enb: refactor L2/L3 and (re)move all NR components to gNB stack

* decouple EUTRA and NR stack classes
* implement dummy X2 interface with control and data plane methods
* implement eNB time source interface that PHY calls
master
Andre Puschmann 3 years ago
parent 1e9a4e3fba
commit 3fd47d2af4

@ -14,6 +14,8 @@
#include "srsran/common/interfaces_common.h"
#include "srsran/srsran.h"
#include "srsran/interfaces/enb_rrc_interfaces.h"
#ifndef SRSRAN_ENB_INTERFACES_H
#define SRSRAN_ENB_INTERFACES_H
@ -27,8 +29,6 @@ public:
virtual void remove_eps_bearers(uint16_t rnti) = 0;
};
class stack_interface_phy_lte;
} // namespace srsenb
#endif // SRSRAN_ENB_INTERFACES_H

@ -258,8 +258,6 @@ public:
// Combined interface for PHY to access stack (MAC and RRC)
class stack_interface_phy_lte : public mac_interface_phy_lte
{
public:
virtual void tti_clock() = 0;
};
} // namespace srsenb

@ -120,67 +120,6 @@ public:
virtual void notify_pdcp_integrity_error(uint16_t rnti, uint32_t lcid) = 0;
};
// RRC interfaces for NSA operation
/// X2AP inspired interface to allow EUTRA RRC to call NR RRC
class rrc_nr_interface_rrc
{
public:
struct sgnb_addition_req_params_t {
uint32_t eps_bearer_id;
// add configuration check
// E-RAB Parameters, Tunnel address (IP address, TEID)
// QCI, security, etc
};
/// Request addition of NR carrier for UE
virtual int sgnb_addition_request(uint16_t eutra_rnti, const sgnb_addition_req_params_t& params) = 0;
/// Provide information whether the requested configuration was applied successfully by the UE
virtual int sgnb_reconfiguration_complete(uint16_t eutra_rnti, asn1::dyn_octstring reconfig_response) = 0;
};
/// X2AP inspired interface for response from NR RRC to EUTRA RRC
class rrc_eutra_interface_rrc_nr
{
public:
/**
* @brief List of parameters included in the SgNB addition Ack message
* @param nr_secondary_cell_group_cfg_r15 Encoded part of the RRC Reconfiguration
* @param nr_radio_bearer_cfg1_r15 Encoded part of the RRC Reconfiguration
* @param eps_bearer_id ID of the transfered bearer
*/
struct sgnb_addition_ack_params_t {
uint16_t nr_rnti = SRSRAN_INVALID_RNTI; // RNTI that was assigned to the UE
asn1::dyn_octstring nr_secondary_cell_group_cfg_r15;
asn1::dyn_octstring nr_radio_bearer_cfg1_r15;
uint32_t eps_bearer_id = 0; // (list of) successfully transfered EPS bearers
};
/**
* @brief Signal successful addition of UE
*
* @param eutra_rnti The RNTI that the EUTRA RRC used to request the SgNB addition
* @param params Parameter list
*/
virtual void sgnb_addition_ack(uint16_t eutra_rnti, sgnb_addition_ack_params_t params) = 0;
/**
* @brief Signal unsuccessful SgNB addition
*
* @param eutra_rnti The RNTI that the EUTRA RRC used to request the SgNB addition
*/
virtual void sgnb_addition_reject(uint16_t eutra_rnti) = 0;
/**
* @brief Signal completion of SgNB addition after UE (with new NR identity) has attached
*
* @param eutra_rnti The RNTI that the EUTRA RRC used to request the SgNB addition
* @param nr_rnti The RNTI that has been assigned to the UE on the SgNB
*/
virtual void sgnb_addition_complete(uint16_t eutra_rnti, uint16_t nr_rnti) = 0;
};
} // namespace srsenb
#endif // SRSRAN_ENB_RRC_INTERFACES_H

@ -0,0 +1,31 @@
/**
*
* \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_ENB_TIME_INTERFACE_H
#define SRSRAN_ENB_TIME_INTERFACE_H
namespace srsenb {
// RAT-agnostic interface to provide timing information to upper layers
class enb_time_interface
{
public:
/**
* @brief Called for every tick (currently every ms)
*
*/
virtual void tti_clock() = 0;
};
} // namespace srsenb
#endif // SRSRAN_ENB_TIME_INTERFACE_H

@ -0,0 +1,101 @@
/**
*
* \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.
*
*/
#include "srsran/interfaces/enb_pdcp_interfaces.h"
#include "srsran/interfaces/enb_rrc_interface_types.h"
#ifndef SRSRAN_ENB_X2_INTERFACES_H
#define SRSRAN_ENB_X2_INTERFACES_H
namespace srsenb {
/**
* @brief Set of X2AP inspired interfaces to support 5G NSA
*
*/
/// X2AP inspired interface to allow EUTRA RRC to call NR RRC
class rrc_nr_interface_rrc
{
public:
struct sgnb_addition_req_params_t {
uint32_t eps_bearer_id;
// add configuration check
// E-RAB Parameters, Tunnel address (IP address, TEID)
// QCI, security, etc
};
/// Request addition of NR carrier for UE
virtual int sgnb_addition_request(uint16_t eutra_rnti, const sgnb_addition_req_params_t& params) = 0;
/// Provide information whether the requested configuration was applied successfully by the UE
virtual int sgnb_reconfiguration_complete(uint16_t eutra_rnti, asn1::dyn_octstring reconfig_response) = 0;
};
/// X2AP inspired interface for response from NR RRC to EUTRA RRC
class rrc_eutra_interface_rrc_nr
{
public:
/**
* @brief List of parameters included in the SgNB addition Ack message
* @param nr_secondary_cell_group_cfg_r15 Encoded part of the RRC Reconfiguration
* @param nr_radio_bearer_cfg1_r15 Encoded part of the RRC Reconfiguration
* @param eps_bearer_id ID of the transfered bearer
*/
struct sgnb_addition_ack_params_t {
uint16_t nr_rnti = SRSRAN_INVALID_RNTI; // RNTI that was assigned to the UE
asn1::dyn_octstring nr_secondary_cell_group_cfg_r15;
asn1::dyn_octstring nr_radio_bearer_cfg1_r15;
uint32_t eps_bearer_id = 0; // (list of) successfully transfered EPS bearers
};
/**
* @brief Signal successful addition of UE
*
* @param eutra_rnti The RNTI that the EUTRA RRC used to request the SgNB addition
* @param params Parameter list
*/
virtual void sgnb_addition_ack(uint16_t eutra_rnti, sgnb_addition_ack_params_t params) = 0;
/**
* @brief Signal unsuccessful SgNB addition
*
* @param eutra_rnti The RNTI that the EUTRA RRC used to request the SgNB addition
*/
virtual void sgnb_addition_reject(uint16_t eutra_rnti) = 0;
/**
* @brief Signal completion of SgNB addition after UE (with new NR identity) has attached
*
* @param eutra_rnti The RNTI that the EUTRA RRC used to request the SgNB addition
* @param nr_rnti The RNTI that has been assigned to the UE on the SgNB
*/
virtual void sgnb_addition_complete(uint16_t eutra_rnti, uint16_t nr_rnti) = 0;
};
class stack_nr_interface_stack_eutra
{
public:
/// Helper method to provide time signal to NR-RRC (PHY only sends TTI ticks to EUTRA stack)
virtual void tti_clock() = 0;
};
// combined interface used by X2 adapter
class x2_interface : public rrc_nr_interface_rrc,
public rrc_eutra_interface_rrc_nr,
public stack_nr_interface_stack_eutra,
public pdcp_interface_gtpu
{};
} // namespace srsenb
#endif // SRSRAN_ENB_X2_INTERFACES_H

