Starting to add discard functionality to PDCP LTE entity.

This includes:
  - Adding a queue (implemented with std::map) for undelivered PDUs.
    This queue uses the SN used for TX as the key.
  - Added discard timer that is started upon reception of the SDU. Upon
    expiry of the timeout a discard callback removes undelivered PDUs
from the queue.
  - Added the mechanisms to the notify_delivery to remove PDUs from the
    undelivered queue when the PDU is ACK'ed.
  - Added test case for both timer expiry and acknowledgment.
  - Fix up the getter for buffered SDUs to return the undelivered SDUs
  - Changed default PDCP discard timer, so AM has a discard timer by
    default.
master
Pedro Alvarez 4 years ago
parent 5c8923123a
commit fcaaf72187

@ -58,26 +58,60 @@ public:
// Config helpers // Config helpers
bool check_valid_config(); bool check_valid_config();
// TX SDU queue helper
bool store_sdu(uint32_t tx_count, const unique_byte_buffer_t& pdu);
// Getter for unacknowledged PDUs. Used for handover
std::map<uint32_t, srslte::unique_byte_buffer_t> get_buffered_pdus() override;
// Internal state getters/setters
void get_bearer_state(pdcp_lte_state_t* state) override; void get_bearer_state(pdcp_lte_state_t* state) override;
void set_bearer_state(const pdcp_lte_state_t& state) override; void set_bearer_state(const pdcp_lte_state_t& state) override;
std::map<uint32_t, srslte::unique_byte_buffer_t> get_buffered_pdus() override; // Getter for the number of discard timers. Used for debugging.
uint32_t nof_discard_timers() { return discard_timers_map.size(); }
private: private:
srsue::rlc_interface_pdcp* rlc = nullptr; srsue::rlc_interface_pdcp* rlc = nullptr;
srsue::rrc_interface_pdcp* rrc = nullptr; srsue::rrc_interface_pdcp* rrc = nullptr;
srsue::gw_interface_pdcp* gw = nullptr; srsue::gw_interface_pdcp* gw = nullptr;
byte_buffer_pool* pool = nullptr;
// State variables, as defined in TS 36 323, section 7.1 // State variables, as defined in TS 36 323, section 7.1
pdcp_lte_state_t st = {}; pdcp_lte_state_t st = {};
uint32_t reordering_window = 0; uint32_t reordering_window = 0;
uint32_t maximum_pdcp_sn = 0; uint32_t maximum_pdcp_sn = 0;
// Discard callback (discardTimer)
class discard_callback;
std::map<uint32_t, timer_handler::unique_timer> discard_timers_map;
// TX Queue
uint32_t tx_queue_capacity = 512;
std::map<uint32_t, unique_byte_buffer_t> undelivered_sdus_queue;
void handle_srb_pdu(srslte::unique_byte_buffer_t pdu); void handle_srb_pdu(srslte::unique_byte_buffer_t pdu);
void handle_um_drb_pdu(srslte::unique_byte_buffer_t pdu); void handle_um_drb_pdu(srslte::unique_byte_buffer_t pdu);
void handle_am_drb_pdu(srslte::unique_byte_buffer_t pdu); void handle_am_drb_pdu(srslte::unique_byte_buffer_t pdu);
}; };
// Discard callback (discardTimer)
class pdcp_entity_lte::discard_callback
{
public:
discard_callback(pdcp_entity_lte* parent_, uint32_t sn_)
{
parent = parent_;
discard_sn = sn_;
};
void operator()(uint32_t timer_id);
private:
pdcp_entity_lte* parent;
uint32_t discard_sn;
};
} // namespace srslte } // namespace srslte
#endif // SRSLTE_PDCP_ENTITY_LTE_H #endif // SRSLTE_PDCP_ENTITY_LTE_H

