#define __KWH__
#include "rl_interface.h"
#include "rl_common.h"
-
+#include "du_log.h"
\f
-#define KWLAYERNAME "LTE RLC" /* Layer Name */
+#define RLCLAYERNAME "LTE RLC" /* Layer Name */
#define EKWxxx 1
#define EMG099 1
#define EMG104 4
/* RLC-SPLIT Activity */
-#define KW_ONE 1
-#define KW_BIT0 0x01
-#define KW_BIT1 0x02
-#define KW_BIT2 0x04
-#define KW_BIT3 0x08
+#define RLC_ONE 1
+#define RLC_BIT0 0x01
+#define RLC_BIT1 0x02
+#define RLC_BIT2 0x04
+#define RLC_BIT3 0x08
-#define KW_2K_BYTE 2048
+#define RLC_2K_BYTE 2048
/* RLC RB flag bits */
-#define KW_RB_REESTABLISH_DL KW_BIT0
-#define KW_RB_REESTABLISH_UL KW_BIT1
-#define KW_RB_DELETE_DL KW_BIT2
-#define KW_RB_DELETE_UL KW_BIT3
+#define RLC_RB_REESTABLISH_DL RLC_BIT0
+#define RLC_RB_REESTABLISH_UL RLC_BIT1
+#define RLC_RB_DELETE_DL RLC_BIT2
+#define RLC_RB_DELETE_UL RLC_BIT3
-#define KW_MOD_1024 0x3FF /* used for MOD 1024 */
+#define RLC_MOD_1024 0x3FF /* used for MOD 1024 */
\f
* SAP States
************************************************************************/
-#define KW_SAP_NOT_CFG 0 /*!< SAP Not Configured */
-#define KW_SAP_CFG 1 /*!< SAP Configured but not not bound */
-#define KW_SAP_BND 2 /*!< SAP Bound */
-#define KW_SAP_BINDING 3 /*!< SAP Bind initiated */
-#define KW_SAP_UBND 4 /*!< SAP Unbind */
+#define RLC_SAP_NOT_CFG 0 /*!< SAP Not Configured */
+#define RLC_SAP_CFG 1 /*!< SAP Configured but not not bound */
+#define RLC_SAP_BND 2 /*!< SAP Bound */
+#define RLC_SAP_BINDING 3 /*!< SAP Bind initiated */
+#define RLC_SAP_UBND 4 /*!< SAP Unbind */
-#define KW_MAX_SAP_BND_RETRY 3 /*!< Maximum SAP Bin Retries */
+#define RLC_MAX_SAP_BND_RETRY 3 /*!< Maximum SAP Bin Retries */
-#define KW_MAX_UE 0xffffffff /*!< Maximum number of UEs. */
+#define RLC_MAX_UE 0xffffffff /*!< Maximum number of UEs. */
/* Maximum number of Saps */
-#define KW_MAX_UDXSAPS 1 /*!< Maximum number of UDX Saps */
-#define KW_MAX_KWUSAPS 2 /*!< Maximum number of KWU Saps. */
-#define KW_MAX_CKWSAPS 1 /*!< Maximum number of CKW Saps. */
+#define RLC_MAX_UDXSAPS 1 /*!< Maximum number of UDX Saps */
+#define RLC_MAX_KWUSAPS 2 /*!< Maximum number of KWU Saps. */
+#define RLC_MAX_CKWSAPS 1 /*!< Maximum number of CKW Saps. */
/*MCELL changes*/
-#define KW_MAX_RGUSAPS 4//5 /*!< Maximum number of RGU Saps. */
+#define RLC_MAX_RGUSAPS 4//5 /*!< Maximum number of RGU Saps. */
-#define KW_MAX_RGUSAP_TMR 1 /*!< Maximum number of RGU SAP Timers. */
+#define RLC_MAX_RGUSAP_TMR 1 /*!< Maximum number of RGU SAP Timers. */
-#define KW_UI_RRC 0 /*!< Upper interface RRC sap Id. */
-#define KW_UI_PDCP 1 /*!< Upper interface PDCP sap Id. */
+#define RLC_UI_RRC 0 /*!< Upper interface RRC sap Id. */
+#define RLC_UI_PDCP 1 /*!< Upper interface PDCP sap Id. */
#ifdef LTE_L2_MEAS
/* TODO. This works for FDD only. For TDD the array dimension
* should be changed according to the number of Harq Procs */
-#define KW_MAX_TB_PER_UE 64 /*!< Maximum number of tbCb for UE */
-#define KW_INVALID_TBID KW_MAX_TB_PER_UE
+#define RLC_MAX_TB_PER_UE 64 /*!< Maximum number of tbCb for UE */
+#define RLC_INVALID_TBID RLC_MAX_TB_PER_UE
#endif
/*******************************************************************************
* Memory related Defines
******************************************************************************/
#ifdef MCCABE_COV
/* Allocate function */
-#define KW_ALLOC(_cb,_buf, _size) \
+#define RLC_ALLOC(_cb,_buf, _size) \
{ \
SGetSBuf(_cb->init.region, _cb->init.pool, (Data **)&_buf, \
(Size) _size); \
- cmMemset((U8 *)(_buf), 0, _size); \
+ memset((_buf), 0, _size); \
}
-#define KW_RMV_SDU(_cb,_sduQ,_sdu) \
+#define RLC_RMV_SDU(_cb,_sduQ,_sdu) \
{ \
SPutMsg(_sdu->mBuf); \
cmLListDelFrm(_sduQ,&_sdu->lstEnt); \
- KW_FREE_WC(_cb,_sdu, sizeof(KwSdu)); \
+ RLC_FREE(_cb,_sdu, sizeof(RlcSdu)); \
}
-#define KW_FREE(_cb,_buf, _size) \
+#define RLC_FREE(_cb,_buf, _size) \
{ \
(Void) SPutSBuf(_cb->init.region, _cb->init.pool, \
(Data *) _buf, (Size) _size); \
_buf = NULLP; \
}
-#define KW_FREE_BUF(_buf) \
-{ \
- SPutMsg(_buf); \
- _buf = NULLP; \
-}
-
#else
-#define KW_FREE_SHRABL_BUF(_region, _pool,_buf, _size) \
+#define RLC_FREE_SHRABL_BUF(_region, _pool,_buf, _size) \
{ \
if (_buf != NULLP) \
{ \
} \
}
-#define KW_FREE_SHRABL_BUF_WC(_region, _pool,_buf, _size) \
+#define RLC_FREE_SHRABL_BUF_WC(_region, _pool,_buf, _size) \
{ \
(Void) SPutStaticBuffer(_region, _pool, \
(Data *) _buf, (Size) _size, 0); \
_buf = NULLP; \
}
-#define KW_ALLOC_SHRABL_BUF_WC(_region, _pool,_buf, _size) \
+#define RLC_ALLOC_SHRABL_BUF_WC(_region, _pool,_buf, _size) \
{ \
SGetStaticBuffer(_region, _pool, (Data **)&_buf, \
(Size) _size, 0); \
}
-#define KW_ALLOC_SHRABL_BUF(_region, _pool,_buf, _size) \
+#define RLC_ALLOC_SHRABL_BUF(_region, _pool,_buf, _size) \
{ \
if (SGetStaticBuffer(_region, _pool, (Data **)&_buf, \
(Size) _size, 0) == ROK) \
{ \
- cmMemset((U8 *)(_buf), 0, _size); \
+ memset((_buf), 0, _size); \
} \
else \
{ \
} \
}
/* Allocate function */
-#define KW_ALLOC(_cb,_buf, _size) \
+#define RLC_ALLOC(_cb,_buf, _size) \
{ \
if (SGetSBuf(_cb->init.region, _cb->init.pool, (Data **)&_buf, \
(Size) _size) == ROK) \
{ \
- cmMemset((U8 *)(_buf), 0, _size); \
+ memset((_buf), 0, _size); \
} \
else \
{ \
} \
}
-#define KW_ALLOC_WC(_cb,_buf, _size) \
+#define RLC_ALLOC_WC(_cb,_buf, _size) \
SGetSBuf(_cb->init.region, _cb->init.pool, (Data **)&_buf, (Size) _size)
-#define KW_RMV_SDU(_cb,_sduQ,_sdu) \
+#define RLC_RMV_SDU(_cb,_sduQ,_sdu) \
{ \
if(_sdu->mBuf) \
{ \
SPutMsg(_sdu->mBuf); \
} \
cmLListDelFrm(_sduQ,&_sdu->lstEnt); \
- KW_FREE(_cb,_sdu, sizeof(KwSdu)); \
+ RLC_FREE(_cb,_sdu, sizeof(RlcSdu)); \
