/* * (C) 2013 by Andreas Eversberg * (C) 2015 by Alexander Chemeris * (C) 2016 by Tom Tsou * * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include "gsm0503.h" #include #include "gsm0503_interleaving.h" #include "gsm0503_mapping.h" #include "gsm0503_tables.h" #include "gsm0503_coding.h" #include "gsm0503_parity.h" #ifdef __cplusplus } #endif /* * EGPRS coding limits */ /* Max header size with parity bits */ #define EGPRS_HDR_UPP_MAX 54 /* Max encoded header size */ #define EGPRS_HDR_C_MAX 162 /* Max punctured header size */ #define EGPRS_HDR_HC_MAX 160 /* Max data block size with parity bits */ #define EGPRS_DATA_U_MAX 612 /* Max encoded data block size */ #define EGPRS_DATA_C_MAX 1836 /* Max single block punctured data size */ #define EGPRS_DATA_DC_MAX 1248 /* Dual block punctured data size */ #define EGPRS_DATA_C1 612 #define EGPRS_DATA_C2 EGPRS_DATA_C1 /* TS 101318 Chapter 5.1: 260 bits + 4bit sig */ #define GSM_FR_BYTES 33 /* TS 101318 Chapter 5.2: 112 bits, no sig */ #define GSM_HR_BYTES 14 /* TS 101318 Chapter 5.3: 244 bits + 4bit sig */ #define GSM_EFR_BYTES 31 struct gsm0503_mcs_code { uint8_t mcs; uint8_t usf_len; /* Header coding */ uint8_t hdr_len; uint8_t hdr_code_len; uint8_t hdr_punc_len; const struct osmo_conv_code *hdr_conv; const uint8_t *hdr_punc; /* Data coding */ uint16_t data_len; uint16_t data_code_len; uint16_t data_punc_len; const struct osmo_conv_code *data_conv; const uint8_t *data_punc[3]; }; static int osmo_conv_decode_ber(const struct osmo_conv_code *code, const sbit_t *input, ubit_t *output, int *n_errors, int *n_bits_total) { int res, i, coded_len; ubit_t recoded[EGPRS_DATA_C_MAX]; res = osmo_conv_decode(code, input, output); if (n_bits_total || n_errors) { coded_len = osmo_conv_encode(code, output, recoded); OSMO_ASSERT(sizeof(recoded) / sizeof(recoded[0]) >= coded_len); } /* Count bit errors */ if (n_errors) { *n_errors = 0; for (i = 0; i < coded_len; i++) { if (!((recoded[i] && input[i] < 0) || (!recoded[i] && input[i] > 0)) ) *n_errors += 1; } } if (n_bits_total) *n_bits_total = coded_len; return res; } static int _xcch_decode_cB(uint8_t *l2_data, sbit_t *cB, int *n_errors, int *n_bits_total) { ubit_t conv[224]; int rv; osmo_conv_decode_ber(&gsm0503_xcch, cB, conv, n_errors, n_bits_total); rv = osmo_crc64gen_check_bits(&gsm0503_fire_crc40, conv, 184, conv + 184); if (rv) return -1; osmo_ubit2pbit_ext(l2_data, 0, conv, 0, 184, 1); return 0; } static int _xcch_encode_cB(ubit_t *cB, uint8_t *l2_data) { ubit_t conv[224]; osmo_pbit2ubit_ext(conv, 0, l2_data, 0, 184, 1); osmo_crc64gen_set_bits(&gsm0503_fire_crc40, conv, 184, conv + 184); osmo_conv_encode(&gsm0503_xcch, conv, cB); return 0; } /* * GSM xCCH block transcoding */ int gsm0503_xcch_decode(uint8_t *l2_data, sbit_t *bursts, int *n_errors, int *n_bits_total) { sbit_t iB[456], cB[456]; int i; for (i = 0; i < 4; i++) gsm0503_xcch_burst_unmap(&iB[i * 114], &bursts[i * 116], NULL, NULL); gsm0503_xcch_deinterleave(cB, iB); return _xcch_decode_cB(l2_data, cB, n_errors, n_bits_total); } int gsm0503_xcch_encode(ubit_t *bursts, uint8_t *l2_data) { ubit_t iB[456], cB[456], hl = 1, hn = 1; int i; _xcch_encode_cB(cB, l2_data); gsm0503_xcch_interleave(cB, iB); for (i = 0; i < 4; i++) gsm0503_xcch_burst_map(&iB[i * 114], &bursts[i * 116], &hl, &hn); return 0; } /* * GSM PDTCH block transcoding */ int gsm0503_pdtch_decode(uint8_t *l2_data, sbit_t *bursts, uint8_t *usf_p, int *n_errors, int *n_bits_total) { sbit_t iB[456], cB[676], hl_hn[8]; ubit_t conv[456]; int i, j, k, rv, best = 0, cs = 0, usf = 0; /* make GCC happy */ for (i = 0; i < 4; i++) gsm0503_xcch_burst_unmap(&iB[i * 114], &bursts[i * 116], hl_hn + i * 2, hl_hn + i * 2 + 1); for (i = 0; i < 4; i++) { for (j = 0, k = 0; j < 8; j++) k += abs(((int)gsm0503_pdtch_hl_hn_sbit[i][j]) - ((int)hl_hn[j])); if (i == 0 || k < best) { best = k; cs = i+1; } } gsm0503_xcch_deinterleave(cB, iB); switch (cs) { case 1: osmo_conv_decode_ber(&gsm0503_xcch, cB, conv, n_errors, n_bits_total); rv = osmo_crc64gen_check_bits(&gsm0503_fire_crc40, conv, 184, conv + 184); if (rv) return -1; osmo_ubit2pbit_ext(l2_data, 0, conv, 0, 184, 1); return 23; case 2: for (i = 587, j = 455; i >= 0; i--) { if (!gsm0503_puncture_cs2[i]) cB[i] = cB[j--]; else cB[i] = 0; } osmo_conv_decode_ber(&gsm0503_cs2, cB, conv, n_errors, n_bits_total); for (i = 0; i < 8; i++) { for (j = 0, k = 0; j < 6; j++) k += abs(((int)gsm0503_usf2six[i][j]) - ((int)conv[j])); if (i == 0 || k < best) { best = k; usf = i; } } conv[3] = usf & 1; conv[4] = (usf >> 1) & 1; conv[5] = (usf >> 2) & 1; if (usf_p) *usf_p = usf; rv = osmo_crc16gen_check_bits(&gsm0503_cs234_crc16, conv + 3, 271, conv + 3 + 271); if (rv) return -1; osmo_ubit2pbit_ext(l2_data, 0, conv, 3, 271, 1); return 34; case 3: for (i = 675, j = 455; i >= 0; i--) { if (!gsm0503_puncture_cs3[i]) cB[i] = cB[j--]; else cB[i] = 0; } osmo_conv_decode_ber(&gsm0503_cs3, cB, conv, n_errors, n_bits_total); for (i = 0; i < 8; i++) { for (j = 0, k = 0; j < 6; j++) k += abs(((int)gsm0503_usf2six[i][j]) - ((int)conv[j])); if (i == 0 || k < best) { best = k; usf = i; } } conv[3] = usf & 1; conv[4] = (usf >> 1) & 1; conv[5] = (usf >> 2) & 1; if (usf_p) *usf_p = usf; rv = osmo_crc16gen_check_bits(&gsm0503_cs234_crc16, conv + 3, 315, conv + 3 + 315); if (rv) return -1; osmo_ubit2pbit_ext(l2_data, 0, conv, 3, 315, 1); return 40; case 4: for (i = 12; i < 456; i++) conv[i] = (cB[i] < 0) ? 1 : 0; for (i = 0; i < 8; i++) { for (j = 0, k = 0; j < 12; j++) k += abs(((int)gsm0503_usf2twelve_sbit[i][j]) - ((int)cB[j])); if (i == 0 || k < best) { best = k; usf = i; } } conv[9] = usf & 1; conv[10] = (usf >> 1) & 1; conv[11] = (usf >> 2) & 1; if (usf_p) *usf_p = usf; rv = osmo_crc16gen_check_bits(&gsm0503_cs234_crc16, conv + 9, 431, conv + 9 + 431); if (rv) { *n_bits_total = 456 - 12; *n_errors = *n_bits_total; return -1; } *n_bits_total = 456 - 12; *n_errors = 0; osmo_ubit2pbit_ext(l2_data, 0, conv, 9, 431, 1); return 54; default: *n_bits_total = 0; *n_errors = 0; break; } return -1; } int gsm0503_pdtch_encode(ubit_t *bursts, uint8_t *l2_data, uint8_t l2_len) { ubit_t iB[456], cB[676]; const ubit_t *hl_hn; ubit_t conv[334]; int i, j, usf; switch (l2_len) { case 23: osmo_pbit2ubit_ext(conv, 0, l2_data, 0, 184, 1); osmo_crc64gen_set_bits(&gsm0503_fire_crc40, conv, 184, conv + 184); osmo_conv_encode(&gsm0503_xcch, conv, cB); hl_hn = gsm0503_pdtch_hl_hn_ubit[0]; break; case 34: osmo_pbit2ubit_ext(conv, 3, l2_data, 0, 271, 1); usf = l2_data[0] & 0x7; osmo_crc16gen_set_bits(&gsm0503_cs234_crc16, conv + 3, 271, conv + 3 + 271); memcpy(conv, gsm0503_usf2six[usf], 6); osmo_conv_encode(&gsm0503_cs2, conv, cB); for (i = 0, j = 0; i < 588; i++) if (!gsm0503_puncture_cs2[i]) cB[j++] = cB[i]; hl_hn = gsm0503_pdtch_hl_hn_ubit[1]; break; case 40: osmo_pbit2ubit_ext(conv, 3, l2_data, 0, 315, 1); usf = l2_data[0] & 0x7; osmo_crc16gen_set_bits(&gsm0503_cs234_crc16, conv + 3, 315, conv + 3 + 315); memcpy(conv, gsm0503_usf2six[usf], 6); osmo_conv_encode(&gsm0503_cs3, conv, cB); for (i = 0, j = 0; i < 676; i++) if (!gsm0503_puncture_cs3[i]) cB[j++] = cB[i]; hl_hn = gsm0503_pdtch_hl_hn_ubit[2]; break; case 54: osmo_pbit2ubit_ext(cB, 9, l2_data, 0, 431, 1); usf = l2_data[0] & 0x7; osmo_crc16gen_set_bits(&gsm0503_cs234_crc16, cB + 9, 431, cB + 9 + 431); memcpy(cB, gsm0503_usf2twelve_ubit[usf], 12); hl_hn = gsm0503_pdtch_hl_hn_ubit[3]; break; default: return -1; } gsm0503_xcch_interleave(cB, iB); for (i = 0; i < 4; i++) { gsm0503_xcch_burst_map(&iB[i * 114], &bursts[i * 116], hl_hn + i * 2, hl_hn + i * 2 + 1); } return GSM0503_GPRS_BURSTS_NBITS; } /* * GSM TCH/F FR/EFR transcoding */ static void tch_fr_reassemble(uint8_t *tch_data, ubit_t *b_bits, int net_order) { int i, j, k, l, o; tch_data[0] = 0xd << 4; memset(tch_data + 1, 0, 32); if (net_order) { for (i = 0, j = 4; i < 260; i++, j++) tch_data[j >> 3] |= (b_bits[i] << (7 - (j & 7))); return; } /* reassemble d-bits */ i = 0; /* counts bits */ j = 4; /* counts output bits */ k = gsm0503_gsm_fr_map[0]-1; /* current number bit in element */ l = 0; /* counts element bits */ o = 0; /* offset input bits */ while (i < 