Commit 55809687 authored by cig's avatar cig Committed by Thomas Schlichter

Fixes to UE ULSCH PDU generation

- included MAC CE sub-PDUs size in the computation of RLC data to transmit
  this fixes the error with residual mac pdu appearing at gNB side when
  transmitting higher amount of data
- got rid of the nr_generate_ulsch_pdu and moved the relevant UL-SCH MAC PDU
  generation procedure within the nr_ue_get_sdu and nr_ue_get_rach
- reduced memcpy calls and unnecessary memory allocations
- fetching RLC data and SDU size from the mac_rlc_data_req, removed the call
  to mac_rlc_get_buffer_occupancy_ind
- introduced a new function to generate the MAC CEs sub-PDUs
- removed unnecessary function input parameters
- minor fixes and cleanup
- enhanced logging
parent 69577717
...@@ -390,6 +390,16 @@ typedef struct { ...@@ -390,6 +390,16 @@ typedef struct {
} NR_UE_MAC_INST_t; } NR_UE_MAC_INST_t;
typedef struct {
uint8_t power_headroom;
uint16_t crnti;
uint16_t truncated_bsr;
uint16_t short_bsr;
uint16_t long_bsr;
} NR_UE_MAC_CE_t;
typedef enum seach_space_mask_e { typedef enum seach_space_mask_e {
type0_pdcch = 0x1, type0_pdcch = 0x1,
type0a_pdcch = 0x2, type0a_pdcch = 0x2,
......
...@@ -156,18 +156,8 @@ void nr_ue_process_mac_pdu(nr_downlink_indication_t *dl_info, ...@@ -156,18 +156,8 @@ void nr_ue_process_mac_pdu(nr_downlink_indication_t *dl_info,
NR_UL_TIME_ALIGNMENT_t *ul_time_alignment, NR_UL_TIME_ALIGNMENT_t *ul_time_alignment,
int pdu_id); int pdu_id);
uint16_t nr_generate_ulsch_pdu(uint8_t *sdus_payload, int nr_write_ce_ulsch_pdu(unsigned char *mac_ce,
uint8_t *pdu, NR_UE_MAC_CE_t *nr_ue_mac_ce);
uint8_t num_sdus,
uint16_t *sdu_lengths,
uint8_t *sdu_lcids,
uint8_t power_headroom,
uint16_t crnti,
uint16_t truncated_bsr,
uint16_t short_bsr,
uint16_t long_bsr,
unsigned short post_padding,
uint16_t buflen);
void fill_dci_search_candidates(NR_SearchSpace_t *ss,fapi_nr_dl_config_dci_dl_pdu_rel15_t *rel15); void fill_dci_search_candidates(NR_SearchSpace_t *ss,fapi_nr_dl_config_dci_dl_pdu_rel15_t *rel15);
...@@ -188,10 +178,12 @@ int8_t nr_ue_process_dci_time_dom_resource_assignment(NR_UE_MAC_INST_t *mac, ...@@ -188,10 +178,12 @@ int8_t nr_ue_process_dci_time_dom_resource_assignment(NR_UE_MAC_INST_t *mac,
uint8_t time_domain_ind, uint8_t time_domain_ind,
bool use_default); bool use_default);
uint8_t uint8_t nr_ue_get_sdu(module_id_t module_idP,
nr_ue_get_sdu(module_id_t module_idP, int CC_id, frame_t frameP, frame_t frameP,
sub_frame_t subframe, uint8_t eNB_index, sub_frame_t subframe,
uint8_t *ulsch_buffer, uint16_t buflen, uint8_t *access_mode) ; uint8_t gNB_index,
uint8_t *ulsch_buffer,
uint16_t buflen);
int set_tdd_config_nr_ue(fapi_nr_config_request_t *cfg, int mu, int set_tdd_config_nr_ue(fapi_nr_config_request_t *cfg, int mu,
int nrofDownlinkSlots, int nrofDownlinkSymbols, int nrofDownlinkSlots, int nrofDownlinkSymbols,
......
