view src/cs/layer1/include/l1_proto.h @ 624:012028896cfb

FFS dev.c, Leonardo target: Fujitsu MB84VF5F5F4J2 #if 0'ed out The FFS code we got from TI/Openmoko had a stanza for "Fujitsu MB84VF5F5F4J2 stacked device", using a fake device ID code that would need to be patched manually into cfgffs.c (suppressing and overriding autodetection) and using an FFS base address in the nCS2 bank, indicating that this FFS config was probably meant for the MCP version of Leonardo which allows for 16 MiB flash with a second bank on nCS2. We previously had this FFS config stanza conditionalized under CONFIG_TARGET_LEONARDO because the base address contained therein is invalid for other targets, but now that we actually have a Leonardo build target in FC Magnetite, I realize that the better approach is to #if 0 out this stanza altogether: it is already non-functional because it uses a fake device ID code, thus it is does not add support for more Leonardo board variants, instead it is just noise.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 22 Dec 2019 21:24:29 +0000
parents 945cf7f506b2
children
line wrap: on
line source

/************* Revision Controle System Header *************
 *                  GSM Layer 1 software
 * L1_PROTO.H
 *
 *        Filename l1_proto.h
 *  Copyright 2003 (C) Texas Instruments
 *
 ************* Revision Controle System Header *************/

/**************************************/
/* prototypes of L1_SYNC.C  functions */
/**************************************/
void  hisr                        (void);

void  frit_task                   (UWORD32 argc, void *argv);
void  l1s_task                    (UWORD32 argc, void *argv);
void  l1s_synch                   (void);

void  l1s_task_scheduler_process  (void);
void  l1s_execute_frame           (void);
void  l1s_meas_manager            (void);
void  l1s_end_manager             (void);
void  l1s_schedule_tasks          (WORD32 *pending_task);
void  l1s_merge_manager           (WORD32 dl_pending_task);

void  l1s_dedicated_mode_manager  (void);

/**************************************/
/* prototypes of L1_PWMGR.C functions */
/**************************************/
void  l1s_sleep_manager           (void);
void l1s_gauging_task             (void);
void  l1s_gauging_task_end        (void);
WORD32 l1s_get_next_gauging_in_Packet_Idle(void);
void  l1s_wakeup                  (void);
void  l1s_wakeup_adjust           (void);
void  GAUGING_Handler             (void);
UWORD8 l1s_recover_Os             (void);
UWORD8 l1s_check_System           (void);
void  l1s_recover_Frame           (void);
void l1s_recover_HWTimers         (void);
BOOL l1s_compute_wakeup_ticks     (void);

/**************************************/
/* prototypes of L1_MFMGR.C functions */
/**************************************/
void  l1s_clear_mftab             (T_FRM *frmlst);
void  l1s_exec_mftab              (void);
void  l1s_load_mftab              (const T_FCT *fct,
                                   const UWORD8 size,
                                   UWORD8 frame,
                                   T_FRM  *frmlst);

/**************************************/
/* prototypes of L1_CMPLX.C functions */
/**************************************/
void  l1s_new_synchro             (UWORD8 param1, UWORD8 param2);
void  l1s_abort                   (UWORD8 param1, UWORD8 param2);
void  l1s_ctrl_ADC                (UWORD8 param1, UWORD8 param2);

void  l1s_ctrl_msagc              (UWORD8 task,   UWORD8 param2);
void  l1s_ctrl_fb                 (UWORD8 param1, UWORD8 param2);
void  l1s_ctrl_fb26               (UWORD8 task,   UWORD8 param2);
void  l1s_ctrl_sbgen              (UWORD8 task,   UWORD8 attempt);
void  l1s_ctrl_sb26               (UWORD8 task,   UWORD8 param2);

void  l1s_ctrl_smscb              (UWORD8 task,   UWORD8 burst_id);

void  l1s_ctrl_snb_dl             (UWORD8 task, UWORD8 param2);
void  l1s_ctrl_snb_ul             (UWORD8 task, UWORD8 param2);
void  l1s_ctrl_nnb                (UWORD8 task, UWORD8 param2);