@ -24,12 +24,14 @@
#include <string>
#include "phy/phy.h"
#include "x2_adapter.h"
#include "srsran/radio/radio.h"
#include "srsenb/hdr/phy/enb_phy_base.h"
#include "srsenb/hdr/stack/enb_stack_base.h"
#include "srsenb/hdr/stack/rrc/rrc_config.h"
#include "srsenb/hdr/stack/rrc/rrc_config_nr.h"
#include "srsenb/hdr/stack/mac/sched_interface.h"
#include "srsran/common/bcd_helpers.h"
@ -39,6 +41,7 @@
#include "srsran/common/security.h"
#include "srsran/interfaces/enb_command_interface.h"
#include "srsran/interfaces/enb_metrics_interface.h"
#include "srsran/interfaces/enb_time_interface.h"
#include "srsran/interfaces/ue_interfaces.h"
#include "srsran/srslog/srslog.h"
#include "srsran/system/sys_metrics_processor.h"
@ -117,7 +120,7 @@ struct rrc_cfg_t;
Main eNB class
*******************************************************************************/
class enb : public enb_metrics_interface, enb_command_interface
class enb : public enb_metrics_interface, enb_command_interface, enb_time_interface
{
public:
enb(srslog::sink& log_sink);
@ -140,6 +143,8 @@ public:
void toggle_padding() override;
void tti_clock() override;
private:
const static int ENB_POOL_SIZE = 1024 * 10;
@ -153,8 +158,10 @@ private:
phy_cfg_t phy_cfg = {};
rrc_cfg_t rrc_cfg = {};
rrc_nr_cfg_t rrc_nr_cfg = {};
// eNB components
x2_adapter x2;
std::unique_ptr<enb_stack_base> eutra_stack = nullptr;
std::unique_ptr<enb_stack_base> nr_stack = nullptr;
std::unique_ptr<srsran::radio_base> radio = nullptr;

@ -71,7 +71,6 @@ private:
int get_mch_sched(uint32_t tti, bool is_mcch, dl_sched_list_t& dl_sched_res) override { return 0; }
int get_ul_sched(uint32_t tti, ul_sched_list_t& ul_sched_res) override { return 0; }
void set_sched_dl_tti_mask(uint8_t* tti_mask, uint32_t nof_sfs) override {}
void tti_clock() override {}
};
srsran::phy_common_interface& common;

@ -18,6 +18,7 @@
#include "srsenb/hdr/phy/enb_phy_base.h"
#include "srsran/common/trace.h"
#include "srsran/interfaces/enb_metrics_interface.h"
#include "srsran/interfaces/enb_time_interface.h"
#include "srsran/interfaces/radio_interfaces.h"
#include "srsran/radio/radio.h"
#include "srsran/srslog/srslog.h"
@ -37,12 +38,14 @@ public:
int init(const phy_args_t& args,
const phy_cfg_t& cfg,
srsran::radio_interface_phy* radio_,
stack_interface_phy_lte* stack_);
stack_interface_phy_lte* stack_,
enb_time_interface* enb_);
int init(const phy_args_t& args,
const phy_cfg_t& cfg,
srsran::radio_interface_phy* radio_,
stack_interface_phy_lte* stack_lte_,
stack_interface_phy_nr& stack_nr_);
stack_interface_phy_nr& stack_nr_,
enb_time_interface* enb_);
void stop() override;
std::string get_type() override { return "lte"; };

@ -18,6 +18,7 @@
#include "srsenb/hdr/phy/lte/worker_pool.h"
#include "srsenb/hdr/phy/nr/worker_pool.h"
#include "srsran/config.h"
#include "srsran/interfaces/enb_time_interface.h"
#include "srsran/phy/channel/channel.h"
#include "srsran/radio/radio.h"
#include <atomic>
@ -28,7 +29,7 @@ class txrx final : public srsran::thread
{
public:
txrx(srslog::basic_logger& logger);
bool init(stack_interface_phy_lte* stack_,
bool init(enb_time_interface* enb_,
srsran::radio_interface_phy* radio_handler,
lte::worker_pool* lte_workers_,
phy_common* worker_com,
@ -40,7 +41,7 @@ public:
private:
void run_thread() override;
stack_interface_phy_lte* stack = nullptr;
enb_time_interface* enb = nullptr;
srsran::radio_interface_phy* radio_h = nullptr;
srslog::basic_logger& logger;
lte::worker_pool* lte_workers = nullptr;

@ -85,6 +85,8 @@ public:
virtual void toggle_padding() = 0;
// eNB metrics interface
virtual bool get_metrics(stack_metrics_t* metrics) = 0;
virtual void tti_clock() = 0;
};
} // namespace srsenb

