1 /*******************************************************************************
2 ################################################################################
3 # Copyright (c) [2017-2019] [Radisys] #
5 # Licensed under the Apache License, Version 2.0 (the "License"); #
6 # you may not use this file except in compliance with the License. #
7 # You may obtain a copy of the License at #
9 # http://www.apache.org/licenses/LICENSE-2.0 #
11 # Unless required by applicable law or agreed to in writing, software #
12 # distributed under the License is distributed on an "AS IS" BASIS, #
13 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. #
14 # See the License for the specific language governing permissions and #
15 # limitations under the License. #
16 ################################################################################
17 *******************************************************************************/
19 /**********************************************************************
25 Desc: Defines required by LTE-MAC
29 **********************************************************************/
32 @brief This file contains definitons for Mac.
42 #include "gen.x" /* general layer */
43 #include "ssi.x" /* system service interface */
51 #define RG_MAC_HDR_SIZE 250
52 #define RG_MAC_CE_SIZE 250
53 uint32_t MacPtrAddress;
54 uint32_t macHeader[2];
56 #define RG_ADD_DBuf(_dBuf,_size,_mBuf)\
58 SsMsgInfo *mInfo = NULLP; \
59 mInfo = (SsMsgInfo *)_mBuf->b_rptr; \
60 ssGetDBufOfSize(mInfo->region,_size, &_dBuf); \
61 SUpdMsg(_mBuf, _dBuf,0);\
62 _dBuf->b_wptr = _dBuf->b_rptr = (_dBuf->b_datap->db_base + 5);\
63 MacPtrAddress = (uint32_t)_dBuf->b_wptr;\
69 #define RGLAYERNAME "MAC"
70 #define RG_MAX_TB_PER_UE 2
71 #define RG_MAX_BCCH_DLSCH 2
72 #define RG_INVALID_RNTI 0x0000
74 #define RG_MAX_NUM_DED_LC 10 /* maximum dedicated logical channels in a UE */
75 #define RG_MAX_NUM_CMN_LC 5 /* maximum number of common logical
77 #define RG_MAX_LCG_PER_UE 4
78 #define RG_CON_RES_ID_SZ 6
79 #define RG_MAX_RA_RNTI 60
81 /* Added support for SPS*/
83 #define RG_ADDL_SPS_OCC_FOR_EXP_REL 2
85 #define RG_SPS_SID_PACKET_SIZE 10
86 #define RG_SPS_LCG_ID 1
90 /* Well known RNTIS */
91 #define RG_SI_RNTI 0xffff
92 #define RG_P_RNTI 0xfffe
94 #define RG_MAX_UPPERSAP 3
95 #define RG_MAX_LOWERSAP 1
96 #define RG_TQ_SIZE 10 /* Timing Queue Size */
97 #define RG_MAX_TIMER RG_MAX_LOWERSAP /* MAX number of MAC timers */
98 #define RG_NMB_CELL_HASHBIN 10 /* Number of Hash Bins for cell hash
100 #define RG_NMB_UE_HASHBIN 10 /* Number of Hash Bins for UE hash
102 #define RG_BNDREQ_TMR 1 /* Bind Request timer event value */
103 #define RG_MAX_BNDRETRY 2 /* Max number of Bind Retries for TFU SAP */