void  l1s_ctrl_rach               (UWORD8 task,   UWORD8 param2);
void  l1s_ctrl_tchtf              (UWORD8 task,   UWORD8 param2);
void  l1s_ctrl_tchth              (UWORD8 task,   UWORD8 param2);
void  l1s_ctrl_tchtd              (UWORD8 task,   UWORD8 param2);
void  l1s_ctrl_tcha               (UWORD8 task,   UWORD8 param2);
void  l1s_hopping_algo            (UWORD8 param1, UWORD8 param2);

void  l1s_ctrl_hwtest             (UWORD8 task, UWORD8 param2);
void  l1s_read_hwtest             (UWORD8 task, UWORD8 param2);

void  l1s_read_dummy              (UWORD8 task, UWORD8 param2);
void  l1s_read_msagc              (UWORD8 task, UWORD8 param2);
void  l1s_read_mon_result         (UWORD8 task, UWORD8 param2);

void  l1s_read_rx_result          (UWORD8 param1, UWORD8 attempt_for_sb2);

void  l1s_read_snb_dl             (UWORD8 task, UWORD8 burst_id);
void  l1s_read_nnb                (UWORD8 task, UWORD8 param);
void  l1s_read_dedic_dl           (UWORD8 task, UWORD8 burst_id);

void  l1s_read_tx_result          (UWORD8 param1, UWORD8 param2);
void  l1s_read_dedic_scell_meas   (UWORD8 meas,   UWORD8 sub_flag);
void  l1s_dedic_reporting         (void);

void  l1s_read_fb                 (UWORD8 task, UWORD32 fb_flag, UWORD32 toa, UWORD32 attempt,
                                   UWORD32 pm,  UWORD32 angle,   UWORD32 snr);
void  l1s_read_sb                 (UWORD8  task,UWORD32 flag,    API *data, UWORD32 toa, UWORD8 attempt,
                                   UWORD32 pm,  UWORD32 angle,   UWORD32 snr);
void  l1s_read_sacch_dl           (API *info_address, UWORD32 task_rx);
void  l1s_read_dcch_dl            (API *info_address, UWORD32 task_rx);
void  l1s_read_l3frm              (UWORD8 pwr_level, API *info_address, UWORD32 task_rx);


/**************************************/
/* prototypes of L1_AFUNC functions   */
/**************************************/
void           l1a_reset_full_list            (void);
void           l1a_reset_ba_list              (void);
void           l1a_add_time_for_nb            (UWORD32 *time_alignmt, UWORD32 *fn_offset);
void           l1a_add_timeslot               (UWORD32 *time_alignmt, UWORD32 *fn_offset, UWORD8 tn);
void           l1a_sub_time_for_nb            (UWORD32 *time_alignmt, UWORD32 *fn_offset);
void           l1a_sub_timeslot               (UWORD32 *time_alignmt, UWORD32 *fn_offset, UWORD8 tn);

T_DEDIC_SET   *l1a_get_free_dedic_set         (void);
void           l1a_fill_bef_sti_param         (T_DEDIC_SET *set_ptr, BOOL start_time_present);
WORD32         l1a_decode_starting_time       (T_STARTING_TIME coded_starting_time);
void           l1a_reset_cell_info            (T_CELL_INFO *cell_info);
void           l1a_send_confirmation          (UWORD32 SignalCode,UWORD8 queue_type);
void           l1a_send_result                (UWORD32 SignalCode, xSignalHeaderRec *msg, UWORD8 queue);
UWORD8         l1a_encode_rxqual              (UWORD32 inlevel);
void           l1a_report_failling_ncell_sync (UWORD32 SignalCode, UWORD8 neigh_id);
UWORD8         l1a_clip_txpwr                 (UWORD8 supplied_txpwr, UWORD16 radio_freq);
void           l1a_correct_timing             (UWORD8 neigh_id,UWORD32 time_alignmt,UWORD32 fn_offset);
void           l1a_add_time_delta             (UWORD32 *time_alignmt, UWORD32 *fn_offset, WORD32 delta);
void           l1a_compensate_sync_ind        (T_MPHC_NCELL_SYNC_IND * msg);
void           l1a_compute_Eotd_data          (UWORD8 *first_scell, UWORD8 neigh_id, UWORD32 SignalCode, xSignalHeaderRec *msg);
#if (L1_MPHC_RXLEV_IND_REPORT_SORT==1)
void           l1a_sort_freq_reported_in_rxlev_ind(T_POWER_ARRAY *data_tab,UWORD16 data_tab_size,UWORD16 *index_tab,UWORD16 index_tab_size);
#endif

