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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2015 Software Radio Systems Limited
*
* \section LICENSE
*
* This file is part of the srsUE library.
*
* srsUE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsUE is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#ifndef ULHARQ_H
#define ULHARQ_H
#define Error(fmt, ...) log_h->error(fmt, ##__VA_ARGS__)
#define Warning(fmt, ...) log_h->warning(fmt, ##__VA_ARGS__)
#define Info(fmt, ...) log_h->info(fmt, ##__VA_ARGS__)
#define Debug(fmt, ...) log_h->debug(fmt, ##__VA_ARGS__)
#include "srslte/interfaces/ue_interfaces.h"
#include "srslte/common/log.h"
#include "mac/mux.h"
#include "mac/ul_sps.h"
#include "srslte/common/mac_pcap.h"
#include "srslte/common/timers.h"
#include "srslte/common/interfaces_common.h"
/* Uplink HARQ entity as defined in 5.4.2 of 36.321 */
namespace srsue {
template <std::size_t N, typename Tgrant, typename Taction, typename Tphygrant>
class ul_harq_entity {
public:
static uint32_t pidof(uint32_t tti) {
return (uint32_t) tti % N;
}
ul_harq_entity() : proc(N) {
contention_timer = NULL;
pcap = NULL;
mux_unit = NULL;
log_h = NULL;
params = NULL;
rntis = NULL;
average_retx = 0;
nof_pkts = 0;
}
bool init(srslte::log *log_h_,
mac_interface_rrc_common::ue_rnti_t *rntis_,
mac_interface_rrc_common::ul_harq_params_t *params_,
srslte::timers::timer *contention_timer_,
mux *mux_unit_) {
log_h = log_h_;
mux_unit = mux_unit_;
params = params_;
rntis = rntis_;
contention_timer = contention_timer_;
for (uint32_t i = 0; i < N; i++) {
if (!proc[i].init(i, this)) {
return false;
}
}
return true;
}
void reset() {
for (uint32_t i = 0; i < N; i++) {
proc[i].reset();
}
ul_sps_assig.clear();
}
void reset_ndi() {
for (uint32_t i = 0; i < N; i++) {
proc[i].reset_ndi();
}
}
void start_pcap(srslte::mac_pcap *pcap_) {
pcap = pcap_;
}
/***************** PHY->MAC interface for UL processes **************************/
void new_grant_ul(Tgrant grant, Taction *action) {
new_grant_ul_ack(grant, NULL, action);
}
void new_grant_ul_ack(Tgrant grant, bool *ack, Taction *action)
{
if (grant.rnti_type == SRSLTE_RNTI_USER ||
grant.rnti_type == SRSLTE_RNTI_TEMP ||
grant.rnti_type == SRSLTE_RNTI_RAR)
{
if (grant.rnti_type == SRSLTE_RNTI_USER && proc[pidof(grant.tti)].is_sps()) {
grant.ndi[0] = true;
}
run_tti(grant.tti, &grant, ack, action);
} else if (grant.rnti_type == SRSLTE_RNTI_SPS) {
if (grant.ndi[0]) {
grant.ndi[0] = proc[pidof(grant.tti)].get_ndi();
run_tti(grant.tti, &grant, ack, action);
} else {
Info("Not implemented\n");
}
}
}
void harq_recv(uint32_t tti, bool ack, Taction *action)
{
run_tti(tti, NULL, &ack, action);
}
int get_current_tbs(uint32_t tti)
{
int tti_harq = (int) tti-4;
if (tti_harq < 0) {
tti_harq += 10240;
}
uint32_t pid_harq = pidof(tti_harq);
return proc[pid_harq].get_current_tbs();
}
float get_average_retx()
{
return average_retx;
}
private:
class ul_harq_process {
public:
ul_harq_process() {
pid = 0;
harq_feedback = false;
log_h = NULL;
bzero(&softbuffer, sizeof(srslte_softbuffer_tx_t));
is_msg3 = false;
pdu_ptr = NULL;
current_tx_nb = 0;
current_irv = 0;
is_initiated = false;
is_grant_configured = false;
tti_last_tx = 0;
payload_buffer = NULL;
bzero(&cur_grant, sizeof(Tgrant));
}
~ul_harq_process()
{
if (is_initiated) {
if (payload_buffer) {
free(payload_buffer);
}
srslte_softbuffer_tx_free(&softbuffer);
}
}
