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C

/**
*
* \section COPYRIGHT
*
* Copyright 2013-2021 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
#ifndef SRSRAN_RLC_AM_NR_H
#define SRSRAN_RLC_AM_NR_H
#include "srsran/common/buffer_pool.h"
#include "srsran/common/common.h"
#include "srsran/common/timers.h"
#include "srsran/interfaces/pdcp_interface_types.h"
#include "srsran/rlc/rlc_am_base.h"
#include "srsran/rlc/rlc_am_data_structs.h"
#include "srsran/rlc/rlc_am_nr_packing.h"
#include "srsran/upper/byte_buffer_queue.h"
#include <map>
#include <mutex>
#include <pthread.h>
#include <queue>
namespace srsran {
/******************************
*
* RLC AM NR entity
*
*****************************/
class rlc_am_nr_tx;
class rlc_am_nr_rx;
/****************************************************************************
* Tx state variables
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.1
***************************************************************************/
struct rlc_am_nr_tx_state_t {
/*
* TX_Next_Ack: This state variable holds the value of the SN of the next RLC SDU for which a positive
* acknowledgment is to be received in-sequence, and it serves as the lower edge of the transmitting window. It is
* initially set to 0, and is updated whenever the AM RLC entity receives a positive acknowledgment for an RLC SDU
* with SN = TX_Next_Ack.
*/
uint32_t tx_next_ack;
/*
* TX_Next: This state variable holds the value of the SN to be assigned for the next newly generated AMD PDU. It is
* initially set to 0, and is updated whenever the AM RLC entity constructs an AMD PDU with SN = TX_Next and
* contains an RLC SDU or the last segment of a RLC SDU.
*/
uint32_t tx_next;
/*
* POLL_SN: This state variable holds the value of the highest SN of the AMD PDU among the AMD PDUs submitted to
* lower layer when POLL_SN is set according to sub clause 5.3.3.2. It is initially set to 0.
*/
uint32_t poll_sn;
/*
* PDU_WITHOUT_POLL: This counter is initially set to 0. It counts the number of AMD PDUs sent since the most recent
* poll bit was transmitted.
*/
uint32_t pdu_without_poll;
/*
* BYTE_WITHOUT_POLL: This counter is initially set to 0. It counts the number of data bytes sent since the most
* recent poll bit was transmitted.
*/
uint32_t byte_without_poll;
};
struct rlc_amd_tx_pdu_nr {
const uint32_t rlc_sn = INVALID_RLC_SN;
uint32_t pdcp_sn = INVALID_RLC_SN;
rlc_am_nr_pdu_header_t header = {};
unique_byte_buffer_t sdu_buf = nullptr;
uint32_t retx_count = RETX_COUNT_NOT_STARTED;
struct pdu_segment {
uint32_t so = 0;
uint32_t payload_len = 0;
};
std::list<pdu_segment> segment_list;
explicit rlc_amd_tx_pdu_nr(uint32_t sn) : rlc_sn(sn) {}
};
class rlc_am_nr_tx : public rlc_am::rlc_am_base_tx
{
public:
explicit rlc_am_nr_tx(rlc_am* parent_);
~rlc_am_nr_tx() = default;
void set_rx(rlc_am_nr_rx* rx_) { rx = rx_; }
bool configure(const rlc_config_t& cfg_) final;
uint32_t read_pdu(uint8_t* payload, uint32_t nof_bytes) final;
void handle_control_pdu(uint8_t* payload, uint32_t nof_bytes) final;
bool sdu_queue_is_full() final;
void reestablish() final;
int write_sdu(unique_byte_buffer_t sdu);
void empty_queue() final;
// Data PDU helpers
uint32_t build_new_pdu(uint8_t* payload, uint32_t nof_bytes);
uint32_t build_new_sdu_segment(rlc_amd_tx_pdu_nr& tx_pdu, uint8_t* payload, uint32_t nof_bytes);
uint32_t build_continuation_sdu_segment(rlc_amd_tx_pdu_nr& tx_pdu, uint8_t* payload, uint32_t nof_bytes);
uint32_t build_retx_pdu(uint8_t* payload, uint32_t nof_bytes);
uint32_t build_retx_pdu_without_segmentation(rlc_amd_retx_nr_t& retx, uint8_t* payload, uint32_t nof_bytes);
uint32_t build_retx_pdu_with_segmentation(rlc_amd_retx_nr_t& retx, uint8_t* payload, uint32_t nof_bytes);
bool is_retx_segmentation_required(const rlc_amd_retx_nr_t& retx, uint32_t nof_bytes);
uint32_t get_retx_expected_hdr_len(const rlc_amd_retx_nr_t& retx);
// Buffer State
bool has_data() final;
uint32_t get_buffer_state() final;
void get_buffer_state(uint32_t& tx_queue, uint32_t& prio_tx_queue) final;
// Status PDU
bool do_status();
uint32_t build_status_pdu(byte_buffer_t* payload, uint32_t nof_bytes);
// Polling
uint8_t get_pdu_poll(bool is_retx);
void stop() final;
bool inside_tx_window(uint32_t sn) const;
private:
rlc_am* parent = nullptr;
rlc_am_nr_rx* rx = nullptr;
uint32_t mod_nr = cardinality(rlc_am_nr_sn_size_t());
inline uint32_t tx_mod_base_nr(uint32_t sn) const;
void check_sn_reached_max_retx(uint32_t sn);
/****************************************************************************
* Configurable parameters
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.4
***************************************************************************/
rlc_am_nr_config_t cfg = {};
/****************************************************************************
* Tx state variables
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.1
***************************************************************************/
struct rlc_am_nr_tx_state_t st = {};
std::unique_ptr<rlc_ringbuffer_base<rlc_amd_tx_pdu_nr> > tx_window;
// Queues, buffers and container
std::unique_ptr<pdu_retx_queue_base<rlc_amd_retx_nr_t> > retx_queue;
uint32_t sdu_under_segmentation_sn = INVALID_RLC_SN; // SN of the SDU currently being segmented.