/**************************************/
/* prototypes of L1_FUNC functions    */
/**************************************/
void            dsp_power_on                (void);
#if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3))
   void         l1_abb_power_on              (void);
#endif
void            tpu_init                    (void);

void            l1s_reset_db_mcu_to_dsp     (T_DB_MCU_TO_DSP *page_ptr);
void            l1s_reset_db_dsp_to_mcu     (T_DB_DSP_TO_MCU *page_ptr);
void            initialize_l1var            (void);
void            l1_initialize               (T_MMI_L1_CONFIG *mmi_l1_config);
void            l1_pwr_mgt_init             (void);
void            l1_dpll_init_var            (void);

void            l1s_increment_time          (T_TIME_INFO *time, UWORD32 fn_offset);
WORD16          l1s_encode_rxlev            (UWORD8 inlevel);
void            l1s_send_ho_finished        (UWORD8  cause);
void            l1s_reset_dedic_serving_meas(void);
UWORD32         l1s_swap_iq_dl              (UWORD16 radio_freq, UWORD8 task);
UWORD32         l1s_swap_iq_ul              (UWORD16 radio_freq, UWORD8 task);
UWORD8          l1s_ADC_decision_on_NP      (void);
#if (AMR == 1)
UWORD8          l1s_amr_get_ratscch_type    (API *a_ratscch_dl);
void            l1s_amr_update_from_ratscch (API *a_ratscch_dl);
#endif


/**************************************/
/* prototypes of L1_DRIVE functions   */
/**************************************/
// MCU-DSP interface drivers.
//---------------------------
void   l1ddsp_load_info           (UWORD32   task,
                                   API       *info_ptr,
                                   UWORD8    *data);
void   l1ddsp_load_monit_task     (API       monit_task,
                                   API       fb_mode);
void   l1ddsp_load_afc            (API       afc);
void   l1ddsp_load_rx_task        (API       rx_task,
                                   UWORD8    burst_id,
                                   UWORD8    tsq);
void   l1ddsp_load_tx_task        (API       tx_task,
                                   UWORD8    burst_id,
                                   UWORD8    tsq);
void   l1ddsp_load_ra_task        (API       ra_task);


void   l1ddsp_load_txpwr          (UWORD8           txpwr,
                                   UWORD16          radio_freq);
#if (AMR == 1)
  #if (FF_L1_TCH_VOCODER_CONTROL == 1)
    // Add the AMR synchro bit in the driver's paramters
    void   l1ddsp_load_tch_param      (T_TIME_INFO      *next_time,
                                       UWORD8           chan_mode,
                                       UWORD8           chan_type,
                                       UWORD8           subchannel,
                                       UWORD8           tch_loop,
                                       UWORD8           sync_tch,
                                       UWORD8           sync_amr,
                                       UWORD8           reset_sacch,
                                       UWORD8           vocoder_on);
  #else
    void   l1ddsp_load_tch_param      (T_TIME_INFO      *next_time,
                                       UWORD8           chan_mode,
                                       UWORD8           chan_type,
                                       UWORD8           subchannel,
                                       UWORD8           tch_loop,
                                       UWORD8           sync_tch,
                                       UWORD8           sync_amr);
  #endif
#else
  #if (FF_L1_TCH_VOCODER_CONTROL == 1)
    void   l1ddsp_load_tch_param      (T_TIME_INFO      *next_time,
                                       UWORD8           chan_mode,
                                       UWORD8           chan_type,
                                       UWORD8           subchannel,
                                       UWORD8           tch_loop,
                                       UWORD8           sync_tch,
                                       UWORD8           reset_sacch,
                                       UWORD8           vocoder_on);
  #else
    void   l1ddsp_load_tch_param      (T_TIME_INFO      *next_time,
                                       UWORD8           chan_mode,
                                       UWORD8           chan_type,
                                       UWORD8           subchannel,
                                       UWORD8           tch_loop,
                                       UWORD8           sync_tch);
  #endif
#endif

BOOL enable_tch_vocoder           (BOOL             vocoder_on);