}
-#define KW_FREE(_cb,_buf, _size) \
+#define RLC_FREE(_cb,_buf, _size) \
{ \
if (_buf != NULLP) \
{ \
} \
}
-#define KW_FREE_BUF(_buf) \
-{ \
- if (_buf != NULLP) \
- { \
- SPutMsg(_buf); \
- } \
- _buf = NULLP; \
-}
#endif
-
-
-
-#define KW_FREE_WC(_cb,_buf, _size) \
-{ \
- (Void) SPutSBuf(_cb->init.region, _cb->init.pool, \
- (Data *) _buf, (Size) _size); \
- _buf = NULLP; /*assigning NULLP after free*/ \
-}
-
/* kw002.201 Freeing from region of pst */
-#define KW_PST_FREE(_region, _pool, _buf, _size) \
+#define RLC_PST_FREE(_region, _pool, _buf, _size) \
{ \
if (_buf != NULLP) \
{ \
#ifdef XEON_SPECIFIC_CHANGES
#ifdef SS_LOCKLESS_MEMORY
-#define KW_SHRABL_STATIC_BUF_FREE(_region, _pool, _buf, _size) \
+#define RLC_SHRABL_STATIC_BUF_FREE(_region, _pool, _buf, _size) \
{ \
if (_buf != NULLP) \
{ \
} \
}
-#define KW_SHRABL_STATIC_BUF_ALLOC(_region, _pool, _buf, _size) \
+#define RLC_SHRABL_STATIC_BUF_ALLOC(_region, _pool, _buf, _size) \
{ \
SGetStaticBuffer(_region, _pool, (Data **)&_buf, \
(Size) _size, 0); \
#else
-#define KW_SHRABL_STATIC_BUF_FREE(_region, _pool, _buf, _size) \
+#define RLC_SHRABL_STATIC_BUF_FREE(_region, _pool, _buf, _size) \
{ \
if (_buf != NULLP) \
{ \
} \
}
-#define KW_SHRABL_STATIC_BUF_ALLOC(_region, _pool, _buf, _size) \
+#define RLC_SHRABL_STATIC_BUF_ALLOC(_region, _pool, _buf, _size) \
{ \
SGetSBuf(_region, _pool, (Data **)&_buf, \
(Size) _size); \
#else
-#define KW_SHRABL_STATIC_BUF_FREE(_region, _pool, _buf, _size) \
+#define RLC_SHRABL_STATIC_BUF_FREE(_region, _pool, _buf, _size) \
{ \
if (_buf != NULLP) \
{ \
} \
}
-#define KW_SHRABL_STATIC_BUF_ALLOC(_region, _pool, _buf, _size) \
+#define RLC_SHRABL_STATIC_BUF_ALLOC(_region, _pool, _buf, _size) \
{ \
SGetStaticBuffer(_region, _pool, (Data **)&_buf, \
(Size) _size, 0); \
}
#endif
-#define KW_FREE_BUF_WC(_buf) SPutMsg((_buf));
-
-#define KW_MEM_CPY(_dst, _src, _size) cmMemcpy((U8*)_dst, (U8 *)_src, _size);
+#define RLC_MEM_CPY(_dst, _src, _size) memcpy(_dst, _src, _size);
-#define KW_MEM_ZERO(_buf, _size) cmMemset((U8 *)(_buf), 0, _size);
+#define RLC_MEM_ZERO(_buf, _size) memset((_buf), 0, _size);
-#define KW_GET_MEM_REGION(_cb) (_cb->init.region)
+#define RLC_GET_MEM_REGION(_cb) (_cb->init.region)
-#define KW_GET_MEM_POOL(_cb) (_cb->init.pool)
+#define RLC_GET_MEM_POOL(_cb) (_cb->init.pool)
-#define KW_GET_MEM_POOL_ADDRESS(_cb) (&_cb->init.pool)
+#define RLC_GET_MEM_POOL_ADDRESS(_cb) (&_cb->init.pool)
/* Memset to value */
-#define KW_MEM_SET(_arg, _val, _size) cmMemset((U8 *)_arg, (U8)_val, _size);
+#define RLC_MEM_SET(_arg, _val, _size) memset(_arg, _val, _size);
/* Alarms */
/* Send an alarm for sapId events */
/* kw005.201 added support for L2 Measurement */
#ifdef LTE_L2_MEAS
-#define KW_GETSDUIDX(_sduIdx) \
+#define RLC_GETSDUIDX(_sduIdx) \
{\
- _sduIdx = (((_sduIdx)+1) % KW_L2MEAS_MAX_OUTSTNGSDU);\
+ _sduIdx = (((_sduIdx)+1) % RLC_L2MEAS_MAX_OUTSTNGSDU);\
}
-#define KW_SEND_SAPID_ALARM(_cb,_sapId, _evnt, _cause) \
+#define RLC_SEND_SAPID_ALARM(_cb,_sapId, _evnt, _cause) \
{ \
- kwLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, _sapId, 0, 0); \
+ rlcLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, _sapId, 0, 0); \
}
-#define KW_SEND_UEID_ALARM(_cb,_ueId, _qci, _evnt, _cause) \
+#define RLC_SEND_UEID_ALARM(_cb,_ueId, _qci, _evnt, _cause) \
{ \
- kwLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, 0, _ueId, _qci); \
+ rlcLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, 0, _ueId, _qci); \
}
#else /* LTE_L2_MEAS */
-#define KW_SEND_SAPID_ALARM(_cb,_sapId, _evnt, _cause) \
+#define RLC_SEND_SAPID_ALARM(_cb,_sapId, _evnt, _cause) \
{ \
- kwLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, _sapId, 0); \
+ rlcLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, _sapId, 0); \
}
-#define KW_SEND_UEID_ALARM(_cb,_ueId, _evnt, _cause) \
+#define RLC_SEND_UEID_ALARM(_cb,_ueId, _evnt, _cause) \
{ \
- kwLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, 0, _ueId); \
+ rlcLmmSendAlarm(_cb,LCM_CATEGORY_INTERFACE, _evnt, _cause, 0, _ueId); \
}
#endif /* LTE_L2_MEAS */
******************************************************************************/
/* RLC Configuration parameters */
-#define KW_MAX_UL_LI (2 * KW_MAX_LI)
-/*macro KW_MAX_DL_LI is moved to kw_env.h file */
-#define KW_MAX_DAT KW_MAXIMUM_DAT
-/*macro KW_MAX_PDU is moved to kw_env.h file */
-#define KW_MAX_RB_PER_CELL 10
-#define KW_MAX_SRB_PER_UE 3
-#define KW_MAX_DRB_PER_UE 32
-#define KW_MAX_LCH_PER_UE 12
-#define KW_MAX_LCH_PER_CELL 6
-#define KW_MAX_NUM_RB 24
-#define KW_MAX_UE 0xffffffff
-#define KW_UE_LIST_BUCKET_SIZE 128
-#define KW_CELL_LIST_BUCKET_SIZE 10
-#define KW_TRANS_ID_LST_BKT_SIZE 10
-#define KW_MAX_RB 32
+#define RLC_MAX_UL_LI (2 * RLC_MAX_LI)
+/*macro RLC_MAX_DL_LI is moved to kw_env.h file */
+#define RLC_MAX_DAT RLC_MAXIMUM_DAT
+/*macro RLC_MAX_PDU is moved to kw_env.h file */
+#define RLC_MAX_RB_PER_CELL 10
+#define RLC_MAX_SRB_PER_UE 3
+#define RLC_MAX_DRB_PER_UE 32
+#define RLC_MAX_LCH_PER_UE 12
+#define RLC_MAX_LCH_PER_CELL 6
+#define RLC_MAX_NUM_RB 24
+#define RLC_MAX_UE 0xffffffff
+#define RLC_UE_LIST_BUCKET_SIZE 128
+#define RLC_CELL_LIST_BUCKET_SIZE 10
+#define RLC_TRANS_ID_LST_BKT_SIZE 10
+#define RLC_MAX_RB 32
+
+/* RLC Mode defines */
+#define RLC_MODE_TM 1
+#define RLC_MODE_UM 2
+#define RLC_MODE_AM 3
/* Direction defines */
-#define KW_DIR_UL 1 /*!< Unlink direction */
-#define KW_DIR_DL 2 /*!< Downlink direction */
-#define KW_DIR_BOTH 3 /*!< Both Downlink and Unlink */
+#define RLC_DIR_UL 1 /*!< Unlink direction */
+#define RLC_DIR_DL 2 /*!< Downlink direction */