@ -19,9 +19,7 @@
#define SRSRAN_ENB_STACK_LTE_H
#include "mac/mac.h"
#include "mac/nr/mac_nr.h"
#include "rrc/rrc.h"
#include "rrc/rrc_nr.h"
#include "s1ap/s1ap.h"
#include "srsran/common/task_scheduler.h"
#include "upper/gtpu.h"
@ -40,7 +38,7 @@ class gtpu_pdcp_adapter;
class enb_stack_lte final : public enb_stack_base,
public stack_interface_phy_lte,
public stack_interface_phy_nr,
public rrc_eutra_interface_rrc_nr,
public srsran::thread
{
public:
@ -48,12 +46,7 @@ public:
~enb_stack_lte() final;
// eNB stack base interface
int init(const stack_args_t& args_,
const rrc_cfg_t& rrc_cfg_,
phy_interface_stack_lte* phy_,
phy_interface_stack_nr* phy_nr_);
int init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_, phy_interface_stack_lte* phy_);
int init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_);
int init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_, phy_interface_stack_lte* phy_, x2_interface* x2_);
void stop() final;
std::string get_type() final;
bool get_metrics(stack_metrics_t* metrics) final;
@ -115,25 +108,16 @@ public:
void toggle_padding() override { mac.toggle_padding(); }
void tti_clock() override;
// mac_interface_phy_nr
int slot_indication(const srsran_slot_cfg_t& slot_cfg) override { return mac_nr.slot_indication(slot_cfg); }
int get_dl_sched(const srsran_slot_cfg_t& slot_cfg, srsenb::mac_interface_phy_nr::dl_sched_t& dl_sched) override
// rrc_eutra_interface_rrc_nr
void sgnb_addition_ack(uint16_t eutra_rnti, sgnb_addition_ack_params_t params) final
{
return mac_nr.get_dl_sched(slot_cfg, dl_sched);
rrc.sgnb_addition_ack(eutra_rnti, params);
}
int get_ul_sched(const srsran_slot_cfg_t& slot_cfg, srsenb::mac_interface_phy_nr::ul_sched_t& ul_sched) override
void sgnb_addition_reject(uint16_t eutra_rnti) final { rrc.sgnb_addition_reject(eutra_rnti); }
void sgnb_addition_complete(uint16_t eutra_rnti, uint16_t nr_rnti) final
{
return mac_nr.get_ul_sched(slot_cfg, ul_sched);
rrc.sgnb_addition_complete(eutra_rnti, nr_rnti);
}
int pucch_info(const srsran_slot_cfg_t& slot_cfg, const pucch_info_t& pucch_info) override
{
return mac_nr.pucch_info(slot_cfg, pucch_info);
}
int pusch_info(const srsran_slot_cfg_t& slot_cfg, pusch_info_t& pusch_info) override
{
return mac_nr.pusch_info(slot_cfg, pusch_info);
}
void rach_detected(const rach_info_t& rach_info) override { mac_nr.rach_detected(rach_info); }
private:
static const int STACK_MAIN_THREAD_PRIO = 4;
@ -155,10 +139,6 @@ private:
srslog::basic_logger& s1ap_logger;
srslog::basic_logger& gtpu_logger;
srslog::basic_logger& stack_logger;
srslog::basic_logger& rrc_nr_logger;
srslog::basic_logger& mac_nr_logger;
srslog::basic_logger& rlc_nr_logger;
srslog::basic_logger& pdcp_nr_logger;
// PCAP and trace option
srsran::mac_pcap mac_pcap;
@ -180,15 +160,8 @@ private:
srsenb::gtpu gtpu;
srsenb::s1ap s1ap;
// NR components for NSA mode
srsenb::mac_nr mac_nr;
srsenb::rlc rlc_nr;
srsenb::pdcp pdcp_nr;
srsenb::rrc_nr rrc_nr;
// RAT-specific interfaces
phy_interface_stack_lte* phy = nullptr;
phy_interface_stack_nr* phy_nr = nullptr;
// state
std::atomic<bool> started{false};

@ -18,16 +18,15 @@
#ifndef SRSRAN_GNB_STACK_NR_H
#define SRSRAN_GNB_STACK_NR_H
#include "s1ap/s1ap.h"
#include "srsenb/hdr/stack/mac/nr/mac_nr.h"
#include "srsenb/hdr/stack/rrc/rrc_nr.h"
#include "srsenb/hdr/stack/upper/pdcp_nr.h"
#include "srsenb/hdr/stack/upper/rlc_nr.h"
#include "upper/gtpu.h"
#include "upper/pdcp.h"
#include "upper/rlc.h"
#include "upper/sdap.h"
#include "enb_stack_base.h"
#include "srsenb/hdr/enb.h"
#include "srsran/interfaces/gnb_interfaces.h"
// This is needed for GW
@ -40,14 +39,18 @@ class gnb_stack_nr final : public srsenb::enb_stack_base,
public stack_interface_phy_nr,
public stack_interface_mac,
public srsue::stack_interface_gw,
public rrc_nr_interface_rrc,
public pdcp_interface_gtpu, // for user-plane over X2
public srsran::thread
{
public:
explicit gnb_stack_nr();
explicit gnb_stack_nr(srslog::sink& log_sink);
~gnb_stack_nr() final;
int init(const srsenb::stack_args_t& args_, const rrc_nr_cfg_t& rrc_cfg_, phy_interface_stack_nr* phy_);
int init(const srsenb::stack_args_t& args_, const rrc_nr_cfg_t& rrc_cfg_);
int init(const srsenb::stack_args_t& args_,
const rrc_nr_cfg_t& rrc_cfg_,
phy_interface_stack_nr* phy_,
x2_interface* x2_);
// eNB stack base interface
void stop() final;
@ -62,12 +65,12 @@ public:
void write_sdu(uint32_t lcid, srsran::unique_byte_buffer_t sdu) override;
bool has_active_radio_bearer(uint32_t eps_bearer_id) override;
bool switch_on();
void run_tti(uint32_t tti);
void tti_clock() override;
// MAC interface to trigger processing of received PDUs
void process_pdus() final;
void toggle_padding() override { srsran::console("padding not available for NR\n"); }
void toggle_padding() override {}
int slot_indication(const srsran_slot_cfg_t& slot_cfg) override;
int get_dl_sched(const srsran_slot_cfg_t& slot_cfg, dl_sched_t& dl_sched) override;
@ -76,15 +79,40 @@ public:
int pusch_info(const srsran_slot_cfg_t& slot_cfg, pusch_info_t& pusch_info) override;
void rach_detected(const rach_info_t& rach_info) override;
// X2 interface
// control plane, i.e. rrc_nr_interface_rrc
int sgnb_addition_request(uint16_t eutra_rnti, const sgnb_addition_req_params_t& params) final
{
return rrc.sgnb_addition_request(eutra_rnti, params);
};
int sgnb_reconfiguration_complete(uint16_t eutra_rnti, asn1::dyn_octstring reconfig_response) final
{
return rrc.sgnb_reconfiguration_complete(eutra_rnti, reconfig_response);
};
// X2 data interface
void write_sdu(uint16_t rnti, uint32_t lcid, srsran::unique_byte_buffer_t sdu, int pdcp_sn = -1) final
{
pdcp.write_sdu(rnti, lcid, std::move(sdu), pdcp_sn);
}
std::map<uint32_t, srsran::unique_byte_buffer_t> get_buffered_pdus(uint16_t rnti, uint32_t lcid) final
{
return pdcp.get_buffered_pdus(rnti, lcid);
}
private:
void run_thread() final;
void run_tti_impl(uint32_t tti);
void tti_clock_impl();
// args
srsenb::stack_args_t args = {};
phy_interface_stack_nr* phy = nullptr;
srslog::basic_logger& rrc_logger;
srslog::basic_logger& mac_logger;
srslog::basic_logger& rlc_logger;
srslog::basic_logger& pdcp_logger;
srslog::basic_logger& stack_logger;
// task scheduling
static const int STACK_MAIN_THREAD_PRIO = 4;
@ -92,18 +120,14 @@ private:
srsran::task_multiqueue::queue_handle sync_task_queue, ue_task_queue, gw_task_queue, mac_task_queue;
// derived
std::unique_ptr<mac_nr> m_mac;
std::unique_ptr<rlc_nr> m_rlc;
std::unique_ptr<pdcp_nr> m_pdcp;
std::unique_ptr<sdap> m_sdap;
std::unique_ptr<rrc_nr> m_rrc;
std::unique_ptr<srsue::gw> m_gw;
// std::unique_ptr<ngap> m_ngap;
// std::unique_ptr<srsenb::gtpu> m_gtpu;
srsenb::mac_nr mac;
srsenb::rlc rlc;
srsenb::pdcp pdcp;
srsenb::rrc_nr rrc;
// std::unique_ptr<sdap> m_sdap;
// state
bool running = false;
uint32_t current_tti = 10240;
std::atomic<bool> running = {false};
};
} // namespace srsenb

