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@ -39,15 +39,14 @@ namespace srsue {
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cf_t zeros[50000];
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phch_common::phch_common(uint32_t max_mutex_) : tx_mutex(max_mutex_)
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phch_common::phch_common(uint32_t max_workers) : tx_sem(max_workers)
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{
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config = NULL;
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args = NULL;
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log_h = NULL;
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radio_h = NULL;
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mac = NULL;
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max_mutex = max_mutex_;
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nof_mutex = 0;
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mac = NULL;
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this->max_workers = max_workers;
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rx_gain_offset = 0;
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last_ri = 0;
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last_pmi = 0;
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@ -65,17 +64,28 @@ phch_common::phch_common(uint32_t max_mutex_) : tx_mutex(max_mutex_)
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bzero(zeros, 50000*sizeof(cf_t));
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// FIXME: This is an ugly fix to avoid the TX filters to empty
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/*
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for (int i=0;i<50000;i++) {
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zeros[i] = 0.01*cexpf(((float) i/50000)*0.1*_Complex_I);
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}*/
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for (uint32_t i=0;i<max_workers;i++) {
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sem_init(&tx_sem[i], 0, 0); // All semaphores start blocked
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}
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reset();
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sib13_configured = false;
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mcch_configured = false;
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}
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phch_common::~phch_common() {
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for (uint32_t i=0;i<max_workers;i++) {
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sem_post(&tx_sem[i]);
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}
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for (uint32_t i=0;i<max_workers;i++) {
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sem_destroy(&tx_sem[i]);
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}
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}
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void phch_common::set_nof_workers(uint32_t nof_workers) {
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this->nof_workers = nof_workers;
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}
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void phch_common::init(phy_interface_rrc::phy_cfg_t *_config, phy_args_t *_args, srslte::log *_log, srslte::radio *_radio, rrc_interface_phy *_rrc, mac_interface_phy *_mac)
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{
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@ -87,15 +97,6 @@ void phch_common::init(phy_interface_rrc::phy_cfg_t *_config, phy_args_t *_args,
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args = _args;
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is_first_tx = true;
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sr_last_tx_tti = -1;
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for (uint32_t i=0;i<nof_mutex;i++) {
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pthread_mutex_init(&tx_mutex[i], NULL);
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}
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}
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void phch_common::set_nof_mutex(uint32_t nof_mutex_) {
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nof_mutex = nof_mutex_;
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assert(nof_mutex <= max_mutex);
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}
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bool phch_common::ul_rnti_active(uint32_t tti) {
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@ -231,23 +232,30 @@ bool phch_common::is_any_pending_ack() {
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return false;
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}
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/* The transmisison of UL subframes must be in sequence. Each worker uses this function to indicate
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* that all processing is done and data is ready for transmission or there is no transmission at all (tx_enable).
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* In that case, the end of burst message will be send to the radio
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/* The transmission of UL subframes must be in sequence. The correct sequence is guaranteed by a chain of N semaphores,
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* one per TTI%max_workers. Each threads waits for the semaphore for the current thread and after transmission allows
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* next TTI to be transmitted
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*
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* Each worker uses this function to indicate that all processing is done and data is ready for transmission or
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* there is no transmission at all (tx_enable). In that case, the end of burst message will be sent to the radio
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*/
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void phch_common::worker_end(uint32_t tti, bool tx_enable,
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cf_t *buffer, uint32_t nof_samples,
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srslte_timestamp_t tx_time)
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srslte_timestamp_t tx_time)
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{
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// Wait previous TTIs to be transmitted
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// This variable is not protected but it is very unlikely that 2 threads arrive here simultaneously since at the beginning
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// there is no workload and threads are separated by 1 ms
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if (is_first_tx) {
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is_first_tx = false;
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} else {
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pthread_mutex_lock(&tx_mutex[tti%nof_mutex]);
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is_first_tx = false;
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// Allow my own transmission if I'm the first to transmit
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sem_post(&tx_sem[tti%nof_workers]);
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}
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radio_h->set_tti(tti);
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// Wait for the green light to transmit in the current TTI
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sem_wait(&tx_sem[tti%nof_workers]);
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radio_h->set_tti(tti);
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if (tx_enable) {
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radio_h->tx_single(buffer, nof_samples, tx_time);
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is_first_of_burst = false;
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@ -263,8 +271,9 @@ void phch_common::worker_end(uint32_t tti, bool tx_enable,
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}
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}
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}
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// Trigger next transmission
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pthread_mutex_unlock(&tx_mutex[(tti+1)%nof_mutex]);
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// Allow next TTI to transmit
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sem_post(&tx_sem[(tti+1)%nof_workers]);
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}
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