FreeCalypso > hg > fc-magnetite
view src/cs/layer1/p_cfile/l1p_func.c @ 486:c433cca731a3
doc/Modem-configs: hybrid fw status update
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Thu, 21 Jun 2018 17:30:42 +0000 |
parents | 0740b5ff15f6 |
children |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * L1P_FUNC.C * * Filename l1p_func.c * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ #define L1P_FUNC_C #include "l1_macro.h" #include "l1_confg.h" #if L1_GPRS #if (CODE_VERSION == SIMULATION) #include "stddef.h" #endif #include "l1_types.h" #include "sys_types.h" #include "l1_const.h" #if TESTMODE #include "l1tm_defty.h" #endif #if (AUDIO_TASK == 1) #include "l1audio_const.h" #include "l1audio_cust.h" #include "l1audio_defty.h" #endif #if (L1_GTT == 1) #include "l1gtt_const.h" #include "l1gtt_defty.h" #endif #if (L1_MP3 == 1) #include "l1mp3_defty.h" #endif #if (L1_MIDI == 1) #include "l1midi_defty.h" #endif #include "l1_defty.h" #include "l1_varex.h" #include "cust_os.h" #include "l1_msgty.h" #include "l1_time.h" #include "l1p_cons.h" #include "l1p_msgt.h" #include "l1p_deft.h" #include "l1p_vare.h" #include "l1p_sign.h" #if(RF_FAM == 61) #include "l1_rf61.h" #include "tpudrv61.h" #endif #if (CODE_VERSION == SIMULATION) #include "l1_rf2.h" #endif /*-------------------------------------------------------*/ /* Prototypes of external functions used in this file. */ /*-------------------------------------------------------*/ void l1pddsp_meas_ctrl (UWORD8 nbmeas, UWORD8 pm_pos); void l1dtpu_meas (UWORD16 radio_freq,WORD8 agc,UWORD8 lna_off, UWORD16 win_id,UWORD16 tpu_synchro, UWORD8 adc_active #if (RF_FAM == 61) ,UWORD8 afc_mode ,UWORD8 if_ctl #endif ); WORD8 Cust_get_agc_from_IL (UWORD16 radio_freq, UWORD16 agc_index, UWORD8 table_id); void l1ps_macs_init (void); /*-------------------------------------------------------*/ /* initialize_l1pvar() */ /*-------------------------------------------------------*/ /* Parameters : */ /* ------------- */ /* Return : */ /* ------------- */ /* Description : */ /* ------------- */ /* This routine is used to initialize the l1pa, l1ps and */ /* l1pa_l1ps_com global structures. */ /*-------------------------------------------------------*/ void initialize_l1pvar(void) { UWORD8 i; //++++++++++++++++++++++++++++++++++++++++++ // Reset "l1ps" structure. //++++++++++++++++++++++++++++++++++++++++++ l1ps.last_PR_good = 0; l1ps.ILmin_beacon = 255; #if 0 /* FreeCalypso TCS211 reconstruction */ l1ps.read_param.assignment_id = 0xFF; /* do not return non initialized value to RLC */ #endif for(i = 0; i < 8; i++) l1ps.ILmin_others[i] = l1_config.params.il_min; //++++++++++++++++++++++++++++++++++++++++++ // Reset "l1pa" structure. //++++++++++++++++++++++++++++++++++++++++++ for(i=0;i<NBR_L1PA_PROCESSES;i++) { l1pa.state[i] = 0; l1pa.l1pa_en_meas[i] = 0; } //++++++++++++++++++++++++++++++++++++++++++ // Reset "l1pa_l1ps_com" structure. //++++++++++++++++++++++++++++++++++++++++++ // Initialize PC_MEAS_CHAN flag l1ps.pc_meas_chan_ctrl = FALSE; // Initialize active list used in Neighbour Measurement Transfer Process