+#define RLC_DIR_BOTH 3 /*!< Both Downlink and Unlink */
-#define KW_DEF_SEQ_NUM 0 /**< Sequence number to pick in case of duplicate
+#define RLC_DEF_SEQ_NUM 0 /**< Sequence number to pick in case of duplicate
entries in hash list searches*/
/**
- * @def KW_MIN
+ * @def RLC_MIN
*
* Macro to find the miniumum of two numbers
*
* @param[in] y Second number
*
*/
-#define KW_MIN(x,y) (x) < (y) ? (x) : (y)
+#define RLC_MIN(x,y) (x) < (y) ? (x) : (y)
/**
- * @def KW_GET_KWCB
+ * @def RLC_GET_RLCCB
*
* Macro to the RLC instance
*
* @param[in] _inst Instance Id
*
*/
-#define KW_GET_KWCB(_inst) kwCb[_inst]
+#define RLC_GET_RLCCB(_inst) rlcCb[_inst]
-#define KW_ADD_SDU 1 /*!< Add SDU. */
-#define KW_DEL_SDU 2 /*!< Delete SDU. */
+#define RLC_ADD_SDU 1 /*!< Add SDU. */
+#define RLC_DEL_SDU 2 /*!< Delete SDU. */
-#define KW_CFM_NOK 0 /*!< Do not send DatCfm */
-#define KW_CFM_OK 1 /*!< Send DatCfm */
+#define RLC_CFM_NOK 0 /*!< Do not send DatCfm */
+#define RLC_CFM_OK 1 /*!< Send DatCfm */
/* Set the unsolictated Status flag */
-#define KW_SET_USTA_FLAG(_kwCb, _value) \
+#define RLC_SET_USTA_FLAG(_rlcCb, _value) \
{ \
- _kwCb->init.usta = _value; \
+ _rlcCb->init.usta = _value; \
}
/* Macros to get the init parameters */
-#define KW_GET_DBG_MASK(_kwCb) (_kwCb->init.dbgMask)
-#define KW_GET_LMPST_MEM_POOL(_kwCb) (_kwCb->init.lmPst.pool)
-#define KW_GET_LMPST_MEM_REGION(_kwCb) (_kwCb->init.lmPst.region)
+#define RLC_GET_DBG_MASK(_rlcCb) (_rlcCb->init.dbgMask)
+#define RLC_GET_LMPST_MEM_POOL(_rlcCb) (_rlcCb->init.lmPst.pool)
+#define RLC_GET_LMPST_MEM_REGION(_rlcCb) (_rlcCb->init.lmPst.region)
/* Macros for configuration module */
-#define KW_CFG_FILL_CFG_CFM(_entCfm, _rbId, _rbType, _status, _reason) \
+#define RLC_CFG_FILL_CFG_CFM(_entCfm, _rbId, _rbType, _status, _reason) \
{ \
_entCfm->rbId = _rbId; \
_entCfm->rbType = _rbType; \
}
/**
- * @def KW_VALIDATE_UE_RBID
+ * @def RLC_VALIDATE_UE_RBID
*
* This macro validates whether the _rbId passed is valid or not. It checks
* if the _rbId is within the maximum value depending on the _rbType.
* @param[in] _rbId RB Id of the RB to be validated
*
*/
-#define KW_VALIDATE_UE_RBID(_rbType, _rbId) \
- ((_rbType == CM_LTE_SRB && _rbId < KW_MAX_SRB_PER_UE) || \
- (_rbType == CM_LTE_DRB && _rbId < KW_MAX_DRB_PER_UE))
+#define RLC_VALIDATE_UE_RBID(_rbType, _rbId) \
+ ((_rbType == CM_LTE_SRB && _rbId < RLC_MAX_SRB_PER_UE) || \
+ (_rbType == CM_LTE_DRB && _rbId < RLC_MAX_DRB_PER_UE))
/*******************************************************************************
* UIM Defines
******************************************************************************/
#if (ERRCLASS & ERRCLS_INT_PAR)
-#define KW_VALDATE_SAP(_cb,_chkSpId, _sap, _ret) \
+#define RLC_VALDATE_SAP(_cb,_chkSpId, _sap, _ret) \
{ \
if (_chkSpId != _sap->spId) \
{ \
- KWLOGERROR(_cb,ERRCLS_DEBUG, EKWxxx, (ErrVal) RFAILED, \
+ RLCLOGERROR(_cb,ERRCLS_DEBUG, EKWxxx, (ErrVal) RFAILED, \
"Sap Id Validation Failed."); \
_ret = RFAILED; \
} \
/* SAP state validation */ \
- if(_sap->state != KW_SAP_BND) \
+ if(_sap->state != RLC_SAP_BND) \
{ \
- KWLOGERROR(_cb,ERRCLS_INT_PAR, EKWXXX, (ErrVal) RFAILED, \
+ RLCLOGERROR(_cb,ERRCLS_INT_PAR, EKWXXX, (ErrVal) RFAILED, \
"Sap State Invalid."); \
- KW_SEND_SAPID_ALARM(_cb,0, LCM_EVENT_UI_INV_EVT, LCM_CAUSE_INV_STATE); \
+ RLC_SEND_SAPID_ALARM(_cb,0, LCM_EVENT_UI_INV_EVT, LCM_CAUSE_INV_STATE); \
_ret = RFAILED; \
} \
}
#else /* ERRCLASS & ERRCLS_INT_PAR */
-#define KW_VALDATE_SAP(_cb,_chkSpId, _sap, _ret) \
+#define RLC_VALDATE_SAP(_cb,_chkSpId, _sap, _ret) \
{ \
/* SAP state validation */ \
- if(_sap->state != KW_SAP_BND) \
+ if(_sap->state != RLC_SAP_BND) \
{ \
- KWLOGERROR(_cb,ERRCLS_INT_PAR, EKWXXX, (ErrVal) RFAILED, \
+ RLCLOGERROR(_cb,ERRCLS_INT_PAR, EKWXXX, (ErrVal) RFAILED, \
"Sap State Invalid."); \
- KW_SEND_SAPID_ALARM(_cb,0, LCM_EVENT_UI_INV_EVT, LCM_CAUSE_INV_STATE); \
+ RLC_SEND_SAPID_ALARM(_cb,0, LCM_EVENT_UI_INV_EVT, LCM_CAUSE_INV_STATE); \
_ret = RFAILED; \
} \
}
/*******************************************************************************
* Timer Defines
******************************************************************************/
-#define KW_TMR_LEN 10
-#define KW_MAX_UM_TMR 1
-#define KW_MAX_AM_TMR 3
-#define KW_EVT_UMUL_REORD_TMR 1
-#define KW_EVT_AMUL_REORD_TMR 2
-#define KW_EVT_AMUL_STA_PROH_TMR 3
-#define KW_EVT_AMDL_POLL_RETX_TMR 4
-#define KW_EVT_WAIT_BNDCFM 5
+#define RLC_TMR_LEN 10
+#define RLC_MAX_UM_TMR 1
+#define RLC_MAX_AM_TMR 3
+
+/* Timer events */
+#define EVENT_RLC_UMUL_REASSEMBLE_TMR 1
+#define EVENT_RLC_AMUL_REORD_TMR 2
+#define EVENT_RLC_AMUL_STA_PROH_TMR 3
+#define EVENT_RLC_AMDL_POLL_RETX_TMR 4
+#define EVENT_RLC_WAIT_BNDCFM 5
/* kw005.201 added support for L2 Measurement */
#ifdef LTE_L2_MEAS
-#define KW_EVT_L2_TMR 6
+#define EVENT_RLC_L2_TMR 6
#endif /* LTE_L2_MEAS */
/*******************************************************************************
* DBM Defines
******************************************************************************/
/**
- * @def KW_DBM_GET_RBCB_FROM_UECB
+ * @def RLC_DBM_GET_RBCB_FROM_UECB
*
* This macro makes _rbCb point to the RB in _ueCb based on the passed
* _rbId and _rbType. _rbCb can point to NULLP
* @param[out] _rbCb Pointer to the found RbCb
*
*/
-#define KW_DBM_GET_RBCB_FROM_UECB(_rbId, _rbType, _ueCb, _rbCb) \
+#define RLC_DBM_GET_RBCB_FROM_UECB(_rbId, _rbType, _ueCb, _rbCb) \
(_rbCb) = ((_rbType) == CM_LTE_SRB) ? (_ueCb)->srbCb[(_rbId)] : \
(_ueCb)->drbCb[(_rbId)];
/**
- * @def KW_DBM_GET_CELL_RBCB
+ * @def RLC_DBM_GET_CELL_RBCB
*
* This macro makes _rbCb point to the RB in the _rbCbLst.
