/* New (2020) TRAU frame handling according to GSM TS 48.060 + 48.061 */ /* (C) 2020 by Harald Welte * All Rights Reserved * * SPDX-License-Identifier: AGPL-3.0+ * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation; either version 3 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * */ #include "internal.h" #include #include #include #include #include #include #include /*! \addtogroup trau_frame * @{ * * \file trau_frame.c */ static uint32_t get_bits(const ubit_t *bitbuf, int offset, int num) { int i; uint32_t ret = 0; for (i = offset; i < offset + num; i++) { ret = ret << 1; if (bitbuf[i]) ret |= 1; } return ret; } const struct value_string osmo_trau_frame_type_names[] = { { OSMO_TRAU_FT_NONE, "NONE" }, { OSMO_TRAU16_FT_FR, "FR" }, { OSMO_TRAU16_FT_HR, "HR" }, { OSMO_TRAU16_FT_EFR, "EFR" }, { OSMO_TRAU16_FT_AMR, "AMR" }, { OSMO_TRAU16_FT_OAM, "OAM" }, { OSMO_TRAU16_FT_DATA, "DATA" }, { OSMO_TRAU16_FT_EDATA, "EDATA" }, { OSMO_TRAU16_FT_D145_SYNC, "D145_SYNC" }, { OSMO_TRAU16_FT_DATA_HR, "DATA_HR" }, { OSMO_TRAU16_FT_IDLE, "IDLE" }, { OSMO_TRAU8_SPEECH, "8SPEECH" }, { OSMO_TRAU8_DATA, "8DATA" }, { OSMO_TRAU8_OAM, "8OAM" }, { OSMO_TRAU8_AMR_LOW, "8AMR_LOW" }, { OSMO_TRAU8_AMR_6k7, "8AMR_6k7" }, { OSMO_TRAU8_AMR_7k4, "8AMR_7k4" }, { 0, NULL } }; /********************************************************************************* * New API; introduced in 2020 for use by osmo-mgw *********************************************************************************/ /* Bits C21..C22 (16k) or C4..C5 (8k) */ enum ts48060_amr_frame_classification { TS48060_AMR_FC_SPEECH_GOOD = 0x3, TS48060_AMR_FC_SPEECH_DEGRADED = 0x2, TS48060_AMR_FC_SPEECH_BAD = 0x1, TS48060_AMR_FC_NO_SPEECH = 0x0, }; /* GSM 08.60 frame types, 16k sub-slots */ static const ubit_t ft_fr_up_bits[5] = { 0, 0, 0, 1, 0 }; static const ubit_t ft_fr_down_bits[5] = { 1, 1, 1, 0, 0 }; static const ubit_t ft_data_up_bits[5] = { 0, 1, 0, 0, 0 }; static const ubit_t ft_data_down_bits[5] = { 1, 0, 1, 1, 0 }; static const ubit_t ft_idle_up_bits[5] = { 1, 0, 0, 0, 0 }; static const ubit_t ft_idle_down_bits[5] = { 0, 1, 1, 1, 0 }; static const ubit_t ft_efr_bits[5] = { 1, 1, 0, 1, 0 }; static const ubit_t ft_amr_bits[5] = { 0, 0, 1, 1, 0 }; static const ubit_t ft_oam_up_bits[5] = { 0, 0, 1, 0, 1 }; static const ubit_t ft_oam_down_bits[5] = { 1, 1, 0, 1, 1 }; static const ubit_t ft_d145s_bits[5] = { 1, 0, 1, 0, 0 }; static const ubit_t ft_edata_bits[5] = { 1, 1, 1, 1, 1 }; /* GSM 08.61 frame types, still on 16k sub-slots */ static const ubit_t ft_hr_up_bits[5] = { 0, 0, 0, 1, 1 }; static const ubit_t ft_hr_down_bits[5] = { 1, 1, 1, 0, 1 }; static const ubit_t ft_data_hr_up_bits[5] = { 0, 1, 0, 0, 1 }; static const ubit_t ft_data_hr_down_bits[5] = { 1, 0, 1, 1, 1 }; /* generate the sync pattern described in TS 08.60 4.8.1 */ static void encode_sync16(ubit_t *trau_bits) { int i; /* 16 '0' bits in header */ memset(trau_bits, 0, 16); /* '1'-bit in regular intervals */ for (i = 16; i < 40*8; i += 16) trau_bits[i] = 1; } #define T16_500us 8 /* 500 us = 8 bits */ #define T16_250us 4 /* 250 us = 4 bits */ #define T8_250us 2 /* 250 us = 2 bits */ #define T8_125us 1 /* 125 us = 1 bits */ /* How many 16k bits to delay / advance (TS 48.060 Section 5.5.1.1.1) */ static int trau_frame_16_ta_us(uint8_t c6_11) { if (c6_11 <= 0x27) return c6_11 * 500; /* delay frame N x 500us */ else if (c6_11 == 0x3e) return 250; /* delay frame 250us */ else if (c6_11 == 0x3f) return -250; /* advance frame 250us */ else return 0; } /* How many 8k bits to delay / advance (TS 48.061 Table 6.1) */ static int trau_frame_8_ta_us(uint8_t c6_8) { /* TA2..TA1..TA0 == C6..C7..C8 */ switch (c6_8) { case 0x7: return 0; case 0x6: return -250; case 0x5: return 250; case 0x3: return 500; case 0x4: return 1000; case 0x2: return 2000; case 0x1: return 6000; case 0: return 9000; default: return 0; } } /*! Determine the time alignment in us requested by CCU in a UL frame */ int osmo_trau_frame_dl_ta_us(const struct osmo_trau_frame *fr) { uint8_t c6_11, c6_8, fc; /* timing alignment is only communicated from CCU to TRAU in UL */ if (fr->dir == OSMO_TRAU_DIR_DL) return 0; switch (fr->type) { case OSMO_TRAU16_FT_FR: case OSMO_TRAU16_FT_EFR: case OSMO_TRAU16_FT_HR: case OSMO_TRAU16_FT_AMR: c6_11 = (fr->c_bits[5] << 5) | (fr->c_bits[6] << 4) | (fr->c_bits[7] << 