Commit 9026fda4 authored by gauthier's avatar gauthier

Skip re-init of RLC that erased the internal state variables (VR(R), etc).

Configurable ulsh consecutive max error global variable.


git-svn-id: http://svn.eurecom.fr/openair4G/trunk@5323 818b1a75-f10b-46b9-bf7c-635c3b92a50f
parent b41325e9
......@@ -179,7 +179,7 @@ enum transmission_access_mode{
#endif
/// Top-level PHY Data Structure for eNB
typedef struct {
typedef struct PHY_VARS_eNB_s{
/// Module ID indicator for this instance
module_id_t Mod_id;
uint8_t local_flag;
......
......@@ -60,6 +60,7 @@ extern unsigned char NB_UE_INST;
extern unsigned char NB_RN_INST;
#endif
extern unsigned int ULSCH_max_consecutive_errors;
extern int flag_LA;
extern double sinr_bler_map[MCS_COUNT][2][MCS_TABLE_LENGTH_MAX];
extern double sinr_bler_map_up[MCS_COUNT][2][16];
......
......@@ -66,6 +66,8 @@ unsigned char NB_RN_INST=0;
unsigned char NB_INST=0;
#endif
unsigned int ULSCH_max_consecutive_errors = 20;
int flag_LA=0;
int flagMag;
//extern channel_desc_t *eNB2UE[NUMBER_OF_eNB_MAX][NUMBER_OF_UE_MAX];
......
......@@ -3061,7 +3061,7 @@ void phy_procedures_eNB_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,ui
// If we've dropped the UE, go back to PRACH mode for this UE
//#if !defined(EXMIMO_IOT)
if (phy_vars_eNB->eNB_UE_stats[i].ulsch_consecutive_errors[harq_pid] == 20) {
if (phy_vars_eNB->eNB_UE_stats[i].ulsch_consecutive_errors[harq_pid] == ULSCH_max_consecutive_errors) {
LOG_I(PHY,"[eNB %d] frame %d, subframe %d, UE %d: ULSCH consecutive error count reached %u, removing UE\n",
phy_vars_eNB->Mod_id,frame,last_slot>>1, i, phy_vars_eNB->eNB_UE_stats[i].ulsch_consecutive_errors[harq_pid]);
phy_vars_eNB->eNB_UE_stats[i].mode = PRACH;
......
......@@ -187,7 +187,8 @@ typedef struct rlc_am_entity_s {
// note occupancy of other buffers is deducted from nb elements in lists
rlc_buffer_occupancy_t buffer_occupancy_retransmission_buffer; /*!< \brief Number of PDUs. */
boolean_t allocation; /*!< \brief Boolean for rlc_am_entity_t struct allocation. */
//boolean_t allocation; /*!< \brief Boolean for rlc_am_entity_t struct allocation. */
boolean_t initialized; /*!< \brief Boolean for rlc_am_entity_t struct initialization. */
} rlc_am_entity_t;
/** @} */
# endif
......@@ -42,39 +42,42 @@ Address : EURECOM,
void rlc_am_init(rlc_am_entity_t *rlc_pP, frame_t frameP)
//-----------------------------------------------------------------------------
{
int saved_allocation = rlc_pP->allocation;
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] STATE VARIABLES, BUFFERS, LISTS\n", frameP);
memset(rlc_pP, 0, sizeof(rlc_am_entity_t));
rlc_pP->allocation = saved_allocation;
if (rlc_pP->initialized == TRUE) {
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] ALREADY DONE, DOING NOTHING\n", frameP);
} else {
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] STATE VARIABLES, BUFFERS, LISTS\n", frameP);
memset(rlc_pP, 0, sizeof(rlc_am_entity_t));
list2_init(&rlc_pP->receiver_buffer, "RX BUFFER");
