Commit 83d46bb5 authored by Jaroslava Fiedlerova's avatar Jaroslava Fiedlerova

Merge remote-tracking branch 'origin/NR_UE_rework_LC_config' into integration_2024_w06

parents 2b796874 f3c61b12
......@@ -42,32 +42,6 @@
#include "SCHED_NR/phy_frame_config_nr.h"
#include "oai_asn1.h"
const long logicalChannelGroup0_NR = 0;
typedef struct NR_LogicalChannelConfig__ul_SpecificParameters LcConfig_UlParamas_t;
const LcConfig_UlParamas_t NR_LCSRB1 = {
.priority = 1,
.prioritisedBitRate = NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity,
.logicalChannelGroup = (long *)&logicalChannelGroup0_NR};
const LcConfig_UlParamas_t NR_LCSRB2 = {
.priority = 3,
.prioritisedBitRate = NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity,
.logicalChannelGroup = (long *)&logicalChannelGroup0_NR};
const LcConfig_UlParamas_t NR_LCSRB3 = {
.priority = 1,
.prioritisedBitRate = NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity,
.logicalChannelGroup = (long *)&logicalChannelGroup0_NR};
// these are the default values for SRB configurations(SRB1 and SRB2) as mentioned in 36.331 pg 258-259
const NR_LogicalChannelConfig_t NR_SRB1_logicalChannelConfig_defaultValue = {.ul_SpecificParameters =
(LcConfig_UlParamas_t *)&NR_LCSRB1};
const NR_LogicalChannelConfig_t NR_SRB2_logicalChannelConfig_defaultValue = {.ul_SpecificParameters =
(LcConfig_UlParamas_t *)&NR_LCSRB2};
const NR_LogicalChannelConfig_t NR_SRB3_logicalChannelConfig_defaultValue = {.ul_SpecificParameters =
(LcConfig_UlParamas_t *)&NR_LCSRB3};
void set_tdd_config_nr_ue(fapi_nr_tdd_table_t *tdd_table,
int mu,
NR_TDD_UL_DL_Pattern_t *pattern)
......@@ -648,25 +622,13 @@ static void configure_ss_coreset(NR_BWP_PDCCH_t *pdcch, NR_PDCCH_Config_t *pdcch
}
}
static int lcid_cmp(const void *lc1, const void *lc2, void *mac_inst)
static int lcid_cmp(const void *a, const void *b)
{
uint8_t id1 = ((nr_lcordered_info_t *)lc1)->lcids_ordered;
uint8_t id2 = ((nr_lcordered_info_t *)lc2)->lcids_ordered;
NR_UE_MAC_INST_t *mac = (NR_UE_MAC_INST_t *)mac_inst;
NR_LogicalChannelConfig_t **lc_config = &mac->logicalChannelConfig[0];
AssertFatal(id1 > 0 && id2 > 0, "undefined logical channel identity\n");
AssertFatal(lc_config[id1 - 1] != NULL || lc_config[id2 - 1] != NULL, "logical channel configuration should be available\n");
return (lc_config[id1 - 1]->ul_SpecificParameters->priority - lc_config[id2 - 1]->ul_SpecificParameters->priority);
}
void nr_release_mac_config_logicalChannelBearer(NR_UE_MAC_INST_t *mac, long channel_identity)
{
if (mac->logicalChannelConfig[channel_identity - 1] != NULL) {
asn1cFreeStruc(asn_DEF_NR_LogicalChannelConfig, mac->logicalChannelConfig[channel_identity - 1]);
}
long priority_a = (*((nr_lcordered_info_t**)a))->priority;
AssertFatal(priority_a > 0 && priority_a < 17, "Invalid priority value %ld\n", priority_a);
long priority_b = (*((nr_lcordered_info_t**)b))->priority;
AssertFatal(priority_b > 0 && priority_b < 17, "Invalid priority value %ld\n", priority_b);
return priority_a - priority_b;
}
static int nr_get_ms_bucketsizeduration(long bucketsizeduration)
......@@ -695,33 +657,46 @@ static int nr_get_ms_bucketsizeduration(long bucketsizeduration)