106 #define RG_UE_TQ_SIZE 10 /* Timing Queue Size */
108 #define RG_INVALID_SCHD_TYPE 255
109 #define RG_MAX_UE_PER_CELL 0xFFFF /*!< Maximum number of UEs per cell */
110 #ifdef EIGHT_UE_PER_TTI_CHANGES
111 #define RG_MAX_UE_BIN_PER_CELL 1024 /*!< Maximum number of UE bins per cell */
113 #define RG_MAX_UE_BIN_PER_CELL 128 /*!< Maximum number of UE bins per cell */
115 #define RG_MIN_DL_BW 6 /*!< Minimum Downlink bandwidth in RBs */
116 #define RG_MAX_DL_BW 110 /*!< Maximum Downlink bandwidth in RBs */
117 #define RG_MIN_UL_BW 6 /*!< Minimum Uplink bandwidth in RBs */
118 #define RG_MAX_UL_BW 110 /*!< Maximum Uplink bandwidth in RBs */
119 #define RG_MIN_CFI_VAL 1 /*!< Minimum value for CFI */
120 #define RG_MAX_CFI_VAL 3 /*!< Maximum value for CFI */
121 #define RG_QM_BPSK 2 /*!< Qm value for BPSK */
122 #define RG_QM_QPSK 4 /*!< Qm value for QPSK */
123 #define RG_QM_64QAM 6 /*!< Qm value for 64QAM */
124 #define RG_MIN_SRS_SFCFG_IDX 0 /*!< Minimum value for SRS subframe
125 configurtion index */
126 #define RG_MAX_SRS_SFCFG_IDX 15 /*!< Maximum value for SRS subframe
127 configurtion index */
128 #define RG_MAX_SRS_TX_OFFSET 8 /*!< Maximum number of SRS transmission
130 #define RG_MIN_MAC_RNTI 10 /*!< Minimum value of RNTI to be managed by
133 /* HARQ related MACROs */
134 #define RG_NUM_DL_HQ_PROC 8
135 #define RG_NUM_UL_HQ_PROC 8
136 #define RG_MIN_HQ_TX 1
138 /* Group power related MACROs */
139 #define RG_MAX_GRP_PWR_FMT3_IDX 15 /*!< Maximum index value for group power format 3 */
140 #define RG_MAX_GRP_PWR_FMT3A_IDX 31 /*!< Maximum index value for group power format 3A */
142 /* MACROs to indicate cell specific config for cell to be active */
143 #define RG_BCCH_BCH_CFG_DONE (1<<0)
144 #define RG_BCCH_DLSCH_CFG1_DONE (1<<1)
145 #define RG_BCCH_DLSCH_CFG2_DONE (1<<2)
146 #define RG_PCCH_CFG_DONE (1<<3)
147 #define RG_UL_CCCH_CFG_DONE (1<<4)
148 #define RG_DL_CCCH_CFG_DONE (1<<5)
149 #define RG_SCHD_CFG_DONE (1<<6)
150 #define RG_CELL_ACTIVE (RG_BCCH_BCH_CFG_DONE | RG_BCCH_DLSCH_CFG1_DONE | RG_BCCH_DLSCH_CFG2_DONE | RG_PCCH_CFG_DONE | RG_UL_CCCH_CFG_DONE | RG_DL_CCCH_CFG_DONE)
151 /* Logical channel realated MACROs */
152 #define RG_INVALID_LCG_ID 255
153 #define RG_INVALID_LC_ID 255
154 #define RG_BCCH_BCH_IDX 0
155 #define RG_BCCH_DLSCH_IDX 1
156 #define RG_PCCH_IDX 2
158 /* constants for MIN & MAX qci*/
162 /* PUCCH related macros */
163 #define RG_PUCCH_MAXVAL_CS 7 /*!< Maximum value for cyclic shift of PUCCH */
164 #define RG_PUCCH_MINVAL_DS 1 /*!< Mininmum value for delta shift of PUCCH */
165 #define RG_PUCCH_MAXVAL_DS 3 /*!< Maximum value for delta shift of PUCCH */
167 /* DUX related macros */
168 #define RG_LCID_MASK 0x3F
170 #define RG_LCID_LEN 0x6
171 #define RG_CCCH_LCID 0x00
