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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#ifndef SRSRAN_SCHED_NR_HARQ_H
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#define SRSRAN_SCHED_NR_HARQ_H
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#include "sched_nr_cfg.h"
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#include "srsenb/hdr/stack/mac/nr/harq_softbuffer.h"
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#include "srsran/common/slot_point.h"
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#include <array>
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namespace srsenb {
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namespace sched_nr_impl {
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class harq_proc
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{
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public:
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explicit harq_proc(uint32_t id_) : pid(id_) {}
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bool empty() const
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{
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return std::all_of(tb.begin(), tb.end(), [](const tb_t& t) { return not t.active; });
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}
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bool empty(uint32_t tb_idx) const { return not tb[tb_idx].active; }
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bool has_pending_retx(slot_point slot_rx) const
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{
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return not empty() and not tb[0].ack_state and slot_ack <= slot_rx;
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}
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uint32_t nof_retx() const { return tb[0].n_rtx; }
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uint32_t max_nof_retx() const { return max_retx; }
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uint32_t tbs() const { return tb[0].tbs; }
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uint32_t ndi() const { return tb[0].ndi; }
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uint32_t mcs() const { return tb[0].mcs; }
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const prb_grant& prbs() const { return prbs_; }
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slot_point harq_slot_ack() const { return slot_ack; }
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bool ack_info(uint32_t tb_idx, bool ack);
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void new_slot(slot_point slot_rx);
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void reset();
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bool new_tx(slot_point slot_tx,
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slot_point slot_ack,
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const prb_grant& grant,
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uint32_t mcs,
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uint32_t tbs,
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uint32_t max_retx);
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bool new_retx(slot_point slot_tx, slot_point slot_ack, const prb_grant& grant);
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bool new_retx(slot_point slot_tx, slot_point slot_ack);
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const uint32_t pid;
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protected:
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// NOTE: Has to be used before first tx is dispatched
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bool set_tbs(uint32_t tbs);
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private:
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struct tb_t {
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bool active = false;
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bool ack_state = false;
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bool ndi = false;
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uint32_t n_rtx = 0;
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uint32_t mcs = 0;
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uint32_t tbs = 0;
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};
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uint32_t max_retx = 1;
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slot_point slot_tx;
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slot_point slot_ack;
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prb_grant prbs_;
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std::array<tb_t, SCHED_NR_MAX_TB> tb;
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};
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class dl_harq_proc : public harq_proc
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{
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public:
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dl_harq_proc(uint32_t id_, uint32_t nprb);
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tx_harq_softbuffer& get_softbuffer() { return *softbuffer; }
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uint8_t* get_tx_pdu() { return pdu->msg; }
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bool set_tbs(uint32_t tbs)
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{
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softbuffer->reset();
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return harq_proc::set_tbs(tbs);
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}
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private:
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srsran::unique_pool_ptr<tx_harq_softbuffer> softbuffer;
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srsran::unique_byte_buffer_t pdu;
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};
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class ul_harq_proc : public harq_proc
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{
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public:
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ul_harq_proc(uint32_t id_, uint32_t nprb) :
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harq_proc(id_), softbuffer(harq_softbuffer_pool::get_instance().get_rx(nprb))
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{}
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rx_harq_softbuffer& get_softbuffer() { return *softbuffer; }
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bool set_tbs(uint32_t tbs)
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{
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softbuffer->reset(tbs * 8u);
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return harq_proc::set_tbs(tbs);
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}
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private:
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srsran::unique_pool_ptr<rx_harq_softbuffer> softbuffer;
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};
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class harq_entity
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{
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public:
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explicit harq_entity(uint32_t nprb, uint32_t nof_harq_procs = SCHED_NR_MAX_HARQ);
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void new_slot(slot_point slot_rx_);
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void dl_ack_info(uint32_t pid, uint32_t tb_idx, bool ack) { dl_harqs[pid].ack_info(tb_idx, ack); }
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void ul_crc_info(uint32_t pid, bool ack) { ul_harqs[pid].ack_info(0, ack); }
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dl_harq_proc* find_pending_dl_retx()
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{
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return find_dl([this](const dl_harq_proc& h) { return h.has_pending_retx(slot_rx); });
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}
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ul_harq_proc* find_pending_ul_retx()
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{
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return find_ul([this](const ul_harq_proc& h) { return h.has_pending_retx(slot_rx); });
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}
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dl_harq_proc* find_empty_dl_harq()
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{
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return find_dl([](const dl_harq_proc& h) { return h.empty(); });
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}
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ul_harq_proc* find_empty_ul_harq()
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{
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return find_ul([](const ul_harq_proc& h) { return h.empty(); });
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}
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private:
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template <typename Predicate>
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dl_harq_proc* find_dl(Predicate p)
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{
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auto it = std::find_if(dl_harqs.begin(), dl_harqs.end(), p);
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return (it == dl_harqs.end()) ? nullptr : &(*it);
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}
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template <typename Predicate>
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ul_harq_proc* find_ul(Predicate p)
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{
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auto it = std::find_if(ul_harqs.begin(), ul_harqs.end(), p);
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return (it == ul_harqs.end()) ? nullptr : &(*it);
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}
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slot_point slot_rx;
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std::vector<dl_harq_proc> dl_harqs;
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std::vector<ul_harq_proc> ul_harqs;
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};
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} // namespace sched_nr_impl
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} // namespace srsenb
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#endif // SRSRAN_SCHED_NR_HARQ_H
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