* _rbCb can point to NULLP
* @param[out] _rbCb Pointer to the found RbCb
*
*/
-#define KW_DBM_GET_CELL_RBCB(_rbId, _rbCbLst, _rbCb) \
+#define RLC_DBM_GET_CELL_RBCB(_rbId, _rbCbLst, _rbCb) \
(_rbCb) = (_rbCbLst)[(_rbId)];
/*******************************************************************************
* UMM Defines
******************************************************************************/
-#define KW_UMDL rbCb->m.umDl
-#define KW_UMUL rbCb->m.umUl
+#define RLC_UMDL rbCb->m.umDl
+#define RLC_UMUL rbCb->m.umUl
/* Sequence Number length defines */
-#define KW_UM_CFG_5BIT_SN_LEN 1 /**< UM 5-bit Sequence number length
+#define RLC_UM_CFG_6BIT_SN_LEN 1 /**< UM 6-bit Sequence number length
in bytes*/
-#define KW_UM_CFG_10BIT_SN_LEN 2 /**< UM 10-bit Sequence number length
+#define RLC_UM_CFG_12BIT_SN_LEN 2 /**< UM 12-bit Sequence number length
in bytes*/
/* 5GNR */
/* Sequence Number length defines */
-#define KW_AM_CFG_12BIT_SN_LEN 1 /**< AM 12-bit Sequence number length
+#define RLC_AM_CFG_12BIT_SN_LEN 1 /**< AM 12-bit Sequence number length
in bytes*/
-#define KW_AM_CFG_18BIT_SN_LEN 2 /**< AM 18-bit Sequence number length
+#define RLC_AM_CFG_18BIT_SN_LEN 2 /**< AM 18-bit Sequence number length
in bytes*/
/**
- * @def KW_RMV_MAC_HDR_SZ
+ * @def RLC_RMV_MAC_HDR_SZ
*
* If PDU size is greater than 127, MAC header would be 3 bytes else 2 bytes
*
* @param[in,out] _pduSz Size of the pdu
*
*/
-#define KW_RMV_MAC_HDR_SZ(_pduSz) (_pduSz) -= ((_pduSz) > 127) ? 3 : 2;
+#define RLC_RMV_MAC_HDR_SZ(_pduSz) (_pduSz) -= ((_pduSz) > 127) ? 3 : 2;
/**
- * @def KW_UM_GET_VALUE
+ * @def RLC_UM_GET_VALUE
*
* This macro is used to calculate the value of UM state variables used
* in comparisons. VR(UH) - UM Window Size is taken as the base modulus.
* @param[in] _kwUmUl Um Uplink control block
*
*/
-#define KW_UM_GET_VALUE(_val,_kwUmUl) \
+#define RLC_UM_GET_VALUE(_val,_kwUmUl) \
(((_val) - ((_kwUmUl).vrUh - (_kwUmUl).umWinSz)) & ((_kwUmUl).modBitMask))
/*******************************************************************************
* AMM Defines
******************************************************************************/
-#define AMDL rbCb->m.amDl
-#define AMUL rbCb->m.amUl
+#define RLC_AMDL rbCb->m.amDl
+#define RLC_AMUL rbCb->m.amUl
/* PDU Types */
-#define KW_DATA_PDU 1
-#define KW_CNTRL_PDU 0
-
-#define KW_FI_FIRST_SEG 0x02
-#define KW_FI_LAST_SEG 0x01
-#define KW_SI_FIRST_SEG 0x01
-#define KW_SI_LAST_SEG 0x02
-#define KW_SI_MID_SEG 0x03
-
-#define KW_POLL_SET 0x40 /* 01000000 */
-#define KW_POLL_UNSET 0xbf /* 10111111 */
-#define KW_AM_WIN_SZ 512
-#define KW_MAX_NACK_CNT 100
-/*KW_MAX_CNTRL_FIELDS (Maximum size of Status Pdu)
+#define RLC_DATA_PDU 1
+#define RLC_CNTRL_PDU 0
+
+#define RLC_FI_FIRST_SEG 0x02
+#define RLC_FI_LAST_SEG 0x01
+#define RLC_SI_FIRST_SEG 0x01
+#define RLC_SI_LAST_SEG 0x02
+#define RLC_SI_MID_SEG 0x03
+
+#define RLC_POLL_SET 0x40 /* 01000000 */
+#define RLC_POLL_UNSET 0xbf /* 10111111 */
+#define RLC_AM_WIN_SZ 512
+#define RLC_MAX_NACK_CNT 100
+/*RLC_MAX_CNTRL_FIELDS (Maximum size of Status Pdu)
* = MAX_NACK_CNT * sizeof(NACK_SN,E1,E2,E3,soStart,soEnd, nackRange)
* for 18 bit SN + Fixed Header*/
-#define KW_MAX_CNTRL_FIELDS ((KW_MAX_NACK_CNT * 8) + 3)
+#define RLC_MAX_CNTRL_FIELDS ((RLC_MAX_NACK_CNT * 8) + 3)
/* Each LI(Length Indicator) holds approx 1+1/2 byte and some other fields thus keeping Header Size equal to twice of MAX LI */
/* 5GNR_RLC: Need to change value of HDRSZ as per number of PDUs going in one datReq */
-#define KW_MAX_HDRSZ 5
-#define KW_AM_PDU_FIXED_HDRSZ 2
-#define KW_AM_PDU_12BIT_SN_HDRSZ 2
-#define KW_AM_PDU_18BIT_SN_HDRSZ 3
-#define KW_AM_SEG_12BIT_SN_WITH_SO_HDRSZ 4
-#define KW_AM_SEG_18BIT_SN_WITH_SO_HDRSZ 5
-#define KW_AM_SEG_12BIT_SN_WITHOUT_SO_HDRSZ 2
-#define KW_AM_SEG_18BIT_SN_WITHOUT_SO_HDRSZ 3
-#define KW_EXTN_HDRSZ 2
-#define KW_CNTRL_PDU_FIXED_HDRSZ 3
-#define KW_MAC_HDR_SZ2 2
-#define KW_MAC_HDR_SZ3 3
-#define KW_BYTE_LEN 8
-#define KW_2BYTE_LEN 16
-#define KW_E1_LEN 1
-#define KW_NACK_E1E2_LEN 12
-#define KW_SO_LEN 15
-#define KW_DC_LEN 1
-#define KW_CPT_LEN 3
-#define KW_RF_LEN 1
-#define KW_P_LEN 1
-#define KW_FI_LEN 2
-#define KW_SI_LEN 2
-#define KW_E_LEN 1
-#define KW_SN_LEN 10
-#define KW_SN_LEN_12BITS 12
-#define KW_SN_LEN_18BITS 18
-#define KW_LSF_LEN 1
-#define KW_LI_LEN 11
-#define KW_STA_PDU_R_BITS_ACKSN_12BITS 7 /* 5GNR : Num Reserved bits in STATUS PDU */
-#define KW_STA_PDU_R_BITS_ACKSN_18BITS 1
-#define KW_STA_PDU_R_BITS_NACKSN_12BITS 1
-#define KW_STA_PDU_R_BITS_NACKSN_18BITS 3
-#define KW_NACK_RANGE_LEN 8
-#define KW_SO_LEN_5GNR 16
-
-#define KW_DC_POS 0x80
-#define KW_DC_SHT 7
-#define KW_POLL_POS 0x40 /* 5GNR */
-#define KW_POLL_SHT 6 /* 5GNR */
-#define KW_SI_POS 0x30 /* 5GNR */
-#define KW_SI_SHT 4 /* 5GNR */
-#define KW_SN_POS_12BIT 0x0F
-#define KW_SN_POS_18BIT 0x03
-#define KW_AM_GET_WIN_SZ(_snLen) ((KW_AM_CFG_12BIT_SN_LEN == (_snLen)) ? (2048) : (131072)) /* 5GNR */
-#define KW_RCV_BUF_BIN_SIZE 512 /* Could be increased to avoid the search time.
