Fixed HO to unkown cell issue

master
Ismael Gomez 7 years ago
parent 7e091b8e60
commit 8474c6e3aa

@ -65,14 +65,16 @@ class cell_t
return earfcn == this->earfcn && pci == phy_cell.id;
}
bool greater(cell_t *x) {
return x->rsrp > rsrp;
return rsrp > x->rsrp;
}
bool plmn_equals(LIBLTE_RRC_PLMN_IDENTITY_STRUCT plmn_id) {
if (has_valid_sib1) {
for (uint32_t i = 0; i < sib1.N_plmn_ids; i++) {
if (plmn_id.mcc == sib1.plmn_id[i].id.mcc && plmn_id.mnc == sib1.plmn_id[i].id.mnc) {
return true;
}
}
}
return false;
}
cell_t() {
@ -80,6 +82,7 @@ class cell_t
cell_t(tmp, 0, 0);
}
cell_t(srslte_cell_t phy_cell, uint32_t earfcn, float rsrp) {
gettimeofday(&last_update, NULL);
this->has_valid_sib1 = false;
this->has_valid_sib2 = false;
this->has_valid_sib3 = false;
@ -94,14 +97,106 @@ class cell_t
bzero(&sib13, sizeof(sib13));
}
uint32_t earfcn;
uint32_t get_earfcn() {
return earfcn;
}
uint32_t get_pci() {
return phy_cell.id;
}
void set_rsrp(float rsrp) {
this->rsrp = rsrp;
in_sync = true;
gettimeofday(&last_update, NULL);
}
float get_rsrp() {
return rsrp;
}
void set_sib1(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_1_STRUCT *sib1) {
memcpy(&this->sib1, sib1, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_1_STRUCT));
has_valid_sib1 = true;
}
void set_sib2(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2_STRUCT *sib2) {
memcpy(&this->sib2, sib2, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2_STRUCT));
has_valid_sib2 = true;
}
void set_sib3(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT *sib3) {
memcpy(&this->sib3, sib3, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT));
has_valid_sib3 = true;
}
void set_sib13(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_13_STRUCT *sib13) {
memcpy(&this->sib13, sib13, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_13_STRUCT));
has_valid_sib13 = true;
}
uint32_t timeout_secs(struct timeval now) {
struct timeval t[3];
memcpy(&t[2], &now, sizeof(struct timeval));
memcpy(&t[1], &last_update, sizeof(struct timeval));
get_time_interval(t);
return t[0].tv_sec;
}
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_1_STRUCT *sib1ptr() {
return &sib1;
}
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2_STRUCT *sib2ptr() {
return &sib2;
}
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT *sib3ptr() {
return &sib3;
}
uint32_t get_cell_id() {
return sib1.cell_id;
}
bool has_sib1() {
return has_valid_sib1;
}
bool has_sib2() {
return has_valid_sib2;
}
bool has_sib3() {
return has_valid_sib3;
}
bool has_sib13() {
return has_valid_sib13;
}
uint16_t get_mcc() {
if (has_valid_sib1) {
if (sib1.N_plmn_ids > 0) {
return sib1.plmn_id[0].id.mcc;
}
}
return 0;
}
uint16_t get_mnc() {
if (has_valid_sib1) {
if (sib1.N_plmn_ids > 0) {
return sib1.plmn_id[0].id.mnc;
}
}
return 0;
}
srslte_cell_t phy_cell;
bool in_sync;
private:
float rsrp;
uint32_t earfcn;
struct timeval last_update;
bool has_valid_sib1;
bool has_valid_sib2;
bool has_valid_sib3;
bool has_valid_sib13;
bool in_sync;
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_1_STRUCT sib1;
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2_STRUCT sib2;
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT sib3;
@ -274,6 +369,7 @@ private:
}
// List of strongest neighbour cell
const static int NEIGHBOUR_TIMEOUT = 5;
const static int NOF_NEIGHBOUR_CELLS = 8;
std::vector<cell_t*> neighbour_cells;
cell_t *serving_cell;
@ -285,6 +381,9 @@ private:
bool add_neighbour_cell(uint32_t earfcn, srslte_cell_t phy_cell, float rsrp);
bool add_neighbour_cell(cell_t *cell);
void sort_neighbour_cells();
void clean_neighbours();
std::vector<cell_t*>::iterator delete_neighbour(std::vector<cell_t*>::iterator it);
void delete_neighbour(uint32_t cell_idx);
typedef enum {
SI_ACQUIRE_IDLE = 0,
@ -315,6 +414,7 @@ private:
void run_tti(uint32_t tti);
bool timer_expired(uint32_t timer_id);
void ho_finish();
void delete_report(uint32_t earfcn, uint32_t pci);
private:
const static int NOF_MEASUREMENTS = 3;

@ -54,6 +54,7 @@ rrc::rrc()
n310_cnt = 0;
n311_cnt = 0;
serving_cell = new cell_t();
neighbour_cells.reserve(NOF_NEIGHBOUR_CELLS);
}
rrc::~rrc()
@ -168,6 +169,7 @@ void rrc::set_args(rrc_args_t *args) {
void rrc::run_thread() {
uint32_t failure_test = 0;
uint32_t cell_clean_cnt = 0;
while (thread_running) {
@ -217,13 +219,13 @@ void rrc::run_thread() {
* Cell is selected when all SIBs downloaded or applied.