list_init(&rlc_pP->pdus_to_mac_layer, "PDUS TO MAC");
list_init(&rlc_pP->control_pdu_list, "CONTROL PDU LIST");
list_init(&rlc_pP->segmentation_pdu_list, "SEGMENTATION PDU LIST");
//LOG_D(RLC,"RLC_AM_SDU_CONTROL_BUFFER_SIZE %d sizeof(rlc_am_tx_sdu_management_t) %d \n", RLC_AM_SDU_CONTROL_BUFFER_SIZE, sizeof(rlc_am_tx_sdu_management_t));
rlc_pP->input_sdus = calloc(1, RLC_AM_SDU_CONTROL_BUFFER_SIZE*sizeof(rlc_am_tx_sdu_management_t));
rlc_pP->pdu_retrans_buffer = calloc(1, (uint16_t)((unsigned int)RLC_AM_PDU_RETRANSMISSION_BUFFER_SIZE*(unsigned int)sizeof(rlc_am_tx_data_pdu_management_t)));
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] input_sdus[] = %p element size=%d\n", frameP, rlc_pP->input_sdus,sizeof(rlc_am_tx_sdu_management_t));
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] pdu_retrans_buffer[] = %p element size=%d\n", frameP, rlc_pP->pdu_retrans_buffer,sizeof(rlc_am_tx_data_pdu_management_t));
list2_init(&rlc_pP->receiver_buffer, "RX BUFFER");
list_init(&rlc_pP->pdus_to_mac_layer, "PDUS TO MAC");
list_init(&rlc_pP->control_pdu_list, "CONTROL PDU LIST");
list_init(&rlc_pP->segmentation_pdu_list, "SEGMENTATION PDU LIST");
//LOG_D(RLC,"RLC_AM_SDU_CONTROL_BUFFER_SIZE %d sizeof(rlc_am_tx_sdu_management_t) %d \n", RLC_AM_SDU_CONTROL_BUFFER_SIZE, sizeof(rlc_am_tx_sdu_management_t));
// TX state variables
//rlc_pP->vt_a = 0;
rlc_pP->vt_ms = rlc_pP->vt_a + RLC_AM_WINDOW_SIZE;
//rlc_pP->vt_s = 0;
//rlc_pP->poll_sn = 0;
// TX counters
//rlc_pP->c_pdu_without_poll = 0;
//rlc_pP->c_byte_without_poll = 0;
// RX state variables
//rlc_pP->vr_r = 0;
rlc_pP->vr_mr = rlc_pP->vr_r + RLC_AM_WINDOW_SIZE;
//rlc_pP->vr_x = 0;
//rlc_pP->vr_ms = 0;
//rlc_pP->vr_h = 0;
rlc_pP->input_sdus = calloc(1, RLC_AM_SDU_CONTROL_BUFFER_SIZE*sizeof(rlc_am_tx_sdu_management_t));
rlc_pP->pdu_retrans_buffer = calloc(1, (uint16_t)((unsigned int)RLC_AM_PDU_RETRANSMISSION_BUFFER_SIZE*(unsigned int)sizeof(rlc_am_tx_data_pdu_management_t)));
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] input_sdus[] = %p element size=%d\n", frameP, rlc_pP->input_sdus,sizeof(rlc_am_tx_sdu_management_t));
LOG_D(RLC, "[FRAME %5u][RLC_AM][MOD XX][RB XX][INIT] pdu_retrans_buffer[] = %p element size=%d\n", frameP, rlc_pP->pdu_retrans_buffer,sizeof(rlc_am_tx_data_pdu_management_t));
rlc_pP->last_frame_status_indication = 123456; // any value > 1
rlc_pP->first_retrans_pdu_sn = -1;
// TX state variables
//rlc_pP->vt_a = 0;
rlc_pP->vt_ms = rlc_pP->vt_a + RLC_AM_WINDOW_SIZE;
//rlc_pP->vt_s = 0;
//rlc_pP->poll_sn = 0;
// TX counters
//rlc_pP->c_pdu_without_poll = 0;
//rlc_pP->c_byte_without_poll = 0;
// RX state variables
//rlc_pP->vr_r = 0;
rlc_pP->vr_mr = rlc_pP->vr_r + RLC_AM_WINDOW_SIZE;
//rlc_pP->vr_x = 0;
//rlc_pP->vr_ms = 0;
//rlc_pP->vr_h = 0;
rlc_pP->last_frame_status_indication = 123456; // any value > 1
rlc_pP->first_retrans_pdu_sn = -1;
rlc_pP->initialized = TRUE;
}
}
//-----------------------------------------------------------------------------
void rlc_am_cleanup(rlc_am_entity_t *rlc_pP)
......
