#include "lwr_mac_phy.h"
#ifdef INTEL_FAPI
#include "fapi.h"
+#include "fapi_vendor_extension.h"
#endif
#include "lphy_stub.h"
#include "lwr_mac_upr_inf.h"
void l1HdlConfigReq(uint32_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_config_req_t *configReq = (fapi_config_req_t *)msg;
+ p_fapi_api_queue_elem_t configReqElem = (p_fapi_api_queue_elem_t)msg;
+ fapi_config_req_t *configReq = (fapi_config_req_t *)(configReqElem +1);
DU_LOG("\nPHY_STUB: Received Config Request in PHY");
/* Handling CONFIG RESPONSE */
- if(l1BldAndSndConfigRsp(msg)!= ROK)
+ if(l1BldAndSndConfigRsp(configReq)!= ROK)
{
printf("\nPHY_STUB: Failed Sending config Response");
}
- MAC_FREE(configReq, msgLen);
+ MAC_FREE(msg, msgLen);
#endif
}
uint16_t l1BuildAndSendRxDataInd(uint16_t slot, uint16_t sfn, fapi_ul_pusch_pdu_t puschPdu)
{
uint8_t idx = 0;
- fapi_rx_data_indication_t *rxDataInd;
- fapi_pdu_ind_info_t *pduInfo;
+ fapi_rx_data_indication_t *rxDataInd =NULLP;
+ fapi_pdu_ind_info_t *pduInfo =NULLP;
uint8_t *pdu = NULLP;
uint16_t byteIdx = 0;
uint32_t msgLen = 0;
- MsgType type;
+ MsgType type = 0;
if(!msg3Sent)
{
msg3Sent = true;
type = MSG_TYPE_MSG3;
+ sleep(2);
}
else if(!msg5ShortBsrSent)
{
msg5Sent = true;
type = MSG_TYPE_MSG5;
}
+ else if(!msgRegistrationComp)
+ {
+ msgRegistrationComp = true;
+ type = MSG_TYPE_REGISTRATION_COMPLETE;
+ }
else if(!msgSecurityModeComp)
{
msgSecurityModeComp = true;
type = MSG_TYPE_SECURITY_MODE_COMPLETE;
}
+ else if(!msgRrcReconfiguration)
+ {
+ msgRrcReconfiguration = true;
+ type = MSG_TYPE_RRC_RECONFIG_COMPLETE;
+ }
else
return RFAILED;
return RFAILED;
}
memset(rxDataInd, 0, sizeof(fapi_rx_data_indication_t));
-
+
msgLen = sizeof(fapi_rx_data_indication_t) - sizeof(fapi_msg_t);
rxDataInd->sfn = sfn;
rxDataInd->slot = slot;
printf("\nPHY_STUB: Memory allocation failed for Rx Data Pdu");
return RFAILED;
}
-
+ memset(pduInfo->pduData, 0, pduInfo->pdu_length);
/* Filling PDU */
pdu = (uint8_t *)pduInfo->pduData;
*/
pdu[byteIdx++] = 0;
/* Hardcoding MAC PDU */
- pdu[byteIdx++] = 181;
- pdu[byteIdx++] = 99;
- pdu[byteIdx++] = 20;
- pdu[byteIdx++] = 170;
- pdu[byteIdx++] = 132;
- pdu[byteIdx++] = 96;
+ pdu[byteIdx++] = 16;
+ pdu[byteIdx++] = 00;
+ pdu[byteIdx++] = 00;
+ pdu[byteIdx++] = 00;
+ pdu[byteIdx++] = 00;
+ pdu[byteIdx++] = 103;
break;
}
-
case MSG_TYPE_SHORT_BSR:
- {
- DU_LOG("\nPHY_STUB: Forming SHORT BSR PDU ");
- uint8_t lcgId = 0;
- uint8_t bufferSizeIdx = 6;
-
- /* For Short BSR
- MAC subheader format is R/R/LcId (1Byte)
- LCId is 61
- From 38.321 section 6.1.1
- */
- pdu[byteIdx++] = 61; // LCID
- pdu[byteIdx++] = (lcgId << 5) | bufferSizeIdx;
+ {
+ DU_LOG("\nPHY_STUB: Forming SHORT BSR PDU ");
+ uint8_t lcgId = 0;
+ uint8_t bufferSizeIdx = 6;
+
+ /* For Short BSR
+ MAC subheader format is R/R/LcId (1Byte)
+ LCId is 61
+ From 38.321 section 6.1.1
+ */
+ pdu[byteIdx++] = 61; // LCID
+ pdu[byteIdx++] = (lcgId << 5) | bufferSizeIdx;
- break;
- }
+ break;
+ }
case MSG_TYPE_MSG5:
- {
- DU_LOG("\nPHY_STUB: Forming MSG5 PDU");
- uint8_t msg5PduLen = 33;
- /* For RRC setup complete
- MAC subheader format is R/F/LCId/L (2/3 bytes)
- LCId is 1 for SRB1
- L is length of PDU i.e 6bytes here
- From 38.321 section 6.1.1