- with the memory trade-off */
-#define KW_TX_BUF_BIN_SIZE 512 /* Could be increased to avoid the search time.
- with the memory trade-off */
-
-#define KW_SDU_LST 1
-#define KW_SEG_LST 2
-#define KW_RETX_LST 3
-#define KW_ALL_BYTES_MISSING 0xffff
-
-#define KW_MAX_PDU_MAP 30 /*!< Maximum PDU Map. */
-
-#define KW_LLIST_FIRST_SDU(lstCp, nod) \
+#define RLC_MAX_HDRSZ 5
+#define RLC_AM_PDU_FIXED_HDRSZ 2
+#define RLC_AM_PDU_12BIT_SN_HDRSZ 2
+#define RLC_AM_PDU_18BIT_SN_HDRSZ 3
+#define RLC_AM_SEG_12BIT_SN_WITH_SO_HDRSZ 4
+#define RLC_AM_SEG_18BIT_SN_WITH_SO_HDRSZ 5
+#define RLC_AM_SEG_12BIT_SN_WITHOUT_SO_HDRSZ 2
+#define RLC_AM_SEG_18BIT_SN_WITHOUT_SO_HDRSZ 3
+#define RLC_EXTN_HDRSZ 2
+#define RLC_CNTRL_PDU_FIXED_HDRSZ 3
+#define RLC_MAC_HDR_SZ2 2
+#define RLC_MAC_HDR_SZ3 3
+#define RLC_BYTE_LEN 8
+#define RLC_2BYTE_LEN 16
+#define RLC_E1_LEN 1
+#define RLC_NACK_E1E2_LEN 12
+#define RLC_SO_LEN 15
+#define RLC_DC_LEN 1
+#define RLC_CPT_LEN 3
+#define RLC_RF_LEN 1
+#define RLC_P_LEN 1
+#define RLC_FI_LEN 2
+#define RLC_SI_LEN 2
+#define RLC_E_LEN 1
+#define RLC_SN_LEN 10
+#define RLC_SN_LEN_12BITS 12
+#define RLC_SN_LEN_18BITS 18
+#define RLC_LSF_LEN 1
+#define RLC_LI_LEN 11
+#define RLC_STA_PDU_R_BITS_ACKSN_12BITS 7 /* 5GNR : Num Reserved bits in STATUS PDU */
+#define RLC_STA_PDU_R_BITS_ACKSN_18BITS 1
+#define RLC_STA_PDU_R_BITS_NACKSN_12BITS 1
+#define RLC_STA_PDU_R_BITS_NACKSN_18BITS 3
+#define RLC_NACK_RANGE_LEN 8
+#define RLC_SO_LEN_5GNR 16
+
+#define RLC_DC_POS 0x80
+#define RLC_DC_SHT 7
+#define RLC_POLL_POS 0x40 /* 5GNR */
+#define RLC_POLL_SHT 6 /* 5GNR */
+#define RLC_SI_POS 0x30 /* 5GNR */
+#define RLC_SI_SHT 4 /* 5GNR */
+#define RLC_SN_POS_12BIT 0x0F
+#define RLC_SN_POS_18BIT 0x03
+#define RLC_AM_GET_WIN_SZ(_snLen) ((RLC_AM_CFG_12BIT_SN_LEN == (_snLen)) ? (2048) : (131072)) /* 5GNR */
+#define RLC_RCV_BUF_BIN_SIZE 512 /* receive buffer size */
+#define RLC_TX_BUF_BIN_SIZE 512 /* receive buffer size */
+
+#define RLC_SDU_LST 1
+#define RLC_SEG_LST 2
+#define RLC_RETX_LST 3
+#define RLC_ALL_BYTES_MISSING 0xffff
+
+#define RLC_MAX_PDU_MAP 30 /*!< Maximum PDU Map. */
+
+#define RLC_LLIST_FIRST_SDU(lstCp, nod) \
{ \
CmLList *tmpNode; \
/*CM_LLIST_FIRST_NODE(&(lstCp), tmpNode);*/ \
/*if (tmpNode != NULLP)*/ \
if((tmpNode=cmLListFirst(&lstCp))) \
- nod = (KwSdu *)tmpNode->node; \
+ nod = (RlcSdu *)tmpNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_FIRST_SEG(lstCp, nod) \
+#define RLC_LLIST_FIRST_SEG(lstCp, nod) \
{ \
CmLList *tmpNode; \
/*CM_LLIST_FIRST_NODE(&(lstCp), tmpNode);*/ \
/*if (tmpNode != NULLP)*/ \
if((tmpNode=cmLListFirst(&lstCp))) \
- nod = (KwSeg *)tmpNode->node; \
+ nod = (RlcSeg *)tmpNode->node; \
else \
nod = NULLP; \
}
-
-#define KW_LLIST_FIRST_RETX(lstCp, nod) \
+#define RLC_LLIST_FIRST_RETX(lstCp, nod) \
{ \
CmLList *tmpNode; \
/*CM_LLIST_FIRST_NODE(&(lstCp), tmpNode);*/ \
/*if (tmpNode != NULLP)*/ \
if((tmpNode=cmLListFirst(&lstCp))) \
- nod = (KwRetx *)tmpNode->node; \
+ nod = (RlcRetx *)tmpNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_NEXT_SDU(lstCp, nod) \
+#define RLC_LLIST_NEXT_SDU(lstCp, nod) \
{ \
CmLList *tmpNode; \
/*CM_LLIST_NEXT_NODE(&(lstCp), tmpNode);*/ \
/*if (tmpNode != NULLP) */ \
if((tmpNode = cmLListNext(&lstCp))) \
- nod = (KwSdu *)tmpNode->node; \
+ nod = (RlcSdu *)tmpNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_NEXT_SEG(lstCp, nod) \
+#define RLC_LLIST_NEXT_SEG(lstCp, nod) \
{ \
CmLList *tmpNode; \
(lstCp).crnt = &((nod)->lstEnt); \
/*CM_LLIST_NEXT_NODE(&(lstCp), tmpNode);*/ \
/*if (tmpNode != NULLP)*/ \
if((tmpNode = cmLListNext(&lstCp))) \
- nod = (KwSeg *)tmpNode->node; \
+ nod = (RlcSeg *)tmpNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_NEXT_RETX(lstCp, nod) \
+#define RLC_LLIST_NEXT_RETX(lstCp, nod) \
{ \
CmLList *tmpNode; \
/*CM_LLIST_NEXT_NODE(&(lstCp), tmpNode);*/ \
/*if (tmpNode != NULLP) */ \
if ((tmpNode = cmLListNext(&lstCp))) \
- nod = (KwRetx *)tmpNode->node; \
+ nod = (RlcRetx *)tmpNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_LAST_RETX(lstCp, nod) \
+#define RLC_LLIST_LAST_RETX(lstCp, nod) \
{ \
CmLList *tempNode = NULLP; \
cmLListLast(&lstCp); \
tempNode = cmLListCrnt(&lstCp); \
if (tempNode != NULLP) \
- nod = (KwRetx *)tempNode->node; \
+ nod = (RlcRetx *)tempNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_LAST_SEG(lstCp, nod) \
