FreeCalypso > hg > sms-coding-utils
view gen-pdu/message.c @ 24:f0139d74d3aa
doc/Tool-workflow: document sms-encode-text -e option
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sat, 02 Sep 2023 19:45:47 +0000 |
| parents | 590b0b5bcbbb |
| children |
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/* * This module implements TPDU encoding of actual messages, after all * settings have been captured. */ #include <sys/types.h> #include <ctype.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include "error.h" extern int dir_mo, include_sca; extern u_char sc_addr[12], user_addr[12]; extern u_char mr_byte, pid_byte, dcs_byte; extern u_char scts_buf[7]; extern u_char vp_format, vp_buf[7]; extern int is_septet, scts_is_set; extern int flag_rp, flag_sr, flag_lp, flag_mms, flag_rd; extern int input_lineno; static void emit_first_octet(udhi) { u_char fo; if (dir_mo) { fo = flag_rd ? 5 : 1; fo |= vp_format; } else { fo = flag_mms ? 0 : 4; if (flag_lp) fo |= 0x08; } if (flag_sr) fo |= 0x20; if (udhi) fo |= 0x40; if (flag_rp) fo |= 0x80; printf("%02X", fo); } static void make_pdu(udl, ud_buf, ud_octets, udhi) u_char *ud_buf; unsigned udl, ud_octets; { if (include_sca) emit_hex_out(sc_addr, sc_addr[0] + 1, stdout); emit_first_octet(udhi); if (dir_mo) printf("%02X", mr_byte); emit_hex_out(user_addr, ((user_addr[0] + 1) >> 1) + 2, stdout); printf("%02X", pid_byte); printf("%02X", dcs_byte); if (!dir_mo) { if (!scts_is_set) set_auto_scts(); emit_hex_out(scts_buf, 7, stdout); } else if (vp_format == 0x10) printf("%02X", vp_buf[0]); else if (vp_format) emit_hex_out(vp_buf, 7, stdout); printf("%02X", udl); emit_hex_out(ud_buf, ud_octets, stdout); putchar('\n'); } static void cmd_msg_common(arg, udhi) char *arg; { u_char input[160], ud7[160], octbuf[140]; unsigned input_len, udhl, udhl1, udh_chars, plain_chars; unsigned udl, udl_octets; for (input_len = 0; ; input_len++) { while (isspace(*arg)) arg++; if (!*arg) break; if (!isxdigit(arg[0]) || !isxdigit(arg[1])) { fprintf(stderr, ERR_PREFIX "invalid hex string\n", input_lineno); exit(1); } if (input_len >= 160) { toolong: fprintf(stderr, ERR_PREFIX "hex string is too long\n", input_lineno); exit(1); } input[input_len] = (decode_hex_digit(arg[0]) << 4) | decode_hex_digit(arg[1]); arg += 2; } if (!is_septet && input_len > 140) goto toolong; if (udhi) { if (!input_len) { fprintf(stderr, ERR_PREFIX "empty message is invalid with UDHI\n", input_lineno); exit(1); } udhl = input[0]; udhl1 = udhl + 1; if (udhl1 > input_len) { fprintf(stderr, ERR_PREFIX "UDHL exceeds UD length\n", input_lineno); exit(1); } } if (!is_septet) { make_pdu(input_len, input, input_len, udhi); return; } if (udhi) udh_chars = (udhl1 * 8 + 6) / 7; else { udhl1 = 0; udh_chars = 0; } plain_chars = input_len - udhl1; if (check_high_bit(input + udhl1, plain_chars) < 0) { fprintf(stderr, ERR_PREFIX "high bit set in GSM7 data\n", input_lineno); exit(1); } udl = udh_chars + plain_chars; if (udl > 160) { fprintf(stderr, ERR_PREFIX "message exceeds 160 septets after UDH\n", input_lineno); exit(1); } udl_octets = (udl * 7 + 7) / 8; bzero(ud7, 160); bcopy(input + udhl1, ud7 + udh_chars, plain_chars); gsm7_pack(ud7, octbuf, udl_octets); if (udhi) bcopy(input, octbuf, udhl1); make_pdu(udl, octbuf, udl_octets, udhi); } void cmd_msg_plain(argc, argv) char **argv; { cmd_msg_common(argv[1], 0); } void cmd_msg_udh(argc, argv) char **argv; { cmd_msg_common(argv[1], 1); }