- */
- uint8_t msg5[] = {1, msg5PduLen, 0, 0, 16, 0, 5, 223, 128, 16, 94, \
- 64, 3, 64, 89, 61, 138, 64, 0, 0, 0, 4, 0, 0, 4, 68, 11, 128, \
+ {
+ DU_LOG("\nPHY_STUB: Forming MSG5 PDU");
+ uint8_t msg5PduLen = 33;
+ /* For RRC setup complete
+ MAC subheader format is R/F/LCId/L (2/3 bytes)
+ LCId is 1 for SRB1
+ L is length of PDU i.e 6bytes here
+ From 38.321 section 6.1.1
+ */
+ uint8_t msg5[] = {1, msg5PduLen, 0, 0, 16, 0, 5, 223, 128, 16, 94, \
+ 64, 3, 64, 89, 61, 138, 64, 0, 0, 0, 4, 0, 0, 4, 68, 11, 128, \
184, 56, 0, 0, 0, 0, 0};
- msg5PduLen += 2; /* 2bytes of header */
- memcpy(pdu, &msg5, msg5PduLen);
- byteIdx += msg5PduLen; /* 2 bytes of header */
- break;
- }
+ msg5PduLen += 2; /* 2bytes of header */
+ memcpy(pdu, &msg5, msg5PduLen);
+ byteIdx += msg5PduLen; /* 2 bytes of header */
+ break;
+ }
case MSG_TYPE_SECURITY_MODE_COMPLETE:
- {
- DU_LOG("\nPHY_STUB: Forming SECURITY MODE COMPLETE PDU");
- uint8_t pduLen = 33;
- /* For security mode complete
- MAC subheader format is R/F/LCId/L (2/3 bytes)
- LCId is 1 for SRB1
- L is length of PDU i.e 6bytes here
- From 38.321 section 6.1.1
- */
- uint8_t msg[] = {1, pduLen, 0, 0, 16, 0, 5, 223, 128, 16, 94, \
- 64, 3, 64, 89, 61, 138, 64, 0, 0, 0, 4, 0, 0, 4, 68, 11, 128, \
- 184, 56, 0, 0, 0, 0, 0};
+ {
+ DU_LOG("\nPHY_STUB: Forming SECURITY MODE COMPLETE PDU");
+ uint8_t pduLen = 12;
+ /* For security mode complete where RRC Container is dummy
+ MAC subheader format is R/F/LCId/L (2/3 bytes)
+ LCId is 1 for SRB1
+ L is length of PDU i.e 6bytes here
+ From 38.321 section 6.1.1
+ */
+ uint8_t msg[] = {1, pduLen, 0, 3, 0x2a, 0x40, 0, 0, 0, 0, 0, 0, 0, 0};
+
+ pduLen += 2; /* 2bytes of header */
+ memcpy(pdu, &msg, pduLen);
+ byteIdx += pduLen; /* 2 bytes of header */
+ break;
+ }
+ case MSG_TYPE_REGISTRATION_COMPLETE:
+ {
+
+ DU_LOG("\nPHY_STUB: Forming RRC REGISTRATION COMPLETE PDU");
+ uint8_t pduLen = 12;
+ /* For rrc reconfig complete where RRC Container is dummy
+ MAC subheader format is R/F/LCId/L (2/3 bytes)
+ LCId is 1 for SRB1
+ L is length of PDU i.e 6bytes here
+ From 38.321 section 6.1.1
+ */
+ uint8_t msg[] = {1, pduLen, 0, 0x04, 0x3a, 0x81, 0xbf, 0, 0x21, 0x80, 0, \
+ 0, 0, 0};
+
+ pduLen += 2; /* 2bytes of header */
+ memcpy(pdu, &msg, pduLen);
+ byteIdx += pduLen; /* 2 bytes of header */
+ break;
+ }
+ case MSG_TYPE_RRC_RECONFIG_COMPLETE:
+ {
+ DU_LOG("\nPHY_STUB: Forming RRC RECONFIGURATION COMPLETE PDU");
+ uint8_t pduLen = 14;
+ /* For rrc reconfig complete where RRC Container is dummy
+ MAC subheader format is R/F/LCId/L (2/3 bytes)
+ LCId is 1 for SRB1
+ L is length of PDU i.e 6bytes here
+ From 38.321 section 6.1.1
+ */
+ uint8_t msg[] = {1, pduLen, 0, 6, 8, 64, 0, 0, 0, 0, \
+ 0, 0, 0, 0, 0};
+
+ pduLen += 2; /* 2bytes of header */
+ memcpy(pdu, &msg, pduLen);
+ byteIdx += pduLen; /* 2 bytes of header */
+ break;
- pduLen += 2; /* 2bytes of header */
- memcpy(pdu, &msg, pduLen);
- byteIdx += pduLen; /* 2 bytes of header */
- break;
- }
+ }
+
default:
break;
} /* End of switch(type) */
S16 l1HdlStartReq(uint32_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_start_req_t *startReq = (fapi_start_req_t *)msg;
-
if(lwrMacCb.phyState == PHY_STATE_CONFIGURED)
