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|
/* bnx2x_reg.h: Broadcom Everest network driver.
*
* Copyright (c) 2007-2009 Broadcom Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation.
*
* The registers description starts with the register Access type followed
* by size in bits. For example [RW 32]. The access types are:
* R - Read only
* RC - Clear on read
* RW - Read/Write
* ST - Statistics register (clear on read)
* W - Write only
* WB - Wide bus register - the size is over 32 bits and it should be
* read/write in consecutive 32 bits accesses
* WR - Write Clear (write 1 to clear the bit)
*
*/
/* [R 19] Interrupt register #0 read */
#define BRB1_REG_BRB1_INT_STS 0x6011c
/* [RW 4] Parity mask register #0 read/write */
#define BRB1_REG_BRB1_PRTY_MASK 0x60138
/* [R 4] Parity register #0 read */
#define BRB1_REG_BRB1_PRTY_STS 0x6012c
/* [RW 10] At address BRB1_IND_FREE_LIST_PRS_CRDT initialize free head. At
address BRB1_IND_FREE_LIST_PRS_CRDT+1 initialize free tail. At address
BRB1_IND_FREE_LIST_PRS_CRDT+2 initialize parser initial credit. */
#define BRB1_REG_FREE_LIST_PRS_CRDT 0x60200
/* [RW 10] The number of free blocks above which the High_llfc signal to
interface #n is de-asserted. */
#define BRB1_REG_HIGH_LLFC_HIGH_THRESHOLD_0 0x6014c
/* [RW 10] The number of free blocks below which the High_llfc signal to
interface #n is asserted. */
#define BRB1_REG_HIGH_LLFC_LOW_THRESHOLD_0 0x6013c
/* [RW 23] LL RAM data. */
#define BRB1_REG_LL_RAM 0x61000
/* [RW 10] The number of free blocks above which the Low_llfc signal to
interface #n is de-asserted. */
#define BRB1_REG_LOW_LLFC_HIGH_THRESHOLD_0 0x6016c
/* [RW 10] The number of free blocks below which the Low_llfc signal to
interface #n is asserted. */
#define BRB1_REG_LOW_LLFC_LOW_THRESHOLD_0 0x6015c
/* [R 24] The number of full blocks. */
#define BRB1_REG_NUM_OF_FULL_BLOCKS 0x60090
/* [ST 32] The number of cycles that the write_full signal towards MAC #0
was asserted. */
#define BRB1_REG_NUM_OF_FULL_CYCLES_0 0x600c8
#define BRB1_REG_NUM_OF_FULL_CYCLES_1 0x600cc
#define BRB1_REG_NUM_OF_FULL_CYCLES_4 0x600d8
/* [ST 32] The number of cycles that the pause signal towards MAC #0 was
asserted. */
#define BRB1_REG_NUM_OF_PAUSE_CYCLES_0 0x600b8
#define BRB1_REG_NUM_OF_PAUSE_CYCLES_1 0x600bc
/* [RW 10] Write client 0: De-assert pause threshold. */
#define BRB1_REG_PAUSE_HIGH_THRESHOLD_0 0x60078
#define BRB1_REG_PAUSE_HIGH_THRESHOLD_1 0x6007c
/* [RW 10] Write client 0: Assert pause threshold. */
#define BRB1_REG_PAUSE_LOW_THRESHOLD_0 0x60068
#define BRB1_REG_PAUSE_LOW_THRESHOLD_1 0x6006c
/* [R 24] The number of full blocks occupied by port. */
#define BRB1_REG_PORT_NUM_OCC_BLOCKS_0 0x60094
/* [RW 1] Reset the design by software. */
#define BRB1_REG_SOFT_RESET 0x600dc
/* [R 5] Used to read the value of the XX protection CAM occupancy counter. */
#define CCM_REG_CAM_OCCUP 0xd0188
/* [RW 1] CM - CFC Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_CCM_CFC_IFEN 0xd003c
/* [RW 1] CM - QM Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_CCM_CQM_IFEN 0xd000c
/* [RW 1] If set the Q index; received from the QM is inserted to event ID.
Otherwise 0 is inserted. */
#define CCM_REG_CCM_CQM_USE_Q 0xd00c0
/* [RW 11] Interrupt mask register #0 read/write */
#define CCM_REG_CCM_INT_MASK 0xd01e4
/* [R 11] Interrupt register #0 read */
#define CCM_REG_CCM_INT_STS 0xd01d8
/* [R 27] Parity register #0 read */
#define CCM_REG_CCM_PRTY_STS 0xd01e8
/* [RW 3] The size of AG context region 0 in REG-pairs. Designates the MS
REG-pair number (e.g. if region 0 is 6 REG-pairs; the value should be 5).