260) { tch_data[j >> 3] |= (b_bits[k + o] << (7 - (j & 7))); if (--k < 0) { o += gsm0503_gsm_fr_map[l]; k = gsm0503_gsm_fr_map[++l]-1; } i++; j++; } } static void tch_fr_disassemble(ubit_t *b_bits, uint8_t *tch_data, int net_order) { int i, j, k, l, o; if (net_order) { for (i = 0, j = 4; i < 260; i++, j++) b_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1; return; } i = 0; /* counts bits */ j = 4; /* counts input bits */ k = gsm0503_gsm_fr_map[0] - 1; /* current number bit in element */ l = 0; /* counts element bits */ o = 0; /* offset output bits */ while (i < 260) { b_bits[k + o] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1; if (--k < 0) { o += gsm0503_gsm_fr_map[l]; k = gsm0503_gsm_fr_map[++l] - 1; } i++; j++; } } static void tch_hr_reassemble(uint8_t *tch_data, ubit_t *b_bits) { int i, j; tch_data[0] = 0x00; /* F = 0, FT = 000 */ memset(tch_data + 1, 0, 14); for (i = 0, j = 8; i < 112; i++, j++) tch_data[j >> 3] |= (b_bits[i] << (7 - (j & 7))); } static void tch_hr_disassemble(ubit_t *b_bits, uint8_t *tch_data) { int i, j; for (i = 0, j = 8; i < 112; i++, j++) b_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1; } static void tch_efr_reassemble(uint8_t *tch_data, ubit_t *b_bits) { int i, j; tch_data[0] = 0xc << 4; memset(tch_data + 1, 0, 30); for (i = 0, j = 4; i < 244; i++, j++) tch_data[j >> 3] |= (b_bits[i] << (7 - (j & 7))); } static void tch_efr_disassemble(ubit_t *b_bits, uint8_t *tch_data) { int i, j; for (i = 0, j = 4; i < 244; i++, j++) b_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1; } static void tch_amr_reassemble(uint8_t *tch_data, ubit_t *d_bits, int len) { int i, j; memset(tch_data, 0, (len + 7) >> 3); for (i = 0, j = 0; i < len; i++, j++) tch_data[j >> 3] |= (d_bits[i] << (7 - (j & 7))); } static void tch_amr_disassemble(ubit_t *d_bits, uint8_t *tch_data, int len) { int i, j; for (i = 0, j = 0; i < len; i++, j++) d_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1; } static void tch_fr_d_to_b(ubit_t *b_bits, ubit_t *d_bits) { int i; for (i = 0; i < 260; i++) b_bits[gsm610_bitorder[i]] = d_bits[i]; } static void tch_fr_b_to_d(ubit_t *d_bits, ubit_t *b_bits) { int i; for (i = 0; i < 260; i++) d_bits[i] = b_bits[gsm610_bitorder[i]]; } static void tch_hr_d_to_b(ubit_t *b_bits, ubit_t *d_bits) { int i; const uint16_t *map; if (!d_bits[93] && !d_bits[94]) map = gsm620_unvoiced_bitorder; else map = gsm620_voiced_bitorder; for (i = 0; i < 112; i++) b_bits[map[i]] = d_bits[i]; } static void tch_hr_b_to_d(ubit_t *d_bits, ubit_t *b_bits) { int i; const uint16_t *map; if (!b_bits[34] && !b_bits[35]) map = gsm620_unvoiced_bitorder; else map = gsm620_voiced_bitorder; for (i = 0; i < 112; i++) d_bits[i] = b_bits[map[i]]; } static void tch_efr_d_to_w(ubit_t *b_bits, ubit_t *d_bits) { int i; for (i = 0; i < 260; i++) b_bits[gsm660_bitorder[i]] = d_bits[i]; } static void tch_efr_w_to_d(ubit_t *d_bits, ubit_t *b_bits) { int i; for (i = 0; i < 260; i++) d_bits[i] = b_bits[gsm660_bitorder[i]]; } static void tch_efr_protected(ubit_t *s_bits, ubit_t *b_bits) { int i; for (i = 0; i < 65; i++) b_bits[i] = s_bits[gsm0503_gsm_efr_protected_bits[i] - 1]; } static void tch_fr_unreorder(ubit_t *d, ubit_t *p, ubit_t *u) { int i; for (i = 0; i < 91; i++) { d[i << 1] = u[i]; d[(i << 1) + 1] = u[184 - i]; } for (i = 0; i < 3; i++) p[i] = u[91 + i]; } static void tch_fr_reorder(ubit_t *u, ubit_t *d, ubit_t *p) { int i; for (i = 0; i < 91; i++) { u[i] = d[i << 1]; u[184 - i] = d[(i << 1) + 1]; } for (i = 0; i < 3; i++) u[91 + i] = p[i]; } static void tch_hr_unreorder(ubit_t *d, ubit_t *p, ubit_t *u) { memcpy(d, u, 95); memcpy(p, u + 95, 3); } static void tch_hr_reorder(ubit_t *u, ubit_t *d, ubit_t *p) { memcpy(u, d, 95); memcpy(u + 95, p, 3); } static void tch_efr_reorder(ubit_t *w, ubit_t *s, ubit_t *p) { memcpy(w, s, 71); w[71] = w[72] = s[69]; memcpy(w + 73, s + 71, 50); w[123] = w[124] = s[119]; memcpy(w + 125, s + 121, 53); w[178] = w[179] = s[172]; memcpy(w + 180, s + 174, 50); w[230] = w[231] = s[222]; memcpy(w + 232, s + 224, 20); memcpy(w + 252, p, 