-/******************************************************************************
-*
-* Copyright (c) 2019 Intel.
-*
-* Licensed under the Apache License, Version 2.0 (the "License");
-* you may not use this file except in compliance with the License.
-* You may obtain a copy of the License at
-*
-* http://www.apache.org/licenses/LICENSE-2.0
-*
-* Unless required by applicable law or agreed to in writing, software
-* distributed under the License is distributed on an "AS IS" BASIS,
-* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-* See the License for the specific language governing permissions and
-* limitations under the License.
-*
-*******************************************************************************/
-
-/**
- * @brief XRAN main functionality module
- * @file xran_main.c
- * @ingroup group_source_xran
- * @author Intel Corporation
- **/
-
-#define _GNU_SOURCE
-#include <sched.h>
-#include <assert.h>
-#include <err.h>
-#include <libgen.h>
-#include <sys/time.h>
-#include <time.h>
-#include <unistd.h>
-#include <stdio.h>
-#include <pthread.h>
-#include <malloc.h>
-
-#include <rte_eal.h>
-#include <rte_errno.h>
-#include <rte_lcore.h>
-#include <rte_cycles.h>
-#include <rte_memory.h>
-#include <rte_memzone.h>
-#include <rte_mbuf.h>
-#include <rte_ring.h>
-
-#include "xran_fh_o_du.h"
-
-#include "ethdi.h"
-#include "xran_pkt.h"
-#include "xran_up_api.h"
-#include "xran_cp_api.h"
-#include "xran_sync_api.h"
-#include "xran_lib_mlog_tasks_id.h"
-#include "xran_timer.h"
-#include "xran_common.h"
-#include "xran_frame_struct.h"
-#include "xran_printf.h"
-#include "xran_app_frag.h"
-
-#include "xran_mlog_lnx.h"
-
-#define DIV_ROUND_OFFSET(X,Y) ( X/Y + ((X%Y)?1:0) )
-
-#define XranOffsetSym(offSym, otaSym, numSymTotal) (((int32_t)offSym > (int32_t)otaSym) ? \
- ((int32_t)otaSym + ((int32_t)numSymTotal) - (uint32_t)offSym) : \
- (((int32_t)otaSym - (int32_t)offSym) >= numSymTotal) ? \
- (((int32_t)otaSym - (int32_t)offSym) - numSymTotal) : \
- ((int32_t)otaSym - (int32_t)offSym))
-
-#define MAX_NUM_OF_XRAN_CTX (2)
-#define XranIncrementCtx(ctx) ((ctx >= (MAX_NUM_OF_XRAN_CTX-1)) ? 0 : (ctx+1))
-#define XranDecrementCtx(ctx) ((ctx == 0) ? (MAX_NUM_OF_XRAN_CTX-1) : (ctx-1))
-
-#define MAX_NUM_OF_DPDK_TIMERS (10)
-#define DpdkTiemerIncrementCtx(ctx) ((ctx >= (MAX_NUM_OF_DPDK_TIMERS-1)) ? 0 : (ctx+1))
-#define DpdkTiemerDecrementCtx(ctx) ((ctx == 0) ? (MAX_NUM_OF_DPDK_TIMERS-1) : (ctx-1))
-
-
-//#define XRAN_CREATE_RBMAP /**< generate slot map base on symbols */
-
-
-struct xran_timer_ctx {
- uint32_t tti_to_process;
-};
-
-static xran_cc_handle_t pLibInstanceHandles[XRAN_PORTS_NUM][XRAN_MAX_SECTOR_NR] = {NULL};
-static struct xran_device_ctx g_xran_dev_ctx[XRAN_PORTS_NUM] = { 0 };
-
-struct xran_timer_ctx timer_ctx[MAX_NUM_OF_XRAN_CTX];
-
-static struct rte_timer tti_to_phy_timer[10];
-static struct rte_timer sym_timer;
-static struct rte_timer dpdk_timer[MAX_NUM_OF_DPDK_TIMERS];
-
-long interval_us = 1000;
-
-uint32_t xran_lib_ota_tti = 0; /* [0:(1000000/TTI-1)] */
-uint32_t xran_lib_ota_sym = 0; /* [0:1000/TTI-1] */
-uint32_t xran_lib_ota_sym_idx = 0; /* [0 : 14*(1000000/TTI)-1]
- where TTI is TTI interval in microseconds */
-
-static uint8_t xran_cp_seq_id_num[XRAN_MAX_CELLS_PER_PORT][XRAN_DIR_MAX][XRAN_MAX_ANTENNA_NR * 2]; //XRAN_MAX_ANTENNA_NR * 2 for PUSCH and PRACH
-static uint8_t xran_updl_seq_id_num[XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR];
-static uint8_t xran_upul_seq_id_num[XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR * 2];
-
-static uint8_t xran_section_id_curslot[XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR * 2];
-static uint16_t xran_section_id[XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR * 2];
-
-void xran_timer_arm(struct rte_timer *tim, void* arg);
-
-int xran_process_tx_sym(void *arg);
-
-int xran_process_rx_sym(void *arg,
- struct rte_mbuf *mbuf,
- void *iq_data_start,
- uint16_t size,
- uint8_t CC_ID,
- uint8_t Ant_ID,
- uint8_t frame_id,
- uint8_t subframe_id,
- uint8_t slot_id,
- uint8_t symb_id,
- uint16_t num_prbu,
- uint16_t start_prbu,
- uint16_t sym_inc,
- uint16_t rb,
- uint16_t sect_id,
- uint32_t *mb_free);
-
-int xran_process_prach_sym(void *arg,
- struct rte_mbuf *mbuf,
- void *iq_data_start,
- uint16_t size,
- uint8_t CC_ID,
- uint8_t Ant_ID,
- uint8_t frame_id,
- uint8_t subframe_id,
- uint8_t slot_id,
- uint8_t symb_id,
- uint16_t num_prbu,
- uint16_t start_prbu,
- uint16_t sym_inc,
- uint16_t rb,
- uint16_t sect_id);
-
-void tti_ota_cb(struct rte_timer *tim, void *arg);
-void tti_to_phy_cb(struct rte_timer *tim, void *arg);
-void xran_timer_arm_ex(struct rte_timer *tim, void* CbFct, void *CbArg, unsigned tim_lcore);
-
-struct xran_device_ctx *xran_dev_get_ctx(void)
-{
- return &g_xran_dev_ctx[0];
-}
-
-static inline struct xran_fh_config *xran_lib_get_ctx_fhcfg(void)
-{
- return (&(xran_dev_get_ctx()->fh_cfg));
-}
-
-uint16_t xran_get_beamid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id)
-{
- return (0); // NO BEAMFORMING
-}
-
-enum xran_if_state xran_get_if_state(void)
-{
- return xran_if_current_state;
-}
-
-int xran_isPRACHSlot(uint32_t subframe_id, uint32_t slot_id)
-{
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- xRANPrachCPConfigStruct *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);
- int isPRACHslot = 0;
-
- if (p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology < 2){
- //for FR1, in 38.211 tab 6.3.3.2-2&3 it is subframe index
- if (pPrachCPConfig->isPRACHslot[subframe_id] == 1){
- if (pPrachCPConfig->nrofPrachInSlot != 1)
- isPRACHslot = 1;
- else{
- if (p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology == 0)
- isPRACHslot = 1;
- else if (slot_id == 1)
- isPRACHslot = 1;
- }
- }
- }
- else if (p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology == 3){
- //for FR2, 38.211 tab 6.3.3.4 it is slot index of 60kHz slot
- uint32_t slotidx;
- slotidx = subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;
- if (pPrachCPConfig->nrofPrachInSlot == 2){
- if (pPrachCPConfig->isPRACHslot[slotidx>>1] == 1)
- isPRACHslot = 1;
- }
- else{
- if ((pPrachCPConfig->isPRACHslot[slotidx>>1] == 1) && (slotidx % 2 == 1))
- isPRACHslot = 1;
- }
- }
- else
- print_err("Numerology %d not supported", p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology);
- return isPRACHslot;
-}
-
-int xran_init_sectionid(void *pHandle)
-{
- int cell, dir, ant;
-
- for(cell=0; cell < XRAN_MAX_CELLS_PER_PORT; cell++) {
- for(ant=0; ant < XRAN_MAX_ANTENNA_NR; ant++) {
- xran_section_id[cell][ant] = 0;
- xran_section_id_curslot[cell][ant] = 255;
- }
- }
-
- return (0);
-}
-
-int xran_init_prach(struct xran_fh_config* pConf, struct xran_device_ctx * p_xran_dev_ctx)
-{
- int32_t i;
- uint8_t slotNr;
- struct xran_prach_config* pPRACHConfig = &(pConf->prach_conf);
- const xRANPrachConfigTableStruct *pxRANPrachConfigTable;
- uint8_t nNumerology = pConf->frame_conf.nNumerology;
- uint8_t nPrachConfIdx = pPRACHConfig->nPrachConfIdx;
- xRANPrachCPConfigStruct *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);
-
- if (nNumerology > 2)
- pxRANPrachConfigTable = &gxranPrachDataTable_mmw[nPrachConfIdx];
- else if (pConf->frame_conf.nFrameDuplexType == 1)
- pxRANPrachConfigTable = &gxranPrachDataTable_sub6_tdd[nPrachConfIdx];
- else
- pxRANPrachConfigTable = &gxranPrachDataTable_sub6_fdd[nPrachConfIdx];
-
- uint8_t preambleFmrt = pxRANPrachConfigTable->preambleFmrt[0];
- const xRANPrachPreambleLRAStruct *pxranPreambleforLRA = &gxranPreambleforLRA[preambleFmrt];
- memset(pPrachCPConfig, 0, sizeof(xRANPrachCPConfigStruct));
- if(pConf->log_level)
- printf("xRAN open PRACH config: Numerology %u ConfIdx %u, preambleFmrt %u startsymb %u, numSymbol %u, occassionsInPrachSlot %u\n", nNumerology, nPrachConfIdx, preambleFmrt, pxRANPrachConfigTable->startingSym, pxRANPrachConfigTable->duration, pxRANPrachConfigTable->occassionsInPrachSlot);
-
- pPrachCPConfig->filterIdx = XRAN_FILTERINDEX_PRACH_ABC; // 3, PRACH preamble format A1~3, B1~4, C0, C2
- pPrachCPConfig->startSymId = pxRANPrachConfigTable->startingSym;
- pPrachCPConfig->startPrbc = pPRACHConfig->nPrachFreqStart;
- pPrachCPConfig->numPrbc = (preambleFmrt >= FORMAT_A1)? 12 : 70;
- pPrachCPConfig->timeOffset = pxranPreambleforLRA->nRaCp;
- pPrachCPConfig->freqOffset = xran_get_freqoffset(pPRACHConfig->nPrachFreqOffset, pPRACHConfig->nPrachSubcSpacing);
- pPrachCPConfig->x = pxRANPrachConfigTable->x;
- pPrachCPConfig->nrofPrachInSlot = pxRANPrachConfigTable->nrofPrachInSlot;
- pPrachCPConfig->y[0] = pxRANPrachConfigTable->y[0];
- pPrachCPConfig->y[1] = pxRANPrachConfigTable->y[1];
- if (preambleFmrt >= FORMAT_A1)
- {
- pPrachCPConfig->numSymbol = pxRANPrachConfigTable->duration;
- pPrachCPConfig->occassionsInPrachSlot = pxRANPrachConfigTable->occassionsInPrachSlot;
- }
- else
- {
- pPrachCPConfig->numSymbol = 1;
- pPrachCPConfig->occassionsInPrachSlot = 1;
- }
-
- if(pConf->log_level)
- printf("PRACH: x %u y[0] %u, y[1] %u prach slot: %u ..", pPrachCPConfig->x, pPrachCPConfig->y[0], pPrachCPConfig->y[1], pxRANPrachConfigTable->slotNr[0]);
- pPrachCPConfig->isPRACHslot[pxRANPrachConfigTable->slotNr[0]] = 1;
- for (i=1; i < XRAN_PRACH_CANDIDATE_SLOT; i++)
- {
- slotNr = pxRANPrachConfigTable->slotNr[i];
- if (slotNr > 0){
- pPrachCPConfig->isPRACHslot[slotNr] = 1;
- if(pConf->log_level)
- printf(" %u ..", slotNr);
- }
- }
- printf("\n");
- for (i = 0; i < XRAN_MAX_SECTOR_NR; i++){
- p_xran_dev_ctx->prach_start_symbol[i] = pPrachCPConfig->startSymId;
- p_xran_dev_ctx->prach_last_symbol[i] = pPrachCPConfig->startSymId + pPrachCPConfig->numSymbol * pPrachCPConfig->occassionsInPrachSlot - 1;
- }
- if(pConf->log_level){
- printf("PRACH start symbol %u lastsymbol %u\n", p_xran_dev_ctx->prach_start_symbol[0], p_xran_dev_ctx->prach_last_symbol[0]);
- }
-
- return (XRAN_STATUS_SUCCESS);
-}
-
-inline uint16_t xran_alloc_sectionid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id)
-{
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (0);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) { //for PRACH, ant_id starts from num_ant
- print_err("Invalid antenna ID - %d", ant_id);
- return (0);
- }
-
- /* if new slot has been started,
- * then initializes section id again for new start */
- if(xran_section_id_curslot[cc_id][ant_id] != slot_id) {
- xran_section_id[cc_id][ant_id] = 0;
- xran_section_id_curslot[cc_id][ant_id] = slot_id;
- }
-
- return(xran_section_id[cc_id][ant_id]++);
-}
-
-int xran_init_seqid(void *pHandle)
-{
- int cell, dir, ant;
-
- for(cell=0; cell < XRAN_MAX_CELLS_PER_PORT; cell++) {
- for(dir=0; dir < XRAN_DIR_MAX; dir++) {
- for(ant=0; ant < XRAN_MAX_ANTENNA_NR * 2; ant++)
- xran_cp_seq_id_num[cell][dir][ant] = 0;
- }
- for(ant=0; ant < XRAN_MAX_ANTENNA_NR; ant++)
- xran_updl_seq_id_num[cell][ant] = 0;
- for(ant=0; ant < XRAN_MAX_ANTENNA_NR * 2; ant++)
- xran_upul_seq_id_num[cell][ant] = 0;
- }
-
- return (0);
-}
-
-static inline uint8_t xran_get_cp_seqid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id)
-{
- if(dir >= XRAN_DIR_MAX) {
- print_err("Invalid direction - %d", dir);
- return (0);
- }
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (0);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (0);
- }
-
- return(xran_cp_seq_id_num[cc_id][dir][ant_id]++);
-}
-static inline uint8_t xran_get_updl_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id)
-{
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (0);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (0);
- }
-
- /* Only U-Plane DL needs to get sequence ID in O-DU */
- return(xran_updl_seq_id_num[cc_id][ant_id]++);
-}
-static inline uint8_t *xran_get_updl_seqid_addr(void *pHandle, uint8_t cc_id, uint8_t ant_id)
-{
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (0);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (0);
- }
-
- /* Only U-Plane DL needs to get sequence ID in O-DU */
- return(&xran_updl_seq_id_num[cc_id][ant_id]);
-}
-static inline int8_t xran_check_upul_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id, uint8_t seq_id)
-{
-
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (-1);
- }
-
- if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (-1);
- }
-
- /* O-DU needs to check the sequence ID of U-Plane UL from O-RU */
- xran_upul_seq_id_num[cc_id][ant_id]++;
- if(xran_upul_seq_id_num[cc_id][ant_id] == seq_id) { /* expected sequence */
- return (XRAN_STATUS_SUCCESS);
- } else {
- print_err("expected seqid %u received %u, slot %u, ant %u cc %u", xran_upul_seq_id_num[cc_id][ant_id], seq_id, slot_id, ant_id, cc_id);
- xran_upul_seq_id_num[cc_id][ant_id] = seq_id; // for next
- return (-1);
- }
-}
-
-//////////////////////////////////////////
-// For RU emulation
-static inline uint8_t xran_get_upul_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id)
-{
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (0);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (0);
- }
-
- return(xran_upul_seq_id_num[cc_id][ant_id]++);
-}
-static inline uint8_t *xran_get_upul_seqid_addr(void *pHandle, uint8_t cc_id, uint8_t ant_id)
-{
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (0);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (0);
- }
-
- return(&xran_upul_seq_id_num[cc_id][ant_id]);
-}
-static inline int8_t xran_check_cp_seqid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id, uint8_t seq_id)
-{
- if(dir >= XRAN_DIR_MAX) {
- print_err("Invalid direction - %d", dir);
- return (-1);
- }
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (-1);
- }
- if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (-1);
- }
-
- xran_cp_seq_id_num[cc_id][dir][ant_id]++;
- if(xran_cp_seq_id_num[cc_id][dir][ant_id] == seq_id) { /* expected sequence */
- return (0);
- }
- else {
- xran_cp_seq_id_num[cc_id][dir][ant_id] = seq_id;
- return (-1);
- }
-}
-static inline int8_t xran_check_updl_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id, uint8_t seq_id)
-{
- if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {
- print_err("Invalid CC ID - %d", cc_id);
- return (-1);
- }
-
- if(ant_id >= XRAN_MAX_ANTENNA_NR) {
- print_err("Invalid antenna ID - %d", ant_id);
- return (-1);
- }
-
- /* O-RU needs to check the sequence ID of U-Plane DL from O-DU */
- xran_updl_seq_id_num[cc_id][ant_id]++;
- if(xran_updl_seq_id_num[cc_id][ant_id] == seq_id) {
- /* expected sequence */
- return (0);
- } else {
- xran_updl_seq_id_num[cc_id][ant_id] = seq_id;
- return (-1);
- }
-}
-
-
-static struct xran_section_gen_info cpSections[XRAN_MAX_NUM_SECTIONS];
-static struct xran_cp_gen_params cpInfo;
-int process_cplane(struct rte_mbuf *pkt)
-{
- struct xran_recv_packet_info recv;
-
- cpInfo.sections = cpSections;
- xran_parse_cp_pkt(pkt, &cpInfo, &recv);
-
- return (MBUF_FREE);
-}
-//////////////////////////////////////////
-
-void sym_ota_cb(struct rte_timer *tim, void *arg)
-{
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;
- long t1 = MLogTick();
- static int32_t ctx = 0;
-
- if(XranGetSymNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT) == 0){
- tti_ota_cb(NULL, arg);
- }
-
- if(XranGetSymNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT) == 3){
- if(p_xran_dev_ctx->phy_tti_cb_done == 0){
- /* rearm timer to deliver TTI event to PHY */
- p_xran_dev_ctx->phy_tti_cb_done = 0;
- xran_timer_arm_ex(&tti_to_phy_timer[xran_lib_ota_tti % 10], tti_to_phy_cb, (void*)pTCtx, p_xran_dev_ctx->fh_init.io_cfg.timing_core);
- }
- }
-
- xran_process_tx_sym(timer_ctx);
- /* check if there is call back to do something else on this symbol */
- if(p_xran_dev_ctx->pSymCallback[0][xran_lib_ota_sym]){
- p_xran_dev_ctx->pSymCallback[0][xran_lib_ota_sym](&dpdk_timer[ctx], p_xran_dev_ctx->pSymCallbackTag[0][xran_lib_ota_sym]);
- ctx = DpdkTiemerIncrementCtx(ctx);
- }
-
- xran_lib_ota_sym++;
- if(xran_lib_ota_sym >= N_SYM_PER_SLOT){
- xran_lib_ota_sym=0;
- }
-
- MLogTask(PID_SYM_OTA_CB, t1, MLogTick());
-}
-
-void tti_ota_cb(struct rte_timer *tim, void *arg)
-{
- uint32_t frame_id = 0;
- uint32_t subframe_id = 0;
- uint32_t slot_id = 0;
- uint32_t next_tti = 0;
-
- uint32_t mlogVar[10];
- uint32_t mlogVarCnt = 0;
- uint64_t t1 = MLogTick();
- uint64_t t3 = 0;
- uint32_t reg_tti = 0;
- struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- MLogTask(PID_TTI_TIMER, t1, MLogTick());
-
- /* To match TTbox */
- if(xran_lib_ota_tti == 0)
- reg_tti = xran_fs_get_max_slot() - 1;
- else
- reg_tti = xran_lib_ota_tti -1;
- MLogIncrementCounter();
- /* subframe and slot */
- MLogRegisterFrameSubframe(((reg_tti/SLOTNUM_PER_SUBFRAME) % SUBFRAMES_PER_SYSTEMFRAME),
- reg_tti % (SLOTNUM_PER_SUBFRAME));
- MLogMark(1, t1);
-
- slot_id = XranGetSlotNum(xran_lib_ota_tti, SLOTNUM_PER_SUBFRAME);
- subframe_id = XranGetSubFrameNum(xran_lib_ota_tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- frame_id = XranGetFrameNum(xran_lib_ota_tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
-
- pTCtx[(xran_lib_ota_tti & 1) ^ 1].tti_to_process = xran_lib_ota_tti;
-
- mlogVar[mlogVarCnt++] = 0x11111111;
- mlogVar[mlogVarCnt++] = xran_lib_ota_tti;
- mlogVar[mlogVarCnt++] = xran_lib_ota_sym_idx;
- mlogVar[mlogVarCnt++] = xran_lib_ota_sym_idx / 14;
- mlogVar[mlogVarCnt++] = frame_id;
- mlogVar[mlogVarCnt++] = subframe_id;
- mlogVar[mlogVarCnt++] = slot_id;
- mlogVar[mlogVarCnt++] = 0;
- MLogAddVariables(mlogVarCnt, mlogVar, MLogTick());
-
- if(p_xran_dev_ctx->fh_init.io_cfg.id == ID_LLS_CU)
- next_tti = xran_lib_ota_tti + 1;
- else
- next_tti = xran_lib_ota_tti;
-
- if(next_tti>= xran_fs_get_max_slot()){
- print_dbg("[%d]SFN %d sf %d slot %d\n",next_tti, frame_id, subframe_id, slot_id);
- next_tti=0;
- }
-
- slot_id = XranGetSlotNum(next_tti, SLOTNUM_PER_SUBFRAME);
- subframe_id = XranGetSubFrameNum(next_tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- frame_id = XranGetFrameNum(next_tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
-
- print_dbg("[%d]SFN %d sf %d slot %d\n",next_tti, frame_id, subframe_id, slot_id);
-
- if(p_xran_dev_ctx->fh_init.io_cfg.id == ID_LLS_CU){
- pTCtx[(xran_lib_ota_tti & 1)].tti_to_process = next_tti;
- } else {
- pTCtx[(xran_lib_ota_tti & 1)].tti_to_process = pTCtx[(xran_lib_ota_tti & 1)^1].tti_to_process;
- }
-
- p_xran_dev_ctx->phy_tti_cb_done = 0;
- xran_timer_arm_ex(&tti_to_phy_timer[xran_lib_ota_tti % 10], tti_to_phy_cb, (void*)pTCtx, p_xran_dev_ctx->fh_init.io_cfg.timing_core);
-
- xran_lib_ota_tti++;
- if(xran_lib_ota_tti >= xran_fs_get_max_slot()){
- print_dbg("[%d]SFN %d sf %d slot %d\n",xran_lib_ota_tti, frame_id, subframe_id, slot_id);
- xran_lib_ota_tti=0;
- }
- MLogTask(PID_TTI_CB, t1, MLogTick());
-}
-
-void xran_timer_arm(struct rte_timer *tim, void* arg)
-{
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- uint64_t t3 = MLogTick();
-
- if (xran_if_current_state == XRAN_RUNNING){
- rte_timer_cb_t fct = (rte_timer_cb_t)arg;
- rte_timer_init(tim);
- rte_timer_reset_sync(tim, 0, SINGLE, p_xran_dev_ctx->fh_init.io_cfg.timing_core, fct, &timer_ctx[0]);
- }
- MLogTask(PID_TIME_ARM_TIMER, t3, MLogTick());
-}
-
-void xran_timer_arm_ex(struct rte_timer *tim, void* CbFct, void *CbArg, unsigned tim_lcore)
-{
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- uint64_t t3 = MLogTick();
-
- if (xran_if_current_state == XRAN_RUNNING){
- rte_timer_cb_t fct = (rte_timer_cb_t)CbFct;
- rte_timer_init(tim);
- rte_timer_reset_sync(tim, 0, SINGLE, tim_lcore, fct, CbArg);
- }
- MLogTask(PID_TIME_ARM_TIMER, t3, MLogTick());
-}
-
-int xran_cp_create_and_send_section(void *pHandle, uint8_t ru_port_id, int dir, int tti, int cc_id,
- struct xran_prb_map *prbMapElem)
-{
- struct xran_cp_gen_params params;
- struct xran_section_gen_info sect_geninfo[XRAN_MAX_NUM_SECTIONS];
- struct rte_mbuf *mbuf;
- int ret = 0;
- uint32_t i;
- uint32_t nsection = prbMapElem->nPrbElm;
- struct xran_prb_elm *pPrbMapElem = &prbMapElem->prbMap[0];
- struct xran_prb_elm *pPrbMapElemPrev;
- uint32_t slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);
- uint32_t subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- uint32_t frame_id = XranGetFrameNum(tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
- uint8_t seq_id = xran_get_cp_seqid(pHandle, XRAN_DIR_DL, cc_id, ru_port_id);
-
- params.dir = dir;
- params.sectionType = XRAN_CP_SECTIONTYPE_1; // Most DL/UL Radio Channels
- params.hdr.filterIdx = XRAN_FILTERINDEX_STANDARD;
- params.hdr.frameId = frame_id;
- params.hdr.subframeId = subframe_id;
- params.hdr.slotId = slot_id;
- params.hdr.startSymId = pPrbMapElem->nStartSymb;
- params.hdr.iqWidth = xran_get_conf_iqwidth(pHandle);
- params.hdr.compMeth = pPrbMapElem->compMethod;
-
- for (i=0; i<nsection; i++)
- {
- pPrbMapElem = &prbMapElem->prbMap[i];
- sect_geninfo[i].info.type = params.sectionType; // for database
- sect_geninfo[i].info.startSymId = params.hdr.startSymId; // for database
- sect_geninfo[i].info.iqWidth = params.hdr.iqWidth; // for database
- sect_geninfo[i].info.compMeth = params.hdr.compMeth; // for database
- sect_geninfo[i].info.id = xran_alloc_sectionid(pHandle, dir, cc_id, ru_port_id, slot_id);
- sect_geninfo[i].info.rb = XRAN_RBIND_EVERY;
- sect_geninfo[i].info.startPrbc = pPrbMapElem->nRBStart;
- sect_geninfo[i].info.numPrbc = pPrbMapElem->nRBSize;
- sect_geninfo[i].info.numSymbol = pPrbMapElem->numSymb;
- sect_geninfo[i].info.reMask = 0xfff;
- sect_geninfo[i].info.beamId = pPrbMapElem->nBeamIndex;
- if (i==0)
- sect_geninfo[i].info.symInc = XRAN_SYMBOLNUMBER_NOTINC;
- else
- {
- pPrbMapElemPrev = &prbMapElem->prbMap[i-1];
- if (pPrbMapElemPrev->nStartSymb == pPrbMapElem->nStartSymb)
- {
- sect_geninfo[i].info.symInc = XRAN_SYMBOLNUMBER_NOTINC;
- if (pPrbMapElemPrev->numSymb != pPrbMapElem->numSymb)
- print_err("section info error: previous numSymb %d not equal to current numSymb %d\n", pPrbMapElemPrev->numSymb, pPrbMapElem->numSymb);
- }
- else
- {
- sect_geninfo[i].info.symInc = XRAN_SYMBOLNUMBER_INC;
- if (pPrbMapElem->nStartSymb != (pPrbMapElemPrev->nStartSymb + pPrbMapElemPrev->numSymb))
- print_err("section info error: current startSym %d not equal to previous endSymb %d\n", pPrbMapElem->nStartSymb, pPrbMapElemPrev->nStartSymb + pPrbMapElemPrev->numSymb);
- }
- }
-
- /* extension is not supported */
- sect_geninfo[nsection].info.ef = 0;
- sect_geninfo[nsection].exDataSize = 0;
- //sect_geninfo[nsection].exData = NULL;
- }
- params.numSections = nsection;
- params.sections = sect_geninfo;
-
- mbuf = xran_ethdi_mbuf_alloc();
- if(unlikely(mbuf == NULL)) {
- print_err("Alloc fail!\n");
- return (-1);
- }
-
- ret = xran_prepare_ctrl_pkt(mbuf, ¶ms, cc_id, ru_port_id, seq_id);
- if(ret < 0) {
- print_err("Fail to build control plane packet - [%d:%d:%d] dir=%d\n",
- frame_id, subframe_id, slot_id, dir);
- } else {
- /* add in the ethernet header */
- struct ether_hdr *const h = (void *)rte_pktmbuf_prepend(mbuf, sizeof(*h));
- xran_ethdi_mbuf_send_cp(mbuf, ETHER_TYPE_ECPRI);
- tx_counter++;
- for(i=0; i<nsection; i++)
- xran_cp_add_section_info(pHandle,
- dir, cc_id, ru_port_id,
- (slot_id + subframe_id*SLOTNUM_PER_SUBFRAME)%XRAN_MAX_SECTIONDB_CTX,
- §_geninfo[i].info);
- }
-
- return ret;
-}
-#if 0
-int xran_cp_create_rbmap(int dir, int tti, int cc_id,
- struct xran_flat_buffer *prbMapElem,
- struct xran_cp_rbmap_list *rbMapList)
-{
- struct xran_prb_map *prb_map;
- int list_index = 0;
- int sym_id;
- int i, j;
-
- prb_map = (struct xran_prb_map *)prbMapElm[0].pData;
- cc_id = prb_map->cc_id;