bool init(uint32_t pid_, ul_harq_entity *parent)
{
if (srslte_softbuffer_tx_init(&softbuffer, 110)) {
fprintf(stderr, "Error initiating soft buffer\n");
return false;
} else {
is_initiated = true;
harq_entity = parent;
log_h = harq_entity->log_h;
pid = pid_;
payload_buffer = (uint8_t*) srslte_vec_malloc(payload_buffer_len*sizeof(uint8_t));
if (!payload_buffer) {
Error("Allocating memory\n");
return false;
}
pdu_ptr = payload_buffer;
return true;
}
}
void reset()
{
current_tx_nb = 0;
current_irv = 0;
tti_last_tx = 0;
is_grant_configured = false;
bzero(&cur_grant, sizeof(Tgrant));
}
void reset_ndi() { cur_grant.ndi[0] = false; }
void run_tti(uint32_t tti_tx, Tgrant *grant, bool *ack, Taction* action)
{
if (ack) {
if (grant) {
if (grant->ndi[0] == get_ndi()) {
*ack = false;
}
}
harq_feedback = *ack;
}
// Reset HARQ process if TB has changed
if (harq_feedback && has_grant() && grant) {
if (grant->n_bytes[0] != cur_grant.n_bytes[0] && cur_grant.n_bytes[0] > 0) {
Debug("UL %d: Reset due to change of grant size last_grant=%d, new_grant=%d\n",
pid, cur_grant.n_bytes[0], grant->n_bytes[0]);
reset();
}
}
// Receive and route HARQ feedbacks
if (grant) {
if (grant->has_cqi_request && grant->phy_grant.ul.mcs.tbs == 0) {
/* Only CQI reporting (without SCH) */
memcpy(&action->phy_grant.ul, &grant->phy_grant.ul, sizeof(srslte_ra_ul_grant_t));
memcpy(&cur_grant, grant, sizeof(Tgrant));
action->tx_enabled = true;
action->rnti = grant->rnti;
} else if ((!(grant->rnti_type == SRSLTE_RNTI_TEMP) && grant->ndi[0] != get_ndi() && harq_feedback) ||
(grant->rnti_type == SRSLTE_RNTI_USER && !has_grant()) ||
grant->is_from_rar)
{
// New transmission
reset();
// Uplink grant in a RAR
if (grant->is_from_rar) {
Debug("Getting Msg3 buffer payload, grant size=%d bytes\n", grant->n_bytes[0]);
pdu_ptr = harq_entity->mux_unit->msg3_get(payload_buffer, grant->n_bytes[0]);
if (pdu_ptr) {
generate_new_tx(tti_tx, true, grant, action);
} else {
Warning("UL RAR grant available but no Msg3 on buffer\n");
}
// Normal UL grant
} else {
// Request a MAC PDU from the Multiplexing & Assemble Unit
pdu_ptr = harq_entity->mux_unit->pdu_get(payload_buffer, grant->n_bytes[0], tti_tx, pid);
if (pdu_ptr) {
generate_new_tx(tti_tx, false, grant, action);
} else {
Warning("Uplink grant but no MAC PDU in Multiplex Unit buffer\n");
}
}
} else if (has_grant()) {
// Adaptive Re-TX
generate_retx(tti_tx, grant, action);
} else {
Warning("UL %d: Received retransmission but no previous grant available for this PID.\n", pid);
}
} else if (has_grant()) {
// Non-Adaptive Re-Tx
generate_retx(tti_tx, action);
}
if (harq_entity->pcap && grant) {
if (grant->is_from_rar) {
grant->rnti = harq_entity->rntis->temp_rnti;
}
harq_entity->pcap->write_ul_crnti(pdu_ptr, grant->n_bytes[0], grant->rnti, get_nof_retx(), tti_tx);
}
}
uint32_t get_rv()
{
int rv_of_irv[4] = {0, 2, 3, 1};
return rv_of_irv[current_irv%4];
}
bool has_grant() { return is_grant_configured; }
bool get_ndi() { return cur_grant.ndi[0]; }
bool is_sps() { return false; }
uint32_t get_nof_retx() { return current_tx_nb; }
int get_current_tbs() { return cur_grant.n_bytes[0]*8; }
private:
Tgrant cur_grant;
uint32_t pid;
uint32_t current_tx_nb;
uint32_t current_irv;
bool harq_feedback;
srslte::log *log_h;
ul_harq_entity *harq_entity;
bool is_grant_configured;
srslte_softbuffer_tx_t softbuffer;
bool is_msg3;
bool is_initiated;
uint32_t tti_last_tx;