......@@ -227,9 +227,6 @@ void config_req_rlc_um_asn1 (
ul_sn_FieldLength,
mbms_flagP);
}
if (mbms_flagP == MBMS_FLAG_YES) {
rlc_p->allocation = TRUE;
}
}
}
//-----------------------------------------------------------------------------
......@@ -239,43 +236,47 @@ rlc_um_init (rlc_um_entity_t * const rlc_pP)
//-----------------------------------------------------------------------------
AssertFatal(rlc_pP, "Bad RLC UM pointer (NULL)");
int saved_allocation = rlc_pP->allocation;
memset (rlc_pP, 0, sizeof (rlc_um_entity_t));
rlc_pP->allocation = saved_allocation;
// TX SIDE
list_init (&rlc_pP->pdus_to_mac_layer, NULL);
if (rlc_pP->initialized) {
LOG_D(RLC, "[FRAME XXXXX][RLC_UM][MOD XX][RB XX][INIT] ALREADY DONE, DOING NOTHING\n");
} else {
LOG_D(RLC, "[FRAME XXXXX][RLC_UM][MOD XX][RB XX][INIT] STATE VARIABLES, BUFFERS, LISTS\n");
memset (rlc_pP, 0, sizeof (rlc_um_entity_t));
// TX SIDE
list_init (&rlc_pP->pdus_to_mac_layer, NULL);
rlc_pP->protocol_state = RLC_NULL_STATE;
//rlc_pP->nb_sdu = 0;
//rlc_pP->next_sdu_index = 0;
//rlc_pP->current_sdu_index = 0;
rlc_pP->protocol_state = RLC_NULL_STATE;
//rlc_pP->nb_sdu = 0;
//rlc_pP->next_sdu_index = 0;
//rlc_pP->current_sdu_index = 0;
//rlc_pP->vt_us = 0;
//rlc_pP->vt_us = 0;
// RX SIDE
list_init (&rlc_pP->pdus_from_mac_layer, NULL);
//rlc_pP->vr_ur = 0;
//rlc_pP->vr_ux = 0;
//rlc_pP->vr_uh = 0;
//rlc_pP->output_sdu_size_to_write = 0;
//rlc_pP->output_sdu_in_construction = NULL;
// RX SIDE
list_init (&rlc_pP->pdus_from_mac_layer, NULL);
//rlc_pP->vr_ur = 0;
//rlc_pP->vr_ux = 0;
//rlc_pP->vr_uh = 0;
//rlc_pP->output_sdu_size_to_write = 0;
//rlc_pP->output_sdu_in_construction = NULL;
rlc_pP->rx_sn_length = 10;
rlc_pP->rx_header_min_length_in_bytes = 2;
rlc_pP->tx_sn_length = 10;
rlc_pP->tx_header_min_length_in_bytes = 2;
rlc_pP->rx_sn_length = 10;
rlc_pP->rx_header_min_length_in_bytes = 2;
rlc_pP->tx_sn_length = 10;
rlc_pP->tx_header_min_length_in_bytes = 2;
// SPARE : not 3GPP
rlc_pP->size_input_sdus_buffer =128;
// SPARE : not 3GPP
rlc_pP->size_input_sdus_buffer =128;
if ((rlc_pP->input_sdus == NULL) && (rlc_pP->size_input_sdus_buffer > 0)) {
rlc_pP->input_sdus = calloc(1 , rlc_pP->size_input_sdus_buffer * sizeof (void *));
}
if (rlc_pP->dar_buffer == NULL) {
rlc_pP->dar_buffer = calloc (1, 1024 * sizeof (void *));
}
if ((rlc_pP->input_sdus == NULL) && (rlc_pP->size_input_sdus_buffer > 0)) {
rlc_pP->input_sdus = calloc(1 , rlc_pP->size_input_sdus_buffer * sizeof (void *));
rlc_pP->first_pdu = 1;
rlc_pP->initialized = TRUE;
}
if (rlc_pP->dar_buffer == NULL) {
rlc_pP->dar_buffer = calloc (1, 1024 * sizeof (void *));
}
rlc_pP->first_pdu = 1;
}
//-----------------------------------------------------------------------------
void
......
......@@ -64,7 +64,7 @@ typedef struct rlc_um_timer_s {
typedef struct rlc_um_entity_s {
module_id_t enb_module_id; /*!< \brief eNB Virtualization index for this protocol instance. */
module_id_t ue_module_id; /*!< \brief UE Virtualization index for this protocol instance. */
boolean_t allocation; /*!< \brief Boolean for rlc_am_entity_t struct allocation. */
boolean_t initialized; /*!< \brief Boolean for rlc_am_entity_t struct initialization. */
boolean_t is_uplink_downlink; /*!< \brief Is this instance is a transmitter, a receiver or both? */
rlc_protocol_state_t protocol_state; /*!< \brief Protocol state, can be RLC_NULL_STATE, RLC_DATA_TRANSFER_READY_STATE, RLC_LOCAL_SUSPEND_STATE. */
boolean_t is_data_plane; /*!< \brief To know if the RLC belongs to a data radio bearer or a signalling radio bearer, for statistics and trace purpose. */
......