BOOL   l1_select_mcsi_port            (UWORD8           port);

void   l1ddsp_load_ciph_param     (UWORD8           a5mode,
                                   T_ENCRYPTION_KEY *ciph_key);
void   l1ddsp_load_tch_mode       (UWORD8           dai_mode,
                                   BOOL             dtx_allowed);
#if (AMR == 1)
void l1ddsp_load_amr_param          (T_AMR_CONFIGURATION amr_param, UWORD8 cmip);
#endif

void   l1ddsp_stop_tch            (void);


// MCU-TPU interface drivers.
//---------------------------
void l1dtpu_meas                  (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off,
                                   UWORD16   win_id,
                                   UWORD16  tpu_synchro,
                                   UWORD8   adc_active);
void l1dtpu_neig_fb               (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off);
void l1dtpu_neig_fb26             (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off,
                                   UWORD32  offset_serv);
void l1dtpu_neig_sb               (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off,
                                   UWORD32  time_alignmt,
                                   UWORD32  offset_serv,
                                   UWORD8   reload_flag,
                                   UWORD8   attempt);
void l1dtpu_neig_sb26             (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off,
                                   UWORD32  time_alignmt,
                                   UWORD32  fn_offset,
                                   UWORD32  offset_serv);
void l1dtpu_serv_rx_nb            (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off,
                                   UWORD32  synchro_serv,
                                   UWORD32  new_offset,
                                   BOOL     change_offset,
                                   UWORD8   adc_active);
void l1dtpu_serv_tx_nb            (UWORD16  radio_freq,
                                   UWORD8   timing_advance,
                                   UWORD32  offset_serv,
                                   UWORD8   txpwr,
                                   UWORD8   adc_active);
void l1dtpu_neig_rx_nb            (UWORD16  radio_freq,
                                   WORD8    agc,
                                   UWORD8   lna_off,
                                   UWORD32  time_alignmt,
                                   UWORD32  offset_serv,
                                   UWORD8   reload_flag,
                                   UWORD8   nop);
void l1dtpu_serv_tx_ra            (UWORD16  radio_freq,
                                   UWORD32  offset_serv,
                                   UWORD8   txpwr,
                                   UWORD8   adc_active);

// MCU-DSP interface drivers for POWER-ON.
//----------------------------------------
void l1dtpu_init_dpram            (UWORD8   process);

// MCU-DSP interface drivers for RESET.
//-------------------------------------
void l1ddsp_end_scenario          (UWORD8 type);
void l1dtpu_end_scenario          (void);
void l1d_reset_hw                 (UWORD32 offset_value);



/**************************************/
/* Prototypes for L1 ASYNCH task      */
/**************************************/

void  l1a_task                                   (UWORD32 argc, void *argv);
void  l1a_balance_l1a_tasks                      (void);

void  l1a_mmi_adc_req                            (xSignalHeaderRec *msg);
void  l1a_network_lost                           (xSignalHeaderRec *msg);
void  l1a_idle_6strongest_monitoring_process     (xSignalHeaderRec *msg);
void  l1a_idle_serving_cell_bcch_reading_process (xSignalHeaderRec *msg);
void  l1a_idle_serving_cell_paging_process       (xSignalHeaderRec *msg);
void  l1a_idle_smscb_process                     (xSignalHeaderRec *msg);
void  l1a_initial_network_sync_process           (xSignalHeaderRec *msg);
void  l1a_cres_process                           (xSignalHeaderRec *msg);
void  l1a_dedic_ba_list_meas_process             (xSignalHeaderRec *msg);

void  l1a_full_list_meas_process      (xSignalHeaderRec *msg);
void  l1a_csel_bcch_process           (xSignalHeaderRec *msg);

void  l1a_idle_serv_meas_process      (xSignalHeaderRec *msg);

void  l1a_idle_neigh_meas_process     (xSignalHeaderRec *msg);
void  l1a_idle_neigh_full_bcch_process(xSignalHeaderRec *msg);
void  l1a_idle_neigh_norm_bcch_process(xSignalHeaderRec *msg);
void  l1a_idle_neigh_ext_bcch_process (xSignalHeaderRec *msg);
void  l1a_idle_6conf_process          (xSignalHeaderRec *msg);

void  l1a_idle_smscb_process          (xSignalHeaderRec *msg);

