UL_MCS9, }; enum { STAT_MS_PRESENT, }; enum { TIMER_T3190_MSEC = 5000, }; BTS(); ~BTS(); static BTS* main_bts(); struct gprs_rlcmac_bts *bts_data(); SBAController *sba(); /** TODO: change the number to unsigned */ void set_current_frame_number(int frame_number); void set_current_block_frame_number(int frame_number, unsigned max_delay); int current_frame_number() const; /** add paging to paging queue(s) */ int add_paging(uint8_t chan_needed, uint8_t *identity_lv); gprs_rlcmac_dl_tbf *dl_tbf_by_poll_fn(uint32_t fn, uint8_t trx, uint8_t ts); gprs_rlcmac_ul_tbf *ul_tbf_by_poll_fn(uint32_t fn, uint8_t trx, uint8_t ts); gprs_rlcmac_dl_tbf *dl_tbf_by_tfi(uint8_t tfi, uint8_t trx, uint8_t ts); gprs_rlcmac_ul_tbf *ul_tbf_by_tfi(uint8_t tfi, uint8_t trx, uint8_t ts); int tfi_find_free(enum gprs_rlcmac_tbf_direction dir, uint8_t *_trx, int8_t use_trx); int rcv_imm_ass_cnf(const uint8_t *data, uint32_t fn); uint8_t is_single_block(uint16_t ra, enum ph_burst_type burst_type, uint8_t is_11bit, uint16_t *ms_class, uint16_t *priority); int rcv_rach(uint16_t ra, uint32_t Fn, int16_t qta, uint8_t is_11bit, enum ph_burst_type burst_type); void trigger_dl_ass(gprs_rlcmac_dl_tbf *tbf, gprs_rlcmac_tbf *old_tbf); void snd_dl_ass(gprs_rlcmac_tbf *tbf, uint8_t poll, const char *imsi); GprsMsStorage &ms_store(); GprsMs *ms_by_tlli(uint32_t tlli, uint32_t old_tlli = 0); GprsMs *ms_by_imsi(const char *imsi); GprsMs *ms_alloc(uint8_t ms_class, uint8_t egprs_ms_class = 0); /* * Statistics */ void tbf_dl_created(); void tbf_dl_freed(); void tbf_dl_aborted(); void tbf_ul_created(); void tbf_ul_freed(); void tbf_ul_aborted(); void tbf_reused(); void tbf_alloc_algo_a(); void tbf_alloc_algo_b(); void tbf_failed_egprs_only(); void rlc_sent(); void rlc_resent(); void rlc_restarted(); void rlc_stalled(); void rlc_nacked(); void rlc_final_block_resent(); void rlc_ass_timedout(); void rlc_ass_failed(); void rlc_ack_timedout(); void rlc_ack_failed(); void rlc_rel_timedout(); void rlc_late_block(); void rlc_sent_dummy(); void rlc_sent_control(); void rlc_dl_bytes(int bytes); void rlc_dl_payload_bytes(int bytes); void rlc_ul_bytes(int bytes); void rlc_ul_payload_bytes(int bytes); void decode_error(); void sba_allocated(); void sba_freed(); void sba_timedout(); void llc_timedout_frame(); void llc_dropped_frame(); void llc_frame_sched(); void llc_dl_bytes(int bytes); void llc_ul_bytes(int bytes); void rach_frame(); void spb_uplink_first_segment(); void spb_uplink_second_segment(); void spb_downlink_first_segment(); void spb_downlink_second_segment(); void rach_frame_11bit(); void immediate_assignment_ul_tbf(); void immediate_assignment_reject(); void immediate_assignment_dl_tbf(); void channel_request_description(); void pkt_ul_assignment(); void pkt_access_reject(); void pkt_dl_assignemnt(); void rlc_rcvd_control(); void pua_poll_timedout(); void pua_poll_failed(); void pda_poll_timedout(); void