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C

/**
*
* \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 SRSUE_DL_HARQ_H
#define SRSUE_DL_HARQ_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/common/log.h"
#include "srslte/common/timers.h"
#include "demux.h"
#include "dl_sps.h"
#include "srslte/common/mac_pcap.h"
#include "srslte/interfaces/ue_interfaces.h"
/* Downlink HARQ entity as defined in 5.3.2 of 36.321 */
namespace srsue {
template <std::size_t N, typename Tgrant, typename Taction, typename Tphygrant>
class dl_harq_entity
{
public:
const static uint32_t HARQ_BCCH_PID = N;
dl_harq_entity() : proc(N+1)
{
pcap = NULL;
}
bool init(srslte::log *log_h_, srslte::timers::timer *timer_aligment_timer_, demux *demux_unit_)
{
timer_aligment_timer = timer_aligment_timer_;
demux_unit = demux_unit_;
si_window_start = 0;
log_h = log_h_;
for (uint32_t i=0;i<N+1;i++) {
if (!proc[i].init(i, this)) {
return false;
}
}
return true;
}
/***************** PHY->MAC interface for DL processes **************************/
void new_grant_dl(Tgrant grant, Taction *action)
{
if (grant.rnti_type != SRSLTE_RNTI_SPS) {
uint32_t harq_pid;
// Set BCCH PID for SI RNTI
if (grant.rnti_type == SRSLTE_RNTI_SI) {
harq_pid = HARQ_BCCH_PID;
} else {
harq_pid = grant.pid%N;
}
if (grant.rnti_type == SRSLTE_RNTI_TEMP && last_temporal_crnti != grant.rnti) {
grant.ndi[0] = true;
Info("Set NDI=1 for Temp-RNTI DL grant\n");
last_temporal_crnti = grant.rnti;
}
if (grant.rnti_type == SRSLTE_RNTI_USER && proc[harq_pid].is_sps()) {
grant.ndi[0] = true;
Info("Set NDI=1 for C-RNTI DL grant\n");
}
proc[harq_pid].new_grant_dl(grant, action);
} else {
/* This is for SPS scheduling */
uint32_t harq_pid = get_harq_sps_pid(grant.tti)%N;
if (grant.ndi[0]) {
grant.ndi[0] = false;
proc[harq_pid].new_grant_dl(grant, action);
} else {
if (grant.is_sps_release) {
dl_sps_assig.clear();
if (timer_aligment_timer->is_running()) {
//phy_h->send_sps_ack();
Warning("PHY Send SPS ACK not implemented\n");
}
} else {
Error("SPS not implemented\n");
//dl_sps_assig.reset(grant.tti, grant);
//grant.ndi = true;
//procs[harq_pid].save_grant();
}
}
}
}
void tb_decoded(bool ack, uint32_t tb_idx, srslte_rnti_type_t rnti_type, uint32_t harq_pid)
{
if (rnti_type == SRSLTE_RNTI_SI) {
proc[N].tb_decoded(ack, 0);
} else {
proc[harq_pid%N].tb_decoded(ack, tb_idx);
}
}
void reset()
{
for (uint32_t i=0;i<N+1;i++) {
proc[i].reset();
}
dl_sps_assig.clear();
}
void start_pcap(srslte::mac_pcap* pcap_) { pcap = pcap_; }
int get_current_tbs(uint32_t harq_pid, uint32_t tb_idx) { return proc[harq_pid%N].get_current_tbs(tb_idx); }
void set_si_window_start(int si_window_start_) { si_window_start = si_window_start_; }
float get_average_retx() { return average_retx; }
private:
class dl_harq_process {
public:
dl_harq_process() : subproc(SRSLTE_MAX_TB) {
}
bool init(uint32_t pid_, dl_harq_entity *parent) {
bool ret = true;
for (uint32_t tb = 0; tb < SRSLTE_MAX_TB; tb++) {
ret &= subproc[tb].init(pid_, parent, tb);
}
return ret;
}
void reset(void) {
for (uint32_t tb = 0; tb < SRSLTE_MAX_TB; tb++) {
subproc[tb].reset();
}
}
void new_grant_dl(Tgrant grant, Taction *action) {
/* Fill action structure */
bzero(action, sizeof(Taction));
action->generate_ack = true;
action->rnti = grant.rnti;
/* For each subprocess... */
for (uint32_t tb = 0; tb < SRSLTE_MAX_TB; tb++) {
action->default_ack[tb] = false;
action->decode_enabled[tb] = false;
action->phy_grant.dl.tb_en[tb] = grant.tb_en[tb];
if (grant.tb_en[tb]) {
subproc[tb].new_grant_dl(grant, action);
}
}
}
int get_current_tbs(uint32_t tb_idx) { return subproc[tb_idx].get_current_tbs(); }
bool is_sps() { return false; }