@ -26,6 +26,7 @@
#include "srsran/common/task_scheduler.h"
#include "srsran/common/timeout.h"
#include "srsran/interfaces/enb_rrc_interfaces.h"
#include "srsran/interfaces/enb_x2_interfaces.h"
#include "srsran/srslog/srslog.h"
#include <map>

@ -27,6 +27,7 @@
#include "srsran/interfaces/enb_pdcp_interfaces.h"
#include "srsran/interfaces/enb_rlc_interfaces.h"
#include "srsran/interfaces/enb_rrc_interfaces.h"
#include "srsran/interfaces/enb_x2_interfaces.h"
#include "srsran/interfaces/gnb_interfaces.h"
#include "srsran/interfaces/gnb_mac_interfaces.h"
#include "srsran/interfaces/gnb_ngap_interfaces.h"

@ -0,0 +1,120 @@
/**
*
* \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.
*
*/
/**
* @brief Dummy X2AP implementation
*
* Dummy X2 adapter to facilitate communication between EUTRA RRC and NR RRC
* for EN-DC procedures.
*
* The class uses direct function calls instead of real X2AP ASN1 encoded
* messages. It mainly focuses on Sec 9.1.4 of TS 36.423 Rel. 15.11
* for E-UTRAN-NR Dual Connectivity Procedures, i.e. SgNB-*
*
* It furthermore provide an interface for the GTPU adapter to
* write DL PDUs, which it then forwards to the NR PDCP.
*
* It also provides a method to allow the eNB to foward timing
* signal, i.e. TTI tics, to the NR stack.
*/
#ifndef SRSENB_X2_ADAPTER_H
#define SRSENB_X2_ADAPTER_H
#include "srsran/interfaces/enb_x2_interfaces.h"
#include "stack/enb_stack_lte.h"
#include "stack/gnb_stack_nr.h"
namespace srsenb {
class x2_adapter final : public x2_interface
{
public:
x2_adapter() = default;
// init functions to set handle to stacks
void set_eutra_stack(enb_stack_lte* eutra_stack_) { eutra_stack = eutra_stack_; }
void set_nr_stack(gnb_stack_nr* nr_stack_) { nr_stack = nr_stack_; }
/// rrc_nr_interface_rrc
int sgnb_addition_request(uint16_t eutra_rnti, const sgnb_addition_req_params_t& params)
{
if (nr_stack == nullptr) {
return SRSRAN_ERROR;
}
return nr_stack->sgnb_addition_request(eutra_rnti, params);
}
int sgnb_reconfiguration_complete(uint16_t eutra_rnti, asn1::dyn_octstring reconfig_response)
{
if (nr_stack == nullptr) {
return SRSRAN_ERROR;
}
return nr_stack->sgnb_reconfiguration_complete(eutra_rnti, reconfig_response);
}
/// rrc_eutra_interface_rrc_nr
void sgnb_addition_ack(uint16_t eutra_rnti, sgnb_addition_ack_params_t params)
{
if (eutra_stack == nullptr) {
return;
}
eutra_stack->sgnb_addition_ack(eutra_rnti, params);
}
void sgnb_addition_reject(uint16_t eutra_rnti)
{
if (eutra_stack == nullptr) {
return;
}
eutra_stack->sgnb_addition_reject(eutra_rnti);
}
void sgnb_addition_complete(uint16_t eutra_rnti, uint16_t nr_rnti)
{
if (eutra_stack == nullptr) {
return;
}
eutra_stack->sgnb_addition_complete(eutra_rnti, nr_rnti);
}
// stack_nr_interface_stack_eutra
void tti_clock()
{
if (nr_stack == nullptr) {
return;
}
nr_stack->tti_clock();
}
// pdcp_interface_gtpu
void write_sdu(uint16_t rnti, uint32_t lcid, srsran::unique_byte_buffer_t sdu, int pdcp_sn = -1)
{
if (nr_stack == nullptr) {
return;
}
nr_stack->write_sdu(rnti, lcid, std::move(sdu), pdcp_sn);
}
std::map<uint32_t, srsran::unique_byte_buffer_t> get_buffered_pdus(uint16_t rnti, uint32_t lcid)
{
if (nr_stack == nullptr) {
return {};
}
return nr_stack->get_buffered_pdus(rnti, lcid);
}
private:
enb_stack_lte* eutra_stack = nullptr;
gnb_stack_nr* nr_stack = nullptr;
};
} // namespace srsenb
#endif // SRSENB_X2_ADAPTER_H