pdcp_sn_vector_t notify_info_vec;
rlc_am_nr_status_pdu_t tx_status;
// Helper constants
uint32_t min_hdr_size = 2;
uint32_t so_size = 2;
uint32_t max_hdr_size = 4;
/****************************************************************************
* Tx constants
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.2
***************************************************************************/
inline uint32_t tx_window_size() const;
public:
// Getters/Setters
void set_tx_state(const rlc_am_nr_tx_state_t& st_) { st = st_; } // This should only be used for testing.
rlc_am_nr_tx_state_t get_tx_state() { return st; } // This should only be used for testing.
uint32_t get_tx_window_size() { return tx_window->size(); } // This should only be used for testing.
// Debug Helper
void debug_state() const;
};
/****************************************************************************
* State Variables
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.1
***************************************************************************/
struct rlc_am_nr_rx_state_t {
/*
* RX_Next: This state variable holds the value of the SN following the last in-sequence completely received RLC
* SDU, and it serves as the lower edge of the receiving window. It is initially set to 0, and is updated whenever
* the AM RLC entity receives an RLC SDU with SN = RX_Next.
*/
uint32_t rx_next = 0;
/*
* RX_Next_Status_Trigger: This state variable holds the value of the SN following the SN of the RLC SDU which
* triggered t-Reassembly.
*/
uint32_t rx_next_status_trigger = 0;
/*
* RX_Next_Highest: This state variable holds the highest possible value of the SN which can be indicated by
*"ACK_SN" when a STATUS PDU needs to be constructed. It is initially set to 0.
*/
uint32_t rx_highest_status = 0;
/*
* RX_Next_Highest: This state variable holds the value of the SN following the SN of the RLC SDU with the
* highest SN among received RLC SDUs. It is initially set to 0.
*/
uint32_t rx_next_highest = 0;
};
// Receiver sub-class
class rlc_am_nr_rx : public rlc_am::rlc_am_base_rx
{
public:
explicit rlc_am_nr_rx(rlc_am* parent_);
~rlc_am_nr_rx() = default;
void set_tx(rlc_am_nr_tx* tx_) { tx = tx_; }
bool configure(const rlc_config_t& cfg_) final;
void handle_data_pdu(uint8_t* payload, uint32_t nof_bytes) final;
void stop();
void reestablish();
// Status PDU
bool get_do_status();
uint32_t get_status_pdu(rlc_am_nr_status_pdu_t* status, uint32_t len);
uint32_t get_status_pdu_length();
// Data handling methods
int handle_full_data_sdu(const rlc_am_nr_pdu_header_t& header, const uint8_t* payload, uint32_t nof_bytes);
int handle_segment_data_sdu(const rlc_am_nr_pdu_header_t& header, const uint8_t* payload, uint32_t nof_bytes);
bool inside_rx_window(uint32_t sn);
void write_to_upper_layers(uint32_t lcid, unique_byte_buffer_t sdu);
void insert_received_segment(rlc_amd_rx_pdu_nr segment, rlc_amd_rx_sdu_nr_t::segment_list_t& segment_list) const;
bool have_all_segments_been_received(const rlc_amd_rx_sdu_nr_t::segment_list_t& segment_list) const;
// Metrics
uint32_t get_sdu_rx_latency_ms() final;
uint32_t get_rx_buffered_bytes() final;
// Timers
void timer_expired(uint32_t timeout_id);
// Helpers
void debug_state() const;
private:
rlc_am* parent = nullptr;
rlc_am_nr_tx* tx = nullptr;
byte_buffer_pool* pool = nullptr;
uint32_t mod_nr = cardinality(rlc_am_nr_sn_size_t());
uint32_t rx_mod_base_nr(uint32_t sn) const;
// RX Window
std::unique_ptr<rlc_ringbuffer_base<rlc_amd_rx_sdu_nr_t> > rx_window;
// Mutexes
std::mutex mutex;
/****************************************************************************
* Rx timers
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.3
***************************************************************************/
srsran::timer_handler::unique_timer status_prohibit_timer;
srsran::timer_handler::unique_timer reassembly_timer;
/****************************************************************************
* Configurable parameters
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.4
***************************************************************************/
rlc_am_nr_config_t cfg = {};
/****************************************************************************
* Rx state variables
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.1
***************************************************************************/
struct rlc_am_nr_rx_state_t st = {};
/****************************************************************************
* Rx constants
* Ref: 3GPP TS 38.322 version 16.2.0 Section 7.2
***************************************************************************/
inline uint32_t rx_window_size() const;
public:
// Getters/Setters
void set_rx_state(const rlc_am_nr_rx_state_t& st_) { st = st_; } // This should only be used for testing.
rlc_am_nr_rx_state_t get_rx_state() { return st; } // This should only be used for testing.
uint32_t get_rx_window_size() { return rx_window->size(); } // This should only be used for testing.
};
} // namespace srsran
#endif // SRSRAN_RLC_AM_NR_H