- tti = prb_map->tti_id;
- dir = prb_map->dir;
-
-
- list_index = -1;
- for(sym_id = 0; sym_id < N_SYM_PER_SLOT; sym_id++) {
- /* skip symbol, if not matched with given direction */
- int type_sym = xran_fs_get_symbol_type(cc_id, tti, sym_id);
- if(type_sym != XRAN_SYMBOL_TYPE_FDD && type_sym != dir)
- continue;
-
- /* retrieve the information of RB allocation */
- prb_map = (struct xran_prb_map *)prbMapElem[sym_id].pData;
- if(unlikely(prb_map == NULL)) {
- print_err("RB allocation table is NULL! (tti:%d, cc:%d, sym_id:%d)", tti, cc_id, sym_id);
- continue;
- }
-
- /* creating 2D mapping */
- for(i=0; i < prb_map->nPrbElm; i++) {
- if(list_index < 0) { /* create first entry */
- list_index = 0;
- rbMapList[list_index].grp_id = 0;
- rbMapList[list_index].sym_start = sym_id; // prb_map->sym_id
- rbMapList[list_index].sym_num = 1;
- rbMapList[list_index].rb_start = prb_map->prbMap[i].nRBStart;
- rbMapList[list_index].rb_num = prb_map->prbMap[i].nRBSize;
- rbMapList[list_index].beam_id = prb_map->prbMap[i].nBeamIndex;
- rbMapList[list_index].comp_meth = prb_map->prbMap[i].compMethod;
- }
- else {
- /* find consecutive allocation from list */
- for(j=0; j<list_index+1; j++) {
- if(prb_map->prbMap[i].nRBStart != rbMapList[j].rb_start
- || prb_map->prbMap[i].nRBSize != rbMapList[j].rb_num
- || prb_map->prbMap[i].nBeamIndex != rbMapList[j].beam_id
- || prb_map->prbMap[i].compMethod != rbMapList[j].comp_meth
- || sym_id != (rbMapList[j].sym_start+rbMapList[j].sym_num)) {
- /* move to next */
- continue;
- }
- else {
- /* consecutive allocation has been found */
- rbMapList[j].sym_num++;
- break;
- }
- }
-
- if(j == list_index+1) { /* different allocation, create new entry */
- list_index++;
- rbMapList[list_index].grp_id = 0;
- rbMapList[list_index].sym_start = sym_id; // prb_map->sym_id
- rbMapList[list_index].sym_num = 1;
- rbMapList[list_index].rb_start = prb_map->prbMap[i].nRBStart;
- rbMapList[list_index].rb_num = prb_map->prbMap[i].nRBSize;
- rbMapList[list_index].beam_id = prb_map->prbMap[i].nBeamIndex;
- rbMapList[list_index].comp_meth = prb_map->prbMap[i].compMethod;
- }
- }
- } /* for(i=0; i < prb_map->nPrbElm; i++) */
- } /* for(sym_id = 0; sym_id < N_SYM_PER_SLOT; sym_id++) */
-
- list_index++;
-
-#if 0
- for(i=0; i<list_index; i++) {
- printf("[%c:%d-%d] %d - symstart=%d, symnum=%d, rbstart=%d, rbnum=%d, beamid=%d, comp=%d\n",
- dir?'U':'D', tti, cc_id, i,
- rbMapList[i].sym_start, rbMapList[i].sym_num,
- rbMapList[i].rb_start, rbMapList[i].rb_num,
- rbMapList[i].beam_id, rbMapList[i].comp_meth);
- }
-#endif
- return (list_index);
-}
-#endif
-
-void tx_cp_dl_cb(struct rte_timer *tim, void *arg)
-{
- long t1 = MLogTick();
- int tti, buf_id;
- int i, ret;
- uint32_t slot_id, subframe_id, frame_id;
- int cc_id;
- uint8_t ctx_id;
- uint8_t ant_id, num_eAxc, num_CCPorts;
- void *pHandle;
- int num_list;
- struct xran_cp_rbmap_list rb_map_list[XRAN_MAX_PRBS*N_SYM_PER_SLOT]; /* array size can be reduced */
-
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;
-
- pHandle = NULL; // TODO: temp implemantation
- num_eAxc = xran_get_num_eAxc(pHandle);
- num_CCPorts = xran_get_num_cc(pHandle);
-
- if(p_xran_dev_ctx->enableCP) {
-
- tti = pTCtx[(xran_lib_ota_tti & 1) ^ 1].tti_to_process;
- buf_id = tti % XRAN_N_FE_BUF_LEN;
-
- slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);
- subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- frame_id = XranGetFrameNum(tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
- ctx_id = XranGetSlotNum(tti, SLOTS_PER_SYSTEMFRAME) % XRAN_MAX_SECTIONDB_CTX;
-
- print_dbg("[%d]SFN %d sf %d slot %d\n", tti, frame_id, subframe_id, slot_id);
-
- for(ant_id = 0; ant_id < num_eAxc; ++ant_id) {
- for(cc_id = 0; cc_id < num_CCPorts; cc_id++ ) {
-
- /* start new section information list */
- xran_cp_reset_section_info(pHandle, XRAN_DIR_DL, cc_id, ant_id, ctx_id);
-
- if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_DL) == 1) { // 1 when FDD, DL slot or DL symbol is present in SP slot
- if (p_xran_dev_ctx->DynamicSectionEna){
- num_list = xran_cp_create_and_send_section(pHandle, ant_id, XRAN_SYMBOL_TYPE_DL, tti, cc_id,
- (struct xran_prb_map *)p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData);
- }
- else{
- struct xran_cp_gen_params params;
- struct xran_section_gen_info sect_geninfo[8];
- struct rte_mbuf *mbuf = xran_ethdi_mbuf_alloc();
-
- /* use symb 0 only with constant RBs for full slot */
- struct xran_prb_map *prb_map = (struct xran_prb_map *)p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData;
- num_list = 1;
- rb_map_list[0].sym_start = 0;
- rb_map_list[0].sym_num = 14;
- rb_map_list[0].rb_start = prb_map->prbMap[0].nRBStart;
- rb_map_list[0].rb_num = prb_map->prbMap[0].nRBSize;
- rb_map_list[0].beam_id = prb_map->prbMap[0].nBeamIndex;
- rb_map_list[0].comp_meth = prb_map->prbMap[0].compMethod;
-
- for(i=0; i<num_list; i++) {
- ret = generate_cpmsg_dlul(pHandle, ¶ms, sect_geninfo, mbuf, XRAN_DIR_DL,
- frame_id, subframe_id, slot_id,
- rb_map_list[i].sym_start, rb_map_list[i].sym_num,
- rb_map_list[i].rb_start, rb_map_list[i].rb_num,
- rb_map_list[i].beam_id, cc_id, ant_id, rb_map_list[i].comp_meth,
- xran_get_cp_seqid(pHandle, XRAN_DIR_DL, cc_id, ant_id), XRAN_SYMBOLNUMBER_NOTINC);
-
- if (ret == XRAN_STATUS_SUCCESS)
- send_cpmsg(pHandle, mbuf, ¶ms, sect_geninfo,
- cc_id, ant_id, xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, ant_id));
- }
- }
- } /* if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_DL) == 1) */
- } /* for(cc_id = 0; cc_id < num_CCPorts; cc_id++) */
- } /* for(ant_id = 0; ant_id < num_eAxc; ++ant_id) */
- } /* if(p_xran_dev_ctx->enableCP) */
-
- MLogTask(PID_CP_DL_CB, t1, MLogTick());
-}
-
-void rx_ul_deadline_half_cb(struct rte_timer *tim, void *arg)
-{
- long t1 = MLogTick();
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- xran_status_t status;
- /* half of RX for current TTI as measured against current OTA time */
- int32_t rx_tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);
- int32_t cc_id;
-
- if(p_xran_dev_ctx->xran2phy_mem_ready == 0)
- return;
-
- for(cc_id = 0; cc_id < xran_get_num_cc(p_xran_dev_ctx); cc_id++) {
- if(p_xran_dev_ctx->rx_packet_callback_tracker[rx_tti % XRAN_N_FE_BUF_LEN][cc_id] == 0){
- status = (rx_tti << 16) | 0; /* base on PHY side implementation first 7 sym of slot */
- if(p_xran_dev_ctx->pCallback[cc_id])
- p_xran_dev_ctx->pCallback[cc_id](p_xran_dev_ctx->pCallbackTag[cc_id], status);
- } else {
- p_xran_dev_ctx->rx_packet_callback_tracker[rx_tti % XRAN_N_FE_BUF_LEN][cc_id] = 0;
- }
- }
- MLogTask(PID_UP_UL_HALF_DEAD_LINE_CB, t1, MLogTick());
-}
-
-void rx_ul_deadline_full_cb(struct rte_timer *tim, void *arg)
-{
- long t1 = MLogTick();
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- xran_status_t status = 0;
- int32_t rx_tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);
- int32_t cc_id = 0;
-
- if(rx_tti == 0)
- rx_tti = (xran_fs_get_max_slot()-1);
- else
- rx_tti -= 1; /* end of RX for prev TTI as measured against current OTA time */
-
- if(p_xran_dev_ctx->xran2phy_mem_ready == 0)
- return;
-
- /* U-Plane */
- for(cc_id = 0; cc_id < xran_get_num_cc(p_xran_dev_ctx); cc_id++) {
- status = (rx_tti << 16) | 7; /* last 7 sym means full slot of Symb */
- if(p_xran_dev_ctx->pCallback[cc_id])
- p_xran_dev_ctx->pCallback[cc_id](p_xran_dev_ctx->pCallbackTag[cc_id], status);
-
- if(p_xran_dev_ctx->pPrachCallback[cc_id])
- p_xran_dev_ctx->pPrachCallback[cc_id](p_xran_dev_ctx->pPrachCallbackTag[cc_id], status);
-
- }
-
- MLogTask(PID_UP_UL_FULL_DEAD_LINE_CB, t1, MLogTick());
-}
-
-
-void tx_cp_ul_cb(struct rte_timer *tim, void *arg)
-{
- long t1 = MLogTick();
- int tti, buf_id;
- int i, ret;
- uint32_t slot_id, subframe_id, frame_id;
- int32_t cc_id;
- int ant_id, prach_port_id;
- uint16_t beam_id;
- uint8_t num_eAxc, num_CCPorts;
- uint8_t ctx_id;
-
- void *pHandle;
- int num_list;
- struct xran_cp_rbmap_list rb_map_list[XRAN_MAX_PRBS*N_SYM_PER_SLOT]; /* array size can be reduced */
-
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- xRANPrachCPConfigStruct *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);
- struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;
-
- pHandle = NULL; // TODO: temp implemantation
- num_eAxc = xran_get_num_eAxc(pHandle);
- num_CCPorts = xran_get_num_cc(pHandle);
- tti = pTCtx[(xran_lib_ota_tti & 1) ^ 1].tti_to_process;
- buf_id = tti % XRAN_N_FE_BUF_LEN;
- slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);
- subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- frame_id = XranGetFrameNum(tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
- ctx_id = XranGetSlotNum(tti, SLOTS_PER_SYSTEMFRAME) % XRAN_MAX_SECTIONDB_CTX;
-
- if(p_xran_dev_ctx->enableCP) {
-
- print_dbg("[%d]SFN %d sf %d slot %d\n", tti, frame_id, subframe_id, slot_id);
-
- for(ant_id = 0; ant_id < num_eAxc; ++ant_id) {
- for(cc_id = 0; cc_id < num_CCPorts; cc_id++) {
- if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_UL) == 1 ||
- xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_SP) == 1 ){
- /* start new section information list */
- xran_cp_reset_section_info(pHandle, XRAN_DIR_UL, cc_id, ant_id, ctx_id);
- if (p_xran_dev_ctx->DynamicSectionEna){
- /* create a map of RB allocation to generate proper C-Plane */
- num_list = xran_cp_create_and_send_section(pHandle, ant_id, XRAN_SYMBOL_TYPE_UL, tti, cc_id,
- (struct xran_prb_map *)p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData);
- }
- else{
- struct xran_cp_gen_params params;
- struct xran_section_gen_info sect_geninfo[8];
- struct rte_mbuf *mbuf = xran_ethdi_mbuf_alloc();
- /* use symb 0 only with constant RBs for full slot */
- struct xran_prb_map *prb_map = (struct xran_prb_map *)p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData;
- num_list = 1;
- rb_map_list[0].sym_start = 0;
- rb_map_list[0].sym_num = 14;
- rb_map_list[0].rb_start = prb_map->prbMap[0].nRBStart;
- rb_map_list[0].rb_num = prb_map->prbMap[0].nRBSize;
- rb_map_list[0].beam_id = prb_map->prbMap[0].nBeamIndex;
- rb_map_list[0].comp_meth = prb_map->prbMap[0].compMethod;
-
- for(i=0; i<num_list; i++) {
- ret = generate_cpmsg_dlul(pHandle, ¶ms, sect_geninfo, mbuf, XRAN_DIR_UL,
- frame_id, subframe_id, slot_id,
- rb_map_list[i].sym_start, rb_map_list[i].sym_num,
- rb_map_list[i].rb_start, rb_map_list[i].rb_num,
- rb_map_list[i].beam_id, cc_id, ant_id, rb_map_list[i].comp_meth,
- xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, ant_id), XRAN_SYMBOLNUMBER_NOTINC);
- if (ret == XRAN_STATUS_SUCCESS)
- send_cpmsg(pHandle, mbuf, ¶ms, sect_geninfo,
- cc_id, ant_id, xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, ant_id));
- }
- }
- } /* if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_UL) == 1 || */
-
- } /* for(cc_id = 0; cc_id < num_CCPorts; cc_id++) */
- } /* for(ant_id = 0; ant_id < num_eAxc; ++ant_id) */
- } /* if(p_xran_dev_ctx->enableCP) */
-
- if(p_xran_dev_ctx->enablePrach) {
- uint32_t isPRACHslot = xran_isPRACHSlot(subframe_id, slot_id);
- if((frame_id % pPrachCPConfig->x == pPrachCPConfig->y[0]) && (isPRACHslot==1)) { //is prach slot
- for(ant_id = 0; ant_id < num_eAxc; ++ant_id) {
- for(cc_id = 0; cc_id < num_CCPorts; cc_id++) {
- struct xran_cp_gen_params params;
- struct xran_section_gen_info sect_geninfo[8];
- struct rte_mbuf *mbuf = xran_ethdi_mbuf_alloc();
- prach_port_id = ant_id + num_eAxc;
- /* start new section information list */
- xran_cp_reset_section_info(pHandle, XRAN_DIR_UL, cc_id, prach_port_id, ctx_id);
-
- beam_id = xran_get_beamid(pHandle, XRAN_DIR_UL, cc_id, prach_port_id, slot_id); /* TODO: */
- ret = generate_cpmsg_prach(pHandle, ¶ms, sect_geninfo, mbuf, p_xran_dev_ctx,
- frame_id, subframe_id, slot_id,
- beam_id, cc_id, prach_port_id,
- xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, prach_port_id));
- if (ret == XRAN_STATUS_SUCCESS)
- send_cpmsg(pHandle, mbuf, ¶ms, sect_geninfo,
- cc_id, prach_port_id, xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, prach_port_id));
- }
- }
- }
- }
-
- MLogTask(PID_CP_UL_CB, t1, MLogTick());
-}
-
-void ul_up_full_slot_cb(struct rte_timer *tim, void *arg)
-{
- long t1 = MLogTick();
- rte_pause();
- MLogTask(PID_TTI_CB_TO_PHY, t1, MLogTick());
-}
-
-void tti_to_phy_cb(struct rte_timer *tim, void *arg)
-{
- long t1 = MLogTick();
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- static int first_call = 0;
- p_xran_dev_ctx->phy_tti_cb_done = 1; /* DPDK called CB */
- if (first_call){
- if(p_xran_dev_ctx->ttiCb[XRAN_CB_TTI]){
- if(p_xran_dev_ctx->SkipTti[XRAN_CB_TTI] <= 0){
- p_xran_dev_ctx->ttiCb[XRAN_CB_TTI](p_xran_dev_ctx->TtiCbParam[XRAN_CB_TTI]);
- }else{
- p_xran_dev_ctx->SkipTti[XRAN_CB_TTI]--;
- }
- }
- } else {
- if(p_xran_dev_ctx->ttiCb[XRAN_CB_TTI]){
- int32_t tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);
- if(tti == xran_fs_get_max_slot()-1)
- first_call = 1;
- }
- }
-
-
- MLogTask(PID_TTI_CB_TO_PHY, t1, MLogTick());
-}
-
-int xran_timing_source_thread(void *args)
-{
- cpu_set_t cpuset;
- int32_t do_reset = 0;
- uint64_t t1 = 0;
- uint64_t delta;
- int32_t result1;
- uint32_t delay_cp_dl;
- uint32_t delay_cp_ul;
- uint32_t delay_up;
- uint32_t delay_up_ul;
- uint32_t delay_cp2up;
- uint32_t sym_cp_dl;
- uint32_t sym_cp_ul;
- uint32_t sym_up_ul;
- int32_t sym_up;
- struct sched_param sched_param;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- /* ToS = Top of Second start +- 1.5us */
- struct timespec ts;
-
- char buff[100];
-
- printf("%s [CPU %2d] [PID: %6d]\n", __FUNCTION__, rte_lcore_id(), getpid());
-
- /* set main thread affinity mask to CPU2 */
- sched_param.sched_priority = 98;
-
- CPU_ZERO(&cpuset);
- CPU_SET(p_xran_dev_ctx->fh_init.io_cfg.timing_core, &cpuset);
- if (result1 = pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset))
- {
- printf("pthread_setaffinity_np failed: coreId = 2, result1 = %d\n",result1);
- }
- if ((result1 = pthread_setschedparam(pthread_self(), 1, &sched_param)))
- {
- printf("priority is not changed: coreId = 2, result1 = %d\n",result1);
- }
-
- if (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) {
- do {
- timespec_get(&ts, TIME_UTC);
- }while (ts.tv_nsec >1500);
- struct tm * ptm = gmtime(&ts.tv_sec);
- if(ptm){
- strftime(buff, sizeof buff, "%D %T", ptm);
- printf("lls-CU: thread_run start time: %s.%09ld UTC [%ld]\n", buff, ts.tv_nsec, interval_us);
- }
-
- delay_cp_dl = interval_us - p_xran_dev_ctx->fh_init.T1a_max_cp_dl;
- delay_cp_ul = interval_us - p_xran_dev_ctx->fh_init.T1a_max_cp_ul;
- delay_up = p_xran_dev_ctx->fh_init.T1a_max_up;
- delay_up_ul = p_xran_dev_ctx->fh_init.Ta4_max;
-
- delay_cp2up = delay_up-delay_cp_dl;
-
- sym_cp_dl = delay_cp_dl*1000/(interval_us*1000/N_SYM_PER_SLOT)+1;
- sym_cp_ul = delay_cp_ul*1000/(interval_us*1000/N_SYM_PER_SLOT)+1;
- sym_up_ul = delay_up_ul*1000/(interval_us*1000/N_SYM_PER_SLOT);
- p_xran_dev_ctx->sym_up = sym_up = -(delay_up*1000/(interval_us*1000/N_SYM_PER_SLOT)+1);
- p_xran_dev_ctx->sym_up_ul = sym_up_ul = (delay_up_ul*1000/(interval_us*1000/N_SYM_PER_SLOT)+1);
-
- printf("Start C-plane DL %d us after TTI [trigger on sym %d]\n", delay_cp_dl, sym_cp_dl);
- printf("Start C-plane UL %d us after TTI [trigger on sym %d]\n", delay_cp_ul, sym_cp_ul);
- printf("Start U-plane DL %d us before OTA [offset in sym %d]\n", delay_up, sym_up);
- printf("Start U-plane UL %d us OTA [offset in sym %d]\n", delay_up_ul, sym_up_ul);
-
- printf("C-plane to U-plane delay %d us after TTI\n", delay_cp2up);
- printf("Start Sym timer %ld ns\n", TX_TIMER_INTERVAL/N_SYM_PER_SLOT);
-
- p_xran_dev_ctx->pSymCallback[0][sym_cp_dl] = xran_timer_arm;
- p_xran_dev_ctx->pSymCallbackTag[0][sym_cp_dl] = tx_cp_dl_cb;
-
- p_xran_dev_ctx->pSymCallback[0][sym_cp_ul] = xran_timer_arm;
- p_xran_dev_ctx->pSymCallbackTag[0][sym_cp_ul] = tx_cp_ul_cb;
-
- /* Full slot UL OTA + delay_up_ul */
- p_xran_dev_ctx->pSymCallback[0][sym_up_ul] = xran_timer_arm;
- p_xran_dev_ctx->pSymCallbackTag[0][sym_up_ul] = rx_ul_deadline_full_cb;
-
- /* Half slot UL OTA + delay_up_ul*/
- p_xran_dev_ctx->pSymCallback[0][sym_up_ul + N_SYM_PER_SLOT/2] = xran_timer_arm;
- p_xran_dev_ctx->pSymCallbackTag[0][sym_up_ul + N_SYM_PER_SLOT/2] = rx_ul_deadline_half_cb;
-
- } else { // APP_O_RU
- /* calcualte when to send UL U-plane */
- delay_up = p_xran_dev_ctx->fh_init.Ta3_min;
- p_xran_dev_ctx->sym_up = sym_up = delay_up*1000/(interval_us*1000/N_SYM_PER_SLOT)+1;
- printf("Start UL U-plane %d us after OTA [offset in sym %d]\n", delay_up, sym_up);
- do {
- timespec_get(&ts, TIME_UTC);
- }while (ts.tv_nsec >1500);
- struct tm * ptm = gmtime(&ts.tv_sec);
- if(ptm){
- strftime(buff, sizeof buff, "%D %T", ptm);
- printf("RU: thread_run start time: %s.%09ld UTC [%ld]\n", buff, ts.tv_nsec, interval_us);
- }
- }
-
- printf("interval_us %ld\n", interval_us);
- do {
- timespec_get(&ts, TIME_UTC);
- }while (ts.tv_nsec == 0);
-
- while(1) {
- delta = poll_next_tick(interval_us*1000L/N_SYM_PER_SLOT);
- if (XRAN_STOPPED == xran_if_current_state)
- break;
-
- if (likely(XRAN_RUNNING == xran_if_current_state))
- sym_ota_cb(&sym_timer, timer_ctx);
- }
- printf("Closing timing source thread...tx counter %lu, rx counter %lu\n", tx_counter, rx_counter);
-
- return 0;
-}
-
-/* Handle ecpri format. */
-int handle_ecpri_ethertype(struct rte_mbuf *pkt, uint64_t rx_time)
-{
- const struct xran_ecpri_hdr *ecpri_hdr;
- unsigned long t1;
- int32_t ret = MBUF_FREE;
-
- if (rte_pktmbuf_data_len(pkt) < sizeof(struct xran_ecpri_hdr)) {
- print_err("Packet too short - %d bytes", rte_pktmbuf_data_len(pkt));
- return 0;
- }
-
- /* check eCPRI header. */
- ecpri_hdr = rte_pktmbuf_mtod(pkt, struct xran_ecpri_hdr *);
- if(ecpri_hdr == NULL){
- print_err("ecpri_hdr error\n");
- return MBUF_FREE;
- }
-
- switch(ecpri_hdr->cmnhdr.ecpri_mesg_type) {
- case ECPRI_IQ_DATA:
- // t1 = MLogTick();
- ret = process_mbuf(pkt);
- // MLogTask(PID_PROCESS_UP_PKT, t1, MLogTick());
- break;
- // For RU emulation
- case ECPRI_RT_CONTROL_DATA:
- t1 = MLogTick();
- if(xran_dev_get_ctx()->fh_init.io_cfg.id == O_RU) {
- ret = process_cplane(pkt);
- } else {
- print_err("O-DU recevied C-Plane message!");
- }
- MLogTask(PID_PROCESS_CP_PKT, t1, MLogTick());
- break;
- default:
- print_err("Invalid eCPRI message type - %d", ecpri_hdr->cmnhdr.ecpri_mesg_type);
- }
-
- return ret;
-}
-
-int xran_process_prach_sym(void *arg,
- struct rte_mbuf *mbuf,
- void *iq_data_start,
- uint16_t size,
- uint8_t CC_ID,
- uint8_t Ant_ID,
- uint8_t frame_id,
- uint8_t subframe_id,
- uint8_t slot_id,
- uint8_t symb_id,
- uint16_t num_prbu,
- uint16_t start_prbu,
- uint16_t sym_inc,
- uint16_t rb,
- uint16_t sect_id)
-{
- char *pos = NULL;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- uint8_t symb_id_offset;
- uint32_t tti = 0;
- xran_status_t status;
- void *pHandle = NULL;
- struct rte_mbuf *mb;
-
- uint16_t iq_sample_size_bits = 16;
-
- if(p_xran_dev_ctx->xran2phy_mem_ready == 0)
- return 0;
-
- tti = frame_id * SLOTS_PER_SYSTEMFRAME + subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;
-
- status = tti << 16 | symb_id;
-
- if(tti < xran_fs_get_max_slot() && CC_ID < XRAN_MAX_SECTOR_NR && Ant_ID < XRAN_MAX_ANTENNA_NR && symb_id < XRAN_NUM_OF_SYMBOL_PER_SLOT){
- symb_id_offset = symb_id - p_xran_dev_ctx->prach_start_symbol[CC_ID]; //make the storing of prach packets to start from 0 for easy of processing within PHY
- pos = (char*) p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pData;
- if(pos && iq_data_start && size){
- if (p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_CPU_LE_BYTE_ORDER) {
- int idx = 0;
- uint16_t *psrc = (uint16_t *)iq_data_start;
- uint16_t *pdst = (uint16_t *)pos;
- /* network byte (be) order of IQ to CPU byte order (le) */
- for (idx = 0; idx < size/sizeof(int16_t); idx++){
- pdst[idx] = (psrc[idx]>>8) | (psrc[idx]<<8); //rte_be_to_cpu_16(psrc[idx]);
- }
- }else {
- mb = p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pCtrl;
- rte_pktmbuf_free(mb);
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pData = iq_data_start;
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pCtrl = mbuf;
- }
-#ifdef DEBUG_XRAN_BUFFERS
- if (pos[0] != tti % XRAN_N_FE_BUF_LEN ||
- pos[1] != CC_ID ||
- pos[2] != Ant_ID ||
- pos[3] != symb_id){
- printf("%d %d %d %d\n", pos[0], pos[1], pos[2], pos[3]);
- }
-#endif
- } else {
- print_err("pos %p iq_data_start %p size %d\n",pos, iq_data_start, size);
- }
- } else {
- print_err("TTI %d(f_%d sf_%d slot_%d) CC %d Ant_ID %d symb_id %d\n",tti, frame_id, subframe_id, slot_id, CC_ID, Ant_ID, symb_id);
- }
-
-/* if (symb_id == p_xran_dev_ctx->prach_last_symbol[CC_ID] ){
- p_xran_dev_ctx->rx_packet_prach_tracker[tti % XRAN_N_FE_BUF_LEN][CC_ID][symb_id]++;
- if(p_xran_dev_ctx->rx_packet_prach_tracker[tti % XRAN_N_FE_BUF_LEN][CC_ID][symb_id] >= xran_get_num_eAxc(pHandle)){
- if(p_xran_dev_ctx->pPrachCallback[0])
- p_xran_dev_ctx->pPrachCallback[0](p_xran_dev_ctx->pPrachCallbackTag[0], status);
- p_xran_dev_ctx->rx_packet_prach_tracker[tti % XRAN_N_FE_BUF_LEN][CC_ID][symb_id] = 0;
- }
- }
-*/
- return size;
-}
-
-int32_t xran_pkt_validate(void *arg,
- struct rte_mbuf *mbuf,
- void *iq_data_start,
- uint16_t size,
- uint8_t CC_ID,
- uint8_t Ant_ID,
- uint8_t frame_id,
- uint8_t subframe_id,
- uint8_t slot_id,
- uint8_t symb_id,
- struct ecpri_seq_id *seq_id,
- uint16_t num_prbu,
- uint16_t start_prbu,
- uint16_t sym_inc,
- uint16_t rb,
- uint16_t sect_id)
-{
- struct xran_device_ctx * pctx = xran_dev_get_ctx();
- struct xran_common_counters *pCnt = &pctx->fh_counters;
-
- if(pctx->fh_init.io_cfg.id == O_DU) {
- if(xran_check_upul_seqid(NULL, CC_ID, Ant_ID, slot_id, seq_id->seq_id) != XRAN_STATUS_SUCCESS) {
- pCnt->Rx_pkt_dupl++;
- return (XRAN_STATUS_FAIL);
- }
- }else if(pctx->fh_init.io_cfg.id == O_RU) {
- if(xran_check_updl_seqid(NULL, CC_ID, Ant_ID, slot_id, seq_id->seq_id) != XRAN_STATUS_SUCCESS) {
- pCnt->Rx_pkt_dupl++;
- return (XRAN_STATUS_FAIL);
- }
- }else {
- print_err("incorrect dev type %d\n", pctx->fh_init.io_cfg.id);
- }
-
- rx_counter++;
-
- pCnt->Rx_on_time++;
- pCnt->Total_msgs_rcvd++;
-
- return XRAN_STATUS_SUCCESS;
-}
-
-int xran_process_rx_sym(void *arg,
- struct rte_mbuf *mbuf,
- void *iq_data_start,
- uint16_t size,
- uint8_t CC_ID,
- uint8_t Ant_ID,
- uint8_t frame_id,
- uint8_t subframe_id,
- uint8_t slot_id,
- uint8_t symb_id,
- uint16_t num_prbu,
- uint16_t start_prbu,
- uint16_t sym_inc,
- uint16_t rb,
- uint16_t sect_id,
- uint32_t *mb_free)
-{
- char *pos = NULL;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- uint32_t tti = 0;
- xran_status_t status;
- void *pHandle = NULL;
- struct rte_mbuf *mb = NULL;
-
- uint16_t iq_sample_size_bits = 16;
-
- tti = frame_id * SLOTS_PER_SYSTEMFRAME + subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;
-
- status = tti << 16 | symb_id;
-
- if(tti < xran_fs_get_max_slot() && CC_ID < XRAN_MAX_SECTOR_NR && Ant_ID < XRAN_MAX_ANTENNA_NR && symb_id < XRAN_NUM_OF_SYMBOL_PER_SLOT){
- pos = (char*) p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pData;
- pos += start_prbu * N_SC_PER_PRB*(iq_sample_size_bits/8)*2;
- if(pos && iq_data_start && size){
- if (p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_CPU_LE_BYTE_ORDER) {
- int idx = 0;
- uint16_t *psrc = (uint16_t *)iq_data_start;
- uint16_t *pdst = (uint16_t *)pos;
- rte_panic("XRAN_CPU_LE_BYTE_ORDER is not supported 0x16%lx\n", (long)mb);
- /* network byte (be) order of IQ to CPU byte order (le) */