3) | (fr->c_bits[8] << 2) | (fr->c_bits[9] << 1) | (fr->c_bits[10] << 0); return trau_frame_16_ta_us(c6_11); break; case OSMO_TRAU8_SPEECH: c6_8 = (fr->c_bits[5] << 2) | (fr->c_bits[6] << 1) | (fr->c_bits[7] << 0); return trau_frame_8_ta_us(c6_8); break; case OSMO_TRAU8_AMR_LOW: fc = (fr->c_bits[3] << 1) | (fr->c_bits[4] << 0); if (fc == TS48060_AMR_FC_NO_SPEECH) { c6_11 = (fr->c_bits[5] << 5) | (fr->c_bits[6] << 4) | (fr->c_bits[7] << 3) | (fr->c_bits[8] << 2) | (fr->c_bits[9] << 1) | (fr->c_bits[10] << 0); /* For AMR speech on 8 kBit/s submultiplexing the same procedures as for AMR * speech on 16 kBit/s submultiplexing shall be applied, see 3GPP TS 48.060 */ return trau_frame_16_ta_us(c6_11); } else return 0; break; default: return 0; } } static int encode16_handle_ta(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { if (fr->dir == OSMO_TRAU_DIR_DL) { int num_bits = fr->dl_ta_usec * T16_250us / 250; if (num_bits > 0) { if (num_bits > 39 * 8) num_bits = 39; memset(trau_bits + 40 * 8, 1, num_bits); return 40 * 8 + num_bits; } else if (num_bits < 0) { if (num_bits < -1 * T16_250us) num_bits = -1 * T16_250us; return 40 * 8 + num_bits; } } return 40 * 8; } static int encode8_handle_ta(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { if (fr->dir == OSMO_TRAU_DIR_DL) { int num_bits = fr->dl_ta_usec * T8_250us / 250; if (num_bits > 0) { if (num_bits > 20 * 8 - 2) num_bits = 20 * 8 - 2; memset(trau_bits + 20 * 8, 1, num_bits); return 20 * 8 + num_bits; } else if (num_bits < 0) { if (num_bits < -1 * T8_250us) num_bits = -2; return 20 * 8 + num_bits; } } return 20 * 8; } /* TS 08.60 Section 3.1.1 */ static int encode16_fr(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { const ubit_t *cbits5; int i; int d_idx = 0; switch (fr->type) { case OSMO_TRAU16_FT_IDLE: if (fr->dir == OSMO_TRAU_DIR_UL) cbits5 = ft_idle_up_bits; else cbits5 = ft_idle_down_bits; break; case OSMO_TRAU16_FT_FR: if (fr->dir == OSMO_TRAU_DIR_UL) cbits5 = ft_fr_up_bits; else cbits5 = ft_fr_down_bits; break; case OSMO_TRAU16_FT_EFR: cbits5 = ft_efr_bits; break; default: return -EINVAL; } encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5 + 0, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 15 - 5); /* D1 .. D255 */ for (i = 32; i < 304; i += 16) { trau_bits[i] = 1; memcpy(trau_bits + i + 1, fr->d_bits + d_idx, 15); d_idx += 15; } /* D256 .. D260 */ trau_bits[304] = 1; memcpy(trau_bits + 305, fr->d_bits + d_idx, 5); /* C16 .. C21 */ memcpy(trau_bits + 310, fr->c_bits + 15, 6); /* T1 .. T4 */ memcpy(trau_bits + 316, fr->t_bits+0, 4); /* handle timing adjustment */ return encode16_handle_ta(trau_bits, fr); } /* TS 08.60 Section 3.1.1 */ static int decode16_fr(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i; int d_idx = 0; /* C1 .. C15 */ memcpy(fr->c_bits + 0, trau_bits + 17, 15); /* C16 .. C21 */ memcpy(fr->c_bits + 15, trau_bits + 310, 6); /* T1 .. T4 */ memcpy(fr->t_bits + 0, trau_bits + 316, 4); /* D1 .. D255 */ for (i = 32; i < 304; i+= 16) { memcpy(fr->d_bits + d_idx, trau_bits + i + 1, 15); d_idx += 15; } /* D256 .. D260 */ memcpy(fr->d_bits + d_idx, trau_bits + 305, 5); return 0; } /* TS 08.60 Section 3.1.2 */ static int encode16_amr(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { const ubit_t *cbits5 = ft_amr_bits; int i, d_idx; encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5 + 0, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 15 - 5); trau_bits[32] = 1; /* C16 .. C25 */ memcpy(trau_bits + 33, fr->c_bits + 15, 10); /* D1 .. D5 */ memcpy(trau_bits + 43, fr->d_bits + 0, 5); /* D6 .. D256 */ for (i = 48, d_idx = 5; i <= 315; i += 16, d_idx += 15) { trau_bits[i] = 1; memcpy(trau_bits + i + 1, fr->d_bits + d_idx, 15); } /* T1 .. T4 */ memcpy(trau_bits + 316, fr->t_bits + 0, 4); return encode16_handle_ta(trau_bits, fr); /* FIXME: handle TAE (Timing Alignment Extension) */ } /* TS 08.60 Section 3.1.2 */ static int decode16_amr(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i; int d_idx = 0; /* C1 .. C15 */ memcpy(fr->c_bits + 0, trau_bits + 17, 15); /* C16 .. C25 */ memcpy(fr->c_bits + 15, trau_bits + 33, 10); /* T1 .. T4 */ memcpy(fr->t_bits + 0, trau_bits + 316, 4); /* D1 .. D5 */ memcpy(fr->d_bits, trau_bits + 43, 5); d_idx += 5; /* D6 .. D245 */ for (i = 48; i < 304; i += 16) { memcpy(fr->d_bits + d_idx, trau_bits + i + 1, 15); d_idx += 15; } /* D246 .. D256 */ memcpy(fr->d_bits + d_idx, trau_bits + 305, 11); return 0; } /* TS 08.60 Section 3.2 */ static int encode16_oam(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { const ubit_t *cbits5; int i, d_idx; if (fr->dir == OSMO_TRAU_DIR_UL) cbits5 = ft_oam_up_bits; else cbits5 = ft_oam_down_bits; encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits, 15 - 5); /* D1 .. D255 */ for (i = 32, d_idx = 0; i < 304; i += 16, d_idx += 15) { trau_bits[i] = 1; memcpy(trau_bits + i + 1, fr->d_bits + d_idx, 15); } /* D256 .. D264 */ memcpy(trau_bits + 305, fr->d_bits + 256, 9); /* S1 .. S6 */ memcpy(trau_bits + 314, fr->s_bits, 6); return 40 * 8; } /* TS 08.60 Section 3.2 */ static int decode16_oam(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx; /* C1 .. C15 */ memcpy(fr->c_bits + 0, trau_bits + 17, 15); /* D1 .. D255 */ for (i = 33, d_idx = 0; i < 312; i+= 16, d_idx += 15) memcpy(fr->d_bits + d_idx, trau_bits + i + 1, 15); /* D256 .. D264 */ memcpy(fr->d_bits+d_idx, trau_bits + 305, 9); /* S1 .. S6 */ memcpy(fr->s_bits, trau_bits + 314, 6); return 0; } /* TS 08.61 Section 5.1.1.1 */ static int encode16_hr(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int d_idx = 0; const ubit_t *cbits5; if (fr->dir == OSMO_TRAU_DIR_UL) cbits5 = ft_hr_up_bits; else cbits5 = ft_hr_down_bits; encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 10); /* UFI */ trau_bits[33] = fr->ufi; /* D1 .. D14 */ memcpy(trau_bits + 4 * 8 + 2, fr->d_bits+d_idx, 14); d_idx += 14; /* D15 .. D29 */ memcpy(trau_bits + 6 * 8 + 1, fr->d_bits+d_idx, 15); d_idx += 15; /* D30 .. D44 */ memcpy(trau_bits + 8 * 8 + 1, fr->d_bits+d_idx, 15); d_idx += 15; /* CRC */ memcpy(trau_bits + 10 * 8 + 1, fr->crc_bits, 3); /* D45 .. D56 */ memcpy(trau_bits + 10 * 8 + 4, fr->d_bits+d_idx, 12); d_idx += 12; /* D57 .. D71 */ memcpy(trau_bits + 12 * 8 + 1, fr->d_bits+d_idx, 15); d_idx += 15; /* D72 .. D86 */ memcpy(trau_bits + 14 * 8 + 1, fr->d_bits+d_idx, 15); d_idx += 15; /* D87 .. D101 */ memcpy(trau_bits + 16 * 8 + 1, fr->d_bits+d_idx, 15); d_idx += 15; /* D102 .. D112 */ memcpy(trau_bits + 18 * 8 + 1, fr->d_bits+d_idx, 11); d_idx += 11; memset(trau_bits + 19 * 8 + 4, 0x01, 4 + 18 * 8 + 6); /* C16 .. C21 */ memcpy(trau_bits + 38 * 8 + 6, fr->c_bits + 15, 6); /* T1 .. T4 */ memcpy(trau_bits + 39 * 8 + 4, fr->t_bits, 4); /* handle timing adjustment */ return encode16_handle_ta(trau_bits, fr); } /* TS 08.61 Section 5.1.1.1 */ static int decode16_hr(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int d_idx = 0; /* C1 .. C15 */ memcpy(fr->c_bits + 0, trau_bits + 17, 15); /* C16 .. C21 */ memcpy(fr->c_bits + 15, trau_bits + 38 * 8 + 6, 6); /* T1 .. T4 */ memcpy(fr->t_bits + 0, trau_bits + 39 * 8 + 4, 4); /* UFI */ fr->ufi = trau_bits[33]; /* D1 .. D14 */ memcpy(fr->d_bits + d_idx, trau_bits + 4 * 8 + 2, 14); d_idx += 14; /* D15 .. D29 */ memcpy(fr->d_bits + d_idx, trau_bits + 6 * 8 + 1, 15); d_idx += 15; /* D30 .. D44 */ memcpy(fr->d_bits + d_idx, trau_bits + 8 * 8 + 1, 15); d_idx += 15; /* CRC0..2 */ memcpy(fr->crc_bits, trau_bits + 10 * 8 + 1, 3); /* D45 .. D56 */ memcpy(fr->d_bits + d_idx, trau_bits + 10 * 8 + 4, 12); d_idx += 12; /* D57 .. D71 */ memcpy(fr->d_bits + d_idx, trau_bits + 12 * 8 + 1, 15); d_idx += 15; /* D72 .. D86 */ memcpy(fr->d_bits + d_idx, trau_bits + 14 * 8 + 1, 15); d_idx += 15; /* D87 .. D101 */ memcpy(fr->d_bits + d_idx, trau_bits + 16 * 8 + 1, 15); d_idx += 15; /* D102 .. D112 */ memcpy(fr->d_bits + d_idx, trau_bits + 18 * 8 + 1, 11); d_idx += 11; return 0; } static struct osmo_trau_frame fr_idle_frame = { .type = OSMO_TRAU16_FT_IDLE, .dir = OSMO_TRAU_DIR_DL, .t_bits = { 1, 1, 1, 1 }, }; #define TRAU_FRAME_BITS (40*8) static ubit_t encoded_idle_frame[TRAU_FRAME_BITS]; static int dbits_initted = 0; /*! \brief return pointer to global buffer containing a TRAU idle frame */ static ubit_t *trau_idle_frame(void) { /* only initialize during the first call */ if (!dbits_initted) { /* set all D-bits to 1 */ memset(&fr_idle_frame.d_bits, 0x01, 260); memset(&fr_idle_frame.c_bits, 0x01, 25); /* spare are set to 1 */ /* set Downlink Idle Speech Frame pattern */ fr_idle_frame.c_bits[0] = 0; /* C1 */ fr_idle_frame.c_bits[1] = 1; /* C2 */ fr_idle_frame.c_bits[2] = 1; /* C3 */ fr_idle_frame.c_bits[3] = 1; /* C4 */ fr_idle_frame.c_bits[4] = 0; /* C5 */ /* set no Time