}
}
void nr_configure_mac_config_logicalChannelBearer(module_id_t module_id,
long channel_identity,
NR_LogicalChannelConfig_t *lc_config)
static uint32_t get_lc_bucket_size(long prioritisedBitRate, long bucketSizeDuration)
{
NR_UE_MAC_INST_t *mac = get_mac_inst(module_id);
LOG_I(NR_MAC, "[MACLogicalChannelConfig]Applying RRC Logical Channel Config %d to lcid %li\n", module_id, channel_identity);
mac->logicalChannelConfig[channel_identity - 1] = lc_config;
int pbr = nr_get_pbr(prioritisedBitRate);
// in infinite pbr, the bucket is saturated by pbr
int bsd = 0;
if (prioritisedBitRate == NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity)
bsd = 1;
else
bsd = nr_get_ms_bucketsizeduration(bucketSizeDuration);
// initialize the variable Bj for every LCID
mac->scheduling_info.lc_sched_info[channel_identity - 1].Bj = 0;
return pbr * bsd;
}
// store the bucket size
int pbr = nr_get_pbr(lc_config->ul_SpecificParameters->prioritisedBitRate);
int bsd = nr_get_ms_bucketsizeduration(lc_config->ul_SpecificParameters->bucketSizeDuration);
// default configuration as per 38.331 section 9.2.1
static void set_default_logicalchannelconfig(nr_lcordered_info_t *lc_info, NR_SRB_Identity_t srb_id)
{
lc_info->lcid = srb_id;
lc_info->priority = srb_id == 2 ? 3 : 1;
lc_info->prioritisedBitRate = NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity;
lc_info->bucket_size = get_lc_bucket_size(lc_info->prioritisedBitRate, 0);
}
// in infinite pbr, the bucket is saturated by pbr
if (lc_config->ul_SpecificParameters->prioritisedBitRate
== NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity) {
bsd = 1;
static void nr_configure_lc_config(NR_UE_MAC_INST_t *mac,
nr_lcordered_info_t *lc_info,
NR_LogicalChannelConfig_t *mac_lc_config,
NR_SRB_Identity_t srb_id)
{
if (srb_id > 0 && !mac_lc_config->ul_SpecificParameters) {
// release configuration and reset to default
set_default_logicalchannelconfig(lc_info, srb_id);
mac->scheduling_info.lc_sched_info[lc_info->lcid - 1].LCGID = 0;
return;
}
mac->scheduling_info.lc_sched_info[channel_identity - 1].bucket_size = pbr * bsd;
if (lc_config->ul_SpecificParameters->logicalChannelGroup != NULL)
mac->scheduling_info.lc_sched_info[channel_identity - 1].LCGID = *lc_config->ul_SpecificParameters->logicalChannelGroup;
else
mac->scheduling_info.lc_sched_info[channel_identity - 1].LCGID = 0;
AssertFatal(mac_lc_config->ul_SpecificParameters, "UL parameters shouldn't be NULL for DRBs\n");
struct NR_LogicalChannelConfig__ul_SpecificParameters *ul_parm = mac_lc_config->ul_SpecificParameters;
lc_info->priority = ul_parm->priority;
lc_info->prioritisedBitRate = ul_parm->prioritisedBitRate;
// TODO Verify setting to 0 is ok, 331 just says need R (release if NULL)
mac->scheduling_info.lc_sched_info[lc_info->lcid - 1].LCGID = ul_parm->logicalChannelGroup ? *ul_parm->logicalChannelGroup : 0;
lc_info->bucket_size = get_lc_bucket_size(ul_parm->prioritisedBitRate, ul_parm->bucketSizeDuration);
}
static void configure_logicalChannelBearer(module_id_t module_id,
......@@ -729,59 +704,66 @@ static void configure_logicalChannelBearer(module_id_t module_id,