- for (idx = 0; idx < size/sizeof(int16_t); idx++){
- pdst[idx] = (psrc[idx]>>8) | (psrc[idx]<<8); //rte_be_to_cpu_16(psrc[idx]);
- }
- } else if (likely(p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_NE_BE_BYTE_ORDER)){
- if (likely (p_xran_dev_ctx->fh_init.mtu >=
- p_xran_dev_ctx->fh_cfg.nULRBs * N_SC_PER_PRB*(iq_sample_size_bits/8)*2)) {
- /* no fragmentation */
- mb = p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pCtrl;
- if(mb){
- rte_pktmbuf_free(mb);
- }else{
- print_err("mb==NULL\n");
- }
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pData = iq_data_start;
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pCtrl = mbuf;
- *mb_free = MBUF_KEEP;
- } else {
- /* packet can be fragmented copy RBs */
- rte_memcpy(pos, iq_data_start, size);
- *mb_free = MBUF_FREE;
- }
- }
-#ifdef DEBUG_XRAN_BUFFERS
- if (pos[0] != tti % XRAN_N_FE_BUF_LEN ||
- pos[1] != CC_ID ||
- pos[2] != Ant_ID ||
- pos[3] != symb_id){
- printf("%d %d %d %d\n", pos[0], pos[1], pos[2], pos[3]);
- }
-#endif
- } else {
- print_err("pos %p iq_data_start %p size %d\n",pos, iq_data_start, size);
- }
- } else {
- print_err("TTI %d(f_%d sf_%d slot_%d) CC %d Ant_ID %d symb_id %d\n",tti, frame_id, subframe_id, slot_id, CC_ID, Ant_ID, symb_id);
- }
-
- return size;
-}
-
-/* Send burst of packets on an output interface */
-static inline int
-xran_send_burst(struct xran_device_ctx *dev, uint16_t n, uint16_t port)
-{
- struct rte_mbuf **m_table;
- struct rte_mbuf *m;
- int32_t i = 0;
- int j;
- int32_t ret = 0;
-
- m_table = (struct rte_mbuf **)dev->tx_mbufs[port].m_table;
-
- for(i = 0; i < n; i++){
- rte_mbuf_sanity_check(m_table[i], 0);
- /*rte_pktmbuf_dump(stdout, m_table[i], 256);*/
- tx_counter++;
- ret += xran_ethdi_mbuf_send(m_table[i], ETHER_TYPE_ECPRI);
- }
-
-
- if (unlikely(ret < n)) {
- print_err("ret < n\n");
- }
-
- return 0;
-}
-
-
-int xran_process_tx_sym(void *arg)
-{
- uint32_t tti=0;
-#if XRAN_MLOG_VAR
- uint32_t mlogVar[10];
- uint32_t mlogVarCnt = 0;
-#endif
- unsigned long t1 = MLogTick();
-
- void *pHandle = NULL;
- int32_t ant_id;
- int32_t cc_id = 0;
- uint8_t num_eAxc = 0;
- uint8_t num_CCPorts = 0;
-
- uint32_t frame_id = 0;
- uint32_t subframe_id = 0;
- uint32_t slot_id = 0;
- uint32_t sym_id = 0;
- uint32_t sym_idx = 0;
-
- char *pos = NULL;
- void *mb = NULL;
- int prb_num = 0;
- uint16_t iq_sample_size_bits = 16; // TODO: make dynamic per
-
- struct xran_section_info *sectinfo;
- uint32_t next;
- uint32_t num_sections;
- uint8_t ctx_id;
-
- enum xran_pkt_dir direction;
-
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;
-
- if(p_xran_dev_ctx->xran2phy_mem_ready == 0)
- return 0;
-
- if(p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) {
- direction = XRAN_DIR_DL; /* lls-CU */
- prb_num = p_xran_dev_ctx->fh_cfg.nDLRBs;
- } else {
- direction = XRAN_DIR_UL; /* RU */
- prb_num = p_xran_dev_ctx->fh_cfg.nULRBs;
- }
-
- /* RU: send symb after OTA time with delay (UL) */
- /* lls-CU:send symb in advance of OTA time (DL) */
- sym_idx = XranOffsetSym(p_xran_dev_ctx->sym_up, xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT*SLOTNUM_PER_SUBFRAME*1000);
-
- tti = XranGetTtiNum(sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);
- slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);
- subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- frame_id = XranGetFrameNum(tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
- sym_id = XranGetSymNum(sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);
- ctx_id = XranGetSlotNum(tti, SLOTS_PER_SYSTEMFRAME) % XRAN_MAX_SECTIONDB_CTX;
-
- print_dbg("[%d]SFN %d sf %d slot %d\n", tti, frame_id, subframe_id, slot_id);
-
-#if XRAN_MLOG_VAR
- mlogVar[mlogVarCnt++] = 0xAAAAAAAA;
- mlogVar[mlogVarCnt++] = xran_lib_ota_sym_idx;
- mlogVar[mlogVarCnt++] = sym_idx;
- mlogVar[mlogVarCnt++] = abs(p_xran_dev_ctx->sym_up);
- mlogVar[mlogVarCnt++] = tti;
- mlogVar[mlogVarCnt++] = frame_id;
- mlogVar[mlogVarCnt++] = subframe_id;
- mlogVar[mlogVarCnt++] = slot_id;
- mlogVar[mlogVarCnt++] = sym_id;
- MLogAddVariables(mlogVarCnt, mlogVar, MLogTick());
-#endif
-
- if(frame_id > 99) {
- print_err("OTA %d: TX:[sym_idx %d: TTI %d] fr %d sf %d slot %d sym %d\n",xran_lib_ota_sym_idx, sym_idx, tti, frame_id, subframe_id, slot_id, sym_id);
- xran_if_current_state = XRAN_STOPPED;
- }
-
- num_eAxc = xran_get_num_eAxc(pHandle);
- num_CCPorts = xran_get_num_cc(pHandle);
-
- /* U-Plane */
- for(ant_id = 0; ant_id < num_eAxc; ant_id++) {
- for(cc_id = 0; cc_id < num_CCPorts; cc_id++) {
- if(p_xran_dev_ctx->fh_init.io_cfg.id == O_DU
- && p_xran_dev_ctx->enableCP) {
- /*==== lls-CU and C-Plane has been enabled ===*/
- next = 0;
- num_sections = xran_cp_getsize_section_info(pHandle, direction, cc_id, ant_id, ctx_id);
- /* iterate C-Plane configuration to generate corresponding U-Plane */
- while(next < num_sections) {
- sectinfo = xran_cp_iterate_section_info(pHandle, direction, cc_id, ant_id, ctx_id, &next);
-
- if(sectinfo == NULL)
- break;
-
- if(sectinfo->type != XRAN_CP_SECTIONTYPE_1) { /* only supports type 1 */
- print_err("Invalid section type in section DB - %d", sectinfo->type);
- continue;
- }
-
- /* skip, if not scheduled */
- if(sym_id < sectinfo->startSymId || sym_id >= sectinfo->startSymId + sectinfo->numSymbol)
- continue;
-
- /* if(sectinfo->compMeth)
- iq_sample_size_bits = sectinfo->iqWidth;*/
-
- if(iq_sample_size_bits != 16) {/* TODO: support for compression */
- print_err("Incorrect iqWidth %d", iq_sample_size_bits);
- iq_sample_size_bits = 16;
- }
-
- print_dbg(">>> sym %2d [%d] type%d, id %d, startPrbc=%d, numPrbc=%d, numSymbol=%d\n", sym_id, next,
- sectinfo->type, sectinfo->id, sectinfo->startPrbc,
- sectinfo->numPrbc, sectinfo->numSymbol);
-
- p_xran_dev_ctx->tx_mbufs[0].len = 0;
- uint16_t len = p_xran_dev_ctx->tx_mbufs[0].len;
- int16_t len2 = 0;
- uint16_t i = 0;
-
- //Added for Klocworks
- if (len >= MBUF_TABLE_SIZE)
- len = MBUF_TABLE_SIZE - 1;
-
- pos = (char*) p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pData;
- mb = p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pCtrl;
-
- /* first all PRBs */
- prepare_symbol_ex(direction, sectinfo->id,
- mb,
- (struct rb_map *)pos,
- p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,
- frame_id, subframe_id, slot_id, sym_id,
- sectinfo->startPrbc, sectinfo->numPrbc,
- cc_id, ant_id,
- xran_get_updl_seqid(pHandle, cc_id, ant_id),
- 0);
-
- /* if we don't need to do any fragmentation */
- if (likely (p_xran_dev_ctx->fh_init.mtu >=
- sectinfo->numPrbc * N_SC_PER_PRB*(iq_sample_size_bits/8)*2)) {
- /* no fragmentation */
- p_xran_dev_ctx->tx_mbufs[0].m_table[len] = mb;
- len2 = 1;
- } else {
- /* fragmentation */
- len2 = xran_app_fragment_packet(mb,
- &p_xran_dev_ctx->tx_mbufs[0].m_table[len],
- (uint16_t)(MBUF_TABLE_SIZE - len),
- p_xran_dev_ctx->fh_init.mtu,
- p_xran_dev_ctx->direct_pool,
- p_xran_dev_ctx->indirect_pool,
- sectinfo,
- xran_get_updl_seqid_addr(pHandle, cc_id, ant_id));
-
- /* Free input packet */
- rte_pktmbuf_free(mb);
-
- /* If we fail to fragment the packet */
- if (unlikely (len2 < 0)){
- print_err("len2= %d\n", len2);
- return 0;
- }
- }
-
- if(len2 > 1){
- for (i = len; i < len + len2; i ++) {
- struct rte_mbuf *m;
- m = p_xran_dev_ctx->tx_mbufs[0].m_table[i];
- struct ether_hdr *eth_hdr = (struct ether_hdr *)
- rte_pktmbuf_prepend(m, (uint16_t)sizeof(struct ether_hdr));
- if (eth_hdr == NULL) {
- rte_panic("No headroom in mbuf.\n");
- }
- }
- }
-
- len += len2;
-
- if (unlikely(len > XRAN_MAX_PKT_BURST_PER_SYM)) {
- rte_panic("XRAN_MAX_PKT_BURST_PER_SYM\n");
- }
-
- /* Transmit packets */
- xran_send_burst(p_xran_dev_ctx, (uint16_t)len, 0);
- p_xran_dev_ctx->tx_mbufs[0].len = 0;
- } /* while(section) */
-
- }
- else {
- /*==== RU or C-Plane is disabled ===*/
- xRANPrachCPConfigStruct *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);
-
- if(xran_fs_get_slot_type(cc_id, tti, ((p_xran_dev_ctx->fh_init.io_cfg.id == O_DU)? XRAN_SLOT_TYPE_DL : XRAN_SLOT_TYPE_UL)) == 1
- || xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_SP) == 1
- || xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_FDD) == 1){
-
- if(xran_fs_get_symbol_type(cc_id, tti, sym_id) == ((p_xran_dev_ctx->fh_init.io_cfg.id == O_DU)? XRAN_SYMBOL_TYPE_DL : XRAN_SYMBOL_TYPE_UL)
- || xran_fs_get_symbol_type(cc_id, tti, sym_id) == XRAN_SYMBOL_TYPE_FDD){
-
- if(iq_sample_size_bits != 16)
- print_err("Incorrect iqWidth %d\n", iq_sample_size_bits );
-
- pos = (char*) p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pData;
- mb = (void*) p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pCtrl;
-
- if( prb_num > 136 || prb_num == 0) {
- uint16_t sec_id = xran_alloc_sectionid(pHandle, direction, cc_id, ant_id, slot_id);
- /* first 136 PRBs */
- send_symbol_ex(direction,
- sec_id,
- NULL,
- (struct rb_map *)pos,
- p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,
- frame_id, subframe_id, slot_id, sym_id,
- 0, 136,
- cc_id, ant_id,
- (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?
- xran_get_updl_seqid(pHandle, cc_id, ant_id) :
- xran_get_upul_seqid(pHandle, cc_id, ant_id));
-
- pos += 136 * N_SC_PER_PRB * (iq_sample_size_bits/8)*2;
- /* last 137 PRBs */
- send_symbol_ex(direction, sec_id,
- NULL,
- (struct rb_map *)pos,
- p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,
- frame_id, subframe_id, slot_id, sym_id,
- 136, 137,
- cc_id, ant_id,
- (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?
- xran_get_updl_seqid(pHandle, cc_id, ant_id) :
- xran_get_upul_seqid(pHandle, cc_id, ant_id));
- } else {
-#ifdef DEBUG_XRAN_BUFFERS
- if (pos[0] != tti % XRAN_N_FE_BUF_LEN ||
- pos[1] != cc_id ||
- pos[2] != ant_id ||
- pos[3] != sym_id)
- printf("%d %d %d %d\n", pos[0], pos[1], pos[2], pos[3]);
-#endif
- send_symbol_ex(direction,
- xran_alloc_sectionid(pHandle, direction, cc_id, ant_id, slot_id),
- (struct rte_mbuf *)mb,
- (struct rb_map *)pos,
- p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,
- frame_id, subframe_id, slot_id, sym_id,
- 0, prb_num,
- cc_id, ant_id,
- (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?
- xran_get_updl_seqid(pHandle, cc_id, ant_id) :
- xran_get_upul_seqid(pHandle, cc_id, ant_id));
- }
-
- if(p_xran_dev_ctx->enablePrach
- && (p_xran_dev_ctx->fh_init.io_cfg.id == O_RU)) { /* Only RU needs to send PRACH I/Q */
- uint32_t isPRACHslot = xran_isPRACHSlot(subframe_id, slot_id);
- if((frame_id % pPrachCPConfig->x == pPrachCPConfig->y[0])
- && (isPRACHslot == 1)
- && (sym_id >= p_xran_dev_ctx->prach_start_symbol[cc_id])
- && (sym_id <= p_xran_dev_ctx->prach_last_symbol[cc_id])) { //is prach slot
- for(ant_id = 0; ant_id < num_eAxc; ant_id++) {
- int prach_port_id = ant_id + num_eAxc;
- pos = (char*) p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[0].pData;
- pos += (sym_id - p_xran_dev_ctx->prach_start_symbol[cc_id]) * pPrachCPConfig->numPrbc * N_SC_PER_PRB * 4;
- mb = NULL;//(void*) p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[0].pCtrl;
- send_symbol_ex(direction,
- xran_alloc_sectionid(pHandle, direction, cc_id, prach_port_id, slot_id),
- (struct rte_mbuf *)mb,
- (struct rb_map *)pos,
- p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,
- frame_id, subframe_id, slot_id, sym_id,
- pPrachCPConfig->startPrbc, pPrachCPConfig->numPrbc,
- cc_id, prach_port_id,
- xran_get_upul_seqid(pHandle, cc_id, prach_port_id));
- }
- } /* if((frame_id % pPrachCPConfig->x == pPrachCPConfig->y[0]) .... */
- } /* if(p_xran_dev_ctx->enablePrach ..... */
-
- } /* RU mode or C-Plane is not used */
- }
- }
- } /* for(cc_id = 0; cc_id < num_CCPorts; cc_id++) */
- } /* for(ant_id = 0; ant_id < num_eAxc; ant_id++) */
-
- MLogTask(PID_PROCESS_TX_SYM, t1, MLogTick());
- return 0;
-}
-
-int xran_packet_and_dpdk_timer_thread(void *args)
-{
- struct xran_ethdi_ctx *const ctx = xran_ethdi_get_ctx();
-
- uint64_t prev_tsc = 0;
- uint64_t cur_tsc = rte_rdtsc();
- uint64_t diff_tsc = cur_tsc - prev_tsc;
- cpu_set_t cpuset;
- struct sched_param sched_param;
- int res = 0;
- printf("%s [CPU %2d] [PID: %6d]\n", __FUNCTION__, rte_lcore_id(), getpid());
-
- sched_param.sched_priority = XRAN_THREAD_DEFAULT_PRIO;
-
- if ((res = pthread_setschedparam(pthread_self(), 1, &sched_param)))
- {
- printf("priority is not changed: coreId = %d, result1 = %d\n",rte_lcore_id(), res);
- }
-
- while(1){
-
- cur_tsc = rte_rdtsc();
- diff_tsc = cur_tsc - prev_tsc;
- if (diff_tsc > TIMER_RESOLUTION_CYCLES) {
- rte_timer_manage();
- prev_tsc = cur_tsc;
- }
-
- if (XRAN_STOPPED == xran_if_current_state)
- break;
- }
-
- printf("Closing pkts timer thread...\n");
- return 0;
-}
-
-
-int32_t
-xran_init(int argc, char *argv[],
- struct xran_fh_init *p_xran_fh_init, char *appName, void ** pXranLayerHandle)
-{
- int32_t i;
- int32_t j;
-
- struct xran_io_loop_cfg *p_io_cfg = (struct xran_io_loop_cfg *)&p_xran_fh_init->io_cfg;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- int32_t lcore_id = 0;
- char filename[64];
-
- memset(p_xran_dev_ctx, 0, sizeof(struct xran_device_ctx));
-
- /* copy init */
- p_xran_dev_ctx->fh_init = *p_xran_fh_init;
-
- printf(" %s: MTU %d\n", __FUNCTION__, p_xran_dev_ctx->fh_init.mtu);
-
- xran_if_current_state = XRAN_INIT;
-
- memcpy(&(p_xran_dev_ctx->eAxc_id_cfg), &(p_xran_fh_init->eAxCId_conf), sizeof(struct xran_eaxcid_config));
-
- p_xran_dev_ctx->enableCP = p_xran_fh_init->enableCP;
- p_xran_dev_ctx->enablePrach = p_xran_fh_init->prachEnable;
- p_xran_dev_ctx->DynamicSectionEna = p_xran_fh_init->DynamicSectionEna;
-
- xran_register_ethertype_handler(ETHER_TYPE_ECPRI, handle_ecpri_ethertype);
- if (p_io_cfg->id == 0)
- xran_ethdi_init_dpdk_io(p_xran_fh_init->filePrefix,
- p_io_cfg,
- &lcore_id,
- (struct ether_addr *)p_xran_fh_init->p_o_du_addr,
- (struct ether_addr *)p_xran_fh_init->p_o_ru_addr,
- p_xran_fh_init->cp_vlan_tag,
- p_xran_fh_init->up_vlan_tag);
- else
- xran_ethdi_init_dpdk_io(p_xran_fh_init->filePrefix,
- p_io_cfg,
- &lcore_id,
- (struct ether_addr *)p_xran_fh_init->p_o_ru_addr,
- (struct ether_addr *)p_xran_fh_init->p_o_du_addr,
- p_xran_fh_init->cp_vlan_tag,
- p_xran_fh_init->up_vlan_tag);
-
- for(i = 0; i < 10; i++ )
- rte_timer_init(&tti_to_phy_timer[i]);
-
- rte_timer_init(&sym_timer);
- for (i = 0; i< MAX_NUM_OF_DPDK_TIMERS; i++)
- rte_timer_init(&dpdk_timer[i]);
-
- p_xran_dev_ctx->direct_pool = socket_direct_pool;
- p_xran_dev_ctx->indirect_pool = socket_indirect_pool;
-
- printf("Set debug stop %d, debug stop count %d\n", p_xran_fh_init->debugStop, p_xran_fh_init->debugStopCount);
- timing_set_debug_stop(p_xran_fh_init->debugStop, p_xran_fh_init->debugStopCount);
-
- for (uint32_t nCellIdx = 0; nCellIdx < XRAN_MAX_SECTOR_NR; nCellIdx++){
- xran_fs_clear_slot_type(nCellIdx);
- }
-
- *pXranLayerHandle = p_xran_dev_ctx;
-
- return 0;
-}
-
-int32_t xran_sector_get_instances (void * pDevHandle, uint16_t nNumInstances,
- xran_cc_handle_t * pSectorInstanceHandles)
-{
- xran_status_t nStatus = XRAN_STATUS_FAIL;
- struct xran_device_ctx *pDev = (struct xran_device_ctx *)pDevHandle;
- XranSectorHandleInfo *pCcHandle = NULL;
- int32_t i = 0;
-
- /* Check for the Valid Parameters */
- CHECK_NOT_NULL (pSectorInstanceHandles, XRAN_STATUS_INVALID_PARAM);
-
- if (!nNumInstances) {
- print_dbg("Instance is not assigned for this function !!! \n");
- return XRAN_STATUS_INVALID_PARAM;
- }
-
- for (i = 0; i < nNumInstances; i++) {
-
- /* Allocate Memory for CC handles */
- pCcHandle = (XranSectorHandleInfo *) _mm_malloc( /*"xran_cc_handles",*/ sizeof (XranSectorHandleInfo), 64);
-
- if(pCcHandle == NULL)
- return XRAN_STATUS_RESOURCE;
-
- memset (pCcHandle, 0, (sizeof (XranSectorHandleInfo)));
-
- pCcHandle->nIndex = i;
- pCcHandle->nXranPort = pDev->xran_port_id;
-
- printf("%s [%d]: CC %d handle %p\n", __FUNCTION__, pDev->xran_port_id, i, pCcHandle);
- pLibInstanceHandles[pDev->xran_port_id][i] = pSectorInstanceHandles[i] = pCcHandle;
-
- printf("Handle: %p Instance: %p\n",
- &pSectorInstanceHandles[i], pSectorInstanceHandles[i]);
- }
-
- return XRAN_STATUS_SUCCESS;
-}
-
-int32_t xran_mm_init (void * pHandle, uint64_t nMemorySize,
- uint32_t nMemorySegmentSize)
-{
- /* we use mbuf from dpdk memory */
- return 0;
-}
-
-int32_t xran_bm_init (void * pHandle, uint32_t * pPoolIndex, uint32_t nNumberOfBuffers, uint32_t nBufferSize)
-{
- XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;
- uint32_t nAllocBufferSize;
-
- char pool_name[RTE_MEMPOOL_NAMESIZE];
-
- snprintf(pool_name, RTE_MEMPOOL_NAMESIZE, "ru_%d_cc_%d_idx_%d",
- pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex);
-
- nAllocBufferSize = nBufferSize + sizeof(struct ether_hdr) +
- sizeof (struct xran_ecpri_hdr) +
- sizeof (struct radio_app_common_hdr) +
- sizeof(struct data_section_hdr) + 256;
-
-
- printf("%s: [ handle %p %d %d ] [nPoolIndex %d] nNumberOfBuffers %d nBufferSize %d\n", pool_name,
- pXranCc, pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex, nNumberOfBuffers, nBufferSize);
-
- pXranCc->p_bufferPool[pXranCc->nBufferPoolIndex] = rte_pktmbuf_pool_create(pool_name, nNumberOfBuffers,
- MBUF_CACHE, 0, nAllocBufferSize, rte_socket_id());
-
- if(pXranCc->p_bufferPool[pXranCc->nBufferPoolIndex] == NULL){
- rte_panic("rte_pktmbuf_pool_create failed [ handle %p %d %d ] [nPoolIndex %d] nNumberOfBuffers %d nBufferSize %d errno %s\n",
- pXranCc, pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex, nNumberOfBuffers, nBufferSize, rte_strerror(rte_errno));
- return -1;
- }
-
- pXranCc->bufferPoolElmSz[pXranCc->nBufferPoolIndex] = nBufferSize;
- pXranCc->bufferPoolNumElm[pXranCc->nBufferPoolIndex] = nNumberOfBuffers;
-
- printf("CC:[ handle %p ru %d cc_idx %d ] [nPoolIndex %d] mb pool %p \n",
- pXranCc, pXranCc->nXranPort, pXranCc->nIndex,
- pXranCc->nBufferPoolIndex, pXranCc->p_bufferPool[pXranCc->nBufferPoolIndex]);
-
- *pPoolIndex = pXranCc->nBufferPoolIndex++;
-
- return 0;
-}
-
-int32_t xran_bm_allocate_buffer(void * pHandle, uint32_t nPoolIndex, void **ppData, void **ppCtrl)
-{
- XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;
- *ppData = NULL;
- *ppCtrl = NULL;
-
- struct rte_mbuf * mb = rte_pktmbuf_alloc(pXranCc->p_bufferPool[nPoolIndex]);
-
- if(mb){
- char * start = rte_pktmbuf_append(mb, pXranCc->bufferPoolElmSz[nPoolIndex]);
- char * ethhdr = rte_pktmbuf_prepend(mb, sizeof(struct ether_hdr));
-
- if(start && ethhdr){
- char * iq_offset = rte_pktmbuf_mtod(mb, char * );
- /* skip headers */
- iq_offset = iq_offset + sizeof(struct ether_hdr) +
- sizeof (struct xran_ecpri_hdr) +
- sizeof (struct radio_app_common_hdr) +
- sizeof(struct data_section_hdr);
-
- if (0) /* if compression */
- iq_offset += sizeof (struct data_section_compression_hdr);
-
- *ppData = (void *)iq_offset;
- *ppCtrl = (void *)mb;
- }
- else {
- print_err("[nPoolIndex %d] start ethhdr failed \n", nPoolIndex );
- return -1;
- }
- }else {
- print_err("[nPoolIndex %d] mb alloc failed \n", nPoolIndex );
- return -1;
- }
-
- if (*ppData == NULL){
- print_err("[nPoolIndex %d] rte_pktmbuf_append for %d failed \n", nPoolIndex, pXranCc->bufferPoolElmSz[nPoolIndex]);
- return -1;
- }
-
- return 0;
-}
-
-int32_t xran_bm_free_buffer(void * pHandle, void *pData, void *pCtrl)
-{
- XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;
-
- if(pCtrl)
- rte_pktmbuf_free(pCtrl);
-
- return 0;
-}
-
-int32_t xran_5g_fronthault_config (void * pHandle,
- struct xran_buffer_list *pSrcBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],
- struct xran_buffer_list *pSrcCpBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],
- struct xran_buffer_list *pDstBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],
- struct xran_buffer_list *pDstCpBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],
- xran_transport_callback_fn pCallback,
- void *pCallbackTag)
-{
- XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;
- xran_status_t nStatus = XRAN_STATUS_SUCCESS;
- int j, i = 0, z, k;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- print_dbg("%s\n", __FUNCTION__);
-
- if(NULL == pHandle)
- {
- printf("Handle is NULL!\n");
- return XRAN_STATUS_FAIL;
- }
-
- if (pCallback == NULL)
- {
- printf ("no callback\n");
- return XRAN_STATUS_FAIL;
- }
-
- i = pXranCc->nIndex;
-
- for(j=0; j<XRAN_N_FE_BUF_LEN; j++)
- {
- for(z = 0; z < XRAN_MAX_ANTENNA_NR; z++){
- /* U-plane TX */
-
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].bValid = 0;
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulTxBuffers[j][i][z][0];
-
- p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList = *pSrcBuffer[z][j];
-
- /* C-plane TX */
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].bValid = 0;
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].nSegGenerated = -1;
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].nSegTransferred = 0;
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulTxPrbMapBuffers[j][i][z][0];
-
- p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList = *pSrcCpBuffer[z][j];
-
- /* U-plane RX */
-
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].bValid = 0;
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulRxBuffers[j][i][z][0];
-
- p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList = *pDstBuffer[z][j];
-
- /* C-plane RX */
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].bValid = 0;
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].nSegGenerated = -1;
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].nSegTransferred = 0;
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulRxPrbMapBuffers[j][i][z][0];
-
- p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList = *pDstCpBuffer[z][j];
- }
- }
-
-#if 0
- for(j=0; j<XRAN_N_FE_BUF_LEN; j++)
- for(z = 0; z < XRAN_MAX_ANTENNA_NR; z++){
- printf("TTI:TX 0x%02x Sec %d Ant%d\n",j,i,z);
- for(k = 0; k <XRAN_NUM_OF_SYMBOL_PER_SLOT; k++){
- uint8_t *ptr = p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers[k].pData;
- printf(" sym: %2d %p 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", k, ptr, ptr[0],ptr[1], ptr[2], ptr[3], ptr[4]);
- }
- }
-
- for(j=0; j<XRAN_N_FE_BUF_LEN; j++)
- for(z = 0; z < XRAN_MAX_ANTENNA_NR; z++){
- printf("TTI:RX 0x%02x Sec %d Ant%d\n",j,i,z);
- for(k = 0; k <XRAN_NUM_OF_SYMBOL_PER_SLOT; k++){
- uint8_t *ptr = p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers[k].pData;
- printf(" sym: %2d %p 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", k, ptr, ptr[0],ptr[1], ptr[2], ptr[3], ptr[4]);
- }
- }
-#endif
-
- p_xran_dev_ctx->pCallback[i] = pCallback;
- p_xran_dev_ctx->pCallbackTag[i] = pCallbackTag;
-
- p_xran_dev_ctx->xran2phy_mem_ready = 1;
-
- return nStatus;
-}
-
-int32_t xran_5g_prach_req (void * pHandle,
- struct xran_buffer_list *pDstBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],
- xran_transport_callback_fn pCallback,
- void *pCallbackTag)
-{
- XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;
- xran_status_t nStatus = XRAN_STATUS_SUCCESS;
- int j, i = 0, z;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- if(NULL == pHandle)
- {
- printf("Handle is NULL!\n");
- return XRAN_STATUS_FAIL;
- }
- if (pCallback == NULL)
- {
- printf ("no callback\n");
- return XRAN_STATUS_FAIL;
- }
-
- i = pXranCc->nIndex;
-
- for(j=0; j<XRAN_N_FE_BUF_LEN; j++)
- {
- for(z = 0; z < XRAN_MAX_ANTENNA_NR; z++){
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].bValid = 0;
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_MAX_ANTENNA_NR; // ant number.
