FreeCalypso > hg > freecalypso-tools
view rvinterf/tmsh/l1cmd.c @ 1014:961efadd530a default tip
fc-shell TCH DL handler: add support for CSD modes
TCH DL capture mechanism in FC Tourmaline firmware has been extended
to support CSD modes in addition to speech - add the necessary support
on the host tools side.
It needs to be noted that this mechanism in its present state does NOT
provide the debug utility value that was sought: as we learned only
after the code was implemented, TI's DSP has a misfeature in that the
buffer we are reading (a_dd_0[]) is zeroed out when the IDS block
is enabled, i.e., we are reading all zeros and not the real DL bits
we were after. But since the code has already been written, we are
keeping it - perhaps we can do some tests with IDS disabled.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 26 Nov 2024 06:27:43 +0000 |
| parents | 92c982f67247 |
| children |
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/* * In this module we are going to implement commands which send * TM3 command packets to the L1TM firmware component: RF calibration * and test modes. */ #include <sys/types.h> #include <ctype.h> #include <stdio.h> #include <string.h> #include <strings.h> #include <stdlib.h> #include "pktmux.h" #include "limits.h" #include "localtypes.h" #include "tm3.h" #include "l1tm.h" #include "exitcodes.h" cmd_tminit(argc, argv) char **argv; { u_char cmdpkt[3]; cmdpkt[1] = TM_INIT; send_etm_cmd(cmdpkt, 1); return(0); } cmd_tms(argc, argv) char **argv; { u16 arg; u_char cmdpkt[5]; arg = strtoul(argv[1], 0, 0); cmdpkt[1] = TM_MODE_SET; cmdpkt[2] = arg; cmdpkt[3] = arg >> 8; send_etm_cmd(cmdpkt, 3); return(0); } cmd_tm3ver(argc, argv) char **argv; { u16 arg; u_char cmdpkt[5]; arg = strtoul(argv[1], 0, 16); cmdpkt[1] = VERSION_GET; cmdpkt[2] = arg; cmdpkt[3] = arg >> 8; send_etm_cmd(cmdpkt, 3); return(0); } static is_num_string(argstr) char *argstr; { char *cp = argstr; if (!isdigit(*cp++)) return(0); while (*cp) { if (!isdigit(*cp++)) return(0); } return(1); } struct kwtab { char *kw; int val; }; static keyword_or_num(argstr, kwtab, valp) char *argstr; struct kwtab *kwtab; u16 *valp; { struct kwtab *tp; if (is_num_string(argstr)) { *valp = atoi(argstr); return(0); } for (tp = kwtab; tp->kw; tp++) { if (!strcmp(tp->kw, argstr)) { *valp = tp->val; return(0); } } printf("error: non-numeric argument not understood\n"); return(ERROR_USAGE); } static struct kwtab