+#define RLC_LLIST_LAST_SEG(lstCp, nod) \
{ \
CmLList *tempNode = NULLP; \
cmLListLast(&lstCp); \
tempNode = cmLListCrnt(&lstCp); \
if (tempNode != NULLP) \
- nod = (KwSeg *)tempNode->node; \
+ nod = (RlcSeg *)tempNode->node; \
else \
nod = NULLP; \
}
-#define KW_LLIST_LAST_SDU(lstCp, nod) \
+#define RLC_LLIST_LAST_SDU(lstCp, nod) \
{ \
CmLList *tempNode = NULLP; \
cmLListLast(&lstCp); \
tempNode = cmLListCrnt(&lstCp); \
if (tempNode != NULLP) \
- nod = (KwSdu *)tempNode->node; \
+ nod = (RlcSdu *)tempNode->node; \
else \
nod = NULLP; \
}
cmLListInsCrnt(&lstCp, nodeToIns); \
}
-#define KW_LLIST_DEL_RECBUF(_recBuf) \
+#define RLC_LLIST_DEL_RECBUF(_recBuf) \
{ \
- KwSeg *_seg = NULLP; \
- KW_LLIST_FIRST_SEG(_recBuf->segLst, _seg); \
+ RlcSeg *_seg = NULLP; \
+ RLC_LLIST_FIRST_SEG(_recBuf->segLst, _seg); \
while (_seg) \
{ \
cmLListDelFrm(&_recBuf->segLst, &_seg->lstEnt); \
- KW_FREE(_seg, sizeof(KwSeg)); \
- KW_LLIST_NEXT_SEG(_recBuf->segLst, _seg); \
+ RLC_FREE(_seg, sizeof(RlcSeg)); \
+ RLC_LLIST_NEXT_SEG(_recBuf->segLst, _seg); \
} \
}
+#define RLC_UMM_LLIST_FIRST_SEG(lstCp, nod) \
+{ \
+ CmLList *tmpNode; \
+ if((tmpNode=cmLListFirst(&lstCp))) \
+ nod = (RlcUmSeg *)tmpNode->node; \
+ else \
+ nod = NULLP; \
+} /*!< um mode first segment of linked list*/
+
+#define RLC_UMM_LLIST_NEXT_SEG(lstCp, nod) \
+{ \
+ CmLList *tmpNode; \
+ (lstCp).crnt = &((nod)->lstEnt); \
+ if((tmpNode = cmLListNext(&lstCp))) \
+ nod = (RlcUmSeg *)tmpNode->node; \
+ else \
+ nod = NULLP; \
+}/*!< next segment in um mode linked list*/
+
#define MODAMT(x, y, z,_snModMask) \
{ \
y = (x - z) & _snModMask; \
}
/**
- * @def KW_AM_IS_TRANS_WIN_STALLED
+ * @def RLC_AM_IS_TRANS_WIN_STALLED
*
* This macro is used to check if the AM transmit window is stalled or not.
* The tramist window is stalled when the distance between txNext and txNextAck
* @param[in] _amDl AM Downlink control block
*
*/
-#define KW_AM_IS_TRANS_WIN_STALLED(_amDl) \
- ((((_amDl)->txNext - (_amDl)->txNextAck) & _amDl->snModMask) >= (KW_AM_GET_WIN_SZ(_amDl->snLen)))
+#define RLC_AM_IS_TRANS_WIN_STALLED(_amDl) \
+ ((((_amDl)->txNext - (_amDl)->txNextAck) & _amDl->snModMask) >= (RLC_AM_GET_WIN_SZ(_amDl->snLen)))
#ifdef TENB_STATS
-#define KW_AM_TRANS_WIN_SIZE(_amDl) \
+#define RLC_AM_TRANS_WIN_SIZE(_amDl) \
(((_amDl)->txNext - (_amDl)->txNextAck) & _amDl->snModMask)
#endif
-#define KW_AM_IS_POLL_BIT_SET(_amDl) \
- (AMDL.pollSn == ((AMDL.txNext - 1) & AMDL.snModMask))
+#define RLC_AM_IS_POLL_BIT_SET(_amDl) \
+ (RLC_AMDL.pollSn == ((RLC_AMDL.txNext - 1) & RLC_AMDL.snModMask))
-#define KW_FILL_CNTRL_INFO(cntrlInfo, _val, _len, _idx, _eb)\
+#define RLC_FILL_CNTRL_INFO(cntrlInfo, _val, _len, _idx, _eb)\
{ \
cntrlInfo.val = _val; \
cntrlInfo.len = _len; \
cntrlInfo.idx = _idx; \
cntrlInfo.emtBits = _eb; \
}
-#define KW_FILL_PREV_IDX(cntrlInfo, _e1Idx, _e1eb, _idx, _eb) \
+#define RLC_FILL_PREV_IDX(cntrlInfo, _e1Idx, _e1eb, _idx, _eb) \
{ \
_e1Idx = cntrlInfo.e1Idx; \
_e1eb = cntrlInfo.e1eb; \
_eb = cntrlInfo.emtBits; \
}
-#define KW_FILL_HDR_ARGS(hdrInfo, _val, _len) \
+#define RLC_FILL_HDR_ARGS(hdrInfo, _val, _len) \
{ \
hdrInfo.val = _val; \
hdrInfo.len = _len; \
/* kw003.201 - This macro provides the header size other than the */
/* fixed header of 2 bytes for each AMD PDU or 4 bytes*/
/* for an AM PDU segment */
-#define KW_AM_EXTN_HDRSZ(_numLi, _eHdrSz) \
+#define RLC_AM_EXTN_HDRSZ(_numLi, _eHdrSz) \
{ \
if ((_numLi - 1) % 2) \
{ \
}
/* Update poll bit in the buffer */
-#define KW_UPD_POLL_BIT(_gCb, _retx, _poll) \
+#define RLC_UPD_POLL_BIT(_gCb, _retx, _poll) \
{ \
- U8 fHdr; \
+ uint8_t fHdr; \
\
if (_poll != _retx->amHdr.p) \
{ \
SRemPreMsg((Data *)&fHdr, _retx->seg); \
if (_poll == TRUE) \
{ \
- fHdr = fHdr | KW_POLL_SET; \
+ fHdr = fHdr | RLC_POLL_SET; \
} \
else \
{ \
- fHdr = fHdr & KW_POLL_UNSET; \
+ fHdr = fHdr & RLC_POLL_UNSET; \
} \
/* Concatenated updated hdr to the mBuf */ \
SAddPreMsg ((Data)fHdr, _retx->seg); \
_retx->amHdr.p = _poll; \
}
-#define KW_AM_ELIMINATE_EXTN_HDR(_pduSz, _sduSz, _numLi) \
+#define RLC_AM_ELIMINATE_EXTN_HDR(_pduSz, _sduSz, _numLi) \
{ \
if ( (_pduSz > _sduSz) && (_sduSz < 2048) ) \
{ \
} \
}
/**
- * @def KW_AM_CHK_SN_WITHIN_RECV_WINDOW
+ * @def RLC_AM_CHK_SN_WITHIN_RECV_WINDOW
*
* This macro is used to check if a Sequence Number falls within the AM
* reception window or not.