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFHPrachRxBuffers[j][i][z][0];
- p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList = *pDstBuffer[z][j];
- }
- }
-
- p_xran_dev_ctx->pPrachCallback[i] = pCallback;
- p_xran_dev_ctx->pPrachCallbackTag[i] = pCallbackTag;
-
- return 0;
-}
-
-int32_t xran_open(void *pHandle, struct xran_fh_config* pConf)
-{
- int32_t i;
- uint8_t nNumerology = 0;
- int32_t lcore_id = 0;
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
- struct xran_fh_config *pFhCfg;
- pFhCfg = &(p_xran_dev_ctx->fh_cfg);
-
- memcpy(pFhCfg, pConf, sizeof(struct xran_fh_config));
-
- nNumerology = xran_get_conf_numerology(pHandle);
-
- if (pConf->nCC > XRAN_MAX_SECTOR_NR)
- {
- if(pConf->log_level)
- printf("Number of cells %d exceeds max number supported %d!\n", pConf->nCC, XRAN_MAX_SECTOR_NR);
- pConf->nCC = XRAN_MAX_SECTOR_NR;
-
- }
- if(pConf->ru_conf.iqOrder != XRAN_I_Q_ORDER
- || pConf->ru_conf.byteOrder != XRAN_NE_BE_BYTE_ORDER ){
-
- print_err("Byte order and/or IQ order is not suppirted [IQ %d byte %d]\n", pConf->ru_conf.iqOrder, pConf->ru_conf.byteOrder);
- return XRAN_STATUS_FAIL;
- }
-
- //setup PRACH configuration for C-Plane
- xran_init_prach(pConf, p_xran_dev_ctx);
-
- xran_cp_init_sectiondb(pHandle);
- xran_init_sectionid(pHandle);
- xran_init_seqid(pHandle);
-
- interval_us = xran_fs_get_tti_interval(nNumerology);
-
- if(pConf->log_level){
- printf("%s: interval_us=%ld\n", __FUNCTION__, interval_us);
- }
- timing_set_numerology(nNumerology);
-
- for(i = 0 ; i <pConf->nCC; i++){
- xran_fs_set_slot_type(i, pConf->frame_conf.nFrameDuplexType, pConf->frame_conf.nTddPeriod,
- pConf->frame_conf.sSlotConfig);
- }
-
- xran_fs_slot_limit_init(xran_fs_get_tti_interval(nNumerology));
-
- if(xran_ethdi_get_ctx()->io_cfg.bbdev_mode != XRAN_BBDEV_NOT_USED){
- p_xran_dev_ctx->bbdev_dec = pConf->bbdev_dec;
- p_xran_dev_ctx->bbdev_enc = pConf->bbdev_enc;
- }
-
- /* Start packet processing thread */
- if((uint16_t)xran_ethdi_get_ctx()->io_cfg.port[XRAN_UP_VF] != 0xFFFF &&
- (uint16_t)xran_ethdi_get_ctx()->io_cfg.port[XRAN_CP_VF] != 0xFFFF ){
- if(pConf->log_level){
- print_dbg("XRAN_UP_VF: 0x%04x\n", xran_ethdi_get_ctx()->io_cfg.port[XRAN_UP_VF]);
- print_dbg("XRAN_CP_VF: 0x%04x\n", xran_ethdi_get_ctx()->io_cfg.port[XRAN_CP_VF]);
- }
- if (rte_eal_remote_launch(xran_timing_source_thread, xran_dev_get_ctx(), xran_ethdi_get_ctx()->io_cfg.timing_core))
- rte_panic("thread_run() failed to start\n");
- } else
- if(pConf->log_level){
- printf("Eth port was not open. Processing thread was not started\n");
- }
-
-
-
- return 0;
-}
-
-int32_t xran_start(void *pHandle)
-{
- xran_if_current_state = XRAN_RUNNING;
- return 0;
-}
-
-int32_t xran_stop(void *pHandle)
-{
- xran_if_current_state = XRAN_STOPPED;
- return 0;
-}
-
-int32_t xran_close(void *pHandle)
-{
- xran_if_current_state = XRAN_STOPPED;
- //TODO: fix memory leak xran_cp_free_sectiondb(pHandle);
- //rte_eal_mp_wait_lcore();
- //xran_ethdi_ports_stats();
-
- return 0;
-}
-
-int32_t xran_mm_destroy (void * pHandle)
-{
- /* functionality is not yet implemented */
- return -1;
-}
-
-int32_t xran_reg_sym_cb(void *pHandle, xran_callback_sym_fn symCb, void * symCbParam, uint8_t symb, uint8_t ant)
-{
- /* functionality is not yet implemented */
- return -1;
-}
-
-int32_t xran_reg_physide_cb(void *pHandle, xran_fh_tti_callback_fn Cb, void *cbParam, int skipTtiNum, enum callback_to_phy_id id)
-{
- struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
-
- p_xran_dev_ctx->ttiCb[id] = Cb;
- p_xran_dev_ctx->TtiCbParam[id] = cbParam;
- p_xran_dev_ctx->SkipTti[id] = skipTtiNum;
-
- return 0;
-}
-
-int32_t xran_get_slot_idx (uint32_t *nFrameIdx, uint32_t *nSubframeIdx, uint32_t *nSlotIdx, uint64_t *nSecond)
-{
- int32_t tti = 0;
-
- tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);
- *nSlotIdx = (uint32_t)XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);
- *nSubframeIdx = (uint32_t)XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);
- *nFrameIdx = (uint32_t)XranGetFrameNum(tti,SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);
- *nSecond = timing_get_current_second();
-
- return tti;
-}
-
-
-/**
- * @brief Get the configuration of eAxC ID
- *
- * @return the pointer of configuration
- */
-inline struct xran_eaxcid_config *xran_get_conf_eAxC(void *pHandle)
-{
- return (&(xran_dev_get_ctx()->eAxc_id_cfg));
-}
-
-/**
- * @brief Get the configuration of subcarrier spacing for PRACH
- *
- * @return subcarrier spacing value for PRACH
- */
-inline uint8_t xran_get_conf_prach_scs(void *pHandle)
-{
- return (xran_lib_get_ctx_fhcfg()->prach_conf.nPrachSubcSpacing);
-}
-
-/**
- * @brief Get the configuration of FFT size for RU
- *
- * @return FFT size value for RU
- */
-inline uint8_t xran_get_conf_fftsize(void *pHandle)
-{
- return (xran_lib_get_ctx_fhcfg()->ru_conf.fftSize);
-}
-
-/**
- * @brief Get the configuration of nummerology
- *
- * @return Configured numerology
- */
-inline uint8_t xran_get_conf_numerology(void *pHandle)
-{
- return (xran_lib_get_ctx_fhcfg()->frame_conf.nNumerology);
-}
-
-/**
- * @brief Get the configuration of IQ bit width for RU
- *
- * @return IQ bit width for RU
- */
-inline uint8_t xran_get_conf_iqwidth(void *pHandle)
-{
- struct xran_fh_config *pFhCfg;
-
- pFhCfg = xran_lib_get_ctx_fhcfg();
- return ((pFhCfg->ru_conf.iqWidth==16)?0:pFhCfg->ru_conf.iqWidth);
-}
-
-/**
- * @brief Get the configuration of compression method for RU
- *
- * @return Compression method for RU
- */
-inline uint8_t xran_get_conf_compmethod(void *pHandle)
-{
- return (xran_lib_get_ctx_fhcfg()->ru_conf.compMeth);
-}
-
-
-/**
- * @brief Get the configuration of the number of component carriers
- *
- * @return Configured the number of component carriers
- */
-inline uint8_t xran_get_num_cc(void *pHandle)
-{
- return (xran_lib_get_ctx_fhcfg()->nCC);
-}
-
-/**
- * @brief Get the configuration of the number of antenna
- *
- * @return Configured the number of antenna
- */
-inline uint8_t xran_get_num_eAxc(void *pHandle)
-{
- return (xran_lib_get_ctx_fhcfg()->neAxc);
-}
-
-int32_t xran_get_common_counters(void *pXranLayerHandle, struct xran_common_counters *pStats)
-{
- struct xran_device_ctx* pDev = (struct xran_device_ctx*)pXranLayerHandle;
-
- if(pStats && pDev) {
- *pStats = pDev->fh_counters;
- return XRAN_STATUS_SUCCESS;
- } else {
- return XRAN_STATUS_INVALID_PARAM;
- }
-}
-
+/******************************************************************************\r
+*\r
+* Copyright (c) 2019 Intel.\r
+*\r
+* Licensed under the Apache License, Version 2.0 (the "License");\r
+* you may not use this file except in compliance with the License.\r
+* You may obtain a copy of the License at\r
+*\r
+* http://www.apache.org/licenses/LICENSE-2.0\r
+*\r
+* Unless required by applicable law or agreed to in writing, software\r
+* distributed under the License is distributed on an "AS IS" BASIS,\r
+* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\r
+* See the License for the specific language governing permissions and\r
+* limitations under the License.\r
+*\r
+*******************************************************************************/\r
+\r
+/**\r
+ * @brief XRAN main functionality module\r
+ * @file xran_main.c\r
+ * @ingroup group_source_xran\r
+ * @author Intel Corporation\r
+ **/\r
+\r
+#define _GNU_SOURCE\r
+#include <sched.h>\r
+#include <assert.h>\r
+#include <err.h>\r
+#include <libgen.h>\r
+#include <sys/time.h>\r
+#include <sys/queue.h>\r
+#include <time.h>\r
+#include <unistd.h>\r
+#include <stdio.h>\r
+#include <pthread.h>\r
+#include <malloc.h>\r
+\r
+#include <rte_common.h>\r
+#include <rte_eal.h>\r
+#include <rte_errno.h>\r
+#include <rte_lcore.h>\r
+#include <rte_cycles.h>\r
+#include <rte_memory.h>\r
+#include <rte_memzone.h>\r
+#include <rte_mbuf.h>\r
+#include <rte_ring.h>\r
+\r
+#include "xran_fh_o_du.h"\r
+\r
+#include "ethdi.h"\r
+#include "xran_pkt.h"\r
+#include "xran_up_api.h"\r
+#include "xran_cp_api.h"\r
+#include "xran_sync_api.h"\r
+#include "xran_lib_mlog_tasks_id.h"\r
+#include "xran_timer.h"\r
+#include "xran_common.h"\r
+#include "xran_frame_struct.h"\r
+#include "xran_printf.h"\r
+#include "xran_app_frag.h"\r
+\r
+#include "xran_mlog_lnx.h"\r
+\r
+#define DIV_ROUND_OFFSET(X,Y) ( X/Y + ((X%Y)?1:0) )\r
+\r
+#define XranOffsetSym(offSym, otaSym, numSymTotal) (((int32_t)offSym > (int32_t)otaSym) ? \\r
+ ((int32_t)otaSym + ((int32_t)numSymTotal) - (uint32_t)offSym) : \\r
+ (((int32_t)otaSym - (int32_t)offSym) >= numSymTotal) ? \\r
+ (((int32_t)otaSym - (int32_t)offSym) - numSymTotal) : \\r
+ ((int32_t)otaSym - (int32_t)offSym))\r
+\r
+#define MAX_NUM_OF_XRAN_CTX (2)\r
+#define XranIncrementCtx(ctx) ((ctx >= (MAX_NUM_OF_XRAN_CTX-1)) ? 0 : (ctx+1))\r
+#define XranDecrementCtx(ctx) ((ctx == 0) ? (MAX_NUM_OF_XRAN_CTX-1) : (ctx-1))\r
+\r
+#define MAX_NUM_OF_DPDK_TIMERS (10)\r
+#define DpdkTimerIncrementCtx(ctx) ((ctx >= (MAX_NUM_OF_DPDK_TIMERS-1)) ? 0 : (ctx+1))\r
+#define DpdkTimerDecrementCtx(ctx) ((ctx == 0) ? (MAX_NUM_OF_DPDK_TIMERS-1) : (ctx-1))\r
+\r
+/* Difference between Unix seconds to GPS seconds\r
+ GPS epoch: 1980.1.6 00:00:00 (UTC); Unix time epoch: 1970:1.1 00:00:00 UTC\r
+ Value is calculated on Sep.6 2019. Need to be change if International\r
+ Earth Rotation and Reference Systems Service (IERS) adds more leap seconds\r
+ 1970:1.1 - 1980.1.6: 3657 days\r
+ 3657*24*3600=315 964 800 seconds (unix seconds value at 1980.1.6 00:00:00 (UTC))\r
+ There are 18 leap seconds inserted after 1980.1.6 00:00:00 (UTC), which means\r
+ GPS is 18 larger. 315 964 800 - 18 = 315 964 782\r
+*/\r
+#define UNIX_TO_GPS_SECONDS_OFFSET 315964782UL\r
+#define NUM_OF_FRAMES_PER_SECOND 100\r
+\r
+//#define XRAN_CREATE_RBMAP /**< generate slot map base on symbols */\r
+\r
+\r
+struct xran_timer_ctx {\r
+ uint32_t tti_to_process;\r
+};\r
+\r
+static xran_cc_handle_t pLibInstanceHandles[XRAN_PORTS_NUM][XRAN_MAX_SECTOR_NR] = {NULL};\r
+static struct xran_device_ctx g_xran_dev_ctx[XRAN_PORTS_NUM] = { 0 };\r
+\r
+struct xran_timer_ctx timer_ctx[MAX_NUM_OF_XRAN_CTX];\r
+\r
+static struct rte_timer tti_to_phy_timer[10];\r
+static struct rte_timer sym_timer;\r
+static struct rte_timer dpdk_timer[MAX_NUM_OF_DPDK_TIMERS];\r
+\r
+uint64_t interval_us = 1000;\r
+\r
+uint32_t xran_lib_ota_tti = 0; /**< Slot index in a second [0:(1000000/TTI-1)] */\r
+uint32_t xran_lib_ota_sym = 0; /**< Symbol index in a slot [0:13] */\r
+uint32_t xran_lib_ota_sym_idx = 0; /**< Symbol index in a second [0 : 14*(1000000/TTI)-1]\r
+ where TTI is TTI interval in microseconds */\r
+uint16_t xran_SFN_at_Sec_Start = 0; /**< SFN at current second start */\r
+uint16_t xran_max_frame = 1023; /**< value of max frame used. expected to be 99 (old compatibility mode) and 1023 as per section 9.7.2 System Frame Number Calculation */\r
+\r
+static uint8_t xran_cp_seq_id_num[XRAN_MAX_CELLS_PER_PORT][XRAN_DIR_MAX][XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR]; /* XRAN_MAX_ANTENNA_NR * 2 for PUSCH and PRACH */\r
+static uint8_t xran_updl_seq_id_num[XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR];\r
+static uint8_t xran_upul_seq_id_num[XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR]; /**< PUSCH, PRACH, SRS for Cat B */\r
+\r
+static uint8_t xran_section_id_curslot[XRAN_DIR_MAX][XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR * 2+ XRAN_MAX_ANT_ARRAY_ELM_NR];\r
+static uint16_t xran_section_id[XRAN_DIR_MAX][XRAN_MAX_CELLS_PER_PORT][XRAN_MAX_ANTENNA_NR * 2+ XRAN_MAX_ANT_ARRAY_ELM_NR];\r
+static uint64_t xran_total_tick = 0, xran_used_tick = 0;\r
+static uint32_t xran_core_used = 0;\r
+static int32_t first_call = 0;\r
+\r
+\r
+static void\r
+extbuf_free_callback(void *addr __rte_unused, void *opaque __rte_unused)\r
+{\r
+}\r
+\r
+static struct rte_mbuf_ext_shared_info share_data[XRAN_N_FE_BUF_LEN];\r
+\r
+void xran_timer_arm(struct rte_timer *tim, void* arg);\r
+\r
+int32_t xran_process_tx_sym(void *arg);\r
+\r
+int32_t xran_process_rx_sym(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id,\r
+ uint32_t *mb_free);\r
+\r
+int32_t xran_process_prach_sym(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id,\r
+ uint32_t *mb_free);\r
+\r
+int32_t xran_process_srs_sym(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id,\r
+ uint32_t *mb_free);\r
+\r
+\r
+void tti_ota_cb(struct rte_timer *tim, void *arg);\r
+void tti_to_phy_cb(struct rte_timer *tim, void *arg);\r
+void xran_timer_arm_ex(struct rte_timer *tim, void* CbFct, void *CbArg, unsigned tim_lcore);\r
+\r
+// Return SFN at current second start, 10 bits, [0, 1023]\r
+static inline uint16_t xran_getSfnSecStart(void)\r
+{\r
+ return xran_SFN_at_Sec_Start;\r
+}\r
+void xran_updateSfnSecStart(void)\r
+{\r
+ uint64_t currentSecond = timing_get_current_second();\r
+ // Assume always positive\r
+ uint64_t gpsSecond = currentSecond - UNIX_TO_GPS_SECONDS_OFFSET;\r
+ uint64_t nFrames = gpsSecond * NUM_OF_FRAMES_PER_SECOND;\r
+ uint16_t sfn = (uint16_t)(nFrames % (xran_max_frame + 1));\r
+ xran_SFN_at_Sec_Start = sfn;\r
+\r
+ tx_bytes_per_sec = tx_bytes_counter;\r
+ rx_bytes_per_sec = rx_bytes_counter;\r
+ tx_bytes_counter = 0;\r
+ rx_bytes_counter = 0;\r
+}\r
+\r
+static inline int32_t xran_getSlotIdxSecond(void)\r
+{\r
+ int32_t frameIdxSecond = xran_getSfnSecStart();\r
+ int32_t slotIndxSecond = frameIdxSecond * SLOTS_PER_SYSTEMFRAME;\r
+ return slotIndxSecond;\r
+}\r
+\r
+struct xran_device_ctx *xran_dev_get_ctx(void)\r
+{\r
+ return &g_xran_dev_ctx[0];\r
+}\r
+\r
+static inline struct xran_fh_config *xran_lib_get_ctx_fhcfg(void)\r
+{\r
+ return (&(xran_dev_get_ctx()->fh_cfg));\r
+}\r
+\r
+uint16_t xran_get_beamid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id)\r
+{\r
+ return (0); // NO BEAMFORMING\r
+}\r
+\r
+enum xran_if_state xran_get_if_state(void)\r
+{\r
+ return xran_if_current_state;\r
+}\r
+\r
+int xran_is_prach_slot(uint32_t subframe_id, uint32_t slot_id)\r
+{\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ struct xran_prach_cp_config *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);\r
+ int32_t is_prach_slot = 0;\r
+\r
+ if (p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology < 2){\r
+ //for FR1, in 38.211 tab 6.3.3.2-2&3 it is subframe index\r
+ if (pPrachCPConfig->isPRACHslot[subframe_id] == 1){\r
+ if (pPrachCPConfig->nrofPrachInSlot != 1)\r
+ is_prach_slot = 1;\r
+ else{\r
+ if (p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology == 0)\r
+ is_prach_slot = 1;\r
+ else if (slot_id == 1)\r
+ is_prach_slot = 1;\r
+ }\r
+ }\r
+ } else if (p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology == 3){\r
+ //for FR2, 38.211 tab 6.3.3.4 it is slot index of 60kHz slot\r
+ uint32_t slotidx;\r
+ slotidx = subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;\r
+ if (pPrachCPConfig->nrofPrachInSlot == 2){\r
+ if (pPrachCPConfig->isPRACHslot[slotidx>>1] == 1)\r
+ is_prach_slot = 1;\r
+ } else {\r
+ if ((pPrachCPConfig->isPRACHslot[slotidx>>1] == 1) && ((slotidx % 2) == 1)){\r
+ is_prach_slot = 1;\r
+ }\r
+ }\r
+ } else\r
+ print_err("Numerology %d not supported", p_xran_dev_ctx->fh_cfg.frame_conf.nNumerology);\r
+ return is_prach_slot;\r
+}\r
+\r
+int xran_init_sectionid(void *pHandle)\r
+{\r
+ int cell, ant, dir;\r
+\r
+ for (dir = 0; dir < XRAN_DIR_MAX; dir++){\r
+ for(cell=0; cell < XRAN_MAX_CELLS_PER_PORT; cell++) {\r
+ for(ant=0; ant < XRAN_MAX_ANTENNA_NR; ant++) {\r
+ xran_section_id[dir][cell][ant] = 0;\r
+ xran_section_id_curslot[dir][cell][ant] = 255;\r
+ }\r
+ }\r
+ }\r
+\r
+ return (0);\r
+}\r
+\r
+int xran_init_srs(struct xran_fh_config* pConf, struct xran_device_ctx * p_xran_dev_ctx)\r
+{\r
+ struct xran_srs_config *p_srs = &(p_xran_dev_ctx->srs_cfg);\r
+\r
+ if(p_srs){\r
+ p_srs->symbMask = pConf->srs_conf.symbMask;\r
+ p_srs->eAxC_offset = pConf->srs_conf.eAxC_offset;\r
+ print_dbg("SRS sym %d\n", p_srs->symbMask );\r
+ print_dbg("SRS eAxC_offset %d\n", p_srs->eAxC_offset);\r
+ }\r
+ return (XRAN_STATUS_SUCCESS);\r
+}\r
+\r
+\r
+int xran_init_prach(struct xran_fh_config* pConf, struct xran_device_ctx * p_xran_dev_ctx)\r
+{\r
+ int32_t i;\r
+ uint8_t slotNr;\r
+ struct xran_prach_config* pPRACHConfig = &(pConf->prach_conf);\r
+ const xRANPrachConfigTableStruct *pxRANPrachConfigTable;\r
+ uint8_t nNumerology = pConf->frame_conf.nNumerology;\r
+ uint8_t nPrachConfIdx = pPRACHConfig->nPrachConfIdx;\r
+ struct xran_prach_cp_config *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);\r
+\r
+ if (nNumerology > 2)\r
+ pxRANPrachConfigTable = &gxranPrachDataTable_mmw[nPrachConfIdx];\r
+ else if (pConf->frame_conf.nFrameDuplexType == 1)\r
+ pxRANPrachConfigTable = &gxranPrachDataTable_sub6_tdd[nPrachConfIdx];\r
+ else\r
+ pxRANPrachConfigTable = &gxranPrachDataTable_sub6_fdd[nPrachConfIdx];\r
+\r
+ uint8_t preambleFmrt = pxRANPrachConfigTable->preambleFmrt[0];\r
+ const xRANPrachPreambleLRAStruct *pxranPreambleforLRA = &gxranPreambleforLRA[preambleFmrt];\r
+ memset(pPrachCPConfig, 0, sizeof(struct xran_prach_cp_config));\r
+ if(pConf->log_level)\r
+ printf("xRAN open PRACH config: Numerology %u ConfIdx %u, preambleFmrt %u startsymb %u, numSymbol %u, occassionsInPrachSlot %u\n", nNumerology, nPrachConfIdx, preambleFmrt, pxRANPrachConfigTable->startingSym, pxRANPrachConfigTable->duration, pxRANPrachConfigTable->occassionsInPrachSlot);\r
+\r
+ pPrachCPConfig->filterIdx = XRAN_FILTERINDEX_PRACH_ABC; // 3, PRACH preamble format A1~3, B1~4, C0, C2\r
+ pPrachCPConfig->startSymId = pxRANPrachConfigTable->startingSym;\r
+ pPrachCPConfig->startPrbc = pPRACHConfig->nPrachFreqStart;\r
+ pPrachCPConfig->numPrbc = (preambleFmrt >= FORMAT_A1)? 12 : 70;\r
+ pPrachCPConfig->timeOffset = pxranPreambleforLRA->nRaCp;\r
+ pPrachCPConfig->freqOffset = xran_get_freqoffset(pPRACHConfig->nPrachFreqOffset, pPRACHConfig->nPrachSubcSpacing);\r
+ pPrachCPConfig->x = pxRANPrachConfigTable->x;\r
+ pPrachCPConfig->nrofPrachInSlot = pxRANPrachConfigTable->nrofPrachInSlot;\r
+ pPrachCPConfig->y[0] = pxRANPrachConfigTable->y[0];\r
+ pPrachCPConfig->y[1] = pxRANPrachConfigTable->y[1];\r
+ if (preambleFmrt >= FORMAT_A1)\r
+ {\r
+ pPrachCPConfig->numSymbol = pxRANPrachConfigTable->duration;\r
+ pPrachCPConfig->occassionsInPrachSlot = pxRANPrachConfigTable->occassionsInPrachSlot;\r
+ }\r
+ else\r
+ {\r
+ pPrachCPConfig->numSymbol = 1;\r
+ pPrachCPConfig->occassionsInPrachSlot = 1;\r
+ }\r
+\r
+ if(pConf->log_level)\r
+ printf("PRACH: x %u y[0] %u, y[1] %u prach slot: %u ..", pPrachCPConfig->x, pPrachCPConfig->y[0], pPrachCPConfig->y[1], pxRANPrachConfigTable->slotNr[0]);\r
+ pPrachCPConfig->isPRACHslot[pxRANPrachConfigTable->slotNr[0]] = 1;\r
+ for (i=1; i < XRAN_PRACH_CANDIDATE_SLOT; i++)\r
+ {\r
+ slotNr = pxRANPrachConfigTable->slotNr[i];\r
+ if (slotNr > 0){\r
+ pPrachCPConfig->isPRACHslot[slotNr] = 1;\r
+ if(pConf->log_level)\r
+ printf(" %u ..", slotNr);\r
+ }\r
+ }\r
+ printf("\n");\r
+ for (i = 0; i < XRAN_MAX_SECTOR_NR; i++){\r
+ p_xran_dev_ctx->prach_start_symbol[i] = pPrachCPConfig->startSymId;\r
+ p_xran_dev_ctx->prach_last_symbol[i] = pPrachCPConfig->startSymId + pPrachCPConfig->numSymbol * pPrachCPConfig->occassionsInPrachSlot - 1;\r
+ }\r
+ if(pConf->log_level){\r
+ printf("PRACH start symbol %u lastsymbol %u\n", p_xran_dev_ctx->prach_start_symbol[0], p_xran_dev_ctx->prach_last_symbol[0]);\r
+ }\r
+\r
+ pPrachCPConfig->eAxC_offset = xran_get_num_eAxc(NULL);\r
+ print_dbg("PRACH eAxC_offset %d\n", pPrachCPConfig->eAxC_offset);\r
+\r
+ return (XRAN_STATUS_SUCCESS);\r
+}\r
+\r
+inline uint16_t xran_alloc_sectionid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id)\r
+{\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (0);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR) { //for PRACH, ant_id starts from num_ant\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (0);\r
+ }\r
+\r
+ /* if new slot has been started,\r
+ * then initializes section id again for new start */\r
+ if(xran_section_id_curslot[dir][cc_id][ant_id] != slot_id) {\r
+ xran_section_id[dir][cc_id][ant_id] = 0;\r
+ xran_section_id_curslot[dir][cc_id][ant_id] = slot_id;\r
+ }\r
+\r
+ return(xran_section_id[dir][cc_id][ant_id]++);\r
+}\r
+\r
+int xran_init_seqid(void *pHandle)\r
+{\r
+ int cell, dir, ant;\r
+\r
+ for(cell=0; cell < XRAN_MAX_CELLS_PER_PORT; cell++) {\r
+ for(dir=0; dir < XRAN_DIR_MAX; dir++) {\r
+ for(ant=0; ant < XRAN_MAX_ANTENNA_NR * 2; ant++)\r
+ xran_cp_seq_id_num[cell][dir][ant] = 0;\r
+ }\r
+ for(ant=0; ant < XRAN_MAX_ANTENNA_NR; ant++)\r
+ xran_updl_seq_id_num[cell][ant] = 0;\r
+ for(ant=0; ant < XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR; ant++)\r
+ xran_upul_seq_id_num[cell][ant] = 0;\r
+ }\r
+\r
+ return (0);\r
+}\r
+\r
+static inline uint8_t xran_get_cp_seqid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id)\r
+{\r
+ if(dir >= XRAN_DIR_MAX) {\r
+ print_err("Invalid direction - %d", dir);\r
+ return (0);\r
+ }\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (0);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (0);\r
+ }\r
+\r
+ return(xran_cp_seq_id_num[cc_id][dir][ant_id]++);\r
+}\r
+static inline uint8_t xran_get_updl_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id)\r
+{\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (0);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (0);\r
+ }\r
+\r
+ /* Only U-Plane DL needs to get sequence ID in O-DU */\r
+ return(xran_updl_seq_id_num[cc_id][ant_id]++);\r
+}\r
+static inline uint8_t *xran_get_updl_seqid_addr(void *pHandle, uint8_t cc_id, uint8_t ant_id)\r
+{\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (NULL);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (NULL);\r
+ }\r
+\r