*/
if (phy->sync_status()) {
if (!serving_cell->has_valid_sib1) {
if (!serving_cell->has_sib1()) {
si_acquire_state = SI_ACQUIRE_SIB1;
sysinfo_index = 0;
} else if (!serving_cell->has_valid_sib2) {
} else if (!serving_cell->has_sib2()) {
si_acquire_state = SI_ACQUIRE_SIB2;
} else {
apply_sib2_configs(&serving_cell->sib2);
apply_sib2_configs(serving_cell->sib2ptr());
si_acquire_state = SI_ACQUIRE_IDLE;
state = RRC_STATE_CELL_SELECTED;
}
@ -302,6 +304,13 @@ void rrc::run_thread() {
default:
break;
}
if (state == RRC_STATE_CONNECTED || RRC_STATE_IDLE) {
cell_clean_cnt++;
if (cell_clean_cnt==1000) {
clean_neighbours();
cell_clean_cnt = 0;
}
}
usleep(1000);
}
}
@ -363,16 +372,16 @@ void rrc::run_si_acquisition_procedure()
break;
case SI_ACQUIRE_SIB2:
// Instruct MAC to look for next SIB
if(sysinfo_index < serving_cell->sib1.N_sched_info) {
si_win_len = liblte_rrc_si_window_length_num[serving_cell->sib1.si_window_length];
if(sysinfo_index < serving_cell->sib1ptr()->N_sched_info) {
si_win_len = liblte_rrc_si_window_length_num[serving_cell->sib1ptr()->si_window_length];
x = sysinfo_index*si_win_len;
sf = x%10;
offset = x/10;
tti = mac->get_current_tti();
period = liblte_rrc_si_periodicity_num[serving_cell->sib1.sched_info[sysinfo_index].si_periodicity];
period = liblte_rrc_si_periodicity_num[serving_cell->sib1ptr()->sched_info[sysinfo_index].si_periodicity];
si_win_start = sib_start_tti(tti, period, offset, sf);
si_win_len = liblte_rrc_si_window_length_num[serving_cell->sib1.si_window_length];
si_win_len = liblte_rrc_si_window_length_num[serving_cell->sib1ptr()->si_window_length];
if (last_win_start == 0 ||
(srslte_tti_interval(last_win_start, tti) > period*10 && srslte_tti_interval(last_win_start, tti) < 1000))
@ -416,17 +425,11 @@ void rrc::run_si_acquisition_procedure()
*******************************************************************************/
uint16_t rrc::get_mcc() {
if (serving_cell->sib1.N_plmn_ids > 0) {
return serving_cell->sib1.plmn_id[0].id.mcc;
}
return 0;
return serving_cell->get_mcc();
}
uint16_t rrc::get_mnc() {
if (serving_cell->sib1.N_plmn_ids > 0) {
return serving_cell->sib1.plmn_id[0].id.mnc;
}
return 0;
return serving_cell->get_mnc();
}
void rrc::plmn_search() {
@ -491,7 +494,7 @@ void rrc::set_serving_cell(uint32_t cell_idx) {
// Move serving cell to neighbours list
if (serving_cell->is_valid()) {
// Make sure it does not exist already
int serving_idx = find_neighbour_cell(serving_cell->earfcn, serving_cell->phy_cell.id);
int serving_idx = find_neighbour_cell(serving_cell->get_earfcn(), serving_cell->phy_cell.id);
if (serving_idx >= 0 && (uint32_t) serving_idx < neighbour_cells.size()) {
printf("Error serving cell is already in the neighbour list. Removing it\n");
neighbour_cells.erase(std::remove(neighbour_cells.begin(), neighbour_cells.end(), neighbour_cells[serving_idx]), neighbour_cells.end());
@ -506,7 +509,7 @@ void rrc::set_serving_cell(uint32_t cell_idx) {
serving_cell = new_serving_cell;
rrc_log->info("Setting serving cell idx=%d, earfcn=%d, PCI=%d, nof_neighbours=%d\n",
