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/*
* Copyright 2013-2020 Software Radio Systems Limited
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*
* This file is part of srsLTE.
*
* srsLTE 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.
*
* srsLTE 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.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#ifndef SRSLTE_SCHEDULER_GRID_H
#define SRSLTE_SCHEDULER_GRID_H
#include "lib/include/srslte/interfaces/sched_interface.h"
#include "scheduler_ue.h"
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#include "srslte/common/bounded_bitset.h"
#include "srslte/common/log.h"
#include <deque>
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#include <vector>
namespace srsenb {
//! Type of Allocation
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enum class alloc_type_t { DL_BC, DL_PCCH, DL_RAR, DL_DATA, UL_DATA };
//! Result of alloc attempt
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struct alloc_outcome_t {
enum result_enum { SUCCESS, DCI_COLLISION, RB_COLLISION, ERROR, NOF_RB_INVALID, PUCCH_COLLISION };
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result_enum result = ERROR;
alloc_outcome_t() = default;
alloc_outcome_t(result_enum e) : result(e) {}
operator result_enum() { return result; }
operator bool() { return result == SUCCESS; }
const char* to_string() const;
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};
//! Result of a Subframe sched computation
struct cc_sched_result {
tti_params_t tti_params{10241};
sched_interface::dl_sched_res_t dl_sched_result = {};
sched_interface::ul_sched_res_t ul_sched_result = {};
rbgmask_t dl_mask = {}; ///< Accumulation of all DL RBG allocations
prbmask_t ul_mask = {}; ///< Accumulation of all UL PRB allocations
pdcch_mask_t pdcch_mask = {}; ///< Accumulation of all CCE allocations
};
struct sf_sched_result {
srslte::tti_point tti_rx;
std::vector<cc_sched_result> enb_cc_list;
cc_sched_result* new_cc(uint32_t enb_cc_idx);
const cc_sched_result* get_cc(uint32_t enb_cc_idx) const
{
return enb_cc_idx < enb_cc_list.size() ? &enb_cc_list[enb_cc_idx] : nullptr;
}
cc_sched_result* get_cc(uint32_t enb_cc_idx)
{
return enb_cc_idx < enb_cc_list.size() ? &enb_cc_list[enb_cc_idx] : nullptr;
}
bool is_ul_alloc(uint16_t rnti) const;
bool is_dl_alloc(uint16_t rnti) const;
};
struct sched_result_list {
public:
sf_sched_result* new_tti(srslte::tti_point tti_rx);
sf_sched_result* get_sf(srslte::tti_point tti_rx);
const sf_sched_result* get_sf(srslte::tti_point tti_rx) const;
const cc_sched_result* get_cc(srslte::tti_point tti_rx, uint32_t enb_cc_idx) const;
cc_sched_result* get_cc(srslte::tti_point tti_rx, uint32_t enb_cc_idx);
private:
std::array<sf_sched_result, TTIMOD_SZ> results;
};
//! Class responsible for managing a PDCCH CCE grid, namely cce allocs, and avoid collisions.
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class pdcch_grid_t
{
public:
const static uint32_t MAX_CFI = 3;
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struct alloc_t {
uint16_t rnti = 0;
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srslte_dci_location_t dci_pos = {0, 0};
pdcch_mask_t current_mask; ///< this PDCCH alloc mask
pdcch_mask_t total_mask; ///< Accumulation of all PDCCH masks for the current solution (tree route)
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};
using alloc_result_t = std::vector<const alloc_t*>;
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void init(const sched_cell_params_t& cell_params_);
void new_tti(const tti_params_t& tti_params_);
bool alloc_dci(alloc_type_t alloc_type, uint32_t aggr_idx, sched_ue* user = nullptr);
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bool set_cfi(uint32_t cfi);
// getters
uint32_t get_cfi() const { return current_cfix + 1; }
void get_allocs(alloc_result_t* vec = nullptr, pdcch_mask_t* tot_mask = nullptr, size_t idx = 0) const;
uint32_t nof_cces() const { return cc_cfg->nof_cce_table[current_cfix]; }
size_t nof_allocs() const { return dci_record_list.size(); }
size_t nof_alloc_combinations() const { return get_alloc_tree().nof_leaves(); }
std::string result_to_string(bool verbose = false) const;
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private:
struct alloc_tree_t {
struct node_t {
int parent_idx;
alloc_t node;
node_t(int i, const alloc_t& a) : parent_idx(i), node(a) {}
};
// state
size_t nof_cces;
std::vector<node_t> dci_alloc_tree;