rfe_arg[] = { {"stop-all", STOP_ALL}, {"rx-tch", RX_TCH}, {"tx-tch", TX_TCH}, {"rx-tx-tch", RX_TX_TCH}, {"rx-tx-pdtch", RX_TX_PDTCH}, {"rx-tch-cont", RX_TCH_CONT}, {"tx-tch-cont", TX_TCH_CONT}, {"bcch-loop", BCCH_LOOP}, {"sb-loop", SB_LOOP}, {"fb1-loop", FB1_LOOP}, {"fb0-loop", FB0_LOOP}, {"single-pm", SINGLE_PM}, {"rx-tx-pdtch-mon", RX_TX_PDTCH_MON}, {"rx-tx-mon-tch", RX_TX_MON_TCH}, {"rx-tx-mon", RX_TX_MON}, {0, 0} }; cmd_rfe(argc, argv) char **argv; { u16 arg; u_char cmdpkt[5]; if (keyword_or_num(argv[1], rfe_arg, &arg)) return(ERROR_USAGE); cmdpkt[1] = RF_ENABLE; cmdpkt[2] = arg; cmdpkt[3] = arg >> 8; send_etm_cmd(cmdpkt, 3); return(0); } static struct kwtab stats_config_arg[] = { {"loops", LOOPS}, {"auto-result-loops", AUTO_RESULT_LOOPS}, {"auto-reset-loops", AUTO_RESET_LOOPS}, {"stat-gprs-slots", STAT_GPRS_SLOTS}, {"stat-type", STAT_TYPE}, {"stat-bitmask", STAT_BITMASK}, {0, 0} }; cmd_scw(argc, argv) char **argv; { u16 index, value; u_char cmdpkt[7]; if (keyword_or_num(argv[1], stats_config_arg, &index)) return(ERROR_USAGE); value = strtoul(argv[2], 0, 0); cmdpkt[1] = STATS_CONFIG_WRITE; cmdpkt[2] = index; cmdpkt[3] = index >> 8; cmdpkt[4] = value; cmdpkt[5] = value >> 8; send_etm_cmd(cmdpkt, 5); return(0); } cmd_scr(argc, argv) char **argv; { u16 index; u_char cmdpkt[5]; if (keyword_or_num(argv[1], stats_config_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = STATS_CONFIG_READ; cmdpkt[2] = index; cmdpkt[3] = index >> 8; send_etm_cmd(cmdpkt, 3); return(0); } static struct kwtab stats_read_arg[] = { {"accum", ACCUMULATED_RX_STATS}, {"most-recent", MOST_RECENT_RX_STATS}, {0, 0} }; cmd_sr(argc, argv) char **argv; { u16 type, bitmask; u_char cmdpkt[7]; if (keyword_or_num(argv[1], stats_read_arg, &type)) return(ERROR_USAGE); bitmask = strtoul(argv[2], 0, 16); cmdpkt[1] = STATS_READ; cmdpkt[2] = type; cmdpkt[3] = type >> 8; cmdpkt[4] = bitmask; cmdpkt[5] = bitmask >> 8; send_etm_cmd(cmdpkt, 5); return(0); } static struct kwtab rf_param_arg[] = { {"bcch-arfcn", BCCH_ARFCN}, {"tch-arfcn", TCH_ARFCN}, {"mon-arfcn", MON_ARFCN}, {"pdtch-arfcn", PDTCH_ARFCN}, {"std-band", STD_BAND_FLAG}, {"afc-enable", AFC_ENA_FLAG}, {"afc-dac-val", AFC_DAC_VALUE}, {"init-afc-dac", INITIAL_AFC_DAC}, {"multislot-class", MULTISLOT_CLASS}, {0, 0} }; cmd_rfpw2(argc, argv) char **argv; { u16 index, value; u_char cmdpkt[7]; if (keyword_or_num(argv[1], rf_param_arg, &index)) return(ERROR_USAGE); value = strtol(argv[2], 0, 0); cmdpkt[1] = RF_PARAM_WRITE; cmdpkt[2] = index; cmdpkt[3] = index >> 8; cmdpkt[4] = value; cmdpkt[5] = value >> 8; send_etm_cmd(cmdpkt, 5); return(0); } cmd_rfpw3(argc, argv) char **argv; { u16 index; u8 val1, val2; u_char cmdpkt[7]; if (keyword_or_num(argv[1], rf_param_arg, &index)) return(ERROR_USAGE); val1 = strtoul(argv[2], 0, 0); val2 = strtoul(argv[3], 0, 0); cmdpkt[1] = RF_PARAM_WRITE; cmdpkt[2] = index; cmdpkt[3] = index >> 8; cmdpkt[4] = val1; cmdpkt[5] = val2; send_etm_cmd(cmdpkt, 5); return(0); } cmd_rfpw(argc, argv) char **argv; { switch (argc) { case 3: return cmd_rfpw2(argc, argv); case 4: return cmd_rfpw3(argc, argv); default: fprintf(stderr, "BUG: wrong argc in cmd_rfpw()\n"); return(ERROR_BUG); } } cmd_rfpr(argc, argv) char **argv; { u16 index; u_char cmdpkt[5]; if (keyword_or_num(argv[1], rf_param_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = RF_PARAM_READ; cmdpkt[2] = index; cmdpkt[3] = index >> 8; send_etm_cmd(cmdpkt, 3); return(0); } static struct kwtab rf_table_arg[] = { {"rx-agc-table", RX_AGC_TABLE}, {"afcparams", AFC_PARAMS}, {"rx-agc-global-params", RX_AGC_GLOBAL_PARAMS}, {"rx-il2agc-max", RX_IL_2_AGC_MAX}, {"rx-il2agc-pwr", RX_IL_2_AGC_PWR}, {"rx-il2agc-av", RX_IL_2_AGC_AV}, {"tx-levels", TX_LEVELS}, {"tx-calchan", TX_CAL_CHAN}, {"tx-caltemp", TX_CAL_TEMP}, {"tx-cal-extreme", TX_CAL_EXTREME}, {"rx-calchan", RX_CAL_CHAN}, {"rx-caltemp", RX_CAL_TEMP}, {"rx-cal-level", RX_CAL_LEVEL}, {"rx-agcparams", RX_AGC_PARAMS}, {"rx-agcparams-pcs", RX_AGC_PARAMS_PCS}, {"tx-data-buffer", TX_DATA_BUFFER}, {"rlc-tx-buffer-cs1", RLC_TX_BUFFER_CS1}, {"rlc-tx-buffer-cs2", RLC_TX_BUFFER_CS2}, {"rlc-tx-buffer-cs3", RLC_TX_BUFFER_CS3}, {"rlc-tx-buffer-cs4", RLC_TX_BUFFER_CS4}, {0, 0} }; cmd_rftw(argc, argv) char **argv; { u16 index; u_char cmdpkt[MAX_RF_TABLE_SIZE + 4]; int rc; char *format; unsigned size; if (keyword_or_num(argv[1], rf_table_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = RF_TABLE_WRITE; cmdpkt[2] = index; rc = read_rf_table_ext(argv[2], cmdpkt + 3, 0, &format, &size); if (rc) return(rc); if (argc > 3) { if (strcmp(argv[3], "force")) { printf("error: unexpected 3rd argument\n"); return(ERROR_USAGE); } } else { rc = rftw_index_format_check(index, format); if (rc) return(rc); } send_etm_cmd(cmdpkt, size + 2); return(0); } cmd_rftr(argc, argv) char **argv; { u16 index; u_char cmdpkt[4]; if (keyword_or_num(argv[1], rf_table_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = RF_TABLE_READ; cmdpkt[2] = index; send_etm_cmd(cmdpkt, 2); return(0); } static struct kwtab rx_param_arg[] = { {"agc-gain", RX_AGC_GAIN}, {"timeslot", RX_TIMESLOT}, {"agc-enable", RX_AGC_ENA_FLAG}, {"pm-enable", RX_PM_ENABLE}, {"front-delay", RX_FRONT_DELAY}, {"flags-cal", RX_FLAGS_CAL}, {"flags-platform", RX_FLAGS_PLATFORM}, {"flags-iq-swap", RX_FLAGS_IQ_SWAP}, {"flags-all", RX_FLAGS_ALL}, {"gprs-slots", RX_GPRS_SLOTS}, {"gprs-coding", RX_GPRS_CODING}, {0, 