Alignment pattern */ fr_idle_frame.c_bits[5] = 0; /* C6 */ fr_idle_frame.c_bits[6] = 0; /* C7 */ fr_idle_frame.c_bits[7] = 0; /* C8 */ fr_idle_frame.c_bits[8] = 0; /* C9 */ fr_idle_frame.c_bits[9] = 0; /* C10 */ fr_idle_frame.c_bits[10] = 0; /* C11 */ /* already set to 1, but maybe we need to modify it in the future */ fr_idle_frame.c_bits[11] = 1; /* C12 (UFE), good frame */ fr_idle_frame.c_bits[15] = 1; /* C16 (SP), no DTX */ encode16_fr(encoded_idle_frame, &fr_idle_frame); dbits_initted = 1; /* set it to 1 to not call it again */ } return encoded_idle_frame; } /* TS 08.60 Section 3.4 */ static int encode16_idle(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { memcpy(trau_bits, trau_idle_frame(), 40*8); return 40 * 8; } /* TS 08.60 Section 3.3.1 */ static int decode16_data(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* C1 .. C15 */ memcpy(fr->c_bits + 0, trau_bits + 17, 15); /* D1 .. D63 */ for (i = 0; i < 9; i++) { memcpy(fr->d_bits + d_idx, trau_bits + (4 + i) * 8 + 1, 7); d_idx += 7; } /* D64 .. D126 */ for (i = 0; i < 9; i++) { memcpy(fr->d_bits + d_idx, trau_bits + (13 + i) * 8 + 1, 7); d_idx += 7; } /* D127 .. D189 */ for (i = 0; i < 9; i++) { memcpy(fr->d_bits + d_idx, trau_bits + (22 + i) * 8 + 1, 7); d_idx += 7; } /* D190 .. D252 */ for (i = 0; i < 9; i++) { memcpy(fr->d_bits + d_idx, trau_bits + (31 + i) * 8 + 1, 7); d_idx += 7; } return 0; } /* TS 08.60 Section 3.3.1 */ static int encode16_data(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { const ubit_t *cbits5; int i, d_idx = 0; if (fr->dir == OSMO_TRAU_DIR_UL) cbits5 = ft_data_up_bits; else cbits5 = ft_data_down_bits; encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 15 - 5); /* D1 .. D63 */ for (i = 0; i < 9; i++) { unsigned int offset = (4 + i) * 8; trau_bits[offset] = 1; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D64 .. D126 */ for (i = 0; i < 9; i++) { unsigned int offset = (13 + i) * 8; trau_bits[offset] = 1; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D127 .. D189 */ for (i = 0; i < 9; i++) { unsigned int offset = (22 + i) * 8; trau_bits[offset] = 1; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D190 .. D252 */ for (i = 0; i < 9; i++) { unsigned int offset = (31 + i) * 8; trau_bits[offset] = 1; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } return 40 * 8; } /* TS 48.060 section 5.5.3 */ static int encode16_d145_sync(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, ft_d145s_bits, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 15 - 5); /* This frame is for sync only, all data bits filled with 1s */ memset(trau_bits + 4 * 8, 1, (40 - 4) * 8); return 40 * 8; } /* TS 08.60 3.3.2 */ static int decode16_edata(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { /* C1 .. C13 */ memcpy(fr->c_bits, trau_bits + 17, 13); /* M1 .. M2 */ memcpy(fr->m_bits, trau_bits + 30, 2); /* D1 .. D288 */ memcpy(fr->d_bits, trau_bits + 4 * 8, 288); return 0; } /* TS 08.60 Section 3.3.2 */ static int encode16_edata(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { const ubit_t *cbits5; if (fr->type == OSMO_TRAU16_FT_D145_SYNC) cbits5 = ft_d145s_bits; else cbits5 = ft_edata_bits; /* sync pattern */ memset(trau_bits, 0, 16); trau_bits[16] = 1; /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5, 5); /* C6 .. C13 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 8); /* M1 .. M2 */ memcpy(trau_bits + 30, fr->m_bits, 2); /* D1 .. D288 */ memcpy(trau_bits + 4 * 8, fr->d_bits, 288); return 40 * 8; } /* TS 08.61 Section 5.1.2 */ static int decode16_data_hr(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* C1 .. C15 */ memcpy(fr->c_bits+0, trau_bits + 17, 15); /* D1 .. D63 */ for (i = 0; i < 9; i++) { memcpy(fr->d_bits + d_idx, trau_bits + (4 + i) * 8 + 1, 7); d_idx += 7; } /* D'1 .. D'63 (mapped to D64..D127) */ for (i = 0; i < 9; i++) { memcpy(fr->d_bits + d_idx, trau_bits + (22 + i) * 8 + 1, 7); d_idx += 7; } return 0; } /* TS 08.61 Section 5.1.2 */ static int encode16_data_hr(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { const ubit_t *cbits5; int i, d_idx = 0; if (fr->dir == OSMO_TRAU_DIR_UL) cbits5 = ft_data_hr_up_bits; else cbits5 = ft_data_hr_down_bits; encode_sync16(trau_bits); /* C1 .. C5 */ memcpy(trau_bits + 17, cbits5, 5); /* C6 .. C15 */ memcpy(trau_bits + 17 + 5, fr->c_bits + 5, 15 - 5); /* D1 .. D63 */ for (i = 4; i < 4 + 9; i++) { unsigned int offset = i * 8; trau_bits[offset] = 1; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } memset(trau_bits + 13*8, 1, 9*8); /* D'1 .. D'63 (mapped to D64..D127) */ for (i = 22; i < 22 + 9; i++) { unsigned int offset = i * 8; trau_bits[offset] = 1; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } memset(trau_bits + 31*8, 1, 9*8); return 40 * 8; } /* TS 08.61 Section 5.2.1.1 */ static int decode8_hr(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* C1 .. C5 */ memcpy(fr->c_bits, trau_bits + 9, 5); /* XC1 .. XC2 */ memcpy(fr->xc_bits, trau_bits + 8 + 6, 2); /* XC3 .. XC6 */ memcpy(fr->xc_bits + 2, trau_bits + 2 * 8 + 2, 4); /* D1 .. D2 */ memcpy(fr->d_bits + d_idx, trau_bits + 2 * 8 + 6, 2); d_idx += 2; /* D1 .. D44 */ for (i = 3; i < 3 + 6; i++) { int offset = i * 8; memcpy(fr->d_bits + d_idx, trau_bits + offset + 1, 7); d_idx += 7; } /* CRC0 .. CRC2 */ memcpy(fr->crc_bits, trau_bits + 73, 3); /* D45 .. D48 */ memcpy(fr->d_bits + d_idx, trau_bits + 76, 4); d_idx += 4; /* D49 .. D111 */ for (i = 10; i < 10 + 9; i++) { int offset = i * 8; memcpy(fr->d_bits + d_idx, trau_bits + offset + 1, 7); d_idx += 7; } /* D112 */ fr->d_bits[d_idx++] = trau_bits[19 * 8 + 1]; /* C6 .. C9 */ memcpy(fr->c_bits + 5, trau_bits + 19 * 8 + 2, 4); /* T1 .. T2 */ fr->t_bits[0] = trau_bits[19 * 8 + 6]; fr->t_bits[1] = trau_bits[19 * 8 + 7]; return 0; } /* compute the odd parity bit of the given input bit sequence */ static ubit_t compute_odd_parity(const ubit_t *in, unsigned int num_bits) { int i; unsigned int sum = 0; for (i = 0; i < num_bits; i++) { if (in[i]) sum++; } if (sum & 1) return 0; else return 1; } /* TS 08.61 Section 5.2.1.1 */ static int encode8_hr(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int i, d_idx = 0; /* sync pattern */ memset(trau_bits, 0, 8); trau_bits[8] = 1; trau_bits[16] = 0; trau_bits[17] = 1; for (i = 3; i < 20; i++) trau_bits[i * 8] = 1; /* C1 .. C5 */ ubit_t *cbits_out = trau_bits + 1 * 8 + 1; if (fr->dir == OSMO_TRAU_DIR_UL) { cbits_out[0] = 0; cbits_out[1] = 0; cbits_out[2] = 0; cbits_out[3] = 1; cbits_out[4] = 0; } else { cbits_out[0] = 0; cbits_out[1] = 0; cbits_out[2] = 0; cbits_out[3] = fr->c_bits[3]; cbits_out[4] = compute_odd_parity(cbits_out, 4); } /* XC1 .. XC2 */ memcpy(trau_bits + 1 * 8 + 6, fr->xc_bits, 2); /* XC3 .. XC6 */ memcpy(trau_bits + 2 * 8 + 2, fr->xc_bits + 2, 4); /* D1 .. D2 */ memcpy(trau_bits + 2 * 8 + 6, fr->d_bits, 2); d_idx += 2; /* D1 .. D44 */ for (i = 3; i < 3 + 6; i++) { int offset = i * 8; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; }; /* CRC0 .. CRC2 */ memcpy(trau_bits + 73, fr->crc_bits, 3); /* D45 .. D48 */ memcpy(trau_bits + 76, fr->d_bits + d_idx, 4); d_idx += 4; /* D49 .. D111 */ for (i = 10; i < 10 + 9; i++) { int offset = i * 8; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D112 */ trau_bits[19 * 8 + 1] = fr->d_bits[d_idx++]; /* C6 .. C9 */ memcpy(trau_bits + 19 * 8 + 2, fr->c_bits + 5, 4); /* T1 .. T2 */ trau_bits[19 * 8 + 6] = fr->t_bits[0]; trau_bits[19 * 8 + 7] = fr->t_bits[1]; /* handle timing adjustment */ return encode8_handle_ta(trau_bits, fr); } /* TS 08.61 Section 5.2.1.2.1 */ static int decode8_amr_low(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* D1 .. D7 */ memcpy(fr->d_bits + d_idx, trau_bits + 1 * 8 + 1, 7); d_idx += 7; /* C1 .. C5 */ memcpy(fr->c_bits, trau_bits + 2 * 8 + 1, 5); /* D8 .. D9 */ memcpy(fr->d_bits + d_idx, trau_bits + 2 * 8 + 6, 2); d_idx += 2; /* D10 .. D15 */ memcpy(fr->d_bits + d_idx, trau_bits + 3 * 8 + 2, 6); d_idx += 6; /* D16 .. D120 */ for (i = 4; i < 19; i++) { int offset = i * 8; memcpy(fr->d_bits + d_idx, trau_bits + offset + 1, 7); d_idx += 7; } /* D121 .. D126 */ memcpy(fr->d_bits + d_idx, trau_bits + 19 * 8 + 1, 6); d_idx += 6; /* T1 */ fr->t_bits[0] = trau_bits[19 * 8 + 7]; return 0; } /* TS 08.61 Section 5.2.1.2.1 */ static int encode8_amr_low(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int i, d_idx = 0; /* sync pattern */ memset(trau_bits, 0, 8); trau_bits[8] = 1; trau_bits[16] = 1; trau_bits[24] = 0; trau_bits[25] = 1; for (i = 4; i < 20; i++) trau_bits[i * 8] = 1; /* D1 .. D7 */ memcpy(trau_bits + 1 * 8 + 1, fr->d_bits + d_idx, 7); d_idx += 7; /* C1 .. C5 */ memcpy(trau_bits + 2 * 8 + 1, fr->c_bits, 5); /* D8 .. D9 */ memcpy(trau_bits + 2 * 8 + 6, fr->d_bits + d_idx, 