SRSENB: PHY uses tti_semaphore class instead of normal semaphores

master
Xavier Arteaga 5 years ago committed by Xavier Arteaga
parent 96ffe1c3ad
commit cac2ee33b6

@ -35,7 +35,7 @@
#include "srslte/phy/channel/channel.h"
#include "srslte/radio/radio.h"
#include <map>
#include <semaphore.h>
#include <srslte/common/tti_sempahore.h>
#include <string.h>
namespace srsenb {
@ -44,7 +44,6 @@ class phy_common
{
public:
explicit phy_common(uint32_t nof_workers);
~phy_common();
void set_nof_workers(uint32_t nof_workers);
@ -53,8 +52,20 @@ public:
void reset();
void stop();
void
worker_end(uint32_t tx_mutex_cnt, cf_t* buffer[SRSLTE_MAX_PORTS], uint32_t nof_samples, srslte_timestamp_t tx_time);
/**
* TTI transmission semaphore, used for ensuring that PHY workers transmit following start order
*/
srslte::tti_semaphore<void*> semaphore;
/**
* Performs common end worker transmission tasks such as transmission and stack TTI execution
*
* @param tx_sem_id Semaphore identifier, the worker thread pointer is used
* @param buffer baseband IQ sample buffer
* @param nof_samples number of samples to transmit
* @param tx_time timestamp to transmit samples
*/
void worker_end(void* tx_sem_id, cf_t* buffer[SRSLTE_MAX_PORTS], uint32_t nof_samples, srslte_timestamp_t tx_time);
// Common objects
phy_args_t params = {};
@ -146,8 +157,6 @@ public:
private:
phy_cell_cfg_list_t cell_list;
std::vector<sem_t> tx_sem;
bool is_first_tx = false;
uint32_t nof_workers = 0;
uint32_t max_workers = 0;

@ -46,21 +46,10 @@ using namespace asn1::rrc;
namespace srsenb {
phy_common::phy_common(uint32_t max_workers_) : tx_sem(max_workers_), cell_list(), ue_db()
phy_common::phy_common(uint32_t max_workers_) : cell_list(), ue_db()
{
params.max_prach_offset_us = 20;
max_workers = max_workers_;
for (uint32_t i = 0; i < max_workers; i++) {
sem_init(&tx_sem[i], 0, 0); // All semaphores start blocked
}
}
phy_common::~phy_common()
{
for (uint32_t i = 0; i < max_workers; i++) {
sem_destroy(&tx_sem[i]);
}
}
void phy_common::set_nof_workers(uint32_t nof_workers_)
@ -107,8 +96,6 @@ bool phy_common::init(const phy_cell_cfg_list_t& cell_list_,
q.resize(cell_list.size());
}
is_first_tx = true;
// Set UE PHY data-base stack
ue_db.init(stack, cell_list);
@ -118,9 +105,7 @@ bool phy_common::init(const phy_cell_cfg_list_t& cell_list_,
void phy_common::stop()
{
for (uint32_t i = 0; i < max_workers; i++) {
sem_post(&tx_sem[i]);
}
semaphore.wait_all();
}
/* The transmission of UL subframes must be in sequence. The correct sequence is guaranteed by a chain of N semaphores,
@ -130,35 +115,27 @@ void phy_common::stop()
* Each worker uses this function to indicate that all processing is done and data is ready for transmission or
* there is no transmission at all (tx_enable). In that case, the end of burst message will be sent to the radio
*/
void phy_common::worker_end(uint32_t tti,
void phy_common::worker_end(void* tx_sem_id,
cf_t* buffer[SRSLTE_MAX_PORTS],
uint32_t nof_samples,
srslte_timestamp_t tx_time)
{
// This variable is not protected but it is very unlikely that 2 threads arrive here simultaneously since at the
// beginning there is no workload and threads are separated by 1 ms
if (is_first_tx) {
is_first_tx = false;
// Allow my own transmission if I'm the first to transmit
sem_post(&tx_sem[tti % nof_workers]);
}
// Wait for the green light to transmit in the current TTI
sem_wait(&tx_sem[tti % nof_workers]);
semaphore.wait(tx_sem_id);
// Run DL channel emulator if created
if (dl_channel) {
dl_channel->run(buffer, buffer, nof_samples, tx_time);
}
// always transmit on single radio
// Always transmit on single radio
radio->tx(0, buffer, nof_samples, tx_time);
// Allow next TTI to transmit
sem_post(&tx_sem[(tti + 1) % nof_workers]);
// Trigger MAC clock
stack->tti_clock();
// Allow next TTI to transmit
semaphore.release();
}
void phy_common::set_mch_period_stop(uint32_t stop)

@ -237,7 +237,7 @@ void sf_worker::work_imp()
}
Debug("Sending to radio\n");
phy->worker_end(tx_worker_cnt, signal_buffer_tx, SRSLTE_SF_LEN_PRB(phy->get_nof_prb(0)), tx_time);
phy->worker_end(this, signal_buffer_tx, SRSLTE_SF_LEN_PRB(phy->get_nof_prb(0)), tx_time);
#ifdef DEBUG_WRITE_FILE
fwrite(signal_buffer_tx, SRSLTE_SF_LEN_PRB(phy->cell.nof_prb) * sizeof(cf_t), 1, f);

@ -157,6 +157,7 @@ void txrx::run_thread()
tx_worker_cnt = (tx_worker_cnt + 1) % nof_workers;
// Trigger phy worker execution
worker_com->semaphore.push(worker);
workers_pool->start_worker(worker);
// Trigger prach worker execution

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