/* coding_scheme.c * * Copyright (C) 2019 by sysmocom s.f.m.c. GmbH * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include #include #include #include "coding_scheme.h" const struct value_string mcs_names[] = { { UNKNOWN, "UNKNOWN" }, { CS1, "CS-1" }, { CS2, "CS-2" }, { CS3, "CS-3" }, { CS4, "CS-4" }, { MCS1, "MCS-1" }, { MCS2, "MCS-2" }, { MCS3, "MCS-3" }, { MCS4, "MCS-4" }, { MCS5, "MCS-5" }, { MCS6, "MCS-6" }, { MCS7, "MCS-7" }, { MCS8, "MCS-8" }, { MCS9, "MCS-9" }, { 0, NULL } }; enum Family { FAMILY_INVALID, FAMILY_A, FAMILY_B, FAMILY_C, }; static struct { struct { uint8_t bytes; uint8_t ext_bits; uint8_t data_header_bits; } uplink, downlink; uint8_t data_bytes; uint8_t optional_padding_bits; enum HeaderType data_hdr; enum Family family; } mcs_info[NUM_SCHEMES] = { {{0, 0}, {0, 0}, 0, 0, HEADER_INVALID, FAMILY_INVALID}, {{23, 0}, {23, 0}, 20, 0, HEADER_GPRS_DATA, FAMILY_INVALID}, {{33, 7}, {33, 7}, 30, 0, HEADER_GPRS_DATA, FAMILY_INVALID}, {{39, 3}, {39, 3}, 36, 0, HEADER_GPRS_DATA, FAMILY_INVALID}, {{53, 7}, {53, 7}, 50, 0, HEADER_GPRS_DATA, FAMILY_INVALID}, {{26, 1}, {26, 1}, 22, 0, HEADER_EGPRS_DATA_TYPE_3, FAMILY_C}, {{32, 1}, {32, 1}, 28, 0, HEADER_EGPRS_DATA_TYPE_3, FAMILY_B}, {{41, 1}, {41, 1}, 37, 48, HEADER_EGPRS_DATA_TYPE_3, FAMILY_A}, {{48, 1}, {48, 1}, 44, 0, HEADER_EGPRS_DATA_TYPE_3, FAMILY_C}, {{60, 7}, {59, 6}, 56, 0, HEADER_EGPRS_DATA_TYPE_2, FAMILY_B}, {{78, 7}, {77, 6}, 74, 48, HEADER_EGPRS_DATA_TYPE_2, FAMILY_A}, {{118, 2}, {117, 4}, 56, 0, HEADER_EGPRS_DATA_TYPE_1, FAMILY_B}, {{142, 2}, {141, 4}, 68, 0, HEADER_EGPRS_DATA_TYPE_1, FAMILY_A}, {{154, 2}, {153, 4}, 74, 0, HEADER_EGPRS_DATA_TYPE_1, FAMILY_A}, }; const char *mcs_name(enum CodingScheme val) { return get_value_string(mcs_names, val); } bool mcs_is_gprs(enum CodingScheme cs) { return CS1 <= cs && cs <= CS4; } bool mcs_is_edge(enum CodingScheme cs) { return MCS1 <= cs && cs <= MCS9; } bool mcs_is_edge_gmsk(enum CodingScheme cs) { if (mcs_is_edge(cs)) return cs <= MCS4; return false; } /* Return 3GPP TS 44.060 ยง12.10d (EDGE) or Table 11.2.28.2 (GPRS) Channel Coding Command value */ uint8_t mcs_chan_code(enum CodingScheme cs) { if (mcs_is_gprs(cs)) return cs - CS1; if (mcs_is_edge(cs)) return cs - MCS1; /* Defaults to (M)CS1 */ return 0; } enum CodingScheme mcs_get_by_size_ul(unsigned size) { switch (size) { case 23: return CS1; case 27: return MCS1; case 33: return MCS2; case 34: return CS2; case 40: return CS3; case 42: return MCS3; case 49: return MCS4; case 54: return CS4; case 61: return MCS5; case 79: return MCS6; case 119: return MCS7; case 143: return MCS8; case 155: return MCS9; default: return UNKNOWN; } } enum CodingScheme mcs_get_gprs_by_num(unsigned num) { if (num < 1 || num > 4) return UNKNOWN; return CS1 + (num - 1); } enum CodingScheme mcs_get_egprs_by_num(unsigned num) { if (num < 1 || num > 9) return UNKNOWN; return MCS1 + (num - 1); } bool mcs_is_valid(enum CodingScheme cs) { return UNKNOWN < cs && cs <= MCS9; } bool mcs_is_compat_kind(enum CodingScheme cs, enum mcs_kind mode) { switch (mode) { case GPRS: return mcs_is_gprs(cs); case EGPRS_GMSK: return mcs_is_edge_gmsk(cs); case EGPRS: return mcs_is_edge(cs); } return false; } bool mcs_is_compat(enum CodingScheme cs, enum CodingScheme o) { return (mcs_is_gprs(cs) && mcs_is_gprs(o)) || (mcs_is_edge(cs) && mcs_is_edge(o)); } uint8_t mcs_size_ul(enum CodingScheme cs) { return mcs_info[cs].uplink.bytes + (mcs_spare_bits_ul(cs) ? 