8); } static void tch_efr_unreorder(ubit_t *s, ubit_t *p, ubit_t *w) { int sum; memcpy(s, w, 71); sum = s[69] + w[71] + w[72]; s[69] = (sum > 2); memcpy(s + 71, w + 73, 50); sum = s[119] + w[123] + w[124]; s[119] = (sum > 2); memcpy(s + 121, w + 125, 53); sum = s[172] + w[178] + w[179]; s[172] = (sum > 2); memcpy(s + 174, w + 180, 50); sum = s[220] + w[230] + w[231]; s[222] = (sum > 2); memcpy(s + 224, w + 232, 20); memcpy(p, w + 252, 8); } static void tch_amr_merge(ubit_t *u, ubit_t *d, ubit_t *p, int len, int prot) { memcpy(u, d, prot); memcpy(u + prot, p, 6); memcpy(u + prot + 6, d + prot, len - prot); } static void tch_amr_unmerge(ubit_t *d, ubit_t *p, ubit_t *u, int len, int prot) { memcpy(d, u, prot); memcpy(p, u+prot, 6); memcpy(d + prot, u + prot + 6, len - prot); } int gsm0503_tch_fr_decode(uint8_t *tch_data, sbit_t *bursts, int net_order, int efr, int *n_errors, int *n_bits_total) { sbit_t iB[912], cB[456], h; ubit_t conv[185], s[244], w[260], b[65], d[260], p[8]; int i, rv, len, steal = 0; for (i=0; i<8; i++) { gsm0503_tch_burst_unmap(&iB[i * 114], &bursts[i * 116], &h, i >> 2); steal -= h; } gsm0503_tch_fr_deinterleave(cB, iB); if (steal > 0) { rv = _xcch_decode_cB(tch_data, cB, n_errors, n_bits_total); if (rv) { /* Error decoding FACCH frame */ return -1; } return 23; } osmo_conv_decode_ber(&gsm0503_tch_fr, cB, conv, n_errors, n_bits_total); tch_fr_unreorder(d, p, conv); for (i = 0; i < 78; i++) d[i + 182] = (cB[i + 378] < 0) ? 1 : 0; rv = osmo_crc8gen_check_bits(&gsm0503_tch_fr_crc3, d, 50, p); if (rv) { /* Error checking CRC8 for the FR part of an EFR/FR frame */ return -1; } if (efr) { tch_efr_d_to_w(w, d); tch_efr_unreorder(s, p, w); tch_efr_protected(s, b); rv = osmo_crc8gen_check_bits(&gsm0503_tch_efr_crc8, b, 65, p); if (rv) { /* Error checking CRC8 for the EFR part of an EFR frame */ return -1; } tch_efr_reassemble(tch_data, s); len = GSM_EFR_BYTES; } else { tch_fr_d_to_b(w, d); tch_fr_reassemble(tch_data, w, net_order); len = GSM_FR_BYTES; } return len; } int gsm0503_tch_fr_encode(ubit_t *bursts, uint8_t *tch_data, int len, int net_order) { ubit_t iB[912], cB[456], h; ubit_t conv[185], w[260], b[65], s[244], d[260], p[8]; int i; switch (len) { case GSM_EFR_BYTES: /* TCH EFR */ tch_efr_disassemble(s, tch_data); tch_efr_protected(s, b); osmo_crc8gen_set_bits(&gsm0503_tch_efr_crc8, b, 65, p); tch_efr_reorder(w, s, p); tch_efr_w_to_d(d, w); goto coding_efr_fr; case GSM_FR_BYTES: /* TCH FR */ tch_fr_disassemble(w, tch_data, net_order); tch_fr_b_to_d(d, w); coding_efr_fr: osmo_crc8gen_set_bits(&gsm0503_tch_fr_crc3, d, 50, p); tch_fr_reorder(conv, d, p); memcpy(cB + 378, d + 182, 78); osmo_conv_encode(&gsm0503_tch_fr, conv, cB); h = 0; break; case GSM_MACBLOCK_LEN: /* FACCH */ _xcch_encode_cB(cB, tch_data); h = 1; break; default: return -1; } gsm0503_tch_fr_interleave(cB, iB); for (i = 0; i < 8; i++) { gsm0503_tch_burst_map(&iB[i * 114], &bursts[i * 116], &h, i >> 2); } return 0; } int gsm0503_tch_hr_decode(uint8_t *tch_data, sbit_t *bursts, int odd, int *n_errors, int *n_bits_total) { sbit_t iB[912], cB[456], h; ubit_t conv[98], b[112], d[112], p[3]; int i, rv, steal = 0; /* Only unmap the stealing bits */ if (!odd) { for (i = 0; i < 4; i++) { gsm0503_tch_burst_unmap(NULL, &bursts[i * 116], &h, 0); steal -= h; } for (i = 2; i < 5; i++) { gsm0503_tch_burst_unmap(NULL, &bursts[i * 116], &h, 1); steal -= h; } } /* If we found a stole FACCH, but only at correct alignment */ if (steal > 0) { for (i = 0; i < 6; i++) { gsm0503_tch_burst_unmap(&iB[i * 114], &bursts[i * 116], NULL, i >> 2); } for (i = 2; i < 4; i++) { gsm0503_tch_burst_unmap(&iB[i * 114 + 456], &bursts[i * 116], NULL, 1); } gsm0503_tch_fr_deinterleave(cB, iB); rv = _xcch_decode_cB(tch_data, cB, n_errors, n_bits_total); if (rv) { /* Error decoding FACCH frame */ return -1; } return GSM_MACBLOCK_LEN; } for (i = 0; i < 4; i++) { gsm0503_tch_burst_unmap(&iB[i * 114], &bursts[i * 116], NULL, i >> 1); } gsm0503_tch_hr_deinterleave(cB, iB); osmo_conv_decode_ber(&gsm0503_tch_hr, cB, conv, n_errors, n_bits_total); tch_hr_unreorder(d, p, conv); for (i = 0; i < 17; i++) d[i + 95] = (cB[i + 211] < 0) ? 