cell_idx, serving_cell->earfcn, serving_cell->phy_cell.id, neighbour_cells.size());
cell_idx, serving_cell->get_earfcn(), serving_cell->phy_cell.id, neighbour_cells.size());
} else {
rrc_log->error("Setting invalid serving cell idx %d\n", cell_idx);
@ -520,19 +523,19 @@ void rrc::select_next_cell_in_plmn() {
neighbour_cells[i]->in_sync) // matches S criteria
{
// Try to select Cell
if (phy->cell_select(neighbour_cells[i]->earfcn, neighbour_cells[i]->phy_cell)) {
if (phy->cell_select(neighbour_cells[i]->get_earfcn(), neighbour_cells[i]->phy_cell)) {
set_serving_cell(i);
rrc_log->info("Selected cell PCI=%d, EARFCN=%d, Cell ID=0x%x\n",
serving_cell->phy_cell.id, serving_cell->earfcn,
serving_cell->sib1.cell_id);
serving_cell->phy_cell.id, serving_cell->get_earfcn(),
serving_cell->get_cell_id());
rrc_log->console("Selected cell PCI=%d, EARFCN=%d, Cell ID=0x%x\n",
serving_cell->phy_cell.id, serving_cell->earfcn,
serving_cell->sib1.cell_id);
serving_cell->phy_cell.id, serving_cell->get_earfcn(),
serving_cell->get_cell_id());
} else {
// Set to out-of-sync if can't synchronize
neighbour_cells[i]->in_sync = false;
rrc_log->warning("Selecting cell EARFCN=%d, Cell ID=0x%x.\n",
neighbour_cells[i]->earfcn, neighbour_cells[i]->sib1.cell_id);
neighbour_cells[i]->get_earfcn(), neighbour_cells[i]->get_cell_id());
}
return;
}
@ -543,7 +546,7 @@ void rrc::select_next_cell_in_plmn() {
void rrc::new_phy_meas(float rsrp, float rsrq, uint32_t tti, int earfcn_i, int pci_i) {
if (earfcn_i < 0 || pci_i < 0) {
earfcn_i = serving_cell->earfcn;
earfcn_i = serving_cell->get_earfcn();
pci_i = serving_cell->phy_cell.id;
}
@ -560,7 +563,7 @@ void rrc::new_phy_meas(float rsrp, float rsrq, uint32_t tti, int earfcn_i, int p
// Update serving cell
if (serving_cell->equals(earfcn, pci)) {
cell_reselection_eval(rsrp, rsrq);
serving_cell->rsrp = rsrp;
serving_cell->set_rsrp(rsrp);
rrc_log->info("MEAS: New measurement serving cell in IDLE, rsrp=%f, rsrq=%f, tti=%d\n", rsrp, rsrq, tti);
// Or update/add neighbour cell
@ -573,13 +576,13 @@ void rrc::new_phy_meas(float rsrp, float rsrq, uint32_t tti, int earfcn_i, int p
}
// Verify cell selection criteria with strongest neighbour cell (always first)
if (cell_selection_eval(neighbour_cells[0]->rsrp) &&
neighbour_cells[0]->rsrp > serving_cell->rsrp + 5)
if (cell_selection_eval(neighbour_cells[0]->get_rsrp()) &&
neighbour_cells[0]->get_rsrp() > serving_cell->get_rsrp() + 5)
{
set_serving_cell(0);
rrc_log->info("Selecting best neighbour cell PCI=%d, rsrp=%.1f dBm\n", serving_cell->phy_cell.id, serving_cell->rsrp);
rrc_log->info("Selecting best neighbour cell PCI=%d, rsrp=%.1f dBm\n", serving_cell->phy_cell.id, serving_cell->get_rsrp());
state = RRC_STATE_CELL_SELECTING;
phy->cell_select(serving_cell->earfcn, serving_cell->phy_cell);
phy->cell_select(serving_cell->get_earfcn(), serving_cell->phy_cell);
}
}
}
@ -590,7 +593,7 @@ void rrc::cell_found(uint32_t earfcn, srslte_cell_t phy_cell, float rsrp) {
int cell_idx = -1;
if (serving_cell->equals(earfcn, phy_cell.id)) {