const static int payload_buffer_len = 128*1024;
uint8_t *payload_buffer;
uint8_t *pdu_ptr;
void generate_retx(uint32_t tti_tx, Taction *action)
{
generate_retx(tti_tx, NULL, action);
}
// Retransmission with or w/o grant (Section 5.4.2.2)
void generate_retx(uint32_t tti_tx, Tgrant *grant,
Taction *action)
{
uint32_t max_retx;
if (is_msg3) {
max_retx = harq_entity->params->max_harq_msg3_tx;
} else {
max_retx = harq_entity->params->max_harq_tx;
}
if (current_tx_nb >= max_retx) {
Info("UL %d: Maximum number of ReTX reached (%d). Discarting TB.\n", pid, max_retx);
reset();
action->expect_ack = false;
return;
}
int irv_of_rv[4] = {0, 3, 1, 2};
// HARQ entity requests an adaptive transmission
if (grant) {
if (grant->rv[0]) {
current_irv = irv_of_rv[grant->rv[0]%4];
}
Info("UL %d: Adaptive retx=%d, RV=%d, TBS=%d, HI=%s, ndi=%d, prev_ndi=%d\n",
pid, current_tx_nb, get_rv(), grant->n_bytes[0], harq_feedback?"ACK":"NACK", grant->ndi[0], cur_grant.ndi[0]);
memcpy(&cur_grant, grant, sizeof(Tgrant));
harq_feedback = false;
generate_tx(tti_tx, action);
// HARQ entity requests a non-adaptive transmission
} else if (!harq_feedback) {
// Non-adaptive retx are only sent if HI=NACK. If HI=ACK but no grant was received do not reset PID
Info("UL %d: Non-Adaptive retx=%d, RV=%d, TBS=%d, HI=%s\n",
pid, current_tx_nb, get_rv(), cur_grant.n_bytes[0], harq_feedback?"ACK":"NACK");
generate_tx(tti_tx, action);
}
// On every Msg3 retransmission, restart mac-ContentionResolutionTimer as defined in Section 5.1.5
if (is_msg3) {
harq_entity->contention_timer->reset();
}
harq_entity->mux_unit->pusch_retx(tti_tx, pid);
}
// New transmission (Section 5.4.2.2)
void generate_new_tx(uint32_t tti_tx, bool is_msg3_, Tgrant *grant, Taction *action)
{
if (grant) {
// Compute average number of retransmissions per packet considering previous packet
harq_entity->average_retx = SRSLTE_VEC_CMA((float) current_tx_nb, harq_entity->average_retx, harq_entity->nof_pkts++);
memcpy(&cur_grant, grant, sizeof(Tgrant));
harq_feedback = false;
is_grant_configured = true;
current_tx_nb = 0;
current_irv = 0;
is_msg3 = is_msg3_;
Info("UL %d: New TX%s, RV=%d, TBS=%d, RNTI=%d\n",
pid, is_msg3?" for Msg3":"", get_rv(), cur_grant.n_bytes[0],
is_msg3?harq_entity->rntis->temp_rnti:cur_grant.rnti);
generate_tx(tti_tx, action);
}
}
// Transmission of pending frame (Section 5.4.2.2)
void generate_tx(uint32_t tti_tx, Taction *action)
{
action->current_tx_nb = current_tx_nb;
current_tx_nb++;
action->expect_ack = true;
action->rnti = is_msg3?harq_entity->rntis->temp_rnti:cur_grant.rnti;
action->rv[0] = cur_grant.rv[0]>0?cur_grant.rv[0]:get_rv();
action->softbuffers = &softbuffer;
action->tx_enabled = true;
action->payload_ptr[0] = pdu_ptr;
memcpy(&action->phy_grant, &cur_grant.phy_grant, sizeof(Tphygrant));
current_irv = (current_irv+1)%4;
tti_last_tx = tti_tx;
}
};
// Implements Section 5.4.2.1
// Called with UL grant
void run_tti(uint32_t tti, Tgrant *grant, bool *ack, Taction* action)
{
uint32_t tti_tx = (tti+action->tti_offset)%10240;
proc[pidof(tti_tx)].run_tti(tti_tx, grant, ack, action);
}
ul_sps ul_sps_assig;
srslte::timers::timer *contention_timer;
mux *mux_unit;
std::vector<ul_harq_process> proc;
srslte::log *log_h;
srslte::mac_pcap *pcap;
mac_interface_rrc_common::ue_rnti_t *rntis;
mac_interface_rrc_common::ul_harq_params_t *params;
float average_retx;
uint64_t nof_pkts;
};
} // namespace srsue
#endif // ULHARQ_H