...@@ -474,23 +474,19 @@ void nr_Msg3_transmitted(module_id_t mod_id, uint8_t CC_id, frame_t frameP, uint ...@@ -474,23 +474,19 @@ void nr_Msg3_transmitted(module_id_t mod_id, uint8_t CC_id, frame_t frameP, uint
} }
///////////////////////////////////////////////////////////////////////// /**
// This function handles: * Function: handles Random Access Preamble Initialization (5.1.1 TS 38.321)
// - Random Access Preamble Initialization (5.1.1 TS 38.321) * handles Random Access Response reception (5.1.4 TS 38.321)
// - Random Access Response reception (5.1.4 TS 38.321) * Note: In the current implementation, RA is 4-step contention free only
/// In the current implementation, RA is 4-step contention free only *
///////////////////////////////////////////////////////////////////////// * @prach_resources pointer to PRACH resources
// todo TS 38.321: * @prach_pdu pointer to FAPI UL PRACH PDU
// - BWP operation (subclause 5.15 TS 38.321) * @mod_id module ID
// - beam failure recovery * @CC_id CC ID
// - handle initialization by handover * @frame current UL TX frame
// - handle DL assignment on PDCCH for RA-RNTI * @gNB_id gNB ID
// - transmission on DCCH using PRACH (during handover, or sending SR for example) * @nr_slot_tx current UL TX slot
// - take into account MAC CEs in size_sdu (currently hardcoded size to 1 MAC subPDU and 1 padding subheader) */
// - fix rrc data req logic
// - retrieve TBS
// - add mac_rrc_nr_data_req_ue, etc ...
// - Msg3 Retransmissions to be scheduled by DCI 0_0
uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources, uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources,
fapi_nr_ul_config_prach_pdu *prach_pdu, fapi_nr_ul_config_prach_pdu *prach_pdu,
module_id_t mod_id, module_id_t mod_id,
...@@ -501,11 +497,10 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources, ...@@ -501,11 +497,10 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources,
NR_UE_MAC_INST_t *mac = get_mac_inst(mod_id); NR_UE_MAC_INST_t *mac = get_mac_inst(mod_id);
RA_config_t *ra = &mac->ra; RA_config_t *ra = &mac->ra;
uint8_t mac_sdus[MAX_NR_ULSCH_PAYLOAD_BYTES];
uint8_t lcid = UL_SCH_LCID_CCCH; uint8_t lcid = UL_SCH_LCID_CCCH;
uint8_t *payload; uint8_t sh_size = sizeof(NR_MAC_SUBHEADER_SHORT);
uint16_t size_sdu = 0; int8_t size_sdu = 0;
unsigned short post_padding;
NR_RACH_ConfigCommon_t *setup; NR_RACH_ConfigCommon_t *setup;
if (mac->scc) setup = mac->scc->uplinkConfigCommon->initialUplinkBWP->rach_ConfigCommon->choice.setup; if (mac->scc) setup = mac->scc->uplinkConfigCommon->initialUplinkBWP->rach_ConfigCommon->choice.setup;
else setup = mac->scc_SIB->uplinkConfigCommon->initialUplinkBWP.rach_ConfigCommon->choice.setup; else setup = mac->scc_SIB->uplinkConfigCommon->initialUplinkBWP.rach_ConfigCommon->choice.setup;
...@@ -513,11 +508,6 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources, ...@@ -513,11 +508,6 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources,
NR_RACH_ConfigGeneric_t *rach_ConfigGeneric = &setup->rach_ConfigGeneric; NR_RACH_ConfigGeneric_t *rach_ConfigGeneric = &setup->rach_ConfigGeneric;