l1pa_l1ps_com.cres_freq_list.alist = &(l1pa_l1ps_com.cres_freq_list.list[0]); // Initialize parameters used in Neighbour Measurement Transfer Process l1pa_l1ps_com.cres_freq_list.alist->nb_carrier = 0; l1pa_l1ps_com.tcr_freq_list.new_list_present = FALSE; l1pa_l1ps_com.transfer.semaphore = TRUE; l1pa_l1ps_com.transfer.aset = &(l1pa_l1ps_com.transfer.set[0]); l1pa_l1ps_com.transfer.fset[0] = &(l1pa_l1ps_com.transfer.set[1]); l1pa_l1ps_com.transfer.fset[1] = &(l1pa_l1ps_com.transfer.set[2]); // Initialize Downlink Power Control Struture. Set CRC to BAD, bcch_level // and burst_level[] to INVALID. l1pa_l1ps_com.transfer.dl_pwr_ctrl.crc_error = TRUE; l1pa_l1ps_com.transfer.dl_pwr_ctrl.bcch_level = (WORD8)0x80;//omaps00090550 for(i = 0; i < 4; i++) { l1pa_l1ps_com.transfer.dl_pwr_ctrl.burst_level[i] = (WORD8)0x80;//omaps00090550 } l1pa_l1ps_com.transfer.set[0].ul_tbf_alloc = &(l1pa_l1ps_com.transfer.ul_tbf_alloc[0]); l1pa_l1ps_com.transfer.set[1].ul_tbf_alloc = &(l1pa_l1ps_com.transfer.ul_tbf_alloc[1]); l1pa_l1ps_com.transfer.set[2].ul_tbf_alloc = &(l1pa_l1ps_com.transfer.ul_tbf_alloc[2]); for(i=0;i<3;i++) { l1pa_l1ps_com.transfer.set[i].SignalCode = 0; l1pa_l1ps_com.transfer.set[i].dl_tbf_synchro_timeslot = 0; l1pa_l1ps_com.transfer.set[i].dl_tbf_synchro_timeslot = 0; l1pa_l1ps_com.transfer.set[i].transfer_synchro_timeslot = 0; l1pa_l1ps_com.transfer.set[i].allocated_tbf = NO_TBF; l1pa_l1ps_com.transfer.set[i].assignment_command = NO_TBF; l1pa_l1ps_com.transfer.set[i].multislot_class = 0; l1pa_l1ps_com.transfer.set[i].packet_ta.ta = 255; l1pa_l1ps_com.transfer.set[i].packet_ta.ta_index = 255; l1pa_l1ps_com.transfer.set[i].packet_ta.ta_tn = 255; l1pa_l1ps_com.transfer.set[i].tsc = 0; l1pa_l1ps_com.transfer.set[i].freq_param.chan_sel.h = 0; l1pa_l1ps_com.transfer.set[i].freq_param.chan_sel. rf_channel.single_rf.radio_freq = 0; l1pa_l1ps_com.transfer.set[i].tbf_sti.present = FALSE; l1pa_l1ps_com.transfer.set[i].mac_mode = 0; l1pa_l1ps_com.transfer.set[i].ul_tbf_alloc->tfi = 255; l1pa_l1ps_com.transfer.set[i].dl_tbf_alloc.tfi = 255; l1pa_l1ps_com.transfer.set[i].dl_pwr_ctl.p0 = 255; l1pa_l1ps_com.transfer.set[i].dl_pwr_ctl.bts_pwr_ctl_mode = 0; l1pa_l1ps_com.transfer.set[i].dl_pwr_ctl.pr_mode = 0; } //++++++++++++++++++++++++++++++++++++++++++ // Reset "l1pa_macs_com" structure. //++++++++++++++++++++++++++++++++++++++++++ l1ps_macs_com.fix_alloc_exhaust_flag = FALSE; l1ps_macs_com.rlc_downlink_call = FALSE; #if FF_L1_IT_DSP_USF l1ps_macs_com.usf_status = USF_AVAILABLE; #endif #if L1_EDA l1ps_macs_com.fb_sb_task_enabled = FALSE; l1ps_macs_com.fb_sb_task_detect = FALSE; #endif //++++++++++++++++++++++++++++++++++++++++++ // Reset MAC-S static structure. //++++++++++++++++++++++++++++++++++++++++++ l1ps_macs_init(); //++++++++++++++++++++++++++++++++++++++++++ // Reset packet transfer mode commands. //++++++++++++++++++++++++++++++++++++++++++ l1pa_l1ps_com.transfer.ptcch.ta_update_cmd = FALSE; l1pa_l1ps_com.transfer.psi_param.psi_param_update_cmd = FALSE; l1pa_l1ps_com.transfer.tbf_release_param.tbf_release_cmd = FALSE; l1pa_l1ps_com.transfer.pdch_release_param.pdch_release_cmd = FALSE; l1pa_l1ps_com.transfer.repeat_alloc.repeat_allocation = FALSE; } /*-------------------------------------------------------*/ /* l1ps_reset_db_mcu_to_dsp() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : */ /*-------------------------------------------------------*/ void l1ps_reset_db_mcu_to_dsp(T_DB_MCU_TO_DSP_GPRS *page_ptr) { API i; API size = sizeof(T_DB_MCU_TO_DSP_GPRS) / sizeof(API); API *ptr = (API *)page_ptr; // Clear all locations. for(i=0; i<size; i++) *ptr++ = 0; } /*-------------------------------------------------------*/ /* l1ps_reset_db_dsp_to_mcu() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : */ /*-------------------------------------------------------*/ void l1ps_reset_db_dsp_to_mcu(T_DB_DSP_TO_MCU *page_ptr) { API i; API size = sizeof(T_DB_DSP_TO_MCU_GPRS) / sizeof(API); API *ptr = (API *)page_ptr; // Clear all locations. for(i=0; i<size; i++) *ptr++ = 0; // Set crc result as "SB not found". page_ptr->a_sch[0] = (1<<B_SCH_CRC); // B_SCH_CRC =1, BLUD =0 } /*-------------------------------------------------------*/ /* l1ps_swap_iq_dl() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : */ /*-------------------------------------------------------*/ BOOL l1ps_swap_iq_dl(UWORD16 radio_freq) { UWORD8 swap_iq; BOOL swap_flag; #if (L1_FF_MULTIBAND == 0) if(((l1_config.std.id == DUAL) || (l1_config.std.id == DUALEXT) || (l1_config.std.id == DUAL_US)) && (radio_freq >= l1_config.std.first_radio_freq_band2)) { swap_iq = l1_config.std.swap_iq_band2; } else { swap_iq = l1_config.std.swap_iq_band1; } #else // L1_FF_MULTIBAND = 1 below UWORD16 physical_band_id; physical_band_id = l1_multiband_radio_freq_convert_into_physical_band_id(radio_freq); swap_iq = rf_band[physical_band_id].swap_iq; #endif // #if (L1_FF_MULTIBAND == 0) else switch(swap_iq) { case 0: /* No swap at all. */ case 2: /* DL, no swap. */ swap_flag = FALSE; break; case 1: /* DL I/Q swap. */ case 3: /* DL I/Q swap. */ swap_flag = TRUE; break; } return(swap_flag); } /*-------------------------------------------------------*/ /* l1ps_swap_iq_ul() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : */ /*-------------------------------------------------------*/ BOOL l1ps_swap_iq_ul(UWORD16 radio_freq) { UWORD8 swap_iq; BOOL swap_flag; #if (L1_FF_MULTIBAND == 0) if(((l1_config.std.id == DUAL) || (l1_config.std.id == DUALEXT) || (l1_config.std.id == DUAL_US)) && (radio_freq >= l1_config.std.first_radio_freq_band2)) { swap_iq = l1_config.std.swap_iq_band2; } else { swap_iq = l1_config.std.swap_iq_band1; } #else // L1_FF_MULTIBAND = 1 below UWORD16 physical_band_id = 0; physical_band_id = l1_multiband_radio_freq_convert_into_physical_band_id(radio_freq); swap_iq = rf_band[physical_band_id].swap_iq; #endif // #if (L1_FF_MULTIBAND == 0) else switch(swap_iq) { case 0: /* No swap at all. */ case 1: /* UL, no swap. */ swap_flag = FALSE; break; case 2: /* UL I/Q swap. */ case 3: /* UL I/Q swap. */ swap_flag = TRUE; break; } return(swap_flag); } /*-------------------------------------------------------*/ /* l1ps_tcr_ctrl() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : */ /*-------------------------------------------------------*/ void l1ps_tcr_ctrl(UWORD8 pm_position) { UWORD16 radio_freq_ctrl; UWORD8 lna_off; WORD8 agc; UWORD8 mode = PACKET_TRANSFER; UWORD8 input_level; #if (RF_FAM == 61) UWORD16 dco_algo_ctl_pw = 0; UWORD8 if_ctl = 0; UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GSM; #endif radio_freq_ctrl = l1pa_l1ps_com.cres_freq_list.alist->freq_list[l1pa_l1ps_com.tcr_freq_list.tcr_next_to_ctrl]; // Get AGC according to the last known IL. input_level = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].input_level; agc = Cust_get_agc_from_IL(radio_freq_ctrl, input_level >> 1, PWR_ID); lna_off = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].lna_off; #if (RF_FAM == 61) // Locosto DCO #if (PWMEAS_IF_MODE_FORCE == 0) cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw, &if_ctl, (UWORD8) L1_IL_VALID , input_level, l1pa_l1ps_com.p_idle_param.radio_freq, if_threshold); #else if_ctl = IF_120KHZ_DSP; dco_algo_ctl_pw = DCO_IF_0KHZ; #endif l1ddsp_load_dco_ctl_algo_pw(dco_algo_ctl_pw); l1s.tcr_prog_done=1; #endif // Memorize the IL and LNA used for AGC setting. l1pa_l1ps_com.tcr_freq_list.used_il_lna.il = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].input_level; l1pa_l1ps_com.tcr_freq_list.used_il_lna.lna = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].lna_off; // tpu pgm: 1 measurement only. l1dtpu_meas(radio_freq_ctrl, agc, lna_off, l1s.tpu_win, l1s.tpu_offset,INACTIVE #if(RF_FAM == 61) ,L1_AFC_SCRIPT_MODE ,if_ctl #endif ); // Increment tpu window identifier. l1s.tpu_win += (l1_config.params.rx_synth_load_split + PWR_LOAD); // increment carrier counter for next measurement... if(++l1pa_l1ps_com.tcr_freq_list.tcr_next_to_ctrl >= l1pa_l1ps_com.cres_freq_list.alist->nb_carrier) l1pa_l1ps_com.tcr_freq_list.tcr_next_to_ctrl = 0; // Program DSP, in order to performed 1 measure. // Second argument specifies PW position. l1pddsp_meas_ctrl(1, pm_position); #if (TRACE_TYPE!=0) //trace_fct(CST_CTRL_TRANSFER_MEAS, radio_freq_ctrl); #endif // Update d_debug timer l1s_dsp_com.dsp_db_w_ptr->d_debug = (l1s.debug_time + 2) ; // Flag measurement control. // ************************** // Set flag "ms_ctrl" to nb_meas_to_perform. // It will be used as 2 tdma delayed to trigger Read phase. l1pa_l1ps_com.tcr_freq_list.ms_ctrl = 1; // Flag DSP and TPU programmation. // ******************************** // Set "CTRL_MS" flag in the controle flag register. l1s.tpu_ctrl_reg |= CTRL_MS; l1s.dsp_ctrl_reg |= CTRL_MS; } /*-------------------------------------------------------*/ /* l1ps_bcch_meas_ctrl() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : */ /*-------------------------------------------------------*/ void l1ps_bcch_meas_ctrl(UWORD8 ts) { UWORD8 lna_off; WORD8 agc; UWORD8 mode = PACKET_TRANSFER; UWORD8 input_level; #if (RF_FAM == 61) UWORD16 dco_algo_ctl_pw =0; UWORD8 if_ctl=0; UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GSM; #endif if ((l1s.dsp_ctrl_reg & CTRL_ABORT) == 0) { #define radio_freq_ctrl l1a_l1s_com.Scell_info.radio_freq // Get AGC according to the last known IL. input_level = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].input_level; agc = Cust_get_agc_from_IL(radio_freq_ctrl, input_level >> 1, PWR_ID); lna_off = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].lna_off; // Memorize the IL and LNA used for AGC setting. // Note: the same structure as for TCR meas is used for PC_MEAS_CHAN measurements l1pa_l1ps_com.tcr_freq_list.used_il_lna.il = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].input_level; l1pa_l1ps_com.tcr_freq_list.used_il_lna.lna = l1a_l1s_com.last_input_level[radio_freq_ctrl - l1_config.std.radio_freq_index_offset].lna_off; #if (RF_FAM == 61) // Locosto DCO cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw, &if_ctl, (UWORD8) L1_IL_VALID, input_level, radio_freq_ctrl,if_threshold); l1ddsp_load_dco_ctl_algo_pw(dco_algo_ctl_pw); #endif // tpu pgm: 1 measurement only. l1dtpu_meas(radio_freq_ctrl, agc, lna_off, l1s.tpu_win, l1s.tpu_offset,INACTIVE #if(RF_FAM == 61) ,L1_AFC_SCRIPT_MODE ,if_ctl #endif ); // Increment tpu window identifier. l1s.tpu_win += (l1_config.params.rx_synth_load_split + PWR_LOAD); // Program DSP, in order to performed 1 measure. // Second argument specifies PW position. l1pddsp_meas_ctrl(1, (UWORD8)ts); #if (TRACE_TYPE!=0) && (TRACE_TYPE!=5) //trace_fct(CST_CTRL_SCELL_TRANSFER_MEAS, radio_freq_ctrl); #endif // Update d_debug timer l1s_dsp_com.dsp_db_w_ptr->d_debug = (l1s.debug_time + 2) ; // Flag measurement control. // ************************** l1ps.pc_meas_chan_ctrl = TRUE; // Flag DSP and TPU programmation. // ******************************** // Set "CTRL_MS" flag in the controle flag register. l1s.tpu_ctrl_reg |= CTRL_MS; l1s.dsp_ctrl_reg |= CTRL_MS; } } /*-------------------------------------------------------*/ /* l1ps_update_read_set_parameters() */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* Functionality : Updating of the "Read_param" structure*/ /* usefull in case the aset structure has been updated */ /* before the last read of the current block */ /*-------------------------------------------------------*/ void l1ps_update_read_set_parameters(void) { #define READ_PARAM l1ps.read_param #define ASET l1pa_l1ps_com.transfer.aset // Copy of the "aset" parameters in the "read_param" structure #if 0 /* FreeCalypso TCS211 reconstruction */ READ_PARAM.dl_tn = l1a_l1s_com.dl_tn; #endif READ_PARAM.new_set = 0; READ_PARAM.assignment_id = ASET->assignment_id; READ_PARAM.allocated_tbf = ASET->allocated_tbf; READ_PARAM.dl_tfi = ASET->dl_tbf_alloc.tfi; READ_PARAM.ul_tfi = ASET->ul_tbf_alloc->tfi; READ_PARAM.dl_pwr_ctl = ASET->dl_pwr_ctl; READ_PARAM.pc_meas_chan = ASET->pc_meas_chan; // We need to know on which frequency band we work for LNA state processing if (!l1pa_l1ps_com.transfer.aset->freq_param.chan_sel.h) { // Single frequency READ_PARAM.radio_freq_for_lna = l1pa_l1ps_com.transfer.aset->freq_param.chan_sel.rf_channel.single_rf.radio_freq; } else { // Frequency hopping: all frequencies of the frequency list are on the same band // We take the first frequency of the list READ_PARAM.radio_freq_for_lna = l1pa_l1ps_com.transfer.aset->freq_param.freq_list.rf_chan_no.A[0]; } } #endif