FreeCalypso > hg > fc-magnetite
diff src/cs/layer1/tm_cust0/l1tm_cust.c @ 234:b870b6a44d31
l1audio and l1tm reconstructed source imported from tcs211-l1-reconst
| author | Mychaela Falconia <falcon@freecalypso.org> |
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| date | Mon, 20 Mar 2017 00:51:20 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/cs/layer1/tm_cust0/l1tm_cust.c Mon Mar 20 00:51:20 2017 +0000 @@ -0,0 +1,1190 @@ +/************* Revision Controle System Header ************* + * GSM Layer 1 software + * L1TM_CUST.C + * + * Filename %M% + * Version %I% + * Date %G% + * + ************* Revision Controle System Header *************/ + +#include "l1_confg.h" +#if TESTMODE + +#include "tm_defs.h" +#include "l1_const.h" +#include "l1_types.h" + +#include "l1tm_defty.h" +#include "l1tm_cust.h" + +#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 +#include "l1_defty.h" +#include "l1_msgty.h" +#include "l1_tabs.h" + +#include "l1tm_msgty.h" +#include "l1tm_varex.h" + +#include "abb.h" + +#if (RF==35) + #include "tpudrv35.h" + #include "l1_rf35.h" +#endif + +#if (RF==12) + #include "tpudrv12.h" + #include "l1_rf12.h" +#endif + +#if (RF==10) + #include "tpudrv10.h" + #include "l1_rf10.h" +#endif + +#if (RF==8) + #include "tpudrv8.h" + #include "l1_rf8.h" +#endif + +#if (RF==2) + #include "l1_rf2.h" +#endif + +#include <string.h> + +// Import band configuration from Flash module (need to replace by an access function) +//extern UWORD8 std; +extern T_L1_CONFIG l1_config; +extern T_RF rf; +extern T_RF_BAND rf_band[GSM_BANDS]; +extern UWORD16 AGC_TABLE[AGC_TABLE_SIZE]; +extern T_ADC adc; +extern T_ADCCAL adc_cal; +extern UWORD16 TM_ul_data[16]; //Uplink data to be stored into ABB Uplink buffer +extern T_STD_CONFIG std_config[]; +static UWORD8 tm_band = 0; + +// External function prototypes +void get_cal_from_nvmem (UWORD8 *ptr, UWORD16 len, UWORD8 id); +UWORD8 save_cal_in_nvmem (UWORD8 *ptr, UWORD16 len, UWORD8 id); +void Cust_init_std(void); +void l1_tpu_init_light(void); + +enum { + TM_RF_ID = 0, + TM_ADC_ID = 1 +}; + +typedef signed char effs_t; +// external FFS function prototypes +effs_t ffs_mkdir(const char *pathname); +void config_ffs_write(char type); + +/***********************************************************************/ +/* TESTMODE 4.X */ +/***********************************************************************/ + + +/*----------------------------------------------------------*/ +/* Cust_tm_init() */ +/*----------------------------------------------------------*/ +/* Parameters : */ +/* Return : */ +/* Functionality : Init default configuration for TM params */ +/*----------------------------------------------------------*/ + +void Cust_tm_init(void) +{ + UWORD32 i; + + l1_config.adc_enable = ADC_ENABLE; // ADC readings enabled + l1_config.agc_enable = AGC_ENABLE; // AGC algo enabled + l1_config.afc_enable = AFC_ENABLE; // AFC algo enabled + l1_config.tmode.rf_params.bcch_arfcn = TM_BCCH_ARFCN; + l1_config.tmode.rf_params.tch_arfcn = TM_TCH_ARFCN; + l1_config.tmode.rf_params.mon_arfcn = TM_MON_ARFCN; + l1_config.tmode.rf_params.channel_type = TM_CHAN_TYPE; // TCH_F + l1_config.tmode.rf_params.subchannel = TM_SUB_CHAN; + l1_config.tmode.rf_params.reload_ramps_flag = 0; + l1_config.tmode.rf_params.tmode_continuous = TM_NO_CONTINUOUS; + l1_config.tmode.rx_params.slot_num = TM_SLOT_NUM; // Time Slot + l1_config.tmode.rx_params.agc = TM_AGC_VALUE; //This may be outside the range of the RF