serving_cell->rsrp = rsrp;
serving_cell->set_rsrp(rsrp);
serving_cell->in_sync = true;
found = true;
} else {
@ -598,18 +601,18 @@ void rrc::cell_found(uint32_t earfcn, srslte_cell_t phy_cell, float rsrp) {
cell_idx = find_neighbour_cell(earfcn, phy_cell.id);
if (cell_idx >= 0) {
set_serving_cell(cell_idx);
serving_cell->rsrp = rsrp;
serving_cell->set_rsrp(rsrp);
serving_cell->in_sync = true;
found = true;
}
}
if (found) {
if (!serving_cell->has_valid_sib1) {
if (!serving_cell->has_sib1()) {
si_acquire_state = SI_ACQUIRE_SIB1;
} else if (state == RRC_STATE_PLMN_SELECTION) {
for (uint32_t j = 0; j < serving_cell->sib1.N_plmn_ids; j++) {
nas->plmn_found(serving_cell->sib1.plmn_id[j].id, serving_cell->sib1.tracking_area_code);
for (uint32_t j = 0; j < serving_cell->sib1ptr()->N_plmn_ids; j++) {
nas->plmn_found(serving_cell->sib1ptr()->plmn_id[j].id, serving_cell->sib1ptr()->tracking_area_code);
}
usleep(5000);
phy->cell_search_next();
@ -631,22 +634,54 @@ void rrc::cell_found(uint32_t earfcn, srslte_cell_t phy_cell, float rsrp) {
rrc_log->info("%s %s cell EARFCN=%d, PCI=%d, RSRP=%.1f dBm\n",
found?"Updating":"Adding",
cell_idx>=0?"neighbour":"serving",
serving_cell->earfcn,
serving_cell->get_earfcn(),
serving_cell->phy_cell.id,
serving_cell->rsrp);
serving_cell->get_rsrp());
}
bool sort_rsrp(cell_t *u1, cell_t *u2) {
return !u1->greater(u2);
return u1->greater(u2);
}
// Sort neighbour cells by decreasing order of RSRP
void rrc::sort_neighbour_cells() {
void rrc::delete_neighbour(uint32_t cell_idx) {
measurements.delete_report(neighbour_cells[cell_idx]->get_earfcn(), neighbour_cells[cell_idx]->get_pci());
delete neighbour_cells[cell_idx];
neighbour_cells.erase(std::remove(neighbour_cells.begin(), neighbour_cells.end(), neighbour_cells[cell_idx]), neighbour_cells.end());
}
for (uint32_t i=1;i<neighbour_cells.size();i++) {
if (neighbour_cells[i]->in_sync == false) {
rrc_log->info("Removing neighbour cell PCI=%d, out_of_sync\n", neighbour_cells[i]->phy_cell.id);
neighbour_cells.erase(std::remove(neighbour_cells.begin(), neighbour_cells.end(), neighbour_cells[i]), neighbour_cells.end());
std::vector<cell_t*>::iterator rrc::delete_neighbour(std::vector<cell_t*>::iterator it) {
measurements.delete_report((*it)->get_earfcn(), (*it)->get_pci());
delete (*it);
return neighbour_cells.erase(it);
}
void rrc::clean_neighbours()
{
struct timeval now;
gettimeofday(&now, NULL);
std::vector<cell_t*>::iterator it = neighbour_cells.begin();
while(it != neighbour_cells.end()) {
if ((*it)->timeout_secs(now) > NEIGHBOUR_TIMEOUT) {
rrc_log->info("Neighbour PCI=%d timed out. Deleting\n", (*it)->get_pci());
it = delete_neighbour(it);
} else {
++it;
}
}
}
// Sort neighbour cells by decreasing order of RSRP
void rrc::sort_neighbour_cells()
{
// Remove out-of-sync cells
std::vector<cell_t*>::iterator it = neighbour_cells.begin();
while(it != neighbour_cells.end()) {
if ((*it)->in_sync == false) {
rrc_log->info("Neighbour PCI=%d is out-of-sync. Deleting\n", (*it)->get_pci());
it = delete_neighbour(it);
} else {
++it;