@ -103,6 +103,15 @@ void pdcp_entity_lte::write_sdu(unique_byte_buffer_t sdu)
// Get COUNT to be used with this packet // Get COUNT to be used with this packet
uint32_t tx_count = COUNT(st.tx_hfn, st.next_pdcp_tx_sn); uint32_t tx_count = COUNT(st.tx_hfn, st.next_pdcp_tx_sn);
// If the bearer is mapped to RLC AM, save TX_COUNT and a copy of the PDU.
// This will be used for reestablishment, where unack'ed PDUs will be re-transmitted.
// PDUs will be removed from the queue, either when the lower layers will report
// a succesfull transmission or when the discard timer expires.
// Status report will also use this queue, to know the First Missing SDU (FMS).
if (!rlc->rb_is_um(lcid)) {
store_sdu(st.next_pdcp_tx_sn, sdu);
}
// check for pending security config in transmit direction // check for pending security config in transmit direction
if (enable_security_tx_sn != -1 && enable_security_tx_sn == static_cast<int32_t>(tx_count)) { if (enable_security_tx_sn != -1 && enable_security_tx_sn == static_cast<int32_t>(tx_count)) {
enable_integrity(DIRECTION_TX); enable_integrity(DIRECTION_TX);
@ -112,6 +121,16 @@ void pdcp_entity_lte::write_sdu(unique_byte_buffer_t sdu)
write_data_header(sdu, tx_count); write_data_header(sdu, tx_count);
// Start discard timer
if (cfg.discard_timer != pdcp_discard_timer_t::infinity) {
timer_handler::unique_timer discard_timer = task_sched.get_unique_timer();
discard_callback discard_fnc(this, st.next_pdcp_tx_sn);
discard_timer.set(static_cast<uint32_t>(cfg.discard_timer), discard_fnc);
discard_timer.run();
discard_timers_map.insert(std::make_pair(tx_count, std::move(discard_timer)));
log->debug("Discard Timer set for SN %u. Timeout: %ums\n", tx_count, static_cast<uint32_t>(cfg.discard_timer));
}
// Append MAC (SRBs only) // Append MAC (SRBs only)
uint8_t mac[4] = {}; uint8_t mac[4] = {};
bool do_integrity = integrity_direction == DIRECTION_TX || integrity_direction == DIRECTION_TXRX; bool do_integrity = integrity_direction == DIRECTION_TX || integrity_direction == DIRECTION_TXRX;
@ -146,6 +165,7 @@ void pdcp_entity_lte::write_sdu(unique_byte_buffer_t sdu)
st.next_pdcp_tx_sn = 0; st.next_pdcp_tx_sn = 0;
} }
// Pass PDU to lower layers
rlc->write_sdu(lcid, std::move(sdu)); rlc->write_sdu(lcid, std::move(sdu));
} }
@ -340,11 +360,75 @@ void pdcp_entity_lte::handle_am_drb_pdu(srslte::unique_byte_buffer_t pdu)
} }
/**************************************************************************** /****************************************************************************
* Delivery notifications from RLC * TX PDUs Queue Helper
***************************************************************************/
bool pdcp_entity_lte::store_sdu(uint32_t tx_count, const unique_byte_buffer_t& sdu)
{
// Check capacity
if (undelivered_sdus_queue.size() >= tx_queue_capacity) {
log->warning("The undelivered PDU queue is growing large. TX_COUNT=%d, Queue size=%ld\n",
tx_count,
undelivered_sdus_queue.size());
}
// Check wether PDU is already in the queue
if (undelivered_sdus_queue.find(tx_count) != undelivered_sdus_queue.end()) {
log->error("PDU already exists in the queue. TX_COUNT=%d\n", tx_count);
return false;
}
// Copy PDU contents into queue
unique_byte_buffer_t sdu_copy = allocate_unique_buffer(*pool);
memcpy(sdu_copy->msg, sdu->msg, sdu->N_bytes);
sdu_copy->N_bytes = sdu->N_bytes;
undelivered_sdus_queue.insert(std::make_pair(tx_count, std::move(sdu_copy)));
return true;
}
/****************************************************************************
* Discard functionality
***************************************************************************/
// Discard Timer Callback (discardTimer)
void pdcp_entity_lte::discard_callback::operator()(uint32_t timer_id)
{
parent->log->debug("Discard timer expired for PDU with SN = %d\n", discard_sn);
// Discard PDU if unacknowledged
if (parent->undelivered_sdus_queue.find(discard_sn) != parent->undelivered_sdus_queue.end()) {
parent->undelivered_sdus_queue.erase(discard_sn);
parent->log->debug("Removed undelivered PDU with TX_COUNT=%d\n", discard_sn);
} else {
parent->log->debug("Could not find PDU to discard. TX_COUNT=%d\n", 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);
// Remove timer from map
// NOTE: this will delete the callback. It *must* be the last instruction.
parent->discard_timers_map.erase(discard_sn);
}
/****************************************************************************
* Handle delivery notifications from RLC
***************************************************************************/ ***************************************************************************/
void pdcp_entity_lte::notify_delivery(const std::vector<uint32_t>& pdcp_sns) void pdcp_entity_lte::notify_delivery(const std::vector<uint32_t>& pdcp_sns)
{ {
logger.debug("Received delivery notification from RLC. Number of PDU notified=%ld", pdcp_sns.size()); log->debug("Received delivery notification from RLC. Number of PDU notified=%ld", pdcp_sns.size());
for (uint32_t sn : pdcp_sns) {
// Find undelivered PDU info
std::map<uint32_t, unique_byte_buffer_t>::iterator it = undelivered_sdus_queue.find(sn);
if (it == undelivered_sdus_queue.end()) {
log->warning("Could not find PDU for delivery notification. Notified SN=%d\n", sn);
return;
}
// If ACK'ed bytes are equal to (or exceed) PDU size, remove PDU and disarm timer.
undelivered_sdus_queue.erase(sn);
discard_timers_map.erase(sn);
}
} }
/**************************************************************************** /****************************************************************************
@ -386,7 +470,15 @@ void pdcp_entity_lte::set_bearer_state(const pdcp_lte_state_t& state)
std::map<uint32_t, srslte::unique_byte_buffer_t> pdcp_entity_lte::get_buffered_pdus() std::map<uint32_t, srslte::unique_byte_buffer_t> pdcp_entity_lte::get_buffered_pdus()
{ {
return {}; std::map<uint32_t, srslte::unique_byte_buffer_t> cpy{};
// Deep copy undelivered SDUs
// TODO: investigate wheter the deep copy can be avoided by moving the undelivered SDU queue.
// That can only be done just before the PDCP is disabled though.
for (auto it = undelivered_sdus_queue.begin(); it != undelivered_sdus_queue.end(); it++) {
cpy[it->first] = allocate_unique_buffer(*pool);
(*cpy[it->first]) = *(it->second);
}
return cpy;
} }
} // namespace srslte } // namespace srslte