+ /* Only U-Plane DL needs to get sequence ID in O-DU */\r
+ return(&xran_updl_seq_id_num[cc_id][ant_id]);\r
+}\r
+static inline int8_t xran_check_upul_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id, uint8_t seq_id)\r
+{\r
+\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (-1);\r
+ }\r
+\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (-1);\r
+ }\r
+\r
+ /* O-DU needs to check the sequence ID of U-Plane UL from O-RU */\r
+ xran_upul_seq_id_num[cc_id][ant_id]++;\r
+ if(xran_upul_seq_id_num[cc_id][ant_id] == seq_id) { /* expected sequence */\r
+ return (XRAN_STATUS_SUCCESS);\r
+ } else {\r
+ print_err("expected seqid %u received %u, slot %u, ant %u cc %u", xran_upul_seq_id_num[cc_id][ant_id], seq_id, slot_id, ant_id, cc_id);\r
+ xran_upul_seq_id_num[cc_id][ant_id] = seq_id; // for next\r
+ return (-1);\r
+ }\r
+}\r
+\r
+//////////////////////////////////////////\r
+// For RU emulation\r
+static inline uint8_t xran_get_upul_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id)\r
+{\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (0);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR * 2 + XRAN_MAX_ANT_ARRAY_ELM_NR) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (0);\r
+ }\r
+\r
+ return(xran_upul_seq_id_num[cc_id][ant_id]++);\r
+}\r
+static inline uint8_t *xran_get_upul_seqid_addr(void *pHandle, uint8_t cc_id, uint8_t ant_id)\r
+{\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (0);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (0);\r
+ }\r
+\r
+ return(&xran_upul_seq_id_num[cc_id][ant_id]);\r
+}\r
+static inline int8_t xran_check_cp_seqid(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ant_id, uint8_t seq_id)\r
+{\r
+ if(dir >= XRAN_DIR_MAX) {\r
+ print_err("Invalid direction - %d", dir);\r
+ return (-1);\r
+ }\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (-1);\r
+ }\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR * 2) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (-1);\r
+ }\r
+\r
+ xran_cp_seq_id_num[cc_id][dir][ant_id]++;\r
+ if(xran_cp_seq_id_num[cc_id][dir][ant_id] == seq_id) { /* expected sequence */\r
+ return (0);\r
+ }\r
+ else {\r
+ xran_cp_seq_id_num[cc_id][dir][ant_id] = seq_id;\r
+ return (-1);\r
+ }\r
+}\r
+static inline int8_t xran_check_updl_seqid(void *pHandle, uint8_t cc_id, uint8_t ant_id, uint8_t slot_id, uint8_t seq_id)\r
+{\r
+ if(cc_id >= XRAN_MAX_CELLS_PER_PORT) {\r
+ print_err("Invalid CC ID - %d", cc_id);\r
+ return (-1);\r
+ }\r
+\r
+ if(ant_id >= XRAN_MAX_ANTENNA_NR) {\r
+ print_err("Invalid antenna ID - %d", ant_id);\r
+ return (-1);\r
+ }\r
+\r
+ /* O-RU needs to check the sequence ID of U-Plane DL from O-DU */\r
+ xran_updl_seq_id_num[cc_id][ant_id]++;\r
+ if(xran_updl_seq_id_num[cc_id][ant_id] == seq_id) {\r
+ /* expected sequence */\r
+ /*print_dbg("ant %u cc_id %u : slot_id %u : seq_id %u : expected seq_id %u\n",\r
+ ant_id, cc_id, slot_id, seq_id, xran_updl_seq_id_num[cc_id][ant_id]);*/\r
+ return (0);\r
+ } else {\r
+ /* print_err("ant %u cc_id %u : slot_id %u : seq_id %u : expected seq_id %u\n",\r
+ ant_id, cc_id, slot_id, seq_id, xran_updl_seq_id_num[cc_id][ant_id]);*/\r
+\r
+ xran_updl_seq_id_num[cc_id][ant_id] = seq_id;\r
+\r
+ return (-1);\r
+ }\r
+}\r
+\r
+\r
+static struct xran_section_gen_info cpSections[XRAN_MAX_NUM_SECTIONS];\r
+static struct xran_cp_gen_params cpInfo;\r
+int process_cplane(struct rte_mbuf *pkt)\r
+{\r
+ struct xran_recv_packet_info recv;\r
+\r
+ cpInfo.sections = cpSections;\r
+ xran_parse_cp_pkt(pkt, &cpInfo, &recv);\r
+\r
+ return (MBUF_FREE);\r
+}\r
+//////////////////////////////////////////\r
+\r
+void sym_ota_cb(struct rte_timer *tim, void *arg, unsigned long *used_tick)\r
+{\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;\r
+ long t1 = MLogTick(), t2;\r
+ long t3;\r
+ static int32_t ctx = 0;\r
+\r
+ if(XranGetSymNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT) == 0){\r
+ t3 = xran_tick();\r
+ tti_ota_cb(NULL, arg);\r
+ *used_tick += get_ticks_diff(xran_tick(), t3);\r
+ }\r
+\r
+ if(XranGetSymNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT) == 3){\r
+ if(p_xran_dev_ctx->phy_tti_cb_done == 0){\r
+ /* rearm timer to deliver TTI event to PHY */\r
+ t3 = xran_tick();\r
+ p_xran_dev_ctx->phy_tti_cb_done = 0;\r
+ xran_timer_arm_ex(&tti_to_phy_timer[xran_lib_ota_tti % 10], tti_to_phy_cb, (void*)pTCtx, p_xran_dev_ctx->fh_init.io_cfg.timing_core);\r
+ *used_tick += get_ticks_diff(xran_tick(), t3);\r
+ }\r
+ }\r
+\r
+ t3 = xran_tick();\r
+ if (xran_process_tx_sym(timer_ctx))\r
+ {\r
+ *used_tick += get_ticks_diff(xran_tick(), t3);\r
+ }\r
+\r
+ /* check if there is call back to do something else on this symbol */\r
+\r
+ struct cb_elem_entry *cb_elm;\r
+ LIST_FOREACH(cb_elm, &p_xran_dev_ctx->sym_cb_list_head[0][xran_lib_ota_sym], pointers){\r
+ if(cb_elm){\r
+ cb_elm->pSymCallback(&dpdk_timer[ctx], cb_elm->pSymCallbackTag);\r
+ ctx = DpdkTimerIncrementCtx(ctx);\r
+ }\r
+ }\r
+\r
+ // This counter is incremented in advance before it is the time for the next symbol\r
+ xran_lib_ota_sym++;\r
+ if(xran_lib_ota_sym >= N_SYM_PER_SLOT){\r
+ xran_lib_ota_sym=0;\r
+ }\r
+\r
+ t2 = MLogTick();\r
+ MLogTask(PID_SYM_OTA_CB, t1, t2);\r
+}\r
+\r
+void tti_ota_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ uint32_t frame_id = 0;\r
+ uint32_t subframe_id = 0;\r
+ uint32_t slot_id = 0;\r
+ uint32_t next_tti = 0;\r
+\r
+ uint32_t mlogVar[10];\r
+ uint32_t mlogVarCnt = 0;\r
+ uint64_t t1 = MLogTick();\r
+ uint64_t t3 = 0;\r
+ uint32_t reg_tti = 0;\r
+ uint32_t reg_sfn = 0;\r
+ struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ MLogTask(PID_TTI_TIMER, t1, MLogTick());\r
+\r
+ /* To match TTbox */\r
+ if(xran_lib_ota_tti == 0)\r
+ reg_tti = xran_fs_get_max_slot() - 1;\r
+ else\r
+ reg_tti = xran_lib_ota_tti -1;\r
+ MLogIncrementCounter();\r
+ reg_sfn = XranGetFrameNum(reg_tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME)*10 + XranGetSubFrameNum(reg_tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);;\r
+ /* subframe and slot */\r
+ MLogRegisterFrameSubframe(reg_sfn, reg_tti % (SLOTNUM_PER_SUBFRAME));\r
+ MLogMark(1, t1);\r
+\r
+ slot_id = XranGetSlotNum(xran_lib_ota_tti, SLOTNUM_PER_SUBFRAME);\r
+ subframe_id = XranGetSubFrameNum(xran_lib_ota_tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ frame_id = XranGetFrameNum(xran_lib_ota_tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+\r
+ pTCtx[(xran_lib_ota_tti & 1) ^ 1].tti_to_process = xran_lib_ota_tti;\r
+\r
+ mlogVar[mlogVarCnt++] = 0x11111111;\r
+ mlogVar[mlogVarCnt++] = xran_lib_ota_tti;\r
+ mlogVar[mlogVarCnt++] = xran_lib_ota_sym_idx;\r
+ mlogVar[mlogVarCnt++] = xran_lib_ota_sym_idx / 14;\r
+ mlogVar[mlogVarCnt++] = frame_id;\r
+ mlogVar[mlogVarCnt++] = subframe_id;\r
+ mlogVar[mlogVarCnt++] = slot_id;\r
+ mlogVar[mlogVarCnt++] = 0;\r
+ MLogAddVariables(mlogVarCnt, mlogVar, MLogTick());\r
+\r
+ if(p_xran_dev_ctx->fh_init.io_cfg.id == ID_LLS_CU)\r
+ next_tti = xran_lib_ota_tti + 1;\r
+ else\r
+ next_tti = xran_lib_ota_tti;\r
+\r
+ if(next_tti>= xran_fs_get_max_slot()){\r
+ print_dbg("[%d]SFN %d sf %d slot %d\n",next_tti, frame_id, subframe_id, slot_id);\r
+ next_tti=0;\r
+ }\r
+\r
+ slot_id = XranGetSlotNum(next_tti, SLOTNUM_PER_SUBFRAME);\r
+ subframe_id = XranGetSubFrameNum(next_tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ frame_id = XranGetFrameNum(next_tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+\r
+ print_dbg("[%d]SFN %d sf %d slot %d\n",next_tti, frame_id, subframe_id, slot_id);\r
+\r
+ if(p_xran_dev_ctx->fh_init.io_cfg.id == ID_LLS_CU){\r
+ pTCtx[(xran_lib_ota_tti & 1)].tti_to_process = next_tti;\r
+ } else {\r
+ pTCtx[(xran_lib_ota_tti & 1)].tti_to_process = pTCtx[(xran_lib_ota_tti & 1)^1].tti_to_process;\r
+ }\r
+\r
+ p_xran_dev_ctx->phy_tti_cb_done = 0;\r
+ xran_timer_arm_ex(&tti_to_phy_timer[xran_lib_ota_tti % 10], tti_to_phy_cb, (void*)pTCtx, p_xran_dev_ctx->fh_init.io_cfg.timing_core);\r
+\r
+ //slot index is increased to next slot at the beginning of current OTA slot\r
+ xran_lib_ota_tti++;\r
+ if(xran_lib_ota_tti >= xran_fs_get_max_slot()){\r
+ print_dbg("[%d]SFN %d sf %d slot %d\n",xran_lib_ota_tti, frame_id, subframe_id, slot_id);\r
+ xran_lib_ota_tti=0;\r
+ }\r
+ MLogTask(PID_TTI_CB, t1, MLogTick());\r
+}\r
+\r
+void xran_timer_arm(struct rte_timer *tim, void* arg)\r
+{\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ uint64_t t3 = MLogTick();\r
+\r
+ if (xran_if_current_state == XRAN_RUNNING){\r
+ rte_timer_cb_t fct = (rte_timer_cb_t)arg;\r
+ rte_timer_init(tim);\r
+ rte_timer_reset_sync(tim, 0, SINGLE, p_xran_dev_ctx->fh_init.io_cfg.timing_core, fct, &timer_ctx[0]);\r
+ }\r
+ MLogTask(PID_TIME_ARM_TIMER, t3, MLogTick());\r
+}\r
+\r
+void xran_timer_arm_ex(struct rte_timer *tim, void* CbFct, void *CbArg, unsigned tim_lcore)\r
+{\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ uint64_t t3 = MLogTick();\r
+\r
+ if (xran_if_current_state == XRAN_RUNNING){\r
+ rte_timer_cb_t fct = (rte_timer_cb_t)CbFct;\r
+ rte_timer_init(tim);\r
+ rte_timer_reset_sync(tim, 0, SINGLE, tim_lcore, fct, CbArg);\r
+ }\r
+ MLogTask(PID_TIME_ARM_TIMER, t3, MLogTick());\r
+}\r
+\r
+int xran_cp_create_and_send_section(void *pHandle, uint8_t ru_port_id, int dir, int tti, int cc_id,\r
+ struct xran_prb_map *prbMap, enum xran_category category, uint8_t ctx_id)\r
+{\r
+ struct xran_device_ctx *p_x_ctx = xran_dev_get_ctx();\r
+ struct xran_cp_gen_params params;\r
+ struct xran_section_gen_info sect_geninfo[1];\r
+ struct rte_mbuf *mbuf;\r
+ int ret = 0;\r
+ uint32_t i, j, loc_sym;\r
+ uint32_t nsection = 0;\r
+ struct xran_prb_elm *pPrbMapElem = NULL;\r
+ struct xran_prb_elm *pPrbMapElemPrev = NULL;\r
+ uint32_t slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);\r
+ uint32_t subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ uint32_t frame_id = XranGetFrameNum(tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+\r
+ frame_id = (frame_id & 0xff); /* ORAN frameId, 8 bits, [0, 255] */\r
+ uint8_t seq_id = 0;\r
+\r
+ struct xran_sectionext1_info m_ext1;\r
+\r
+ if(prbMap) {\r
+ nsection = prbMap->nPrbElm;\r
+ pPrbMapElem = &prbMap->prbMap[0];\r
+ if (nsection < 1){\r
+ print_dbg("cp[%d:%d:%d] ru_port_id %d dir=%d nsection %d\n",\r
+ frame_id, subframe_id, slot_id, ru_port_id, dir, nsection);\r
+ }\r
+ } else {\r
+ print_err("prbMap is NULL\n");\r
+ return (-1);\r
+ }\r
+ for (i=0; i<nsection; i++)\r
+ {\r
+ pPrbMapElem = &prbMap->prbMap[i];\r
+ params.dir = dir;\r
+ params.sectionType = XRAN_CP_SECTIONTYPE_1; /* Most DL/UL Radio Channels */\r
+ params.hdr.filterIdx = XRAN_FILTERINDEX_STANDARD;\r
+ params.hdr.frameId = frame_id;\r
+ params.hdr.subframeId = subframe_id;\r
+ params.hdr.slotId = slot_id;\r
+ params.hdr.startSymId = pPrbMapElem->nStartSymb;\r
+ params.hdr.iqWidth = pPrbMapElem->iqWidth; /*xran_get_conf_iqwidth(pHandle);*/\r
+ params.hdr.compMeth = pPrbMapElem->compMethod;\r
+\r
+ print_dbg("cp[%d:%d:%d] ru_port_id %d dir=%d\n",\r
+ frame_id, subframe_id, slot_id, ru_port_id, dir);\r
+\r
+ seq_id = xran_get_cp_seqid(pHandle, XRAN_DIR_DL, cc_id, ru_port_id);\r
+\r
+ sect_geninfo[0].info.type = params.sectionType; // for database\r
+ sect_geninfo[0].info.startSymId = params.hdr.startSymId; // for database\r
+ sect_geninfo[0].info.iqWidth = params.hdr.iqWidth; // for database\r
+ sect_geninfo[0].info.compMeth = params.hdr.compMeth; // for database\r
+ sect_geninfo[0].info.id = i; /*xran_alloc_sectionid(pHandle, dir, cc_id, ru_port_id, slot_id);*/\r
+\r
+ if(sect_geninfo[0].info.id > 7)\r
+ print_err("sectinfo->id %d\n", sect_geninfo[0].info.id);\r
+\r
+ if (dir == XRAN_DIR_UL) {\r
+ for (loc_sym = 0; loc_sym < XRAN_NUM_OF_SYMBOL_PER_SLOT; loc_sym++){\r
+ struct xran_section_desc *p_sec_desc = pPrbMapElem->p_sec_desc[loc_sym];\r
+ if(p_sec_desc) {\r
+ p_sec_desc->section_id = sect_geninfo[0].info.id;\r
+ if(p_sec_desc->pCtrl) {\r
+ rte_pktmbuf_free(p_sec_desc->pCtrl);\r
+ p_sec_desc->pCtrl = NULL;\r
+ p_sec_desc->pData = NULL;\r
+ }\r
+ } else {\r
+ print_err("section desc is NULL\n");\r
+ }\r
+ }\r
+ }\r
+\r
+ sect_geninfo[0].info.rb = XRAN_RBIND_EVERY;\r
+ sect_geninfo[0].info.startPrbc = pPrbMapElem->nRBStart;\r
+ sect_geninfo[0].info.numPrbc = pPrbMapElem->nRBSize;\r
+ sect_geninfo[0].info.numSymbol = pPrbMapElem->numSymb;\r
+ sect_geninfo[0].info.reMask = 0xfff;\r
+ sect_geninfo[0].info.beamId = pPrbMapElem->nBeamIndex;\r
+\r
+ for (loc_sym = 0; loc_sym < XRAN_NUM_OF_SYMBOL_PER_SLOT; loc_sym++){\r
+ struct xran_section_desc *p_sec_desc = pPrbMapElem->p_sec_desc[loc_sym];\r
+ if(p_sec_desc) {\r
+ p_sec_desc->section_id = sect_geninfo[0].info.id;\r
+\r
+ sect_geninfo[0].info.sec_desc[loc_sym].iq_buffer_offset = p_sec_desc->iq_buffer_offset;\r
+ sect_geninfo[0].info.sec_desc[loc_sym].iq_buffer_len = p_sec_desc->iq_buffer_len;\r
+ } else {\r
+ print_err("section desc is NULL\n");\r
+ }\r
+ }\r
+\r
+ if (i==0)\r
+ sect_geninfo[0].info.symInc = XRAN_SYMBOLNUMBER_NOTINC;\r
+ else\r
+ {\r
+ pPrbMapElemPrev = &prbMap->prbMap[i-1];\r
+ if (pPrbMapElemPrev->nStartSymb == pPrbMapElem->nStartSymb)\r
+ {\r
+ sect_geninfo[0].info.symInc = XRAN_SYMBOLNUMBER_NOTINC;\r
+ if (pPrbMapElemPrev->numSymb != pPrbMapElem->numSymb)\r
+ print_err("section info error: previous numSymb %d not equal to current numSymb %d\n", pPrbMapElemPrev->numSymb, pPrbMapElem->numSymb);\r
+ }\r
+ else\r
+ {\r
+ sect_geninfo[0].info.symInc = XRAN_SYMBOLNUMBER_INC;\r
+ if (pPrbMapElem->nStartSymb != (pPrbMapElemPrev->nStartSymb + pPrbMapElemPrev->numSymb))\r
+ print_err("section info error: current startSym %d not equal to previous endSymb %d\n", pPrbMapElem->nStartSymb, pPrbMapElemPrev->nStartSymb + pPrbMapElemPrev->numSymb);\r
+ }\r
+ }\r
+\r
+ if(category == XRAN_CATEGORY_A){\r
+ /* no extention sections for category */\r
+ sect_geninfo[0].info.ef = 0;\r
+ sect_geninfo[0].exDataSize = 0;\r
+ } else if (category == XRAN_CATEGORY_B) {\r
+ /*add extantion section for BF Weights if update is needed */\r
+ if(pPrbMapElem->bf_weight_update){\r
+ memset(&m_ext1, 0, sizeof (struct xran_sectionext1_info));\r
+ m_ext1.bfwNumber = pPrbMapElem->bf_weight.nAntElmTRx;\r
+ m_ext1.bfwiqWidth = pPrbMapElem->iqWidth;\r
+ m_ext1.bfwCompMeth = pPrbMapElem->compMethod;\r
+ m_ext1.p_bfwIQ = (int16_t*)pPrbMapElem->bf_weight.p_ext_section;\r
+ m_ext1.bfwIQ_sz = pPrbMapElem->bf_weight.ext_section_sz;\r
+\r
+ sect_geninfo[0].exData[0].type = XRAN_CP_SECTIONEXTCMD_1;\r
+ sect_geninfo[0].exData[0].len = sizeof(m_ext1);\r
+ sect_geninfo[0].exData[0].data = &m_ext1;\r
+\r
+ sect_geninfo[0].info.ef = 1;\r
+ sect_geninfo[0].exDataSize = 1;\r
+ } else {\r
+ sect_geninfo[0].info.ef = 0;\r
+ sect_geninfo[0].exDataSize = 0;\r
+ }\r
+ } else {\r
+ print_err("Unsupported Category %d\n", category);\r
+ return (-1);\r
+ }\r
+\r
+ params.numSections = 1;//nsection;\r
+ params.sections = sect_geninfo;\r
+\r
+ mbuf = xran_ethdi_mbuf_alloc();\r
+ if(unlikely(mbuf == NULL)) {\r
+ print_err("Alloc fail!\n");\r
+ return (-1);\r
+ }\r
+\r
+ ret = xran_prepare_ctrl_pkt(mbuf, ¶ms, cc_id, ru_port_id, seq_id);\r
+ if(ret < 0) {\r
+ print_err("Fail to build control plane packet - [%d:%d:%d] dir=%d\n",\r
+ frame_id, subframe_id, slot_id, dir);\r
+ } else {\r
+ /* add in the ethernet header */\r
+ struct ether_hdr *const h = (void *)rte_pktmbuf_prepend(mbuf, sizeof(*h));\r
+ tx_counter++;\r
+ tx_bytes_counter += rte_pktmbuf_pkt_len(mbuf);\r
+ p_x_ctx->send_cpmbuf2ring(mbuf, ETHER_TYPE_ECPRI);\r
+\r
+ /*for(i=0; i<nsection; i++)*/\r
+ xran_cp_add_section_info(pHandle,\r
+ dir, cc_id, ru_port_id,\r
+ ctx_id,\r
+ §_geninfo[0].info);\r
+ }\r
+ }\r
+\r
+ return ret;\r
+}\r
+\r
+void tx_cp_dl_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ long t1 = MLogTick();\r
+ int tti, buf_id;\r
+ int i, ret;\r
+ uint32_t slot_id, subframe_id, frame_id;\r
+ int cc_id;\r
+ uint8_t ctx_id;\r
+ uint8_t ant_id, num_eAxc, num_CCPorts;\r
+ void *pHandle;\r
+ int num_list;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;\r
+\r
+ pHandle = NULL; // TODO: temp implemantation\r
+ num_eAxc = xran_get_num_eAxc(pHandle);\r
+ num_CCPorts = xran_get_num_cc(pHandle);\r
+\r
+ if(first_call && p_xran_dev_ctx->enableCP) {\r
+\r
+ tti = pTCtx[(xran_lib_ota_tti & 1) ^ 1].tti_to_process;\r
+ buf_id = tti % XRAN_N_FE_BUF_LEN;\r
+\r
+ slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);\r
+ subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ frame_id = XranGetFrameNum(tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+ if (tti == 0){\r
+ /* Wrap around to next second */\r
+ frame_id = (frame_id + NUM_OF_FRAMES_PER_SECOND) & 0x3ff;\r
+ }\r
+\r
+ ctx_id = XranGetSlotNum(tti, SLOTS_PER_SYSTEMFRAME) % XRAN_MAX_SECTIONDB_CTX;\r
+\r
+ print_dbg("[%d]SFN %d sf %d slot %d\n", tti, frame_id, subframe_id, slot_id);\r
+ for(ant_id = 0; ant_id < num_eAxc; ++ant_id) {\r
+ for(cc_id = 0; cc_id < num_CCPorts; cc_id++ ) {\r
+ /* start new section information list */\r
+ xran_cp_reset_section_info(pHandle, XRAN_DIR_DL, cc_id, ant_id, ctx_id);\r
+ if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_DL) == 1) {\r
+ if(p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData){\r
+ num_list = xran_cp_create_and_send_section(pHandle, ant_id, XRAN_DIR_DL, tti, cc_id,\r
+ (struct xran_prb_map *)p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.xranCat, ctx_id);\r
+ } else {\r
+ print_err("[%d]SFN %d sf %d slot %d: ant_id %d cc_id %d \n", tti, frame_id, subframe_id, slot_id, ant_id, cc_id);\r
+ }\r
+ } /* if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_DL) == 1) */\r
+ } /* for(cc_id = 0; cc_id < num_CCPorts; cc_id++) */\r
+ } /* for(ant_id = 0; ant_id < num_eAxc; ++ant_id) */\r
+ MLogTask(PID_CP_DL_CB, t1, MLogTick());\r
+ }\r
+}\r
+\r
+void rx_ul_deadline_half_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ long t1 = MLogTick();\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ xran_status_t status;\r
+ /* half of RX for current TTI as measured against current OTA time */\r
+ int32_t rx_tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);\r
+ int32_t cc_id;\r
+ uint32_t nFrameIdx;\r
+ uint32_t nSubframeIdx;\r
+ uint32_t nSlotIdx;\r
+ uint64_t nSecond;\r
+\r
+ uint32_t nXranTime = xran_get_slot_idx(&nFrameIdx, &nSubframeIdx, &nSlotIdx, &nSecond);\r
+ rx_tti = nFrameIdx*SUBFRAMES_PER_SYSTEMFRAME*SLOTNUM_PER_SUBFRAME\r
+ + nSubframeIdx*SLOTNUM_PER_SUBFRAME\r
+ + nSlotIdx;\r
+\r
+ if(p_xran_dev_ctx->xran2phy_mem_ready == 0)\r
+ return;\r
+\r
+ for(cc_id = 0; cc_id < xran_get_num_cc(p_xran_dev_ctx); cc_id++) {\r
+ if(p_xran_dev_ctx->rx_packet_callback_tracker[rx_tti % XRAN_N_FE_BUF_LEN][cc_id] == 0){\r
+ struct xran_cb_tag *pTag = p_xran_dev_ctx->pCallbackTag[cc_id];\r
+ pTag->slotiId = rx_tti;\r
+ pTag->symbol = 0; /* last 7 sym means full slot of Symb */\r
+ status = XRAN_STATUS_SUCCESS;\r
+ if(p_xran_dev_ctx->pCallback[cc_id])\r
+ p_xran_dev_ctx->pCallback[cc_id](p_xran_dev_ctx->pCallbackTag[cc_id], status);\r
+ } else {\r
+ p_xran_dev_ctx->rx_packet_callback_tracker[rx_tti % XRAN_N_FE_BUF_LEN][cc_id] = 0;\r
+ }\r
+ }\r
+ MLogTask(PID_UP_UL_HALF_DEAD_LINE_CB, t1, MLogTick());\r
+}\r
+\r
+void rx_ul_deadline_full_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ long t1 = MLogTick();\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ xran_status_t status = 0;\r
+ int32_t rx_tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);\r
+ int32_t cc_id = 0;\r
+ uint32_t nFrameIdx;\r
+ uint32_t nSubframeIdx;\r
+ uint32_t nSlotIdx;\r
+ uint64_t nSecond;\r
+\r
+ uint32_t nXranTime = xran_get_slot_idx(&nFrameIdx, &nSubframeIdx, &nSlotIdx, &nSecond);\r
+ rx_tti = nFrameIdx*SUBFRAMES_PER_SYSTEMFRAME*SLOTNUM_PER_SUBFRAME\r
+ + nSubframeIdx*SLOTNUM_PER_SUBFRAME\r
+ + nSlotIdx;\r
+\r
+ if(rx_tti == 0)\r
+ rx_tti = (xran_fs_get_max_slot_SFN()-1);\r
+ else\r
+ rx_tti -= 1; /* end of RX for prev TTI as measured against current OTA time */\r
+\r
+ if(p_xran_dev_ctx->xran2phy_mem_ready == 0)\r
+ return;\r
+\r
+ /* U-Plane */\r
+ for(cc_id = 0; cc_id < xran_get_num_cc(p_xran_dev_ctx); cc_id++) {\r
+ struct xran_cb_tag *pTag = p_xran_dev_ctx->pCallbackTag[cc_id];\r
+ pTag->slotiId = rx_tti;\r
+ pTag->symbol = 7; /* last 7 sym means full slot of Symb */\r
+ status = XRAN_STATUS_SUCCESS;\r
+ if(p_xran_dev_ctx->pCallback[cc_id])\r
+ p_xran_dev_ctx->pCallback[cc_id](p_xran_dev_ctx->pCallbackTag[cc_id], status);\r
+\r
+ if(p_xran_dev_ctx->pPrachCallback[cc_id]){\r
+ struct xran_cb_tag *pTag = p_xran_dev_ctx->pPrachCallbackTag[cc_id];\r
+ pTag->slotiId = rx_tti;\r
+ pTag->symbol = 7; /* last 7 sym means full slot of Symb */\r
+ p_xran_dev_ctx->pPrachCallback[cc_id](p_xran_dev_ctx->pPrachCallbackTag[cc_id], status);\r
+ }\r
+ }\r
+\r
+ MLogTask(PID_UP_UL_FULL_DEAD_LINE_CB, t1, MLogTick());\r
+}\r
+\r
+\r
+void tx_cp_ul_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ long t1 = MLogTick();\r
+ int tti, buf_id;\r
+ int i, ret;\r
+ uint32_t slot_id, subframe_id, frame_id;\r
+ int32_t cc_id;\r
+ int ant_id, prach_port_id;\r
+ uint16_t beam_id;\r
+ uint8_t num_eAxc, num_CCPorts;\r
+ uint8_t ctx_id;\r
+\r
+ void *pHandle;\r
+ int num_list;\r
+\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ struct xran_prach_cp_config *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);\r
+ struct xran_timer_ctx *pTCtx = (struct xran_timer_ctx *)arg;\r
+\r
+ pHandle = NULL; // TODO: temp implemantation\r
+\r
+ if(xran_get_ru_category(pHandle) == XRAN_CATEGORY_A)\r
+ num_eAxc = xran_get_num_eAxc(pHandle);\r
+ else\r
+ num_eAxc = xran_get_num_eAxcUl(pHandle);\r
+\r
+ num_CCPorts = xran_get_num_cc(pHandle);\r
+ tti = pTCtx[(xran_lib_ota_tti & 1) ^ 1].tti_to_process;\r
+ buf_id = tti % XRAN_N_FE_BUF_LEN;\r
+ slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);\r
+ subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ frame_id = XranGetFrameNum(tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+ if (tti == 0) {\r
+ //Wrap around to next second\r
+ frame_id = (frame_id + NUM_OF_FRAMES_PER_SECOND) & 0x3ff;\r
+ }\r
+ ctx_id = XranGetSlotNum(tti, SLOTS_PER_SYSTEMFRAME) % XRAN_MAX_SECTIONDB_CTX;\r
+\r
+ if(first_call && p_xran_dev_ctx->enableCP) {\r
+\r
+ print_dbg("[%d]SFN %d sf %d slot %d\n", tti, frame_id, subframe_id, slot_id);\r
+\r
+ for(ant_id = 0; ant_id < num_eAxc; ++ant_id) {\r
+ for(cc_id = 0; cc_id < num_CCPorts; cc_id++) {\r
+ if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_UL) == 1 ||\r
+ xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_SP) == 1 ){\r
+ /* start new section information list */\r
+ xran_cp_reset_section_info(pHandle, XRAN_DIR_UL, cc_id, ant_id, ctx_id);\r
+ num_list = xran_cp_create_and_send_section(pHandle, ant_id, XRAN_DIR_UL, tti, cc_id,\r
+ (struct xran_prb_map *)p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[buf_id][cc_id][ant_id].sBufferList.pBuffers->pData,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.xranCat, ctx_id);\r
+ } /* if(xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_UL) == 1 */\r
+ } /* for(cc_id = 0; cc_id < num_CCPorts; cc_id++) */\r
+ } /* for(ant_id = 0; ant_id < num_eAxc; ++ant_id) */\r
+\r
+ if(p_xran_dev_ctx->enablePrach) {\r
+ uint32_t is_prach_slot = xran_is_prach_slot(subframe_id, slot_id);\r
+ if(((frame_id % pPrachCPConfig->x) == pPrachCPConfig->y[0]) && (is_prach_slot==1)) { //is prach slot\r
+ for(ant_id = 0; ant_id < num_eAxc; ++ant_id) {\r
+ for(cc_id = 0; cc_id < num_CCPorts; cc_id++) {\r
+ struct xran_cp_gen_params params;\r
+ struct xran_section_gen_info sect_geninfo[8];\r
+ struct rte_mbuf *mbuf = xran_ethdi_mbuf_alloc();\r
+ prach_port_id = ant_id + num_eAxc;\r
+ /* start new section information list */\r
+ xran_cp_reset_section_info(pHandle, XRAN_DIR_UL, cc_id, prach_port_id, ctx_id);\r
+\r
+ beam_id = xran_get_beamid(pHandle, XRAN_DIR_UL, cc_id, prach_port_id, slot_id);\r
+ ret = generate_cpmsg_prach(pHandle, ¶ms, sect_geninfo, mbuf, p_xran_dev_ctx,\r
+ frame_id, subframe_id, slot_id,\r
+ beam_id, cc_id, prach_port_id,\r
+ xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, prach_port_id));\r
+ if (ret == XRAN_STATUS_SUCCESS)\r
+ send_cpmsg(pHandle, mbuf, ¶ms, sect_geninfo,\r
+ cc_id, prach_port_id, xran_get_cp_seqid(pHandle, XRAN_DIR_UL, cc_id, prach_port_id));\r
+ }\r
+ }\r
+ }\r
+ }\r
+ } /* if(p_xran_dev_ctx->enableCP) */\r
+\r
+ MLogTask(PID_CP_UL_CB, t1, MLogTick());\r
+}\r
+\r
+void ul_up_full_slot_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ long t1 = MLogTick();\r
+ rte_pause();\r
+ MLogTask(PID_TTI_CB_TO_PHY, t1, MLogTick());\r
+}\r
+\r
+void tti_to_phy_cb(struct rte_timer *tim, void *arg)\r
+{\r
+ long t1 = MLogTick();\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ p_xran_dev_ctx->phy_tti_cb_done = 1; /* DPDK called CB */\r
+ if (first_call){\r
+ if(p_xran_dev_ctx->ttiCb[XRAN_CB_TTI]){\r
+ if(p_xran_dev_ctx->SkipTti[XRAN_CB_TTI] <= 0){\r
+ p_xran_dev_ctx->ttiCb[XRAN_CB_TTI](p_xran_dev_ctx->TtiCbParam[XRAN_CB_TTI]);\r
+ }else{\r
+ p_xran_dev_ctx->SkipTti[XRAN_CB_TTI]--;\r
+ }\r
+ }\r
+ } else {\r
+ if(p_xran_dev_ctx->ttiCb[XRAN_CB_TTI]){\r
+ int32_t tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);\r
+ uint32_t slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);\r
+ uint32_t subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ uint32_t frame_id = XranGetFrameNum(tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+ if((frame_id == xran_max_frame)&&(subframe_id==9)&&(slot_id == SLOTNUM_PER_SUBFRAME-1)) { //(tti == xran_fs_get_max_slot()-1)\r
+ first_call = 1;\r
+ }\r
+ }\r
+ }\r
+\r
+ MLogTask(PID_TTI_CB_TO_PHY, t1, MLogTick());\r
+}\r
+\r
+int xran_timing_source_thread(void *args)\r
+{\r
+ int res = 0;\r
+ cpu_set_t cpuset;\r
+ int32_t do_reset = 0;\r
+ uint64_t t1 = 0;\r
+ uint64_t delta;\r
+ int32_t result1,i,j;\r
+ uint32_t delay_cp_dl;\r
+ uint32_t delay_cp_ul;\r
+ uint32_t delay_up;\r
+ uint32_t delay_up_ul;\r
+ uint32_t delay_cp2up;\r
+ uint32_t sym_cp_dl;\r
+ uint32_t sym_cp_ul;\r
+ uint32_t sym_up_ul;\r
+ int32_t sym_up;\r
+ struct sched_param sched_param;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ uint64_t tWake = 0, tWakePrev = 0, tUsed = 0;\r
+ struct cb_elem_entry * cb_elm = NULL;\r
+\r
+ /* ToS = Top of Second start +- 1.5us */\r
+ struct timespec ts;\r
+\r
+ char buff[100];\r
+\r
+ xran_core_used = rte_lcore_id();\r
+ printf("%s [CPU %2d] [PID: %6d]\n", __FUNCTION__, rte_lcore_id(), getpid());\r
+\r
+ /* set main thread affinity mask to CPU2 */\r
+ sched_param.sched_priority = 98;\r
+\r
+ CPU_ZERO(&cpuset);\r
+ CPU_SET(p_xran_dev_ctx->fh_init.io_cfg.timing_core, &cpuset);\r
+ if (result1 = pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset))\r
+ {\r
+ printf("pthread_setaffinity_np failed: coreId = 2, result1 = %d\n",result1);\r
+ }\r
+ if ((result1 = pthread_setschedparam(pthread_self(), 1, &sched_param)))\r
+ {\r
+ printf("priority is not changed: coreId = 2, result1 = %d\n",result1);\r
+ }\r
+\r
+ if (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) {\r
+ do {\r
+ timespec_get(&ts, TIME_UTC);\r
+ }while (ts.tv_nsec >1500);\r
+ struct tm * ptm = gmtime(&ts.tv_sec);\r
+ if(ptm){\r
+ strftime(buff, sizeof buff, "%D %T", ptm);\r
+ printf("O-DU: thread_run start time: %s.%09ld UTC [%ld]\n", buff, ts.tv_nsec, interval_us);\r
+ }\r
+\r
+ delay_cp_dl = interval_us - p_xran_dev_ctx->fh_init.T1a_max_cp_dl;\r
+ delay_cp_ul = interval_us - p_xran_dev_ctx->fh_init.T1a_max_cp_ul;\r
+ delay_up = p_xran_dev_ctx->fh_init.T1a_max_up;\r
+ delay_up_ul = p_xran_dev_ctx->fh_init.Ta4_max;\r
+\r
+ delay_cp2up = delay_up-delay_cp_dl;\r
+\r
+ sym_cp_dl = delay_cp_dl*1000/(interval_us*1000/N_SYM_PER_SLOT)+1;\r
+ sym_cp_ul = delay_cp_ul*1000/(interval_us*1000/N_SYM_PER_SLOT)+1;\r
+ sym_up_ul = delay_up_ul*1000/(interval_us*1000/N_SYM_PER_SLOT);\r
+ p_xran_dev_ctx->sym_up = sym_up = -(delay_up*1000/(interval_us*1000/N_SYM_PER_SLOT));\r
+ p_xran_dev_ctx->sym_up_ul = sym_up_ul = (delay_up_ul*1000/(interval_us*1000/N_SYM_PER_SLOT)+1);\r
+\r
+ printf("Start C-plane DL %d us after TTI [trigger on sym %d]\n", delay_cp_dl, sym_cp_dl);\r
+ printf("Start C-plane UL %d us after TTI [trigger on sym %d]\n", delay_cp_ul, sym_cp_ul);\r
+ printf("Start U-plane DL %d us before OTA [offset in sym %d]\n", delay_up, sym_up);\r
+ printf("Start U-plane UL %d us OTA [offset in sym %d]\n", delay_up_ul, sym_up_ul);\r
+\r
+ printf("C-plane to U-plane delay %d us after TTI\n", delay_cp2up);\r
+ printf("Start Sym timer %ld ns\n", TX_TIMER_INTERVAL/N_SYM_PER_SLOT);\r
+\r
+ cb_elm = xran_create_cb(xran_timer_arm, tx_cp_dl_cb);\r
+ if(cb_elm){\r
+ LIST_INSERT_HEAD(&p_xran_dev_ctx->sym_cb_list_head[0][sym_cp_dl],\r
+ cb_elm,\r
+ pointers);\r
+ } else {\r
+ print_err("cb_elm is NULL\n");\r
+ res = -1;\r
+ goto err0;\r
+ }\r
+\r
+ cb_elm = xran_create_cb(xran_timer_arm, tx_cp_ul_cb);\r
+ if(cb_elm){\r
+ LIST_INSERT_HEAD(&p_xran_dev_ctx->sym_cb_list_head[0][sym_cp_ul],\r
+ cb_elm,\r
+ pointers);\r
+ } else {\r
+ print_err("cb_elm is NULL\n");\r
+ res = -1;\r
+ goto err0;\r
+ }\r
+\r
+ /* Full slot UL OTA + delay_up_ul */\r
+ cb_elm = xran_create_cb(xran_timer_arm, rx_ul_deadline_full_cb);\r
+ if(cb_elm){\r
+ LIST_INSERT_HEAD(&p_xran_dev_ctx->sym_cb_list_head[0][sym_up_ul],\r
+ cb_elm,\r
+ pointers);\r
+ } else {\r
+ print_err("cb_elm is NULL\n");\r
+ res = -1;\r
+ goto err0;\r
+ }\r
+\r
+ /* Half slot UL OTA + delay_up_ul*/\r
+ cb_elm = xran_create_cb(xran_timer_arm, rx_ul_deadline_half_cb);\r
+ if(cb_elm){\r
+ LIST_INSERT_HEAD(&p_xran_dev_ctx->sym_cb_list_head[0][sym_up_ul + N_SYM_PER_SLOT/2],\r
+ cb_elm,\r
+ pointers);\r
+ } else {\r
+ print_err("cb_elm is NULL\n");\r
+ res = -1;\r
+ goto err0;\r
+ }\r
+ } else { // APP_O_RU\r
+ /* calcualte when to send UL U-plane */\r
+ delay_up = p_xran_dev_ctx->fh_init.Ta3_min;\r
+ p_xran_dev_ctx->sym_up = sym_up = delay_up*1000/(interval_us*1000/N_SYM_PER_SLOT)+1;\r
+ printf("Start UL U-plane %d us after OTA [offset in sym %d]\n", delay_up, sym_up);\r
+ do {\r
+ timespec_get(&ts, TIME_UTC);\r
+ }while (ts.tv_nsec >1500);\r
+ struct tm * ptm = gmtime(&ts.tv_sec);\r
+ if(ptm){\r
+ strftime(buff, sizeof buff, "%D %T", ptm);\r
+ printf("RU: thread_run start time: %s.%09ld UTC [%ld]\n", buff, ts.tv_nsec, interval_us);\r
+ }\r
+ }\r
+\r
+ printf("interval_us %ld\n", interval_us);\r
+ do {\r
+ timespec_get(&ts, TIME_UTC);\r
+ }while (ts.tv_nsec == 0);\r
+\r
+ while(1) {\r
+ /* Update Usage Stats */\r
+ tWake = xran_tick();\r
+ xran_used_tick += tUsed;\r
+ if (tWakePrev)\r
+ {\r
+ xran_total_tick += get_ticks_diff(tWake, tWakePrev);\r
+ }\r
+ tWakePrev = tWake;\r
+ tUsed = 0;\r
+\r
+ delta = poll_next_tick(interval_us*1000L/N_SYM_PER_SLOT, &tUsed);\r
+ if (XRAN_STOPPED == xran_if_current_state)\r
+ break;\r
+\r
+ if (likely(XRAN_RUNNING == xran_if_current_state))\r
+ sym_ota_cb(&sym_timer, timer_ctx, &tUsed);\r
+ }\r
+\r
+ err0:\r
+ for (i = 0; i< XRAN_MAX_SECTOR_NR; i++){\r
+ for (j = 0; j< XRAN_NUM_OF_SYMBOL_PER_SLOT; j++){\r
+ struct cb_elem_entry *cb_elm;\r
+ LIST_FOREACH(cb_elm, &p_xran_dev_ctx->sym_cb_list_head[i][j], pointers){\r
+ if(cb_elm){\r
+ LIST_REMOVE(cb_elm, pointers);\r
+ xran_destroy_cb(cb_elm);\r
+ }\r
+ }\r
+ }\r
+ }\r
+\r
+ printf("Closing timing source thread...tx counter %lu, rx counter %lu\n", tx_counter, rx_counter);\r
+ return res;\r
+}\r
+\r
+/* Handle ecpri format. */\r
+int handle_ecpri_ethertype(struct rte_mbuf *pkt, uint64_t rx_time)\r
+{\r
+ const struct xran_ecpri_hdr *ecpri_hdr;\r
+ unsigned long t1;\r
+ int32_t ret = MBUF_FREE;\r
+\r
+ if (rte_pktmbuf_data_len(pkt) < sizeof(struct xran_ecpri_hdr)) {\r
+ print_err("Packet too short - %d bytes", rte_pktmbuf_data_len(pkt));\r
+ return 0;\r
+ }\r
+\r
+ /* check eCPRI header. */\r
+ ecpri_hdr = rte_pktmbuf_mtod(pkt, struct xran_ecpri_hdr *);\r
+ if(ecpri_hdr == NULL){\r
+ print_err("ecpri_hdr error\n");\r
+ return MBUF_FREE;\r
+ }\r
+\r
+ rx_bytes_counter += rte_pktmbuf_pkt_len(pkt);\r
+ switch(ecpri_hdr->cmnhdr.ecpri_mesg_type) {\r
+ case ECPRI_IQ_DATA:\r
+ // t1 = MLogTick();\r
+ ret = process_mbuf(pkt);\r
+ // MLogTask(PID_PROCESS_UP_PKT, t1, MLogTick());\r
+ break;\r
+ // For RU emulation\r
+ case ECPRI_RT_CONTROL_DATA:\r
+ t1 = MLogTick();\r
+ if(xran_dev_get_ctx()->fh_init.io_cfg.id == O_RU) {\r
+ ret = process_cplane(pkt);\r
+ } else {\r
+ print_err("O-DU recevied C-Plane message!");\r
+ }\r
+ MLogTask(PID_PROCESS_CP_PKT, t1, MLogTick());\r
+ break;\r
+ default:\r
+ print_err("Invalid eCPRI message type - %d", ecpri_hdr->cmnhdr.ecpri_mesg_type);\r
+ }\r
+\r
+ return ret;\r
+}\r
+\r
+int xran_process_prach_sym(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id,\r
+ uint32_t *mb_free)\r
+{\r
+ char *pos = NULL;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ uint8_t symb_id_offset;\r
+ uint32_t tti = 0;\r
+ xran_status_t status;\r
+ void *pHandle = NULL;\r
+ struct rte_mbuf *mb;\r
+\r
+ uint16_t iq_sample_size_bits = 16;\r
+\r
+ if(p_xran_dev_ctx->xran2phy_mem_ready == 0)\r
+ return 0;\r
+\r
+ tti = frame_id * SLOTS_PER_SYSTEMFRAME + subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;\r
+\r
+ status = tti << 16 | symb_id;\r
+\r
+ if(CC_ID < XRAN_MAX_SECTOR_NR && Ant_ID < XRAN_MAX_ANTENNA_NR && symb_id < XRAN_NUM_OF_SYMBOL_PER_SLOT){\r
+ symb_id_offset = symb_id - p_xran_dev_ctx->prach_start_symbol[CC_ID]; //make the storing of prach packets to start from 0 for easy of processing within PHY\r
+ pos = (char*) p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pData;\r
+ if(pos && iq_data_start && size){\r
+ if (p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_CPU_LE_BYTE_ORDER) {\r
+ int idx = 0;\r
+ uint16_t *psrc = (uint16_t *)iq_data_start;\r
+ uint16_t *pdst = (uint16_t *)pos;\r
+ /* network byte (be) order of IQ to CPU byte order (le) */\r
+ for (idx = 0; idx < size/sizeof(int16_t); idx++){\r
+ pdst[idx] = (psrc[idx]>>8) | (psrc[idx]<<8); //rte_be_to_cpu_16(psrc[idx]);\r
+ }\r
+ *mb_free = MBUF_FREE;\r
+ }else {\r
+ mb = p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pCtrl;\r
+ if(mb){\r
+ rte_pktmbuf_free(mb);\r
+ }else{\r
+ print_err("mb==NULL\n");\r
+ }\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pData = iq_data_start;\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id_offset].pCtrl = mbuf;\r
+ *mb_free = MBUF_KEEP;\r
+ }\r
+ } else {\r
+ print_err("pos %p iq_data_start %p size %d\n",pos, iq_data_start, size);\r
+ }\r
+ } else {\r
+ print_err("TTI %d(f_%d sf_%d slot_%d) CC %d Ant_ID %d symb_id %d\n",tti, frame_id, subframe_id, slot_id, CC_ID, Ant_ID, symb_id);\r
+ }\r
+\r
+/* if (symb_id == p_xran_dev_ctx->prach_last_symbol[CC_ID] ){\r
+ p_xran_dev_ctx->rx_packet_prach_tracker[tti % XRAN_N_FE_BUF_LEN][CC_ID][symb_id]++;\r
+ if(p_xran_dev_ctx->rx_packet_prach_tracker[tti % XRAN_N_FE_BUF_LEN][CC_ID][symb_id] >= xran_get_num_eAxc(pHandle)){\r
+ if(p_xran_dev_ctx->pPrachCallback[0])\r
+ p_xran_dev_ctx->pPrachCallback[0](p_xran_dev_ctx->pPrachCallbackTag[0], status);\r
+ p_xran_dev_ctx->rx_packet_prach_tracker[tti % XRAN_N_FE_BUF_LEN][CC_ID][symb_id] = 0;\r
+ }\r
+ }\r
+*/\r
+ return size;\r
+}\r
+\r
+int32_t xran_process_srs_sym(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id,\r
+ uint32_t *mb_free)\r
+{\r
+ char *pos = NULL;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ uint32_t tti = 0;\r
+ xran_status_t status;\r
+ void *pHandle = NULL;\r
+ struct rte_mbuf *mb = NULL;\r
+\r
+ uint16_t iq_sample_size_bits = 16;\r
+\r
+ if(p_xran_dev_ctx->xran2phy_mem_ready == 0)\r
+ return 0;\r
+\r
+ tti = frame_id * SLOTS_PER_SYSTEMFRAME + subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;\r
+\r
+ status = tti << 16 | symb_id;\r
+\r
+ if(CC_ID < XRAN_MAX_SECTOR_NR && Ant_ID < p_xran_dev_ctx->fh_cfg.nAntElmTRx && symb_id < XRAN_NUM_OF_SYMBOL_PER_SLOT) {\r
+ pos = (char*) p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pData;\r
+ pos += start_prbu * N_SC_PER_PRB*(iq_sample_size_bits/8)*2;\r
+ if(pos && iq_data_start && size){\r
+ if (p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_CPU_LE_BYTE_ORDER) {\r
+ int idx = 0;\r
+ uint16_t *psrc = (uint16_t *)iq_data_start;\r
+ uint16_t *pdst = (uint16_t *)pos;\r
+ rte_panic("XRAN_CPU_LE_BYTE_ORDER is not supported 0x16%lx\n", (long)mb);\r
+ /* network byte (be) order of IQ to CPU byte order (le) */\r
+ for (idx = 0; idx < size/sizeof(int16_t); idx++){\r
+ pdst[idx] = (psrc[idx]>>8) | (psrc[idx]<<8); //rte_be_to_cpu_16(psrc[idx]);\r
+ }\r
+ } else if (likely(p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_NE_BE_BYTE_ORDER)){\r
+ if (likely (p_xran_dev_ctx->fh_init.mtu >=\r
+ p_xran_dev_ctx->fh_cfg.nULRBs * N_SC_PER_PRB*(iq_sample_size_bits/8)*2)) {\r
+ /* no fragmentation */\r
+ mb = p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pCtrl;\r
+ if(mb){\r
+ rte_pktmbuf_free(mb);\r
+ }else{\r
+ print_err("mb==NULL\n");\r
+ }\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pData = iq_data_start;\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pCtrl = mbuf;\r
+ *mb_free = MBUF_KEEP;\r
+ } else {\r
+ /* packet can be fragmented copy RBs */\r
+ rte_memcpy(pos, iq_data_start, size);\r
+ *mb_free = MBUF_FREE;\r
+ }\r
+ }\r
+ } else {\r
+ print_err("pos %p iq_data_start %p size %d\n",pos, iq_data_start, size);\r
+ }\r
+ } else {\r
+ print_err("TTI %d(f_%d sf_%d slot_%d) CC %d Ant_ID %d symb_id %d\n",tti, frame_id, subframe_id, slot_id, CC_ID, Ant_ID, symb_id);\r
+ }\r
+\r
+ return size;\r
+}\r
+\r
+int32_t xran_pkt_validate(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ struct ecpri_seq_id *seq_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id)\r
+{\r
+ struct xran_device_ctx * pctx = xran_dev_get_ctx();\r
+ struct xran_common_counters *pCnt = &pctx->fh_counters;\r
+\r
+ if(pctx->fh_init.io_cfg.id == O_DU) {\r
+ if(xran_check_upul_seqid(NULL, CC_ID, Ant_ID, slot_id, seq_id->seq_id) != XRAN_STATUS_SUCCESS) {\r
+ pCnt->Rx_pkt_dupl++;\r
+ return (XRAN_STATUS_FAIL);\r
+ }\r
+ }else if(pctx->fh_init.io_cfg.id == O_RU) {\r
+ if(xran_check_updl_seqid(NULL, CC_ID, Ant_ID, slot_id, seq_id->seq_id) != XRAN_STATUS_SUCCESS) {\r
+ pCnt->Rx_pkt_dupl++;\r
+ return (XRAN_STATUS_FAIL);\r
+ }\r
+ }else {\r
+ print_err("incorrect dev type %d\n", pctx->fh_init.io_cfg.id);\r
+ }\r
+\r
+ rx_counter++;\r
+\r
+ pCnt->Rx_on_time++;\r
+ pCnt->Total_msgs_rcvd++;\r
+\r
+ return XRAN_STATUS_SUCCESS;\r
+}\r
+\r
+int32_t xran_process_rx_sym(void *arg,\r
+ struct rte_mbuf *mbuf,\r
+ void *iq_data_start,\r
+ uint16_t size,\r
+ uint8_t CC_ID,\r
+ uint8_t Ant_ID,\r
+ uint8_t frame_id,\r
+ uint8_t subframe_id,\r
+ uint8_t slot_id,\r
+ uint8_t symb_id,\r
+ uint16_t num_prbu,\r
+ uint16_t start_prbu,\r
+ uint16_t sym_inc,\r
+ uint16_t rb,\r
+ uint16_t sect_id,\r
+ uint32_t *mb_free)\r
+{\r
+ char *pos = NULL;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ uint32_t tti = 0;\r
+ xran_status_t status;\r
+ void *pHandle = NULL;\r
+ struct rte_mbuf *mb = NULL;\r
+ struct xran_prb_map * pRbMap = NULL;\r
+ struct xran_prb_elm * prbMapElm = NULL;\r
+\r
+ uint16_t iq_sample_size_bits = 16;\r
+\r
+ tti = frame_id * SLOTS_PER_SYSTEMFRAME + subframe_id * SLOTNUM_PER_SUBFRAME + slot_id;\r
+\r
+ status = tti << 16 | symb_id;\r
+\r
+ if(CC_ID < XRAN_MAX_SECTOR_NR && Ant_ID < XRAN_MAX_ANTENNA_NR && symb_id < XRAN_NUM_OF_SYMBOL_PER_SLOT){\r
+ pos = (char*) p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pData;\r
+ pRbMap = (struct xran_prb_map *) p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers->pData;\r
+ if(pRbMap){\r
+ prbMapElm = &pRbMap->prbMap[sect_id];\r
+ if(sect_id >= pRbMap->nPrbElm) {\r
+ print_err("sect_id %d !=pRbMap->nPrbElm %d\n", sect_id,pRbMap->nPrbElm);\r
+ *mb_free = MBUF_FREE;\r
+ return size;\r
+ }\r
+ } else {\r
+ print_err("pRbMap==NULL\n");\r
+ *mb_free = MBUF_FREE;\r
+ return size;\r
+ }\r
+\r
+ pos += start_prbu * N_SC_PER_PRB*(iq_sample_size_bits/8)*2;\r
+ if(pos && iq_data_start && size){\r
+ if (p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_CPU_LE_BYTE_ORDER) {\r
+ int idx = 0;\r
+ uint16_t *psrc = (uint16_t *)iq_data_start;\r
+ uint16_t *pdst = (uint16_t *)pos;\r
+ rte_panic("XRAN_CPU_LE_BYTE_ORDER is not supported 0x16%lx\n", (long)mb);\r
+ /* network byte (be) order of IQ to CPU byte order (le) */\r
+ for (idx = 0; idx < size/sizeof(int16_t); idx++){\r
+ pdst[idx] = (psrc[idx]>>8) | (psrc[idx]<<8); //rte_be_to_cpu_16(psrc[idx]);\r
+ }\r
+ } else if (likely(p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder == XRAN_NE_BE_BYTE_ORDER)){\r
+ if (/*likely (p_xran_dev_ctx->fh_init.mtu >=\r
+ p_xran_dev_ctx->fh_cfg.nULRBs * N_SC_PER_PRB*(iq_sample_size_bits/8)*2)\r
+ && p_xran_dev_ctx->fh_init.io_cfg.id == O_DU*/ 1) {\r
+ if (pRbMap->nPrbElm == 1){\r
+ /* no fragmentation */\r
+ mb = p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pCtrl;\r
+ if(mb){\r
+ rte_pktmbuf_free(mb);\r
+ }else{\r
+ print_err("mb==NULL\n");\r
+ }\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pData = iq_data_start;\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][CC_ID][Ant_ID].sBufferList.pBuffers[symb_id].pCtrl = mbuf;\r
+ *mb_free = MBUF_KEEP;\r
+ } else {\r
+ prbMapElm = &pRbMap->prbMap[sect_id];\r
+ struct xran_section_desc *p_sec_desc = prbMapElm->p_sec_desc[symb_id];\r
+ if(p_sec_desc){\r
+ mb = p_sec_desc->pCtrl;\r
+ if(mb){\r
+ rte_pktmbuf_free(mb);\r
+ }\r
+ p_sec_desc->pData = iq_data_start;\r
+ p_sec_desc->pCtrl = mbuf;\r
+ p_sec_desc->iq_buffer_len = size;\r
+ p_sec_desc->iq_buffer_offset = RTE_PTR_DIFF(iq_data_start, mbuf);\r
+ } else {\r
+ print_err("p_sec_desc==NULL\n");\r
+ *mb_free = MBUF_FREE;\r
+ return size;\r
+ }\r
+ *mb_free = MBUF_KEEP;\r
+ }\r
+ } else {\r
+ /* packet can be fragmented copy RBs */\r
+ rte_memcpy(pos, iq_data_start, size);\r
+ *mb_free = MBUF_FREE;\r
+ }\r
+ }\r
+ } else {\r
+ print_err("pos %p iq_data_start %p size %d\n",pos, iq_data_start, size);\r
+ }\r
+ } else {\r
+ print_err("TTI %d(f_%d sf_%d slot_%d) CC %d Ant_ID %d symb_id %d\n",tti, frame_id, subframe_id, slot_id, CC_ID, Ant_ID, symb_id);\r
+ }\r
+\r
+ return size;\r
+}\r
+\r
+/* Send burst of packets on an output interface */\r
+static inline int\r
+xran_send_burst(struct xran_device_ctx *dev, uint16_t n, uint16_t port)\r
+{\r
+ struct rte_mbuf **m_table;\r
+ struct rte_mbuf *m;\r
+ int32_t i = 0;\r
+ int j;\r
+ int32_t ret = 0;\r
+\r
+ m_table = (struct rte_mbuf **)dev->tx_mbufs[port].m_table;\r
+\r
+ for(i = 0; i < n; i++){\r
+ rte_mbuf_sanity_check(m_table[i], 0);\r
+ /*rte_pktmbuf_dump(stdout, m_table[i], 256);*/\r
+ tx_counter++;\r
+ tx_bytes_counter += rte_pktmbuf_pkt_len(m_table[i]);\r
+ ret += dev->send_upmbuf2ring(m_table[i], ETHER_TYPE_ECPRI);\r
+ }\r
+\r
+\r
+ if (unlikely(ret < n)) {\r
+ print_err("ret < n\n");\r
+ }\r
+\r
+ return 0;\r
+}\r
+\r
+int32_t xran_process_tx_sym_cp_off(uint8_t ctx_id, uint32_t tti, int32_t cc_id, int32_t ant_id, uint32_t frame_id, uint32_t subframe_id, uint32_t slot_id, uint32_t sym_id,\r
+ int32_t do_srs)\r
+{\r
+ int32_t retval = 0;\r
+ uint64_t t1 = MLogTick();\r
+\r
+ void *pHandle = NULL;\r
+ char *pos = NULL;\r
+ char *p_sec_iq = NULL;\r
+ char *p_sect_iq = NULL;\r
+ void *mb = NULL;\r
+ int prb_num = 0;\r
+ uint16_t iq_sample_size_bits = 16; // TODO: make dynamic per\r
+\r
+ struct xran_prb_map *prb_map = NULL;\r
+ uint8_t num_ant_elm = 0;\r
+\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ struct xran_prach_cp_config *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);\r
+ struct xran_srs_config *p_srs_cfg = &(p_xran_dev_ctx->srs_cfg);\r