chip used + l1_config.tmode.rx_params.pm_enable = TM_PM_ENABLE; + l1_config.tmode.rx_params.lna_off = TM_LNA_OFF; + l1_config.tmode.rx_params.number_of_measurements = TM_NUM_MEAS; + l1_config.tmode.rx_params.place_of_measurement = TM_WIN_MEAS; + l1_config.tmode.tx_params.txpwr = TM_TXPWR; // Min power level for GSM900 + l1_config.tmode.tx_params.txpwr_skip = TM_TXPWR_SKIP; + l1_config.tmode.tx_params.timing_advance = TM_TA; + l1_config.tmode.tx_params.burst_type = TM_BURST_TYPE; // default is normal up-link burst + l1_config.tmode.tx_params.burst_data = TM_BURST_DATA; // default is all zeros + l1_config.tmode.tx_params.tsc = TM_TSC; // Training Sequence ("BCC" on BSS) + #if (CODE_VERSION != SIMULATION) + l1_config.tmode.stats_config.num_loops = TM_NUM_LOOPS; // 0 actually means infinite + #else + l1_config.tmode.stats_config.num_loops = 4; // 0 actually means infinite + #endif + l1_config.tmode.stats_config.auto_result_loops = TM_AUTO_RESULT_LOOPS; // 0 actually means infinite + l1_config.tmode.stats_config.auto_reset_loops = TM_AUTO_RESET_LOOPS; // 0 actually means infinite + l1_config.tmode.stats_config.stat_type = TM_STAT_TYPE; + l1_config.tmode.stats_config.stat_bitmask = TM_STAT_BITMASK; + + #if (CODE_VERSION != SIMULATION) + // Initialize APCDEL1 register of Omega + ABB_Write_Register_on_page(PAGE0, APCDEL1, (C_APCDEL1 - 0x0004) >> 6); + #endif + + l1tm.tm_msg_received = FALSE; + + for (i=0;i<16;i++) + TM_ul_data[i]=0; + + #if L1_GPRS + l1_config.tmode.rf_params.pdtch_arfcn = TM_PDTCH_ARFCN; + l1_config.tmode.rf_params.multislot_class = TM_MULTISLOT_CLASS; + l1_config.tmode.stats_config.stat_gprs_slots = TM_STAT_GPRS_SLOTS; + l1_config.tmode.rx_params.timeslot_alloc = TM_RX_ALLOCATION; + l1_config.tmode.rx_params.coding_scheme = TM_RX_CODING_SCHEME; + l1_config.tmode.tx_params.timeslot_alloc = TM_TX_ALLOCATION; + l1_config.tmode.tx_params.coding_scheme = TM_TX_CODING_SCHEME; + for (i=0; i<8; i++) + l1_config.tmode.tx_params.txpwr_gprs[i] = TM_TXPWR_GPRS; + + for (i=0; i<27; i++) + l1_config.tmode.tx_params.rlc_buffer[i] = 0; + #endif +} + + +/**********************************************************************/ +/* Test mode functions used for RF calibration */ +/**********************************************************************/ + +void Cust_tm_rf_param_write(T_TM_RETURN *tm_return, WORD16 index, UWORD16 value) +{ + switch (index) + { + case STD_BAND_FLAG: + { + UWORD8 std_temp, band_temp; + + std_temp = value & 0xff; // tm_band = b7..0 of value + band_temp = value >> 8; // band = b15..8 of value + // get define + //if (sizeof(std_config)/sizeof(T_STD_CONFIG) <= std_temp) + if (9 <= std_temp) // std max + { + tm_return->status = E_BADINDEX; + break; + } + else if ( GSM_BANDS <= band_temp) + { + tm_return->status = E_BADINDEX; + break; + } + else if ( BAND_NONE == std_config[std_temp].band[band_temp]) + { + tm_return->status = E_BADINDEX; + break; + } + else + { + l1_config.std.id = std_temp; + tm_band = band_temp; + // update RAM struct with either default or ffs + Cust_init_std(); + l1_tpu_init_light(); + tm_return->status = E_OK; + break; + } + } + + case INITIAL_AFC_DAC: + { + rf.afc.eeprom_afc = (WORD16) value << 3; // shift to put into F13.3 format + l1_config.params.eeprom_afc = rf.afc.eeprom_afc; + + tm_return->status = E_OK; + break; + } + default: + { + tm_return->status = E_BADINDEX; + break; + } + } // end switch +} + +void Cust_tm_rf_param_read(T_TM_RETURN *tm_return, WORD16 index) +{ + volatile UWORD16 value; + + switch (index) + { + case STD_BAND_FLAG: + { + value = ((tm_band << 8) | (l1_config.std.id) ); // return global std, tm_band (intel format) + break; + } + case INITIAL_AFC_DAC: + { + value = rf.afc.eeprom_afc >> 3; // returned as F13.3 + break; + } + default: + { + tm_return->size = 0; + tm_return->status = E_BADINDEX; + return; + } + } // end switch + + memcpy(tm_return->result, (UWORD8 *)&value, 2); + tm_return->size = 2; + tm_return->status = E_OK; +} + +void Cust_tm_rf_table_write(T_TM_RETURN *tm_return, WORD8 index, UWORD8 size, UWORD8 table[]) +{ + UWORD8 band=0; + + tm_return->index = index; // store index before it gets modified + tm_return->size = 0; + + switch (index) + { + case RX_AGC_TABLE: + { + if (size != sizeof(AGC_TABLE)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&AGC_TABLE[0], table, size); + tm_return->status = E_OK; + break; + } + case AFC_PARAMS: + { + + #if (VCXO_ALGO == 1) + if (size != 24) // 4 UWORD32 + 4 WORD16 values + #else + if (size != 16) // 4 UWORD32 values + #endif + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf.afc.psi_sta_inv, table, size); + l1_config.params.psi_sta_inv = rf.afc.psi_sta_inv; + l1_config.params.psi_st = rf.afc.psi_st; + l1_config.params.psi_st_32 = rf.afc.psi_st_32; + l1_config.params.psi_st_inv = rf.afc.psi_st_inv; + + #if (CODE_VERSION == NOT_SIMULATION) + #if (VCXO_ALGO == 1) + l1_config.params.afc_dac_center = rf.afc.dac_center; + l1_config.params.afc_dac_min = rf.afc.dac_min; + l1_config.params.afc_dac_max = rf.afc.dac_max; + l1_config.params.afc_snr_thr = rf.afc.snr_thr; + #endif + #endif + + tm_return->status = E_OK; + break; + } + case RX_AGC_GLOBAL_PARAMS: + { + if (size != 8) // 4 UWORD16 values + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf.rx.agc.low_agc_noise_thr, table, size); + l1_config.params.low_agc_noise_thr = rf.rx.agc.low_agc_noise_thr; + l1_config.params.high_agc_sat_thr = rf.rx.agc.high_agc_sat_thr; + l1_config.params.low_agc = rf.rx.agc.low_agc; + l1_config.params.high_agc = rf.rx.agc.high_agc; + + tm_return->status = E_OK; + break; + } + case RX_IL_2_AGC_MAX: + { + if (size != sizeof(rf.rx.agc.il2agc_max)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf.rx.agc.il2agc_max[0], table, size); + tm_return->status = E_OK; + break; + } + case RX_IL_2_AGC_PWR: + { + if (size != sizeof(rf.rx.agc.il2agc_pwr)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf.rx.agc.il2agc_pwr[0], table, size); + tm_return->status = E_OK; + break; + } + case RX_IL_2_AGC_AV: + { + if (size != sizeof(rf.rx.agc.il2agc_av)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf.rx.agc.il2agc_av[0], table, size); + tm_return->status = E_OK; + break; + } + case TX_LEVELS: + { + if (size != sizeof(rf_band[tm_band].tx.levels)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf_band[tm_band].tx.levels[0], table, size); + tm_return->status = E_OK; + break; + } + case TX_CAL_CHAN: // generic for all bands + { + if (size != sizeof(rf_band[tm_band].tx.chan_cal_table)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf_band[tm_band].tx.chan_cal_table[0][0], table, size); + tm_return->status = E_OK; + break; + } + case TX_CAL_TEMP: // generic for all bands + { + if (size != sizeof(rf_band[tm_band].tx.temp)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf_band[tm_band].tx.temp[0], table, size); + tm_return->status = E_OK; + break; + } + case RX_CAL_CHAN: // generic for all bands + { + if (size != sizeof(rf_band[tm_band].rx.agc_bands)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf_band[tm_band].rx.agc_bands[0], table, size); + tm_return->status = E_OK; + break; + } + case RX_CAL_TEMP: // generic for all bands + { + if (size != sizeof(rf_band[tm_band].rx.temp)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf_band[tm_band].rx.temp[0], table, size); + tm_return->status = E_OK; + break; + } + case RX_AGC_PARAMS: + { + if (size != sizeof(rf_band[tm_band].rx.rx_cal_params)) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&rf_band[tm_band].rx.rx_cal_params, table, size); + if (tm_band == 0) + { + l1_config.std.g_magic_band1 = rf_band[tm_band].rx.rx_cal_params.g_magic; + l1_config.std.lna_att_band1 = rf_band[tm_band].rx.rx_cal_params.lna_att; + l1_config.std.lna_switch_thr_low_band1 = rf_band[tm_band].rx.rx_cal_params.lna_switch_thr_low; + l1_config.std.lna_switch_thr_high_band1 = rf_band[tm_band].rx.rx_cal_params.lna_switch_thr_high; + } + else if (tm_band == 1) + { + l1_config.std.g_magic_band2 = rf_band[tm_band].rx.rx_cal_params.g_magic; + l1_config.std.lna_att_band2 = rf_band[tm_band].rx.rx_cal_params.lna_att; + l1_config.std.lna_switch_thr_low_band2 = rf_band[tm_band].rx.rx_cal_params.lna_switch_thr_low; + l1_config.std.lna_switch_thr_high_band2 = rf_band[tm_band].rx.rx_cal_params.lna_switch_thr_high; + } + else + { + tm_return->status = E_INVAL; + break; + } + + tm_return->status = E_OK; + break; + } + case TX_CAL_EXTREME: + case RX_CAL_LEVEL: + { + tm_return->status = E_NOSUBSYS; + break; + } + #if L1_GPRS + case RLC_TX_BUFFER_CS1: + case RLC_TX_BUFFER_CS2: + case RLC_TX_BUFFER_CS3: + case RLC_TX_BUFFER_CS4: + { + UWORD8 i, buffer_size; + + tm_return->index = index; // store index before it gets modified + tm_return->size = 0; + + buffer_size = size/2 + size%2; // bytes will be concatenated into UWORD16 + + if (buffer_size > 27) //max. number of data bytes + { + tm_return->status = E_BADSIZE; + break; + } + + // make sure that last byte is zero in case of odd number of bytes + table[size] = 0; + + // init the whole buffer before downloading new data + for (i=0; i<27; i++) + l1_config.tmode.tx_params.rlc_buffer[i] = 0; + + for (i=0; i<buffer_size; i++) + { + l1_config.tmode.tx_params.rlc_buffer[i] = (table[2*i+1] << 8) | table[2*i]; + } + l1_config.tmode.tx_params.rlc_buffer_size = buffer_size; + + tm_return->status = E_OK; + break; + } + #endif + case TX_DATA_BUFFER: + { + UWORD8 i; + + tm_return->index = index; // store index before it gets modified + tm_return->size = 0; + + if (size != 32) // 16 UWORD16 (containing 10 data bits each) + { + tm_return->status = E_BADSIZE; + break; + } + + memcpy(&TM_ul_data, table, size); + + for (i=0; i<16; i++) + { + TM_ul_data[i] = TM_ul_data[i] << 6; + } + + tm_return->status = E_OK; + break; + } + default: + { + tm_return->status = E_BADINDEX; + break; + } + } // end switch +} + +void Cust_tm_rf_table_read(T_TM_RETURN *tm_return, WORD8 index) +{ + switch (index) + { + case RX_AGC_TABLE: + { + tm_return->size = sizeof(AGC_TABLE); + memcpy(tm_return->result, &AGC_TABLE[0], tm_return->size); + break; + } + case AFC_PARAMS: + { + #if (VCXO_ALGO == 1) + tm_return->size = 24; // 4 UWORD32's + 4 WORD16 + #else + tm_return->size = 16; // 4 UWORD32's + #endif + memcpy(tm_return->result, &rf.afc.psi_sta_inv, tm_return->size); + break; + } + case RX_AGC_GLOBAL_PARAMS: + { + tm_return->size = 8; // 4 UWORD16's + memcpy(tm_return->result, &rf.rx.agc.low_agc_noise_thr, tm_return->size); + + break; + } + case