@ -76,6 +76,10 @@ add_executable(pdcp_lte_test_rx pdcp_lte_test_rx.cc)
target_link_libraries(pdcp_lte_test_rx srslte_upper srslte_common) target_link_libraries(pdcp_lte_test_rx srslte_upper srslte_common)
add_test(pdcp_lte_test_rx pdcp_lte_test_rx) add_test(pdcp_lte_test_rx pdcp_lte_test_rx)
add_executable(pdcp_lte_test_discard_sdu pdcp_lte_test_discard_sdu.cc)
target_link_libraries(pdcp_lte_test_discard_sdu srslte_upper srslte_common)
add_test(pdcp_lte_test_discard_sdu pdcp_lte_test_discard_sdu)
######################################################################## ########################################################################
# Option to run command after build (useful for remote builds) # Option to run command after build (useful for remote builds)
######################################################################## ########################################################################

@ -0,0 +1,151 @@
/**
*
* \section COPYRIGHT
*
* Copyright 2013-2021 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
#include "pdcp_lte_test.h"
#include <numeric>
/*
* Test of imediate notification from RLC
*/
int test_tx_sdu_notify(const srslte::pdcp_lte_state_t& init_state,
srslte::pdcp_discard_timer_t discard_timeout,
srslte::byte_buffer_pool* pool,
srslte::log_ref log)
{
srslte::pdcp_config_t cfg = {1,
srslte::PDCP_RB_IS_DRB,
srslte::SECURITY_DIRECTION_UPLINK,
srslte::SECURITY_DIRECTION_DOWNLINK,
srslte::PDCP_SN_LEN_12,
srslte::pdcp_t_reordering_t::ms500,
discard_timeout};
pdcp_lte_test_helper pdcp_hlp(cfg, sec_cfg, log);
srslte::pdcp_entity_lte* pdcp = &pdcp_hlp.pdcp;
rlc_dummy* rlc = &pdcp_hlp.rlc;
srsue::stack_test_dummy* stack = &pdcp_hlp.stack;
pdcp_hlp.set_pdcp_initial_state(init_state);
// Write test SDU
srslte::unique_byte_buffer_t sdu = allocate_unique_buffer(*pool);
sdu->append_bytes(sdu1, sizeof(sdu1));
pdcp->write_sdu(std::move(sdu));
srslte::unique_byte_buffer_t out_pdu = srslte::allocate_unique_buffer(*pool);
rlc->get_last_sdu(out_pdu);
TESTASSERT(out_pdu->N_bytes == 4);
TESTASSERT(pdcp->nof_discard_timers() == 1); // One timer should be running
std::vector<uint32_t> sns_notified = {0};
pdcp->notify_delivery(sns_notified);
TESTASSERT(pdcp->nof_discard_timers() == 0); // Timer should have been difused after
// RLC should not be notified of SDU discard
TESTASSERT(rlc->discard_count == 0);
// Make sure there are no timers still left on the map
TESTASSERT(pdcp->nof_discard_timers() == 0);
return 0;
}
/*
* Test discard timer expiry
*/
int test_tx_sdu_discard(const srslte::pdcp_lte_state_t& init_state,
srslte::pdcp_discard_timer_t discard_timeout,
srslte::byte_buffer_pool* pool,
srslte::log_ref log)
{
srslte::pdcp_config_t cfg = {1,
srslte::PDCP_RB_IS_DRB,