1 : 0; rv = osmo_crc8gen_check_bits(&gsm0503_tch_fr_crc3, d + 73, 22, p); if (rv) { /* Error checking CRC8 for an HR frame */ return -1; } tch_hr_d_to_b(b, d); tch_hr_reassemble(tch_data, b); return 15; } int gsm0503_tch_hr_encode(ubit_t *bursts, uint8_t *tch_data, int len) { ubit_t iB[912], cB[456], h; ubit_t conv[98], b[112], d[112], p[3]; int i; switch (len) { case 15: /* TCH HR */ tch_hr_disassemble(b, tch_data); tch_hr_b_to_d(d, b); osmo_crc8gen_set_bits(&gsm0503_tch_fr_crc3, d + 73, 22, p); tch_hr_reorder(conv, d, p); osmo_conv_encode(&gsm0503_tch_hr, conv, cB); memcpy(cB + 211, d + 95, 17); h = 0; gsm0503_tch_hr_interleave(cB, iB); for (i = 0; i < 4; i++) { gsm0503_tch_burst_map(&iB[i * 114], &bursts[i * 116], &h, i >> 1); } break; case GSM_MACBLOCK_LEN: /* FACCH */ _xcch_encode_cB(cB, tch_data); h = 1; gsm0503_tch_fr_interleave(cB, iB); for (i=0; i<6; i++) { gsm0503_tch_burst_map(&iB[i * 114], &bursts[i * 116], &h, i >> 2); } for (i=2; i<4; i++) { gsm0503_tch_burst_map(&iB[i * 114 + 456], &bursts[i * 116], &h, 1); } break; default: return -1; } return 0; } int gsm0503_tch_afs_decode(uint8_t *tch_data, sbit_t *bursts, int codec_mode_req, uint8_t *codec, int codecs, uint8_t *ft, uint8_t *cmr, int *n_errors, int *n_bits_total) { sbit_t iB[912], cB[456], h; ubit_t d[244], p[6], conv[250]; int i, j, k, best = 0, rv, len, steal = 0, id = 0; *n_errors = 0; *n_bits_total = 0; for (i=0; i<8; i++) { gsm0503_tch_burst_unmap(&iB[i * 114], &bursts[i * 116], &h, i >> 2); steal -= h; } gsm0503_tch_fr_deinterleave(cB, iB); if (steal > 0) { rv = _xcch_decode_cB(tch_data, cB, n_errors, n_bits_total); if (rv) { /* Error decoding FACCH frame */ return -1; } return GSM_MACBLOCK_LEN; } for (i = 0; i < 4; i++) { for (j = 0, k = 0; j < 8; j++) k += abs(((int)gsm0503_afs_ic_sbit[i][j]) - ((int)cB[j])); if (i == 0 || k < best) { best = k; id = i; } } /* Check if indicated codec fits into range of codecs */ if (id >= codecs) { /* Codec mode out of range, return id */ return id; } switch ((codec_mode_req) ? codec[*ft] : codec[id]) { case 7: /* TCH/AFS12.2 */ osmo_conv_decode_ber(&gsm0503_tch_afs_12_2, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 244, 81); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 81, p); if (rv) { /* Error checking CRC8 for an AMR 12.2 frame */ return -1; } tch_amr_reassemble(tch_data, d, 244); len = 31; break; case 6: /* TCH/AFS10.2 */ osmo_conv_decode_ber(&gsm0503_tch_afs_10_2, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 204, 65); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 65, p); if (rv) { /* Error checking CRC8 for an AMR 10.2 frame */ return -1; } tch_amr_reassemble(tch_data, d, 204); len = 26; break; case 5: /* TCH/AFS7.95 */ osmo_conv_decode_ber(&gsm0503_tch_afs_7_95, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 159, 75); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 75, p); if (rv) { /* Error checking CRC8 for an AMR 7.95 frame */ return -1; } tch_amr_reassemble(tch_data, d, 159); len = 20; break; case 4: /* TCH/AFS7.4 */ osmo_conv_decode_ber(&gsm0503_tch_afs_7_4, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 148, 61); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 61, p); if (rv) { /* Error checking CRC8 for an AMR 7.4 frame */ return -1; } tch_amr_reassemble(tch_data, d, 148); len = 19; break; case 3: /* TCH/AFS6.7 */ osmo_conv_decode_ber(&gsm0503_tch_afs_6_7, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 134, 55); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 55, p); if (rv) { /* Error checking CRC8 for an AMR 6.7 frame */ return -1; } tch_amr_reassemble(tch_data, d, 134); len = 17; break; case 2: /* TCH/AFS5.9 */ osmo_conv_decode_ber(&gsm0503_tch_afs_5_9, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 118, 55); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 55, p); if (rv) { /* Error checking CRC8 for an AMR 5.9 frame */ return -1; } tch_amr_reassemble(tch_data, d, 118); len = 