NR_RACH_ConfigDedicated_t *rach_ConfigDedicated = ra->rach_ConfigDedicated; NR_RACH_ConfigDedicated_t *rach_ConfigDedicated = ra->rach_ConfigDedicated;
uint8_t sdu_lcids[NB_RB_MAX] = {0};
uint16_t sdu_lengths[NB_RB_MAX] = {0};
int num_sdus = 0;
int offset = 0;
// Delay init RA procedure to allow the convergence of the IIR filter on PRACH noise measurements at gNB side // Delay init RA procedure to allow the convergence of the IIR filter on PRACH noise measurements at gNB side
if (!prach_resources->init_msg1) { if (!prach_resources->init_msg1) {
if ( (mac->common_configuration_complete>0 || get_softmodem_params()->do_ra==1) && ((MAX_FRAME_NUMBER+frame-prach_resources->sync_frame)%MAX_FRAME_NUMBER)>150 ){ if ( (mac->common_configuration_complete>0 || get_softmodem_params()->do_ra==1) && ((MAX_FRAME_NUMBER+frame-prach_resources->sync_frame)%MAX_FRAME_NUMBER)>150 ){
...@@ -528,22 +518,26 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources, ...@@ -528,22 +518,26 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources,
} }
} }
LOG_D(NR_MAC,"frame %d prach_resources->init_msg1 %d, ra->ra_state %d, ra->RA_active %d\n", LOG_D(NR_MAC, "In %s: [UE %d][%d.%d]: init_msg1 %d, ra_state %d, RA_active %d\n",
frame,prach_resources->init_msg1,ra->ra_state,ra->RA_active); __FUNCTION__,
mod_id,
frame,
nr_slot_tx,
prach_resources->init_msg1,
ra->ra_state,
ra->RA_active);
if (prach_resources->init_msg1 && ra->ra_state != RA_SUCCEEDED) { if (prach_resources->init_msg1 && ra->ra_state != RA_SUCCEEDED) {
if (ra->RA_active == 0) { if (ra->RA_active == 0) {
/* RA not active - checking if RRC is ready to initiate the RA procedure */ /* RA not active - checking if RRC is ready to initiate the RA procedure */
LOG_D(NR_MAC, "RA not active. Checking for data to transmit from upper layers...\n"); LOG_D(NR_MAC, "In %s: RA not active. Checking for data to transmit from upper layers...\n", __FUNCTION__);
uint8_t TBS_max = 8 + sizeof(NR_MAC_SUBHEADER_SHORT) + sizeof(NR_MAC_SUBHEADER_SHORT);
payload = (uint8_t*) mac->CCCH_pdu.payload;
num_sdus = 1; uint8_t TBS_max = 8 + 2 * sh_size;
post_padding = 1; uint8_t *pdu = (uint8_t*) mac->CCCH_pdu.payload;
sdu_lcids[0] = lcid; NR_MAC_SUBHEADER_SHORT *header = (NR_MAC_SUBHEADER_SHORT *) pdu;
pdu += sh_size;
// initialisation by RRC // initialisation by RRC
...@@ -553,57 +547,56 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources, ...@@ -553,57 +547,56 @@ uint8_t nr_ue_get_rach(NR_PRACH_RESOURCES_t *prach_resources,
} }
// CCCH PDU // CCCH PDU
size_sdu = (uint16_t) nr_mac_rrc_data_req_ue(mod_id, CC_id, gNB_id, frame, CCCH, mac_sdus); size_sdu = nr_mac_rrc_data_req_ue(mod_id, CC_id, gNB_id, frame, CCCH, pdu);
sdu_lengths[0] = size_sdu; LOG_D(NR_MAC, "In %s: [UE %d][%d.%d]: Requested RRCConnectionRequest, got %d bytes for LCID 0x%02x \n", __FUNCTION__, mod_id, frame, nr_slot_tx, size_sdu, lcid);
LOG_D(NR_MAC,"[UE %d] Frame %d: Requested RRCConnectionRequest, got %d bytes\n", mod_id, frame, size_sdu);
if (size_sdu > 0) { if (size_sdu > 0) {
// UE Contention Resolution Identity // UE Contention Resolution Identity