172 #define RG_DEDLC_MIN_LCID 0x01
173 #define RG_DEDLC_MAX_LCID 0x0A
174 #define RG_RES_MIN_LCID 0x0B
175 #define RG_RES_MAX_LCID 0x18
176 #define RG_EXT_PHR_LCID 0x19
177 #define RG_PHR_LCID 0x1A
178 #define RG_CRNTI_LCID 0X1B
179 #define RG_TRUNC_BSR_LCID 0X1C
180 #define RG_SHORT_BSR_LCID 0X1D
181 #define RG_LONG_BSR_LCID 0X1E
182 #define RG_PAD_LCID 0x3F
183 #define RG_MAX_EXTN_PAD_SUBHDRS 0x02
184 #define RG_REF_PCMAX 0xFF
186 #define RG_CCCH_SDU_PRSNT (1<<0)
187 #define RG_CRNTI_CE_PRSNT (1<<1)
188 #define RG_PHR_CE_PRSNT (1<<2)
189 #define RG_TRUNC_BSR_CE_PRSNT (1<<3)
190 #define RG_SHORT_BSR_CE_PRSNT (1<<4)
191 #define RG_LONG_BSR_CE_PRSNT (1<<5)
193 #define RG_ACTIVE_LC_PRSNT (1<<6)
196 #define RG_UL_SPS_ACT_PRSNT (1<<7)
198 #define RG_EXT_PHR_CE_PRSNT (1<<8)
200 /* LOGICAL CHANNEL */
201 #define RG_MAX_LC_PER_UE 10
202 /* Maximum number of common logical channel control blocks */
203 #define RG_MAX_CMN_LC_CB 3
204 #define RG_MAX_BCCH 2
207 #define RG_MAX_SCELL_PER_UE 7 /*!< MAX SCell can be Added per Cell */
210 #define RG_OPTM_NUM_DED_LC 3
212 /* Random access related MACROs */
213 #define RG_MAX_RA_PREAMBLE_FMT 3 /*!< Maximun value of Random access preamble
215 #define RG_MAX_RA_WINSIZE 10 /*!< Maximum size of Random access response
216 window in subframes */
217 #define RG_MIN_RA_WINSIZE 2 /*!< Minimum size of Random access response
218 window in subframes */
219 #define RG_MIN_NUM_RA_PREAMBLE 4 /*!< Minimum number of Random access
221 #define RG_MAX_NUM_RA_PREAMBLE 64 /*!< Maximim number of Random access
223 #define RG_NUM_RA_RB 6
225 #define RG_MAX_RA_RSP_ALLOC 4 /*!< Maximum number of Random access
227 #define RG_CRG_CFG 1 /* CRG configuration element */
228 #define RG_RGR_CFG 2 /* RGR configuration element */
230 #define RG_NUM_ITBS 27
231 #define RG_MAX_NUM_RB 110
233 #define RG_MAX_NUM_PAD_HDRS 2
235 /* Changes for MIMO feature addition */
236 /* Removed dependency on MIMO compile-time flag */
237 #define RG_MAX_LYR_PERCW 2
240 #define RG_MAX_DL_HARQ_NUM 15
242 #define RG_MAX_DL_HARQ_NUM 8
245 /* Free shared memory, received through LWLC */
246 #define MAC_FREE_MEM(_region, _pool, _datPtr, _size) \
248 SPutSBuf(_region, _pool,(Data *)_datPtr, _size); \
251 #define RG_LCG_ISCFGD(lcg) ((lcg)->lcgId != RG_INVALID_LCG_ID)
252 /* Corrected the check for dlCcchId */
253 #define RG_DLCCCH_ISCFGD(cell) ((cell)->dlCcchId != RG_INVALID_LC_ID)
254 #define RG_ULCCCH_ISCFGD(cell) ((cell)->ulCcchId != RG_INVALID_LC_ID)
255 /* After merging from 2.1 to 2.2 */
256 #define RG_CALC_SF_DIFF(_time1, _time2)\
257 (_time1.sfn*RG_NUM_SUB_FRAMES_5G+_time1.slot) < (_time2.sfn*RG_NUM_SUB_FRAMES_5G+_time2.slot)?\
258 ((_time1.sfn+RG_MAX_SFN)*RG_NUM_SUB_FRAMES_5G+_time1.slot) -\
259 (_time2.sfn*RG_NUM_SUB_FRAMES_5G+_time2.slot) : \