RX_IL_2_AGC_MAX: + { + tm_return->size = sizeof(rf.rx.agc.il2agc_max); + memcpy(tm_return->result, &rf.rx.agc.il2agc_max[0], tm_return->size); + break; + } + case RX_IL_2_AGC_PWR: + { + tm_return->size = sizeof(rf.rx.agc.il2agc_pwr); + memcpy(tm_return->result, &rf.rx.agc.il2agc_pwr[0], tm_return->size); + break; + } + case RX_IL_2_AGC_AV: + { + tm_return->size = sizeof(rf.rx.agc.il2agc_av); + memcpy(tm_return->result, &rf.rx.agc.il2agc_av[0], tm_return->size); + break; + } + case TX_LEVELS: + { + tm_return->size = sizeof(rf_band[tm_band].tx.levels); + memcpy(tm_return->result, &rf_band[tm_band].tx.levels[0], tm_return->size); + break; + } + case TX_CAL_CHAN: // generic for all bands + { + tm_return->size = sizeof(rf_band[tm_band].tx.chan_cal_table); + memcpy(tm_return->result, &rf_band[tm_band].tx.chan_cal_table[0][0], tm_return->size); + break; + } + case TX_CAL_TEMP: // generic for all bands + { + tm_return->size = sizeof(rf_band[tm_band].tx.temp); + memcpy(tm_return->result, &rf_band[tm_band].tx.temp[0], tm_return->size); + break; + } + case RX_CAL_CHAN: // generic for all bands + { + tm_return->size = sizeof(rf_band[tm_band].rx.agc_bands); + memcpy(tm_return->result, &rf_band[tm_band].rx.agc_bands[0], tm_return->size); + break; + } + case RX_CAL_TEMP: // generic for all bands + { + tm_return->size = sizeof(rf_band[tm_band].rx.temp); + memcpy(tm_return->result, &rf_band[tm_band].rx.temp[0], tm_return->size); + break; + } + case RX_AGC_PARAMS: + { + // WARNING: sizeof(rf.rx.rx_cal_params[band]) returns 12 because of alignment + tm_return->size = 10; // five UWORD16's + memcpy(tm_return->result, &rf_band[tm_band].rx.rx_cal_params, tm_return->size); + break; + } + case TX_CAL_EXTREME: + case RX_CAL_LEVEL: + { + tm_return->size = 0; + tm_return->status = E_NOSUBSYS; + return; + } + + #if L1_GPRS + case RLC_TX_BUFFER_CS1: + case RLC_TX_BUFFER_CS2: + case RLC_TX_BUFFER_CS3: + case RLC_TX_BUFFER_CS4: + { + tm_return->size = l1_config.tmode.tx_params.rlc_buffer_size * 2; // UWORD16's + memcpy(tm_return->result, &l1_config.tmode.tx_params.rlc_buffer[0], tm_return->size); + break; + } + #endif + + case TX_DATA_BUFFER: + { + UWORD8 i; + for (i=0; i<16; i++) + { + tm_return->result[2*i]=(TM_ul_data[i] >> 6) & 0x00FF; + tm_return->result[2*i+1]=(TM_ul_data[i] >> 14) & 0x0003; + } + + tm_return->size = 32; //16*UWORD16 + break; + } + + #if (RF==35) + case RX_PLL_TUNING_TABLE: + { + tm_return->size = sizeof(pll_tuning); //6*UWORD16 + memcpy(tm_return->result, &pll_tuning, tm_return->size); + pll_tuning.enable = 0; + break; + } + #endif + + default: + { + tm_return->size = 0; + tm_return->status = E_BADINDEX; + return; + } + } // end switch + + tm_return->index = index; + tm_return->status = E_OK; +} + +void Cust_tm_rx_param_write(T_TM_RETURN *tm_return, WORD16 index, UWORD16 value) +{ + switch (index) + { + case RX_FRONT_DELAY: + { + //delay for dual band not implemented yet + rf.tx.prg_tx = value; + l1_config.params.prg_tx_gsm = rf.tx.prg_tx; + l1_config.params.prg_tx_dcs = rf.tx.prg_tx; + + tm_return->status = E_OK; + break; + } + default: + { + tm_return->status = E_BADINDEX; + break; + } + } // end switch +} + +void Cust_tm_rx_param_read(T_TM_RETURN *tm_return, WORD16 index) +{ + volatile UWORD16 value; + + switch (index) + { + case RX_FRONT_DELAY: + { + value = rf.tx.prg_tx; + break; + } + default: + { + tm_return->status = E_BADINDEX; + tm_return->size = 0; + return; + } + } // end