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openairinterface5g/openair2/LAYER2/nr_rlc/nr_rlc_oai_api.h
2026-05-28 15:10:32 -04:00

93 lines
3.9 KiB
C

/*
* SPDX-License-Identifier: LicenseRef-CSSL-1.0
*/
/*!
* \brief Header file for nr_rlc_oai_api
*/
#include "NR_RLC-BearerConfig.h"
#include "NR_RLC-Config.h"
#include "NR_LogicalChannelIdentity.h"
#include "NR_RadioBearerConfig.h"
#include "NR_CellGroupConfig.h"
#include "nr_rlc_ue_manager.h"
struct NR_RLC_Config;
struct NR_LogicalChannelConfig;
int nr_rlc_module_init(nr_rlc_op_mode_t mode);
typedef struct nr_rlc_data_ind {
logical_chan_id_t ch;
uint8_t *buf;
tb_size_t len;
} nr_rlc_data_ind_t;
void nr_mac_rlc_data_ind(const module_id_t module_idP,
const uint16_t ue_id,
const bool gnb_flagP,
const nr_rlc_data_ind_t *data,
int num_data);
/* \brief Fill up to pdu_siz_len RLC PDUs into buffer pointed to by buffer_pP,
* or until tb_sizeP is reached. Each PDU is preceded by 3 bytes (nothing is
* written) that have to be filled by the consumer (with a MAC sub-PDU
* subheader). This function fills up to an entire TB in a single call, unlike
* nr_mac_rlc_data_req() that fills only one RLC PDU in one step. */
int nr_mac_rlc_multi_data_req(const module_id_t module_idP,
const uint16_t ue_id,
const bool gnb_flagP,
const logical_chan_id_t channel_idP,
const tb_size_t tb_sizeP,
char *buffer_pP,
tb_size_t *pdu_siz,
int pdu_siz_len);
/* \brief Fill one RLC PDU into buffer pointed to by buffer_pP, or until
* tb_sizeP is reached. Note that NO header is prepended (for a MAC sub-PDU
* subheader), and the user of the API has to fill the necessary data. */
tbs_size_t nr_mac_rlc_data_req(const module_id_t module_idP,
const uint16_t ue_id,
const bool gnb_flagP,
const logical_chan_id_t channel_idP,
const tb_size_t tb_sizeP,
char *buffer_pP);
rlc_op_status_t nr_rlc_data_req(const protocol_ctxt_t *const ctxt_pP,
const srb_flag_t srb_flagP,
const rb_id_t rb_idP,
const mui_t muiP,
sdu_size_t sdu_sizeP,
uint8_t *sdu_pP);
void nr_mac_rlc_status_ind(uint16_t ue_id, frame_t frame, int n_ch, const logical_chan_id_t *ch, mac_rlc_status_resp_t *ret);
void nr_rlc_add_srb(int ue_id, int srb_id, const NR_RLC_BearerConfig_t *rlc_BearerConfig);
void nr_rlc_add_drb(int ue_id, int drb_id, const NR_RLC_BearerConfig_t *rlc_BearerConfig);
void nr_rlc_set_rlf_handler(int ue_id, rlf_handler_t rlf_h);
logical_chan_id_t nr_rlc_get_lcid_from_rb(int ue_id, bool is_srb, int rb_id);
void nr_rlc_reestablish_entity(int ue_id, int lc_id);
void nr_rlc_remove_ue(int ue_id);
bool nr_rlc_update_id(int from_id, int to_id);
/* test function for CI to trigger reestablishments */
void nr_rlc_test_trigger_reestablishment(int ue_id);
void nr_rlc_release_entity(int ue_id, logical_chan_id_t channel_id);
void nr_rlc_reconfigure_entity(int ue_id, int lc_id, NR_RLC_Config_t *rlc_Config);
int nr_rlc_get_available_tx_space(const int ue_id, const logical_chan_id_t channel_idP);
int nr_rlc_tx_list_occupancy(int ue_id, logical_chan_id_t lcid);
void nr_rlc_activate_avg_time_to_tx(const int ue_id, const logical_chan_id_t channel_id, const bool is_on);
uint64_t get_nr_rlc_current_time(void);
void nr_rlc_srb_recv_sdu(const int ue_id, const logical_chan_id_t channel_id, unsigned char *buf, int size);
bool nr_rlc_activate_srb0(int ue_id,
void *data,
void (*send_initial_ul_rrc_message)(int rnti, const uint8_t *sdu, sdu_size_t sdu_len, void *data));
bool nr_rlc_get_statistics(int ue_id, int srb_flag, int rb_id, nr_rlc_statistics_t *out);