}
}
@ -654,28 +689,27 @@ void rrc::sort_neighbour_cells() {
char ordered[512];
int n=0;
n += snprintf(ordered, 512, "[pci=%d, rsrsp=%.2f", neighbour_cells[0]->phy_cell.id, neighbour_cells[0]->rsrp);
n += snprintf(ordered, 512, "[pci=%d, rsrsp=%.2f", neighbour_cells[0]->phy_cell.id, neighbour_cells[0]->get_rsrp());
for (uint32_t i=1;i<neighbour_cells.size();i++) {
n += snprintf(&ordered[n], 512-n, " | pci=%d, rsrp=%.2f", neighbour_cells[i]->phy_cell.id, neighbour_cells[i]->rsrp);
n += snprintf(&ordered[n], 512-n, " | pci=%d, rsrp=%.2f", neighbour_cells[i]->get_pci(), neighbour_cells[i]->get_rsrp());
}
rrc_log->info("Sorted neighbour cells: %s]\n", ordered);
rrc_log->info("Neighbours: %s]\n", ordered);
}
bool rrc::add_neighbour_cell(cell_t *new_cell) {
bool ret = false;
if (neighbour_cells.size() < NOF_NEIGHBOUR_CELLS - 1) {
if (neighbour_cells.size() < NOF_NEIGHBOUR_CELLS) {
ret = true;
} else if (!neighbour_cells[neighbour_cells.size()-1]->greater(new_cell)) {
// Delete old one
delete neighbour_cells[neighbour_cells.size()-1];
neighbour_cells.erase(std::remove(neighbour_cells.begin(), neighbour_cells.end(), neighbour_cells[neighbour_cells.size()-1]), neighbour_cells.end());
} else if (new_cell->greater(neighbour_cells[neighbour_cells.size()-1])) {
// Replace old one by new one
delete_neighbour(neighbour_cells.size()-1);
ret = true;
}
if (ret) {
neighbour_cells.push_back(new_cell);
}
rrc_log->info("Added neighbour cell EARFCN=%d, PCI=%d, nof_neighbours=%d\n",
new_cell->earfcn, new_cell->phy_cell.id, neighbour_cells.size());
new_cell->get_earfcn(), new_cell->get_pci(), neighbour_cells.size());
sort_neighbour_cells();
return ret;
}
@ -690,7 +724,7 @@ bool rrc::add_neighbour_cell(uint32_t earfcn, uint32_t pci, float rsrp) {
bool rrc::add_neighbour_cell(uint32_t earfcn, srslte_cell_t phy_cell, float rsrp) {
if (earfcn == 0) {
earfcn = serving_cell->earfcn;
earfcn = serving_cell->get_earfcn();
}
// First check if already exists
@ -700,7 +734,7 @@ bool rrc::add_neighbour_cell(uint32_t earfcn, srslte_cell_t phy_cell, float rsrp
// If exists, update RSRP, sort again and return
if (cell_idx >= 0) {
neighbour_cells[cell_idx]->rsrp = rsrp;
neighbour_cells[cell_idx]->set_rsrp(rsrp);
sort_neighbour_cells();
return true;
}
@ -929,7 +963,7 @@ void rrc::send_con_restablish_request(LIBLTE_RRC_CON_REEST_REQ_CAUSE_ENUM cause,
uint8_t *msg_ptr = varShortMAC;
// ASN.1 encode byte-aligned VarShortMAC-Input
liblte_rrc_pack_cell_identity_ie(serving_cell->sib1.cell_id, &msg_ptr);
liblte_rrc_pack_cell_identity_ie(serving_cell->get_cell_id(), &msg_ptr);
msg_ptr = &varShortMAC[4];
liblte_rrc_pack_phys_cell_id_ie(phy->get_current_pci(), &msg_ptr);
msg_ptr = &varShortMAC[4+2];
@ -937,7 +971,7 @@ void rrc::send_con_restablish_request(LIBLTE_RRC_CON_REEST_REQ_CAUSE_ENUM cause,
srslte_bit_pack_vector(varShortMAC, varShortMAC_packed, (4+2+4)*8);
rrc_log->info("Generated varShortMAC: cellId=0x%x, PCI=%d, rnti=%d\n",
serving_cell->sib1.cell_id, phy->get_current_pci(), crnti);
serving_cell->get_cell_id(), phy->get_current_pci(), crnti);