struct NR_CellGroupConfig__rlc_BearerToReleaseList *rlc_torelease_list)
{
NR_UE_MAC_INST_t *mac = get_mac_inst(module_id);
if (rlc_torelease_list) {
for (int i = 0; i < rlc_torelease_list->list.count; i++) {
if (rlc_torelease_list->list.array[i]) {
int lc_identity = *rlc_torelease_list->list.array[i];
nr_release_mac_config_logicalChannelBearer(mac, lc_identity);
long id = *rlc_torelease_list->list.array[i];
int j;
for (j = 0; j < mac->lc_ordered_list.count; j++) {
if (id == mac->lc_ordered_list.array[j]->lcid)
break;
}
if (j < mac->lc_ordered_list.count) {
nr_lcordered_info_t *lc_info = mac->lc_ordered_list.array[j];
asn_sequence_del(&mac->lc_ordered_list, j, 0);
free(lc_info);
}
else
LOG_E(NR_MAC, "Element not present in the list, impossible to release\n");
}
}
if (rlc_toadd_list) {
for (int i = 0; i < rlc_toadd_list->list.count; i++) {
NR_RLC_BearerConfig_t *rlc_bearer = rlc_toadd_list->list.array[i];
int lc_identity = rlc_bearer->logicalChannelIdentity;
mac->lc_ordered_info[i].lcids_ordered = lc_identity;
NR_LogicalChannelConfig_t *mac_lc_config = NULL;
if (mac->logicalChannelConfig[lc_identity - 1] == NULL) {
NR_LogicalChannelConfig_t *mac_lc_config = rlc_bearer->mac_LogicalChannelConfig;
int j;
for (j = 0; j < mac->lc_ordered_list.count; j++) {
if (lc_identity == mac->lc_ordered_list.array[j]->lcid)
break;
}
if (j < mac->lc_ordered_list.count) {
LOG_D(NR_MAC, "Logical channel %d is already established, Reconfiguring now\n", lc_identity);
if (mac_lc_config != NULL) {
NR_SRB_Identity_t srb_id = 0;
if (rlc_bearer->servedRadioBearer->present == NR_RLC_BearerConfig__servedRadioBearer_PR_srb_Identity)
srb_id = rlc_bearer->servedRadioBearer->choice.srb_Identity;
nr_configure_lc_config(mac, mac->lc_ordered_list.array[j], mac_lc_config, srb_id);
}
}
else {
/* setup of new LCID*/
nr_lcordered_info_t *lc_info = calloc(1, sizeof(*lc_info));
lc_info->lcid = lc_identity;
LOG_D(NR_MAC, "Establishing the logical channel %d\n", lc_identity);
AssertFatal(rlc_bearer->servedRadioBearer, "servedRadioBearer should be present for LCID establishment\n");
if (rlc_bearer->servedRadioBearer->present == NR_RLC_BearerConfig__servedRadioBearer_PR_srb_Identity) { /* SRB */
NR_SRB_Identity_t srb_id = rlc_bearer->servedRadioBearer->choice.srb_Identity;
if (rlc_bearer->mac_LogicalChannelConfig != NULL) {
UPDATE_MAC_IE(mac_lc_config, rlc_bearer->mac_LogicalChannelConfig, NR_LogicalChannelConfig_t);
} else {
LOG_I(NR_RRC, "Applying the default logicalChannelConfig for SRB\n");
if (srb_id == 1)
mac_lc_config = (NR_LogicalChannelConfig_t *)&NR_SRB1_logicalChannelConfig_defaultValue;
else if (srb_id == 2)
mac_lc_config = (NR_LogicalChannelConfig_t *)&NR_SRB2_logicalChannelConfig_defaultValue;
else if (srb_id == 3)
mac_lc_config = (NR_LogicalChannelConfig_t *)&NR_SRB3_logicalChannelConfig_defaultValue;
if (mac_lc_config != NULL)
nr_configure_lc_config(mac, lc_info, mac_lc_config, srb_id);
else
AssertFatal(1 == 0, "The logical id %d is not a valid SRB id %li\n", lc_identity, srb_id);
}
set_default_logicalchannelconfig(lc_info, srb_id);
} else { /* DRB */
AssertFatal(rlc_bearer->mac_LogicalChannelConfig,