15; break; case 1: /* TCH/AFS5.15 */ osmo_conv_decode_ber(&gsm0503_tch_afs_5_15, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 103, 49); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 49, p); if (rv) { /* Error checking CRC8 for an AMR 5.15 frame */ return -1; } tch_amr_reassemble(tch_data, d, 103); len = 13; break; case 0: /* TCH/AFS4.75 */ osmo_conv_decode_ber(&gsm0503_tch_afs_4_75, cB + 8, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 95, 39); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 39, p); if (rv) { /* Error checking CRC8 for an AMR 4.75 frame */ return -1; } tch_amr_reassemble(tch_data, d, 95); len = 12; break; default: /* Unknown frame type */ *n_bits_total = 448; *n_errors = *n_bits_total; return -1; } /* Change codec request / indication, if frame is valid */ if (codec_mode_req) *cmr = id; else *ft = id; return len; } int gsm0503_tch_afs_encode(ubit_t *bursts, uint8_t *tch_data, int len, int codec_mode_req, uint8_t *codec, int codecs, uint8_t ft, uint8_t cmr) { ubit_t iB[912], cB[456], h; ubit_t d[244], p[6], conv[250]; int i; uint8_t id; if (len == GSM_MACBLOCK_LEN) { /* FACCH */ _xcch_encode_cB(cB, tch_data); h = 1; goto facch; } h = 0; if (codec_mode_req) { if (cmr >= codecs) { /* FIXME: CMR ID is not in codec list! */ return -1; } id = cmr; } else { if (ft >= codecs) { /* FIXME: FT ID is not in codec list! */ return -1; } id = ft; } switch (codec[ft]) { case 7: /* TCH/AFS12.2 */ if (len != 31) goto invalid_length; tch_amr_disassemble(d, tch_data, 244); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 81, p); tch_amr_merge(conv, d, p, 244, 81); osmo_conv_encode(&gsm0503_tch_afs_12_2, conv, cB + 8); break; case 6: /* TCH/AFS10.2 */ if (len != 26) goto invalid_length; tch_amr_disassemble(d, tch_data, 204); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 65, p); tch_amr_merge(conv, d, p, 204, 65); osmo_conv_encode(&gsm0503_tch_afs_10_2, conv, cB + 8); break; case 5: /* TCH/AFS7.95 */ if (len != 20) goto invalid_length; tch_amr_disassemble(d, tch_data, 159); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 75, p); tch_amr_merge(conv, d, p, 159, 75); osmo_conv_encode(&gsm0503_tch_afs_7_95, conv, cB + 8); break; case 4: /* TCH/AFS7.4 */ if (len != 19) goto invalid_length; tch_amr_disassemble(d, tch_data, 148); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 61, p); tch_amr_merge(conv, d, p, 148, 61); osmo_conv_encode(&gsm0503_tch_afs_7_4, conv, cB + 8); break; case 3: /* TCH/AFS6.7 */ if (len != 17) goto invalid_length; tch_amr_disassemble(d, tch_data, 134); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 55, p); tch_amr_merge(conv, d, p, 134, 55); osmo_conv_encode(&gsm0503_tch_afs_6_7, conv, cB + 8); break; case 2: /* TCH/AFS5.9 */ if (len != 15) goto invalid_length; tch_amr_disassemble(d, tch_data, 118); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 55, p); tch_amr_merge(conv, d, p, 118, 55); osmo_conv_encode(&gsm0503_tch_afs_5_9, conv, cB + 8); break; case 1: /* TCH/AFS5.15 */ if (len != 13) goto invalid_length; tch_amr_disassemble(d, tch_data, 103); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 49, p); tch_amr_merge(conv, d, p, 103, 49); osmo_conv_encode(&gsm0503_tch_afs_5_15, conv, cB + 8); break; case 0: /* TCH/AFS4.75 */ if (len != 12) goto invalid_length; tch_amr_disassemble(d, tch_data, 95); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 39, p); tch_amr_merge(conv, d, p, 95, 39); osmo_conv_encode(&gsm0503_tch_afs_4_75, conv, cB + 8); break; default: /* FIXME: FT %ft is not supported */ return -1; } memcpy(cB, gsm0503_afs_ic_ubit[id], 8); facch: gsm0503_tch_fr_interleave(cB, iB); for (i = 0; i < 8; i++) { gsm0503_tch_burst_map(&iB[i * 114], &bursts[i * 116], &h, i >> 2); } return 0; invalid_length: /* FIXME: payload length %len does not comply with codec type %ft */ return -1; } int gsm0503_tch_ahs_decode(uint8_t *tch_data, sbit_t *bursts, int odd, int codec_mode_req, uint8_t *codec, int codecs, uint8_t *ft, uint8_t *cmr, int *n_errors, int *n_bits_total) { sbit_t iB[912], cB[456], h; ubit_t