......@@ -521,7 +521,7 @@ void rrc_eNB_free_UE_index(
AssertFatal(ue_mod_idP < NUMBER_OF_UE_MAX, "UE inst invalid (%d/%d) for eNB %d!", ue_mod_idP, NUMBER_OF_UE_MAX,
enb_mod_idP);
LOG_I(RRC, "[eNB %d] Removing UE %d rv 0x%" PRIx64 "\n", enb_mod_idP, ue_mod_idP,
LOG_W(RRC, "[eNB %d] Removing UE %d rv 0x%" PRIx64 "\n", enb_mod_idP, ue_mod_idP,
eNB_rrc_inst[enb_mod_idP].Info.UE_list[ue_mod_idP]);
eNB_rrc_inst[enb_mod_idP].Info.UE[ue_mod_idP].Status = RRC_IDLE;
eNB_rrc_inst[enb_mod_idP].Info.UE_list[ue_mod_idP] = 0;
......
......@@ -74,8 +74,8 @@ static const uint16_t S1AP_INTEGRITY_EIA2_MASK = 0x2;
#ifdef Rel10
# define INTEGRITY_ALGORITHM_NONE SecurityAlgorithmConfig__integrityProtAlgorithm_eia0_v920
#else
#ifdef EXMIMO_IOT
# define INTEGRITY_ALGORITHM_NONE SecurityAlgorithmConfig__integrityProtAlgorithm_eia2
#ifndef EXMIMO_IOT
# define INTEGRITY_ALGORITHM_NONE SecurityAlgorithmConfig__integrityProtAlgorithm_eia2
#else
# define INTEGRITY_ALGORITHM_NONE SecurityAlgorithmConfig__integrityProtAlgorithm_reserved
#endif
......@@ -151,6 +151,10 @@ static uint8_t get_UE_index_from_eNB_ue_s1ap_id(uint8_t mod_id, uint32_t eNB_ue_
}
}
}
LOG_D(RRC,
"[eNB %d] return UE_INDEX_INVALID for eNB_ue_s1ap_id %u\n",
mod_id,
eNB_ue_s1ap_id);
return UE_INDEX_INVALID;
}
......
......@@ -36,7 +36,7 @@
# company Eurecom
# email: lionel.gauthier@eurecom.fr
###########################################
# NO INPUT PARAMETER FOR THIS SCRIPT
# INPUT PARAMETER FOR THIS SCRIPT: 'rebuild', 'build' or implicit 'start'
#########################################
# This script start a ENB
# The MME is provided to EURECOM by external partner, and should be started by your own.
......@@ -114,6 +114,40 @@ else
fi
fi
clean() {
cd $OPENAIR_TARGETS/ARCH/EXMIMO/DRIVER/eurecom && make clean || exit 1
cd $OPENAIR_TARGETS/ARCH/EXMIMO/USERSPACE/OAI_FW_INIT && make clean || exit 1
make --directory=$OPENAIR_TARGETS/RTAI/USER clean || exit 1
find $OPENAIR_TARGETS/RTAI/USER -name *.a -delete
find $OPENAIR_TARGETS/RTAI/USER -name *.d -delete
find $OPENAIR_TARGETS/RTAI/USER -name *.o -delete
find $OPENAIR_TARGETS/RTAI/USER -name *.ko -delete
}
build() {
cd $OPENAIR_TARGETS/ARCH/EXMIMO/DRIVER/eurecom && make || exit 1
cd $OPENAIR_TARGETS/ARCH/EXMIMO/USERSPACE/OAI_FW_INIT && make || exit 1
make --directory=$OPENAIR_TARGETS/RTAI/USER $MAKE_LTE_ACCESS_STRATUM_TARGET_RT -j`grep -c ^processor /proc/cpuinfo ` || exit 1
}
##################################################
# process script parameters
##################################################
for arg in "$@"
do
case "$arg" in
rebuild) clean;build;build;build;build
;;
build) build
;;
*)
;;
esac
done
##################################################
# LAUNCH eNB
......@@ -149,13 +183,8 @@ fi
echo_warning "HARD REAL TIME MODE"
PATH=$PATH:/usr/realtime/bin
#make --directory=$OPENAIR_TARGETS/RTAI/USER drivers || exit 1
# 2 lines below replace the line above
cd $OPENAIR_TARGETS/ARCH/EXMIMO/DRIVER/eurecom && make clean && make || exit 1
cd $OPENAIR_TARGETS/ARCH/EXMIMO/USERSPACE/OAI_FW_INIT && make clean && make || exit 1
cd $THIS_SCRIPT_PATH
make --directory=$OPENAIR_TARGETS/RTAI/USER $MAKE_LTE_ACCESS_STRATUM_TARGET_RT -j`grep -c ^processor /proc/cpuinfo ` || exit 1
if [ ! -f /tmp/init_rt_done.tmp ]; then
echo_warning "STARTING REAL TIME (RTAI)"
......@@ -174,12 +203,13 @@ fi
cd $OPENAIR_TARGETS/RTAI/USER
bash ./init_exmimo2.sh
echo_warning "STARTING SOFTMODEM..."