// Store the first 48 bits belonging to the uplink CCCH SDU within Msg3 to determine whether or not the // Store the first 48 bits belonging to the uplink CCCH SDU within Msg3 to determine whether or not the
// Random Access Procedure has been successful after reception of Msg4 // Random Access Procedure has been successful after reception of Msg4
memcpy(ra->cont_res_id, mac_sdus, sizeof(uint8_t) * 6); memcpy(ra->cont_res_id, pdu, sizeof(uint8_t) * 6);
pdu += size_sdu;
LOG_D(NR_MAC, "In %s: [UE %d][%d.%d]: starting initialisation Random Access Procedure...\n", __FUNCTION__, mod_id, frame, nr_slot_tx);
LOG_D(NR_MAC, "[UE %d][%d.%d]: starting initialisation Random Access Procedure...\n", mod_id, frame, nr_slot_tx); ra->Msg3_size = size_sdu + sh_size;
ra->Msg3_size = size_sdu + sizeof(NR_MAC_SUBHEADER_SHORT) + sizeof(NR_MAC_SUBHEADER_SHORT); AssertFatal(TBS_max > ra->Msg3_size, "In %s: allocated resources are not enough for Msg3!\n", __FUNCTION__);
init_RA(mod_id, prach_resources, setup, rach_ConfigGeneric, rach_ConfigDedicated); init_RA(mod_id, prach_resources, setup, rach_ConfigGeneric, rach_ConfigDedicated);
prach_resources->Msg3 = payload; prach_resources->Msg3 = (uint8_t*) mac->CCCH_pdu.payload;
nr_get_RA_window(mac); nr_get_RA_window(mac);
// Fill in preamble and PRACH resources // Fill in preamble and PRACH resources
if (ra->generate_nr_prach == GENERATE_PREAMBLE) { if (ra->generate_nr_prach == GENERATE_PREAMBLE) {
nr_get_prach_resources(mod_id, CC_id, gNB_id, prach_resources, prach_pdu, rach_ConfigDedicated); nr_get_prach_resources(mod_id, CC_id, gNB_id, prach_resources, prach_pdu, rach_ConfigDedicated);
} }
offset = nr_generate_ulsch_pdu((uint8_t *) mac_sdus, // sdus buffer
(uint8_t *) payload, // UL MAC pdu pointer header->R = 0;
num_sdus, // num sdus header->F = 0;
sdu_lengths, // sdu length header->LCID = lcid;
sdu_lcids, // sdu lcid header->L = (unsigned char) size_sdu;
0, // power headroom
0, // crnti
0, // truncated bsr
0, // short bsr
0, // long_bsr
post_padding,
0);
AssertFatal(TBS_max > offset, "Frequency resources are not enough for Msg3!\n");
// Padding: fill remainder with 0 // Padding: fill remainder with 0
if (post_padding > 0){ if (TBS_max - ra->Msg3_size > 0) {
for (int j = 0; j < (TBS_max - offset); j++) LOG_D(NR_MAC, "In %s: remaining %d bytes, filling with padding\n", __FUNCTION__, TBS_max - ra->Msg3_size);
payload[offset + j] = 0; ((NR_MAC_SUBHEADER_FIXED *) pdu)->R = 0;
((NR_MAC_SUBHEADER_FIXED *) pdu)->LCID = UL_SCH_LCID_PADDING;
pdu += sizeof(NR_MAC_SUBHEADER_FIXED);
for (int j = 0; j < TBS_max - ra->Msg3_size - sizeof(NR_MAC_SUBHEADER_FIXED); j++) {
pdu[j] = 0;
}
} }
} else {
pdu -= sh_size;
} }
LOG_D(MAC,"size_sdu = %i\n", size_sdu); LOG_D(NR_MAC, "In %s: dumping UL Msg3 MAC PDU with length %d: \n", __FUNCTION__, TBS_max);
LOG_D(MAC,"offset = %i\n", offset);
for(int k = 0; k < TBS_max; k++) { for(int k = 0; k < TBS_max; k++) {
LOG_D(MAC,"(%i): %i\n", k, prach_resources->Msg3[k]); LOG_D(NR_MAC,"(%i): %i\n", k, prach_resources->Msg3[k]);
} }
// Msg3 was initialized with TBS_max bytes because the RA_Msg3_size will only be known after // Msg3 was initialized with TBS_max bytes because the RA_Msg3_size will only be known after
......