d[244], p[6], conv[135]; int i, j, k, best = 0, rv, len, steal = 0, id = 0; /* only unmap the stealing bits */ if (!odd) { for (i = 0; i < 4; i++) { gsm0503_tch_burst_unmap(NULL, &bursts[i * 116], &h, 0); steal -= h; } for (i = 2; i < 5; i++) { gsm0503_tch_burst_unmap(NULL, &bursts[i * 116], &h, 1); steal -= h; } } /* if we found a stole FACCH, but only at correct alignment */ if (steal > 0) { for (i = 0; i < 6; i++) { gsm0503_tch_burst_unmap(&iB[i * 114], &bursts[i * 116], NULL, i >> 2); } for (i = 2; i < 4; i++) { gsm0503_tch_burst_unmap(&iB[i * 114 + 456], &bursts[i * 116], NULL, 1); } gsm0503_tch_fr_deinterleave(cB, iB); rv = _xcch_decode_cB(tch_data, cB, n_errors, n_bits_total); if (rv) { /* Error decoding FACCH frame */ return -1; } return GSM_MACBLOCK_LEN; } for (i = 0; i < 4; i++) { gsm0503_tch_burst_unmap(&iB[i * 114], &bursts[i * 116], NULL, i >> 1); } gsm0503_tch_hr_deinterleave(cB, iB); for (i = 0; i < 4; i++) { for (j = 0, k = 0; j < 4; j++) k += abs(((int)gsm0503_ahs_ic_sbit[i][j]) - ((int)cB[j])); if (i == 0 || k < best) { best = k; id = i; } } /* Check if indicated codec fits into range of codecs */ if (id >= codecs) { /* Codec mode out of range, return id */ return id; } switch ((codec_mode_req) ? codec[*ft] : codec[id]) { case 5: /* TCH/AHS7.95 */ osmo_conv_decode_ber(&gsm0503_tch_ahs_7_95, cB + 4, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 123, 67); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 67, p); if (rv) { /* Error checking CRC8 for an AMR 7.95 frame */ return -1; } for (i = 0; i < 36; i++) d[i + 123] = (cB[i + 192] < 0) ? 1 : 0; tch_amr_reassemble(tch_data, d, 159); len = 20; break; case 4: /* TCH/AHS7.4 */ osmo_conv_decode_ber(&gsm0503_tch_ahs_7_4, cB + 4, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 120, 61); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 61, p); if (rv) { /* Error checking CRC8 for an AMR 7.4 frame */ return -1; } for (i = 0; i < 28; i++) d[i + 120] = (cB[i + 200] < 0) ? 1 : 0; tch_amr_reassemble(tch_data, d, 148); len = 19; break; case 3: /* TCH/AHS6.7 */ osmo_conv_decode_ber(&gsm0503_tch_ahs_6_7, cB + 4, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 110, 55); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 55, p); if (rv) { /* Error checking CRC8 for an AMR 6.7 frame */ return -1; } for (i = 0; i < 24; i++) d[i + 110] = (cB[i + 204] < 0) ? 1 : 0; tch_amr_reassemble(tch_data, d, 134); len = 17; break; case 2: /* TCH/AHS5.9 */ osmo_conv_decode_ber(&gsm0503_tch_ahs_5_9, cB + 4, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 102, 55); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 55, p); if (rv) { /* Error checking CRC8 for an AMR 5.9 frame */ return -1; } for (i = 0; i < 16; i++) d[i + 102] = (cB[i + 212] < 0) ? 1 : 0; tch_amr_reassemble(tch_data, d, 118); len = 15; break; case 1: /* TCH/AHS5.15 */ osmo_conv_decode_ber(&gsm0503_tch_ahs_5_15, cB + 4, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 91, 49); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 49, p); if (rv) { /* Error checking CRC8 for an AMR 5.15 frame */ return -1; } for (i = 0; i < 12; i++) d[i + 91] = (cB[i + 216] < 0) ? 1 : 0; tch_amr_reassemble(tch_data, d, 103); len = 13; break; case 0: /* TCH/AHS4.75 */ osmo_conv_decode_ber(&gsm0503_tch_ahs_4_75, cB + 4, conv, n_errors, n_bits_total); tch_amr_unmerge(d, p, conv, 83, 39); rv = osmo_crc8gen_check_bits(&gsm0503_amr_crc6, d, 39, p); if (rv) { /* Error checking CRC8 for an AMR 4.75 frame */ return -1; } for (i = 0; i < 12; i++) d[i + 83] = (cB[i + 216] < 0) ? 