Is used to determine the number of the AG context REG-pairs written back;
when the input message Reg1WbFlg isn't set. */
#define CCM_REG_CCM_REG0_SZ 0xd00c4
/* [RW 1] CM - STORM 0 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_CCM_STORM0_IFEN 0xd0004
/* [RW 1] CM - STORM 1 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_CCM_STORM1_IFEN 0xd0008
/* [RW 1] CDU AG read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define CCM_REG_CDU_AG_RD_IFEN 0xd0030
/* [RW 1] CDU AG write Interface enable. If 0 - the request and valid input
are disregarded; all other signals are treated as usual; if 1 - normal
activity. */
#define CCM_REG_CDU_AG_WR_IFEN 0xd002c
/* [RW 1] CDU STORM read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define CCM_REG_CDU_SM_RD_IFEN 0xd0038
/* [RW 1] CDU STORM write Interface enable. If 0 - the request and valid
input is disregarded; all other signals are treated as usual; if 1 -
normal activity. */
#define CCM_REG_CDU_SM_WR_IFEN 0xd0034
/* [RW 4] CFC output initial credit. Max credit available - 15.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 1 at start-up. */
#define CCM_REG_CFC_INIT_CRD 0xd0204
/* [RW 2] Auxillary counter flag Q number 1. */
#define CCM_REG_CNT_AUX1_Q 0xd00c8
/* [RW 2] Auxillary counter flag Q number 2. */
#define CCM_REG_CNT_AUX2_Q 0xd00cc
/* [RW 28] The CM header value for QM request (primary). */
#define CCM_REG_CQM_CCM_HDR_P 0xd008c
/* [RW 28] The CM header value for QM request (secondary). */
#define CCM_REG_CQM_CCM_HDR_S 0xd0090
/* [RW 1] QM - CM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_CQM_CCM_IFEN 0xd0014
/* [RW 6] QM output initial credit. Max credit available - 32. Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 32 at start-up. */
#define CCM_REG_CQM_INIT_CRD 0xd020c
/* [RW 3] The weight of the QM (primary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_CQM_P_WEIGHT 0xd00b8
/* [RW 3] The weight of the QM (secondary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_CQM_S_WEIGHT 0xd00bc
/* [RW 1] Input SDM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_CSDM_IFEN 0xd0018
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the SDM interface is detected. */
#define CCM_REG_CSDM_LENGTH_MIS 0xd0170
/* [RW 3] The weight of the SDM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_CSDM_WEIGHT 0xd00b4
/* [RW 28] The CM header for QM formatting in case of an error in the QM
inputs. */
#define CCM_REG_ERR_CCM_HDR 0xd0094
/* [RW 8] The Event ID in case the input message ErrorFlg is set. */
#define CCM_REG_ERR_EVNT_ID 0xd0098
/* [RW 8] FIC0 output initial credit. Max credit available - 255. Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define CCM_REG_FIC0_INIT_CRD 0xd0210
/* [RW 8] FIC1 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define CCM_REG_FIC1_INIT_CRD 0xd0214
/* [RW 1] Arbitration between Input Arbiter groups: 0 - fair Round-Robin; 1
- strict priority defined by ~ccm_registers_gr_ag_pr.gr_ag_pr;
~ccm_registers_gr_ld0_pr.gr_ld0_pr and
~ccm_registers_gr_ld1_pr.gr_ld1_pr. Groups are according to channels and
outputs to STORM: aggregation; load FIC0; load FIC1 and store. */
#define CCM_REG_GR_ARB_TYPE 0xd015c
/* [RW 2] Load (FIC0) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed; that the Store channel priority is
the compliment to 4 of the rest priorities - Aggregation channel; Load
(FIC0) channel and Load (FIC1). */
#define CCM_REG_GR_LD0_PR 0xd0164
/* [RW 2] Load (FIC1) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed; that the Store channel priority is
the compliment to 4 of the rest priorities - Aggregation channel; Load
(FIC0) channel and Load (FIC1). */
#define CCM_REG_GR_LD1_PR 0xd0168
/* [RW 2] General flags index. */
#define CCM_REG_INV_DONE_Q 0xd0108
/* [RW 4] The number of double REG-pairs(128 bits); loaded from the STORM
context and sent to STORM; for a specific connection type. The double
REG-pairs are used in order to align to STORM context row size of 128
bits. The offset of these data in the STORM context is always 0. Index
_(0..15) stands for the connection type (one of 16). */
#define CCM_REG_N_SM_CTX_LD_0 0xd004c
#define CCM_REG_N_SM_CTX_LD_1 0xd0050
#define CCM_REG_N_SM_CTX_LD_2 0xd0054
#define CCM_REG_N_SM_CTX_LD_3 0xd0058
#define CCM_REG_N_SM_CTX_LD_4 0xd005c
/* [RW 1] Input pbf Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define CCM_REG_PBF_IFEN 0xd0028
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the pbf interface is detected. */