0} }; cmd_rxpw(argc, argv) char **argv; { u16 index, value; u_char cmdpkt[7]; if (keyword_or_num(argv[1], rx_param_arg, &index)) return(ERROR_USAGE); value = strtol(argv[2], 0, 0); cmdpkt[1] = RX_PARAM_WRITE; cmdpkt[2] = index; cmdpkt[3] = index >> 8; cmdpkt[4] = value; cmdpkt[5] = value >> 8; send_etm_cmd(cmdpkt, 5); return(0); } cmd_rxpr(argc, argv) char **argv; { u16 index; u_char cmdpkt[5]; if (keyword_or_num(argv[1], rx_param_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = RX_PARAM_READ; cmdpkt[2] = index; cmdpkt[3] = index >> 8; send_etm_cmd(cmdpkt, 3); return(0); } static struct kwtab tx_param_arg[] = { {"pwr-level", TX_PWR_LEVEL}, {"apc-dac", TX_APC_DAC}, {"ramp-template", TX_RAMP_TEMPLATE}, {"chan-cal-table", TX_CHAN_CAL_TABLE}, {"burst-type", TX_BURST_TYPE}, {"burst-data", TX_BURST_DATA}, {"timing-advance", TX_TIMING_ADVANCE}, {"training-seq", TX_TRAINING_SEQ}, {"pwr-skip", TX_PWR_SKIP}, {"flags-cal", TX_FLAGS_CAL}, {"flags-platform", TX_FLAGS_PLATFORM}, {"flags-iq-swap", TX_FLAGS_IQ_SWAP}, {"flags-all", TX_FLAGS_ALL}, {"gprs-power0", TX_GPRS_POWER0}, {"gprs-power1", TX_GPRS_POWER1}, {"gprs-power2", TX_GPRS_POWER2}, {"gprs-power3", TX_GPRS_POWER3}, {"gprs-power4", TX_GPRS_POWER4}, {"gprs-power5", TX_GPRS_POWER5}, {"gprs-power6", TX_GPRS_POWER6}, {"gprs-power7", TX_GPRS_POWER7}, {"gprs-slots", TX_GPRS_SLOTS}, {"gprs-coding", TX_GPRS_CODING}, {0, 0} }; cmd_txpw(argc, argv) char **argv; { u16 index, value; u_char cmdpkt[7]; if (keyword_or_num(argv[1], tx_param_arg, &index)) return(ERROR_USAGE); value = strtol(argv[2], 0, 0); cmdpkt[1] = TX_PARAM_WRITE; cmdpkt[2] = index; cmdpkt[3] = index >> 8; cmdpkt[4] = value; cmdpkt[5] = value >> 8; send_etm_cmd(cmdpkt, 5); return(0); } cmd_txpr(argc, argv) char **argv; { u16 index; u_char cmdpkt[5]; if (keyword_or_num(argv[1], tx_param_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = TX_PARAM_READ; cmdpkt[2] = index; cmdpkt[3] = index >> 8; send_etm_cmd(cmdpkt, 3); return(0); } cmd_ttw(argc, argv) char **argv; { unsigned index; u_char cmdpkt[36]; int rc; index = strtoul(argv[1], 0, 0); if (index >= 16) { printf("error: index out of range\n"); return(ERROR_USAGE); } cmdpkt[1] = TX_TEMPLATE_WRITE; cmdpkt[2] = index; rc = read_tx_ramp_template(argv[2], cmdpkt + 3); if (rc) return(rc); send_etm_cmd(cmdpkt, 34); return(0); } cmd_ttr(argc, argv) char **argv; { unsigned index; u_char cmdpkt[4]; index = strtoul(argv[1], 0, 0); if (index >= 16) { printf("error: index out of