Exemplo n.º 1
0
/* Encode UCI HARQ/ACK bits as described in 5.2.2.6 of 36.212
 *  Currently only supporting 1-bit HARQ
 */
int srslte_uci_encode_ack(srslte_pusch_cfg_t *cfg, uint8_t acks[2], uint32_t nof_acks,
                          uint32_t O_cqi, float beta, uint32_t H_prime_total,
                          srslte_uci_bit_t *ack_bits)
{
  if (beta < 0) {
    fprintf(stderr, "Error beta is reserved\n");
    return -1;
  }

  uint32_t Qprime = Q_prime_ri_ack(cfg, nof_acks, O_cqi, beta);
  srslte_uci_bit_type_t q_encoded_bits[18];

  uint32_t nof_encoded_bits = encode_ri_ack(acks, nof_acks, q_encoded_bits, cfg->grant.Qm);

  if (nof_encoded_bits > 0) {
    for (uint32_t i = 0; i < Qprime; i++) {
      uci_ulsch_interleave_ack_gen(i,
                                   cfg->grant.Qm,
                                   H_prime_total,
                                   cfg->nbits.nof_symb,
                                   cfg->cp,
                                   &ack_bits[cfg->grant.Qm * i]);
      uci_ulsch_interleave_put(&q_encoded_bits[(i * cfg->grant.Qm) % nof_encoded_bits],
                               cfg->grant.Qm,
                               &ack_bits[cfg->grant.Qm * i]);
    }
  }
  return (int) Qprime;
}
Exemplo n.º 2
0
Arquivo: uci.c Projeto: srsLTE/srsLTE
/* Encode UCI ACK/RI bits as described in 5.2.2.6 of 36.212
 *  Currently only supporting 1-bit RI
 */
int srslte_uci_encode_ack_ri(srslte_pusch_cfg_t* cfg,
                             uint8_t*            data,
                             uint32_t            O_ack,
                             uint32_t            O_cqi,
                             float               beta,
                             uint32_t            H_prime_total,
                             bool                input_is_ri,
                             uint32_t            N_bundle,
                             srslte_uci_bit_t*   bits)
{
  if (beta < 0) {
    ERROR("Error beta is reserved\n");
    return -1;
  }
  uint32_t Q_prime = Q_prime_ri_ack(cfg, O_ack, O_cqi, beta);

  uint32_t Q_ack = 0;
  uint32_t Qm    = srslte_mod_bits_x_symbol(cfg->grant.tb.mod);

  if (O_ack < 3) {
    uint32_t enc_len = encode_ri_ack(data, O_ack, Qm, bits);
    // Repeat bits Q_prime times, remainder bits will be ignored later
    while (Q_ack < Q_prime * Qm) {
      for (uint32_t j = 0; j < enc_len; j++) {
        bits[Q_ack++].type = bits[j].type;
      }
    }
  } else {
    Q_ack = encode_ack_long(data, O_ack, Qm, Q_prime, bits);
  }

  // Generate interleaver positions
  if (Q_ack > 0) {
    for (uint32_t i = 0; i < Q_prime; i++) {
      if (input_is_ri) {
        uci_ulsch_interleave_ri_gen(i, Qm, H_prime_total, cfg->grant.nof_symb, &bits[Qm * i]);
      } else {
        uci_ulsch_interleave_ack_gen(i, Qm, H_prime_total, cfg->grant.nof_symb, &bits[Qm * i]);
      }
    }

    // TDD-bundling scrambling
    if (!input_is_ri && N_bundle && O_ack > 0) {
      uci_ack_scramble_tdd(bits, O_ack, Q_prime * Qm, N_bundle);
    }
  }

  return (int)Q_prime;
}
Exemplo n.º 3
0
/* Decode UCI ACK/RI bits as described in 5.2.2.6 of 36.212
 *  Currently only supporting 1-bit RI
 */
int srslte_uci_decode_ack_ri(srslte_pusch_cfg_t *cfg, int16_t *q_bits, uint8_t *c_seq,
                          float beta, uint32_t H_prime_total,
                          uint32_t O_cqi, srslte_uci_bit_t *ack_ri_bits, uint8_t data[2], uint32_t nof_bits, bool is_ri)
{
  int32_t sum[3] = {0, 0, 0};

  if (beta < 0) {
    fprintf(stderr, "Error beta is reserved\n");
    return -1;
  }

  uint32_t Qprime = Q_prime_ri_ack(cfg, nof_bits, O_cqi, beta);

  for (uint32_t i = 0; i < Qprime; i++) {
    if (is_ri) {
      uci_ulsch_interleave_ri_gen(i,
                                  cfg->grant.Qm,
                                  H_prime_total,
                                  cfg->nbits.nof_symb,
                                  cfg->cp,
                                  &ack_ri_bits[cfg->grant.Qm * i]);
    } else {
      uci_ulsch_interleave_ack_gen(i,
                                   cfg->grant.Qm,
                                   H_prime_total,
                                   cfg->nbits.nof_symb,
                                   cfg->cp,
                                   &ack_ri_bits[cfg->grant.Qm * i]);

    }
    if (nof_bits == 2 && (i % 3 == 0) && i > 0) {
      decode_ri_ack_2bits(q_bits, &c_seq[0], &ack_ri_bits[cfg->grant.Qm * (i - 3)], cfg->grant.Qm, sum);
    } else if (nof_bits == 1) {
      sum[0] += (int32_t) decode_ri_ack_1bit(q_bits, c_seq, &ack_ri_bits[cfg->grant.Qm * i]);
    }
  }

  data[0] = (uint8_t) (sum[0] > 0);
  if (nof_bits == 2) {
    data[1] = (uint8_t) (sum[1] > 0);
  }

  return (int) Qprime;
}
Exemplo n.º 4
0
/* Encode UCI RI bits as described in 5.2.2.6 of 36.212
 *  Currently only supporting 1-bit RI
 */
int srslte_uci_encode_ri(srslte_pusch_cfg_t *cfg,
                         uint8_t ri,
                         uint32_t O_cqi, float beta, uint32_t H_prime_total,
                         srslte_uci_bit_t *ri_bits)
{
  // FIXME: It supports RI of 1 bit only
  uint8_t data[2] = {ri, 0};
  if (beta < 0) {
    fprintf(stderr, "Error beta is reserved\n");
    return -1;
  }
  uint32_t Qprime = Q_prime_ri_ack(cfg, 1, O_cqi, beta);
  srslte_uci_bit_type_t q_encoded_bits[18];

  uint32_t nof_encoded_bits = encode_ri_ack(data, 1, q_encoded_bits, cfg->grant.Qm);

  for (uint32_t i=0;i<Qprime;i++) {
    uci_ulsch_interleave_ri_gen(i, cfg->grant.Qm, H_prime_total, cfg->nbits.nof_symb, cfg->cp, &ri_bits[cfg->grant.Qm*i]);
    uci_ulsch_interleave_put(&q_encoded_bits[(i*cfg->grant.Qm)%nof_encoded_bits], cfg->grant.Qm, &ri_bits[cfg->grant.Qm*i]);
  }

  return (int) Qprime;
}