260 (_time1.sfn*RG_NUM_SUB_FRAMES_5G+_time1.slot) - (_time2.sfn*RG_NUM_SUB_FRAMES_5G+_time2.slot)
261 /*LTE_L2_MEAS_PHASE2*/
262 #define RG_CALC_SFN_SF_DIFF(_time1,_sfnCycle, _time2)\
263 (((_time1.sfn+RG_MAX_SFN * _sfnCycle)*RG_NUM_SUB_FRAMES_5G) + _time1.slot -\
264 (_time2.sfn*RG_NUM_SUB_FRAMES_5G + _time2.slot))
266 #define RG_EXT_LCID(_lcId, _byte) {\
267 (_lcId) = (_byte) & RG_LCID_MASK; \
269 #define RG_EXT_FORMT_BIT(_fmtBit, _byte) {\
270 (_fmtBit) = ((_byte) >> RG_LCID_LEN) & 0x01; \
273 #define RG_EXT_EXTN_BIT(_extnBit, _byte) {\
274 (_extnBit) = ((_byte) >> RG_LCID_LEN) & 0x01; \
277 #ifndef MS_MBUF_CORRUPTION
278 #define MS_BUF_ADD_ALLOC_CALLER()
281 #define RG_PACK_PAD(_padBuf,_size,_sduBuf) { \
282 Buffer *sduEnd = NULLP; \
283 SsMsgInfo *mInfo = NULLP; \
284 mInfo = (SsMsgInfo *)_sduBuf->b_rptr; \
285 ssGetDBufOfSize(mInfo->region,_size, &_padBuf); \
286 if (_padBuf == NULLP) \
288 DU_LOG("\nERROR --> MAC : RGERR_MUX_BLD_CEHDR_FAIL");\
291 if (mInfo->endptr == NULLP) { \
296 sduEnd = mInfo->endptr; \
298 sduEnd->b_cont = _padBuf; \
299 padBuf->b_wptr += _size; \
300 mInfo = (SsMsgInfo *)_sduBuf->b_rptr; \
301 mInfo->endptr = _padBuf; \
302 mInfo->len += _size; \
305 #define RG_PACK_SDU(_sdusBuf, _sduBuf, _ret) {\
306 _ret = SCatMsg(_sdusBuf, _sduBuf, M1M2);\
309 #define RG_PACK_LAST_SDU_SHDR(_subHdr, _lcId, _mBuf, _ret) {\
312 _subHdr.shData[0] = (0x1F & _lcId);\
313 MS_BUF_ADD_ALLOC_CALLER(); \
314 _ret = SAddPstMsgMult(&_subHdr.shData[0], _subHdr.shLen, _mBuf);\
317 #define RGADDTOCRNTTIME(crntTime, toFill, incr) \
318 if ((crntTime.slot + incr) > (RG_NUM_SUB_FRAMES_5G - 1)) \
319 toFill.sfn = (crntTime.sfn + 1); \
321 toFill.sfn = crntTime.sfn; \
322 toFill.slot = (crntTime.slot + incr) % RG_NUM_SUB_FRAMES_5G; \
323 if (toFill.sfn >= RG_MAX_SFN) \
325 toFill.sfn%=RG_MAX_SFN; \
328 #define RGSUBFRMCRNTTIME(crntTime, toFill, dcr) \
330 if (crntTime.sfn == 0) \
332 if ((crntTime.slot - (dcr)) < 0) \
334 toFill.sfn = RG_MAX_SFN - 1; \
338 toFill.sfn = crntTime.sfn; \
343 if ((crntTime.slot - (dcr)) < 0) \
345 toFill.sfn = crntTime.sfn - 1; \
348 toFill.sfn = crntTime.sfn; \
350 toFill.slot = (RG_NUM_SUB_FRAMES_5G + crntTime.slot - (dcr)) % (RG_NUM_SUB_FRAMES_5G); \
353 #define RGCPYTIMEINFO(src, dst) \
356 #define RG_TIMEINFO_SAME(x, y) ((x.sfn == y.sfn) && (x.slot == y.slot))
359 #define rgPBuf(_inst) rgCb[_inst].rgInit.prntBuf
361 /* Debug Prints for MAC */
363 #define RGDBGERRNEW(_inst,_args) \
364 DBGP(&rgCb[_inst].rgInit, RGLAYERNAME, DBGMASK_ERR, _args)
365 #define RGDBGINFONEW(_inst,_args) \
366 DBGP(&rgCb[_inst].rgInit, RGLAYERNAME, DBGMASK_INFO, _args)
368 #define RGDBGERRNEW(_inst,_args)
369 #define RGDBGINFONEW(_inst,_args)
370 #endif /* #ifdef DEBUGP */