* @param[in] _amUl AM Uplink control block
*
*/
-#define KW_AM_CHK_SN_WITHIN_RECV_WINDOW(_sn, _amUl) \
+#define RLC_AM_CHK_SN_WITHIN_RECV_WINDOW(_sn, _amUl) \
((((_sn) - (_amUl->rxNext)) & (_amUl->snModMask)) < (((_amUl->vrMr) - (_amUl->rxNext)) & (_amUl->snModMask)))
-#define KW_POWER(x, y) x << (y-1);
+#define RLC_POWER(x, y) x << (y-1);
#ifndef L2_OPTMZ
-#define kwCpyMsg(_cb,x, y) \
- (SAddMsgRef((x), KW_GET_MEM_REGION(_cb), KW_GET_MEM_POOL(_cb), (y)))
+#define rlcCpyMsg(_cb,x, y) \
+ (SAddMsgRef((x), RLC_GET_MEM_REGION(_cb), RLC_GET_MEM_POOL(_cb), (y)))
#else
/* L2 optimization for mUe/Tti: Removing dup buf*/
-#define kwCpyMsg(_cb,x, y) \
- (SIncMsgRef((x), KW_GET_MEM_REGION(_cb), KW_GET_MEM_POOL(_cb), (y)))
+#define rlcCpyMsg(_cb,x, y) \
+ (SIncMsgRef((x), RLC_GET_MEM_REGION(_cb), RLC_GET_MEM_POOL(_cb), (y)))
#endif
// printf("Copy Msg %x \n",x);
/*******************************************************************************
* Debugging Defines
******************************************************************************/
-#define KW_DBG_SUB_MASK DBGMASK_MI /**< Use for sub-mask */
-#define KW_DBGMASK_DETAIL (KW_DBG_SUB_MASK << 0) /**< Parameters, It will give
+#define RLC_DBG_SUB_MASK DBGMASK_MI /**< Use for sub-mask */
+#define RLC_DBGMASK_DETAIL (RLC_DBG_SUB_MASK << 0) /**< Parameters, It will give
in depth info */
-#define KW_DBGMASK_BRIEF (KW_DBG_SUB_MASK << 1) /**< Info, It will give info at
+#define RLC_DBGMASK_BRIEF (RLC_DBG_SUB_MASK << 1) /**< Info, It will give info at
entry and exit places along
with certain state changes */
-#define KW_DBGMASK_ERROR (KW_DBG_SUB_MASK << 2) /**< Error information */
-#define KW_DBGMASK_FATAL (KW_DBG_SUB_MASK << 3) /**< FATAL errors like memory
+#define RLC_DBGMASK_ERROR (RLC_DBG_SUB_MASK << 2) /**< Error information */
+#define RLC_DBGMASK_FATAL (RLC_DBG_SUB_MASK << 3) /**< FATAL errors like memory
resource failure etc., */
-#define KW_DBG_MDL_MASK (KW_DBG_SUB_MASK << 4)
-
-#define KW_DBGMASK_TM (KW_DBG_MDL_MASK << 0) /**< TM */
-#define KW_DBGMASK_UM (KW_DBG_MDL_MASK << 1) /**< UM */
-#define KW_DBGMASK_AM (KW_DBG_MDL_MASK << 2) /**< AM */
-#define KW_DBGMASK_DL (KW_DBG_MDL_MASK << 3) /**< DL */
-#define KW_DBGMASK_UL (KW_DBG_MDL_MASK << 4) /**< UL */
-#define KW_DBGMASK_CFG (KW_DBG_MDL_MASK << 5) /**< CFG */
-#define KW_DBGMASK_LMM (KW_DBG_MDL_MASK << 6) /**< LMM */
-#define KW_DBGMASK_INF (KW_DBG_MDL_MASK << 7) /**< UI, LI */
-#define KW_DBGMASK_DUT (KW_DBG_MDL_MASK << 8) /**< DBM, UTL, TMR */
-#define KW_DBGMASK_MBUF_PRNT (KW_DBG_MDL_MASK << 9) /**< MBUF, useful in
+#define RLC_DBG_MDL_MASK (RLC_DBG_SUB_MASK << 4)
+
+#define RLC_DBGMASK_TM (RLC_DBG_MDL_MASK << 0) /**< TM */
+#define RLC_DBGMASK_UM (RLC_DBG_MDL_MASK << 1) /**< UM */
+#define RLC_DBGMASK_AM (RLC_DBG_MDL_MASK << 2) /**< AM */
+#define RLC_DBGMASK_DL (RLC_DBG_MDL_MASK << 3) /**< DL */
+#define RLC_DBGMASK_UL (RLC_DBG_MDL_MASK << 4) /**< UL */
+#define RLC_DBGMASK_CFG (RLC_DBG_MDL_MASK << 5) /**< CFG */
+#define RLC_DBGMASK_LMM (RLC_DBG_MDL_MASK << 6) /**< LMM */
+#define RLC_DBGMASK_INF (RLC_DBG_MDL_MASK << 7) /**< UI, LI */
+#define RLC_DBGMASK_DUT (RLC_DBG_MDL_MASK << 8) /**< DBM, UTL, TMR */
+#define RLC_DBGMASK_MBUF_PRNT (RLC_DBG_MDL_MASK << 9) /**< MBUF, useful in
integrated
testing */
-#define KW_DBGMASK_MEM_INFO (KW_DBG_MDL_MASK << 10) /**< Print SSI memory
+#define RLC_DBGMASK_MEM_INFO (RLC_DBG_MDL_MASK << 10) /**< Print SSI memory
information*/
-#define KW_DBGMASK_UDX (KW_DBG_MDL_MASK << 11) /**< UDX interface */
+#define RLC_DBGMASK_UDX (RLC_DBG_MDL_MASK << 11) /**< UDX interface */
#ifdef DEBUGP
-#define KW_PRNT_BORDER \
+#define RLC_PRNT_BORDER \
do \
{ \
- KW_PRNT((_kwPBuf, "\n==========================\n")); \
+ RLC_PRNT((_kwPBuf, "\n==========================\n")); \
}while(0)
-#define KW_PRNT_HLINE(_cb,_pMsg) \
+#define RLC_PRNT_HLINE(_cb,_pMsg) \
{ \
sprintf((_cb)->init.prntBuf, "[RLC_LAYER: %s:%d]::", __FILE__, __LINE__); \
SPrint((_cb)->init.prntBuf); \
- KW_PRNT_TSTAMP(_cb); \
+ RLC_PRNT_TSTAMP(_cb); \
sprintf((_cb)->init.prntBuf, _pMsg); \
SPrint((_cb)->init.prntBuf); \
}
-#define KW_PRNT(_cb,_prntbuf) \
+#define RLC_PRNT(_cb,_prntbuf) \
{ \
sprintf _prntbuf; \
SPrint(_cb->init.prntBuf); \
}
-#define KW_PRINT_TO_BUFFER(_cb,...) \
+#define RLC_PRINT_TO_BUFFER(_cb,...) \
{ \
snprintf((_cb)->init.prntBuf, PRNTSZE, "[%s]::", __func__); \
SPrint((_cb)->init.prntBuf); \
SPrint(_cb->init.prntBuf); \
}
-#define KW_PRNT_TSTAMP(_cb) \
+#define RLC_PRNT_TSTAMP(_cb) \
{ \
S8 _buf[60]; \
DateTime dt; \
- cmMemset((U8 *)(&dt), 0, sizeof(DateTime)); \
+ memset((&dt), 0, sizeof(DateTime)); \
SGetDateTime(&dt); \
sprintf(_buf, "date: %02d/%02d/%04d time: %02d:%02d:%02d", \
(int)dt.month,(int)dt.day,(int)dt.year + 1900, \
(int)dt.hour,(int)dt.min,(int)dt.sec); \
- KW_PRNT(_cb,(_cb->init.prntBuf,("[%s]", _buf))); \
+ RLC_PRNT(_cb,(_cb->init.prntBuf,("[%s]", _buf))); \
}
