Merge branch 'next' into epc

master
Pedro Alvarez 7 years ago
commit 0b0399d6cf

@ -147,6 +147,11 @@ public:
{
return msg-buffer;
}
// Returns the remaining space from what is reported to be the length of msg
uint32_t get_tailroom()
{
return (sizeof(buffer) - (msg-buffer) - N_bytes);
}
long get_latency_us()
{
#ifdef ENABLE_TIMESTAMP

@ -128,10 +128,10 @@ void rlc_am::reset()
reordering_timeout.reset();
if(tx_sdu) {
pool->deallocate(tx_sdu);
tx_sdu = NULL;
}
if(rx_sdu)
rx_sdu->reset();
if(rx_sdu) {
pool->deallocate(rx_sdu);
}
vt_a = 0;
vt_ms = RLC_AM_WINDOW_SIZE;
@ -827,6 +827,12 @@ int rlc_am::build_data_pdu(uint8_t *payload, uint32_t nof_bytes)
rrc->get_rb_name(lcid).c_str(), to_move, pdu_space, head_len);
}
// Make sure, at least one SDU (segment) has been added until this point
if (pdu->N_bytes == 0) {
log->error("Generated empty RLC PDU.\n");
return 0;
}
if(tx_sdu)
header.fi |= RLC_FI_FIELD_NOT_END_ALIGNED; // Last byte does not correspond to last byte of SDU
@ -848,7 +854,6 @@ int rlc_am::build_data_pdu(uint8_t *payload, uint32_t nof_bytes)
// Set SN
header.sn = vt_s;
vt_s = (vt_s + 1)%MOD;
log->info("%s PDU scheduled for tx. SN: %d (%d B)\n", rrc->get_rb_name(lcid).c_str(), header.sn, pdu->N_bytes);
// Place PDU in tx_window, write header and TX
tx_window[header.sn].buf = pdu;
@ -859,6 +864,7 @@ int rlc_am::build_data_pdu(uint8_t *payload, uint32_t nof_bytes)
uint8_t *ptr = payload;
rlc_am_write_data_pdu_header(&header, &ptr);
memcpy(ptr, pdu->msg, pdu->N_bytes);
log->info_hex(payload, pdu->N_bytes, "%s PDU scheduled for tx. SN: %d (%d B)\n", rrc->get_rb_name(lcid).c_str(), header.sn, pdu->N_bytes);
debug_state();
return (ptr-payload) + pdu->N_bytes;
@ -868,8 +874,8 @@ void rlc_am::handle_data_pdu(uint8_t *payload, uint32_t nof_bytes, rlc_amd_pdu_h
{
std::map<uint32_t, rlc_amd_rx_pdu_t>::iterator it;
log->info_hex(payload, nof_bytes, "%s Rx data PDU SN: %d",
rrc->get_rb_name(lcid).c_str(), header.sn);
log->info_hex(payload, nof_bytes, "%s Rx data PDU SN: %d (%d B), %s",
rrc->get_rb_name(lcid).c_str(), header.sn, nof_bytes, rlc_fi_field_text[header.fi]);
if(!inside_rx_window(header.sn)) {
if(header.p) {
@ -1157,38 +1163,55 @@ void rlc_am::reassemble_rx_sdus()
#endif
}
}
// Iterate through rx_window, assembling and delivering SDUs
while(rx_window.end() != rx_window.find(vr_r))
{
// Handle any SDU segments
for(uint32_t i=0; i<rx_window[vr_r].header.N_li; i++)
{
int len = rx_window[vr_r].header.li[i];
memcpy(&rx_sdu->msg[rx_sdu->N_bytes], rx_window[vr_r].buf->msg, len);
rx_sdu->N_bytes += len;
rx_window[vr_r].buf->msg += len;
rx_window[vr_r].buf->N_bytes -= len;
log->info_hex(rx_sdu->msg, rx_sdu->N_bytes, "%s Rx SDU", rrc->get_rb_name(lcid).c_str());
rx_sdu->set_timestamp();
pdcp->write_pdu(lcid, rx_sdu);
rx_sdu = pool_allocate;
if (!rx_sdu) {
uint32_t len = rx_window[vr_r].header.li[i];
if (rx_sdu->get_tailroom() >= len) {
memcpy(&rx_sdu->msg[rx_sdu->N_bytes], rx_window[vr_r].buf->msg, len);
rx_sdu->N_bytes += len;
rx_window[vr_r].buf->msg += len;
rx_window[vr_r].buf->N_bytes -= len;
log->info_hex(rx_sdu->msg, rx_sdu->N_bytes, "%s Rx SDU (%d B)", rrc->get_rb_name(lcid).c_str(), rx_sdu->N_bytes);
rx_sdu->set_timestamp();
pdcp->write_pdu(lcid, rx_sdu);
rx_sdu = pool_allocate;
if (!rx_sdu) {
#ifdef RLC_AM_BUFFER_DEBUG
log->console("Fatal Error: Could not allocate PDU in reassemble_rx_sdus() (2)\n");
exit(-1);
log->console("Fatal Error: Could not allocate PDU in reassemble_rx_sdus() (2)\n");
exit(-1);
#else
log->error("Fatal Error: Could not allocate PDU in reassemble_rx_sdus() (2)\n");
return;
log->error("Fatal Error: Could not allocate PDU in reassemble_rx_sdus() (2)\n");
return;
#endif
}
} else {
log->error("Cannot fit RLC PDU in SDU buffer, dropping both.\n");
pool->deallocate(rx_sdu);
pool->deallocate(rx_window[vr_r].buf);
rx_window.erase(vr_r);
}
}
// Handle last segment
memcpy(&rx_sdu->msg[rx_sdu->N_bytes], rx_window[vr_r].buf->msg, rx_window[vr_r].buf->N_bytes);
rx_sdu->N_bytes += rx_window[vr_r].buf->N_bytes;
if(rlc_am_end_aligned(rx_window[vr_r].header.fi))
{
log->info_hex(rx_sdu->msg, rx_sdu->N_bytes, "%s Rx SDU", rrc->get_rb_name(lcid).c_str());
uint32_t len = rx_window[vr_r].buf->N_bytes;
if (rx_sdu->get_tailroom() >= len) {
memcpy(&rx_sdu->msg[rx_sdu->N_bytes], rx_window[vr_r].buf->msg, len);
rx_sdu->N_bytes += rx_window[vr_r].buf->N_bytes;
} else {
log->error("Cannot fit RLC PDU in SDU buffer, dropping both.\n");
pool->deallocate(rx_sdu);
pool->deallocate(rx_window[vr_r].buf);
rx_window.erase(vr_r);
}
if(rlc_am_end_aligned(rx_window[vr_r].header.fi)) {
log->info_hex(rx_sdu->msg, rx_sdu->N_bytes, "%s Rx SDU (%d B)", rrc->get_rb_name(lcid).c_str(), rx_sdu->N_bytes);
rx_sdu->set_timestamp();
pdcp->write_pdu(lcid, rx_sdu);
rx_sdu = pool_allocate;
@ -1250,7 +1273,7 @@ void rlc_am::print_rx_segments()
for(it=rx_segments.begin();it!=rx_segments.end();it++) {
std::list<rlc_amd_rx_pdu_t>::iterator segit;
for(segit = it->second.segments.begin(); segit != it->second.segments.end(); segit++) {
ss << " SN:" << segit->header.sn << " SO:" << segit->header.so << " N:" << segit->buf->N_bytes << std::endl;
ss << " SN:" << segit->header.sn << " SO:" << segit->header.so << " N:" << segit->buf->N_bytes << " N_li: " << segit->header.N_li << std::endl;
}
}
log->debug("%s\n", ss.str().c_str());