1 : 0); } uint8_t mcs_size_dl(enum CodingScheme cs) { return mcs_info[cs].downlink.bytes + (mcs_spare_bits_dl(cs) ? 1 : 0); } uint8_t mcs_used_size_ul(enum CodingScheme cs) { if (mcs_info[cs].data_hdr == HEADER_GPRS_DATA) return mcs_info[cs].uplink.bytes; else return mcs_size_ul(cs); } uint8_t mcs_used_size_dl(enum CodingScheme cs) { if (mcs_info[cs].data_hdr == HEADER_GPRS_DATA) return mcs_info[cs].downlink.bytes; else return mcs_size_dl(cs); } uint8_t mcs_max_bytes_ul(enum CodingScheme cs) { return mcs_info[cs].uplink.bytes; } uint8_t mcs_max_bytes_dl(enum CodingScheme cs) { return mcs_info[cs].downlink.bytes; } uint8_t mcs_spare_bits_ul(enum CodingScheme cs) { return mcs_info[cs].uplink.ext_bits; } uint8_t mcs_spare_bits_dl(enum CodingScheme cs) { return mcs_info[cs].downlink.ext_bits; } uint8_t mcs_max_data_block_bytes(enum CodingScheme cs) { return mcs_info[cs].data_bytes; } uint8_t mcs_opt_padding_bits(enum CodingScheme cs) { return mcs_info[cs].optional_padding_bits; } void mcs_inc_kind(enum CodingScheme *cs, enum mcs_kind mode) { if (!mcs_is_compat_kind(*cs, mode)) /* This should not happen. TODO: Use assert? */ return; enum CodingScheme new_cs = *cs + 1; if (!mcs_is_compat_kind(new_cs, mode)) /* Clipping, do not change the value */ return; *cs = new_cs; } void mcs_dec_kind(enum CodingScheme *cs, enum mcs_kind mode) { if (!mcs_is_compat_kind(*cs, mode)) /* This should not happen. TODO: Use assert? */ return; enum CodingScheme new_cs = *cs - 1; if (!mcs_is_compat_kind(new_cs, mode)) /* Clipping, do not change the value */ return; *cs = new_cs; } void mcs_inc(enum CodingScheme *cs) { if (mcs_is_gprs(*cs) && *cs == CS4) return; if (mcs_is_edge(*cs) && *cs == MCS9) return; if (!mcs_is_valid(*cs)) return; *cs = *cs + 1; } void mcs_dec(enum CodingScheme *cs) { if (mcs_is_gprs(*cs) && *cs == CS1) return; if (mcs_is_edge(*cs) && *cs == MCS1) return; if (!mcs_is_valid(*cs)) return; *cs = *cs - 1; } bool mcs_is_family_compat(enum CodingScheme cs, enum CodingScheme o) { if (cs == o) return true; if (mcs_info[cs].family == FAMILY_INVALID) return false; return mcs_info[cs].family == mcs_info[o].family; } void mcs_dec_to_single_block(enum CodingScheme *cs, bool *need_stuffing) { switch (*cs) { case MCS7: *need_stuffing = false; *cs = MCS5; break; case MCS8: *need_stuffing = true; *cs = MCS6; break; case MCS9: *need_stuffing = false; *cs = MCS6; break; default: *need_stuffing = false; break; } } static struct { struct { uint8_t data_header_bits; } uplink, downlink; uint8_t data_block_header_bits; uint8_t num_blocks; const char *name; } hdr_type_info[NUM_HEADER_TYPES] = { { { 0 }, { 0 }, 0, 