"When establishing a DRB, LogicalChannelConfig should be mandatorily present\n");
UPDATE_MAC_IE(mac_lc_config, rlc_bearer->mac_LogicalChannelConfig, NR_LogicalChannelConfig_t);
}
} else {
/* LC is already established, reconfiguring the LC */
LOG_D(NR_MAC, "Logical channel %d is already established, Reconfiguring now\n", lc_identity);
if (rlc_bearer->mac_LogicalChannelConfig != NULL) {
UPDATE_MAC_IE(mac_lc_config, rlc_bearer->mac_LogicalChannelConfig, NR_LogicalChannelConfig_t);
}
AssertFatal(mac_lc_config, "When establishing a DRB, LogicalChannelConfig should be mandatorily present\n");
nr_configure_lc_config(mac, lc_info, mac_lc_config, 0);
}
if (mac_lc_config) {
mac->lc_ordered_info[i].logicalChannelConfig_ordered = mac_lc_config;
nr_configure_mac_config_logicalChannelBearer(module_id, lc_identity, mac_lc_config);
ASN_SEQUENCE_ADD(&mac->lc_ordered_list, lc_info);
}
}
// reorder the logical channels as per its priority
qsort_r(mac->lc_ordered_info, rlc_toadd_list->list.count, sizeof(nr_lcordered_info_t), lcid_cmp, mac);
qsort(mac->lc_ordered_list.array, mac->lc_ordered_list.count, sizeof(nr_lcordered_info_t*), lcid_cmp);
}
}
......
......@@ -181,12 +181,10 @@ typedef struct {
int32_t LCID_buffer_remain;
// buffer status for each lcid
uint8_t LCID_status;
// logical channel group id of this LCID
long LCGID;
// Bj bucket usage per lcid
int32_t Bj;
// Bucket size per lcid
int32_t bucket_size;
// logical channel group id for each LCID
uint8_t LCGID;
} NR_LC_SCHEDULING_INFO;
typedef struct {
......@@ -434,10 +432,11 @@ typedef struct ssb_list_info {
typedef struct nr_lcordered_info_s {
// logical channels ids ordered as per priority
int lcids_ordered;
// logical channel configurations reordered as per priority
NR_LogicalChannelConfig_t *logicalChannelConfig_ordered;
NR_LogicalChannelIdentity_t lcid;
long priority;
long prioritisedBitRate;
// Bucket size per lcid
uint32_t bucket_size;
} nr_lcordered_info_t;
typedef struct {
......@@ -513,11 +512,9 @@ typedef struct NR_UE_MAC_INST_s {
/// BSR report flag management
uint8_t BSR_reporting_active;
// Pointers to LogicalChannelConfig indexed by LogicalChannelIdentity. Note NULL means LCHAN is inactive.
NR_LogicalChannelConfig_t *logicalChannelConfig[NR_MAX_NUM_LCID];
// order lc info
nr_lcordered_info_t lc_ordered_info[NR_MAX_NUM_LCID];
A_SEQUENCE_OF(nr_lcordered_info_t) lc_ordered_list;
NR_UE_SCHEDULING_INFO scheduling_info;
/// PHR
......
......@@ -239,12 +239,12 @@ bool nr_update_bsr(module_id_t module_idP, frame_t frameP, slot_t slotP, uint8_t
uint8_t nr_locate_BsrIndexByBufferSize(const uint32_t *table, int size,
int value);
/*! \fn int nr_get_pbr(uint8_t prioritizedbitrate)
/*! \fn int nr_get_pbr(long prioritizedbitrate)
\brief get the rate in kbps from the rate configured by the higher layer
\param[in] prioritizedbitrate
\return the rate in kbps
*/
uint32_t nr_get_pbr(uint8_t prioritizedbitrate);
uint32_t nr_get_pbr(long prioritizedbitrate);
/*! \fn int nr_get_sf_periodicBSRTimer(uint8_t periodicBSR_Timer)
\brief get the number of subframe from the periodic BSR timer configured by the higher layers
......
