/**
*
* \ 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/common/block_queue.h"
# include "srsran/common/crash_handler.h"
# include "srsran/common/rlc_pcap.h"
# include "srsran/common/test_common.h"
# include "srsran/common/threads.h"
# include "srsran/common/tsan_options.h"
# include "srsran/rlc/rlc.h"
# include <boost/program_options.hpp>
# include <boost/program_options/parsers.hpp>
# include <cassert>
# include <cstdlib>
# include <iostream>
# include <pthread.h>
# include <random>
# include "srsran/common/mac_pcap.h"
# include "srsran/mac/mac_sch_pdu_nr.h"
inline int write_pdu_to_pcap ( const std : : unique_ptr < srsran : : mac_pcap > & pcap_handle ,
const bool is_dl ,
const uint32_t lcid ,
const uint8_t * payload ,
const uint32_t len )
{
const uint32_t PCAP_CRNTI = 0x1001 ;
const uint32_t PCAP_TTI = 666 ;
if ( pcap_handle ) {
srsran : : byte_buffer_t tx_buffer ;
srsran : : mac_sch_pdu_nr tx_pdu ;
tx_pdu . init_tx ( & tx_buffer , len + 10 ) ;
tx_pdu . add_sdu ( lcid , payload , len ) ;
tx_pdu . pack ( ) ;
if ( is_dl ) {
pcap_handle - > write_dl_crnti_nr ( tx_buffer . msg , tx_buffer . N_bytes , PCAP_CRNTI , true , PCAP_TTI ) ;
} else {
pcap_handle - > write_ul_crnti_nr ( tx_buffer . msg , tx_buffer . N_bytes , PCAP_CRNTI , true , PCAP_TTI ) ;
}
return SRSRAN_SUCCESS ;
}
return SRSRAN_ERROR ;
}
typedef struct {
std : : string rat ;
std : : string mode ;
int32_t sdu_size ;
uint32_t test_duration_sec ;
float pdu_drop_rate ;
float pdu_cut_rate ;
float pdu_duplicate_rate ;
uint32_t sdu_gen_delay_usec ;
uint32_t pdu_tx_delay_usec ;
uint32_t log_level ;
bool single_tx ;
bool write_pcap ;
uint32_t avg_opp_size ;
bool random_opp ;
bool zero_seed ;
uint32_t seed ;
uint32_t nof_pdu_tti ;
uint32_t max_retx ;
int32_t log_hex_limit ;
std : : string log_filename ;
uint32_t min_sdu_size ;
uint32_t max_sdu_size ;
} stress_test_args_t ;
void parse_args ( stress_test_args_t * args , int argc , char * argv [ ] )
{
namespace bpo = boost : : program_options ;
// Command line only options
bpo : : options_description general ( " General options " ) ;
general . add_options ( ) ( " help,h " , " Produce help message " ) ( " version,v " , " Print version information and exit " ) ;
// clang-format off
// Command line or config file options
bpo : : options_description common ( " Configuration options " ) ;
common . add_options ( )
( " rat " , bpo : : value < std : : string > ( & args - > rat ) - > default_value ( " LTE " ) , " The RLC version to use (LTE/NR) " )
( " mode " , bpo : : value < std : : string > ( & args - > mode ) - > default_value ( " AM " ) , " Whether to test RLC acknowledged or unacknowledged mode (AM/UM for LTE) (UM6/UM12 for NR) " )
( " duration " , bpo : : value < uint32_t > ( & args - > test_duration_sec ) - > default_value ( 5 ) , " Duration (sec) " )
( " sdu_size " , bpo : : value < int32_t > ( & args - > sdu_size ) - > default_value ( - 1 ) , " Size of SDUs (-1 means random) " )
( " random_opp " , bpo : : value < bool > ( & args - > random_opp ) - > default_value ( true ) , " Whether to generate random MAC opportunities " )
( " avg_opp_size " , bpo : : value < uint32_t > ( & args - > avg_opp_size ) - > default_value ( 1505 ) , " Size of the MAC opportunity (if not random) " )
( " sdu_gen_delay " , bpo : : value < uint32_t > ( & args - > sdu_gen_delay_usec ) - > default_value ( 0 ) , " SDU generation delay (usec) " )
( " pdu_tx_delay " , bpo : : value < uint32_t > ( & args - > pdu_tx_delay_usec ) - > default_value ( 0 ) , " Delay in MAC for transfering PDU from tx'ing RLC to rx'ing RLC (usec) " )