size_t prev_start = 0, prev_end = 0;
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explicit alloc_tree_t(size_t nof_cces_) : nof_cces(nof_cces_) {}
size_t nof_leaves() const { return prev_end - prev_start; }
void reset();
};
struct alloc_record_t {
sched_ue* user;
uint32_t aggr_idx;
alloc_type_t alloc_type;
};
const alloc_tree_t& get_alloc_tree() const { return alloc_trees[current_cfix]; }
const sched_dci_cce_t* get_cce_loc_table(alloc_type_t alloc_type, sched_ue* user, uint32_t cfix) const;
// PDCCH allocation algorithm
bool alloc_dci_record(const alloc_record_t& record, uint32_t cfix);
static bool add_tree_node_leaves(alloc_tree_t& tree,
int node_idx,
const alloc_record_t& dci_record,
const sched_dci_cce_t& dci_locs,
uint32_t tti_tx_dl);
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// consts
const sched_cell_params_t* cc_cfg = nullptr;
srslte::log_ref log_h;
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// tti vars
const tti_params_t* tti_params = nullptr;
uint32_t current_cfix = 0;
std::vector<alloc_tree_t> alloc_trees; ///< List of PDCCH alloc trees, where index is the cfi index
std::vector<alloc_record_t> dci_record_list; ///< Keeps a record of all the PDCCH allocations done so far
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};
//! manages a subframe grid resources, namely CCE and DL/UL RB allocations
class sf_grid_t
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{
public:
struct dl_ctrl_alloc_t {
alloc_outcome_t outcome;
rbg_range_t rbg_range;
};
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void init(const sched_cell_params_t& cell_params_);
void new_tti(const tti_params_t& tti_params_);
dl_ctrl_alloc_t alloc_dl_ctrl(uint32_t aggr_lvl, alloc_type_t alloc_type);
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alloc_outcome_t alloc_dl_data(sched_ue* user, const rbgmask_t& user_mask);
bool reserve_dl_rbgs(uint32_t start_rbg, uint32_t end_rbg);
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alloc_outcome_t alloc_ul_data(sched_ue* user, ul_harq_proc::ul_alloc_t alloc, bool needs_pdcch);
bool reserve_ul_prbs(const prbmask_t& prbmask, bool strict);
bool find_ul_alloc(uint32_t L, ul_harq_proc::ul_alloc_t* alloc) const;
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// getters
const rbgmask_t& get_dl_mask() const { return dl_mask; }
const prbmask_t& get_ul_mask() const { return ul_mask; }
uint32_t get_cfi() const { return pdcch_alloc.get_cfi(); }
const pdcch_grid_t& get_pdcch_grid() const { return pdcch_alloc; }
private:
alloc_outcome_t alloc_dl(uint32_t aggr_lvl, alloc_type_t alloc_type, rbgmask_t alloc_mask, sched_ue* user = nullptr);
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// consts
const sched_cell_params_t* cc_cfg = nullptr;
srslte::log_ref log_h;
uint32_t nof_rbgs = 0;
uint32_t si_n_rbg = 0, rar_n_rbg = 0;
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// tti const
const tti_params_t* tti_params = nullptr;
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// derived
pdcch_grid_t pdcch_alloc = {};
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// internal state
uint32_t avail_rbg = 0;
rbgmask_t dl_mask = {};
prbmask_t ul_mask = {};
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};
//! generic interface used by DL scheduler algorithm
class dl_sf_sched_itf
{
public:
virtual alloc_outcome_t alloc_dl_user(sched_ue* user, const rbgmask_t& user_mask, uint32_t pid) = 0;
virtual const rbgmask_t& get_dl_mask() const = 0;
virtual uint32_t get_tti_tx_dl() const = 0;
virtual uint32_t get_nof_ctrl_symbols() const = 0;
virtual bool is_dl_alloc(const sched_ue* user) const = 0;
};
//! generic interface used by UL scheduler algorithm
class ul_sf_sched_itf
{
public:
virtual alloc_outcome_t alloc_ul_user(sched_ue* user, ul_harq_proc::ul_alloc_t alloc) = 0;
virtual const prbmask_t& get_ul_mask() const = 0;
virtual uint32_t get_tti_tx_ul() const = 0;
virtual bool is_ul_alloc(const sched_ue* user) const = 0;
};
/** Description: Stores the RAR, broadcast, paging, DL data, UL data allocations for the given subframe
* Converts the stored allocations' metadata to the scheduler DL/UL result
* Handles the generation of DCI formats
*/
class sf_sched : public dl_sf_sched_itf, public ul_sf_sched_itf
{
public:
struct ctrl_alloc_t {
size_t dci_idx;
rbg_range_t rbg_range;
uint16_t rnti;
uint32_t req_bytes;
alloc_type_t alloc_type;
};
struct rar_alloc_t {