2); d_idx += 2; /* D10 .. D15 */ memcpy(trau_bits + 3 * 8 + 2, fr->d_bits + d_idx, 6); d_idx += 6; /* D16 .. D120 */ for (i = 4; i < 19; i++) { int offset = i * 8; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D121 .. D126 */ memcpy(trau_bits + 19 * 8 + 1, fr->d_bits + d_idx, 6); d_idx += 6; /* T1 */ trau_bits[19 * 8 + 7] = fr->t_bits[0]; return encode8_handle_ta(trau_bits, fr); } /* TS 08.61 Section 5.2.1.2.2 */ static int decode8_amr_67(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* D1 .. D7 */ memcpy(fr->d_bits + d_idx, trau_bits + 1 * 8 + 1, 7); d_idx += 7; /* C1 .. C3 */ memcpy(fr->c_bits, trau_bits + 2 * 8 + 1, 3); /* D8 .. D11 */ memcpy(fr->d_bits + d_idx, trau_bits + 2 * 8 + 4, 4); d_idx += 4; /* D12 .. D39 */ for (i = 3; i < 7; i++) { int offset = i * 8; memcpy(fr->d_bits + d_idx, trau_bits + offset + 2, 7); d_idx += 7; } /* D40 .. D137 */ for (i = 7; i < 20; i+= 2) { int offset = i * 8; memcpy(fr->d_bits + d_idx, trau_bits + offset + 1, 15); d_idx += 15; } return 0; } /* TS 08.61 Section 5.1.2.2 */ static int encode8_amr_67(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int i, d_idx = 0; /* sync pattern */ memset(trau_bits, 0, 8); trau_bits[1 * 8] = 1; trau_bits[2 * 8] = 1; trau_bits[3 * 8] = 1; trau_bits[4 * 8] = 1; trau_bits[5 * 8] = 0; for (i = 5; i < 20; i += 2) trau_bits[i * 8] = 1; /* D1 .. D7 */ memcpy(trau_bits + 1 * 8 + 1, fr->d_bits + d_idx, 7); d_idx += 7; /* C1 .. C3 */ memcpy(trau_bits + 2 * 8 + 1, fr->c_bits, 3); /* D8 .. D11 */ memcpy(trau_bits + 2 * 8 + 4, fr->d_bits + d_idx, 4); d_idx += 4; /* D12 .. D39 */ for (i = 3; i < 7; i++) { int offset = i * 8; memcpy(trau_bits + offset + 2, fr->d_bits + d_idx, 7); d_idx += 7; } /* D40 .. D137 */ for (i = 7; i < 20; i+= 2) { int offset = i * 8; memcpy(trau_bits + offset + 1, fr->d_bits + d_idx, 15); d_idx += 15; } return encode8_handle_ta(trau_bits, fr); } /* TS 08.61 Section 5.1.2.3 */ static int decode8_amr_74(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int d_idx = 0; /* D1 .. D5 */ memcpy(fr->d_bits + d_idx, trau_bits + 3, 5); d_idx += 5; /* D6 .. D12 */ memcpy(fr->d_bits + d_idx, trau_bits + 1 * 8 + 1, 7); d_idx += 7; /* C1.. C3 */ memcpy(fr->c_bits, trau_bits + 2 * 8 + 1, 3); /* D13 .. D16 */ memcpy(fr->d_bits + d_idx, trau_bits + 2 * 8 + 4, 4); d_idx += 4; /* D17 .. D23 */ memcpy(fr->d_bits + d_idx, trau_bits + 3 * 8 + 1, 7); d_idx += 7; /* D24 .. D151 */ memcpy(fr->d_bits + d_idx, trau_bits + 4 * 8, 16 * 8); return 0; } /* TS 08.61 Section 5.1.2.3 */ static int encode8_amr_74(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int d_idx = 0; /* sync pattern */ trau_bits[0] = 0; trau_bits[1] = 0; trau_bits[2] = 1; trau_bits[1*8] = 0; trau_bits[2*8] = 1; trau_bits[3*8] = 0; /* D1 .. D5 */ memcpy(trau_bits + 3, fr->d_bits + d_idx, 5); d_idx += 5; /* D6 .. D12 */ memcpy(trau_bits + 1 * 8 + 1, fr->d_bits + d_idx, 7); d_idx += 7; /* C1.. C3 */ memcpy(trau_bits + 2 * 8 + 1, fr->c_bits, 3); /* D13 .. D16 */ memcpy(trau_bits + 2 * 8 + 4, fr->d_bits + d_idx, 4); d_idx += 4; /* D17 .. D23 */ memcpy(trau_bits + 3 * 8 + 1, fr->d_bits + d_idx, 7); d_idx += 7; /* D24 .. D151 */ memcpy(trau_bits + 4 * 8, fr->d_bits + d_idx, 16 * 8); return encode8_handle_ta(trau_bits, fr); } /* TS 08.61 Section 5.2.2 */ static int decode8_data(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* C1 .. C5 */ memcpy(fr->c_bits, trau_bits + 1 * 8 + 1, 5); /* D1 .. D2 */ memcpy(fr->d_bits + d_idx, trau_bits + 1 * 8 + 6, 2); d_idx += 2; /* D3 .. D8 */ memcpy(fr->d_bits + d_idx, trau_bits + 2 * 8 + 2, 6); d_idx += 6; /* D9 .. D63 + D'1 .. D'57 */ for (i = 3; i < 19; i++) { memcpy(fr->d_bits + d_idx, trau_bits + i * 8 + 1, 7); d_idx += 7; } /* D'58 .. D'63 */ memcpy(fr->d_bits + d_idx, trau_bits + 19 * 8 + 1, 6); d_idx += 6; return 0; } /* TS 08.61 Section 5.2.2 */ static int encode8_data(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int i, d_idx = 0; /* sync pattern */ memset(trau_bits, 0, 8); trau_bits[1 * 8] = 1; trau_bits[2 * 8] = 0; trau_bits[2 * 8 + 1] = 1; for (i = 3; i < 20; i++) trau_bits[i * 8] = 1; trau_bits[19 * 8 + 7] = 1; /* C1 .. C5 */ memcpy(trau_bits + 1 * 8 + 1, fr->c_bits, 5); /* D1 .. D2 */ memcpy(trau_bits + 1 * 8 + 6, fr->d_bits + d_idx, 2); d_idx += 2; /* D3 .. D8 */ memcpy(trau_bits + 2 * 8 + 2, fr->d_bits + d_idx, 6); d_idx += 6; /* D9 .. D63 + D'1 .. D'57 */ for (i = 3; i < 19; i++) { memcpy(trau_bits + i * 8 + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D'58 .. D'63 */ memcpy(trau_bits + 19 * 8 + 1, fr->d_bits + d_idx, 6); d_idx += 6; return 20 * 8; } /* TS 08.61 Section 5.2.3 */ static int decode8_oam(struct osmo_trau_frame *fr, const ubit_t *trau_bits, enum osmo_trau_frame_direction dir) { int i, d_idx = 0; /* C1 .. C5 */ memcpy(fr->c_bits, trau_bits + 1 * 8 + 1, 5); /* XC1 .. XC2 */ memcpy(fr->xc_bits, trau_bits + 1 * 8 + 6, 2); /* XC3 .. XC6 */ memcpy(fr->xc_bits + 2, trau_bits + 2 * 8 + 2, 4); /* D1 .. D2 */ memcpy(fr->d_bits + d_idx, trau_bits + 2 * 8 + 6, 2); d_idx += 2; /* D3 .. D114 */ for (i = 3; i < 19; i++) { memcpy(fr->d_bits + d_idx, trau_bits + i * 8 + 1, 7); d_idx += 7; } /* D115 .. D120 */ memcpy(fr->d_bits + d_idx, trau_bits + 19 * 8 + 1, 6); d_idx += 7; return 0; } /* TS 08.61 Section 5.2.3 */ static int encode8_oam(ubit_t *trau_bits, const struct osmo_trau_frame *fr) { int i, d_idx = 0; /* sync pattern */ memset(trau_bits, 0, 8); trau_bits[1 * 8 + 0] = 1; trau_bits[2 * 8 + 0] = 0; trau_bits[2 * 8 + 1] = 1; for (i = 3; i < 20; i++) trau_bits[i * 8] = 1; /* C1 .. C5 */ memcpy(trau_bits + 1 * 8 + 1, fr->c_bits, 5); /* XC1 .. XC2 */ memcpy(trau_bits + 1 * 8 + 6, fr->xc_bits, 2); /* XC3 .. XC6 */ memcpy(trau_bits + 2 * 8 + 2, fr->xc_bits + 2, 4); /* D1 .. D2 */ memcpy(trau_bits + 2 * 8 + 6, fr->d_bits + d_idx, 2); d_idx += 2; /* D3 .. D114 */ for (i = 3; i < 19; i++) { memcpy(trau_bits + i * 8 + 1, fr->d_bits + d_idx, 7); d_idx += 7; } /* D115 .. D120 */ memcpy(trau_bits + 19 * 8 + 1, fr->d_bits + d_idx, 6); d_idx += 7; return 20 * 8; } /*! Encode a TRAU frame from its decoded representation to a sequence of unpacked bits. * \param[out] bits caller-allocated buffer for unpacked outpud bits * \param[in] n_bits size of 'bits' oputput buffer in number of unpacked bits * \param[in] fr decoded representation of TRAU frame to be encoded * \return 0 number of unpacked output bits generated; negative in case of error */ int osmo_trau_frame_encode(ubit_t *bits, size_t n_bits, const struct osmo_trau_frame *fr) { /* check for sufficient space provided by caller in output buffer */ switch (fr->type) { case OSMO_TRAU16_FT_FR: case OSMO_TRAU16_FT_EFR: case OSMO_TRAU16_FT_HR: case OSMO_TRAU16_FT_AMR: /* timing alignment may happen: increased space requirement */ if (n_bits < 2 * 40 * 8 - 1) return -ENOSPC; break; case OSMO_TRAU16_FT_OAM: case OSMO_TRAU16_FT_IDLE: case OSMO_TRAU16_FT_DATA_HR: case OSMO_TRAU16_FT_DATA: case OSMO_TRAU16_FT_D145_SYNC: case OSMO_TRAU16_FT_EDATA: if (n_bits < 1 * 40 * 8) return -ENOSPC; break; case OSMO_TRAU8_SPEECH: case OSMO_TRAU8_AMR_LOW: case OSMO_TRAU8_AMR_6k7: case OSMO_TRAU8_AMR_7k4: /* timing alignment may happen: increased space requirement */ if (n_bits < 2 * 20 * 8 - 1) return -ENOSPC; break; case OSMO_TRAU8_DATA: case OSMO_TRAU8_OAM: if (n_bits < 1 * 20 * 8) return -ENOSPC; break; case OSMO_TRAU_FT_NONE: break; default: return -EINVAL; } switch (fr->type) { case OSMO_TRAU16_FT_FR: case OSMO_TRAU16_FT_EFR: return encode16_fr(bits, fr); case OSMO_TRAU16_FT_HR: return encode16_hr(bits, fr); case OSMO_TRAU16_FT_AMR: return encode16_amr(bits, fr); case OSMO_TRAU16_FT_OAM: return encode16_oam(bits, fr); case OSMO_TRAU16_FT_IDLE: return encode16_idle(bits, fr); case OSMO_TRAU16_FT_DATA_HR: return encode16_data_hr(bits, fr); case OSMO_TRAU16_FT_DATA: return encode16_data(bits, fr); case OSMO_TRAU16_FT_D145_SYNC: return encode16_d145_sync(bits, fr); case OSMO_TRAU16_FT_EDATA: return encode16_edata(bits, fr); case OSMO_TRAU8_SPEECH: return encode8_hr(bits, fr); case OSMO_TRAU8_DATA: return encode8_data(bits, fr); case OSMO_TRAU8_OAM: return encode8_oam(bits, fr); case OSMO_TRAU8_AMR_LOW: return encode8_amr_low(bits, fr); case OSMO_TRAU8_AMR_6k7: return encode8_amr_67(bits, fr); case OSMO_TRAU8_AMR_7k4: return encode8_amr_74(bits, fr); case OSMO_TRAU_FT_NONE: default: return -EINVAL; } } /*! Decode/parse a 16k TRAU frame from unpacked bits to decoded format. * \param[out] fr caller-allocated output data structure * \param[in] bits unpacked bits containing raw TRAU frame; must be aligned * \param[in] dir direction (uplink/downlink) * \returns 0 in case of success; negative on error */ int osmo_trau_frame_decode_16k(struct osmo_trau_frame *fr, const ubit_t *bits, enum