FreeCalypso > hg > freecalypso-tools
view ffstools/caltools/c1xx-calextr.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 | 7de38a7e1fa5 |
| children |
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/* * This program parses Compal's proprietary data structure that contains * the factory RF calibration values among other data, locates those RF * calibration records, extracts their essential content (Rx GMagic and * Tx APC values), converts this distilled content into TCS211 RF calibration * tables (Rx agcparams and Tx levels) and writes these tables out in either * FreeCalypso ASCII or FFS binary format. */ #include <sys/types.h> #include <sys/param.h> #include <sys/file.h> #include <string.h> #include <strings.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #define COMPAL_SECTOR_LENGTH 0x2000 u_char sector[COMPAL_SECTOR_LENGTH]; u_char endmarker[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; u_char record_magic[4] = {0xAA, 0x00, 0x00, 0x00}; char *ascii_output_dir, *bin_output_dir; struct rx_calchan_map { unsigned upper_bound; unsigned compal_start; unsigned compal_num; }; #define RF_RX_CAL_CHAN_SIZE 10 /* TI/FC canonical version */ struct rx_calchan_map rx_calchan_map_850[RF_RX_CAL_CHAN_SIZE] = { {140, 0, 2}, {152, 2, 2}, {164, 4, 2}, {176, 6, 2}, {188, 8, 2}, {200, 10, 2}, {212, 12, 2}, {224, 14, 2}, {236, 16, 2}, {251, 18, 3} }; struct rx_calchan_map rx_calchan_map_900[RF_RX_CAL_CHAN_SIZE] = { { 18, 0, 3}, { 36, 3, 3}, { 54, 6, 3}, { 72, 9, 3}, { 90, 12, 3}, { 108, 15, 3}, { 124, 18, 3}, { 987, 21, 3}, {1005, 24, 3}, {1023, 27, 3} }; struct rx_calchan_map rx_calchan_map_1800[RF_RX_CAL_CHAN_SIZE] = { {548, 0, 6}, {584, 6, 6}, {620, 12, 6}, {656, 18, 6}, {692, 24, 6}, {728, 30, 6}, {764, 36, 6}, {806, 42, 7}, {848, 49, 7}, {885, 56, 7} }; struct rx_calchan_map rx_calchan_map_1900[RF_RX_CAL_CHAN_SIZE] = { {542, 0, 5}, {572, 5, 5}, {602, 10, 5}, {632, 15, 5}, {662, 20, 5}, {692, 25, 5}, {722, 30, 5}, {752, 35, 5}, {782, 40, 5}, {810, 45, 5} }; struct band { char *name; unsigned compal_record_id; unsigned record_length; unsigned magic2_offset; struct rx_calchan_map *rx_calchan_map; unsigned start_plnum; unsigned end_plnum; } bands[] = { {"900", 0x00, 0x94, 0x54, rx_calchan_map_900, 5, 19}, {"1800", 0x01, 0xC8, 0x74, rx_calchan_map_1800, 0, 15}, {"1900", 0x02, 0xB4, 0x68, rx_calchan_map_1900, 0, 15}, {"850", 0x18, 0x88, 0x4C, rx_calchan_map_850, 5, 19}, {0, 0, 0, 0, 0, 0, 0} }; read_binfile(filename, offset_arg) char *filename, *offset_arg; { int fd, cc; u_long offset; char *endp; fd = open(filename, O_RDONLY); if (fd < 0) { perror(filename); exit(1); } offset = strtoul(offset_arg, &endp, 0); if (*endp) { fprintf(stderr, "error: invalid offset argument \"%s\"\n", offset_arg); exit(1); } lseek(fd, offset, SEEK_SET); cc = read(fd, sector, COMPAL_SECTOR_LENGTH); if (cc != COMPAL_SECTOR_LENGTH) { fprintf(stderr, "error: unable to read Compal sector of %d bytes from %s at offset %s\n", COMPAL_SECTOR_LENGTH, filename, offset_arg); exit(1); } close(fd); } write_rx_agcparams_ascii(band, table) struct band *band; u_char *table; { char pathname[MAXPATHLEN]; FILE *of; sprintf(pathname, "%s/rx-agcparams.%s", ascii_output_dir, band->name); of = fopen(pathname, "w"); if (!of) { perror(pathname); exit(1); } write_rx_agcparams_table(table, of); fclose(of); } write_rx_agcparams_bin(band, table) struct band *band; u_char *table; { char pathname[MAXPATHLEN]; int fd; sprintf(pathname, "%s/rx", bin_output_dir); mkdir_existok(pathname); sprintf(pathname, "%s/rx/agcparams.%s", bin_output_dir, band->name); fd = open(pathname, O_WRONLY|O_CREAT|O_TRUNC, 0666); if (fd < 0) { perror(pathname); exit(1); } write(fd, table, 8); close(fd); } write_rx_calchan_ascii(band, table) struct band *band; u_char *table; { char pathname[MAXPATHLEN]; FILE *of; sprintf(pathname, "%s/rx-calchan.%s", ascii_output_dir, band->name); of = fopen(pathname, "w"); if (!of) { perror(pathname); exit(1); } write_rx_calchan_table(table, of); fclose(of); } write_rx_calchan_bin(band, table) struct band *band; u_char *table; { char pathname[MAXPATHLEN]; int fd; sprintf(pathname, "%s/rx", bin_output_dir); mkdir_existok(pathname); sprintf(pathname, "%s/rx/calchan.%s", bin_output_dir, band->name); fd = open(pathname, O_WRONLY|O_CREAT|O_TRUNC, 0666); if (fd < 0) { perror(pathname); exit(1); } write(fd, table, 40); close(fd); } write_tx_levels_ascii(band, table) struct band *band; u_char *table; { char pathname[MAXPATHLEN]; FILE *of; sprintf(pathname, "%s/tx-levels.