1 : 0; tch_amr_reassemble(tch_data, d, 95); len = 12; break; default: /* Unknown frame type */ *n_bits_total = 159; *n_errors = *n_bits_total; return -1; } /* Change codec request / indication, if frame is valid */ if (codec_mode_req) *cmr = id; else *ft = id; return len; } int gsm0503_tch_ahs_encode(ubit_t *bursts, uint8_t *tch_data, int len, int codec_mode_req, uint8_t *codec, int codecs, uint8_t ft, uint8_t cmr) { ubit_t iB[912], cB[456], h; ubit_t d[244], p[6], conv[135]; int i; uint8_t id; if (len == GSM_MACBLOCK_LEN) { /* FACCH */ _xcch_encode_cB(cB, tch_data); h = 1; gsm0503_tch_fr_interleave(cB, iB); for (i = 0; i < 6; i++) gsm0503_tch_burst_map(&iB[i * 114], &bursts[i * 116], &h, i >> 2); for (i = 2; i < 4; i++) gsm0503_tch_burst_map(&iB[i * 114 + 456], &bursts[i * 116], &h, 1); return 0; } h = 0; if (codec_mode_req) { if (cmr >= codecs) { /* FIXME: CMR ID %d not in codec list */ return -1; } id = cmr; } else { if (ft >= codecs) { /* FIXME: FT ID %d not in codec list */ return -1; } id = ft; } switch (codec[ft]) { case 5: /* TCH/AHS7.95 */ if (len != 20) goto invalid_length; tch_amr_disassemble(d, tch_data, 159); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 67, p); tch_amr_merge(conv, d, p, 123, 67); osmo_conv_encode(&gsm0503_tch_ahs_7_95, conv, cB + 4); memcpy(cB + 192, d + 123, 36); break; case 4: /* TCH/AHS7.4 */ if (len != 19) goto invalid_length; tch_amr_disassemble(d, tch_data, 148); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 61, p); tch_amr_merge(conv, d, p, 120, 61); osmo_conv_encode(&gsm0503_tch_ahs_7_4, conv, cB + 4); memcpy(cB + 200, d + 120, 28); break; case 3: /* TCH/AHS6.7 */ if (len != 17) goto invalid_length; tch_amr_disassemble(d, tch_data, 134); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 55, p); tch_amr_merge(conv, d, p, 110, 55); osmo_conv_encode(&gsm0503_tch_ahs_6_7, conv, cB + 4); memcpy(cB + 204, d + 110, 24); break; case 2: /* TCH/AHS5.9 */ if (len != 15) goto invalid_length; tch_amr_disassemble(d, tch_data, 118); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 55, p); tch_amr_merge(conv, d, p, 102, 55); osmo_conv_encode(&gsm0503_tch_ahs_5_9, conv, cB + 4); memcpy(cB + 212, d + 102, 16); break; case 1: /* TCH/AHS5.15 */ if (len != 13) goto invalid_length; tch_amr_disassemble(d, tch_data, 103); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 49, p); tch_amr_merge(conv, d, p, 91, 49); osmo_conv_encode(&gsm0503_tch_ahs_5_15, conv, cB + 4); memcpy(cB + 216, d + 91, 12); break; case 0: /* TCH/AHS4.75 */ if (len != 12) goto invalid_length; tch_amr_disassemble(d, tch_data, 95); osmo_crc8gen_set_bits(&gsm0503_amr_crc6, d, 39, p); tch_amr_merge(conv, d, p, 83, 39); osmo_conv_encode(&gsm0503_tch_ahs_4_75, conv, cB + 4); memcpy(cB + 216, d + 83, 12); break; default: /* FIXME: FT %ft is not supported */ return -1; } memcpy(cB, gsm0503_afs_ic_ubit[id], 4); gsm0503_tch_hr_interleave(cB, iB); for (i = 0; i < 4; i++) gsm0503_tch_burst_map(&iB[i * 114], &bursts[i * 116], &h, i >> 1); return 0; invalid_length: /* FIXME: payload length %len does not comply with codec type %ft */ return -1; } /* * GSM RACH transcoding */ /* * GSM RACH apply BSIC to parity * * p(j) = p(j) xor b(j) j = 0, ..., 5 * b(0) = MSB of PLMN colour code * b(5) = LSB of BS colour code */ static int rach_apply_bsic(ubit_t *d, uint8_t bsic) { int i; /* Apply it */ for (i = 0; i < 6; i++) d[8 + i] ^= ((bsic >> (5 - i)) & 1); return 0; } int gsm0503_rach_decode(uint8_t *ra, sbit_t *burst, uint8_t bsic) { ubit_t conv[14]; int rv; osmo_conv_decode(&gsm0503_rach, burst, conv); rach_apply_bsic(conv, bsic); rv = osmo_crc8gen_check_bits(&gsm0503_rach_crc6, conv, 8, conv + 8); if (rv) return -1; osmo_ubit2pbit_ext(ra, 0, conv, 0, 8, 1); return 0; } int gsm0503_rach_encode(ubit_t *burst, uint8_t *ra, uint8_t bsic) { ubit_t conv[14]; osmo_pbit2ubit_ext(conv, 0, ra, 0, 8, 1); osmo_crc8gen_set_bits(&gsm0503_rach_crc6, conv, 8, conv + 8); rach_apply_bsic(conv, bsic); osmo_conv_encode(&gsm0503_rach, conv, burst); return 0; } /* * GSM SCH transcoding */ int gsm0503_sch_decode(uint8_t *sb_info, sbit_t *burst) { ubit_t conv[35]; int rv; osmo_conv_decode(&gsm0503_sch, burst, conv); rv = osmo_crc16gen_check_bits(&gsm0503_sch_crc10, conv, 25, conv + 25); if (rv) return -1; osmo_ubit2pbit_ext(sb_info, 0, conv, 0, 25, 1); return 0; } int gsm0503_sch_encode(ubit_t *burst, uint8_t *sb_info) { ubit_t conv[35]; osmo_pbit2ubit_ext(conv, 0, sb_info, 0, 25, 1); osmo_crc16gen_set_bits(&gsm0503_sch_crc10, conv, 25, conv + 25); osmo_conv_encode(&gsm0503_sch, conv, burst); return 0; }