pda_poll_failed(); void pkt_ul_ack_nack_poll_timedout(); void pkt_ul_ack_nack_poll_failed(); void pkt_dl_ack_nack_poll_timedout(); void pkt_dl_ack_nack_poll_failed(); void gprs_dl_cs1(); void gprs_dl_cs2(); void gprs_dl_cs3(); void gprs_dl_cs4(); void egprs_dl_mcs1(); void egprs_dl_mcs2(); void egprs_dl_mcs3(); void egprs_dl_mcs4(); void egprs_dl_mcs5(); void egprs_dl_mcs6(); void egprs_dl_mcs7(); void egprs_dl_mcs8(); void egprs_dl_mcs9(); void gprs_ul_cs1(); void gprs_ul_cs2(); void gprs_ul_cs3(); void gprs_ul_cs4(); void egprs_ul_mcs1(); void egprs_ul_mcs2(); void egprs_ul_mcs3(); void egprs_ul_mcs4(); void egprs_ul_mcs5(); void egprs_ul_mcs6(); void egprs_ul_mcs7(); void egprs_ul_mcs8(); void egprs_ul_mcs9(); void ms_present(int32_t n); int32_t ms_present_get(); /* * Below for C interface for the VTY */ struct rate_ctr_group *rate_counters() const; struct osmo_stat_item_group *stat_items() const; LListHead& ul_tbfs(); LListHead& dl_tbfs(); private: int m_cur_fn; int m_cur_blk_fn; struct gprs_rlcmac_bts m_bts; PollController m_pollController; SBAController m_sba; struct rate_ctr_group *m_ratectrs; struct osmo_stat_item_group *m_statg; GprsMsStorage m_ms_store; /* list of uplink TBFs */ LListHead m_ul_tbfs; /* list of downlink TBFs */ LListHead m_dl_tbfs; private: /* disable copying to avoid slicing */ BTS(const BTS&); BTS& operator=(const BTS&); }; inline int BTS::current_frame_number() const { return m_cur_fn; } inline SBAController *BTS::sba() { return &m_sba; } inline GprsMsStorage &BTS::ms_store() { return m_ms_store; } inline GprsMs *BTS::ms_by_tlli(uint32_t tlli, uint32_t old_tlli) { return ms_store().get_ms(tlli, old_tlli); } inline GprsMs *BTS::ms_by_imsi(const char *imsi) { return ms_store().get_ms(0, 0, imsi); } inline LListHead& BTS::ul_tbfs() { return m_ul_tbfs; } inline LListHead& BTS::dl_tbfs() { return m_dl_tbfs; } inline BTS *gprs_rlcmac_pdch::bts() const { return trx->bts; } inline unsigned gprs_rlcmac_pdch::num_tbfs(enum gprs_rlcmac_tbf_direction dir) const { return m_num_tbfs[dir]; } inline unsigned gprs_rlcmac_pdch::num_reserved( enum gprs_rlcmac_tbf_direction dir) const { return gprs_rlcmac_pdch::m_num_reserved[dir]; } inline uint8_t gprs_rlcmac_pdch::assigned_usf() const { return m_assigned_usf; } inline uint32_t gprs_rlcmac_pdch::assigned_tfi( enum gprs_rlcmac_tbf_direction dir) const { return m_assigned_tfi[dir]; } inline struct rate_ctr_group *BTS::rate_counters() const { return m_ratectrs; } inline struct osmo_stat_item_group *BTS::stat_items() const { return m_statg; } #define CREATE_COUNT_ADD_INLINE(func_name, ctr_name) \ inline void BTS::func_name(int inc) {\ rate_ctr_add(&m_ratectrs->ctr[ctr_name], inc); \ } #define CREATE_COUNT_INLINE(func_name, ctr_name) \ inline void BTS::func_name() {\ rate_ctr_inc(&m_ratectrs->ctr[ctr_name]); \ } CREATE_COUNT_INLINE(tbf_dl_created, CTR_TBF_DL_ALLOCATED) CREATE_COUNT_INLINE(tbf_dl_freed, CTR_TBF_DL_FREED) CREATE_COUNT_INLINE(tbf_dl_aborted, CTR_TBF_DL_ABORTED) CREATE_COUNT_INLINE(tbf_ul_created, CTR_TBF_UL_ALLOCATED) CREATE_COUNT_INLINE(tbf_ul_freed, CTR_TBF_UL_FREED) CREATE_COUNT_INLINE(tbf_ul_aborted, CTR_TBF_UL_ABORTED) CREATE_COUNT_INLINE(tbf_reused, CTR_TBF_REUSED) CREATE_COUNT_INLINE(tbf_alloc_algo_a, CTR_TBF_ALLOC_ALGO_A) CREATE_COUNT_INLINE(tbf_alloc_algo_b, CTR_TBF_ALLOC_ALGO_B) CREATE_COUNT_INLINE(tbf_failed_egprs_only, CTR_TBF_FAILED_EGPRS_ONLY) CREATE_COUNT_INLINE(rlc_sent, CTR_RLC_SENT) CREATE_COUNT_INLINE(rlc_resent, CTR_RLC_RESENT) CREATE_COUNT_INLINE(rlc_restarted, CTR_RLC_RESTARTED) CREATE_COUNT_INLINE(rlc_stalled, CTR_RLC_STALLED) CREATE_COUNT_INLINE(rlc_nacked, CTR_RLC_NACKED) CREATE_COUNT_INLINE(rlc_final_block_resent, CTR_RLC_FINAL_BLOCK_RESENT); CREATE_COUNT_INLINE(rlc_ass_timedout, CTR_RLC_ASS_TIMEDOUT); CREATE_COUNT_INLINE(rlc_ass_failed, CTR_RLC_ASS_FAILED); CREATE_COUNT_INLINE(rlc_ack_timedout, CTR_RLC_ACK_TIMEDOUT); CREATE_COUNT_INLINE(rlc_ack_failed, CTR_RLC_ACK_FAILED); CREATE_COUNT_INLINE(rlc_rel_timedout, CTR_RLC_REL_TIMEDOUT); CREATE_COUNT_INLINE(rlc_late_block, CTR_RLC_LATE_BLOCK); CREATE_COUNT_INLINE(rlc_sent_dummy, CTR_RLC_SENT_DUMMY); CREATE_COUNT_INLINE(rlc_sent_control, CTR_RLC_SENT_CONTROL); CREATE_COUNT_ADD_INLINE(rlc_dl_bytes, CTR_RLC_DL_BYTES); CREATE_COUNT_ADD_INLINE(rlc_dl_payload_bytes, CTR_RLC_DL_PAYLOAD_BYTES); CREATE_COUNT_ADD_INLINE(rlc_ul_bytes, CTR_RLC_UL_BYTES); CREATE_COUNT_ADD_INLINE(rlc_ul_payload_bytes, CTR_RLC_UL_PAYLOAD_BYTES); CREATE_COUNT_INLINE(decode_error, CTR_DECODE_ERRORS) CREATE_COUNT_INLINE(sba_allocated, CTR_SBA_ALLOCATED) CREATE_COUNT_INLINE(sba_freed, CTR_SBA_FREED) CREATE_COUNT_INLINE(sba_timedout, CTR_SBA_TIMEDOUT) CREATE_COUNT_INLINE(llc_timedout_frame, CTR_LLC_FRAME_TIMEDOUT); CREATE_COUNT_INLINE(llc_dropped_frame, CTR_LLC_FRAME_DROPPED); CREATE_COUNT_INLINE(llc_frame_sched, CTR_LLC_FRAME_SCHED); CREATE_COUNT_ADD_INLINE(llc_dl_bytes, CTR_LLC_DL_BYTES); CREATE_COUNT_ADD_INLINE(llc_ul_bytes, CTR_LLC_UL_BYTES); CREATE_COUNT_INLINE(rach_frame, CTR_RACH_REQUESTS); CREATE_COUNT_INLINE(spb_uplink_first_segment, CTR_SPB_UL_FIRST_SEGMENT); CREATE_COUNT_INLINE(spb_uplink_second_segment, CTR_SPB_UL_SECOND_SEGMENT); CREATE_COUNT_INLINE(spb_downlink_first_segment, CTR_SPB_DL_FIRST_SEGMENT); CREATE_COUNT_INLINE(spb_downlink_second_segment, CTR_SPB_DL_SECOND_SEGMENT); CREATE_COUNT_INLINE(rach_frame_11bit, CTR_11BIT_RACH_REQUESTS); CREATE_COUNT_INLINE(immediate_assignment_ul_tbf, CTR_IMMEDIATE_ASSIGN_UL_TBF); CREATE_COUNT_INLINE(immediate_assignment_reject, CTR_IMMEDIATE_ASSIGN_REJ); CREATE_COUNT_INLINE(immediate_assignment_dl_tbf, CTR_IMMEDIATE_ASSIGN_DL_TBF); CREATE_COUNT_INLINE(channel_request_description, CTR_CHANNEL_REQUEST_DESCRIPTION); CREATE_COUNT_INLINE(pkt_ul_assignment, CTR_PKT_UL_ASSIGNMENT); CREATE_COUNT_INLINE(pkt_access_reject, CTR_PKT_ACCESS_REJ); CREATE_COUNT_INLINE(pkt_dl_assignemnt, CTR_PKT_DL_ASSIGNMENT); CREATE_COUNT_INLINE(rlc_rcvd_control, CTR_RLC_RECV_CONTROL); CREATE_COUNT_INLINE(pua_poll_timedout, CTR_PUA_POLL_TIMEDOUT); CREATE_COUNT_INLINE(pua_poll_failed, CTR_PUA_POLL_FAILED); CREATE_COUNT_INLINE(pda_poll_timedout, CTR_PDA_POLL_TIMEDOUT); CREATE_COUNT_INLINE(pda_poll_failed, CTR_PDA_POLL_FAILED); CREATE_COUNT_INLINE(pkt_ul_ack_nack_poll_timedout, CTR_PUAN_POLL_TIMEDOUT); CREATE_COUNT_INLINE(pkt_ul_ack_nack_poll_failed, CTR_PUAN_POLL_FAILED); CREATE_COUNT_INLINE(pkt_dl_ack_nack_poll_timedout, CTR_PDAN_POLL_TIMEDOUT); CREATE_COUNT_INLINE(pkt_dl_ack_nack_poll_failed, CTR_PDAN_POLL_FAILED); CREATE_COUNT_INLINE(gprs_dl_cs1, CTR_GPRS_DL_CS1); CREATE_COUNT_INLINE(gprs_dl_cs2, CTR_GPRS_DL_CS2); CREATE_COUNT_INLINE(gprs_dl_cs3, CTR_GPRS_DL_CS3); CREATE_COUNT_INLINE(gprs_dl_cs4, CTR_GPRS_DL_CS4); CREATE_COUNT_INLINE(egprs_dl_mcs1, CTR_EGPRS_DL_MCS1); CREATE_COUNT_INLINE(egprs_dl_mcs2, CTR_EGPRS_DL_MCS2); CREATE_COUNT_INLINE(egprs_dl_mcs3, CTR_EGPRS_DL_MCS3); CREATE_COUNT_INLINE(egprs_dl_mcs4, CTR_EGPRS_DL_MCS4); CREATE_COUNT_INLINE(egprs_dl_mcs5, CTR_EGPRS_DL_MCS5); CREATE_COUNT_INLINE(egprs_dl_mcs6, CTR_EGPRS_DL_MCS6); CREATE_COUNT_INLINE(egprs_dl_mcs7, CTR_EGPRS_DL_MCS7); CREATE_COUNT_INLINE(egprs_dl_mcs8, CTR_EGPRS_DL_MCS8); CREATE_COUNT_INLINE(egprs_dl_mcs9, CTR_EGPRS_DL_MCS9); CREATE_COUNT_INLINE(gprs_ul_cs1, CTR_GPRS_UL_CS1); CREATE_COUNT_INLINE(gprs_ul_cs2, CTR_GPRS_UL_CS2); CREATE_COUNT_INLINE(gprs_ul_cs3, CTR_GPRS_UL_CS3); CREATE_COUNT_INLINE(gprs_ul_cs4, CTR_GPRS_UL_CS4); CREATE_COUNT_INLINE(egprs_ul_mcs1, CTR_EGPRS_UL_MCS1); CREATE_COUNT_INLINE(egprs_ul_mcs2, CTR_EGPRS_UL_MCS2); CREATE_COUNT_INLINE(egprs_ul_mcs3, CTR_EGPRS_UL_MCS3); CREATE_COUNT_INLINE(egprs_ul_mcs4, CTR_EGPRS_UL_MCS4); CREATE_COUNT_INLINE(egprs_ul_mcs5, CTR_EGPRS_UL_MCS5); CREATE_COUNT_INLINE(egprs_ul_mcs6, CTR_EGPRS_UL_MCS6); CREATE_COUNT_INLINE(egprs_ul_mcs7, CTR_EGPRS_UL_MCS7); CREATE_COUNT_INLINE(egprs_ul_mcs8, CTR_EGPRS_UL_MCS8); CREATE_COUNT_INLINE(egprs_ul_mcs9, CTR_EGPRS_UL_MCS9); #undef CREATE_COUNT_INLINE #define CREATE_STAT_INLINE(func_name, func_name_get, stat_name) \ inline void BTS::func_name(int32_t val) {\ osmo_stat_item_set(m_statg->items[stat_name], val); \ } \ inline int32_t BTS::func_name_get() {\ return osmo_stat_item_get_last(m_statg->items[stat_name]); \ } CREATE_STAT_INLINE(ms_present, ms_present_get, STAT_MS_PRESENT); #undef CREATE_STAT_INLINE inline gprs_rlcmac_bts *gprs_rlcmac_pdch::bts_data() const { return trx->bts->bts_data(); } inline uint8_t gprs_rlcmac_pdch::trx_no() const { return trx->trx_no; } #endif #ifdef __cplusplus extern "C" { #endif struct gprs_rlcmac_bts *bts_main_data(); struct rate_ctr_group *bts_main_data_stats(); struct osmo_stat_item_group *bts_main_data_stat_items(); #ifdef __cplusplus } inline bool gprs_rlcmac_pdch::is_enabled() const { return m_is_enabled; } #endif