( " pdu_drop_rate " , bpo : : value < float > ( & args - > pdu_drop_rate ) - > default_value ( 0.1 ) , " Rate at which RLC PDUs are dropped " )
( " pdu_cut_rate " , bpo : : value < float > ( & args - > pdu_cut_rate ) - > default_value ( 0.0 ) , " Rate at which RLC PDUs are chopped in length " )
( " pdu_duplicate_rate " , bpo : : value < float > ( & args - > pdu_duplicate_rate ) - > default_value ( 0.0 ) , " Rate at which RLC PDUs are duplicated " )
( " loglevel " , bpo : : value < uint32_t > ( & args - > log_level ) - > default_value ( ( int ) srslog : : basic_levels : : debug ) , " Log level (1=Error,2=Warning,3=Info,4=Debug) " )
( " log_filename " , bpo : : value < std : : string > ( & args - > log_filename ) - > default_value ( " stdout " ) , " Filename to save log to " )
( " singletx " , bpo : : value < bool > ( & args - > single_tx ) - > default_value ( false ) , " If set to true, only one node is generating data " )
( " pcap " , bpo : : value < bool > ( & args - > write_pcap ) - > default_value ( false ) , " Whether to write all RLC PDU to PCAP file " )
( " zeroseed " , bpo : : value < bool > ( & args - > zero_seed ) - > default_value ( false ) , " Whether to initialize random seed to zero " )
( " seed " , bpo : : value < uint32_t > ( & args - > seed ) - > default_value ( 0 ) , " Seed to use in run. 0 means the seed is randomly generated " )
( " max_retx " , bpo : : value < uint32_t > ( & args - > max_retx ) - > default_value ( 32 ) , " Maximum number of RLC retransmission attempts " )
( " nof_pdu_tti " , bpo : : value < uint32_t > ( & args - > nof_pdu_tti ) - > default_value ( 1 ) , " Number of PDUs processed in a TTI " )
( " log_hex_limit " , bpo : : value < int32_t > ( & args - > log_hex_limit ) - > default_value ( - 1 ) , " Maximum bytes in hex log " )
( " min_sdu_size " , bpo : : value < uint32_t > ( & args - > min_sdu_size ) - > default_value ( 5 ) , " Minimum SDU size " )
( " max_sdu_size " , bpo : : value < uint32_t > ( & args - > max_sdu_size ) - > default_value ( 1500 ) , " Maximum SDU size " ) ;
// clang-format on
// these options are allowed on the command line
bpo : : options_description cmdline_options ;
cmdline_options . add ( common ) . add ( general ) ;
// parse the command line and store result in vm
bpo : : variables_map vm ;
bpo : : store ( bpo : : command_line_parser ( argc , argv ) . options ( cmdline_options ) . run ( ) , vm ) ;
bpo : : notify ( vm ) ;
// help option was given - print usage and exit
if ( vm . count ( " help " ) > 0 ) {
std : : cout < < " Usage: " < < argv [ 0 ] < < " [OPTIONS] config_file " < < std : : endl < < std : : endl ;
std : : cout < < common < < std : : endl < < general < < std : : endl ;
exit ( 0 ) ;
}
if ( args - > log_level > 4 ) {
args - > log_level = 4 ;
printf ( " Set log level to %d (%s) \n " ,
args - > log_level ,
srslog : : basic_level_to_string ( static_cast < srslog : : basic_levels > ( args - > log_level ) ) ) ;
}
// convert mode to upper case
for ( auto & c : args - > mode ) {
c = toupper ( c ) ;
}
}
class mac_dummy : public srsran : : thread
{
public :
mac_dummy ( srsue : : rlc_interface_mac * rlc1_ ,
srsue : : rlc_interface_mac * rlc2_ ,
stress_test_args_t args_ ,
uint32_t lcid_ ,
srsran : : timer_handler * timers_ ,
srsran : : rlc_pcap * pcap_ ,
uint32_t seed_ ) :
run_enable ( true ) ,
rlc1 ( rlc1_ ) ,
rlc2 ( rlc2_ ) ,
args ( args_ ) ,
pcap ( pcap_ ) ,
lcid ( lcid_ ) ,
timers ( timers_ ) ,
logger ( srslog : : fetch_basic_logger ( " MAC " , false ) ) ,
thread ( " MAC_DUMMY " ) ,
real_dist ( 0.0 , 1.0 ) ,
mt19937 ( seed_ )
{
logger . set_level ( static_cast < srslog : : basic_levels > ( args . log_level ) ) ;
logger . set_hex_dump_max_size ( args . log_hex_limit ) ;