+ num_ant_elm = xran_get_num_ant_elm(pHandle);\r
+ enum xran_pkt_dir direction;\r
+\r
+ struct rte_mbuf *eth_oran_hdr = NULL;\r
+ char *ext_buff = NULL;\r
+ uint16_t ext_buff_len = 0;\r
+ struct rte_mbuf *tmp = NULL;\r
+ rte_iova_t ext_buff_iova = 0;\r
+\r
+ struct rte_mbuf_ext_shared_info * p_share_data = &share_data[tti % XRAN_N_FE_BUF_LEN];\r
+\r
+ if(p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) {\r
+ direction = XRAN_DIR_DL; /* O-DU */\r
+ prb_num = p_xran_dev_ctx->fh_cfg.nDLRBs;\r
+ } else {\r
+ direction = XRAN_DIR_UL; /* RU */\r
+ prb_num = p_xran_dev_ctx->fh_cfg.nULRBs;\r
+ }\r
+\r
+ if(xran_fs_get_slot_type(cc_id, tti, ((p_xran_dev_ctx->fh_init.io_cfg.id == O_DU)? XRAN_SLOT_TYPE_DL : XRAN_SLOT_TYPE_UL)) == 1\r
+ || xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_SP) == 1\r
+ || xran_fs_get_slot_type(cc_id, tti, XRAN_SLOT_TYPE_FDD) == 1){\r
+\r
+ if(xran_fs_get_symbol_type(cc_id, tti, sym_id) == ((p_xran_dev_ctx->fh_init.io_cfg.id == O_DU)? XRAN_SYMBOL_TYPE_DL : XRAN_SYMBOL_TYPE_UL)\r
+ || xran_fs_get_symbol_type(cc_id, tti, sym_id) == XRAN_SYMBOL_TYPE_FDD){\r
+\r
+ if(iq_sample_size_bits != 16)\r
+ print_err("Incorrect iqWidth %d\n", iq_sample_size_bits );\r
+\r
+ pos = (char*) p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pData;\r
+ mb = (void*) p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pCtrl;\r
+ prb_map = (struct xran_prb_map *) p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers->pData;\r
+\r
+\r
+ if(prb_map){\r
+ int32_t elmIdx = 0;\r
+ for (elmIdx = 0; elmIdx < prb_map->nPrbElm; elmIdx++){\r
+ uint16_t sec_id = elmIdx;\r
+ struct xran_prb_elm * prb_map_elm = &prb_map->prbMap[elmIdx];\r
+ struct xran_section_desc * p_sec_desc = NULL;\r
+\r
+ if(prb_map_elm == NULL){\r
+ rte_panic("p_sec_desc == NULL\n");\r
+ }\r
+\r
+ p_sec_desc = prb_map_elm->p_sec_desc[sym_id];\r
+\r
+ if(p_sec_desc == NULL){\r
+ rte_panic("p_sec_desc == NULL\n");\r
+ }\r
+\r
+#if 1\r
+ p_sec_iq = ((char*)pos + p_sec_desc->iq_buffer_offset);\r
+\r
+ /* calculete offset for external buffer */\r
+ ext_buff_len = p_sec_desc->iq_buffer_len;\r
+ ext_buff = p_sec_iq - (RTE_PKTMBUF_HEADROOM +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr));\r
+\r
+ ext_buff_len += RTE_PKTMBUF_HEADROOM +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr) + 18;\r
+\r
+ if(prb_map_elm->compMethod != XRAN_COMPMETHOD_NONE){\r
+ ext_buff -= sizeof (struct data_section_compression_hdr);\r
+ ext_buff_len += sizeof (struct data_section_compression_hdr);\r
+ }\r
+\r
+ eth_oran_hdr = rte_pktmbuf_alloc(_eth_mbuf_pool_small);\r
+\r
+ if (unlikely (( eth_oran_hdr) == NULL)) {\r
+ rte_panic("Failed rte_pktmbuf_alloc\n");\r
+ }\r
+\r
+ p_share_data->free_cb = extbuf_free_callback;\r
+ p_share_data->fcb_opaque = NULL;\r
+ rte_mbuf_ext_refcnt_set(p_share_data, 1);\r
+\r
+ ext_buff_iova = rte_mempool_virt2iova(mb);\r
+ if (unlikely (( ext_buff_iova) == 0)) {\r
+ rte_panic("Failed rte_mem_virt2iova \n");\r
+ }\r
+\r
+ if (unlikely (( (rte_iova_t)ext_buff_iova) == RTE_BAD_IOVA)) {\r
+ rte_panic("Failed rte_mem_virt2iova RTE_BAD_IOVA \n");\r
+ }\r
+\r
+ rte_pktmbuf_attach_extbuf(eth_oran_hdr,\r
+ ext_buff,\r
+ ext_buff_iova + RTE_PTR_DIFF(ext_buff , mb),\r
+ ext_buff_len,\r
+ p_share_data);\r
+\r
+ rte_pktmbuf_reset_headroom(eth_oran_hdr);\r
+\r
+ tmp = (struct rte_mbuf *)rte_pktmbuf_prepend(eth_oran_hdr, sizeof(struct ether_hdr));\r
+ if (unlikely (( tmp) == NULL)) {\r
+ rte_panic("Failed rte_pktmbuf_prepend \n");\r
+ }\r
+ mb = eth_oran_hdr;\r
+\r
+ /* first all PRBs */\r
+ prepare_symbol_ex(direction, sec_id,\r
+ mb,\r
+ (struct rb_map *)p_sec_iq,\r
+ prb_map_elm->compMethod,\r
+ prb_map_elm->iqWidth,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ prb_map_elm->nRBStart, prb_map_elm->nRBSize,\r
+ cc_id, ant_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_id),\r
+ 0);\r
+\r
+ rte_mbuf_sanity_check((struct rte_mbuf *)mb, 0);\r
+ tx_counter++;\r
+ tx_bytes_counter += rte_pktmbuf_pkt_len((struct rte_mbuf *)mb);\r
+ p_xran_dev_ctx->send_upmbuf2ring((struct rte_mbuf *)mb, ETHER_TYPE_ECPRI);\r
+#else\r
+ p_sect_iq = pos + p_sec_desc->iq_buffer_offset;\r
+ prb_num = prb_map_elm->nRBSize;\r
+\r
+ if( prb_num > 136 || prb_num == 0) {\r
+ /* first 136 PRBs */\r
+ rte_panic("first 136 PRBs\n");\r
+ send_symbol_ex(direction,\r
+ sec_id,\r
+ NULL,\r
+ (struct rb_map *)p_sect_iq,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ 0, 136,\r
+ cc_id, ant_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_id));\r
+\r
+ pos += 136 * N_SC_PER_PRB * (iq_sample_size_bits/8)*2;\r
+ /* last 137 PRBs */\r
+ send_symbol_ex(direction, sec_id,\r
+ NULL,\r
+ (struct rb_map *)p_sect_iq,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ 136, 137,\r
+ cc_id, ant_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_id));\r
+ retval = 1;\r
+ } else {\r
+ send_symbol_ex(direction,\r
+ sec_id, /* xran_alloc_sectionid(pHandle, direction, cc_id, ant_id, slot_id)*/\r
+ /*(struct rte_mbuf *)mb*/ NULL,\r
+ (struct rb_map *)p_sect_iq,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ prb_map_elm->nRBStart, prb_map_elm->nRBSize,\r
+ cc_id, ant_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_id));\r
+ retval = 1;\r
+ }\r
+\r
+#endif\r
+\r
+ }\r
+ } else {\r
+ printf("(%d %d %d %d) prb_map == NULL\n", tti % XRAN_N_FE_BUF_LEN, cc_id, ant_id, sym_id);\r
+ }\r
+\r
+ if(p_xran_dev_ctx->enablePrach\r
+ && (p_xran_dev_ctx->fh_init.io_cfg.id == O_RU)) { /* Only RU needs to send PRACH I/Q */\r
+ uint32_t is_prach_slot = xran_is_prach_slot(subframe_id, slot_id);\r
+ if(((frame_id % pPrachCPConfig->x) == pPrachCPConfig->y[0])\r
+ && (is_prach_slot == 1)\r
+ && (sym_id >= p_xran_dev_ctx->prach_start_symbol[cc_id])\r
+ && (sym_id <= p_xran_dev_ctx->prach_last_symbol[cc_id])) { //is prach slot\r
+ int prach_port_id = ant_id + pPrachCPConfig->eAxC_offset;\r
+ pos = (char*) p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[0].pData;\r
+ pos += (sym_id - p_xran_dev_ctx->prach_start_symbol[cc_id]) * pPrachCPConfig->numPrbc * N_SC_PER_PRB * 4;\r
+ mb = NULL;//(void*) p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[0].pCtrl;\r
+\r
+ send_symbol_ex(direction,\r
+ xran_alloc_sectionid(pHandle, direction, cc_id, prach_port_id, slot_id),\r
+ (struct rte_mbuf *)mb,\r
+ (struct rb_map *)pos,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ pPrachCPConfig->startPrbc, pPrachCPConfig->numPrbc,\r
+ cc_id, prach_port_id,\r
+ xran_get_upul_seqid(pHandle, cc_id, prach_port_id));\r
+ retval = 1;\r
+ } /* if((frame_id % pPrachCPConfig->x == pPrachCPConfig->y[0]) .... */\r
+ } /* if(p_xran_dev_ctx->enablePrach ..... */\r
+\r
+\r
+ if(p_xran_dev_ctx->enableSrs && (p_xran_dev_ctx->fh_init.io_cfg.id == O_RU)){\r
+ if( p_srs_cfg->symbMask & (1 << sym_id) /* is SRS symbol */\r
+ && do_srs) {\r
+ int32_t ant_elm_id = 0;\r
+\r
+ for (ant_elm_id = 0; ant_elm_id < num_ant_elm; ant_elm_id++){\r
+ int32_t ant_elm_eAxC_id = ant_elm_id + p_srs_cfg->eAxC_offset;\r
+\r
+ pos = (char*) p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_elm_id].sBufferList.pBuffers[sym_id].pData;\r
+ mb = (void*) p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_elm_id].sBufferList.pBuffers[sym_id].pCtrl;\r
+\r
+ if( prb_num > 136 || prb_num == 0) {\r
+ uint16_t sec_id = xran_alloc_sectionid(pHandle, direction, cc_id, ant_id, slot_id);\r
+ /* first 136 PRBs */\r
+ send_symbol_ex(direction,\r
+ sec_id,\r
+ NULL,\r
+ (struct rb_map *)pos,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ 0, 136,\r
+ cc_id, ant_elm_eAxC_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_elm_eAxC_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_elm_eAxC_id));\r
+\r
+ pos += 136 * N_SC_PER_PRB * (iq_sample_size_bits/8)*2;\r
+ /* last 137 PRBs */\r
+ send_symbol_ex(direction, sec_id,\r
+ NULL,\r
+ (struct rb_map *)pos,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ 136, 137,\r
+ cc_id, ant_elm_eAxC_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_elm_eAxC_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_elm_eAxC_id));\r
+ } else {\r
+ send_symbol_ex(direction,\r
+ xran_alloc_sectionid(pHandle, direction, cc_id, ant_elm_eAxC_id, slot_id),\r
+ (struct rte_mbuf *)mb,\r
+ (struct rb_map *)pos,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ 0, prb_num,\r
+ cc_id, ant_elm_eAxC_id,\r
+ (p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) ?\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_elm_eAxC_id) :\r
+ xran_get_upul_seqid(pHandle, cc_id, ant_elm_eAxC_id));\r
+ retval = 1;\r
+ }\r
+ } /* for ant elem */\r
+ } /* SRS symbol */\r
+ } /* SRS enabled */\r
+ } /* RU mode or C-Plane is not used */\r
+ }\r
+\r
+ return retval;\r
+}\r
+\r
+\r
+int32_t xran_process_tx_sym_cp_on(uint8_t ctx_id, uint32_t tti, int32_t cc_id, int32_t ant_id, uint32_t frame_id, uint32_t subframe_id,\r
+ uint32_t slot_id, uint32_t sym_id)\r
+{\r
+ int32_t retval = 0;\r
+ uint64_t t1 = MLogTick();\r
+\r
+ struct rte_mbuf *eth_oran_hdr = NULL;\r
+ char *ext_buff = NULL;\r
+ uint16_t ext_buff_len = 0;\r
+ struct rte_mbuf *tmp = NULL;\r
+ rte_iova_t ext_buff_iova = 0;\r
+ void *pHandle = NULL;\r
+ char *pos = NULL;\r
+ char *p_sec_iq = NULL;\r
+ void *mb = NULL;\r
+ int prb_num = 0;\r
+ uint16_t iq_sample_size_bits = 16; // TODO: make dynamic per\r
+ uint32_t next = 0;\r
+ int32_t num_sections = 0;\r
+\r
+ struct xran_section_info *sectinfo = NULL;\r
+ struct xran_device_ctx *p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ struct xran_prach_cp_config *pPrachCPConfig = &(p_xran_dev_ctx->PrachCPConfig);\r
+ struct xran_srs_config *p_srs_cfg = &(p_xran_dev_ctx->srs_cfg);\r
+ enum xran_pkt_dir direction;\r
+\r
+ struct rte_mbuf_ext_shared_info * p_share_data = &share_data[tti % XRAN_N_FE_BUF_LEN];\r
+\r
+ if(p_xran_dev_ctx->fh_init.io_cfg.id == O_DU) {\r
+ direction = XRAN_DIR_DL; /* O-DU */\r
+ prb_num = p_xran_dev_ctx->fh_cfg.nDLRBs;\r
+ } else {\r
+ direction = XRAN_DIR_UL; /* RU */\r
+ prb_num = p_xran_dev_ctx->fh_cfg.nULRBs;\r
+ }\r
+\r
+ next = 0;\r
+ num_sections = xran_cp_getsize_section_info(pHandle, direction, cc_id, ant_id, ctx_id);\r
+ /* iterate C-Plane configuration to generate corresponding U-Plane */\r
+ while(next < num_sections) {\r
+ sectinfo = xran_cp_iterate_section_info(pHandle, direction, cc_id, ant_id, ctx_id, &next);\r
+\r
+ if(sectinfo == NULL)\r
+ break;\r
+\r
+ if(sectinfo->type != XRAN_CP_SECTIONTYPE_1) { /* only supports type 1 */\r
+ print_err("Invalid section type in section DB - %d", sectinfo->type);\r
+ continue;\r
+ }\r
+\r
+ /* skip, if not scheduled */\r
+ if(sym_id < sectinfo->startSymId || sym_id >= sectinfo->startSymId + sectinfo->numSymbol)\r
+ continue;\r
+\r
+ if(sectinfo->compMeth)\r
+ iq_sample_size_bits = sectinfo->iqWidth;\r
+\r
+ print_dbg(">>> sym %2d [%d] type%d, id %d, startPrbc=%d, numPrbc=%d, numSymbol=%d\n", sym_id, next,\r
+ sectinfo->type, sectinfo->id, sectinfo->startPrbc,\r
+ sectinfo->numPrbc, sectinfo->numSymbol);\r
+\r
+ p_xran_dev_ctx->tx_mbufs[0].len = 0;\r
+ uint16_t len = p_xran_dev_ctx->tx_mbufs[0].len;\r
+ int16_t len2 = 0;\r
+ uint16_t i = 0;\r
+\r
+ //Added for Klocworks\r
+ if (len >= MBUF_TABLE_SIZE)\r
+ len = MBUF_TABLE_SIZE - 1;\r
+\r
+ pos = (char*) p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pData;\r
+ mb = p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[tti % XRAN_N_FE_BUF_LEN][cc_id][ant_id].sBufferList.pBuffers[sym_id].pCtrl;\r
+\r
+#if 1\r
+ p_sec_iq = ((char*)pos + sectinfo->sec_desc[sym_id].iq_buffer_offset);\r
+\r
+ /* calculete offset for external buffer */\r
+ ext_buff_len = sectinfo->sec_desc[sym_id].iq_buffer_len;\r
+ ext_buff = p_sec_iq - (RTE_PKTMBUF_HEADROOM +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr));\r
+\r
+ ext_buff_len += RTE_PKTMBUF_HEADROOM +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr) + 18;\r
+\r
+ if(sectinfo->compMeth != XRAN_COMPMETHOD_NONE){\r
+ ext_buff -= sizeof (struct data_section_compression_hdr);\r
+ ext_buff_len += sizeof (struct data_section_compression_hdr);\r
+ }\r
+\r
+ eth_oran_hdr = rte_pktmbuf_alloc(_eth_mbuf_pool_small);\r
+\r
+ if (unlikely (( eth_oran_hdr) == NULL)) {\r
+ rte_panic("Failed rte_pktmbuf_alloc\n");\r
+ }\r
+\r
+ p_share_data->free_cb = extbuf_free_callback;\r
+ p_share_data->fcb_opaque = NULL;\r
+ rte_mbuf_ext_refcnt_set(p_share_data, 1);\r
+\r
+ ext_buff_iova = rte_mempool_virt2iova(mb);\r
+ if (unlikely (( ext_buff_iova) == 0)) {\r
+ rte_panic("Failed rte_mem_virt2iova \n");\r
+ }\r
+\r
+ if (unlikely (( (rte_iova_t)ext_buff_iova) == RTE_BAD_IOVA)) {\r
+ rte_panic("Failed rte_mem_virt2iova RTE_BAD_IOVA \n");\r
+ }\r
+\r
+ rte_pktmbuf_attach_extbuf(eth_oran_hdr,\r
+ ext_buff,\r
+ ext_buff_iova + RTE_PTR_DIFF(ext_buff , mb),\r
+ ext_buff_len,\r
+ p_share_data);\r
+\r
+ rte_pktmbuf_reset_headroom(eth_oran_hdr);\r
+\r
+ tmp = (struct rte_mbuf *)rte_pktmbuf_prepend(eth_oran_hdr, sizeof(struct ether_hdr));\r
+ if (unlikely (( tmp) == NULL)) {\r
+ rte_panic("Failed rte_pktmbuf_prepend \n");\r
+ }\r
+ mb = eth_oran_hdr;\r
+#else\r
+ rte_pktmbuf_refcnt_update(mb, 1); /* make sure eth won't free our mbuf */\r
+#endif\r
+ /* first all PRBs */\r
+ prepare_symbol_ex(direction, sectinfo->id,\r
+ mb,\r
+ (struct rb_map *)p_sec_iq,\r
+ sectinfo->compMeth,\r
+ sectinfo->iqWidth,\r
+ p_xran_dev_ctx->fh_cfg.ru_conf.byteOrder,\r
+ frame_id, subframe_id, slot_id, sym_id,\r
+ sectinfo->startPrbc, sectinfo->numPrbc,\r
+ cc_id, ant_id,\r
+ xran_get_updl_seqid(pHandle, cc_id, ant_id),\r
+ 0);\r
+\r
+ /* if we don't need to do any fragmentation */\r
+ if (likely (p_xran_dev_ctx->fh_init.mtu >=\r
+ sectinfo->numPrbc * (3*iq_sample_size_bits + 1))) {\r
+ /* no fragmentation */\r
+ p_xran_dev_ctx->tx_mbufs[0].m_table[len] = mb;\r
+ len2 = 1;\r
+ } else {\r
+ /* fragmentation */\r
+ uint8_t * seq_num = xran_get_updl_seqid_addr(pHandle, cc_id, ant_id);\r
+ if(seq_num)\r
+ (*seq_num)--;\r
+ else\r
+ rte_panic("pointer to seq number is NULL [CC %d Ant %d]\n", cc_id, ant_id);\r
+\r
+ len2 = xran_app_fragment_packet(mb,\r
+ &p_xran_dev_ctx->tx_mbufs[0].m_table[len],\r
+ (uint16_t)(MBUF_TABLE_SIZE - len),\r
+ p_xran_dev_ctx->fh_init.mtu,\r
+ p_xran_dev_ctx->direct_pool,\r
+ p_xran_dev_ctx->indirect_pool,\r
+ sectinfo,\r
+ seq_num);\r
+\r
+ /* Free input packet */\r
+ rte_pktmbuf_free(mb);\r
+\r
+ /* If we fail to fragment the packet */\r
+ if (unlikely (len2 < 0)){\r
+ print_err("len2= %d\n", len2);\r
+ return 0;\r
+ }\r
+ }\r
+\r
+ if(len2 > 1){\r
+ for (i = len; i < len + len2; i ++) {\r
+ struct rte_mbuf *m;\r
+ m = p_xran_dev_ctx->tx_mbufs[0].m_table[i];\r
+ struct ether_hdr *eth_hdr = (struct ether_hdr *)\r
+ rte_pktmbuf_prepend(m, (uint16_t)sizeof(struct ether_hdr));\r
+ if (eth_hdr == NULL) {\r
+ rte_panic("No headroom in mbuf.\n");\r
+ }\r
+ }\r
+ }\r
+\r
+ len += len2;\r
+\r
+ if (unlikely(len > XRAN_MAX_PKT_BURST_PER_SYM)) {\r
+ rte_panic("XRAN_MAX_PKT_BURST_PER_SYM\n");\r
+ }\r
+\r
+ /* Transmit packets */\r
+ xran_send_burst(p_xran_dev_ctx, (uint16_t)len, 0);\r
+ p_xran_dev_ctx->tx_mbufs[0].len = 0;\r
+ retval = 1;\r
+ } /* while(section) */\r
+\r
+ return retval;\r
+}\r
+\r
+int32_t xran_process_tx_sym(void *arg)\r
+{\r
+ int32_t retval = 0;\r
+ uint32_t tti=0;\r
+#if XRAN_MLOG_VAR\r
+ uint32_t mlogVar[10];\r
+ uint32_t mlogVarCnt = 0;\r
+#endif\r
+ unsigned long t1 = MLogTick();\r
+\r
+ void *pHandle = NULL;\r
+ int32_t ant_id = 0;\r
+ int32_t cc_id = 0;\r
+ uint8_t num_eAxc = 0;\r
+ uint8_t num_CCPorts = 0;\r
+ uint8_t num_ant_elm = 0;\r
+ uint32_t frame_id = 0;\r
+ uint32_t subframe_id = 0;\r
+ uint32_t slot_id = 0;\r
+ uint32_t sym_id = 0;\r
+ uint32_t sym_idx = 0;\r
+\r
+ uint8_t ctx_id;\r
+ enum xran_pkt_dir direction;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ if(p_xran_dev_ctx->xran2phy_mem_ready == 0)\r
+ return 0;\r
+\r
+ /* O-RU: send symb after OTA time with delay (UL) */\r
+ /* O-DU: send symb in advance of OTA time (DL) */\r
+ sym_idx = XranOffsetSym(p_xran_dev_ctx->sym_up, xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT*SLOTNUM_PER_SUBFRAME*1000);\r
+\r
+ tti = XranGetTtiNum(sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);\r
+ slot_id = XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);\r
+ subframe_id = XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ frame_id = XranGetFrameNum(tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+ // ORAN frameId, 8 bits, [0, 255]\r
+ frame_id = (frame_id & 0xff);\r
+\r
+ sym_id = XranGetSymNum(sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);\r
+ ctx_id = XranGetSlotNum(tti, SLOTS_PER_SYSTEMFRAME) % XRAN_MAX_SECTIONDB_CTX;\r
+\r
+ print_dbg("[%d]SFN %d sf %d slot %d\n", tti, frame_id, subframe_id, slot_id);\r
+\r
+#if XRAN_MLOG_VAR\r
+ mlogVar[mlogVarCnt++] = 0xAAAAAAAA;\r
+ mlogVar[mlogVarCnt++] = xran_lib_ota_sym_idx;\r
+ mlogVar[mlogVarCnt++] = sym_idx;\r
+ mlogVar[mlogVarCnt++] = abs(p_xran_dev_ctx->sym_up);\r
+ mlogVar[mlogVarCnt++] = tti;\r
+ mlogVar[mlogVarCnt++] = frame_id;\r
+ mlogVar[mlogVarCnt++] = subframe_id;\r
+ mlogVar[mlogVarCnt++] = slot_id;\r
+ mlogVar[mlogVarCnt++] = sym_id;\r
+ MLogAddVariables(mlogVarCnt, mlogVar, MLogTick());\r
+#endif\r
+\r
+ if(p_xran_dev_ctx->fh_init.io_cfg.id == O_RU && xran_get_ru_category(pHandle) == XRAN_CATEGORY_B) {\r
+ num_eAxc = xran_get_num_eAxcUl(pHandle);\r
+ } else {\r
+ num_eAxc = xran_get_num_eAxc(pHandle);\r
+ }\r
+\r
+ num_CCPorts = xran_get_num_cc(pHandle);\r
+ /* U-Plane */\r
+ for(ant_id = 0; ant_id < num_eAxc; ant_id++) {\r
+ for(cc_id = 0; cc_id < num_CCPorts; cc_id++) {\r
+ if(p_xran_dev_ctx->fh_init.io_cfg.id == O_DU && p_xran_dev_ctx->enableCP){\r
+ retval = xran_process_tx_sym_cp_on(ctx_id, tti, cc_id, ant_id, frame_id, subframe_id, slot_id, sym_id);\r
+ } else {\r
+ retval = xran_process_tx_sym_cp_off(ctx_id, tti, cc_id, ant_id, frame_id, subframe_id, slot_id, sym_id, (ant_id == (num_eAxc - 1)));\r
+ }\r
+ } /* for(cc_id = 0; cc_id < num_CCPorts; cc_id++) */\r
+ } /* for(ant_id = 0; ant_id < num_eAxc; ant_id++) */\r
+\r
+ MLogTask(PID_PROCESS_TX_SYM, t1, MLogTick());\r
+ return retval;\r
+}\r
+\r
+int xran_packet_and_dpdk_timer_thread(void *args)\r
+{\r
+ struct xran_ethdi_ctx *const ctx = xran_ethdi_get_ctx();\r
+\r
+ uint64_t prev_tsc = 0;\r
+ uint64_t cur_tsc = rte_rdtsc();\r
+ uint64_t diff_tsc = cur_tsc - prev_tsc;\r
+ cpu_set_t cpuset;\r
+ struct sched_param sched_param;\r
+ int res = 0;\r
+ printf("%s [CPU %2d] [PID: %6d]\n", __FUNCTION__, rte_lcore_id(), getpid());\r
+\r
+ sched_param.sched_priority = XRAN_THREAD_DEFAULT_PRIO;\r
+\r
+ if ((res = pthread_setschedparam(pthread_self(), 1, &sched_param)))\r
+ {\r
+ printf("priority is not changed: coreId = %d, result1 = %d\n",rte_lcore_id(), res);\r
+ }\r
+\r
+ while(1){\r
+\r
+ cur_tsc = rte_rdtsc();\r
+ diff_tsc = cur_tsc - prev_tsc;\r
+ if (diff_tsc > TIMER_RESOLUTION_CYCLES) {\r
+ rte_timer_manage();\r
+ prev_tsc = cur_tsc;\r
+ }\r
+\r
+ if (XRAN_STOPPED == xran_if_current_state)\r
+ break;\r
+ }\r
+\r
+ printf("Closing pkts timer thread...\n");\r
+ return 0;\r
+}\r
+\r
+\r
+int32_t xran_init(int argc, char *argv[],\r
+ struct xran_fh_init *p_xran_fh_init, char *appName, void ** pXranLayerHandle)\r
+{\r
+ int32_t i;\r
+ int32_t j;\r
+\r
+ struct xran_io_loop_cfg *p_io_cfg = (struct xran_io_loop_cfg *)&p_xran_fh_init->io_cfg;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ int32_t lcore_id = 0;\r
+ char filename[64];\r
+ int64_t offset_sec, offset_nsec;\r
+\r
+ memset(p_xran_dev_ctx, 0, sizeof(struct xran_device_ctx));\r
+\r
+ /* copy init */\r
+ p_xran_dev_ctx->fh_init = *p_xran_fh_init;\r
+\r
+ printf(" %s: MTU %d\n", __FUNCTION__, p_xran_dev_ctx->fh_init.mtu);\r
+\r
+ xran_if_current_state = XRAN_INIT;\r
+\r
+ memcpy(&(p_xran_dev_ctx->eAxc_id_cfg), &(p_xran_fh_init->eAxCId_conf), sizeof(struct xran_eaxcid_config));\r
+\r
+ p_xran_dev_ctx->enableCP = p_xran_fh_init->enableCP;\r
+ p_xran_dev_ctx->enablePrach = p_xran_fh_init->prachEnable;\r
+ p_xran_dev_ctx->enableSrs = p_xran_fh_init->srsEnable;\r
+ p_xran_dev_ctx->DynamicSectionEna = p_xran_fh_init->DynamicSectionEna;\r
+\r
+ /* To make sure to set default functions */\r
+ p_xran_dev_ctx->send_upmbuf2ring = NULL;\r
+ p_xran_dev_ctx->send_cpmbuf2ring = NULL;\r
+\r
+ xran_register_ethertype_handler(ETHER_TYPE_ECPRI, handle_ecpri_ethertype);\r
+ if (p_io_cfg->id == 0)\r
+ xran_ethdi_init_dpdk_io(p_xran_fh_init->filePrefix,\r
+ p_io_cfg,\r
+ &lcore_id,\r
+ (struct ether_addr *)p_xran_fh_init->p_o_du_addr,\r
+ (struct ether_addr *)p_xran_fh_init->p_o_ru_addr,\r
+ p_xran_fh_init->cp_vlan_tag,\r
+ p_xran_fh_init->up_vlan_tag);\r
+ else\r
+ xran_ethdi_init_dpdk_io(p_xran_fh_init->filePrefix,\r
+ p_io_cfg,\r
+ &lcore_id,\r
+ (struct ether_addr *)p_xran_fh_init->p_o_ru_addr,\r
+ (struct ether_addr *)p_xran_fh_init->p_o_du_addr,\r
+ p_xran_fh_init->cp_vlan_tag,\r
+ p_xran_fh_init->up_vlan_tag);\r
+\r
+ for(i = 0; i < 10; i++ )\r
+ rte_timer_init(&tti_to_phy_timer[i]);\r
+\r
+ rte_timer_init(&sym_timer);\r
+ for (i = 0; i< MAX_NUM_OF_DPDK_TIMERS; i++)\r
+ rte_timer_init(&dpdk_timer[i]);\r
+\r
+ p_xran_dev_ctx->direct_pool = socket_direct_pool;\r
+ p_xran_dev_ctx->indirect_pool = socket_indirect_pool;\r
+\r
+ for (i = 0; i< XRAN_MAX_SECTOR_NR; i++){\r
+ for (j = 0; j< XRAN_NUM_OF_SYMBOL_PER_SLOT; j++){\r
+ LIST_INIT (&p_xran_dev_ctx->sym_cb_list_head[i][j]);\r
+ }\r
+ }\r
+\r
+ printf("Set debug stop %d, debug stop count %d\n", p_xran_fh_init->debugStop, p_xran_fh_init->debugStopCount);\r
+ timing_set_debug_stop(p_xran_fh_init->debugStop, p_xran_fh_init->debugStopCount);\r
+\r
+ for (uint32_t nCellIdx = 0; nCellIdx < XRAN_MAX_SECTOR_NR; nCellIdx++){\r