......@@ -99,11 +99,9 @@ void nr_ue_mac_default_configs(NR_UE_MAC_INST_t *mac)
for (int i = 0; i < NR_MAX_NUM_LCID; i++) {
LOG_D(NR_MAC, "Applying default logical channel config for LCGID %d\n", i);
mac->scheduling_info.lc_sched_info[i].Bj = -1;
mac->scheduling_info.lc_sched_info[i].bucket_size = -1;
mac->scheduling_info.lc_sched_info[i].LCGID = 0; // defaults to 0 irrespective of SRB or DRB
mac->scheduling_info.lc_sched_info[i].LCID_status = LCID_EMPTY;
mac->scheduling_info.lc_sched_info[i].LCID_buffer_remain = 0;
mac->scheduling_info.lc_sched_info[i].Bj = 0;
}
}
......@@ -146,7 +144,8 @@ void reset_mac_inst(NR_UE_MAC_INST_t *nr_mac)
nr_ue_mac_default_configs(nr_mac);
// initialize Bj for each logical channel to zero
// Done in default config but to -1 (is that correct?)
for (int i = 0; i < NR_MAX_NUM_LCID; i++)
nr_mac->scheduling_info.lc_sched_info[i].Bj = 0;
// stop all running timers
// TODO
......@@ -221,9 +220,10 @@ void release_mac_configuration(NR_UE_MAC_INST_t *mac)
for (int i = 0; i < mac->ul_BWPs.count; i++)
release_ul_BWP(mac, i);
for (int i = 0; i < NR_MAX_NUM_LCID; i++) {
nr_release_mac_config_logicalChannelBearer(mac, i + 1);
memset(&mac->lc_ordered_info[i], 0, sizeof(nr_lcordered_info_t));
for (int i = 0; i < mac->lc_ordered_list.count; i++) {
nr_lcordered_info_t *lc_info = mac->lc_ordered_list.array[i];
asn_sequence_del(&mac->lc_ordered_list, i, 0);
free(lc_info);
}
memset(&mac->ssb_measurements, 0, sizeof(mac->ssb_measurements));
......
......@@ -1109,12 +1109,11 @@ void nr_ue_ul_scheduler(nr_uplink_indication_t *ul_info)
// update Bj for all active lcids before LCP procedure
LOG_D(NR_MAC, "====================[Frame %d][Slot %d]Logical Channel Prioritization===========\n", frame_tx, slot_tx);
for (nr_lcordered_info_t *lc_bearer = mac->lc_ordered_info; lc_bearer->logicalChannelConfig_ordered != NULL; lc_bearer++) {
int lcid = lc_bearer->lcids_ordered;
NR_LogicalChannelConfig_t *lcconfig = mac->logicalChannelConfig[lcid - 1];
NR_LC_SCHEDULING_INFO *sched_lc = &mac->scheduling_info.lc_sched_info[lcid - 1];
for (int i = 0; i < mac->lc_ordered_list.count; i++) {
nr_lcordered_info_t *lc_info = mac->lc_ordered_list.array[i];
int lcid = lc_info->lcid;
// max amount of data that can be buffered/accumulated in a logical channel buffer
int32_t bucketSize_max = sched_lc->bucket_size;
int32_t bucketSize_max = lc_info->bucket_size;
AssertFatal(bucketSize_max >= 0, "negative bucketSize_max %d, will never schedule UE: lcid %d\n",bucketSize_max, lcid);
/*
......@@ -1122,15 +1121,13 @@ void nr_ue_ul_scheduler(nr_uplink_indication_t *ul_info)
increment the value of Bj by product PBR * T
*/
int T = 1; // time elapsed since Bj was last incremented
int32_t bj = sched_lc->Bj;
bj += nr_get_pbr(lcconfig->ul_SpecificParameters->prioritisedBitRate) * T;
if (lcconfig->ul_SpecificParameters->prioritisedBitRate
== NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity) {
bj = nr_get_pbr(lcconfig->ul_SpecificParameters->prioritisedBitRate);
}
int32_t bj = mac->scheduling_info.lc_sched_info[lcid - 1].Bj;