// Compute MAC-I
uint8_t mac_key[4];
@ -1065,10 +1099,10 @@ bool rrc::ho_prepare() {
if (pending_mob_reconf) {
rrc_log->info("Processing HO command to target PCell=%d\n", mob_reconf.mob_ctrl_info.target_pci);
int target_cell_idx = find_neighbour_cell(serving_cell->earfcn, mob_reconf.mob_ctrl_info.target_pci);
int target_cell_idx = find_neighbour_cell(serving_cell->get_earfcn(), mob_reconf.mob_ctrl_info.target_pci);
if (target_cell_idx < 0) {
rrc_log->console("Received HO command to unknown PCI=%d\n", mob_reconf.mob_ctrl_info.target_pci);
rrc_log->error("Could not find target cell earfcn=%d, pci=%d\n", serving_cell->earfcn, mob_reconf.mob_ctrl_info.target_pci);
rrc_log->error("Could not find target cell earfcn=%d, pci=%d\n", serving_cell->get_earfcn(), mob_reconf.mob_ctrl_info.target_pci);
return false;
}
@ -1076,7 +1110,7 @@ bool rrc::ho_prepare() {
mac_timers->timer_get(t310)->stop();
mac_timers->timer_get(t304)->set(this, liblte_rrc_t304_num[mob_reconf.mob_ctrl_info.t304]);
if (mob_reconf.mob_ctrl_info.carrier_freq_eutra_present &&
mob_reconf.mob_ctrl_info.carrier_freq_eutra.dl_carrier_freq != serving_cell->earfcn) {
mob_reconf.mob_ctrl_info.carrier_freq_eutra.dl_carrier_freq != serving_cell->get_earfcn()) {
rrc_log->warning("Received mobilityControlInfo for inter-frequency handover\n");
}
@ -1099,9 +1133,9 @@ bool rrc::ho_prepare() {
mac->set_ho_rnti(mob_reconf.mob_ctrl_info.new_ue_id, mob_reconf.mob_ctrl_info.target_pci);
apply_rr_config_common_dl(&mob_reconf.mob_ctrl_info.rr_cnfg_common);
rrc_log->info("Selecting new cell pci=%d\n", neighbour_cells[target_cell_idx]->phy_cell.id);
rrc_log->info("Selecting new cell pci=%d\n", neighbour_cells[target_cell_idx]->get_pci());
if (!phy->cell_handover(neighbour_cells[target_cell_idx]->phy_cell)) {
rrc_log->error("Could not synchronize with target cell pci=%d\n", neighbour_cells[target_cell_idx]->phy_cell.id);
rrc_log->error("Could not synchronize with target cell pci=%d\n", neighbour_cells[target_cell_idx]->get_pci());
return false;
}
@ -1177,7 +1211,7 @@ void rrc::ho_failed() {
// Instruct PHY to resync with source PCI
if (!phy->cell_handover(ho_src_cell.phy_cell)) {
rrc_log->error("Could not synchronize with target cell pci=%d\n", ho_src_cell.phy_cell.id);
rrc_log->error("Could not synchronize with target cell pci=%d\n", ho_src_cell.get_pci());
return;
}
@ -1302,27 +1336,23 @@ void rrc::write_pdu_bcch_dlsch(byte_buffer_t *pdu) {
rrc_log->info("Processing SIB: %d\n", liblte_rrc_sys_info_block_type_num[dlsch_msg.sibs[i].sib_type]);
if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_1 == dlsch_msg.sibs[i].sib_type && SI_ACQUIRE_SIB1 == si_acquire_state) {
memcpy(&serving_cell->sib1, &dlsch_msg.sibs[i].sib.sib1, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_1_STRUCT));
serving_cell->has_valid_sib1 = true;
serving_cell->set_sib1(&dlsch_msg.sibs[i].sib.sib1);
handle_sib1();
} else if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2 == dlsch_msg.sibs[i].sib_type && !serving_cell->has_valid_sib2) {