@ -59,37 +59,47 @@ int enb::init(const all_args_t& args_)
srsran::console("Error creating EUTRA stack.\n");
return SRSRAN_ERROR;
}
x2.set_eutra_stack(tmp_eutra_stack.get());
}
std::unique_ptr<gnb_stack_nr> tmp_nr_stack;
if (not rrc_cfg.cell_list_nr.empty()) {
// add NR stack
tmp_nr_stack.reset(new gnb_stack_nr());
tmp_nr_stack.reset(new gnb_stack_nr(log_sink));
if (tmp_nr_stack == nullptr) {
srsran::console("Error creating NR stack.\n");
return SRSRAN_ERROR;
}
x2.set_nr_stack(tmp_nr_stack.get());
}
// Radio is RAT agnostic
// Radio and PHY are RAT agnostic
std::unique_ptr<srsran::radio> tmp_radio = std::unique_ptr<srsran::radio>(new srsran::radio);
if (tmp_radio == nullptr) {
srsran::console("Error creating radio multi instance.\n");
return SRSRAN_ERROR;
}
// PHY is RAT agnostic too
std::unique_ptr<srsenb::phy> tmp_phy = std::unique_ptr<srsenb::phy>(new srsenb::phy(log_sink));
if (tmp_phy == nullptr) {
srsran::console("Error creating PHY instance.\n");
return SRSRAN_ERROR;
}
// initialize layers
if (tmp_eutra_stack->init(args.stack, rrc_cfg, tmp_phy.get(), tmp_phy.get()) != SRSRAN_SUCCESS) {
srsran::console("Error initializing stack.\n");
// initialize layers, if they exist
if (tmp_eutra_stack) {
if (tmp_eutra_stack->init(args.stack, rrc_cfg, tmp_phy.get(), &x2) != SRSRAN_SUCCESS) {
srsran::console("Error initializing EUTRA stack.\n");
ret = SRSRAN_ERROR;
}
}
if (tmp_nr_stack) {
if (tmp_nr_stack->init(args.stack, rrc_nr_cfg, tmp_phy.get(), &x2) != SRSRAN_SUCCESS) {
srsran::console("Error initializing NR stack.\n");
ret = SRSRAN_ERROR;
}
}
// Init Radio
if (tmp_radio->init(args.rf, tmp_phy.get())) {
@ -99,7 +109,7 @@ int enb::init(const all_args_t& args_)
// Only Init PHY if radio could be initialized
if (ret == SRSRAN_SUCCESS) {
if (tmp_phy->init(args.phy, phy_cfg, tmp_radio.get(), tmp_eutra_stack.get(), *tmp_eutra_stack)) {
if (tmp_phy->init(args.phy, phy_cfg, tmp_radio.get(), tmp_eutra_stack.get(), *tmp_nr_stack, this)) {
srsran::console("Error initializing PHY.\n");
ret = SRSRAN_ERROR;
}
@ -221,7 +231,19 @@ std::string enb::get_build_string()
void enb::toggle_padding()
{
if (eutra_stack) {
eutra_stack->toggle_padding();
}
}
void enb::tti_clock()
{
if (eutra_stack) {
eutra_stack->tti_clock();
}
if (nr_stack) {
nr_stack->tti_clock();
}
}
} // namespace srsenb

@ -97,9 +97,10 @@ int phy::init(const phy_args_t& args,
const phy_cfg_t& cfg,
srsran::radio_interface_phy* radio_,
stack_interface_phy_lte* stack_lte_,
stack_interface_phy_nr& stack_nr_)
stack_interface_phy_nr& stack_nr_,
enb_time_interface* enb_)
{
if (init(args, cfg, radio_, stack_lte_) != SRSRAN_SUCCESS) {
if (init(args, cfg, radio_, stack_lte_, enb_) != SRSRAN_SUCCESS) {
phy_log.error("Couldn't initialize LTE PHY");
return SRSRAN_ERROR;
}
@ -115,7 +116,8 @@ int phy::init(const phy_args_t& args,
int phy::init(const phy_args_t& args,
const phy_cfg_t& cfg,
srsran::radio_interface_phy* radio_,
stack_interface_phy_lte* stack_)
stack_interface_phy_lte* stack_lte_,
enb_time_interface* enb_)
{
if (cfg.phy_cell_cfg.size() > SRSRAN_MAX_CARRIERS) {
phy_log.error(
@ -142,7 +144,7 @@ int phy::init(const phy_args_t& args,
workers_common.params = args;
workers_common.init(cfg.phy_cell_cfg, cfg.phy_cell_cfg_nr, radio, stack_);
workers_common.init(cfg.phy_cell_cfg, cfg.phy_cell_cfg_nr, radio, stack_lte_);
parse_common_config(cfg);
@ -154,13 +156,18 @@ int phy::init(const phy_args_t& args,
// For each carrier, initialise PRACH worker
for (uint32_t cc = 0; cc < cfg.phy_cell_cfg.size(); cc++) {
prach_cfg.root_seq_idx = cfg.phy_cell_cfg[cc].root_seq_idx;
prach.init(
cc, cfg.phy_cell_cfg[cc].cell, prach_cfg, stack_, phy_log, PRACH_WORKER_THREAD_PRIO, args.nof_prach_threads);
prach.init(cc,
cfg.phy_cell_cfg[cc].cell,
prach_cfg,
stack_lte_,
phy_log,
PRACH_WORKER_THREAD_PRIO,
args.nof_prach_threads);
}
prach.set_max_prach_offset_us(args.max_prach_offset_us);
// Warning this must be initialized after all workers have been added to the pool
tx_rx.init(stack_, radio, &lte_workers, &workers_common, &prach, SF_RECV_THREAD_PRIO);
tx_rx.init(enb_, radio, &lte_workers, &workers_common, &prach, SF_RECV_THREAD_PRIO);
initialized = true;

@ -39,14 +39,14 @@ txrx::txrx(srslog::basic_logger& logger) : thread("TXRX"), logger(logger), runni
/* Do nothing */
}
bool txrx::init(stack_interface_phy_lte* stack_,
bool txrx::init(enb_time_interface* enb_,
srsran::radio_interface_phy* radio_h_,
lte::worker_pool* lte_workers_,
phy_common* worker_com_,
prach_worker_pool* prach_,
uint32_t prio_)
{
stack = stack_;
enb = enb_;
radio_h = radio_h_;
lte_workers = lte_workers_;
worker_com = worker_com_;
@ -213,8 +213,8 @@ void txrx::run_thread()
lte_workers->start_worker(lte_worker);
}
// Advance stack in time
stack->tti_clock();
// Advance in time
enb->tti_clock();
}
}