+ xran_fs_clear_slot_type(nCellIdx);\r
+ }\r
+\r
+ *pXranLayerHandle = p_xran_dev_ctx;\r
+\r
+ if(p_xran_fh_init->GPS_Alpha || p_xran_fh_init->GPS_Beta ){\r
+ offset_sec = p_xran_fh_init->GPS_Beta / 100; //resolution of beta is 10ms\r
+ offset_nsec = (p_xran_fh_init->GPS_Beta - offset_sec * 100) * 1e7 + p_xran_fh_init->GPS_Alpha;\r
+ p_xran_dev_ctx->offset_sec = offset_sec;\r
+ p_xran_dev_ctx->offset_nsec = offset_nsec;\r
+ }else {\r
+ p_xran_dev_ctx->offset_sec = 0;\r
+ p_xran_dev_ctx->offset_nsec = 0;\r
+ }\r
+\r
+ return 0;\r
+}\r
+\r
+int32_t xran_sector_get_instances (void * pDevHandle, uint16_t nNumInstances,\r
+ xran_cc_handle_t * pSectorInstanceHandles)\r
+{\r
+ xran_status_t nStatus = XRAN_STATUS_FAIL;\r
+ struct xran_device_ctx *pDev = (struct xran_device_ctx *)pDevHandle;\r
+ XranSectorHandleInfo *pCcHandle = NULL;\r
+ int32_t i = 0;\r
+\r
+ /* Check for the Valid Parameters */\r
+ CHECK_NOT_NULL (pSectorInstanceHandles, XRAN_STATUS_INVALID_PARAM);\r
+\r
+ if (!nNumInstances) {\r
+ print_dbg("Instance is not assigned for this function !!! \n");\r
+ return XRAN_STATUS_INVALID_PARAM;\r
+ }\r
+\r
+ for (i = 0; i < nNumInstances; i++) {\r
+\r
+ /* Allocate Memory for CC handles */\r
+ pCcHandle = (XranSectorHandleInfo *) _mm_malloc( /*"xran_cc_handles",*/ sizeof (XranSectorHandleInfo), 64);\r
+\r
+ if(pCcHandle == NULL)\r
+ return XRAN_STATUS_RESOURCE;\r
+\r
+ memset (pCcHandle, 0, (sizeof (XranSectorHandleInfo)));\r
+\r
+ pCcHandle->nIndex = i;\r
+ pCcHandle->nXranPort = pDev->xran_port_id;\r
+\r
+ printf("%s [%d]: CC %d handle %p\n", __FUNCTION__, pDev->xran_port_id, i, pCcHandle);\r
+ pLibInstanceHandles[pDev->xran_port_id][i] = pSectorInstanceHandles[i] = pCcHandle;\r
+\r
+ printf("Handle: %p Instance: %p\n",\r
+ &pSectorInstanceHandles[i], pSectorInstanceHandles[i]);\r
+ }\r
+\r
+ return XRAN_STATUS_SUCCESS;\r
+}\r
+\r
+int32_t xran_mm_init (void * pHandle, uint64_t nMemorySize,\r
+ uint32_t nMemorySegmentSize)\r
+{\r
+ /* we use mbuf from dpdk memory */\r
+ return 0;\r
+}\r
+\r
+int32_t xran_bm_init (void * pHandle, uint32_t * pPoolIndex, uint32_t nNumberOfBuffers, uint32_t nBufferSize)\r
+{\r
+ XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;\r
+ uint32_t nAllocBufferSize;\r
+\r
+ char pool_name[RTE_MEMPOOL_NAMESIZE];\r
+\r
+ snprintf(pool_name, RTE_MEMPOOL_NAMESIZE, "ru_%d_cc_%d_idx_%d",\r
+ pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex);\r
+\r
+ nAllocBufferSize = nBufferSize + sizeof(struct ether_hdr) +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr) + 256;\r
+\r
+ if(nAllocBufferSize >= UINT16_MAX) {\r
+ rte_panic("nAllocBufferSize is failed [ handle %p %d %d ] [nPoolIndex %d] nNumberOfBuffers %d nBufferSize %d nAllocBufferSize %d\n",\r
+ pXranCc, pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex, nNumberOfBuffers, nBufferSize, nAllocBufferSize);\r
+ return -1;\r
+ }\r
+\r
+ printf("%s: [ handle %p %d %d ] [nPoolIndex %d] nNumberOfBuffers %d nBufferSize %d\n", pool_name,\r
+ pXranCc, pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex, nNumberOfBuffers, nBufferSize);\r
+\r
+ pXranCc->p_bufferPool[pXranCc->nBufferPoolIndex] = rte_pktmbuf_pool_create(pool_name, nNumberOfBuffers,\r
+ MBUF_CACHE, 0, nAllocBufferSize, rte_socket_id());\r
+\r
+ if(pXranCc->p_bufferPool[pXranCc->nBufferPoolIndex] == NULL){\r
+ rte_panic("rte_pktmbuf_pool_create failed [ handle %p %d %d ] [nPoolIndex %d] nNumberOfBuffers %d nBufferSize %d errno %s\n",\r
+ pXranCc, pXranCc->nXranPort, pXranCc->nIndex, pXranCc->nBufferPoolIndex, nNumberOfBuffers, nBufferSize, rte_strerror(rte_errno));\r
+ return -1;\r
+ }\r
+\r
+ pXranCc->bufferPoolElmSz[pXranCc->nBufferPoolIndex] = nBufferSize;\r
+ pXranCc->bufferPoolNumElm[pXranCc->nBufferPoolIndex] = nNumberOfBuffers;\r
+\r
+ printf("CC:[ handle %p ru %d cc_idx %d ] [nPoolIndex %d] mb pool %p \n",\r
+ pXranCc, pXranCc->nXranPort, pXranCc->nIndex,\r
+ pXranCc->nBufferPoolIndex, pXranCc->p_bufferPool[pXranCc->nBufferPoolIndex]);\r
+\r
+ *pPoolIndex = pXranCc->nBufferPoolIndex++;\r
+\r
+ return 0;\r
+}\r
+\r
+int32_t xran_bm_allocate_buffer(void * pHandle, uint32_t nPoolIndex, void **ppData, void **ppCtrl)\r
+{\r
+ XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;\r
+ *ppData = NULL;\r
+ *ppCtrl = NULL;\r
+\r
+ struct rte_mbuf * mb = rte_pktmbuf_alloc(pXranCc->p_bufferPool[nPoolIndex]);\r
+\r
+ if(mb){\r
+ char * start = rte_pktmbuf_append(mb, pXranCc->bufferPoolElmSz[nPoolIndex]);\r
+ char * ethhdr = rte_pktmbuf_prepend(mb, sizeof(struct ether_hdr));\r
+\r
+ if(start && ethhdr){\r
+ char * iq_offset = rte_pktmbuf_mtod(mb, char * );\r
+ /* skip headers */\r
+ iq_offset = iq_offset + sizeof(struct ether_hdr) +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr);\r
+\r
+ if (0) /* if compression */\r
+ iq_offset += sizeof (struct data_section_compression_hdr);\r
+\r
+ *ppData = (void *)iq_offset;\r
+ *ppCtrl = (void *)mb;\r
+ } else {\r
+ print_err("[nPoolIndex %d] start ethhdr failed \n", nPoolIndex );\r
+ return -1;\r
+ }\r
+ } else {\r
+ print_err("[nPoolIndex %d] mb alloc failed \n", nPoolIndex );\r
+ return -1;\r
+ }\r
+\r
+ if (*ppData == NULL){\r
+ print_err("[nPoolIndex %d] rte_pktmbuf_append for %d failed \n", nPoolIndex, pXranCc->bufferPoolElmSz[nPoolIndex]);\r
+ return -1;\r
+ }\r
+\r
+ return 0;\r
+}\r
+\r
+int32_t xran_bm_free_buffer(void * pHandle, void *pData, void *pCtrl)\r
+{\r
+ XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;\r
+\r
+ if(pCtrl)\r
+ rte_pktmbuf_free(pCtrl);\r
+\r
+ return 0;\r
+}\r
+\r
+int32_t xran_5g_fronthault_config (void * pHandle,\r
+ struct xran_buffer_list *pSrcBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],\r
+ struct xran_buffer_list *pSrcCpBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],\r
+ struct xran_buffer_list *pDstBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],\r
+ struct xran_buffer_list *pDstCpBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],\r
+ xran_transport_callback_fn pCallback,\r
+ void *pCallbackTag)\r
+{\r
+ XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;\r
+ xran_status_t nStatus = XRAN_STATUS_SUCCESS;\r
+ int j, i = 0, z, k;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ print_dbg("%s\n", __FUNCTION__);\r
+\r
+ if(NULL == pHandle)\r
+ {\r
+ printf("Handle is NULL!\n");\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+\r
+ if (pCallback == NULL)\r
+ {\r
+ printf ("no callback\n");\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+\r
+ i = pXranCc->nIndex;\r
+\r
+ for(j=0; j<XRAN_N_FE_BUF_LEN; j++)\r
+ {\r
+ for(z = 0; z < XRAN_MAX_ANTENNA_NR; z++){\r
+ /* U-plane TX */\r
+\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].bValid = 0;\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulTxBuffers[j][i][z][0];\r
+\r
+ p_xran_dev_ctx->sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList = *pSrcBuffer[z][j];\r
+\r
+ /* C-plane TX */\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].bValid = 0;\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].nSegGenerated = -1;\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].nSegTransferred = 0;\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulTxPrbMapBuffers[j][i][z][0];\r
+\r
+ p_xran_dev_ctx->sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList = *pSrcCpBuffer[z][j];\r
+\r
+ /* U-plane RX */\r
+\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].bValid = 0;\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulRxBuffers[j][i][z][0];\r
+\r
+ p_xran_dev_ctx->sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList = *pDstBuffer[z][j];\r
+\r
+ /* C-plane RX */\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].bValid = 0;\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].nSegGenerated = -1;\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].nSegTransferred = 0;\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_NUM_OF_SYMBOL_PER_SLOT;\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFrontHaulRxPrbMapBuffers[j][i][z][0];\r
+\r
+ p_xran_dev_ctx->sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList = *pDstCpBuffer[z][j];\r
+ }\r
+ }\r
+\r
+\r
+ p_xran_dev_ctx->pCallback[i] = pCallback;\r
+ p_xran_dev_ctx->pCallbackTag[i] = pCallbackTag;\r
+\r
+ p_xran_dev_ctx->xran2phy_mem_ready = 1;\r
+\r
+ return nStatus;\r
+}\r
+\r
+int32_t xran_5g_prach_req (void * pHandle,\r
+ struct xran_buffer_list *pDstBuffer[XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN],\r
+ xran_transport_callback_fn pCallback,\r
+ void *pCallbackTag)\r
+{\r
+ XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;\r
+ xran_status_t nStatus = XRAN_STATUS_SUCCESS;\r
+ int j, i = 0, z;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ if(NULL == pHandle)\r
+ {\r
+ printf("Handle is NULL!\n");\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+ if (pCallback == NULL)\r
+ {\r
+ printf ("no callback\n");\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+\r
+ i = pXranCc->nIndex;\r
+\r
+ for(j=0; j<XRAN_N_FE_BUF_LEN; j++)\r
+ {\r
+ for(z = 0; z < XRAN_MAX_ANTENNA_NR; z++){\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].bValid = 0;\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_MAX_ANTENNA_NR; // ant number.\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFHPrachRxBuffers[j][i][z][0];\r
+ p_xran_dev_ctx->sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList = *pDstBuffer[z][j];\r
+ }\r
+ }\r
+\r
+ p_xran_dev_ctx->pPrachCallback[i] = pCallback;\r
+ p_xran_dev_ctx->pPrachCallbackTag[i] = pCallbackTag;\r
+\r
+ return 0;\r
+}\r
+\r
+\r
+int32_t xran_5g_srs_req (void * pHandle,\r
+ struct xran_buffer_list *pDstBuffer[XRAN_MAX_ANT_ARRAY_ELM_NR][XRAN_N_FE_BUF_LEN],\r
+ xran_transport_callback_fn pCallback,\r
+ void *pCallbackTag)\r
+{\r
+ XranSectorHandleInfo* pXranCc = (XranSectorHandleInfo*) pHandle;\r
+ xran_status_t nStatus = XRAN_STATUS_SUCCESS;\r
+ int j, i = 0, z;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ if(NULL == pHandle)\r
+ {\r
+ printf("Handle is NULL!\n");\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+ if (pCallback == NULL)\r
+ {\r
+ printf ("no callback\n");\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+\r
+ i = pXranCc->nIndex;\r
+\r
+ for(j=0; j<XRAN_N_FE_BUF_LEN; j++)\r
+ {\r
+ for(z = 0; z < XRAN_MAX_ANT_ARRAY_ELM_NR; z++){\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].bValid = 0;\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].nSegGenerated = -1;\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].nSegToBeGen = -1;\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].nSegTransferred = 0;\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].sBufferList.nNumBuffers = XRAN_MAX_ANT_ARRAY_ELM_NR; // ant number.\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].sBufferList.pBuffers = &p_xran_dev_ctx->sFHSrsRxBuffers[j][i][z][0];\r
+ p_xran_dev_ctx->sFHSrsRxBbuIoBufCtrl[j][i][z].sBufferList = *pDstBuffer[z][j];\r
+ }\r
+ }\r
+\r
+ p_xran_dev_ctx->pSrsCallback[i] = pCallback;\r
+ p_xran_dev_ctx->pSrsCallbackTag[i] = pCallbackTag;\r
+\r
+ return 0;\r
+}\r
+\r
+uint32_t xran_get_time_stats(uint64_t *total_time, uint64_t *used_time, uint32_t *core_used, uint32_t clear)\r
+{\r
+ *total_time = xran_total_tick;\r
+ *used_time = xran_used_tick;\r
+ *core_used = xran_core_used;\r
+\r
+ if (clear)\r
+ {\r
+ xran_total_tick = 0;\r
+ xran_used_tick = 0;\r
+ }\r
+\r
+ return 0;\r
+}\r
+\r
+void * xran_malloc(size_t buf_len)\r
+{\r
+ return rte_malloc("External buffer", buf_len, RTE_CACHE_LINE_SIZE);\r
+}\r
+\r
+uint8_t *xran_add_hdr_offset(uint8_t *dst, int16_t compMethod)\r
+{\r
+ dst+= (RTE_PKTMBUF_HEADROOM +\r
+ sizeof (struct xran_ecpri_hdr) +\r
+ sizeof (struct radio_app_common_hdr) +\r
+ sizeof(struct data_section_hdr));\r
+\r
+ if(compMethod != XRAN_COMPMETHOD_NONE)\r
+ dst += sizeof (struct data_section_compression_hdr);\r
+\r
+ dst = RTE_PTR_ALIGN_CEIL(dst, 64);\r
+\r
+ return dst;\r
+}\r
+\r
+int32_t xran_open(void *pHandle, struct xran_fh_config* pConf)\r
+{\r
+ int32_t i;\r
+ uint8_t nNumerology = 0;\r
+ int32_t lcore_id = 0;\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+ struct xran_fh_config *pFhCfg;\r
+ pFhCfg = &(p_xran_dev_ctx->fh_cfg);\r
+\r
+ memcpy(pFhCfg, pConf, sizeof(struct xran_fh_config));\r
+\r
+ if(pConf->log_level)\r
+ printf(" %s: O-RU Category %s\n", __FUNCTION__, (pFhCfg->ru_conf.xranCat == XRAN_CATEGORY_A) ? "A" : "B");\r
+\r
+ nNumerology = xran_get_conf_numerology(pHandle);\r
+\r
+ if (pConf->nCC > XRAN_MAX_SECTOR_NR)\r
+ {\r
+ if(pConf->log_level)\r
+ printf("Number of cells %d exceeds max number supported %d!\n", pConf->nCC, XRAN_MAX_SECTOR_NR);\r
+ pConf->nCC = XRAN_MAX_SECTOR_NR;\r
+\r
+ }\r
+ if(pConf->ru_conf.iqOrder != XRAN_I_Q_ORDER\r
+ || pConf->ru_conf.byteOrder != XRAN_NE_BE_BYTE_ORDER ){\r
+\r
+ print_err("Byte order and/or IQ order is not supported [IQ %d byte %d]\n", pConf->ru_conf.iqOrder, pConf->ru_conf.byteOrder);\r
+ return XRAN_STATUS_FAIL;\r
+ }\r
+\r
+ /* setup PRACH configuration for C-Plane */\r
+ xran_init_prach(pConf, p_xran_dev_ctx);\r
+ xran_init_srs(pConf, p_xran_dev_ctx);\r
+\r
+ xran_cp_init_sectiondb(pHandle);\r
+ xran_init_sectionid(pHandle);\r
+ xran_init_seqid(pHandle);\r
+\r
+ if(pConf->ru_conf.xran_max_frame) {\r
+ xran_max_frame = pConf->ru_conf.xran_max_frame;\r
+ printf("xran_max_frame %d\n", xran_max_frame);\r
+ }\r
+\r
+ interval_us = xran_fs_get_tti_interval(nNumerology);\r
+\r
+ if(pConf->log_level){\r
+ printf("%s: interval_us=%ld\n", __FUNCTION__, interval_us);\r
+ }\r
+ timing_set_numerology(nNumerology);\r
+\r
+ for(i = 0 ; i <pConf->nCC; i++){\r
+ xran_fs_set_slot_type(i, pConf->frame_conf.nFrameDuplexType, pConf->frame_conf.nTddPeriod,\r
+ pConf->frame_conf.sSlotConfig);\r
+ }\r
+\r
+ xran_fs_slot_limit_init(xran_fs_get_tti_interval(nNumerology));\r
+\r
+ if(xran_ethdi_get_ctx()->io_cfg.bbdev_mode != XRAN_BBDEV_NOT_USED){\r
+ p_xran_dev_ctx->bbdev_dec = pConf->bbdev_dec;\r
+ p_xran_dev_ctx->bbdev_enc = pConf->bbdev_enc;\r
+ }\r
+\r
+ /* if send_xpmbuf2ring needs to be changed from default functions,\r
+ * then those should be set between xran_init and xran_open */\r
+ if(p_xran_dev_ctx->send_cpmbuf2ring == NULL)\r
+ p_xran_dev_ctx->send_cpmbuf2ring = xran_ethdi_mbuf_send_cp;\r
+ if(p_xran_dev_ctx->send_upmbuf2ring == NULL)\r
+ p_xran_dev_ctx->send_upmbuf2ring = xran_ethdi_mbuf_send;\r
+\r
+ /* Start packet processing thread */\r
+ if((uint16_t)xran_ethdi_get_ctx()->io_cfg.port[XRAN_UP_VF] != 0xFFFF &&\r
+ (uint16_t)xran_ethdi_get_ctx()->io_cfg.port[XRAN_CP_VF] != 0xFFFF ){\r
+ if(pConf->log_level){\r
+ print_dbg("XRAN_UP_VF: 0x%04x\n", xran_ethdi_get_ctx()->io_cfg.port[XRAN_UP_VF]);\r
+ print_dbg("XRAN_CP_VF: 0x%04x\n", xran_ethdi_get_ctx()->io_cfg.port[XRAN_CP_VF]);\r
+ }\r
+ if (rte_eal_remote_launch(xran_timing_source_thread, xran_dev_get_ctx(), xran_ethdi_get_ctx()->io_cfg.timing_core))\r
+ rte_panic("thread_run() failed to start\n");\r
+ } else if(pConf->log_level){\r
+ printf("Eth port was not open. Processing thread was not started\n");\r
+ }\r
+\r
+ return 0;\r
+}\r
+\r
+int32_t xran_start(void *pHandle)\r
+{\r
+ if(xran_get_if_state() == XRAN_RUNNING) {\r
+ print_err("Already STARTED!!");\r
+ return (-1);\r
+ }\r
+\r
+ xran_if_current_state = XRAN_RUNNING;\r
+ return 0;\r
+}\r
+\r
+int32_t xran_stop(void *pHandle)\r
+{\r
+ if(xran_get_if_state() == XRAN_STOPPED) {\r
+ print_err("Already STOPPED!!");\r
+ return (-1);\r
+ }\r
+\r
+ xran_if_current_state = XRAN_STOPPED;\r
+ return 0;\r
+}\r
+\r
+int32_t xran_close(void *pHandle)\r
+{\r
+ xran_if_current_state = XRAN_STOPPED;\r
+ //TODO: fix memory leak xran_cp_free_sectiondb(pHandle);\r
+ //rte_eal_mp_wait_lcore();\r
+ //xran_ethdi_ports_stats();\r
+\r
+#ifdef RTE_LIBRTE_PDUMP\r
+ /* uninitialize packet capture framework */\r
+ rte_pdump_uninit();\r
+#endif\r
+ return 0;\r
+}\r
+\r
+int32_t xran_mm_destroy (void * pHandle)\r
+{\r
+ if(xran_get_if_state() == XRAN_RUNNING) {\r
+ print_err("Please STOP first !!");\r
+ return (-1);\r
+ }\r
+\r
+ /* functionality is not yet implemented */\r
+ return -1;\r
+}\r
+\r
+int32_t xran_reg_sym_cb(void *pHandle, xran_callback_sym_fn symCb, void * symCbParam, uint8_t symb, uint8_t ant)\r
+{\r
+ if(xran_get_if_state() == XRAN_RUNNING) {\r
+ print_err("Cannot register callback while running!!\n");\r
+ return (-1);\r
+ }\r
+\r
+ /* functionality is not yet implemented */\r
+ print_err("Functionality is not yet implemented !");\r
+ return -1;\r
+}\r
+\r
+int32_t xran_reg_physide_cb(void *pHandle, xran_fh_tti_callback_fn Cb, void *cbParam, int skipTtiNum, enum callback_to_phy_id id)\r
+{\r
+ struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ if(xran_get_if_state() == XRAN_RUNNING) {\r
+ print_err("Cannot register callback while running!!\n");\r
+ return (-1);\r
+ }\r
+\r
+ p_xran_dev_ctx->ttiCb[id] = Cb;\r
+ p_xran_dev_ctx->TtiCbParam[id] = cbParam;\r
+ p_xran_dev_ctx->SkipTti[id] = skipTtiNum;\r
+\r
+ return 0;\r
+}\r
+\r
+/* send_cpmbuf2ring and send_upmbuf2ring should be set between xran_init and xran_open\r
+ * each cb will be set by default duing open if it is set by NULL */\r
+int xran_register_cb_mbuf2ring(xran_ethdi_mbuf_send_fn mbuf_send_cp, xran_ethdi_mbuf_send_fn mbuf_send_up)\r
+{\r
+ struct xran_device_ctx *p_xran_dev_ctx;\r
+\r
+ if(xran_get_if_state() == XRAN_RUNNING) {\r
+ print_err("Cannot register callback while running!!\n");\r
+ return (-1);\r
+ }\r
+\r
+ p_xran_dev_ctx = xran_dev_get_ctx();\r
+\r
+ p_xran_dev_ctx->send_cpmbuf2ring = mbuf_send_cp;\r
+ p_xran_dev_ctx->send_upmbuf2ring = mbuf_send_up;\r
+\r
+ return (0);\r
+}\r
+\r
+\r
+int32_t xran_get_slot_idx (uint32_t *nFrameIdx, uint32_t *nSubframeIdx, uint32_t *nSlotIdx, uint64_t *nSecond)\r
+{\r
+ int32_t tti = 0;\r
+\r
+ tti = (int32_t)XranGetTtiNum(xran_lib_ota_sym_idx, XRAN_NUM_OF_SYMBOL_PER_SLOT);\r
+ *nSlotIdx = (uint32_t)XranGetSlotNum(tti, SLOTNUM_PER_SUBFRAME);\r
+ *nSubframeIdx = (uint32_t)XranGetSubFrameNum(tti,SLOTNUM_PER_SUBFRAME, SUBFRAMES_PER_SYSTEMFRAME);\r
+ *nFrameIdx = (uint32_t)XranGetFrameNum(tti,xran_getSfnSecStart(),SUBFRAMES_PER_SYSTEMFRAME, SLOTNUM_PER_SUBFRAME);\r
+ *nSecond = timing_get_current_second();\r
+\r
+ return tti;\r
+}\r
+\r
+\r
+/**\r
+ * @brief Get the configuration of eAxC ID\r
+ *\r
+ * @return the pointer of configuration\r
+ */\r
+inline struct xran_eaxcid_config *xran_get_conf_eAxC(void *pHandle)\r
+{\r
+ return (&(xran_dev_get_ctx()->eAxc_id_cfg));\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of the total number of beamforming weights on RU\r
+ *\r
+ * @return Configured the number of beamforming weights\r
+ */\r
+inline uint8_t xran_get_conf_num_bfweights(void *pHandle)\r
+{\r
+ return (xran_dev_get_ctx()->fh_init.totalBfWeights);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of subcarrier spacing for PRACH\r
+ *\r
+ * @return subcarrier spacing value for PRACH\r
+ */\r
+inline uint8_t xran_get_conf_prach_scs(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->prach_conf.nPrachSubcSpacing);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of FFT size for RU\r
+ *\r
+ * @return FFT size value for RU\r
+ */\r
+inline uint8_t xran_get_conf_fftsize(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->ru_conf.fftSize);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of nummerology\r
+ *\r
+ * @return Configured numerology\r
+ */\r
+inline uint8_t xran_get_conf_numerology(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->frame_conf.nNumerology);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of IQ bit width for RU\r
+ *\r
+ * @return IQ bit width for RU\r
+ */\r
+inline uint8_t xran_get_conf_iqwidth(void *pHandle)\r
+{\r
+ struct xran_fh_config *pFhCfg;\r
+\r
+ pFhCfg = xran_lib_get_ctx_fhcfg();\r
+ return ((pFhCfg->ru_conf.iqWidth==16)?0:pFhCfg->ru_conf.iqWidth);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of compression method for RU\r
+ *\r
+ * @return Compression method for RU\r
+ */\r
+inline uint8_t xran_get_conf_compmethod(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->ru_conf.compMeth);\r
+}\r
+\r
+\r
+/**\r
+ * @brief Get the configuration of the number of component carriers\r
+ *\r
+ * @return Configured the number of component carriers\r
+ */\r
+inline uint8_t xran_get_num_cc(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->nCC);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of the number of antenna for UL\r
+ *\r
+ * @return Configured the number of antenna\r
+ */\r
+inline uint8_t xran_get_num_eAxc(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->neAxc);\r
+}\r
+\r
+/**\r
+ * @brief Get configuration of O-RU (Cat A or Cat B)\r
+ *\r
+ * @return Configured the number of antenna\r
+ */\r
+inline enum xran_category xran_get_ru_category(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->ru_conf.xranCat);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of the number of antenna\r
+ *\r
+ * @return Configured the number of antenna\r
+ */\r
+inline uint8_t xran_get_num_eAxcUl(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->neAxcUl);\r
+}\r
+\r
+/**\r
+ * @brief Get the configuration of the number of antenna elements\r
+ *\r
+ * @return Configured the number of antenna\r
+ */\r
+inline uint8_t xran_get_num_ant_elm(void *pHandle)\r
+{\r
+ return (xran_lib_get_ctx_fhcfg()->nAntElmTRx);\r
+}\r
+\r
+int32_t xran_get_common_counters(void *pXranLayerHandle, struct xran_common_counters *pStats)\r
+{\r
+ struct xran_device_ctx* pDev = (struct xran_device_ctx*)pXranLayerHandle;\r
+\r
+ if(pStats && pDev) {\r
+ *pStats = pDev->fh_counters;\r
+ return XRAN_STATUS_SUCCESS;\r
+ } else {\r
+ return XRAN_STATUS_INVALID_PARAM;\r
+ }\r
+}\r
+\r