371 #define RGDBGPRM(_inst,_args)
372 #define RGDBGERR(_inst,_args)
373 #define RGDBGINFO(_inst,_args)
376 #define RG_NULL_CHECK(_inst, _ptr ) \
377 if((_ptr) == NULLP) \
379 DU_LOG("\nERROR --> MAC : Null Pointer detected");\
382 #define RG_ARRAY_BOUND_CHECK(_inst, _array, _idxVal) \
383 if((_idxVal) >= (sizeof(_array)/sizeof(_array[0]))) \
385 DU_LOG("\nERROR --> MAC : Array Bound Check Failed");\
389 #define RG_NULL_CHECK(_inst, _ptr )
390 #define RG_ARRAY_BOUND_CHECK(_inst, _array, _idxVal)
393 /* Macro to free the message buffer and initialize it to zero */
394 /***********************************************************
398 * Desc : Macro to free the message buffer and initialize it to zero
400 * Input : mBuf - message buffer pointer to be retunrned
406 **********************************************************/
407 #define RG_FREE_MSG(_buf)\
409 if (NULLP != (_buf)) \
416 #define RG_FREE_MEM(_mem)\
418 if (NULLP != (_mem)) \
426 #define RG_FREE_TB(_tb)\
428 uint32_t lchIdx, pduIdx;\
429 SResetMBuf(_tb->macHdr);\
430 SResetMBuf(_tb->macCes);\
431 _tb->tbPres = FALSE;\
434 for(lchIdx = 0; lchIdx < _tb->numLch; lchIdx++) \
436 for(pduIdx = 0; pduIdx < _tb->lchInfo[lchIdx].numPdu; pduIdx++)\
438 if(_tb->lchInfo[lchIdx].mBuf[pduIdx] != NULL)\
440 SPutMsg(_tb->lchInfo[lchIdx].mBuf[pduIdx]);\
441 _tb->lchInfo[lchIdx].freeBuff = FALSE;\
443 _tb->lchInfo[lchIdx].mBuf[pduIdx] = NULL;\
445 _tb->lchInfo[lchIdx].numPdu = 0;\
450 #define RG_FREE_SAVED_TB(_tb)\
452 uint32_t lchIdx, pduIdx;\
453 RG_FREE_MSG(_tb->macHdr);\
454 RG_FREE_MSG(_tb->macCes);\
455 _tb->tbPres = FALSE;\
458 for(lchIdx = 0; lchIdx < 10; lchIdx++) \
460 for(pduIdx = 0; pduIdx < 4; pduIdx++)\
462 if(_tb->lchInfo[lchIdx].freeBuff == TRUE)\
464 SPutMsg(_tb->lchInfo[lchIdx].mBuf[pduIdx]);\
465 _tb->lchInfo[lchIdx].freeBuff = FALSE;\
467 _tb->lchInfo[lchIdx].mBuf[pduIdx] = NULL;\
469 _tb->lchInfo[lchIdx].numPdu = 0;\
476 /***********************************************************
478 * Name : RG_DROP_RGUDDATREQ_MBUF
480 * Desc : Macro to free the message buffers and initialize them to zero
482 * Input : _datreq - Dedicated Data Request pointer which has mBufs
489 **********************************************************/
490 #define RG_DROP_RGUDDATREQ_MBUF(_datReq)\
492 uint32_t idx5,idx6,idx7;\
493 for (idx5=0; idx5 < _datReq.nmbOfTbs; idx5++)\
495 for (idx6=0; idx6 < _datReq.datReqTb[idx5].nmbLch; idx6++)\
498 idx7 < _datReq.datReqTb[idx5].lchData[idx6].pdu.numPdu; \
501 RG_FREE_MSG(_datReq.datReqTb[idx5].\
502 lchData[idx6].pdu.mBuf[idx7]);\
508 /***********************************************************
510 * Name : RG_DROP_RGUCDATREQ_MBUF
512 * Desc : Macro to free the message buffers and initialize them to zero