void  l1a_access_process              (xSignalHeaderRec *msg);
void  l1a_dedicated_process           (xSignalHeaderRec *msg);
void  l1a_dedic_bcch_process          (xSignalHeaderRec *msg);
void  l1a_dedic6_process              (xSignalHeaderRec *msg);
void  l1a_dedic_neigh_meas_process    (xSignalHeaderRec *msg);

void  l1a_idle_ba_list_meas_process   (xSignalHeaderRec *msg);
void  l1a_idle_full_list_meas_process (xSignalHeaderRec *msg);
void  l1a_test_process                (xSignalHeaderRec *msg);
void  l1a_freq_band_configuration     (xSignalHeaderRec *msg);

#if (OP_L1_STANDALONE == 1)
// Dynamic configuration process for L1 standalone only
  void   l1a_test_config_process        (xSignalHeaderRec *msg);
#endif

// ...................NEW FOR ALR....................
void  l1a_neighbour_cell_bcch_reading_process (xSignalHeaderRec *msg);
// ...................NEW FOR ALR....................

/**************************************/
/* Prototypes for l3 task             */
/**************************************/
void  l3_task                         (UWORD32 argc, void *argv);
void  l3_expire_fct                   (UWORD32 id);

#if TESTMODE
  void  mmi_task                      (UWORD32 argc, void *argv);
#endif





/**************************************/
/* Prototypes for Nu_main.            */
/**************************************/
UWORD32            get_arm_version (void);
void               usart_hisr      (void);
void               Adc_timer       (UWORD32 id);
/**************************************/
/* Prototypes for l2 task             */
/**************************************/
T_RADIO_FRAME  *dll_read_dcch     (UWORD8  chn_mode);
T_RADIO_FRAME  *dll_read_sacch    (UWORD8  chn_mode);
void           l2_task            (UWORD32 argc, void *argv);

#if (DSP_BACKGROUND_TASKS == 1)
// Task for backgrounds DSP testing
void background_task(UWORD32 argc, void *argv);
#endif

void           rx_tch_data        (API     *data_address,
                                   UWORD8  channel_mode,
                                   UWORD8  blk_seq_number);
UWORD8           *tx_tch_data     (void);

#if (SEND_FN_TO_L2_IN_DCCH==1)
void           dll_dcch_downlink  (API     *info_address,
                                   UWORD8  valid_flag, 
                                   UWORD32 frame_number);
#else
void           dll_dcch_downlink  (API     *info_address,
                                   UWORD8  valid_flag);
#endif

/***************************************/
/* Prototypes of L1_TRACE.c functions  */
/***************************************/
void l1_trace_message          (xSignalHeaderRec *msg);
void send_debug_sig            (UWORD8 debug_code, UWORD8 task);
void l1_trace_cpu_load         (UWORD8 cpu_load);
void l1_trace_ratscch(UWORD16 fn, UWORD16 amr_change_bitmap);

#if (TRACE_TYPE==7) // CPU_LOAD
void l1_cpu_load_start          (void);
void l1_cpu_load_stop           (void);
void l1_cpu_load_init           (void);
void l1_cpu_load_interm         (void);
#endif

/***************************************/
/* Prototypes of HW_DEBUG.c functions  */
/***************************************/
void  get_usart_characters        (void);  // HISR for Rx characters
void  wait_for_next_message       (CHAR *);