{
l1HdlSlotIndicaion(FALSE);
- MAC_FREE(startReq, sizeof(fapi_start_req_t));
+ MAC_FREE(msg, msgLen);
}
else
{
DU_LOG("\nPHY_STUB: Received Start Req in PHY State %d", lwrMacCb.phyState);
+ MAC_FREE(msg, msgLen);
return RFAILED;
}
#endif
S16 l1HdlDlTtiReq(uint16_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_dl_tti_req_t *dlTtiReq;
- dlTtiReq = (fapi_dl_tti_req_t *)msg;
+ p_fapi_api_queue_elem_t dlTtiElem = (p_fapi_api_queue_elem_t)msg;
+ fapi_dl_tti_req_t *dlTtiReq = (fapi_dl_tti_req_t *)(dlTtiElem +1);
uint8_t pduCount = 0;
}
/* Free FAPI message */
- MAC_FREE(dlTtiReq, msgLen);
-
+ MAC_FREE(msg, msgLen);
#endif
return ROK;
}
S16 l1HdlTxDataReq(uint16_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_tx_data_req_t *txDataReq;
- txDataReq = (fapi_tx_data_req_t *)msg;
+ p_fapi_api_queue_elem_t txDataElem = (p_fapi_api_queue_elem_t)msg;
+ fapi_tx_data_req_t *txDataReq = (fapi_tx_data_req_t *)(txDataElem +1);
+
DU_LOG("\nPHY STUB: TX DATA Request at sfn=%d slot=%d",txDataReq->sfn,txDataReq->slot);
if(dlDedMsg)
{
DU_LOG("\nPHY_STUB: TxDataPdu for DED MSG sent");
dlDedMsg = false;
}
- MAC_FREE(txDataReq, msgLen);
+ MAC_FREE(msg, msgLen);
#endif
return ROK;
}
pduInfo->rnti = pucchPdu.rnti;
pduInfo->timingAdvance = 0;
pduInfo->rssi = 0;
- pduInfo->uciBits[idx] = 0; //TODO: FAPI spec ver. 222.10.01 has no info about UCI Bits
if(pduInfo->pduBitmap & SR_PDU_BITMASK)
{
pduInfo->srInfo.srIndication = SR_DETECTED;
S16 l1HdlUlTtiReq(uint16_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_ul_tti_req_t *ulTtiReq = NULLP;
- ulTtiReq = (fapi_ul_tti_req_t *)msg;
+ p_fapi_api_queue_elem_t ulTtiElem = (p_fapi_api_queue_elem_t)msg;
+ fapi_ul_tti_req_t *ulTtiReq = (fapi_ul_tti_req_t *)(ulTtiElem +1);
uint8_t numPdus = ulTtiReq->nPdus;
#ifdef ODU_SLOT_IND_DEBUG_LOG
}
if(ulTtiReq->pdus[numPdus-1].pduType == 1)
{
- DU_LOG("\nPHY STUB: PUSCH PDU");
- l1BuildAndSendRxDataInd(ulTtiReq->slot, ulTtiReq->sfn, \
+ DU_LOG("\nPHY STUB: PUSCH PDU");
+ l1BuildAndSendRxDataInd(ulTtiReq->slot, ulTtiReq->sfn, \
ulTtiReq->pdus[numPdus-1].pdu.pusch_pdu);
}
if(ulTtiReq->pdus[numPdus-1].pduType == 2)
l1BuildAndSendRachInd(ulTtiReq->slot, ulTtiReq->sfn);
}
- MAC_FREE(ulTtiReq, msgLen);
+ MAC_FREE(msg, msgLen);
#endif
return ROK;
}
S16 l1HdlStopReq(uint32_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_stop_req_t *stopReq = (fapi_stop_req_t *)msg;
-
if(lwrMacCb.phyState == PHY_STATE_RUNNING)
{
l1HdlSlotIndicaion(TRUE);
DU_LOG("\nPHY_STUB: Slot Indication is stopped successfully");
l1BuildAndSendStopInd();
- MAC_FREE(stopReq, msgLen);
+ MAC_FREE(msg, msgLen);
}
else
{
DU_LOG("\nPHY_STUB: Received Stop Req in PHY State %d", lwrMacCb.phyState);
+ MAC_FREE(msg, msgLen);
return RFAILED;
}
#endif
S16 l1HdlUlDciReq(uint16_t msgLen, void *msg)
{
#ifdef INTEL_FAPI
- fapi_ul_dci_req_t *ulDciReq = NULLP;
-
- ulDciReq = (fapi_ul_dci_req_t *)msg;
+ p_fapi_api_queue_elem_t ulDciElem = (p_fapi_api_queue_elem_t)msg;
+ fapi_ul_dci_req_t *ulDciReq = (fapi_ul_dci_req_t *)(ulDciElem +1);
uint8_t numPdus = ulDciReq->numPdus;
while(numPdus)
numPdus--;
}
- MAC_FREE(ulDciReq, msgLen);
+ MAC_FREE(msg, msgLen);
#endif
return ROK;
}
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