514 * Input : _datreq - Common Data Request pointer which has mBufs
521 **********************************************************/
522 #define RG_DROP_RGUCDATREQ_MBUF(_datReq)\
524 if (_datReq != NULLP)\
526 RG_FREE_MSG(_datReq->pdu);\
531 #define RG_UPD_GBR_PRB(_cellCb, _qci, _prbUsed) {\
532 if(_qci <= RG_MAX_QCI_REPORTS)\
534 _cellCb->qcisUlPrbCnt[_qci-1] += _prbUsed;\
539 /* Macros for memory region and pool determination */
540 #define RG_GET_MEM_REGION(rgCb) (rgCb.rgInit.region)
541 #define RG_GET_MEM_POOL(rgCb) (rgCb.rgInit.pool)
544 /* MUX related macros */
545 #define RG_RAR_SHDR_LEN 1
546 #define RG_RAR_ELEM_LEN 6
547 #define RG_MAX_SDU_SUB_HDR_LEN 3
548 #define RG_MAX_PAD_ARR_SZ 4096 /* Changing from 400 to 4096 */
549 #define RG_PAD_BYTE 0x00
551 #define RG_HDR_TYPE_CRES 1
552 #define RG_HDR_TYPE_TA 2
554 #define RG_HDR_TYPE_SCELL_ACT 3
557 #define RG_SDU_SHDR_LEN 1
558 #define RG_FIXDSZ_CE_SHDR_LEN 1
559 #define RG_PAD_SHDR_LEN 1
560 #define RG_CRES_LEN 6
563 #define RG_SCELL_ACT_CE_LEN 1
564 #define RG_SCELL_CE_ELM_LEN (RG_FIXDSZ_CE_SHDR_LEN+RG_SCELL_ACT_CE_LEN)
566 #define RG_CRES_ELM_LEN (RG_FIXDSZ_CE_SHDR_LEN+RG_CRES_LEN)
567 #define RG_TA_ELM_LEN (RG_FIXDSZ_CE_SHDR_LEN+RG_TA_LEN)
570 /* Values of below macros not yet defined in 5G-NR hence using LTE values till
573 #define RG_CRES_LCID_IDX 0x1C
574 #define RG_TA_LCID_IDX 0x1D
576 #define RG_SCELL_LCID_IDX 0x1B
578 #define RG_PAD_LCID_IDX 0x3F
580 /* Structure member offset computation macro */
581 #define OffsetOf(type, field) \
582 (PTR) (&(((type *) NULLP)->field))
584 #define RG_MAX_SUBFRAMES_IN_SFN 9
585 #define RG_MAX_SFN 1024
587 #define RG_NUM_SUB_FRAMES 50
589 #define RG_NUM_SUB_FRAMES 10
591 #define RG_NUM_SUB_FRAMES_5G 50
593 #define RG_MAX_QCI_REPORTS 4
597 #define RG_NUM_UL_SUB_FRAMES 16
598 #define RG_MAX_QCI_VALUE 10
600 #ifdef EIGHT_UE_PER_TTI_CHANGES
601 /* Tuned according to TDD Cfg Mode2 and 2UE/TTI.
602 * * Need to tune if NumUE/TTI is increased */
603 #define RG_MAX_DFRD_FREE_BUFS 64 /* 64 - 8UE/TTI */
604 #define RG_MAX_FREE_BUFS_PERTTI 16 /* 16 - 8UE/TTI */
607 #define RG_CALC_SF_DIFF(_time1, _time2)\
608 (_time1.sfn*RG_NUM_SUB_FRAMES_5G+_time1.slot) < (_time2.sfn*RG_NUM_SUB_FRAMES_5G+_time2.slot)?\
609 ((_time1.sfn+RG_MAX_SFN)*RG_NUM_SUB_FRAMES_5G+_time1.slot) -\
610 (_time2.sfn*RG_NUM_SUB_FRAMES_5G+_time2.slot) : \
611 (_time1.sfn*RG_NUM_SUB_FRAMES_5G+_time1.slot) - (_time2.sfn*RG_NUM_SUB_FRAMES_5G+_time2.slot)
613 #define RG_TTI_CYCLE_INVLD 0xFFFFFFFF
614 #define RG_CALC_TTI_CNT(_cellCb, _ttiCnt)\
615 _ttiCnt = (RG_NUM_SUB_FRAMES_5G * (_cellCb->crntTime.sfn + (_cellCb->ttiCycle * 1024)) )+\
616 _cellCb->crntTime.slot;
617 #endif /* LTE_L2_MEAS */
619 /* Tuned according to TDD Cfg Mode2 and 2UE/TTI.