...@@ -1137,14 +1137,6 @@ void nr_ue_send_sdu(nr_downlink_indication_t *dl_info, NR_UL_TIME_ALIGNMENT_t *u ...@@ -1137,14 +1137,6 @@ void nr_ue_send_sdu(nr_downlink_indication_t *dl_info, NR_UL_TIME_ALIGNMENT_t *u
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_SDU, VCD_FUNCTION_IN); VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_SDU, VCD_FUNCTION_IN);
#if defined(ENABLE_MAC_PAYLOAD_DEBUG)
LOG_T(MAC, "[UE %d] First 32 bytes of DLSCH : \n", module_idP);
for (i = 0; i < 32; i++) {
LOG_T(MAC, "%x.", sdu[i]);
}
LOG_T(MAC, "\n");
#endif
LOG_D(MAC, "In %s [%d.%d] Handling DLSCH PDU...\n", __FUNCTION__, dl_info->frame, dl_info->slot); LOG_D(MAC, "In %s [%d.%d] Handling DLSCH PDU...\n", __FUNCTION__, dl_info->frame, dl_info->slot);
// Processing MAC PDU // Processing MAC PDU
...@@ -2149,145 +2141,116 @@ void nr_ue_process_mac_pdu(nr_downlink_indication_t *dl_info, ...@@ -2149,145 +2141,116 @@ void nr_ue_process_mac_pdu(nr_downlink_indication_t *dl_info,
} }
} }
//////////////////////////////////////////////////////// // about: generating MAC CEs (MAC CE and subheader) for the ULSCH PDU
/////* ULSCH MAC PDU generation (6.1.2 TS 38.321) *///// // returns: number of written bytes
//////////////////////////////////////////////////////// /**
* Function: generating MAC CEs (MAC CE and subheader) for the ULSCH PDU
* @mac_ce pointer to the MAC sub-PDUs including the MAC CEs
* @nr_ue_mac_ce pointer to the MAC CEs to be transmitted
*/
int nr_write_ce_ulsch_pdu(unsigned char *mac_ce,
NR_UE_MAC_CE_t *nr_ue_mac_ce) {
uint16_t nr_generate_ulsch_pdu(uint8_t *sdus_payload, int mac_ce_len = 0;
uint8_t *pdu, uint8_t mac_ce_size = 0;
uint8_t num_sdus,
uint16_t *sdu_lengths,
uint8_t *sdu_lcids,
uint8_t power_headroom,
uint16_t crnti,
uint16_t truncated_bsr,
uint16_t short_bsr,
uint16_t long_bsr,
unsigned short post_padding,
uint16_t buflen) {
NR_MAC_SUBHEADER_FIXED *mac_pdu_ptr = (NR_MAC_SUBHEADER_FIXED *) pdu; if (nr_ue_mac_ce->power_headroom) {
LOG_D(MAC, "[UE] Generating ULSCH PDU : num_sdus %d\n", num_sdus); LOG_D(NR_MAC, "In %s: generating PHR MAC CE with command %d\n", __FUNCTION__, nr_ue_mac_ce->power_headroom);
#ifdef DEBUG_HEADER_PARSING // MAC CE fixed subheader
((NR_MAC_SUBHEADER_FIXED *) mac_ce)->R = 0;
((NR_MAC_SUBHEADER_FIXED *) mac_ce)->LCID = UL_SCH_LCID_SINGLE_ENTRY_PHR;
mac_ce++;
for (int i = 0; i < num_sdus; i++) // PHR MAC CE (1 octet)
LOG_D(MAC, "[UE] MAC subPDU %d (lcid %d length %d bytes \n", i, sdu_lcids[i], sdu_lengths[i]); ((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_ce)->PH = nr_ue_mac_ce->power_headroom;
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_ce)->R1 = 0;
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_ce)->PCMAX = 0; // todo
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_ce)->R2 = 0;
#endif // update pointer and length
mac_ce_size = sizeof(NR_SINGLE_ENTRY_PHR_MAC_CE);
mac_ce += mac_ce_size;
mac_ce_len += mac_ce_size + sizeof(NR_MAC_SUBHEADER_FIXED);
// Generating UL MAC subPDUs including MAC SDU and subheader }
for (int i = 0; i < num_sdus; i++) { if (nr_ue_mac_ce->crnti) {