@ -13,8 +13,8 @@
#include "srsenb/hdr/stack/enb_stack_lte.h"
#include "srsenb/hdr/common/rnti_pool.h"
#include "srsenb/hdr/enb.h"
#include "srsenb/hdr/stack/rrc/rrc_config_nr.h"
#include "srsran/interfaces/enb_metrics_interface.h"
#include "srsran/interfaces/enb_x2_interfaces.h"
#include "srsran/rlc/bearer_mem_pool.h"
#include "srsran/srslog/event_trace.h"
@ -27,10 +27,10 @@ class gtpu_pdcp_adapter final : public gtpu_interface_pdcp, public pdcp_interfac
public:
gtpu_pdcp_adapter(srslog::basic_logger& logger_,
pdcp* pdcp_lte,
pdcp* pdcp_nr,
pdcp_interface_gtpu* pdcp_x2,
gtpu* gtpu_,
enb_bearer_manager& bearers_) :
logger(logger_), pdcp_obj(pdcp_lte), pdcp_nr_obj(pdcp_nr), gtpu_obj(gtpu_), bearers(&bearers_)
logger(logger_), pdcp_obj(pdcp_lte), pdcp_x2_obj(pdcp_x2), gtpu_obj(gtpu_), bearers(&bearers_)
{}
/// Converts LCID to EPS-BearerID and sends corresponding PDU to GTPU
@ -50,7 +50,7 @@ public:
if (bearer.rat == srsran_rat_t::lte) {
pdcp_obj->write_sdu(rnti, bearer.lcid, std::move(sdu), pdcp_sn);
} else if (bearer.rat == srsran_rat_t::nr) {
pdcp_nr_obj->write_sdu(rnti, bearer.lcid, std::move(sdu), pdcp_sn);
pdcp_x2_obj->write_sdu(rnti, bearer.lcid, std::move(sdu), pdcp_sn);
} else {
logger.warning("Can't deliver SDU for EPS bearer %d. Dropping it.", eps_bearer_id);
}
@ -62,7 +62,7 @@ public:
if (bearer.rat == srsran_rat_t::lte) {
return pdcp_obj->get_buffered_pdus(rnti, bearer.lcid);
} else if (bearer.rat == srsran_rat_t::nr) {
return pdcp_nr_obj->get_buffered_pdus(rnti, bearer.lcid);
return pdcp_x2_obj->get_buffered_pdus(rnti, bearer.lcid);
}
logger.error("Bearer rnti=0x%x, eps-BearerID=%d not found", rnti, eps_bearer_id);
return {};
@ -72,34 +72,26 @@ private:
srslog::basic_logger& logger;
gtpu* gtpu_obj = nullptr;
pdcp* pdcp_obj = nullptr;
pdcp* pdcp_nr_obj = nullptr;
pdcp_interface_gtpu* pdcp_x2_obj = nullptr;
enb_bearer_manager* bearers = nullptr;
};
enb_stack_lte::enb_stack_lte(srslog::sink& log_sink) :
thread("STACK"),
mac_logger(srslog::fetch_basic_logger("MAC", log_sink)),
mac_nr_logger(srslog::fetch_basic_logger("MAC-NR", log_sink)),
rlc_logger(srslog::fetch_basic_logger("RLC", log_sink, false)),
rlc_nr_logger(srslog::fetch_basic_logger("RLC-NR", log_sink, false)),
pdcp_logger(srslog::fetch_basic_logger("PDCP", log_sink, false)),
pdcp_nr_logger(srslog::fetch_basic_logger("PDCP-NR", log_sink, false)),
rrc_logger(srslog::fetch_basic_logger("RRC", log_sink, false)),
rrc_nr_logger(srslog::fetch_basic_logger("RRC-NR", log_sink, false)),
s1ap_logger(srslog::fetch_basic_logger("S1AP", log_sink, false)),
gtpu_logger(srslog::fetch_basic_logger("GTPU", log_sink, false)),
stack_logger(srslog::fetch_basic_logger("STCK", log_sink, false)),
task_sched(512, 128),
pdcp(&task_sched, pdcp_logger),
pdcp_nr(&task_sched, pdcp_nr_logger),
mac(&task_sched, mac_logger),
mac_nr(&task_sched),
rlc(rlc_logger),
rlc_nr(rlc_nr_logger),
gtpu(&task_sched, gtpu_logger, &rx_sockets),
s1ap(&task_sched, s1ap_logger, &rx_sockets),
rrc(&task_sched, bearers),
rrc_nr(&task_sched),
mac_pcap(),
pending_stack_metrics(64)
{
@ -122,30 +114,11 @@ std::string enb_stack_lte::get_type()
int enb_stack_lte::init(const stack_args_t& args_,
const rrc_cfg_t& rrc_cfg_,
phy_interface_stack_lte* phy_,
phy_interface_stack_nr* phy_nr_)
{
phy_nr = phy_nr_;
if (init(args_, rrc_cfg_, phy_)) {
return SRSRAN_ERROR;
}
return SRSRAN_SUCCESS;
}
int enb_stack_lte::init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_, phy_interface_stack_lte* phy_)
{
phy = phy_;
if (init(args_, rrc_cfg_)) {
return SRSRAN_ERROR;
}
return SRSRAN_SUCCESS;
}
int enb_stack_lte::init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_)
x2_interface* x2_)
{
args = args_;
rrc_cfg = rrc_cfg_;
phy = phy_;
// Init RNTI and bearer memory pools
reserve_rnti_memblocks(args.mac.nof_prealloc_ues);
@ -154,25 +127,17 @@ int enb_stack_lte::init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_)
// setup logging for each layer
mac_logger.set_level(srslog::str_to_basic_level(args.log.mac_level));
mac_nr_logger.set_level(srslog::str_to_basic_level(args.log.mac_level));
rlc_logger.set_level(srslog::str_to_basic_level(args.log.rlc_level));
rlc_nr_logger.set_level(srslog::str_to_basic_level(args.log.rlc_level));
pdcp_logger.set_level(srslog::str_to_basic_level(args.log.pdcp_level));
pdcp_nr_logger.set_level(srslog::str_to_basic_level(args.log.pdcp_level));
rrc_logger.set_level(srslog::str_to_basic_level(args.log.rrc_level));
rrc_nr_logger.set_level(srslog::str_to_basic_level(args.log.rrc_level));
gtpu_logger.set_level(srslog::str_to_basic_level(args.log.gtpu_level));
s1ap_logger.set_level(srslog::str_to_basic_level(args.log.s1ap_level));
stack_logger.set_level(srslog::str_to_basic_level(args.log.stack_level));
mac_logger.set_hex_dump_max_size(args.log.mac_hex_limit);
mac_nr_logger.set_hex_dump_max_size(args.log.mac_hex_limit);
rlc_logger.set_hex_dump_max_size(args.log.rlc_hex_limit);
rlc_nr_logger.set_hex_dump_max_size(args.log.rlc_hex_limit);
pdcp_logger.set_hex_dump_max_size(args.log.pdcp_hex_limit);
pdcp_nr_logger.set_hex_dump_max_size(args.log.pdcp_hex_limit);
rrc_logger.set_hex_dump_max_size(args.log.rrc_hex_limit);
rrc_nr_logger.set_hex_dump_max_size(args.log.rrc_hex_limit);
gtpu_logger.set_hex_dump_max_size(args.log.gtpu_hex_limit);
s1ap_logger.set_hex_dump_max_size(args.log.s1ap_hex_limit);
stack_logger.set_hex_dump_max_size(args.log.stack_hex_limit);
@ -200,7 +165,7 @@ int enb_stack_lte::init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_)
sync_task_queue = task_sched.make_task_queue(args.sync_queue_size);
// setup bearer managers
gtpu_adapter.reset(new gtpu_pdcp_adapter(stack_logger, &pdcp, &pdcp_nr, &gtpu, bearers));
gtpu_adapter.reset(new gtpu_pdcp_adapter(stack_logger, &pdcp, x2_, &gtpu, bearers));
// Init all LTE layers
if (!mac.init(args.mac, rrc_cfg.cell_list, phy, &rlc, &rrc)) {
@ -209,7 +174,7 @@ int enb_stack_lte::init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_)
}
rlc.init(&pdcp, &rrc, &mac, task_sched.get_timer_handler());
pdcp.init(&rlc, &rrc, gtpu_adapter.get());
if (rrc.init(rrc_cfg, phy, &mac, &rlc, &pdcp, &s1ap, &gtpu, &rrc_nr) != SRSRAN_SUCCESS) {
if (rrc.init(rrc_cfg, phy, &mac, &rlc, &pdcp, &s1ap, &gtpu, x2_) != SRSRAN_SUCCESS) {
stack_logger.error("Couldn't initialize RRC");
return SRSRAN_ERROR;
}
@ -218,25 +183,6 @@ int enb_stack_lte::init(const stack_args_t& args_, const rrc_cfg_t& rrc_cfg_)
return SRSRAN_ERROR;
}
// NR layers
mac_nr_args_t mac_args = {};
mac_args.fixed_dl_mcs = 28;
mac_args.fixed_ul_mcs = 10;
mac_args.pcap = args.mac_pcap;
mac_args.pcap.filename = "/tmp/enb_mac_nr.pcap";
if (mac_nr.init(mac_args, phy_nr, nullptr, &rlc_nr, &rrc_nr) != SRSRAN_SUCCESS) {
stack_logger.error("Couldn't initialize MAC-NR");
return SRSRAN_ERROR;
}
rrc_nr_cfg_t rrc_cfg_nr = {};
if (rrc_nr.init(rrc_cfg_nr, phy_nr, &mac_nr, &rlc_nr, &pdcp_nr, nullptr, nullptr, &rrc) != SRSRAN_SUCCESS) {
stack_logger.error("Couldn't initialize RRC-NR");
return SRSRAN_ERROR;
}
rlc_nr.init(&pdcp_nr, &rrc_nr, &mac_nr, task_sched.get_timer_handler());
pdcp_nr.init(&rlc_nr, &rrc_nr, gtpu_adapter.get());
gtpu_args_t gtpu_args;
gtpu_args.embms_enable = args.embms.enable;
gtpu_args.embms_m1u_multiaddr = args.embms.m1u_multiaddr;

