FreeCalypso > hg > freecalypso-tools
view rvinterf/etmsync/readcal.c @ 1012:11391cb6bdc0
patch from fixeria: doc change from SE K2x0 to K2xx
Since their discovery in late 2022, Sony Ericsson K200 and K220 phones
were collectively referred to as SE K2x0 in FreeCalypso documentation.
However, now that SE K205 has been discovered as yet another member
of the same family (same PCBA in different case), it makes more sense
to refer to the whole family as SE K2xx.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 23 Sep 2024 12:23:20 +0000 |
| parents | e40bb5a6c6b9 |
| children |
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/* * This utility reads the RF calibration data out of a TI-based GSM device * using the L1TM protocol over RVTMUX. Warning: invasive tms 1 and rfpw 7 * commands are issued to the target in order to select the band of interest! */ #include <sys/types.h> #include <sys/file.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include <unistd.h> #include "tm3.h" #include "l1tm.h" #include "localtypes.h" #include "exitcodes.h" int compal_mode; extern char *socket_pathname; extern char *rvinterf_ttyport, *rvinterf_Bopt, *rvinterf_lopt, *rvinterf_wopt; /* macro for encoding std and band in rfpw 7 command */ #define RFPW_STD_BAND(std,band) ((std) | ((band) << 8)) static struct band { char *argname; char *filename; unsigned rfpw_std_band; } bands[] = { {"900", "900", RFPW_STD_BAND(6, 0)}, {"1800", "1800", RFPW_STD_BAND(6, 1)}, {"1900", "1900", RFPW_STD_BAND(8, 1)}, {"850", "850", RFPW_STD_BAND(8, 0)}, {"1900s", "1900", RFPW_STD_BAND(3, 0)}, {"850s", "850", RFPW_STD_BAND(7, 0)}, {0, 0, 0} }; static void write_out_file(filename, data, size) char *filename; u_char *data; { int fd; fd = open(filename, O_WRONLY|O_CREAT|O_TRUNC, 0666); if (fd < 0) { perror(filename); exit(ERROR_UNIX); } write(fd, data, size); close(fd); } copy_afcdac() { u16 datum; u_char bytes[2]; int rc; rc = do_rfpr(INITIAL_AFC_DAC, &datum); if (rc) exit(rc); datum <<= 3; bytes[0] = datum; bytes[1] = datum >> 8; write_out_file("afcdac", bytes, 2); } copy_afcparams() { u_char table[24]; int rc; rc = do_rftr(AFC_PARAMS, table, sizeof table); if (rc) exit(rc); write_out_file("afcparams", table, sizeof table); } copy_rx_agcparams(bandname) char *bandname; { u_char table[8]; char filename[32]; int rc; rc = do_rftr(RX_AGC_PARAMS, table, sizeof table); if (rc) exit(rc); sprintf(filename, "rx/agcparams.%s", bandname); write_out_file(filename, table, sizeof table); } copy_rx_calchan(bandname) char *bandname; { u_char table[40]; char filename[32]; int rc; rc = do_rftr(RX_CAL_CHAN, table, sizeof table); if (rc) exit(rc); sprintf(filename, "rx/calchan.%s", bandname); write_out_file(filename, table, sizeof table); } copy_tx_levels(bandname) char *bandname; { u_char table[128]; char filename[32]; int rc; rc = do_rftr(TX_LEVELS, table, sizeof table); if (rc) exit(rc); sprintf(filename, "tx/levels.%s", bandname); write_out_file(filename, table, sizeof table); } copy_tx_calchan(bandname) char *bandname; { u_char table[128]; char filename[32]; int rc; rc = do_rftr(TX_CAL_CHAN, table, sizeof table); if (rc) exit(rc); sprintf(filename, "tx/calchan.%s", bandname); write_out_file(filename, table, sizeof table); } copy_tx_ramps(bandname) char *bandname; { u_char table[512]; char filename[32]; int rc, i; for (i = 0; i < 16; i++) { rc = do_ttr(i, table + i * 32); if (rc) exit(rc); } sprintf(filename, "tx/ramps.%s", bandname); write_out_file(filename, table, sizeof table); } process_band(bandname) char *bandname; { int rc; rc = host_mkdir("rx"); if (rc) exit(rc); copy_rx_agcparams(bandname); if (!compal_mode) copy_rx_calchan(bandname); rc = host_mkdir("tx"); if (rc) exit(rc); copy_tx_levels(bandname); if (!compal_mode) copy_tx_calchan(bandname); copy_tx_ramps(bandname); } single_op_main(argc, argv) char **argv; { int rc; char **ap; struct band *tp; if (argc < 2) { fprintf(stderr, "usage: fc-readcal [options] output-dir band...\n"); exit(ERROR_USAGE); } if (chdir(argv[0]) < 0) { perror(argv[0]); exit(ERROR_UNIX); } rc = do_tms(1); if (rc) exit(rc); for (ap = argv + 1; *ap; ap++) { if (!strcmp(*ap, "afc")) { copy_afcdac(); copy_afcparams(); continue; } for (tp = bands; tp->argname; tp++) if (!strcmp(*ap, tp->argname)) break; if (!tp->argname) { fprintf(stderr, "error: unknown band name \"%s\"\n", *ap); exit(ERROR_USAGE); } rc = do_rfpw(STD_BAND_FLAG, tp->rfpw_std_band); if (rc) exit(rc); process_band(tp->filename); } exit(0); } main(argc, argv) char **argv; { extern int optind; extern char *optarg; int c, sopt = 0; while ((c = getopt(argc, argv, "B:cl:p:s:w:")) != EOF) switch (c) { case 'B': rvinterf_Bopt = optarg; continue; case 'c': compal_mode++; continue; case 'l': rvinterf_lopt = optarg; continue; case 'p': rvinterf_ttyport = optarg; continue; case 's': socket_pathname = optarg; sopt++; continue; case 'w': rvinterf_wopt = optarg; continue; case '?': default: /* error msg already printed */ exit(ERROR_USAGE); } if (rvinterf_ttyport) { if (sopt) { fprintf(stderr, "%s error: -p and -s options are mutually exclusive\n", argv[0]); exit(ERROR_USAGE); } if (compal_mode && !rvinterf_Bopt) rvinterf_Bopt = "57600"; launch_rvinterf(1); } else { if (rvinterf_Bopt || rvinterf_lopt || rvinterf_wopt) { fprintf(stderr, "%s error: -B, -l and -w options are meaningful only when launching rvinterf\n", argv[0]); exit(ERROR_USAGE); } connect_local_socket(); } return single_op_main(argc - optind, argv + optind); }