osmo_trau_frame_direction dir) { uint8_t cbits5 = get_bits(bits, 17, 5); fr->type = OSMO_TRAU_FT_NONE; fr->dir = dir; fr->dl_ta_usec = 0; switch (cbits5) { case TRAU_FT_FR_UP: case TRAU_FT_FR_DOWN: fr->type = OSMO_TRAU16_FT_FR; return decode16_fr(fr, bits, dir); case TRAU_FT_IDLE_UP: case TRAU_FT_IDLE_DOWN: fr->type = OSMO_TRAU16_FT_IDLE; return decode16_fr(fr, bits, dir); case TRAU_FT_EFR: fr->type = OSMO_TRAU16_FT_EFR; return decode16_fr(fr, bits, dir); case TRAU_FT_AMR: fr->type = OSMO_TRAU16_FT_AMR; return decode16_amr(fr, bits, dir); case TRAU_FT_OM_UP: case TRAU_FT_OM_DOWN: fr->type = OSMO_TRAU16_FT_OAM; return decode16_oam(fr, bits, dir); case TRAU_FT_DATA_UP: case TRAU_FT_DATA_DOWN: fr->type = OSMO_TRAU16_FT_DATA; return decode16_data(fr, bits, dir); case TRAU_FT_HR_UP: case TRAU_FT_HR_DOWN: fr->type = OSMO_TRAU16_FT_HR; return decode16_hr(fr, bits, dir); case TRAU_FT_DATA_UP_HR: case TRAU_FT_DATA_DOWN_HR: fr->type = OSMO_TRAU16_FT_DATA_HR; return decode16_data_hr(fr, bits, dir); case TRAU_FT_EDATA: fr->type = OSMO_TRAU16_FT_EDATA; return decode16_edata(fr, bits, dir); case TRAU_FT_D145_SYNC: fr->type = OSMO_TRAU16_FT_D145_SYNC; return decode16_data(fr, bits, dir); default: return -EINVAL; } } #define TRAU8_FT_AMR_NO_SPEECH_CMI 0x10 /* 1, 0, 0, 0, 0 */ #define TRAU8_FT_AMR_NO_SPEECH_CMR 0x14 /* 1, 0, 1, 0, 0 */ #define TRAU8_FT_AMR_475_515_590 0..7 static const uint8_t bit8_0[8] = { 0, }; /*!< check sync pattern for hr/data/oam */ static bool is_hr(const ubit_t *bits) { int i; /* TS 08.61 Section 6.8.2.1.1 */ if (memcmp(bits, bit8_0, sizeof(bit8_0))) return false; if (bits[8] != 1) return false; if (bits[16] != 0 || bits[17] != 1) return false; for (i = 24; i < 20 * 8; i += 8) { if (bits[i] != 1) return false; } return true; } /*!< check sync pattern for AMR No_Speech + low bit rate */ static bool is_amr_low(const ubit_t *bits) { int i; /* TS 08.61 Section 6.8.2.1.2 */ if (memcmp(bits, bit8_0, sizeof(bit8_0))) return false; if (bits[8] != 1) return false; if (bits[16] != 1) return false; if (bits[24] != 0 || bits[25] != 1) return false; for (i = 32; i < 20 * 8; i += 8) { if (bits[i] != 1) return false; } return true; } /*!< check sync pattern for AMR 6.7kBit/s */ static bool is_amr_67(const ubit_t *bits) { int i; /* TS 08.61 Section 6.8.2.1.3 */ if (memcmp(bits, bit8_0, sizeof(bit8_0))) return false; if (bits[8] != 1) return false; if (bits[16] != 1) return false; if (bits[24] != 1) return false; if (bits[32] != 1) return false; if (bits[40] != 0) return false; for (i = 48; i < 20 * 8; i+= 16) if (bits[i] != 1) return false; return true; } /*!< check sync pattern for AMR 7.4kBit/s */ static bool is_amr_74(const ubit_t *bits) { if (bits[0] != 0 || bits[1] != 0 || bits[2] != 1) return false; if (bits[8] != 0) return false; if (bits[16] != 1) return false; if (bits[24] != 0) return false; return true; } /*! Decode/parse a 8k TRAU frame from unpacked bits to decoded format. * \param[out] fr caller-allocated output data structure * \param[in] bits unpacked bits containing raw TRAU frame; must be aligned * \param[in] dir direction (uplink/downlink) * \returns 0 in case of success; negative on error */ int osmo_trau_frame_decode_8k(struct osmo_trau_frame *fr, const ubit_t *bits, enum osmo_trau_frame_direction dir) { fr->type = OSMO_TRAU_FT_NONE; fr->dir = dir; fr->dl_ta_usec = 0; if (is_hr(bits)) { /* normal sync pattern */ uint8_t cbits5 = get_bits(bits, 9, 5); if (dir == OSMO_TRAU_DIR_UL) { switch (cbits5) { /* Section 5.2.4.1.1 */ case 0x02: fr->type = OSMO_TRAU8_SPEECH; return decode8_hr(fr, bits, dir); case 0x07: fr->type = OSMO_TRAU8_DATA; return decode8_data(fr, bits, dir); case 0x0B: fr->type = OSMO_TRAU8_OAM; return decode8_oam(fr, bits, dir); } } else { /* Downlink */ switch (cbits5 >> 2) { /* Section 5.2.4.1.2 */ case 0: fr->type = OSMO_TRAU8_SPEECH; return decode8_hr(fr, bits, dir); case 1: fr->type = OSMO_TRAU8_DATA; return decode8_data(fr, bits, dir); case 2: fr->type = OSMO_TRAU8_OAM; return decode8_oam(fr, bits, dir); } } } else if (is_amr_low(bits)) { fr->type = OSMO_TRAU8_AMR_LOW; return decode8_amr_low(fr, bits, dir); } else if (is_amr_67(bits)) { fr->type = OSMO_TRAU8_AMR_6k7; return decode8_amr_67(fr, bits, dir); } else if (is_amr_74(bits)) { fr->type = OSMO_TRAU8_AMR_7k4; return decode8_amr_74(fr, bits, dir); } return -EINVAL; } /* }@ */