0, "INVALID" }, { { 1 * 8 + 0 }, { 1 * 8 + 0 }, 0, 0, "CONTROL" }, { { 3 * 8 + 0 }, { 3 * 8 + 0 }, 0, 1, "GPRS_DATA" }, { { 5 * 8 + 6 }, { 5 * 8 + 0 }, 2, 2, "EGPRS_DATA_TYPE1" }, { { 4 * 8 + 5 }, { 3 * 8 + 4 }, 2, 1, "EGPRS_DATA_TYPE2" }, { { 3 * 8 + 7 }, { 3 * 8 + 7 }, 2, 1, "EGPRS_DATA_TYPE3" }, }; enum HeaderType mcs_header_type(enum CodingScheme mcs) { return mcs_info[mcs].data_hdr; } uint8_t num_data_blocks(enum HeaderType ht) { OSMO_ASSERT(ht < NUM_HEADER_TYPES); return hdr_type_info[ht].num_blocks; } uint8_t num_data_header_bits_UL(enum HeaderType ht) { OSMO_ASSERT(ht < NUM_HEADER_TYPES); return hdr_type_info[ht].uplink.data_header_bits; } uint8_t num_data_header_bits_DL(enum HeaderType ht) { OSMO_ASSERT(ht < NUM_HEADER_TYPES); return hdr_type_info[ht].downlink.data_header_bits; } uint8_t num_data_block_header_bits(enum HeaderType ht) { OSMO_ASSERT(ht < NUM_HEADER_TYPES); return hdr_type_info[ht].data_block_header_bits; } const struct value_string mode_names[] = { { GPRS, "GPRS" }, { EGPRS_GMSK, "EGPRS_GMSK-only"}, { EGPRS, "EGPRS"}, { 0, NULL } }; const char *mode_name(enum mcs_kind val) { return get_value_string(mode_names, val); } /* FIXME: take into account padding and special cases of commanded MCS (MCS-6-9 and MCS-5-7) */ enum CodingScheme get_retx_mcs(enum CodingScheme initial_mcs, enum CodingScheme commanded_mcs, bool resegment_bit) { OSMO_ASSERT(mcs_is_edge(initial_mcs)); OSMO_ASSERT(mcs_is_edge(commanded_mcs)); OSMO_ASSERT(NUM_SCHEMES - MCS1 == 9); if (resegment_bit) { /* 3GPP TS 44.060 Table 8.1.1.1, reflected over antidiagonal */ enum CodingScheme egprs_reseg[NUM_SCHEMES - MCS1][NUM_SCHEMES - MCS1] = { { MCS1, MCS1, MCS1, MCS1, MCS1, MCS1, MCS1, MCS1, MCS1 }, { MCS2, MCS2, MCS2, MCS2, MCS2, MCS2, MCS2, MCS2, MCS2 }, { MCS3, MCS3, MCS3, MCS3, MCS3, MCS3, MCS3, MCS3, MCS3 }, { MCS1, MCS1, MCS1, MCS4, MCS4, MCS4, MCS4, MCS4, MCS4 }, { MCS2, MCS2, MCS2, MCS2, MCS5, MCS5, MCS7, MCS7, MCS7 }, { MCS3, MCS3, MCS3, MCS3, MCS3, MCS6, MCS6, MCS6, MCS9 }, { MCS2, MCS2, MCS2, MCS2, MCS5, MCS5, MCS7, MCS7, MCS7 }, { MCS3, MCS3, MCS3, MCS3, MCS3, MCS6, MCS6, MCS8, MCS8 }, { MCS3, MCS3, MCS3, MCS3, MCS3, MCS6, MCS6, MCS6, MCS9 }, }; return egprs_reseg[mcs_chan_code(initial_mcs)][mcs_chan_code(commanded_mcs)]; } else { /* 3GPP TS 44.060 Table 8.1.1.2, reflected over antidiagonal */ enum CodingScheme egprs_no_reseg[NUM_SCHEMES - MCS1][NUM_SCHEMES - MCS1] = { { MCS1, MCS1, MCS1, MCS1, MCS1, MCS1, MCS1, MCS1, MCS1 }, { MCS2, MCS2, MCS2, MCS2, MCS2, MCS2, MCS2, MCS2, MCS2 }, { MCS3, MCS3, MCS3, MCS3, MCS3, MCS3, MCS3, MCS3, MCS3 }, { MCS4, MCS4, MCS4, MCS4, MCS4, MCS4, MCS4, MCS4, MCS4 }, { MCS5, MCS5, MCS5, MCS5, MCS5, MCS5, MCS7, MCS7, MCS7 }, { MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS9 }, { MCS5, MCS5, MCS5, MCS5, MCS5, MCS5, MCS7, MCS7, MCS7 }, { MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS8, MCS8 }, { MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS6, MCS9 }, }; return egprs_no_reseg[mcs_chan_code(initial_mcs)][mcs_chan_code(commanded_mcs)]; } }