FreeCalypso > hg > freecalypso-tools
view rvinterf/etmsync/l1tmcmd.c @ 505:7bf0d909c87e
fc-loadtool flash ID check: change of reset after the check logic
This change only affects those flash configurations that have ID checks
enabled. The logic for resetting the flash after the ID check has been
changed as follows:
1) If the check fails, we return without attempting to reset the flash.
2) If the check is successful, we reset the flash using the configured
method (could be AMD or Intel or Intel W30) instead of always doing an
AMD flash reset as the original code did.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 27 May 2019 19:58:01 +0000 |
| parents | dd97e75620a7 |
| children | 4694c7686ccd |
line wrap: on
line source
/* * This module contains the user command wrappers around the functions * in the l1tmops.c module. */ #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" extern void write_afcparams_table(); extern void write_agcwords_table(); extern void write_agcglobals_table(); extern void write_il2agc_table(); extern void write_tx_ramps_table(); extern void write_tx_levels_table(); extern void write_tx_calchan_table(); extern void write_tx_caltemp_table(); extern void write_rx_calchan_table(); extern void write_rx_caltemp_table(); extern void write_rx_agcparams_table(); cmd_tms(argc, argv) char **argv; { u16 arg; arg = strtoul(argv[1], 0, 0); return do_tms(arg); } 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 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; if (keyword_or_num(argv[1], rf_param_arg, &index)) return(ERROR_USAGE); value = strtol(argv[2], 0, 0); return do_rfpw(index, value); } cmd_rfpw3(argc, argv) char **argv; { u16 index; u8 val1, val2; 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); return do_rfpw(index, (val2 << 8) | val1); } 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, val; int rc; if (keyword_or_num(argv[1], rf_param_arg, &index)) return(ERROR_USAGE); rc = do_rfpr(index, &val); if (rc) return(rc); if (val >= 0x8000) printf("read value: 0x%04X (%u or %d)\n", val, val, (int)val - 65536); else printf("read value: 0x%04X (%u)\n", val, val); 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}, {"rx-calchan", RX_CAL_CHAN}, {"rx-caltemp", RX_CAL_TEMP}, {"rx-agcparams", RX_AGC_PARAMS}, {0, 0} }; static struct table_map { int index; int size; void (*func)(); } table_map[] = { {RX_AGC_TABLE, 40, write_agcwords_table}, {AFC_PARAMS, 24, write_afcparams_table}, {RX_AGC_GLOBAL_PARAMS, 8, write_agcglobals_table}, {RX_IL_2_AGC_MAX, 121, write_il2agc_table}, {RX_IL_2_AGC_PWR, 121, write_il2agc_table}, {RX_IL_2_AGC_AV, 121, write_il2agc_table}, {TX_LEVELS, 128, write_tx_levels_table}, {TX_CAL_CHAN, 128, write_tx_calchan_table}, {TX_CAL_TEMP, 40, write_tx_caltemp_table}, {RX_CAL_CHAN, 40, write_rx_calchan_table}, {RX_CAL_TEMP, 44, write_rx_caltemp_table}, {RX_AGC_PARAMS, 8, write_rx_agcparams_table}, {0, 0, 0} }; cmd_rftr(argc, argv) char **argv; { u16 index; struct table_map *tp; u_char table_data[MAX_RF_TABLE_SIZE]; int rc; FILE *of; if (keyword_or_num(argv[1], rf_table_arg, &index)) return(ERROR_USAGE); for (tp = table_map; tp->index; tp++) { if (tp->index == index) break; } if (!tp->index) { printf("error: table index %u not supported, use fc-tmsh\n", index); return(ERROR_USAGE); } rc = do_rftr(index, table_data, tp->size); if (rc) return(rc); if (argv[2]) { of = fopen(argv[2], "w"); if (!of) { perror(argv[2]); return(ERROR_UNIX); } tp->func(table_data, of); fclose(of); } else tp->func(table_data, stdout); return(0); } cmd_ttr(argc, argv) char **argv; { unsigned index; u_char ramp_data[32]; int rc; index = strtoul(argv[1], 0, 0); if (index >= 16) { printf("error: index out of range\n"); return(ERROR_USAGE); } rc = do_ttr(index, ramp_data); if (rc) return(rc); write_tx_ramp(ramp_data, stdout); return(0); } cmd_ttr_all(argc, argv) char **argv; { u_char table[512]; int rc, i; FILE *of; for (i = 0; i < 16; i++) { rc = do_ttr(i, table + i * 32); if (rc) return(rc); } of = fopen(argv[1], "w"); if (!of) { perror(argv[1]); return(ERROR_UNIX); } write_tx_ramps_table(table, of); fclose(of); return(0); }