bj += nr_get_pbr(lc_info->prioritisedBitRate) * T;
if (lc_info->prioritisedBitRate == NR_LogicalChannelConfig__ul_SpecificParameters__prioritisedBitRate_infinity)
bj = nr_get_pbr(lc_info->prioritisedBitRate);
// bj > max bucket size, set bj to max bucket size, as in ts38.321 5.4.3.1 Logical Channel Prioritization
sched_lc->Bj = min(bj, bucketSize_max);
mac->scheduling_info.lc_sched_info[lcid - 1].Bj = min(bj, bucketSize_max);
}
// Call BSR procedure as described in Section 5.4.5 in 38.321
......@@ -1196,8 +1193,8 @@ bool nr_update_bsr(module_id_t module_idP, frame_t frameP, slot_t slotP, uint8_t
}
//Get Buffer Occupancy and fill lcid_reordered_array
for (int lcid = 1; lcid <= NR_MAX_NUM_LCID; lcid++) {
if (mac->logicalChannelConfig[lcid - 1] != NULL) { // todo
for (int i = 0; i < mac->lc_ordered_list.count; i++) {
int lcid = mac->lc_ordered_list.array[i]->lcid;
int lcgid = mac->scheduling_info.lc_sched_info[lcid - 1].LCGID;
// Store already available data to transmit per Group
......@@ -1220,7 +1217,7 @@ bool nr_update_bsr(module_id_t module_idP, frame_t frameP, slot_t slotP, uint8_t
if (rlc_status.bytes_in_buffer > 0) {
LOG_D(NR_MAC,"[UE %d] PDCCH Tick : LCID%d LCGID%d has data to transmit =%d bytes at frame %d slot %d\n",
module_idP, lcid,lcgid,rlc_status.bytes_in_buffer,frameP,slotP);
module_idP, lcid, lcgid, rlc_status.bytes_in_buffer, frameP, slotP);
mac->scheduling_info.lc_sched_info[lcid - 1].LCID_status = LCID_NOT_EMPTY;
//Update BSR_bytes and position in lcid_reordered_array only if Group is defined
......@@ -1248,7 +1245,6 @@ bool nr_update_bsr(module_id_t module_idP, frame_t frameP, slot_t slotP, uint8_t
}
}
}
}
// Check whether a regular BSR can be triggered according to the first cases in 38.321
if (num_lcid_with_data) {
......@@ -1267,7 +1263,7 @@ bool nr_update_bsr(module_id_t module_idP, frame_t frameP, slot_t slotP, uint8_t
{
bsr_regular_triggered = true;
LOG_D(NR_MAC,
"[UE %d] PDCCH Tick : MAC BSR Triggered LCID%d LCGID%d data become available at frame %d slot %d\n",
"[UE %d] PDCCH Tick : MAC BSR Triggered LCID %d LCGID %ld data become available at frame %d slot %d\n",
module_idP,
lcid,
mac->scheduling_info.lc_sched_info[lcid - 1].LCGID,
......@@ -2909,16 +2905,13 @@ void nr_ue_get_sdu_mac_ce_post(module_id_t module_idP,
}
}
uint32_t get_count_lcids_same_priority(NR_UE_MAC_INST_t *mac, uint8_t start, uint8_t total_active_lcids, int *lcid_ordered_array)
uint32_t get_count_lcids_same_priority(uint8_t start, uint8_t total_active_lcids, nr_lcordered_info_t *lcid_ordered_array)
{
// count number of logical channels with same priority as curr_lcid
uint8_t same_priority_count = 0;
uint8_t curr_lcid = lcid_ordered_array[start];
NR_LogicalChannelConfig_t *lc_config_curr = mac->logicalChannelConfig[curr_lcid - 1];
uint8_t curr_lcid = lcid_ordered_array[start].lcid;
for (uint8_t index = start; index < total_active_lcids; index++) {
uint8_t next_lcid = lcid_ordered_array[index];
NR_LogicalChannelConfig_t *lc_config_next = mac->logicalChannelConfig[next_lcid - 1];
