use of vector to store undelivered PDCP SNs in RLC AM

master
Francisco 4 years ago committed by Francisco Paisana
parent 0f1586dd2d
commit 299634b319

@ -121,6 +121,42 @@ private:
srslte::circular_array<rlc_amd_tx_pdu_t, RLC_AM_WINDOW_SIZE> window; srslte::circular_array<rlc_amd_tx_pdu_t, RLC_AM_WINDOW_SIZE> window;
}; };
struct buffered_pdcp_pdu_list {
public:
void resize(size_t size)
{
buffered_pdus.resize(size);
active_flag.resize(size, false);
}
void clear();
void add_pdcp_sdu(pdcp_sdu_info_t sdu)
{
assert(not has_pdcp_sn(sdu.sn));
buffered_pdus[sdu.sn] = sdu;
active_flag[sdu.sn] = true;
count++;
}
void clear_pdcp_sdu(uint32_t sn)
{
active_flag[sn] = false;
count--;
}
pdcp_sdu_info_t& operator[](size_t sn)
{
assert(has_pdcp_sn(sn));
return buffered_pdus[sn];
}
bool has_pdcp_sn(uint32_t pdcp_sn) const { return active_flag[pdcp_sn]; }
uint32_t nof_sdus() const { return count; }
private:
std::vector<pdcp_sdu_info_t> buffered_pdus;
std::vector<bool> active_flag;
uint32_t count = 0;
};
class rlc_am_lte : public rlc_common class rlc_am_lte : public rlc_common
{ {
public: public:
@ -244,7 +280,7 @@ private:
srslte::timer_handler::unique_timer status_prohibit_timer; srslte::timer_handler::unique_timer status_prohibit_timer;
// SDU info for PDCP notifications // SDU info for PDCP notifications
std::unordered_map<uint32_t, pdcp_sdu_info_t> undelivered_sdu_info_queue; buffered_pdcp_pdu_list undelivered_sdu_info_queue;
// Callback function for buffer status report // Callback function for buffer status report
bsr_callback_t bsr_callback; bsr_callback_t bsr_callback;