LOG_D(MAC, "[UE] Generating UL MAC subPDUs for SDU with lenght %d ( num_sdus %d )\n", sdu_lengths[i], num_sdus);
if (sdu_lcids[i] != UL_SCH_LCID_CCCH){ LOG_D(NR_MAC, "In %s: generating C-RNTI MAC CE with C-RNTI %x\n", __FUNCTION__, nr_ue_mac_ce->crnti);
if (sdu_lengths[i] < 128) {
((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->R = 0;
((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->F = 0;
((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->LCID = sdu_lcids[i];
((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->L = (unsigned char) sdu_lengths[i];
mac_pdu_ptr += sizeof(NR_MAC_SUBHEADER_SHORT);
} else {
((NR_MAC_SUBHEADER_LONG *) mac_pdu_ptr)->R = 0;
((NR_MAC_SUBHEADER_LONG *) mac_pdu_ptr)->F = 1;
((NR_MAC_SUBHEADER_LONG *) mac_pdu_ptr)->LCID = sdu_lcids[i];
((NR_MAC_SUBHEADER_LONG *) mac_pdu_ptr)->L1 = ((unsigned short) sdu_lengths[i] >> 8) & 0x7f;
((NR_MAC_SUBHEADER_LONG *) mac_pdu_ptr)->L2 = (unsigned short) sdu_lengths[i] & 0xff;
mac_pdu_ptr += sizeof(NR_MAC_SUBHEADER_LONG);
}
} else { // UL CCCH SDU
mac_pdu_ptr->R = 0;
mac_pdu_ptr->LCID = sdu_lcids[i];
mac_pdu_ptr ++;
}
// cycle through SDUs, compute each relevant and place ulsch_buffer in // MAC CE fixed subheader
memcpy((void *) mac_pdu_ptr, (void *) sdus_payload, sdu_lengths[i]); ((NR_MAC_SUBHEADER_FIXED *) mac_ce)->R = 0;
sdus_payload += sdu_lengths[i]; ((NR_MAC_SUBHEADER_FIXED *) mac_ce)->LCID = UL_SCH_LCID_C_RNTI;
mac_pdu_ptr += sdu_lengths[i]; mac_ce++;
}
// Generating UL MAC subPDUs including MAC CEs (MAC CE and subheader) // C-RNTI MAC CE (2 octets)
*(uint16_t *) mac_ce = nr_ue_mac_ce->crnti;
if (power_headroom) { // update pointer and length
// MAC CE fixed subheader mac_ce_size = sizeof(uint16_t);
mac_pdu_ptr->R = 0; mac_ce += mac_ce_size;
mac_pdu_ptr->LCID = UL_SCH_LCID_SINGLE_ENTRY_PHR; mac_ce_len += mac_ce_size + sizeof(NR_MAC_SUBHEADER_FIXED);
mac_pdu_ptr++;
// PHR MAC CE (1 octet)
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_pdu_ptr)->PH = power_headroom;
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_pdu_ptr)->R1 = 0;
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_pdu_ptr)->PCMAX = 0; // todo
((NR_SINGLE_ENTRY_PHR_MAC_CE *) mac_pdu_ptr)->R2 = 0;
mac_pdu_ptr += sizeof(NR_SINGLE_ENTRY_PHR_MAC_CE);
} }
if (crnti) { if (nr_ue_mac_ce->truncated_bsr) {
// MAC CE fixed subheader
mac_pdu_ptr->R = 0;
mac_pdu_ptr->LCID = UL_SCH_LCID_C_RNTI;
mac_pdu_ptr++;
// C-RNTI MAC CE (2 octets) LOG_D(NR_MAC, "In %s: generating Truncated BSR MAC CE with command %x\n", __FUNCTION__, nr_ue_mac_ce->truncated_bsr);
* (uint16_t *) mac_pdu_ptr = crnti;
mac_pdu_ptr += sizeof(uint16_t);
}
if (truncated_bsr) {
// MAC CE fixed subheader // MAC CE fixed subheader
mac_pdu_ptr->R = 0; ((NR_MAC_SUBHEADER_FIXED *) mac_ce)->R = 0;
mac_pdu_ptr->LCID = UL_SCH_LCID_S_TRUNCATED_BSR; ((NR_MAC_SUBHEADER_FIXED *) mac_ce)->LCID = UL_SCH_LCID_S_TRUNCATED_BSR;
mac_pdu_ptr++; mac_ce++;
// Short truncated BSR MAC CE (1 octet) // Short truncated BSR MAC CE (1 octet)
((NR_BSR_SHORT_TRUNCATED *) mac_pdu_ptr)-> Buffer_size = truncated_bsr; ((NR_BSR_SHORT_TRUNCATED *) mac_ce)-> Buffer_size = nr_ue_mac_ce->truncated_bsr;
