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229 lines
5.9 KiB
C

/**
*
* \section COPYRIGHT
*
* Copyright 2013-2017 Software Radio Systems Limited
*
* \section LICENSE
*
* This file is part of srsLTE.
*
* srsUE 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.
*
* srsUE 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 SCHED_H
#define SCHED_H
#include <map>
#include "srslte/common/log.h"
#include "srslte/interfaces/enb_interfaces.h"
#include "srslte/interfaces/sched_interface.h"
#include "scheduler_ue.h"
#include "scheduler_harq.h"
#include <pthread.h>
namespace srsenb {
class sched : public sched_interface
{
public:
/*************************************************************
*
* Scheduling metric interface definition
*
************************************************************/
class metric_dl
{
public:
/* Virtual methods for user metric calculation */
virtual void new_tti(std::map<uint16_t,sched_ue> &ue_db, uint32_t start_rb, uint32_t nof_rb, uint32_t nof_ctrl_symbols, uint32_t tti) = 0;
virtual dl_harq_proc* get_user_allocation(sched_ue *user) = 0;
};
class metric_ul
{
public:
/* Virtual methods for user metric calculation */
virtual void new_tti(std::map<uint16_t,sched_ue> &ue_db, uint32_t nof_rb, uint32_t tti) = 0;
virtual ul_harq_proc* get_user_allocation(sched_ue *user) = 0;
virtual void update_allocation(ul_harq_proc::ul_alloc_t alloc) = 0;
};
/*************************************************************
*
* FAPI-like Interface
*
************************************************************/
sched();
~sched();
void init(rrc_interface_mac *rrc, srslte::log *log);
void set_metric(metric_dl *dl_metric, metric_ul *ul_metric);
int cell_cfg(cell_cfg_t *cell_cfg);
void set_sched_cfg(sched_args_t *sched_cfg);
int reset();
int ue_cfg(uint16_t rnti, ue_cfg_t *ue_cfg);
int ue_rem(uint16_t rnti);
bool ue_exists(uint16_t rnti);
void phy_config_enabled(uint16_t rnti, bool enabled);
int bearer_ue_cfg(uint16_t rnti, uint32_t lc_id, ue_bearer_cfg_t *cfg);
int bearer_ue_rem(uint16_t rnti, uint32_t lc_id);
uint32_t get_ul_buffer(uint16_t rnti);
uint32_t get_dl_buffer(uint16_t rnti);
int dl_rlc_buffer_state(uint16_t rnti, uint32_t lc_id, uint32_t tx_queue, uint32_t retx_queue);
int dl_mac_buffer_state(uint16_t rnti, uint32_t ce_code);
int dl_ack_info(uint32_t tti, uint16_t rnti, bool ack);
int dl_rach_info(uint32_t tti, uint32_t ra_id, uint16_t rnti, uint32_t estimated_size);
int dl_cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi_value);
int ul_crc_info(uint32_t tti, uint16_t rnti, bool crc);
int ul_sr_info(uint32_t tti, uint16_t rnti);
int ul_bsr(uint16_t rnti, uint32_t lcid, uint32_t bsr, bool set_value = true);
int ul_recv_len(uint16_t rnti, uint32_t lcid, uint32_t len);
int ul_phr(uint16_t rnti, int phr);
int ul_cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi, uint32_t ul_ch_code);
int dl_sched(uint32_t tti, dl_sched_res_t *sched_result);
int ul_sched(uint32_t tti, ul_sched_res_t *sched_result);
/* Custom TPC functions
*/
void tpc_inc(uint16_t rnti);
void tpc_dec(uint16_t rnti);
static uint32_t get_rvidx(uint32_t retx_idx) {
const static int rv_idx[4] = {0, 2, 3, 1};
return rv_idx[retx_idx%4];
}
static void generate_cce_location(srslte_regs_t *regs, sched_ue::sched_dci_cce_t *location,
uint32_t cfi, uint32_t sf_idx = 0, uint16_t rnti = 0);
private:
metric_dl *dl_metric;
metric_ul *ul_metric;
srslte::log *log_h;
rrc_interface_mac *rrc;
cell_cfg_t cfg;
sched_args_t sched_cfg;
const static int MAX_PRB = 100;
const static int MAX_RBG = 25;
const static int MAX_CCE = 128;
// This is for computing DCI locations
srslte_regs_t regs;
bool used_cce[MAX_CCE];
typedef struct {
int buf_rar;
uint16_t rnti;
uint32_t ra_id;
uint32_t rar_tti;
} sched_rar_t;
typedef struct {
bool is_in_window;
uint32_t window_start;
uint32_t n_tx;
} sched_sib_t;
int dl_sched_bc(dl_sched_bc_t bc[MAX_BC_LIST]);
int dl_sched_rar(dl_sched_rar_t rar[MAX_RAR_LIST]);
int dl_sched_data(dl_sched_data_t data[MAX_DATA_LIST]);
int generate_format1a(uint32_t rb_start, uint32_t l_crb, uint32_t tbs, uint32_t rv, srslte_ra_dl_dci_t *dci);
bool generate_dci(srslte_dci_location_t *sched_location, sched_ue::sched_dci_cce_t *locations, uint32_t aggr_level, sched_ue *user = NULL);
std::map<uint16_t, sched_ue> ue_db;
sched_sib_t pending_sibs[MAX_SIBS];
typedef struct {
bool enabled;
uint16_t rnti;
uint32_t L;
uint32_t n_prb;
uint32_t mcs;
} pending_msg3_t;
const static int SCHED_MAX_PENDING_RAR = 8;
sched_rar_t pending_rar[SCHED_MAX_PENDING_RAR];
pending_msg3_t pending_msg3[10];
// Allowed DCI locations for SIB and RAR per CFI
sched_ue::sched_dci_cce_t common_locations[3];
sched_ue::sched_dci_cce_t rar_locations[3][10];
uint32_t bc_aggr_level;
uint32_t rar_aggr_level;
uint32_t pdsch_re[10];
uint32_t avail_rbg;
uint32_t P;
uint32_t start_rbg;
uint32_t si_n_rbg;
uint32_t rar_n_rb;
uint32_t nof_rbg;
uint32_t sf_idx;
uint32_t sfn;
uint32_t current_tti;
uint32_t current_cfi;
bool configured;
pthread_mutex_t mutex;
};
}
#endif