memcpy(&serving_cell->sib2, &dlsch_msg.sibs[i].sib.sib2, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2_STRUCT));
serving_cell->has_valid_sib2 = true;
} else if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_2 == dlsch_msg.sibs[i].sib_type && !serving_cell->has_sib2()) {
serving_cell->set_sib2(&dlsch_msg.sibs[i].sib.sib2);
handle_sib2();
} else if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3 == dlsch_msg.sibs[i].sib_type && !serving_cell->has_valid_sib3) {
memcpy(&serving_cell->sib3, &dlsch_msg.sibs[i].sib.sib3, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT));
serving_cell->has_valid_sib3 = true;
} else if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3 == dlsch_msg.sibs[i].sib_type && !serving_cell->has_sib3()) {
serving_cell->set_sib3(&dlsch_msg.sibs[i].sib.sib3);
handle_sib3();
}else if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_13 == dlsch_msg.sibs[i].sib_type && !serving_cell->has_valid_sib13) {
memcpy(&serving_cell->sib13, &dlsch_msg.sibs[0].sib.sib13, sizeof(LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_13_STRUCT));
serving_cell->has_valid_sib13 = true;
}else if (LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_13 == dlsch_msg.sibs[i].sib_type && !serving_cell->has_sib13()) {
serving_cell->set_sib13(&dlsch_msg.sibs[i].sib.sib13);
handle_sib13();
}
}
last_win_start = 0;
if(serving_cell->has_valid_sib2) {
if(serving_cell->has_sib2()) {
sysinfo_index++;
}
}
@ -1330,16 +1360,16 @@ void rrc::write_pdu_bcch_dlsch(byte_buffer_t *pdu) {
void rrc::handle_sib1()
{
rrc_log->info("SIB1 received, CellID=%d, si_window=%d, sib2_period=%d\n",
serving_cell->sib1.cell_id&0xfff,
liblte_rrc_si_window_length_num[serving_cell->sib1.si_window_length],
liblte_rrc_si_periodicity_num[serving_cell->sib1.sched_info[0].si_periodicity]);
serving_cell->get_cell_id()&0xfff,
liblte_rrc_si_window_length_num[serving_cell->sib1ptr()->si_window_length],
liblte_rrc_si_periodicity_num[serving_cell->sib1ptr()->sched_info[0].si_periodicity]);
// Print SIB scheduling info
uint32_t i,j;
for(i=0;i<serving_cell->sib1.N_sched_info;i++){
for(j=0;j<serving_cell->sib1.sched_info[i].N_sib_mapping_info;j++){
LIBLTE_RRC_SIB_TYPE_ENUM t = serving_cell->sib1.sched_info[i].sib_mapping_info[j].sib_type;
LIBLTE_RRC_SI_PERIODICITY_ENUM p = serving_cell->sib1.sched_info[i].si_periodicity;
for(i=0;i<serving_cell->sib1ptr()->N_sched_info;i++){
for(j=0;j<serving_cell->sib1ptr()->sched_info[i].N_sib_mapping_info;j++){
LIBLTE_RRC_SIB_TYPE_ENUM t = serving_cell->sib1ptr()->sched_info[i].sib_mapping_info[j].sib_type;
LIBLTE_RRC_SI_PERIODICITY_ENUM p = serving_cell->sib1ptr()->sched_info[i].si_periodicity;
rrc_log->debug("SIB scheduling info, sib_type=%d, si_periodicity=%d\n",
liblte_rrc_sib_type_num[t],
liblte_rrc_si_periodicity_num[p]);
@ -1347,16 +1377,14 @@ void rrc::handle_sib1()
}
// Set TDD Config
if(serving_cell->sib1.tdd) {
phy->set_config_tdd(&serving_cell->sib1.tdd_cnfg);
if(serving_cell->sib1ptr()->tdd) {
phy->set_config_tdd(&serving_cell->sib1ptr()->tdd_cnfg);
}
serving_cell->has_valid_sib1 = true;