620 * Need to tune if NumUE/TTI is increased */
621 #define RG_MAX_DFRD_FREE_BUFS 32 /* 16- 2 UE per TTI 32 - 4UE/TTI */
622 #define RG_MAX_FREE_BUFS_PERTTI 8 /* 4 - 2 Ue per TTI, 8 - 4UE/TTI */
625 /* Define for the block size for memory allocation */
626 /* RG_BLKSZ changed from 2048 to 1500*/
627 #define RG_BLKSZ 1500
629 /* Defines for RGU Statistics types */
630 #define RG_RGU_SDU_DROP 1
631 #define RG_RGU_SDU_RCVD 2
633 /* MACROS for General Statistics */
637 #define RG_HQ_FDB_IND_CB_TYPE_HQ_ENT 1
638 #define RG_HQ_FDB_IND_CB_TYPE_RA_CB 2
640 /* MACRO for validating the mac instance id */
641 #define RG_IS_INST_VALID(_inst)\
643 if(_inst >= RG_MAX_INST)\
650 * Removed unused hash-define which defines the
651 * index for releasing the subframe.
654 /* Value used to set nDmrs in uplink grant if nDmrs is not applicable */
655 #define RG_INVALID_NDMRS 10
657 #define RG_SEND_TRC_IND(_inst,_mBuf, _event) rgLMMTrcInd(_inst,_mBuf, _event)
659 /* Note: Any changes to these enums should reflect to */
660 /** @details Enums for special argument
669 #define RG_DIAG_LVL0(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
671 if(rgCb[_inst].rgInit.logMask & SS_DIAG_LVL0) \
673 ssDiagFix(_tknId, _splArgEnum, ENTMAC, rgCb[_inst].rgInit.inst, SS_DIAG_LVL0, SS_DIAG_MSG_TYPE_FIXED, _splArg, _arg1, _arg2, _arg3, _arg4, _string);\
677 /** @details Macro definition for LTE-MAC error logs
680 #define RG_DIAG_LVL1(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
682 if(rgCb[_inst].rgInit.logMask & SS_DIAG_LVL1) \
684 ssDiagFix(_tknId, _splArgEnum, ENTMAC, rgCb[_inst].rgInit.inst, SS_DIAG_LVL1, SS_DIAG_MSG_TYPE_FIXED, _splArg, _arg1, _arg2, _arg3, _arg4, _string);\
688 /** @details Macro definition for LTE-MAC critical logs
691 #define RG_DIAG_LVL2(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
693 if(rgCb[_inst].rgInit.logMask & SS_DIAG_LVL2) \
695 ssDiagFix(_tknId, _splArgEnum, ENTMAC, rgCb[_inst].rgInit.inst, SS_DIAG_LVL2, SS_DIAG_MSG_TYPE_FIXED, _splArg, _arg1, _arg2, _arg3, _arg4, _string);\
699 /** @details Macro definition for LTE-MAC logs
702 #define RG_DIAG_LVL3(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
704 if(rgCb[_inst].rgInit.logMask & SS_DIAG_LVL3) \
706 ssDiagFix(_tknId, _splArgEnum, ENTMAC, rgCb[_inst].rgInit.inst, SS_DIAG_LVL3, SS_DIAG_MSG_TYPE_FIXED, _splArg, _arg1, _arg2, _arg3, _arg4, _string);\
710 /** @details Macro definition for LTE-MAC logs
713 #define RG_DIAG_LVL4(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
715 if(rgCb[_inst].rgInit.logMask & SS_DIAG_LVL4) \
717 ssDiagFix(_tknId, _splArgEnum, ENTMAC, rgCb[_inst].rgInit.inst, SS_DIAG_LVL4, SS_DIAG_MSG_TYPE_FIXED, _splArg, _arg1, _arg2, _arg3, _arg4, _string);\
723 #define RG_DIAG_LVL0(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
727 /** @details Macro definition for LTE-MAC error logs
730 #define RG_DIAG_LVL1(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
734 /** @details Macro definition for LTE-MAC critical logs
737 #define RG_DIAG_LVL2(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
741 /** @details Macro definition for LTE-MAC logs
744 #define RG_DIAG_LVL3(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
748 /** @details Macro definition for LTE-MAC logs
751 #define RG_DIAG_LVL4(_inst,_tknId, _splArgEnum, _splArg, _string, _arg1, _arg2, _arg3, _arg4) \
757 /**********************************************************************
759 **********************************************************************/