@ -11,21 +11,25 @@
*/
#include "srsenb/hdr/stack/gnb_stack_nr.h"
#include "srsran/common/standard_streams.h"
#include "srsran/srsran.h"
#include <srsran/interfaces/enb_metrics_interface.h>
namespace srsenb {
gnb_stack_nr::gnb_stack_nr() : task_sched{512, 128}, thread("gNB"), rlc_logger(srslog::fetch_basic_logger("RLC-NR"))
gnb_stack_nr::gnb_stack_nr(srslog::sink& log_sink) :
task_sched{512, 128},
thread("gNB"),
mac_logger(srslog::fetch_basic_logger("MAC-NR", log_sink)),
rlc_logger(srslog::fetch_basic_logger("RLC-NR", log_sink, false)),
pdcp_logger(srslog::fetch_basic_logger("PDCP-NR", log_sink, false)),
rrc_logger(srslog::fetch_basic_logger("RRC-NR", log_sink, false)),
stack_logger(srslog::fetch_basic_logger("STCK-NR", log_sink, false)),
mac(&task_sched),
rrc(&task_sched),
pdcp(&task_sched, pdcp_logger),
rlc(rlc_logger)
{
m_mac.reset(new mac_nr(&task_sched));
m_rlc.reset(new rlc_nr("RLC-NR"));
m_pdcp.reset(new pdcp_nr(&task_sched, "PDCP-NR"));
m_rrc.reset(new rrc_nr(&task_sched));
m_sdap.reset(new sdap());
m_gw.reset(new srsue::gw(srslog::fetch_basic_logger("GW")));
// m_gtpu.reset(new srsenb::gtpu());
ue_task_queue = task_sched.make_task_queue();
sync_task_queue = task_sched.make_task_queue();
gw_task_queue = task_sched.make_task_queue();
@ -42,46 +46,48 @@ std::string gnb_stack_nr::get_type()
return "nr";
}
int gnb_stack_nr::init(const srsenb::stack_args_t& args_, const rrc_nr_cfg_t& rrc_cfg_, phy_interface_stack_nr* phy_)
int gnb_stack_nr::init(const srsenb::stack_args_t& args_,
const rrc_nr_cfg_t& rrc_cfg_,
phy_interface_stack_nr* phy_,
x2_interface* x2_)
{
args = args_;
// rrc_cfg = rrc_cfg_;
phy = phy_;
if (init(args_, rrc_cfg_)) {
return SRSRAN_ERROR;
}
return SRSRAN_SUCCESS;
}
int gnb_stack_nr::init(const srsenb::stack_args_t& args_, const rrc_nr_cfg_t& rrc_cfg_)
{
args = args_;
// setup logging
mac_logger.set_level(srslog::str_to_basic_level(args.log.mac_level));
rlc_logger.set_level(srslog::str_to_basic_level(args.log.rlc_level));
pdcp_logger.set_level(srslog::str_to_basic_level(args.log.pdcp_level));
rrc_logger.set_level(srslog::str_to_basic_level(args.log.rrc_level));
stack_logger.set_level(srslog::str_to_basic_level(args.log.stack_level));
// verify configuration correctness
// gtpu_log.init("GTPU", logger);
// gtpu_log.set_level(args.log.gtpu_level);
// gtpu_log.set_hex_limit(args.log.gtpu_hex_limit);
mac_logger.set_hex_dump_max_size(args.log.mac_hex_limit);
rlc_logger.set_hex_dump_max_size(args.log.rlc_hex_limit);
pdcp_logger.set_hex_dump_max_size(args.log.pdcp_hex_limit);
rrc_logger.set_hex_dump_max_size(args.log.rrc_hex_limit);
stack_logger.set_hex_dump_max_size(args.log.stack_hex_limit);
// Init all layers
mac_nr_args_t mac_args = {};
mac_args.fixed_dl_mcs = 28;
mac_args.fixed_ul_mcs = 10;
mac_args.pcap = args.mac_pcap;
m_mac->init(mac_args, phy, this, nullptr, m_rrc.get());
rlc_logger.set_level(srslog::str_to_basic_level(args.log.rlc_level));
rlc_logger.set_hex_dump_max_size(args.log.rlc_hex_limit);
m_rlc->init(m_pdcp.get(), m_rrc.get(), m_mac.get(), task_sched.get_timer_handler());
pdcp_nr_args_t pdcp_args = {};
pdcp_args.log_level = args.log.pdcp_level;
pdcp_args.log_hex_limit = args.log.pdcp_hex_limit;
m_pdcp->init(pdcp_args, m_rlc.get(), m_rrc.get(), m_sdap.get());
m_rrc->init(rrc_cfg_, phy, m_mac.get(), nullptr, nullptr, nullptr, nullptr, nullptr);
mac_args.pcap.filename = "/tmp/enb_mac_nr.pcap";
if (mac.init(mac_args, phy, nullptr, &rlc, &rrc) != SRSRAN_SUCCESS) {
stack_logger.error("Couldn't initialize MAC-NR");
return SRSRAN_ERROR;
}
m_sdap->init(m_pdcp.get(), nullptr, m_gw.get());
rlc.init(&pdcp, &rrc, &mac, task_sched.get_timer_handler());
pdcp.init(&rlc, &rrc, nullptr);
srsue::gw_args_t gw_args = {};
m_gw->init(gw_args, this);
if (rrc.init(rrc_cfg_, phy, &mac, &rlc, &pdcp, nullptr, nullptr, x2_) != SRSRAN_SUCCESS) {
stack_logger.error("Couldn't initialize RRC");
return SRSRAN_ERROR;
}
// TODO: add NGAP
// TODO: add SDAP, NGAP
// m_gtpu->init(args.s1ap.gtp_bind_addr, args.s1ap.mme_addr,
// args.expert.m1u_multiaddr, args.expert.m1u_if_addr, nullptr, &gtpu_log,
// args.expert.enable_mbsfn);
@ -96,11 +102,9 @@ int gnb_stack_nr::init(const srsenb::stack_args_t& args_, const rrc_nr_cfg_t& rr
void gnb_stack_nr::stop()
{
if (running) {
m_gw->stop();
// m_gtpu->stop();
m_rrc->stop();
m_pdcp->stop();
m_mac->stop();
rrc.stop();
pdcp.stop();
mac.stop();
srsran::get_background_workers().stop();
running = false;
@ -120,13 +124,12 @@ void gnb_stack_nr::run_thread()
}
}
void gnb_stack_nr::run_tti(uint32_t tti)
void gnb_stack_nr::tti_clock()
{
current_tti = tti;
sync_task_queue.push([this, tti]() { run_tti_impl(tti); });
sync_task_queue.push([this]() { tti_clock_impl(); });
}
void gnb_stack_nr::run_tti_impl(uint32_t tti)
void gnb_stack_nr::tti_clock_impl()
{
// m_ngap->run_tti();
task_sched.tic();
@ -144,8 +147,8 @@ void gnb_stack_nr::process_pdus()
bool gnb_stack_nr::get_metrics(srsenb::stack_metrics_t* metrics)
{
m_mac->get_metrics(metrics->mac);
m_rrc->get_metrics(metrics->rrc);
mac.get_metrics(metrics->mac);
rrc.get_metrics(metrics->rrc);
return true;
}
@ -161,25 +164,28 @@ bool gnb_stack_nr::has_active_radio_bearer(uint32_t eps_bearer_id)
}
int gnb_stack_nr::slot_indication(const srsran_slot_cfg_t& slot_cfg)
{
return m_mac->slot_indication(slot_cfg);
return mac.slot_indication(slot_cfg);
}
int gnb_stack_nr::get_dl_sched(const srsran_slot_cfg_t& slot_cfg, dl_sched_t& dl_sched)
{
return m_mac->get_dl_sched(slot_cfg, dl_sched);
return mac.get_dl_sched(slot_cfg, dl_sched);
}
int gnb_stack_nr::get_ul_sched(const srsran_slot_cfg_t& slot_cfg, ul_sched_t& ul_sched)
{
return m_mac->get_ul_sched(slot_cfg, ul_sched);
return mac.get_ul_sched(slot_cfg, ul_sched);
}
int gnb_stack_nr::pucch_info(const srsran_slot_cfg_t& slot_cfg, const mac_interface_phy_nr::pucch_info_t& pucch_info)
{
return m_mac->pucch_info(slot_cfg, pucch_info);
return mac.pucch_info(slot_cfg, pucch_info);
}
int gnb_stack_nr::pusch_info(const srsran_slot_cfg_t& slot_cfg, mac_interface_phy_nr::pusch_info_t& pusch_info)
{
return m_mac->pusch_info(slot_cfg, pusch_info);
return mac.pusch_info(slot_cfg, pusch_info);
}
void gnb_stack_nr::rach_detected(const rach_info_t& rach_info) {}
void gnb_stack_nr::rach_detected(const rach_info_t& rach_info)
{
mac.rach_detected(rach_info);
}
} // namespace srsenb