@ -189,6 +189,9 @@ bool rlc_am_lte::rlc_am_lte_tx::configure(const rlc_config_t& cfg_)
// TODO: add config checks // TODO: add config checks
cfg = cfg_.am; cfg = cfg_.am;
// TODO: Set size based on PDCP config
undelivered_sdu_info_queue.resize(262144);
// check timers // check timers
if (not poll_retx_timer.is_valid() or not status_prohibit_timer.is_valid()) { if (not poll_retx_timer.is_valid() or not status_prohibit_timer.is_valid()) {
logger.error("Configuring RLC AM TX: timers not configured"); logger.error("Configuring RLC AM TX: timers not configured");
@ -387,16 +390,15 @@ int rlc_am_lte::rlc_am_lte_tx::write_sdu(unique_byte_buffer_t sdu)
// Store SDU info // Store SDU info
logger.debug( logger.debug(
"Storing PDCP SDU info in queue. PDCP_SN=%d, Queue Size=%ld", info.sn, undelivered_sdu_info_queue.size()); "Storing PDCP SDU info in queue. PDCP_SN=%d, Queue Size=%ld", info.sn, undelivered_sdu_info_queue.nof_sdus());
uint32_t info_count = undelivered_sdu_info_queue.count(info.sn); if (undelivered_sdu_info_queue.has_pdcp_sn(info.sn)) {
if (info_count != 0) {
logger.error("PDCP SDU info already exists. SN=%d", info.sn); logger.error("PDCP SDU info already exists. SN=%d", info.sn);
pthread_mutex_unlock(&mutex); pthread_mutex_unlock(&mutex);
return SRSLTE_ERROR; return SRSLTE_ERROR;
} }
undelivered_sdu_info_queue[info.sn] = info; undelivered_sdu_info_queue.add_pdcp_sdu(info);
pthread_mutex_unlock(&mutex); pthread_mutex_unlock(&mutex);
return SRSLTE_SUCCESS; return SRSLTE_SUCCESS;
} }
@ -869,16 +871,16 @@ int rlc_am_lte::rlc_am_lte_tx::build_data_pdu(uint8_t* payload, uint32_t nof_byt
pdu->N_bytes += to_move; pdu->N_bytes += to_move;
tx_sdu->N_bytes -= to_move; tx_sdu->N_bytes -= to_move;
tx_sdu->msg += to_move; tx_sdu->msg += to_move;
auto info_it = undelivered_sdu_info_queue.find(tx_sdu->md.pdcp_sn); if (not undelivered_sdu_info_queue.has_pdcp_sn(tx_sdu->md.pdcp_sn)) {
if (info_it == undelivered_sdu_info_queue.end()) {
logger.error("Could not find PDCP SN in SDU info queue (segment). PDCP_SN=%d", tx_sdu->md.pdcp_sn); logger.error("Could not find PDCP SN in SDU info queue (segment). PDCP_SN=%d", tx_sdu->md.pdcp_sn);
return 0; return 0;
} }
info_it->second.rlc_sn_info_list.push_back({header.sn, false}); pdcp_sdu_info_t& pdcp_sdu = undelivered_sdu_info_queue[tx_sdu->md.pdcp_sn];
pdcp_sdu.rlc_sn_info_list.push_back({header.sn, false});
pdcp_sns.push_back(tx_sdu->md.pdcp_sn); pdcp_sns.push_back(tx_sdu->md.pdcp_sn);
if (tx_sdu->N_bytes == 0) { if (tx_sdu->N_bytes == 0) {
logger.debug("%s Complete SDU scheduled for tx.", RB_NAME); logger.debug("%s Complete SDU scheduled for tx.", RB_NAME);
info_it->second.fully_txed = true; pdcp_sdu.fully_txed = true;
tx_sdu.reset(); tx_sdu.reset();
} }
if (pdu_space > to_move) { if (pdu_space > to_move) {
@ -916,16 +918,16 @@ int rlc_am_lte::rlc_am_lte_tx::build_data_pdu(uint8_t* payload, uint32_t nof_byt
pdu->N_bytes += to_move; pdu->N_bytes += to_move;
tx_sdu->N_bytes -= to_move; tx_sdu->N_bytes -= to_move;
tx_sdu->msg += to_move; tx_sdu->msg += to_move;
auto info_it = undelivered_sdu_info_queue.find(tx_sdu->md.pdcp_sn); if (not undelivered_sdu_info_queue.has_pdcp_sn(tx_sdu->md.pdcp_sn)) {
if (info_it == undelivered_sdu_info_queue.end()) {
logger.error("Could not find PDCP SN in SDU info queue. PDCP_SN=%d", tx_sdu->md.pdcp_sn); logger.error("Could not find PDCP SN in SDU info queue. PDCP_SN=%d", tx_sdu->md.pdcp_sn);
return 0; return 0;
} }
info_it->second.rlc_sn_info_list.push_back({header.sn, false}); pdcp_sdu_info_t& pdcp_sdu = undelivered_sdu_info_queue[tx_sdu->md.pdcp_sn];
pdcp_sdu.rlc_sn_info_list.push_back({header.sn, false});
pdcp_sns.push_back(tx_sdu->md.pdcp_sn); pdcp_sns.push_back(tx_sdu->md.pdcp_sn);
if (tx_sdu->N_bytes == 0) { if (tx_sdu->N_bytes == 0) {
logger.debug("%s Complete SDU scheduled for tx. PDCP SN=%d", RB_NAME, tx_sdu->md.pdcp_sn); logger.debug("%s Complete SDU scheduled for tx. PDCP SN=%d", RB_NAME, tx_sdu->md.pdcp_sn);
info_it->second.fully_txed = true; pdcp_sdu.fully_txed = true;
tx_sdu.reset(); tx_sdu.reset();
} }
if (pdu_space > to_move) { if (pdu_space > to_move) {
@ -1092,8 +1094,9 @@ void rlc_am_lte::rlc_am_lte_tx::handle_control_pdu(uint8_t* payload, uint32_t no
// Remove all SDUs that were fully acked // Remove all SDUs that were fully acked
for (uint32_t acked_pdcp_sn : notify_info_vec) { for (uint32_t acked_pdcp_sn : notify_info_vec) {
logger.debug("Erasing SDU info: PDCP_SN=%d", acked_pdcp_sn); logger.debug("Erasing SDU info: PDCP_SN=%d", acked_pdcp_sn);
size_t erased = undelivered_sdu_info_queue.erase(acked_pdcp_sn); if (undelivered_sdu_info_queue.has_pdcp_sn(acked_pdcp_sn)) {
if (erased == 0) { undelivered_sdu_info_queue.clear_pdcp_sdu(acked_pdcp_sn);
} else {
logger.error("Could not find info to erase: SN=%d", acked_pdcp_sn); logger.error("Could not find info to erase: SN=%d", acked_pdcp_sn);
} }
} }
@ -1120,7 +1123,7 @@ void rlc_am_lte::rlc_am_lte_tx::update_notification_ack_info(const rlc_amd_tx_pd
logger.debug("Updating ACK info: RLC SN=%d, number of notified SDU=%ld, number of undelivered SDUs=%ld", logger.debug("Updating ACK info: RLC SN=%d, number of notified SDU=%ld, number of undelivered SDUs=%ld",
tx_pdu.header.sn, tx_pdu.header.sn,
notify_info_vec.size(), notify_info_vec.size(),
undelivered_sdu_info_queue.size()); undelivered_sdu_info_queue.nof_sdus());
// Iterate over all undelivered SDUs // Iterate over all undelivered SDUs
if (not tx_window.has_sn(tx_pdu.header.sn)) { if (not tx_window.has_sn(tx_pdu.header.sn)) {
return; return;
@ -2015,6 +2018,13 @@ void rlc_am_lte::rlc_am_lte_rx::debug_state()
logger.debug("%s vr_r = %d, vr_mr = %d, vr_x = %d, vr_ms = %d, vr_h = %d", RB_NAME, vr_r, vr_mr, vr_x, vr_ms, vr_h); logger.debug("%s vr_r = %d, vr_mr = %d, vr_x = %d, vr_ms = %d, vr_h = %d", RB_NAME, vr_r, vr_mr, vr_x, vr_ms, vr_h);
} }
void buffered_pdcp_pdu_list::clear()
{
for (auto& b : buffered_pdus) {
b = {};
}
}
/**************************************************************************** /****************************************************************************
* Header pack/unpack helper functions * Header pack/unpack helper functions
* Ref: 3GPP TS 36.322 v10.0.0 Section 6.2.1 * Ref: 3GPP TS 36.322 v10.0.0 Section 6.2.1

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