FreeCalypso > hg > freecalypso-tools
view librftab/rftablewr.c @ 995:74024eb17e04
fc-loadtool help: improve language regarding 16 MiB flash chips
In FC project history, 16 MiB flash originally meant Pirelli DP-L10.
Then we got FCDEV3B with the same flash (our own design), but now we are
discovering more Calypso devices that used such large flash, both late
Calypso era (Sony Ericsson K2x0) as well as much earlier ones (FIC FLUID
devices.txt file with 2004 dates, Leonardo+ rev 5). Hence we need to
migrate to more generic or neutral language in associated documentation,
without giving elevated status to specific examples that drove our
early project history.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 03 Dec 2023 21:11:12 +0000 |
| parents | 059649902c7f |
| children |
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/* * Here we implement the writing of RF tables into ASCII text files * in our defined format. This module will also be linked by the * standalone fc-cal2text utility, hence our code here needs to be * independent of rvinterf and fc-tmsh specifics. */ #include <sys/types.h> #include <stdio.h> #include <stdint.h> #include <endian.h> static unsigned get_u32(bin) u_char *bin; { return le32toh(*(uint32_t *)bin); } static unsigned get_u16(bin) u_char *bin; { return le16toh(*(uint16_t *)bin); } static int get_s16(bin) u_char *bin; { int i; i = le16toh(*(uint16_t *)bin); if (i >= 32768) i -= 65536; return(i); } void write_adccal_table(bin, outf) u_char *bin; FILE *outf; { fputs("rf_table adc-cal\n\n", outf); fprintf(outf, "%5u %6d\t# Vbat\n", get_u16(bin), get_s16(bin + 18)); fprintf(outf, "%5u %6d\t# Vchg\n", get_u16(bin + 2), get_s16(bin + 20)); fprintf(outf, "%5u %6d\t# Ichg\n", get_u16(bin + 4), get_s16(bin + 22)); fprintf(outf, "%5u %6d\t# Vbackup\n", get_u16(bin + 6), get_s16(bin + 24)); fprintf(outf, "%5u %6d\t# ADIN1\n", get_u16(bin + 8), get_s16(bin + 26)); fprintf(outf, "%5u %6d\t# ADIN2\n", get_u16(bin + 10), get_s16(bin + 28)); fprintf(outf, "%5u %6d\t# ADIN3\n", get_u16(bin + 12), get_s16(bin + 30)); fprintf(outf, "%5u %6d\t# RF Temp\n", get_u16(bin + 14), get_s16(bin + 32)); fprintf(outf, "%5u %6d\t# ADIN5\n", get_u16(bin + 16), get_s16(bin + 34)); } void write_afcparams_table(bin, outf) u_char *bin; FILE *outf; { fputs("rf_table afcparams\n\n", outf); /* 32-bit parameters */ fprintf(outf, "%10u\t# psi_sta_inv\n", get_u32(bin)); fprintf(outf, "%10u\t# psi_st\n", get_u32(bin + 4)); fprintf(outf, "%10u\t# psi_st_32\n", get_u32(bin + 8)); fprintf(outf, "%10u\t# psi_st_inv\n\n", get_u32(bin + 12)); /* 16-bit parameters */ fprintf(outf, "%10d\t# dac_center\n", get_s16(bin + 16)); fprintf(outf, "%10d\t# dac_min\n", get_s16(bin + 18)); fprintf(outf, "%10d\t# dac_max\n", get_s16(bin + 20)); fprintf(outf, "%10d\t# snr_thr\n", get_s16(bin + 22)); } void write_agcwords_table(bin, outf) u_char *bin; FILE *outf; { int i, j; u_char *p = bin; fputs("rf_table agc-table\n\n", outf); for (i = 0; i < 4; i++) { for (j = 0; j < 5; j++) { if (j) putc(' ', outf); fprintf(outf, "0x%04X", get_u16(p)); p += 2; } putc('\n', outf); } } void write_agcglobals_table(bin, outf) u_char *bin; FILE *outf; { fputs("rf_table agc-global-params\n\n", outf); fprintf(outf, "%5u\t# low_agc_noise_thr\n", get_u16(bin)); fprintf(outf, "%5u\t# high_agc_sat_thr\n", get_u16(bin + 2)); fprintf(outf, "%5u\t# low_agc\n", get_u16(bin + 4)); fprintf(outf, "%5u\t# high_agc\n", get_u16(bin + 6)); } void write_il2agc_table(bin, outf) u_char *bin; FILE *outf; { int idx; fputs("rf_table il2agc\n\n", outf); for (idx = 0; idx < 121; idx++) fprintf(outf, "%3u\t# IL=%d\n", bin[idx], -idx); } void write_tx_levels_table(bin, outf) u_char *bin; FILE *outf; { int i; u_char *p = bin; fputs("rf_table tx-levels\n\n", outf); fputs("# Fields in each entry: apc, ramp_index, chan_cal_index\n\n", outf); for (i = 0; i < 32; i++) { fprintf(outf, "%5u %3u %3u\t# entry %d\n", get_u16(p), p[2], p[3], i); p += 4; } } void write_tx_calchan_table(bin, outf) u_char *bin; FILE *outf; { int i, j; u_char *p = bin; fputs("rf_table tx-calchan\n", outf); for (i = 0; i < 4; i++) { fprintf(outf, "\n# Channel calibration table %d:\n\n", i); for (j = 0; j < 8; j++) { fprintf(outf, "%5u %6d\n", get_u16(p), get_s16(p + 2)); p += 4; } } } void write_tx_caltemp_table(bin, outf) u_char *bin; FILE *outf; { int i; u_char *p = bin; fputs("rf_table tx-caltemp\n\n", outf); for (i = 0; i < 5; i++) { fprintf(outf, "%6d %6d %6d %6d\n", get_s16(p), get_s16(p + 2), get_s16(p + 4), get_s16(p + 6)); p += 8; } } void write_rx_calchan_table(bin, outf) u_char *bin; FILE *outf; { int i; u_char *p = bin; fputs("rf_table rx-calchan\n\n", outf); for (i = 0; i < 10; i++) { fprintf(outf, "%5u %6d\n", get_u16(p), get_s16(p + 2)); p += 4; } } void write_rx_caltemp_table(bin, outf) u_char *bin; FILE *outf; { int i; u_char *p = bin; fputs("rf_table rx-caltemp\n\n", outf); for (i = 0; i < 11; i++) { fprintf(outf, "%6d %6d\n", get_s16(p), get_s16(p + 2)); p += 4; } } void write_rx_agcparams_table(bin, outf) u_char *bin; FILE *outf; { fputs("rf_table rx-agc-params\n\n", outf); fprintf(outf, "%5u\t# g_magic\n", get_u16(bin)); fprintf(outf, "%5u\t# lna_att\n", get_u16(bin + 2)); fprintf(outf, "%5u\t# lna_switch_thr_low\n", get_u16(bin + 4)); fprintf(outf, "%5u\t# lna_switch_thr_high\n", get_u16(bin + 6)); } void write_tx_ramp(bin, outf) u_char *bin; FILE *outf; { int i; fputs("ramp-up ", outf); for (i = 0; i < 16; i++) fprintf(outf, " %3u", bin[i]); putc('\n', outf); fputs("ramp-down", outf); for (i = 0; i < 16; i++) fprintf(outf, " %3u", bin[i+16]); putc('\n', outf); } void write_tx_ramps_table(bin, outf) u_char *bin; FILE *outf; { int i; u_char *p = bin; fputs("rf_table tx-ramps\n", outf); for (i = 0; i < 16; i++) { fprintf(outf, "\n# Tx ramp template %d:\n\n", i); write_tx_ramp(p, outf); p += 32; } }