/***************************************/
/* Prototypes of L1_DEBUG.c functions  */
/***************************************/
void scenario_and_log_files   (void);
void decode_msg               (xSignalHeaderRec *msg, CHAR *filename);
void trace_mft                (CHAR *fct_name, WORD32 frame);
#if (L1_EOTD ==1)
  void trace_EOTD_serving     (UWORD16 arfcn, UWORD32 timetag, CHAR *text);
  void trace_EOTD_serving1    (CHAR *text);
  void trace_EOTD_neighbour   (UWORD8 nbr, UWORD16 arfcn, UWORD32 delta_fn, WORD32 delta_qbit,
                                 UWORD32 timetag, CHAR *text);
#endif
void trace_ULPD               (CHAR *text, UWORD32 frame_number);
void log_fct                  (CHAR *fct_name, UWORD32 radio_freq);
void trace_msg                (CHAR *msg_name, CHAR *queue_name);
void log_msg                  (CHAR *msg_name, CHAR *queue_name);
void trace_dedic              (void);
void trace_fct_simu           (CHAR *fct_name, WORD32 radio_freq);
void trace_flowchart_msg      (CHAR *msg_name, CHAR *dest_queue_name);
void trace_flowchart_l1tsk    (UWORD32 bit_register, UWORD32 *src_register_set);
void trace_flowchart_dedic    (WORD32 SignalCode);
void trace_flowchart_tpu      (CHAR *task_name);
void trace_flowchart_dsp      (CHAR *task_name);
void trace_flowchart_dsp_tpu  (CHAR *task_name);
void trace_flowchart_dspres   (CHAR *task_name);
void trace_flowchart_dsptx    (CHAR *task_name);
void trace_flowchart_header   (void);
void trace_sim_freq_band_configuration  (UWORD8 freq_band_config);

/**************************************/
/* prototypes of control functions    */
/**************************************/
#if (VCXO_ALGO == 0)
WORD16 l1ctl_afc                 (UWORD8  phase,
                                 UWORD32  *frame_count,
                                 WORD16   angle,
                                 WORD32   snr,
                                 UWORD16  radio_freq);
#else
WORD16 l1ctl_afc                 (UWORD8  phase,
                                 UWORD32  *frame_count,
                                 WORD16   angle,
                                 WORD32   snr,
                                 UWORD16  radio_freq,
                                 UWORD32  l1_mode);
#endif
WORD16 l1ctl_toa                 (UWORD8  phase,
                                 UWORD32  l1_mode,
                                 UWORD16  SNR_val,
                                 UWORD16  TOA_val,
                                 BOOL     *toa_update,
                                 UWORD16  *toa_period_count);
UWORD8 l1ctl_txpwr             (UWORD8    target_txpwr,
                                 UWORD8   current_txpwr);

// Utility for agc control algorithms

void l1ctl_encode_lna  (UWORD8  input_level,
                        UWORD8  * lna_state,
                        UWORD16 radio_freq);
UWORD8 l1ctl_find_max  (UWORD8  *buff,
                        UWORD8  buffer_len);
// Automatic Gain Control Algorithms
void l1ctl_pgc2          (UWORD8        pm_high_agc,
                          UWORD8        pm_low_agc,
                          UWORD16       radio_freq);
UWORD8 l1ctl_csgc        (UWORD8        pm,
                          UWORD16       radio_freq);
UWORD8 l1ctl_pgc         (UWORD8        pm,
                          UWORD8        used_IL,
                          UWORD8        lna_off,
                          UWORD16       radio_freq);
UWORD8 l1ctl_pagc        (UWORD8        pm,
                          UWORD16       radio_freq,
                          T_INPUT_LEVEL *traffic_meas_ptr);
UWORD8 l1ctl_dpagc       (BOOL          dtx_on,
                          BOOL          beacon,
                          UWORD8        pm,
                          UWORD16       radio_freq,
                          T_INPUT_LEVEL *traffic_meas_ptr);
#if (AMR == 1)
  UWORD8 l1ctl_dpagc_amr   (BOOL          dtx_on,
                            BOOL          beacon,
                            UWORD8        pm,
                            UWORD16       radio_freq,
                            T_INPUT_LEVEL *traffic_meas_ptr);
#endif

UWORD16 l1ctl_get_g_magic (UWORD16 radio_freq);
UWORD16 l1ctl_get_lna_att (UWORD16 radio_freq);
void    l1ctl_update_TPU_with_toa(void);

//functions for customization
void Cust_init_std         (void);
void Cust_init_params      (void);
WORD8 Cust_get_agc_from_IL (UWORD16 radio_freq, UWORD16 agc_index, UWORD8 table_id);
WORD8 l1ctl_encode_delta1  (UWORD16 radio_freq);
WORD8 l1ctl_encode_delta2  (UWORD16 radio_freq);
void Cust_get_ramp_tab     (API *a_ramp, UWORD8 txpwr_ramp_up, UWORD8 txpwr_ramp_down, UWORD16 radio_freq);
#if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3))
  UWORD16 Cust_get_pwr_data(UWORD8 txpwr, UWORD16 radio_freq);
#endif