@ -188,7 +188,7 @@ private:
srslte::logger *logger;
srslte::log_filter rf_log;
std::vector<void*> phy_log;
std::vector<srslte::log_filter*> phy_log;
srslte::log_filter mac_log;
srslte::log_filter rlc_log;
srslte::log_filter pdcp_log;

@ -28,6 +28,7 @@
#define ENBPHY_H
#include "srslte/common/log.h"
#include "srslte/common/log_filter.h"
#include "phy/txrx.h"
#include "phy/phch_worker.h"
#include "phy/phch_common.h"
@ -54,8 +55,8 @@ class phy : public phy_interface_mac,
public:
phy();
bool init(phy_args_t *args, phy_cfg_t *common_cfg, srslte::radio *radio_handler, mac_interface_phy *mac, srslte::log* log_h);
bool init(phy_args_t *args, phy_cfg_t *common_cfg, srslte::radio *radio_handler, mac_interface_phy *mac, std::vector<void*> log_vec);
bool init(phy_args_t *args, phy_cfg_t *common_cfg, srslte::radio *radio_handler, mac_interface_phy *mac, srslte::log_filter* log_h);
bool init(phy_args_t *args, phy_cfg_t *common_cfg, srslte::radio *radio_handler, mac_interface_phy *mac, std::vector<srslte::log_filter *> log_vec);
void stop();
/* MAC->PHY interface */

@ -67,6 +67,9 @@ enb::enb() : started(false) {
enb::~enb()
{
for (uint32_t i = 0; i < phy_log.size(); i++) {
delete (phy_log[i]);
}
}
bool enb::init(all_args_t *args_)
@ -89,7 +92,7 @@ bool enb::init(all_args_t *args_)
char tmp[16];
sprintf(tmp, "PHY%d",i);
mylog->init(tmp, logger, true);
phy_log.push_back((void*) mylog);
phy_log.push_back(mylog);
}
mac_log.init("MAC ", logger, true);
rlc_log.init("RLC ", logger);

@ -93,11 +93,11 @@ bool phy::init(phy_args_t *args,
phy_cfg_t *cfg,
srslte::radio* radio_handler_,
mac_interface_phy *mac,
srslte::log* log_h)
srslte::log_filter* log_h)
{
std::vector<void*> log_vec;
std::vector<srslte::log_filter*> log_vec;
for (int i=0;i<args->nof_phy_threads;i++) {
log_vec.push_back((void*)log_h);
log_vec.push_back(log_h);
}
init(args, cfg, radio_handler_, mac, log_vec);
return true;
@ -107,7 +107,7 @@ bool phy::init(phy_args_t *args,
phy_cfg_t *cfg,
srslte::radio* radio_handler_,
mac_interface_phy *mac,
std::vector<void*> log_vec)
std::vector<srslte::log_filter*> log_vec)
{
mlockall(MCL_CURRENT | MCL_FUTURE);

@ -376,6 +376,7 @@ bool nas::integrity_check(byte_buffer_t *pdu)
return true;
} else {
nas_log->error("Invalid integrity check PDU size (%d)\n", pdu->N_bytes);
return false;
}
}

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