((NR_BSR_SHORT_TRUNCATED *) mac_pdu_ptr)-> LcgID = 0; // todo ((NR_BSR_SHORT_TRUNCATED *) mac_ce)-> LcgID = 0;
mac_pdu_ptr+= sizeof(NR_BSR_SHORT_TRUNCATED);
} else if (short_bsr) { // update pointer and length
mac_ce_size = sizeof(NR_BSR_SHORT_TRUNCATED);
mac_ce += mac_ce_size;
mac_ce_len += mac_ce_size + sizeof(NR_MAC_SUBHEADER_FIXED);
} else if (nr_ue_mac_ce->short_bsr) {
LOG_D(NR_MAC, "In %s: generating Truncated short BSR MAC CE with command %x\n", __FUNCTION__, nr_ue_mac_ce->short_bsr);
// MAC CE fixed subheader // MAC CE fixed subheader
mac_pdu_ptr->R = 0; ((NR_MAC_SUBHEADER_FIXED *) mac_ce)->R = 0;
mac_pdu_ptr->LCID = UL_SCH_LCID_S_BSR; ((NR_MAC_SUBHEADER_FIXED *) mac_ce)->LCID = UL_SCH_LCID_S_BSR;
mac_pdu_ptr++; mac_ce++;
// Short truncated BSR MAC CE (1 octet) // Short truncated BSR MAC CE (1 octet)
((NR_BSR_SHORT *) mac_pdu_ptr)->Buffer_size = short_bsr; ((NR_BSR_SHORT *) mac_ce)->Buffer_size = nr_ue_mac_ce->short_bsr;
((NR_BSR_SHORT *) mac_pdu_ptr)->LcgID = 0; // todo ((NR_BSR_SHORT *) mac_ce)->LcgID = 0;
mac_pdu_ptr+= sizeof(NR_BSR_SHORT);
} else if (long_bsr) { // update pointer and length
mac_ce_size = sizeof(NR_BSR_SHORT);
mac_ce += mac_ce_size;
mac_ce_len += mac_ce_size + sizeof(NR_MAC_SUBHEADER_FIXED);
} else if (nr_ue_mac_ce->long_bsr) {
// MAC CE variable subheader // MAC CE variable subheader
// todo ch 6.1.3.1. TS 38.321 // todo ch 6.1.3.1. TS 38.321
// ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->R = 0; // ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->R = 0;
// ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->F = 0; // ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->F = 0;
// ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->LCID = UL_SCH_LCID_L_BSR; // ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->LCID = UL_SCH_LCID_L_BSR;
// ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->L = 0; // ((NR_MAC_SUBHEADER_SHORT *) mac_pdu_ptr)->L = 0;
// last_size = 2; // sh_size = 2;
// mac_pdu_ptr += last_size;
// Short truncated BSR MAC CE (1 octet) // Short truncated BSR MAC CE (1 octet)
// ((NR_BSR_LONG *) ce_ptr)->Buffer_size0 = short_bsr; // ((NR_BSR_LONG *) mac_ce)->Buffer_size0 = short_bsr;
// ((NR_BSR_LONG *) ce_ptr)->LCGID0 = 0; // ((NR_BSR_LONG *) mac_ce)->LCGID0 = 0;
// mac_ce_size = sizeof(NR_BSR_LONG); // size is variable // mac_ce_size = sizeof(NR_BSR_LONG); // size is variable
} }
// compute offset before adding padding (if necessary)
int padding_bytes = 0;
if(buflen > 0) // If the buflen is provided
padding_bytes = buflen + pdu - (unsigned char *) mac_pdu_ptr;
AssertFatal(padding_bytes>=0,""); return mac_ce_len;
// Compute final offset for padding
if (post_padding || padding_bytes>0) {
((NR_MAC_SUBHEADER_FIXED *) mac_pdu_ptr)->R = 0;
((NR_MAC_SUBHEADER_FIXED *) mac_pdu_ptr)->LCID = UL_SCH_LCID_PADDING;
mac_pdu_ptr++;
}
return (uint8_t *)mac_pdu_ptr-pdu;
} }
///////////////////////////////////// /////////////////////////////////////
// Random Access Response PDU // // Random Access Response PDU //
// TS 38.213 ch 8.2 // // TS 38.213 ch 8.2 //
......
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