FreeCalypso > hg > freecalypso-tools
view uptools/sms-pdu-decode/sms-pdu-decode.c @ 354:ec0d6d58e043
uptools/libcoding: UTF-8 input conversion to 8859-1 implemented
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 05 Feb 2018 19:01:27 +0000 |
parents | 7f8f446db97e |
children | bae0fd7285dd |
line wrap: on
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#include <sys/types.h> #include <ctype.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include <unistd.h> char *infname; FILE *inf; int ascii_ext_mode, global_hexdump_mode; char input_line[1024]; u_char pdu[176], first_octet; unsigned pdu_length, pdu_ptr; int dcs_distilled; handle_sca() { unsigned sca_len; char digits[21]; sca_len = pdu[0]; pdu_ptr = 1; if (!sca_len) return(0); if (sca_len < 2 || sca_len > 11) { printf("Decode-Error: invalid SCA length\n"); return(-1); } if (pdu_ptr + sca_len > pdu_length) { printf("Decode-Error: SCA goes past PDU end\n"); return(-1); } pdu_ptr += sca_len; decode_address_digits(pdu + 2, digits, sc_addr_ndigits(pdu)); printf("SCA: %s%s (type 0x%02X)\n", pdu[1] == 0x91 ? "+" : "", digits, pdu[1]); return(0); } handle_first_octet() { if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before FO\n"); return(-1); } first_octet = pdu[pdu_ptr++]; printf("First-Octet: 0x%02X\n", first_octet); return(0); } handle_mr() { if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before MR\n"); return(-1); } printf("MR: 0x%02X\n", pdu[pdu_ptr++]); return(0); } handle_user_addr(direction) char *direction; { unsigned addr_field_len, alpha_nsep; char digits[21]; u_char alpha_gsm7[11], alpha_decoded[23]; if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before %s address\n", direction); return(-1); } if (pdu[pdu_ptr] > 20) { printf("Decode-Error: %s address > 20 digits\n", direction); return(-1); } addr_field_len = ((pdu[pdu_ptr] + 1) >> 1) + 2; if (pdu_ptr + addr_field_len > pdu_length) { printf("Decode-Error: %s address goes past PDU end\n", direction); return(-1); } if (!pdu[pdu_ptr]) printf("%s: empty-addr (type 0x%02X)\n", direction, pdu[pdu_ptr+1]); else if ((pdu[pdu_ptr+1] & 0x70) == 0x50 && alpha_addr_valid(pdu[pdu_ptr], &alpha_nsep)) { gsm7_unpack(pdu + pdu_ptr + 2, alpha_gsm7, alpha_nsep); gsm7_to_ascii_or_ext(alpha_gsm7, alpha_nsep, alpha_decoded, 0, ascii_ext_mode, 0, 0); printf("%s: \"%s\" (type 0x%02X)\n", direction, alpha_decoded, pdu[pdu_ptr+1]); } else { decode_address_digits(pdu + pdu_ptr + 2, digits, pdu[pdu_ptr]); printf("%s: %s%s (type 0x%02X)\n", direction, pdu[pdu_ptr+1] == 0x91 ? "+" : "", digits, pdu[pdu_ptr+1]); } pdu_ptr += addr_field_len; return(0); } handle_pid() { if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before PID\n"); return(-1); } printf("PID: 0x%02X\n", pdu[pdu_ptr++]); return(0); } handle_dcs() { u_char dcs; char *strtype; if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before DCS\n"); return(-1); } dcs = pdu[pdu_ptr++]; dcs_distilled = sms_dcs_classify(dcs); switch (dcs_distilled) { case 7: strtype = "7-bit"; break; case 8: strtype = "raw octets"; break; case 9: strtype = "compressed"; break; case 16: strtype = "UCS-2"; break; } printf("DCS: 0x%02X (%s)\n", dcs, strtype); return(0); } handle_scts() { char str[21]; if (pdu_ptr + 7 > pdu_length) { printf("Decode-Error: end of PDU before SCTS\n"); return(-1); } gsm_timestamp_decode(pdu + pdu_ptr, str); printf("SC-Timestamp: %s\n", str); pdu_ptr += 7; return(0); } handle_vp_abs() { char str[21]; if (pdu_ptr + 7 > pdu_length) { printf("Decode-Error: end of PDU before VP-abs\n"); return(-1); } gsm_timestamp_decode(pdu + pdu_ptr, str); printf("VP-Absolute: %s\n", str); pdu_ptr += 7; return(0); } handle_vp_rel() { unsigned vprel, hours, min; if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before VP-rel\n"); return(-1); } vprel = pdu[pdu_ptr++]; if (vprel <= 143) { min = (vprel + 1) * 5; goto hhmm; } else if (vprel <= 167) { min = (vprel - 143) * 30 + 12 * 60; goto hhmm; } else if (vprel <= 196) { printf("VP-Relative: %u days\n", vprel - 166); return(0); } else { printf("VP-Relative: %u weeks\n", vprel - 192); return(0); } hhmm: hours = min / 60; min %= 60; printf("VP-Relative: "); if (hours) printf(" %u hour%s", hours, hours != 1 ? "s" : ""); if (min) printf(" %u min", min); putchar('\n'); return(0); } handle_vp_enh() { if (pdu_ptr + 7 > pdu_length) { printf("Decode-Error: end of PDU before VP-enh\n"); return(-1); } printf("VP-Enhanced: %02X %02X %02X %02X %02X %02X %02X\n", pdu[pdu_ptr], pdu[pdu_ptr+1], pdu[pdu_ptr+2], pdu[pdu_ptr+3], pdu[pdu_ptr+4], pdu[pdu_ptr+5], pdu[pdu_ptr+6]); pdu_ptr += 7; return(0); } handle_vp() { int rc; switch (first_octet & 0x18) { case 0x00: rc = 0; break; case 0x08: rc = handle_vp_enh(); break; case 0x10: rc = handle_vp_rel(); break; case 0x18: rc = handle_vp_abs(); break; } return(rc); } process_pdu() { unsigned udl, udl_octets; unsigned udhl, udh_octets, udh_chars, ud_chars; u_char ud7[160], decode_buf[321]; int do_hexdump; unsigned decoded_len, badchars; if (handle_sca() < 0) return(-1); if (handle_first_octet() < 0) return(-1); if (first_octet & 2) { printf("Decode-Error: MTI not supported\n"); return(-1); } if (first_octet & 1) { if (handle_mr() < 0) return(-1); } if (handle_user_addr(first_octet & 1 ? "To" : "From") < 0) return(-1); if (handle_pid() < 0) return(-1); if (handle_dcs() < 0) return(-1); if (first_octet & 1) { if (handle_vp() < 0) return(-1); } else { if (handle_scts() < 0) return(-1); } if (pdu_ptr >= pdu_length) { printf("Decode-Error: end of PDU before UDL\n"); return(-1); } udl = pdu[pdu_ptr++]; if (dcs_distilled == 7) { if (udl > 160) { printf("Decode-Error: UDL %u > 160\n", udl); return(-1); } udl_octets = (udl * 7 + 7) / 8; } else { if (udl > 140) { printf("Decode-Error: UDL %u > 140\n", udl); return(-1); } udl_octets = udl; } if (pdu_length - pdu_ptr != udl_octets) { printf("Decode-Error: UD length in PDU %u != expected %u\n", pdu_length - pdu_ptr, udl_octets); return(-1); } if (first_octet & 0x40) { if (!udl) { printf("Decode-Error: UDHI set with UDL=0\n"); return(-1); } udhl = pdu[pdu_ptr]; udh_octets = udhl + 1; if (udh_octets > udl_octets) { printf("Decode-Error: UDHL exceeds UDL\n"); return(-1); } printf("UDH-Length: %u\n", udhl); if (dcs_distilled == 7) udh_chars = (udh_octets * 8 + 6) / 7; else udh_chars = udh_octets; } else { udhl = 0; udh_octets = 0; udh_chars = 0; } if (udh_chars >= udl) { ud_chars = 0; printf("Length: 0\n"); } else { ud_chars = udl - udh_chars; if (dcs_distilled == 7) gsm7_unpack(pdu + pdu_ptr, ud7, udl); if (global_hexdump_mode) do_hexdump = 1; else switch (dcs_distilled) { case 7: do_hexdump = 0; break; case 8: case 9: do_hexdump = 1; break; case 16: if (ud_chars & 1) do_hexdump = 1; else do_hexdump = 0; break; } if (do_hexdump) printf("Length: %u (raw)\n", ud_chars); else { switch (dcs_distilled) { case 7: gsm7_to_ascii_or_ext(ud7 + udh_chars, ud_chars, decode_buf, &decoded_len, ascii_ext_mode, 1, &badchars); break; case 16: ucs2_to_ascii_or_ext(pdu + pdu_ptr + udh_chars, ud_chars, decode_buf, &decoded_len, ascii_ext_mode, 1, &badchars); break; } printf("Length: %u", ud_chars); if (decoded_len != ud_chars) printf("->%u", decoded_len); if (badchars) printf(" (%u bad char%s)", badchars, badchars != 1 ? "s" : ""); putchar('\n'); } } if (udhl) { printf("\nUDH:\n"); msg_bits_hexdump(pdu + pdu_ptr + 1, udhl); } if (!ud_chars) return(0); putchar('\n'); if (do_hexdump) { if (dcs_distilled == 7) msg_bits_hexdump(ud7 + udh_chars, ud_chars); else msg_bits_hexdump(pdu + pdu_ptr + udh_chars, ud_chars); } else puts(decode_buf); return(0); } process_cmdline(argc, argv) char **argv; { int c; extern int optind; while ((c = getopt(argc, argv, "ehu")) != EOF) switch (c) { case 'e': ascii_ext_mode = 1; continue; case 'h': global_hexdump_mode = 1; continue; case 'u': ascii_ext_mode = 2; continue; default: fprintf(stderr, "%s: invalid option\n", argv[0]); exit(1); } if (argc > optind) infname = argv[optind]; } swallow_empty_line() { int c; c = getc(inf); if (c != '\n') ungetc(c, inf); } main(argc, argv) char **argv; { char *nl; int lineno, cc; process_cmdline(argc, argv); if (infname) { inf = fopen(infname, "r"); if (!inf) { perror(infname); exit(1); } } else { inf = stdin; infname = "stdin"; } for (lineno = 1; fgets(input_line, sizeof input_line, inf); lineno++) { nl = index(input_line, '\n'); if (!nl) { fprintf(stderr, "%s line %d: no newline\n", infname, lineno); exit(1); } *nl = '\0'; cc = decode_hex_line(input_line, pdu, sizeof pdu); if (cc <= 0) { puts(input_line); continue; } pdu_length = cc; cc = process_pdu(); if (cc < 0) { /* decode error, dump the raw PDU */ printf("\n%s\n", input_line); } putchar('\n'); swallow_empty_line(); } exit(0); }