./lte-softmodem -K $ITTI_LOG_FILE -O $CONFIG_FILE_ENB 2>&1
#cat /dev/rtf62 > $STDOUT_LOG_FILE
cat /dev/rtf62 > $STDOUT_LOG_FILE &
./lte-softmodem -K $ITTI_LOG_FILE -O $CONFIG_FILE_ENB --ulsch-max-errors=40 2>&1
cd $THIS_SCRIPT_PATH
sync
pkill tshark
pkill cat
sync
cat $STDOUT_LOG_FILE | grep -v '[PHY]' | grep -v '[MAC]' | grep -v '[EMU]' | \
grep -v '[OCM]' | grep -v '[OMG]' | \
grep -v 'RLC not configured' | grep -v 'check if serving becomes' | \
......
......@@ -1103,6 +1103,7 @@ static void get_options (int argc, char **argv)
enum long_option_e {
LONG_OPTION_START = 0x100, /* Start after regular single char options */
LONG_OPTION_ULSCH_MAX_CONSECUTIVE_ERRORS,
LONG_OPTION_CALIB_UE_RX,
LONG_OPTION_CALIB_UE_RX_MED,
LONG_OPTION_CALIB_UE_RX_BYP,
......@@ -1113,17 +1114,23 @@ static void get_options (int argc, char **argv)
};
static const struct option long_options[] = {
{"calib-ue-rx", required_argument, NULL, LONG_OPTION_CALIB_UE_RX},
{"calib-ue-rx-med", required_argument, NULL, LONG_OPTION_CALIB_UE_RX_MED},
{"calib-ue-rx-byp", required_argument, NULL, LONG_OPTION_CALIB_UE_RX_BYP},
{"debug-ue-prach", no_argument, NULL, LONG_OPTION_DEBUG_UE_PRACH},
{"no-L2-connect", no_argument, NULL, LONG_OPTION_NO_L2_CONNECT},
{NULL, 0, NULL, 0}};
{"ulsch-max-errors",required_argument, NULL, LONG_OPTION_ULSCH_MAX_CONSECUTIVE_ERRORS},
{"calib-ue-rx", required_argument, NULL, LONG_OPTION_CALIB_UE_RX},
{"calib-ue-rx-med", required_argument, NULL, LONG_OPTION_CALIB_UE_RX_MED},
{"calib-ue-rx-byp", required_argument, NULL, LONG_OPTION_CALIB_UE_RX_BYP},
{"debug-ue-prach", no_argument, NULL, LONG_OPTION_DEBUG_UE_PRACH},
{"no-L2-connect", no_argument, NULL, LONG_OPTION_NO_L2_CONNECT},
{NULL, 0, NULL, 0}};
while ((c = getopt_long (argc, argv, "C:dF:K:qO:ST:UVR",long_options,NULL)) != -1)
{
switch (c)
{
case LONG_OPTION_ULSCH_MAX_CONSECUTIVE_ERRORS:
ULSCH_max_consecutive_errors = atoi(optarg);
printf("Set ULSCH_max_consecutive_errors = %d\n",ULSCH_max_consecutive_errors);
break;
case LONG_OPTION_CALIB_UE_RX:
mode = rx_calib_ue;
rx_input_level_dBm = atoi(optarg);
......@@ -1371,10 +1378,10 @@ int main(int argc, char **argv) {
set_comp_log(PHY, LOG_INFO, LOG_HIGH, 1);
#endif
set_comp_log(MAC, LOG_INFO, LOG_HIGH, 1);
set_comp_log(RLC, LOG_INFO, LOG_HIGH, 1);
set_comp_log(RLC, LOG_TRACE, LOG_HIGH, 1);
set_comp_log(PDCP, LOG_DEBUG, LOG_HIGH, 1);
set_comp_log(OTG, LOG_INFO, LOG_HIGH, 1);
set_comp_log(RRC, LOG_INFO, LOG_HIGH, 1);
set_comp_log(RRC, LOG_DEBUG, LOG_HIGH, 1);
#if defined(ENABLE_ITTI)
set_comp_log(EMU, LOG_INFO, LOG_MED, 1);
# if defined(ENABLE_USE_MME)
......
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