sf_sched::ctrl_alloc_t alloc_data;
sched_interface::dl_sched_rar_t rar_grant;
rar_alloc_t(const sf_sched::ctrl_alloc_t& c, const sched_interface::dl_sched_rar_t& r) : alloc_data(c), rar_grant(r)
{}
};
struct bc_alloc_t : public ctrl_alloc_t {
uint32_t rv = 0;
uint32_t sib_idx = 0;
bc_alloc_t() = default;
explicit bc_alloc_t(const ctrl_alloc_t& c) : ctrl_alloc_t(c) {}
};
struct dl_alloc_t {
size_t dci_idx;
sched_ue* user_ptr;
rbgmask_t user_mask;
uint32_t pid;
};
struct ul_alloc_t {
enum type_t { NEWTX, NOADAPT_RETX, ADAPT_RETX, MSG3 };
size_t dci_idx;
type_t type;
sched_ue* user_ptr;
ul_harq_proc::ul_alloc_t alloc;
uint32_t mcs = 0;
bool is_retx() const { return type == NOADAPT_RETX or type == ADAPT_RETX; }
bool is_msg3() const { return type == MSG3; }
bool needs_pdcch() const { return type == NEWTX or type == ADAPT_RETX; }
};
struct pending_msg3_t {
uint16_t rnti = 0;
uint32_t L = 0;
uint32_t n_prb = 0;
uint32_t mcs = 0;
};
struct pending_rar_t {
uint16_t ra_rnti = 0;
uint32_t prach_tti = 0;
uint32_t nof_grants = 0;
sched_interface::dl_sched_rar_info_t msg3_grant[sched_interface::MAX_RAR_LIST] = {};
};
typedef std::pair<alloc_outcome_t, const ctrl_alloc_t> ctrl_code_t;
// Control/Configuration Methods
sf_sched();
void init(const sched_cell_params_t& cell_params_);
void new_tti(uint32_t tti_rx_, sf_sched_result* cc_results);
// DL alloc methods
alloc_outcome_t alloc_bc(uint32_t aggr_lvl, uint32_t sib_idx, uint32_t sib_ntx);
alloc_outcome_t alloc_paging(uint32_t aggr_lvl, uint32_t paging_payload);
std::pair<alloc_outcome_t, uint32_t> alloc_rar(uint32_t aggr_lvl, const pending_rar_t& rar_grant);
bool reserve_dl_rbgs(uint32_t rbg_start, uint32_t rbg_end) { return tti_alloc.reserve_dl_rbgs(rbg_start, rbg_end); }
const std::vector<rar_alloc_t>& get_allocated_rars() const { return rar_allocs; }
// UL alloc methods
alloc_outcome_t alloc_msg3(sched_ue* user, const sched_interface::dl_sched_rar_grant_t& rargrant);
alloc_outcome_t
alloc_ul(sched_ue* user, ul_harq_proc::ul_alloc_t alloc, sf_sched::ul_alloc_t::type_t alloc_type, uint32_t mcs = 0);
bool reserve_ul_prbs(const prbmask_t& ulmask, bool strict) { return tti_alloc.reserve_ul_prbs(ulmask, strict); }
bool alloc_phich(sched_ue* user, sched_interface::ul_sched_res_t* ul_sf_result);
// compute DCIs and generate dl_sched_result/ul_sched_result for a given TTI
void generate_sched_results();
// dl_tti_sched itf
alloc_outcome_t alloc_dl_user(sched_ue* user, const rbgmask_t& user_mask, uint32_t pid) final;
uint32_t get_tti_tx_dl() const final { return tti_params.tti_tx_dl; }
uint32_t get_nof_ctrl_symbols() const final;
const rbgmask_t& get_dl_mask() const final { return tti_alloc.get_dl_mask(); }
// ul_tti_sched itf
alloc_outcome_t alloc_ul_user(sched_ue* user, ul_harq_proc::ul_alloc_t alloc) final;
const prbmask_t& get_ul_mask() const final { return tti_alloc.get_ul_mask(); }
uint32_t get_tti_tx_ul() const final { return tti_params.tti_tx_ul; }
// getters
uint32_t get_tti_rx() const { return tti_params.tti_rx; }
const tti_params_t& get_tti_params() const { return tti_params; }
bool is_dl_alloc(const sched_ue* user) const final;
bool is_ul_alloc(const sched_ue* user) const final;
private:
ctrl_code_t alloc_dl_ctrl(uint32_t aggr_lvl, uint32_t tbs_bytes, uint16_t rnti);
int generate_format1a(uint32_t rb_start,
uint32_t l_crb,
uint32_t tbs,
uint32_t rv,
uint16_t rnti,
srslte_dci_dl_t* dci);
void set_bc_sched_result(const pdcch_grid_t::alloc_result_t& dci_result, sched_interface::dl_sched_res_t* dl_result);
void set_rar_sched_result(const pdcch_grid_t::alloc_result_t& dci_result, sched_interface::dl_sched_res_t* dl_result);
void set_dl_data_sched_result(const pdcch_grid_t::alloc_result_t& dci_result,
sched_interface::dl_sched_res_t* dl_result);
void set_ul_sched_result(const pdcch_grid_t::alloc_result_t& dci_result, sched_interface::ul_sched_res_t* ul_result);
// consts
const sched_cell_params_t* cc_cfg = nullptr;
srslte::log_ref log_h;
sf_sched_result* cc_results; ///< Results of other CCs for the same Subframe
// internal state
sf_grid_t tti_alloc;
std::vector<bc_alloc_t> bc_allocs;
std::vector<rar_alloc_t> rar_allocs;
std::vector<dl_alloc_t> data_allocs;
std::vector<ul_alloc_t> ul_data_allocs;
uint32_t last_msg3_prb = 0, max_msg3_prb = 0;
// Next TTI state
tti_params_t tti_params{10241};
};
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} // namespace srsenb
#endif // SRSLTE_SCHEDULER_GRID_H