// Send PLMN and TAC to NAS
std::stringstream ss;
for (uint32_t i = 0; i < serving_cell->sib1.N_plmn_ids; i++) {
nas->plmn_found(serving_cell->sib1.plmn_id[i].id, serving_cell->sib1.tracking_area_code);
for (uint32_t i = 0; i < serving_cell->sib1ptr()->N_plmn_ids; i++) {
nas->plmn_found(serving_cell->sib1ptr()->plmn_id[i].id, serving_cell->sib1ptr()->tracking_area_code);
}
// Jump to next state
@ -1379,7 +1407,7 @@ void rrc::handle_sib2()
{
rrc_log->info("SIB2 received\n");
apply_sib2_configs(&serving_cell->sib2);
apply_sib2_configs(serving_cell->sib2ptr());
}
@ -1387,7 +1415,7 @@ void rrc::handle_sib3()
{
rrc_log->info("SIB3 received\n");
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT *sib3 = &serving_cell->sib3;
LIBLTE_RRC_SYS_INFO_BLOCK_TYPE_3_STRUCT *sib3 = serving_cell->sib3ptr();
// cellReselectionInfoCommon
cell_resel_cfg.q_hyst = liblte_rrc_q_hyst_num[sib3->q_hyst];
@ -1699,7 +1727,7 @@ void rrc::parse_dl_dcch(uint32_t lcid, byte_buffer_t *pdu) {
*
*******************************************************************************/
void rrc::enable_capabilities() {
bool enable_ul_64 = args.ue_category >= 5 && serving_cell->sib2.rr_config_common_sib.pusch_cnfg.enable_64_qam;
bool enable_ul_64 = args.ue_category >= 5 && serving_cell->sib2ptr()->rr_config_common_sib.pusch_cnfg.enable_64_qam;
rrc_log->info("%s 64QAM PUSCH\n", enable_ul_64 ? "Enabling" : "Disabling");
phy->set_config_64qam_en(enable_ul_64);
}
@ -2373,15 +2401,18 @@ void rrc::rrc_meas::new_phy_meas(uint32_t earfcn, uint32_t pci, float rsrp, floa
L3_filter(&pcell_measurement, values);
// Update serving cell measurement
parent->serving_cell->rsrp = rsrp;
parent->serving_cell->set_rsrp(rsrp);
} else {
// Add to list of neighbour cells
parent->add_neighbour_cell(earfcn, pci, rsrp);
bool added = parent->add_neighbour_cell(earfcn, pci, rsrp);
log_h->info("MEAS: New measurement earfcn=%d, pci=%d, rsrp=%f, rsrq=%f, tti=%d\n", earfcn, pci, rsrp, rsrq, tti);
log_h->info("MEAS: New measurement %s earfcn=%d, pci=%d, rsrp=%f, rsrq=%f, tti=%d\n",
added?"added":"not added", earfcn, pci, rsrp, rsrq, tti);
// Only report measurements of 8th strongest cells
if (added) {
// Save PHY measurement for all active measurements whose earfcn/pci matches
for(std::map<uint32_t, meas_t>::iterator iter=active.begin(); iter!=active.end(); ++iter) {
meas_t *m = &iter->second;
@ -2399,6 +2430,20 @@ void rrc::rrc_meas::new_phy_meas(uint32_t earfcn, uint32_t pci, float rsrp, floa
}
}
}
}
// Remove all stored measurements for a given cell
void rrc::rrc_meas::delete_report(uint32_t earfcn, uint32_t pci) {
for(std::map<uint32_t, meas_t>::iterator iter=active.begin(); iter!=active.end(); ++iter) {
meas_t *m = &iter->second;
if (objects[m->object_id].earfcn == earfcn) {
if (m->cell_values.count(pci)) {
m->cell_values.erase(pci);
log_h->info("Deleting report PCI=%d from cell_values\n", pci);
}
}
}
}
void rrc::rrc_meas::run_tti(uint32_t tti) {
// Measurement Report Triggering Section 5.5.4

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