if (lc_config_curr->ul_SpecificParameters->priority == lc_config_next->ul_SpecificParameters->priority) {
if (lcid_ordered_array[start].priority == lcid_ordered_array[index].priority) {
same_priority_count++;
}
}
......@@ -2936,8 +2929,15 @@ long get_num_bytes_to_reqlc(NR_UE_MAC_INST_t *mac,
long *target)
{
/* Calculates the number of bytes the logical channel should request from the correcponding RLC buffer*/
NR_LogicalChannelConfig_t *lc_config = mac->logicalChannelConfig[lc_num - 1];
long pbr = nr_get_pbr(lc_config->ul_SpecificParameters->prioritisedBitRate);
long found_pbr = -1;
for (int i = 0; i < mac->lc_ordered_list.count; i++) {
if (mac->lc_ordered_list.array[i]->lcid == lc_num) {
found_pbr = mac->lc_ordered_list.array[i]->prioritisedBitRate;
break;
}
}
AssertFatal(found_pbr >= 0, "Couldn't find LC config for ID %d\n", lc_num);
uint32_t pbr = nr_get_pbr(found_pbr);
int32_t lcid_remain_buffer = mac->scheduling_info.lc_sched_info[lc_num - 1].LCID_buffer_remain;
*target = (same_priority_count > 1) ? min(buflen_remain_ep, pbr) : pbr;
......@@ -2963,11 +2963,11 @@ long get_num_bytes_to_reqlc(NR_UE_MAC_INST_t *mac,
return num_bytes_requested;
}
bool get_dataavailability_buffers(uint8_t total_active_lcids, int *lcid_ordered_array, bool *data_status_lcbuffers)
bool get_dataavailability_buffers(uint8_t total_active_lcids, nr_lcordered_info_t *lcid_ordered_array, bool *data_status_lcbuffers)
{
// check whether there is any data in the rlc buffer corresponding to active lcs
for (uint8_t id = 0; id < total_active_lcids; id++) {
int lcid = lcid_ordered_array[id];
int lcid = lcid_ordered_array[id].lcid;
if (data_status_lcbuffers[lcid - 1]) {
return true;
}
......@@ -2975,21 +2975,20 @@ bool get_dataavailability_buffers(uint8_t total_active_lcids, int *lcid_ordered_
return false;
}
uint8_t select_logical_channels(NR_UE_MAC_INST_t *mac, uint8_t *num_active_lcids, int *active_lcids)
static void select_logical_channels(NR_UE_MAC_INST_t *mac, int *num_active_lcids, nr_lcordered_info_t *active_lcids)
{
// (TODO: selection of logical channels for logical channel prioritization procedure as per 5.4.3.1.2 Selection of logical
// channels, TS38.321)
// selection of logical channels with Bj > 0
for (nr_lcordered_info_t *lc_bearer = mac->lc_ordered_info; lc_bearer->logicalChannelConfig_ordered != NULL; lc_bearer++) {
uint8_t lcid = lc_bearer->lcids_ordered;
for (int i = 0; i < mac->lc_ordered_list.count; i++) {
int lcid = mac->lc_ordered_list.array[i]->lcid;
if (mac->scheduling_info.lc_sched_info[lcid - 1].Bj > 0) {
active_lcids[*num_active_lcids] = lcid;
active_lcids[*num_active_lcids] = *mac->lc_ordered_list.array[i];
(*num_active_lcids)++;
LOG_D(NR_MAC, "The available lcid is %d with total active channels count = %d\n", lcid, *num_active_lcids);
}
}
return 0;
}
static bool fill_mac_sdu(module_id_t module_idP,
......@@ -3059,7 +3058,7 @@ static bool fill_mac_sdu(module_id_t module_idP,
// currently the Bj is drecremented by size of MAC SDus everytime it is served to logical channel, so by this approach there