range\n"); return(ERROR_USAGE); } cmdpkt[1] = TX_TEMPLATE_READ; cmdpkt[2] = index; send_etm_cmd(cmdpkt, 2); return(0); } static struct kwtab misc_param_arg[] = { {"adc-interval", ADC_INTERVAL}, {"adc-enable", ADC_ENA_FLAG}, {"converted-adc0", CONVERTED_ADC0}, {"converted-adc1", CONVERTED_ADC1}, {"converted-adc2", CONVERTED_ADC2}, {"converted-adc3", CONVERTED_ADC3}, {"converted-adc4", CONVERTED_ADC4}, {"converted-adc5", CONVERTED_ADC5}, {"converted-adc6", CONVERTED_ADC6}, {"converted-adc7", CONVERTED_ADC7}, {"converted-adc8", CONVERTED_ADC8}, {"raw-adc0", RAW_ADC0}, {"raw-adc1", RAW_ADC1}, {"raw-adc2", RAW_ADC2}, {"raw-adc3", RAW_ADC3}, {"raw-adc4", RAW_ADC4}, {"raw-adc5", RAW_ADC5}, {"raw-adc6", RAW_ADC6}, {"raw-adc7", RAW_ADC7}, {"raw-adc8", RAW_ADC8}, {"adc0-coeff-a", ADC0_COEFF_A}, {"adc1-coeff-a", ADC1_COEFF_A}, {"adc2-coeff-a", ADC2_COEFF_A}, {"adc3-coeff-a", ADC3_COEFF_A}, {"adc4-coeff-a", ADC4_COEFF_A}, {"adc5-coeff-a", ADC5_COEFF_A}, {"adc6-coeff-a", ADC6_COEFF_A}, {"adc7-coeff-a", ADC7_COEFF_A}, {"adc8-coeff-a", ADC8_COEFF_A}, {"adc0-coeff-b", ADC0_COEFF_B}, {"adc1-coeff-b", ADC1_COEFF_B}, {"adc2-coeff-b", ADC2_COEFF_B}, {"adc3-coeff-b", ADC3_COEFF_B}, {"adc4-coeff-b", ADC4_COEFF_B}, {"adc5-coeff-b", ADC5_COEFF_B}, {"adc6-coeff-b", ADC6_COEFF_B}, {"adc7-coeff-b", ADC7_COEFF_B}, {"adc8-coeff-b", ADC8_COEFF_B}, {"sleep-mode", SLEEP_MODE}, {"current-tm-mode", CURRENT_TM_MODE}, {0, 0} }; cmd_mpw(argc, argv) char **argv; { u16 index, value; u_char cmdpkt[7]; if (keyword_or_num(argv[1], misc_param_arg, &index)) return(ERROR_USAGE); value = strtol(argv[2], 0, 0); cmdpkt[1] = MISC_PARAM_WRITE; cmdpkt[2] = index; cmdpkt[3] = index >> 8; cmdpkt[4] = value; cmdpkt[5] = value >> 8; send_etm_cmd(cmdpkt, 5); return(0); } cmd_mpr(argc, argv) char **argv; { u16 index; u_char cmdpkt[5]; if (keyword_or_num(argv[1], misc_param_arg, &index)) return(ERROR_USAGE); cmdpkt[1] = MISC_PARAM_READ; cmdpkt[2] = index; cmdpkt[3] = index >> 8; send_etm_cmd(cmdpkt, 3); return(0); } static struct kwtab me_arg[] = { {"mkdirs", CFG_WRITE_MKDIRS}, {"save-rf-cal", CFG_WRITE_RF_CAL}, {"save-rf-cfg", CFG_WRITE_RF_CFG}, {"save-tx-cal", CFG_WRITE_TX_CAL}, {"save-tx-cfg", CFG_WRITE_TX_CFG}, {"save-rx-cal", CFG_WRITE_RX_CAL}, {"save-rx-cfg", CFG_WRITE_RX_CFG}, {"save-sys-cal", CFG_WRITE_SYS_CAL}, {"save-sys-cfg", CFG_WRITE_SYS_CFG}, {0, 0} }; cmd_me(argc, argv) char **argv; { u16 arg; u_char cmdpkt[5]; if (keyword_or_num(argv[1], me_arg, &arg)) return(ERROR_USAGE); cmdpkt[1] = MISC_ENABLE; cmdpkt[2] = arg; cmdpkt[3] = arg >> 8; send_etm_cmd(cmdpkt, 3); return(0); }