void tb_decoded(bool ack_, uint32_t tb_idx) {
subproc[tb_idx].tb_decoded(ack_);
}
private:
const static int RESET_DUPLICATE_TIMEOUT = 8*6;
class dl_tb_process {
public:
dl_tb_process(void) {
is_initiated = false;
ack = false;
bzero(&cur_grant, sizeof(Tgrant));
payload_buffer_ptr = NULL;
pthread_mutex_init(&mutex, NULL);
}
~dl_tb_process() {
if (is_initiated) {
srslte_softbuffer_rx_free(&softbuffer);
}
}
bool init(uint32_t pid_, dl_harq_entity *parent, uint32_t tb_idx) {
tid = tb_idx;
if (srslte_softbuffer_rx_init(&softbuffer, 110)) {
Error("Error initiating soft buffer\n");
return false;
} else {
pid = pid_;
is_first_tb = true;
is_initiated = true;
harq_entity = parent;
log_h = harq_entity->log_h;
return true;
}
}
void reset(bool lock = true) {
if (lock) {
pthread_mutex_lock(&mutex);
}
is_first_tb = true;
ack = false;
n_retx = 0;
if (payload_buffer_ptr) {
if (pid != HARQ_BCCH_PID) {
harq_entity->demux_unit->deallocate(payload_buffer_ptr);
}
payload_buffer_ptr = NULL;
}
bzero(&cur_grant, sizeof(Tgrant));
if (is_initiated) {
srslte_softbuffer_rx_reset(&softbuffer);
}
if (lock) {
pthread_mutex_unlock(&mutex);
}
}
void new_grant_dl(Tgrant grant, Taction *action) {
pthread_mutex_lock(&mutex);
// Compute RV for BCCH when not specified in PDCCH format
if (pid == HARQ_BCCH_PID && grant.rv[tid] == -1) {
uint32_t k;
if ((grant.tti / 10) % 2 == 0 && grant.tti % 10 == 5) { // This is SIB1, k is different
k = (grant.tti / 20) % 4;
grant.rv[tid] = ((uint32_t) ceilf((float) 1.5 * k)) % 4;
} else if (grant.rv[tid] == -1) {
k = (grant.tti - harq_entity->si_window_start) % 4;
grant.rv[tid] = ((uint32_t) ceilf((float) 1.5 * k)) % 4;
}
}
calc_is_new_transmission(grant);
// If this is a new transmission or the size of the TB has changed
if (is_new_transmission || (cur_grant.n_bytes[tid] != grant.n_bytes[tid])) {
if (!is_new_transmission) {
Warning("DL PID %d: Size of grant changed during a retransmission %d!=%d\n", pid,
cur_grant.n_bytes[tid], grant.n_bytes[tid]);
}
reset(false);
}
// If data has not yet been successfully decoded
if (!ack) {
// Save grant
grant.last_ndi[tid] = cur_grant.ndi[tid];
grant.last_tti = cur_grant.tti;
memcpy(&cur_grant, &grant, sizeof(Tgrant));
if (payload_buffer_ptr) {
Warning("DL PID %d: Allocating buffer already allocated. Deallocating.\n", pid);
if (pid != HARQ_BCCH_PID) {
harq_entity->demux_unit->deallocate(payload_buffer_ptr);
}
}
// Instruct the PHY To combine the received data and attempt to decode it
if (pid == HARQ_BCCH_PID) {
payload_buffer_ptr = harq_entity->demux_unit->request_buffer_bcch(cur_grant.n_bytes[tid]);
} else {
payload_buffer_ptr = harq_entity->demux_unit->request_buffer(cur_grant.n_bytes[tid]);
}
action->payload_ptr[tid] = payload_buffer_ptr;
if (!action->payload_ptr[tid]) {
action->decode_enabled[tid] = false;
Error("Can't get a buffer for TBS=%d\n", cur_grant.n_bytes[tid]);
pthread_mutex_unlock(&mutex);
return;
}
action->decode_enabled[tid] = true;
action->rv[tid] = cur_grant.rv[tid];
action->softbuffers[tid] = &softbuffer;
memcpy(&action->phy_grant, &cur_grant.phy_grant, sizeof(Tphygrant));
n_retx++;
} else {
action->default_ack[tid] = true;
uint32_t interval = srslte_tti_interval(grant.tti, cur_grant.tti);
Warning("DL PID %d: Received duplicate TB. Discarting and retransmitting ACK (grant_tti=%d, ndi=%d, sz=%d, reset=%s)\n",
pid, cur_grant.tti, cur_grant.ndi[tid], cur_grant.n_bytes[tid], interval>RESET_DUPLICATE_TIMEOUT?"yes":"no");
if (interval > RESET_DUPLICATE_TIMEOUT) {
reset(false);
}
}
if (pid == HARQ_BCCH_PID || harq_entity->timer_aligment_timer->is_expired()) {
// Do not generate ACK
Debug("Not generating ACK\n");