}
void stop ( )
{
run_enable = false ;
wait_thread_finish ( ) ;
}
void enqueue_task ( srsran : : move_task_t task ) { pending_tasks . push ( std : : move ( task ) ) ; }
private :
void run_thread ( ) final ;
void run_tti ( srsue : : rlc_interface_mac * tx_rlc , srsue : : rlc_interface_mac * rx_rlc , bool is_dl ) ;
void run_tx_tti ( srsue : : rlc_interface_mac * tx_rlc ,
srsue : : rlc_interface_mac * rx_rlc ,
std : : vector < srsran : : unique_byte_buffer_t > & pdu_list ) ;
void run_rx_tti ( srsue : : rlc_interface_mac * tx_rlc ,
srsue : : rlc_interface_mac * rx_rlc ,
bool is_dl ,
std : : vector < srsran : : unique_byte_buffer_t > & pdu_list ) ;
srsue : : rlc_interface_mac * rlc1 = nullptr ;
srsue : : rlc_interface_mac * rlc2 = nullptr ;
std : : atomic < bool > run_enable = { false } ;
stress_test_args_t args = { } ;
srsran : : rlc_pcap * pcap = nullptr ;
uint32_t lcid = 0 ;
srslog : : basic_logger & logger ;
srsran : : timer_handler * timers = nullptr ;
srsran : : block_queue < srsran : : move_task_t > pending_tasks ;
std : : mt19937 mt19937 ;
std : : uniform_real_distribution < float > real_dist ;
} ;
class rlc_tester : public srsue : : pdcp_interface_rlc , public srsue : : rrc_interface_rlc , public srsran : : thread
{
public :
rlc_tester ( srsue : : rlc_interface_pdcp * rlc_pdcp_ ,
std : : string name_ ,
stress_test_args_t args_ ,
uint32_t lcid_ ,
uint32_t seed_ ) :
logger ( srslog : : fetch_basic_logger ( name_ . c_str ( ) , false ) ) ,
rlc_pdcp ( rlc_pdcp_ ) ,
name ( name_ ) ,
args ( args_ ) ,
lcid ( lcid_ ) ,
thread ( " RLC_TESTER " ) ,
int_dist ( args_ . min_sdu_size , args_ . max_sdu_size ) ,
mt19937 ( seed_ )
{
logger . set_level ( static_cast < srslog : : basic_levels > ( args . log_level ) ) ;
logger . set_hex_dump_max_size ( args_ . log_hex_limit ) ;
}
void stop ( )
{
run_enable = false ;
wait_thread_finish ( ) ;
}
// PDCP interface
void write_pdu ( uint32_t rx_lcid , srsran : : unique_byte_buffer_t sdu ) final ;
void write_pdu_bcch_bch ( srsran : : unique_byte_buffer_t sdu ) final { }
void write_pdu_bcch_dlsch ( srsran : : unique_byte_buffer_t sdu ) final { }
void write_pdu_pcch ( srsran : : unique_byte_buffer_t sdu ) final { }
void write_pdu_mch ( uint32_t lcid_ , srsran : : unique_byte_buffer_t sdu ) final { }
void notify_delivery ( uint32_t lcid_ , const srsran : : pdcp_sn_vector_t & pdcp_sns ) final { }
void notify_failure ( uint32_t lcid_ , const srsran : : pdcp_sn_vector_t & pdcp_sns ) final { }
// RRC interface
void max_retx_attempted ( ) final
{
logger . error (
" Maximum number of RLC retransmission reached. Consider increasing threshold or lowering channel drop rate. " ) ;
std : : this_thread : : sleep_for ( std : : chrono : : seconds ( 1 ) ) ;
exit ( 1 ) ;
}
void protocol_failure ( ) final
{
logger . error ( " RLC protocol error detected. " ) ;
std : : this_thread : : sleep_for ( std : : chrono : : seconds ( 1 ) ) ;
exit ( 1 ) ;
}
const char * get_rb_name ( uint32_t lcid ) final { return " DRB1 " ; }
uint64_t get_nof_rx_pdus ( ) const { return rx_pdus ; }
private :
const static size_t max_pdcp_sn = 262143U ; // 18bit SN
void run_thread ( ) final ;
std : : atomic < bool > run_enable = { true } ;
/// Tx uses thread-local PDCP SN to set SDU content, the Rx uses this variable to check received SDUs
uint8_t next_expected_sdu = 0 ;
uint64_t rx_pdus = 0 ;
uint32_t lcid = 0 ;
srslog : : basic_logger & logger ;
std : : string name ;
stress_test_args_t args = { } ;
srsue : : rlc_interface_pdcp * rlc_pdcp = nullptr ; // used by run_thread to push PDCP SDUs to RLC
std : : mt19937 mt19937 ;
std : : uniform_int_distribution < > int_dist ;
} ;