// will be more chance for lower priority logical channels to be served in the next TTI
// second approach can also be followed where Bj is decremented only in the first round but not in the subsequent rounds
sched_info->lc_sched_info[lcid - 1].Bj -= sdu_length;
sched_info->lc_sched_info[lcid - 1].Bj -= sdu_length; // TODO avoid Bj to go below 0
LOG_D(NR_MAC,
"decrement Bj of the lcid %d by size of sdu length = %d and new Bj for lcid %d is %d\n",
lcid,
......@@ -3113,7 +3112,7 @@ static bool fill_mac_sdu(module_id_t module_idP,
lc_info->LCID_buffer_remain -= sdu_length;
(lcg_info + lc_info->LCGID)->BSR_bytes -= sdu_length;
LOG_D(NR_MAC,
"[UE %d] Update BSR [%d.%d] BSR_bytes for LCG%d = %d\n",
"[UE %d] Update BSR [%d.%d] BSR_bytes for LCG %ld = %d\n",
module_idP,
frameP,
subframe,
......@@ -3188,10 +3187,6 @@ uint8_t nr_ue_get_sdu(module_id_t module_idP,
// Pointer used to build the MAC PDU by placing the RLC SDUs in the ULSCH buffer
uint8_t *pdu = ulsch_buffer;
// variable used to build the lcids with positive Bj
int lcids_bj_pos[NR_MAX_NUM_LCID] = {0};
uint8_t avail_lcids_count = 0;
// variable used to store the lcid data status during lcp
bool lcids_data_status[NR_MAX_NUM_LCID] = {0};
memset(lcids_data_status, 1, NR_MAX_NUM_LCID);
......@@ -3209,6 +3204,9 @@ uint8_t nr_ue_get_sdu(module_id_t module_idP,
LOG_D(NR_MAC, "In %s: [UE %d] [%d.%d] process UL transport block at with size TBS = %d bytes \n", __FUNCTION__, module_idP, frameP, subframe, buflen);
// selection of logical channels
int avail_lcids_count = 0;
// variable used to build the lcids with positive Bj
nr_lcordered_info_t lcids_bj_pos[mac->lc_ordered_list.count];
select_logical_channels(mac, &avail_lcids_count, lcids_bj_pos);
// multiplex in the order of highest priority
......@@ -3229,7 +3227,7 @@ uint8_t nr_ue_get_sdu(module_id_t module_idP,
still space availble in the MAC PDU, then from the next run all the remaining data from the higher priority logical channel
is placed in the MAC PDU before going on to next high priority logical channel
*/
int lcid = lcids_bj_pos[id];
int lcid = lcids_bj_pos[id].lcid;
// skip the logical channel if no data in the buffer initially or the data in the buffer was zero because it was written in to
// MAC PDU
......@@ -3241,7 +3239,7 @@ uint8_t nr_ue_get_sdu(module_id_t module_idP,
// count number of lc with same priority as lcid
if (!num_lcids_same_priority) {
num_lcids_same_priority = count_same_priority_lcids =
get_count_lcids_same_priority(mac, id, avail_lcids_count, lcids_bj_pos);
get_count_lcids_same_priority(id, avail_lcids_count, lcids_bj_pos);
}
buflen_remain = buflen - (mac_ce_p->total_mac_pdu_header_len + mac_ce_p->sdu_length_total + sh_size);
......@@ -3361,7 +3359,7 @@ void schedule_ta_command(fapi_nr_dl_config_request_t *dl_config, NR_UL_TIME_ALIG
ul_time_alignment->ta_apply = false;
}
uint32_t nr_get_pbr(uint8_t prioritizedbitrate)
uint32_t nr_get_pbr(long prioritizedbitrate)
{
int32_t pbr = -1;
switch (prioritizedbitrate) {
......
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