-#define KW_PRNT_MBUF(_cb,_mBufPtr) \
+#define RLC_PRNT_MBUF(_cb,_mBufPtr) \
do \
{ \
- if(_cb->init.dbgMask & (KW_DBGMASK_MBUF_PRNT)) \
+ if(_cb->init.dbgMask & (RLC_DBGMASK_MBUF_PRNT)) \
{ \
- KW_PRNT_HLINE(_cb,("\nMessage Buffer Contents:\n")); \
+ RLC_PRNT_HLINE(_cb,("\nMessage Buffer Contents:\n")); \
SPrntMsg ((Buffer *)_mBufPtr, 0, 0); \
} \
}while(0)
-#define KW_PRNT_MEMINFO(_cb) \
+#define RLC_PRNT_MEMINFO(_cb) \
do \
{ \
- U32 _memInfo; \
- if(_cb->init.dbgMask & (KW_DBGMASK_MEM_INFO)) \
+ uint32_t _memInfo; \
+ if(_cb->init.dbgMask & (RLC_DBGMASK_MEM_INFO)) \
{ \
- KW_PRNT_HLINE(_cb,("\nMemory Information:\n")); \
+ RLC_PRNT_HLINE(_cb,("\nMemory Information:\n")); \
SRegInfoShow(0, &_memInfo); \
} \
}while(0)
-#define KWDBGP_INTERNAL(_cb,_mask,...) \
+#define RLCDBGP_INTERNAL(_cb,_mask,...) \
do \
{ \
if (!((_cb->init.dbgMask & _mask) ^ _mask)) \
{ \
- KW_PRINT_TO_BUFFER(_cb, __VA_ARGS__); \
+ RLC_PRINT_TO_BUFFER(_cb, __VA_ARGS__); \
} \
}while(0)
-#define KWDBGP_ERROR(_cb, ...) \
- KWDBGP_INTERNAL(_cb,(KW_DBGMASK_ERROR | KW_MODULE),__VA_ARGS__)
+#define RLCDBGP_ERROR(_cb, ...) \
+ RLCDBGP_INTERNAL(_cb,(RLC_DBGMASK_ERROR | RLC_MODULE),__VA_ARGS__)
-#define KWDBGP_DETAIL(_cb, ...) \
- KWDBGP_INTERNAL(_cb,(KW_DBGMASK_DETAIL | KW_MODULE),__VA_ARGS__)
+#define RLCDBGP_DETAIL(_cb, ...) \
+ RLCDBGP_INTERNAL(_cb,(RLC_DBGMASK_DETAIL | RLC_MODULE),__VA_ARGS__)
-#define KWDBGP_BRIEF(_cb, ...) \
- KWDBGP_INTERNAL(_cb,(KW_DBGMASK_BRIEF | KW_MODULE),__VA_ARGS__)
+#define RLCDBGP_BRIEF(_cb, ...) \
+ RLCDBGP_INTERNAL(_cb,(RLC_DBGMASK_BRIEF | RLC_MODULE),__VA_ARGS__)
#else /* DEBUGP */
-#define KW_PRNT_HLINE(_cb,_pMsg)
-#define KW_PRNT(_cb,_prntbuf)
-#define KW_PRNT_TSTAMP(_cb)
-#define KW_PRNT_MBUF(_cb,_mBufPtr)
-#define KW_PRNT_MEMINFO(_cb)
-#define KWDBGP(_cb,_mask, _arg)
-#define KWDBGP_ERROR(_cb, ...)
-#define KWDBGP_DETAIL(_cb, ...)
-#define KWDBGP_BRIEF(_cb, ...)
+#define RLC_PRNT_HLINE(_cb,_pMsg)
+#define RLC_PRNT(_cb,_prntbuf)
+#define RLC_PRNT_TSTAMP(_cb)
+#define RLC_PRNT_MBUF(_cb,_mBufPtr)
+#define RLC_PRNT_MEMINFO(_cb)
+#define RLCDBGP(_cb,_mask, _arg)
+#define RLCDBGP_ERROR(_cb, ...)
+#define RLCDBGP_DETAIL(_cb, ...)
+#define RLCDBGP_BRIEF(_cb, ...)
#endif /* DEBUGP */
/*******************************************************************************
* LMM Defines
******************************************************************************/
-#define KW_LMM_RB_STS_INC(_cb) (_cb)->genSts.numOfRb++;
+#define RLC_LMM_RB_STS_INC(_cb) (_cb)->genSts.numOfRb++;
-#define KW_LMM_RB_STS_DEC(_cb) (_cb)->genSts.numOfRb--;
+#define RLC_LMM_RB_STS_DEC(_cb) (_cb)->genSts.numOfRb--;
#if defined(SS_MULTICORE_SUPPORT) && defined(SS_M_PROTO_REGION)
-#define KW_FILL_SAP_HELPER(_Sap, _cfg, _gCb)\
+#define RLC_FILL_SAP_HELPER(_Sap, _cfg, _gCb)\
{\
_Sap->pst.selector = _cfg->selector; \
_Sap->pst.route = _cfg->route; \
_Sap->pst.srcInst = _gCb->init.inst; \
_Sap->pst.event = EVTNONE; \
_Sap->spId = _cfg->sapId; \
- _Sap->state = KW_SAP_CFG; \
+ _Sap->state = RLC_SAP_CFG; \
}
#else /* defined(SS_MULTICORE_SUPPORT) && defined(SS_M_PROTO_REGION) */
-#define KW_FILL_SAP_HELPER(_Sap, _cfg, _gCb)\
+#define RLC_FILL_SAP_HELPER(_Sap, _cfg, _gCb)\
{\
_Sap->pst.selector = _cfg->selector; \
_Sap->pst.route = _cfg->route; \
_Sap->pst.srcInst = _gCb->init.inst;\
_Sap->pst.event = EVTNONE;\
_Sap->spId = _cfg->sapId;\
- _Sap->state = KW_SAP_CFG;\
+ _Sap->state = RLC_SAP_CFG;\
}
#endif
/*******************************************************************************
* UDX Defines
******************************************************************************/
-#define KW_GET_DL_SAPCB(_cb, _rbCb) (_cb->u.dlCb->udxDlSap + _rbCb->udxSapId)
-#define KW_GET_UDX_SAP(_cb) (_cb->u.ulCb->udxUlSap)
+#define RLC_GET_DL_SAPCB(_cb, _rbCb) (_cb->u.dlCb->udxDlSap + _rbCb->udxSapId)
+#define RLC_GET_UDX_SAP(_cb) (_cb->u.ulCb->udxUlSap)
/* kw005.201 added support for L2 Measurement */
#ifdef LTE_L2_MEAS
-#define KW_L2_MAX_TIMERS 1
-#define KW_QCI_LIST_BUCKET_SIZE 10
-#define KW_TB_LIST_BUCKET_SIZE 10
-#define KW_MAX_L2MEAS_EVT 10
+#define RLC_L2_MAX_TIMERS 1
+#define RLC_QCI_LIST_BUCKET_SIZE 10
+#define RLC_TB_LIST_BUCKET_SIZE 10
+#define RLC_MAX_L2MEAS_EVT 10
/* L2 Measurement index to be used in rbCb to store measData */
-#define KW_L2MEAS_ACT_UE 0
-#define KW_L2MEAS_DL_DELAY 1
-#define KW_L2MEAS_DL_DISC 2
-#define KW_L2MEAS_UU_LOSS 3
-#define KW_L2MEAS_DL_IP 4
-#define KW_L2MEAS_UL_IP 5
+#define RLC_L2MEAS_ACT_UE 0
+#define RLC_L2MEAS_DL_DELAY 1
+#define RLC_L2MEAS_DL_DISC 2
+#define RLC_L2MEAS_UU_LOSS 3
+#define RLC_L2MEAS_DL_IP 4
+#define RLC_L2MEAS_UL_IP 5
#endif /* LTE_L2_MEAS */
-#define KW_RDWR_LOCK(_lockPtr)
-#define KW_RDWR_UNLOCK(_lockPtr)
-#define KW_TIME_DIFF(t1,t2) \
+#define RLC_RDWR_LOCK(_lockPtr)
+#define RLC_RDWR_UNLOCK(_lockPtr)
+#define RLC_TIME_DIFF(t1,t2) \
(t1<t2 ? ((0xffffffff - t2) + t1 ): (t1 - t2))
#endif /* __KWH__ */