lib,pdcp_nr: added extra comments on logging information to regarding

discard and t-Reordering expiry
master
Pedro Alvarez 3 years ago
parent fdbe894865
commit 6d313f1875

@ -200,6 +200,15 @@ void pdcp_entity_nr::write_pdu(unique_byte_buffer_t pdu)
uint32_t rcvd_sn = read_data_header(pdu);
// Calculate RCVD_COUNT
/*
*- if RCVD_SN < SN(RX_DELIV) Window_Size:
* - RCVD_HFN = HFN(RX_DELIV) + 1.
*- else if RCVD_SN >= SN(RX_DELIV) + Window_Size:
* - RCVD_HFN = HFN(RX_DELIV) 1.
*- else:
* - RCVD_HFN = HFN(RX_DELIV);
*- RCVD_COUNT = [RCVD_HFN, RCVD_SN].
*/
uint32_t rcvd_hfn, rcvd_count;
if ((int64_t)rcvd_sn < (int64_t)SN(rx_deliv) - (int64_t)window_size) {
rcvd_hfn = HFN(rx_deliv) + 1;
@ -227,6 +236,7 @@ void pdcp_entity_nr::write_pdu(unique_byte_buffer_t pdu)
if (is_srb() || (is_drb() && (integrity_direction == DIRECTION_TX || integrity_direction == DIRECTION_TXRX))) {
extract_mac(pdu, mac);
}
// TS 38.323, section 5.9: Integrity verification
// The data unit that is integrity protected is the PDU header
// and the data part of the PDU before ciphering.
@ -245,6 +255,11 @@ void pdcp_entity_nr::write_pdu(unique_byte_buffer_t pdu)
discard_data_header(pdu);
// Check valid rcvd_count
/*
* - if RCVD_COUNT < RX_DELIV; or
* - if the PDCP Data PDU with COUNT = RCVD_COUNT has been received before:
* - discard the PDCP Data PDU;
*/
if (rcvd_count < rx_deliv) {
logger.debug("Out-of-order after time-out, duplicate or COUNT wrap-around");
logger.debug("RCVD_COUNT %u, RCVD_COUNT %u", rcvd_count, rx_deliv);
@ -253,6 +268,7 @@ void pdcp_entity_nr::write_pdu(unique_byte_buffer_t pdu)
// Check if PDU has been received
if (reorder_queue.find(rcvd_count) != reorder_queue.end()) {
logger.debug("Duplicate PDU, dropping.");
return; // PDU already present, drop.
}
@ -274,12 +290,14 @@ void pdcp_entity_nr::write_pdu(unique_byte_buffer_t pdu)
// Handle reordering timers
if (reordering_timer.is_running() and rx_deliv >= rx_reord) {
reordering_timer.stop();
logger.debug("Stopped t-Reordering - RX_DELIV=%d, RX_REORD=%ld", rx_deliv, rx_reord);
}
if (cfg.t_reordering != pdcp_t_reordering_t::infinity) {
if (not reordering_timer.is_running() and rx_deliv < rx_next) {
rx_reord = rx_next;
reordering_timer.run();
logger.debug("Started t-Reordering - RX_REORD=%ld, RX_DELIV=%ld, RX_NEXT=%ld", rx_reord, rx_deliv, rx_next);
}
}
@ -333,7 +351,8 @@ void pdcp_entity_nr::deliver_all_consecutive_counts()
// Reordering Timer Callback (t-reordering)
void pdcp_entity_nr::reordering_callback::operator()(uint32_t timer_id)
{
parent->logger.info("Reordering timer expired. Re-order queue size=%d", parent->reorder_queue.size());
parent->logger.info(
"Reordering timer expired. RX_REORD=%u, re-order queue size=%ld", parent->rx_reord, parent->reorder_queue.size());
// Deliver all PDCP SDU(s) with associated COUNT value(s) < RX_REORD
for (std::map<uint32_t, unique_byte_buffer_t>::iterator it = parent->reorder_queue.begin();
@ -347,6 +366,10 @@ void pdcp_entity_nr::reordering_callback::operator()(uint32_t timer_id)
parent->deliver_all_consecutive_counts();
if (parent->rx_deliv < parent->rx_next) {
parent->logger.debug("Updating RX_REORD to %ld. Old RX_REORD=%ld, RX_DELIV=%ld",
parent->rx_next,
parent->rx_reord,
parent->rx_deliv);
parent->rx_reord = parent->rx_next;
parent->reordering_timer.run();
}
@ -355,7 +378,7 @@ void pdcp_entity_nr::reordering_callback::operator()(uint32_t timer_id)
// Discard Timer Callback (discardTimer)
void pdcp_entity_nr::discard_callback::operator()(uint32_t timer_id)
{
parent->logger.debug("Discard timer expired for PDU with SN = %d", discard_sn);
parent->logger.debug("Discard timer expired for PDU with SN=%d", discard_sn);
// Notify the RLC of the discard. It's the RLC to actually discard, if no segment was transmitted yet.
parent->rlc->discard_sdu(parent->lcid, discard_sn);

@ -239,13 +239,19 @@ int rlc_am::rlc_am_base_tx::write_sdu(unique_byte_buffer_t sdu)
uint32_t nof_bytes = sdu->N_bytes;
srsran::error_type<unique_byte_buffer_t> ret = tx_sdu_queue.try_write(std::move(sdu));
if (ret) {
RlcHexInfo(msg_ptr, nof_bytes, "Tx SDU (%d B, tx_sdu_queue_len=%d)", nof_bytes, tx_sdu_queue.size());
RlcHexInfo(msg_ptr,
nof_bytes,
"Tx SDU (%d B, PDCP_SN=%ld tx_sdu_queue_len=%d)",
nof_bytes,
sdu_pdcp_sn,
tx_sdu_queue.size());
} else {
// in case of fail, the try_write returns back the sdu
RlcHexWarning(ret.error()->msg,
ret.error()->N_bytes,
"[Dropped SDU] Tx SDU (%d B, tx_sdu_queue_len=%d)",
"[Dropped SDU] Tx SDU (%d B, PDCP_SN=%ld, tx_sdu_queue_len=%d)",
ret.error()->N_bytes,
sdu_pdcp_sn,
tx_sdu_queue.size());
return SRSRAN_ERROR;
}

@ -183,7 +183,7 @@ uint32_t rlc_am_nr_tx::build_new_pdu(uint8_t* payload, uint32_t nof_bytes)
} while (tx_sdu == nullptr && tx_sdu_queue.size() != 0);
if (tx_sdu != nullptr) {
RlcDebug("Read RLC SDU - %d bytes", tx_sdu->N_bytes);
RlcDebug("Read RLC SDU - RLC_SN=%d, PDCP_SN=%d, %d bytes", st.tx_next, tx_sdu->md.pdcp_sn, tx_sdu->N_bytes);
} else {
RlcDebug("No SDUs left in the tx queue.");
return 0;

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