@ -710,7 +710,7 @@ public:
return SRSRAN_SUCCESS;
}
void set_sched_dl_tti_mask(uint8_t* tti_mask, uint32_t nof_sfs) override { notify_set_sched_dl_tti_mask(); }
void tti_clock() override { notify_tti_clock(); }
void tti_clock() { notify_tti_clock(); }
int run_tti(bool enable_assert)
{
std::lock_guard<std::mutex> lock(phy_mac_mutex);
@ -1150,7 +1150,7 @@ typedef std::unique_ptr<dummy_ue> unique_dummy_ue_phy_t;
typedef std::unique_ptr<srsenb::phy> unique_srsenb_phy_t;
class phy_test_bench
class phy_test_bench : public srsenb::enb_time_interface
{
public:
struct args_t {
@ -1328,7 +1328,7 @@ public:
stack->set_active_cell_list(args.ue_cell_list);
/// Initiate eNb PHY with the given RNTI
if (enb_phy->init(phy_args, phy_cfg, radio.get(), stack.get()) < 0) {
if (enb_phy->init(phy_args, phy_cfg, radio.get(), stack.get(), this) < 0) {
return SRSRAN_ERROR;
}
enb_phy->set_config(args.rnti, phy_rrc_cfg);
@ -1350,7 +1350,7 @@ public:
enb_phy->stop();
}
~phy_test_bench() = default;
virtual ~phy_test_bench() = default;
int run_tti()
{
@ -1422,6 +1422,11 @@ public:
return ret;
}
void tti_clock() final
{
// nothing to do
}
};
typedef std::unique_ptr<phy_test_bench> unique_phy_test_bench;

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