action->generate_ack = false;
} else {
if (cur_grant.rnti_type == SRSLTE_RNTI_TEMP && !ack) {
// Postpone ACK after contention resolution is resolved
action->generate_ack_callback = harq_entity->generate_ack_callback;
action->generate_ack_callback_arg = harq_entity->demux_unit;
Debug("ACK pending contention resolution\n");
} else {
Debug("Generating ACK\n");
}
}
if (!action->decode_enabled[tid]) {
pthread_mutex_unlock(&mutex);
}
}
void tb_decoded(bool ack_) {
ack = ack_;
if (ack) {
if (pid == HARQ_BCCH_PID) {
if (harq_entity->pcap) {
harq_entity->pcap->write_dl_sirnti(payload_buffer_ptr, cur_grant.n_bytes[tid], ack, cur_grant.tti);
}
Debug("Delivering PDU=%d bytes to Dissassemble and Demux unit (BCCH)\n", cur_grant.n_bytes[tid]);
harq_entity->demux_unit->push_pdu_bcch(payload_buffer_ptr, cur_grant.n_bytes[tid], cur_grant.tti);
} else {
if (harq_entity->pcap) {
harq_entity->pcap->write_dl_crnti(payload_buffer_ptr, cur_grant.n_bytes[tid], cur_grant.rnti, ack,
cur_grant.tti);
}
if (cur_grant.rnti_type == SRSLTE_RNTI_TEMP) {
Debug("Delivering PDU=%d bytes to Dissassemble and Demux unit (Temporal C-RNTI)\n",
cur_grant.n_bytes[tid]);
harq_entity->demux_unit->push_pdu_temp_crnti(payload_buffer_ptr, cur_grant.n_bytes[tid]);
} else {
Debug("Delivering PDU=%d bytes to Dissassemble and Demux unit\n", cur_grant.n_bytes[tid]);
harq_entity->demux_unit->push_pdu(payload_buffer_ptr, cur_grant.n_bytes[tid], cur_grant.tti);
// Compute average number of retransmissions per packet
harq_entity->average_retx = SRSLTE_VEC_CMA((float) n_retx, harq_entity->average_retx,
harq_entity->nof_pkts++);
}
}
} else if (pid != HARQ_BCCH_PID) {
harq_entity->demux_unit->deallocate(payload_buffer_ptr);
}
payload_buffer_ptr = NULL;
Info("DL %d (TB %d): %s tbs=%d, rv=%d, ack=%s, ndi=%d (%d), tti=%d (%d)\n",
pid, tid, is_new_transmission ? "newTX" : "reTX ",
cur_grant.n_bytes[tid], cur_grant.rv[tid], ack ? "OK" : "KO",
cur_grant.ndi[tid], cur_grant.last_ndi[tid], cur_grant.tti, cur_grant.last_tti);
pthread_mutex_unlock(&mutex);
if (ack && pid == HARQ_BCCH_PID) {
reset();
}
}
int get_current_tbs(void) { return cur_grant.n_bytes[tid] * 8; }
private:
// Determine if it's a new transmission 5.3.2.2
bool calc_is_new_transmission(Tgrant grant) {
if (grant.phy_grant.dl.mcs[tid].idx <= 28 && // mcs 29,30,31 always retx regardless of rest
((grant.ndi[tid] != cur_grant.ndi[tid]) || // 1st condition (NDI has changed)
(pid == HARQ_BCCH_PID && grant.rv[tid] == 0) || // 2nd condition (Broadcast and 1st transmission)
is_first_tb))
{
is_first_tb = false;
is_new_transmission = true;
Debug("Set HARQ for new transmission\n");
} else {
is_new_transmission = false;
Debug("Set HARQ for retransmission\n");
}
return is_new_transmission;
}
pthread_mutex_t mutex;
bool is_initiated;
dl_harq_entity *harq_entity;
srslte::log *log_h;
bool is_first_tb;
bool is_new_transmission;
uint32_t pid; /* HARQ Proccess ID */
uint32_t tid; /* Transport block ID */
uint8_t *payload_buffer_ptr;
bool ack;
uint32_t n_retx;
Tgrant cur_grant;
srslte_softbuffer_rx_t softbuffer;
};
/* Transport blocks */
std::vector<dl_tb_process> subproc;
};
// Private members of dl_harq_entity
static bool generate_ack_callback(void *arg)
{
demux *demux_unit = (demux*) arg;
return demux_unit->get_uecrid_successful();
}
uint32_t get_harq_sps_pid(uint32_t tti) { return 0; }
dl_sps dl_sps_assig;
std::vector<dl_harq_process> proc;
srslte::timers::timer *timer_aligment_timer;
demux *demux_unit;
srslte::log *log_h;
srslte::mac_pcap *pcap;
uint16_t last_temporal_crnti;
int si_window_start;
float average_retx;
uint64_t nof_pkts;
};
} // namespace srsue
#endif // SRSUE_DL_HARQ_H