switch + + memcpy(tm_return->result, (UWORD8 *)&value, 2); + tm_return->size = 2; + tm_return->status = E_OK; +} + +void Cust_tm_tx_param_write(T_TM_RETURN *tm_return, WORD16 index, UWORD16 value, UWORD8 band) +{ + switch (index) + { + case TX_APC_DAC: + { + // generic for all bands + rf_band[tm_band].tx.levels[l1_config.tmode.tx_params.txpwr].apc = value; + + tm_return->status = E_OK; + break; + } + case TX_RAMP_TEMPLATE: + { + if (value >= sizeof(rf_band[tm_band].tx.ramp_tables)/sizeof(rf_band[tm_band].tx.ramp_tables[0])) // [0..15] + { + tm_return->status = E_INVAL; + break; + } + + // generic for all bands + rf_band[tm_band].tx.levels[l1_config.tmode.tx_params.txpwr].ramp_index = value; + + tm_return->status = E_OK; + l1_config.tmode.rf_params.reload_ramps_flag = 1; + break; + } + case TX_CHAN_CAL_TABLE: + { + if (value >= sizeof(rf_band[tm_band].tx.chan_cal_table)/sizeof(rf_band[tm_band].tx.chan_cal_table[0])) + { + tm_return->status = E_INVAL; + break; + } + + // generic for all bands + rf_band[tm_band].tx.levels[l1_config.tmode.tx_params.txpwr].chan_cal_index = value; + + tm_return->status = E_OK; + + break; + } + case TX_BURST_TYPE: + { + if (value > 1) // [0..1] + { + tm_return->status = E_INVAL; + break; + } + l1_config.tmode.tx_params.burst_type = value; + tm_return->status = E_OK; + break; + } + case TX_BURST_DATA: + { + // range is [0..10], currently we support [0..13] at the moment + if (value > 13) + { + tm_return->status = E_INVAL; + break; + } + l1_config.tmode.tx_params.burst_data = value; + tm_return->status = E_OK; + break; + } + case TX_TRAINING_SEQ: + { + if (value > 7) // [0..7] + { + tm_return->status = E_INVAL; + break; + } + l1_config.tmode.tx_params.tsc = value; + tm_return->status = E_OK; + break; + } + default: + { + tm_return->status = E_BADINDEX; + break; + } + } // end switch +} + +void Cust_tm_tx_param_read(T_TM_RETURN *tm_return, WORD16 index, UWORD8 band) +{ + volatile UWORD16 value; + + switch (index) + { + case TX_PWR_LEVEL: + { + value = l1_config.tmode.tx_params.txpwr; + break; + } + case TX_APC_DAC: + { + value = rf_band[tm_band].tx.levels[l1_config.tmode.tx_params.txpwr].apc; + break; + } + case TX_RAMP_TEMPLATE: + { + value = rf_band[tm_band].tx.levels[l1_config.tmode.tx_params.txpwr].ramp_index; + break; + } + case TX_CHAN_CAL_TABLE: + { + value = rf_band[tm_band].tx.levels[l1_config.tmode.tx_params.txpwr].chan_cal_index; + break; + } + case TX_BURST_TYPE: + { + value = l1_config.tmode.tx_params.burst_type; + break; + } + case TX_BURST_DATA: + { + value = l1_config.tmode.tx_params.burst_data; + break; + } + case TX_TIMING_ADVANCE: + { + value = l1_config.tmode.tx_params.timing_advance; + break; + } + case TX_TRAINING_SEQ: + { + value = l1_config.tmode.tx_params.tsc; + break; + } + case TX_PWR_SKIP: + { + value = l1_config.tmode.tx_params.txpwr_skip; + break; + } + #if L1_GPRS + case TX_GPRS_POWER0: + case TX_GPRS_POWER1: + case TX_GPRS_POWER2: + case TX_GPRS_POWER3: + case TX_GPRS_POWER4: + case TX_GPRS_POWER5: + case TX_GPRS_POWER6: + case TX_GPRS_POWER7: + { + value = l1_config.tmode.tx_params.txpwr_gprs[index - TX_GPRS_POWER0]; + break; + } + case TX_GPRS_SLOTS: + { + value = l1_config.tmode.tx_params.timeslot_alloc; + break; + } + case TX_GPRS_CODING: + { + value = l1_config.tmode.tx_params.coding_scheme; + break; + } + #endif + default: + { + tm_return->status = E_BADINDEX; + tm_return->size = 0; + return; + } + } // end switch + + memcpy(tm_return->result, (UWORD8 *)&value, 2); + tm_return->size = 2; + tm_return->status = E_OK; +} + +void Cust_tm_tx_template_write(T_TM_RETURN *tm_return, WORD8 index, UWORD8 size, UWORD8 table[]) +{ + if (index >= sizeof(rf_band[tm_band].tx.ramp_tables)/sizeof(T_TX_RAMP)) + { + tm_return->status = E_BADINDEX; + } + else if (size != sizeof(T_TX_RAMP)) + { + // We are writing both the up and down ramps; size must be exact. + tm_return->status = E_BADSIZE; + } + else + { + memcpy(rf_band[tm_band].tx.ramp_tables[index].ramp_up, &table[0], size/2); + memcpy(rf_band[tm_band].tx.ramp_tables[index].ramp_down, &table[size/2], size/2); + tm_return->status = E_OK; + l1_config.tmode.rf_params.reload_ramps_flag = 1; + } + + tm_return->index = index; + tm_return->size = 0; +} + +void Cust_tm_tx_template_read(T_TM_RETURN *tm_return, WORD8 index) +{ + tm_return->index = index; + + if (index >= sizeof(rf_band[tm_band].tx.ramp_tables)/sizeof(T_TX_RAMP)) + { + tm_return->status = E_BADINDEX; + tm_return->size = 0; + return; + } + + memcpy(&tm_return->result[0], rf_band[tm_band].tx.ramp_tables[index].ramp_up, sizeof(rf_band[tm_band].tx.ramp_tables[index].ramp_up)); + memcpy(&tm_return->result[sizeof(rf_band[tm_band].tx.ramp_tables[index].ramp_up)], rf_band[tm_band].tx.ramp_tables[index].ramp_down, sizeof(rf_band[tm_band].tx.ramp_tables[index].ramp_down)); + tm_return->size = sizeof(rf_band[tm_band].tx.ramp_tables[index]); + tm_return->status = E_OK; +} + +void Cust_tm_misc_param_write(T_TM_RETURN *tm_return, WORD16 index, UWORD16 value) +{ + switch (index) + { + case GPIOSTATE0: + case GPIODIR0: + case GPIOSTATE1: + case GPIODIR1: + case GPIOSTATE0P: + case GPIODIR0P: + case GPIOSTATE1P: + case GPIODIR1P: + { + tm_return->status = E_NOSUBSYS; + break; + } + case CONVERTED_ADC0: + case CONVERTED_ADC1: + case CONVERTED_ADC2: + case CONVERTED_ADC3: + case CONVERTED_ADC4: + case CONVERTED_ADC5: + case CONVERTED_ADC6: + case CONVERTED_ADC7: + case CONVERTED_ADC8: + { + adc.converted[index - CONVERTED_ADC0] = value; + tm_return->status = E_OK; + break; + } + + case RAW_ADC0: + case RAW_ADC1: + case RAW_ADC2: + case RAW_ADC3: + case RAW_ADC4: + case RAW_ADC5: + case RAW_ADC6: + case RAW_ADC7: + case RAW_ADC8: + { + adc.raw[index - RAW_ADC0] = value; + tm_return->status = E_OK; + break; + } + + case ADC0_COEFF_A: + case ADC1_COEFF_A: + case ADC2_COEFF_A: + case ADC3_COEFF_A: + case ADC4_COEFF_A: + case ADC5_COEFF_A: + case ADC6_COEFF_A: + case ADC7_COEFF_A: + case ADC8_COEFF_A: + { + adc_cal.a[index - ADC0_COEFF_A] = value; + tm_return->status = E_OK; + break; + } + + case ADC0_COEFF_B: + case ADC1_COEFF_B: + case ADC2_COEFF_B: + case ADC3_COEFF_B: + case ADC4_COEFF_B: + case ADC5_COEFF_B: + case ADC6_COEFF_B: + case ADC7_COEFF_B: + case ADC8_COEFF_B: + { + adc_cal.b[index - ADC0_COEFF_B] = value; + tm_return->status = E_OK; + break; + } + case SLEEP_MODE: + { + tm_return->status = E_NOSUBSYS; + break; + } + default: + { + tm_return->status = E_BADINDEX; + break; + } + } // end switch +} + +void Cust_tm_misc_param_read(T_TM_RETURN *tm_return, WORD16 index) +{ + volatile UWORD16 value; + + switch (index) + { + case GPIOSTATE0: + case GPIODIR0: + case GPIOSTATE1: + case GPIODIR1: + case GPIOSTATE0P: + case GPIODIR0P: + case GPIOSTATE1P: + case GPIODIR1P: + { + tm_return->status = E_NOSUBSYS; + tm_return->size = 0; + return; + } + case CONVERTED_ADC0: + case CONVERTED_ADC1: + case CONVERTED_ADC2: + case CONVERTED_ADC3: + case CONVERTED_ADC4: + case CONVERTED_ADC5: + case CONVERTED_ADC6: + case CONVERTED_ADC7: + case CONVERTED_ADC8: + { + value = adc.converted[index - CONVERTED_ADC0]; + break; + } + case RAW_ADC0: + case RAW_ADC1: + case RAW_ADC2: + case RAW_ADC3: + case RAW_ADC4: + case RAW_ADC5: + case RAW_ADC6: + case RAW_ADC7: + case RAW_ADC8: + { + value = adc.raw[index - RAW_ADC0]; + break; + } + case ADC0_COEFF_A: + case ADC1_COEFF_A: + case ADC2_COEFF_A: + case ADC3_COEFF_A: + case ADC4_COEFF_A: + case ADC5_COEFF_A: + case ADC6_COEFF_A: + case ADC7_COEFF_A: + case ADC8_COEFF_A: + { + value = adc_cal.a[index - ADC0_COEFF_A]; + break; + } + case ADC0_COEFF_B: + case ADC1_COEFF_B: + case ADC2_COEFF_B: + case ADC3_COEFF_B: + case ADC4_COEFF_B: + case ADC5_COEFF_B: + case ADC6_COEFF_B: + case ADC7_COEFF_B: + case ADC8_COEFF_B: + { + value = adc_cal.b[index - ADC0_COEFF_B]; + break; + } + case SLEEP_MODE: + { + tm_return->status = E_NOSUBSYS; + tm_return->size = 0; + return; + } + default: + { + tm_return->status = E_BADINDEX; + tm_return->size = 0; + return; + } + } // end switch + + memcpy(tm_return->result, (UWORD8 *)&value, 2); + tm_return->size = 2; + tm_return->status = E_OK; +} + +void Cust_tm_misc_enable(T_TM_RETURN *tm_return, WORD16 action) +{ + UWORD8 status; + + // FIXME: This enum really should go into testmode header file. + enum ME_CFG_WRITE_E { + CFG_WRITE_MKDIRS = 100, + CFG_WRITE_RF_CAL = 102, + CFG_WRITE_RF_CFG = 103, + CFG_WRITE_TX_CAL = 104, + CFG_WRITE_TX_CFG = 105, + CFG_WRITE_RX_CAL = 106, + CFG_WRITE_RX_CFG = 107, + CFG_WRITE_SYS_CAL = 108, + CFG_WRITE_SYS_CFG = 109 + }; + + tm_return->size = 0; + tm_return->index = action; + tm_return->status = E_OK; + + // FIXME: This code should actually be in misc_enable() + switch(action) + { + case CFG_WRITE_MKDIRS: + ffs_mkdir("/gsm"); + ffs_mkdir("/pcm"); + ffs_mkdir("/sys"); + ffs_mkdir("/mmi"); + ffs_mkdir("/vos"); + ffs_mkdir("/var"); + ffs_mkdir("/gsm/rf"); + ffs_mkdir("/gsm/com"); + ffs_mkdir("/vos/vm"); + ffs_mkdir("/vos/vrm"); + ffs_mkdir("/vos/vrp"); + ffs_mkdir("/var/log"); + ffs_mkdir("/var/tst"); + ffs_mkdir("/gsm/rf/tx"); + ffs_mkdir("/gsm/rf/rx"); + break; + case CFG_WRITE_RF_CAL: config_ffs_write('f'); break; + case CFG_WRITE_RF_CFG: config_ffs_write('F'); break; + case CFG_WRITE_TX_CAL: config_ffs_write('t'); break; + case CFG_WRITE_TX_CFG: config_ffs_write('T'); break; + case CFG_WRITE_RX_CAL: config_ffs_write('r'); break; + case CFG_WRITE_RX_CFG: config_ffs_write('R'); break; + case CFG_WRITE_SYS_CAL: config_ffs_write('s'); break; + case CFG_WRITE_SYS_CFG: config_ffs_write('S'); break; + default: + tm_return->status = E_BADINDEX; + } +} + +void Cust_tm_special_param_write(T_TM_RETURN *tm_return, WORD16 index, UWORD16 value) +{ + tm_return->size = 0; + tm_return->index = index; + tm_return->status = E_NOSYS; +} + +void Cust_tm_special_param_read(T_TM_RETURN *tm_return, WORD16 index) +{ + tm_return->size = 0; + tm_return->index = index; + tm_return->status = E_NOSYS; +} + +void Cust_tm_special_table_write(T_TM_RETURN *tm_return, WORD8 index, UWORD8 size, UWORD8 table[]) +{ + tm_return->size = 0; + tm_return->index = index; + tm_return->status = E_NOSYS; +} + +void Cust_tm_special_table_read(T_TM_RETURN *tm_return, WORD8 index) +{ + tm_return->size = 0; + tm_return->index = index; + tm_return->status = E_NOSYS; +} + +void Cust_tm_special_enable(T_TM_RETURN *tm_return, WORD16 action) +{ + tm_return->size = 0; + tm_return->index = action; + tm_return->status = E_NOSYS; +} + +#endif // TESTMODE