%s", ascii_output_dir, band->name); of = fopen(pathname, "w"); if (!of) { perror(pathname); exit(1); } write_tx_levels_table(table, of); fclose(of); } write_tx_levels_bin(band, table) struct band *band; u_char *table; { char pathname[MAXPATHLEN]; int fd; sprintf(pathname, "%s/tx", bin_output_dir); mkdir_existok(pathname); sprintf(pathname, "%s/tx/levels.%s", bin_output_dir, band->name); fd = open(pathname, O_WRONLY|O_CREAT|O_TRUNC, 0666); if (fd < 0) { perror(pathname); exit(1); } write(fd, table, 128); close(fd); } do_rx_agcparams(band, compal_data) struct band *band; u_char *compal_data; { u_char rx_agcparams_table[8]; bcopy(compal_data, rx_agcparams_table, 2); /* the remaining fields are constants unchanged from TI */ rx_agcparams_table[2] = 40; rx_agcparams_table[3] = 0; rx_agcparams_table[4] = 40; rx_agcparams_table[5] = 0; rx_agcparams_table[6] = 44; rx_agcparams_table[7] = 0; if (ascii_output_dir) write_rx_agcparams_ascii(band, rx_agcparams_table); if (bin_output_dir) write_rx_agcparams_bin(band, rx_agcparams_table); } do_rx_calchan(band, compal_data) struct band *band; signed char *compal_data; { u_char rx_calchan_table[40], *dp; struct rx_calchan_map *map; unsigned i, j; int accum, average; dp = rx_calchan_table; for (i = 0; i < RF_RX_CAL_CHAN_SIZE; i++) { map = band->rx_calchan_map + i; *dp++ = map->upper_bound; *dp++ = map->upper_bound >> 8; accum = 0; for (j = 0; j < map->compal_num; j++) accum += compal_data[map->compal_start + j]; average = accum / (int)map->compal_num; *dp++ = average; *dp++ = average >> 8; } if (ascii_output_dir) write_rx_calchan_ascii(band, rx_calchan_table); if (bin_output_dir) write_rx_calchan_bin(band, rx_calchan_table); } do_tx_levels(band, compal_data) struct band *band; u_char *compal_data; { u_char tx_levels_table[128], *sp, *dp; unsigned num_levels, n; bzero(tx_levels_table, sizeof tx_levels_table); num_levels = band->end_plnum - band->start_plnum + 1; sp = compal_data; dp = tx_levels_table + band->start_plnum * 4; for (n = 0; n < num_levels; n++) { *dp++ = *sp++; *dp++ = *sp++; *dp++ = n; *dp++ = 0; } if (ascii_output_dir) write_tx_levels_ascii(band, tx_levels_table); if (bin_output_dir) write_tx_levels_bin(band, tx_levels_table); } process_band_record(band, offset) struct band *band; unsigned offset; { u_char *record; record = sector + offset + 8; if (bcmp(record, record_magic, 4)) { printf("bad magic1, skipping\n"); return(-1); } if (bcmp(record + band->magic2_offset, record_magic, 4)) { printf("bad magic2, skipping\n"); return(-1); } if (bcmp(record + band->magic2_offset + 8, record_magic, 4)) { printf("bad magic3, skipping\n"); return(-1); } do_rx_agcparams(band, record + 4); do_rx_calchan(band, record + 6); do_tx_levels(band, record + band->magic2_offset + 12); return(0); } process_sector_data() { unsigned offset, next_offset; u_char *header; unsigned hdr_words[4]; struct band *band; int i; for (offset = 0; ; offset = next_offset) { if (offset > COMPAL_SECTOR_LENGTH - 12) break; header = sector + offset; if (!bcmp(header, endmarker, 8)) break; for (i = 0; i < 4; i++) hdr_words[i] = header[i*2] | (header[i*2+1] << 8); if (!hdr_words[3]) { fprintf(stderr, "error at offset 0x%X: rounded record length word is 0\n", offset); exit(1); } if (hdr_words[3] & 3) { fprintf(stderr, "error at offset 0x%X: rounded record length word is not aligned to 4\n", offset); exit(1); } if (hdr_words[3] > COMPAL_SECTOR_LENGTH - offset - 8) { fprintf(stderr, "error at offset 0x%X: rounded record length spills past end of sector\n", offset); exit(1); } if (hdr_words[2] > hdr_words[3]) { fprintf(stderr, "error at offset 0x%X: native record length is greater than rounded\n", offset); exit(1); } next_offset = offset + 8 + hdr_words[3]; if (hdr_words[0] != 0x000C) continue; for (band = bands; band->name; band++) if (hdr_words[1] == band->compal_record_id) break; if (!band->name) continue; printf("Found %s MHz calibration record at offset 0x%X\n", band->name, offset); if (hdr_words[2] != band->record_length) { printf("Oops, wrong length, skipping\n"); continue; } process_band_record(band, offset); } } main(argc, argv) char **argv; { int c; extern char *optarg; extern int optind; while ((c = getopt(argc, argv, "a:b:")) != EOF) switch (c) { case 'a': ascii_output_dir = optarg; continue; case 'b': bin_output_dir = optarg; continue; case '?': default: usage: fprintf(stderr, "usage: %s [-a ascii_outdir] [-b bin_outdir] c1xx-binfile offset\n", argv[0]); exit(1); } if (argc - optind != 2) goto usage; read_binfile(argv[optind], argv[optind+1]); if (ascii_output_dir) mkdir_existok(ascii_output_dir); if (bin_output_dir) mkdir_existok(bin_output_dir); process_sector_data(); exit(0); }