srslte::SECURITY_DIRECTION_UPLINK,
srslte::SECURITY_DIRECTION_DOWNLINK,
srslte::PDCP_SN_LEN_12,
srslte::pdcp_t_reordering_t::ms500,
discard_timeout};
pdcp_lte_test_helper pdcp_hlp(cfg, sec_cfg, log);
srslte::pdcp_entity_lte* pdcp = &pdcp_hlp.pdcp;
rlc_dummy* rlc = &pdcp_hlp.rlc;
srsue::stack_test_dummy* stack = &pdcp_hlp.stack;
pdcp_hlp.set_pdcp_initial_state(init_state);
// Write test SDU
srslte::unique_byte_buffer_t sdu = allocate_unique_buffer(*pool);
sdu->append_bytes(sdu1, sizeof(sdu1));
pdcp->write_sdu(std::move(sdu));
srslte::unique_byte_buffer_t out_pdu = srslte::allocate_unique_buffer(*pool);
rlc->get_last_sdu(out_pdu);
TESTASSERT(out_pdu->N_bytes == 4);
// Run TTIs for Discard timers
for (uint32_t i = 0; i < static_cast<uint32_t>(cfg.discard_timer) - 1; ++i) {
stack->run_tti();
}
TESTASSERT(pdcp->nof_discard_timers() == 1); // One timer should be running
TESTASSERT(rlc->discard_count == 0); // No discard yet
// Last timer step
stack->run_tti();
TESTASSERT(pdcp->nof_discard_timers() == 0); // Timer should have been difused after expiry
TESTASSERT(rlc->discard_count == 1); // RLC should be notified of discard
std::vector<uint32_t> sns_notified = {0};
pdcp->notify_delivery(sns_notified); // PDCP should not find PDU to notify.
return 0;
}
/*
* TX Test: PDCP Entity with SN LEN = 12 and 18.
* PDCP entity configured with EIA2 and EEA2
*/
int test_tx_discard_all(srslte::byte_buffer_pool* pool, srslte::log_ref log)
{
/*
* TX Test 1: PDCP Entity with SN LEN = 12
* Test TX PDU discard.
*/
TESTASSERT(test_tx_sdu_notify(normal_init_state, srslte::pdcp_discard_timer_t::ms50, pool, log) == 0);
/*
* TX Test 2: PDCP Entity with SN LEN = 12
* Test TX PDU discard.
*/
TESTASSERT(test_tx_sdu_discard(normal_init_state, srslte::pdcp_discard_timer_t::ms50, pool, log) == 0);
return 0;
}
// Setup all tests
int run_all_tests(srslte::byte_buffer_pool* pool)
{
// Setup log
srslte::log_ref log("PDCP LTE Test");
log->set_level(srslte::LOG_LEVEL_DEBUG);
log->set_hex_limit(128);
TESTASSERT(test_tx_discard_all(pool, log) == 0);
return 0;
}
int main()
{
if (run_all_tests(srslte::byte_buffer_pool::get_instance()) != SRSLTE_SUCCESS) {
fprintf(stderr, "pdcp_lte_tests() failed\n");
return SRSLTE_ERROR;
}
srslte::byte_buffer_pool::cleanup();
return SRSLTE_SUCCESS;
}

@ -6,7 +6,7 @@ qci_config = (
{ {
qci=7; qci=7;
pdcp_config = { pdcp_config = {
discard_timer = 100; discard_timer = -1;
pdcp_sn_size = 12; pdcp_sn_size = 12;
} }
rlc_config = { rlc_config = {
@ -28,7 +28,7 @@ qci_config = (
{ {
qci=9; qci=9;
pdcp_config = { pdcp_config = {
discard_timer = -1; discard_timer = 200;
status_report_required = true; status_report_required = true;
} }
rlc_config = { rlc_config = {

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