#define CCM_REG_PBF_LENGTH_MIS 0xd0180
/* [RW 3] The weight of the input pbf in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_PBF_WEIGHT 0xd00ac
#define CCM_REG_PHYS_QNUM1_0 0xd0134
#define CCM_REG_PHYS_QNUM1_1 0xd0138
#define CCM_REG_PHYS_QNUM2_0 0xd013c
#define CCM_REG_PHYS_QNUM2_1 0xd0140
#define CCM_REG_PHYS_QNUM3_0 0xd0144
#define CCM_REG_PHYS_QNUM3_1 0xd0148
#define CCM_REG_QOS_PHYS_QNUM0_0 0xd0114
#define CCM_REG_QOS_PHYS_QNUM0_1 0xd0118
#define CCM_REG_QOS_PHYS_QNUM1_0 0xd011c
#define CCM_REG_QOS_PHYS_QNUM1_1 0xd0120
#define CCM_REG_QOS_PHYS_QNUM2_0 0xd0124
#define CCM_REG_QOS_PHYS_QNUM2_1 0xd0128
#define CCM_REG_QOS_PHYS_QNUM3_0 0xd012c
#define CCM_REG_QOS_PHYS_QNUM3_1 0xd0130
/* [RW 1] STORM - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define CCM_REG_STORM_CCM_IFEN 0xd0010
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the STORM interface is detected. */
#define CCM_REG_STORM_LENGTH_MIS 0xd016c
/* [RW 3] The weight of the STORM input in the WRR (Weighted Round robin)
mechanism. 0 stands for weight 8 (the most prioritised); 1 stands for
weight 1(least prioritised); 2 stands for weight 2 (more prioritised);
tc. */
#define CCM_REG_STORM_WEIGHT 0xd009c
/* [RW 1] Input tsem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define CCM_REG_TSEM_IFEN 0xd001c
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the tsem interface is detected. */
#define CCM_REG_TSEM_LENGTH_MIS 0xd0174
/* [RW 3] The weight of the input tsem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_TSEM_WEIGHT 0xd00a0
/* [RW 1] Input usem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define CCM_REG_USEM_IFEN 0xd0024
/* [RC 1] Set when message length mismatch (relative to last indication) at
the usem interface is detected. */
#define CCM_REG_USEM_LENGTH_MIS 0xd017c
/* [RW 3] The weight of the input usem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_USEM_WEIGHT 0xd00a8
/* [RW 1] Input xsem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define CCM_REG_XSEM_IFEN 0xd0020
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the xsem interface is detected. */
#define CCM_REG_XSEM_LENGTH_MIS 0xd0178
/* [RW 3] The weight of the input xsem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define CCM_REG_XSEM_WEIGHT 0xd00a4
/* [RW 19] Indirect access to the descriptor table of the XX protection
mechanism. The fields are: [5:0] - message length; [12:6] - message
pointer; 18:13] - next pointer. */
#define CCM_REG_XX_DESCR_TABLE 0xd0300
#define CCM_REG_XX_DESCR_TABLE_SIZE 36
/* [R 7] Used to read the value of XX protection Free counter. */
#define CCM_REG_XX_FREE 0xd0184
/* [RW 6] Initial value for the credit counter; responsible for fulfilling
of the Input Stage XX protection buffer by the XX protection pending
messages. Max credit available - 127. Write writes the initial credit
value; read returns the current value of the credit counter. Must be
initialized to maximum XX protected message size - 2 at start-up. */
#define CCM_REG_XX_INIT_CRD 0xd0220
/* [RW 7] The maximum number of pending messages; which may be stored in XX
protection. At read the ~ccm_registers_xx_free.xx_free counter is read.
At write comprises the start value of the ~ccm_registers_xx_free.xx_free
counter. */
#define CCM_REG_XX_MSG_NUM 0xd0224
/* [RW 8] The Event ID; sent to the STORM in case of XX overflow. */
#define CCM_REG_XX_OVFL_EVNT_ID 0xd0044
/* [RW 18] Indirect access to the XX table of the XX protection mechanism.
The fields are: [5:0] - tail pointer; 11:6] - Link List size; 17:12] -
header pointer. */
#define CCM_REG_XX_TABLE 0xd0280
#define CDU_REG_CDU_CHK_MASK0 0x101000
#define CDU_REG_CDU_CHK_MASK1 0x101004
#define CDU_REG_CDU_CONTROL0 0x101008
#define CDU_REG_CDU_DEBUG 0x101010
#define CDU_REG_CDU_GLOBAL_PARAMS 0x101020
/* [RW 7] Interrupt mask register #0 read/write */
#define CDU_REG_CDU_INT_MASK 0x10103c
/* [R 7] Interrupt register #0 read */
#define CDU_REG_CDU_INT_STS 0x101030
/* [RW 5] Parity mask register #0 read/write */
#define CDU_REG_CDU_PRTY_MASK 0x10104c
/* [R 5] Parity register #0 read */
#define CDU_REG_CDU_PRTY_STS 0x101040
/* [RC 32] logging of error data in case of a CDU load error:
{expected_cid[15:0]; xpected_type[2:0]; xpected_region[2:0]; ctive_error;
ype_error; ctual_active; ctual_compressed_context}; */
#define CDU_REG_ERROR_DATA 0x101014
/* [WB 216] L1TT ram access. each entry has the following format :
{mrege_regions[7:0]; ffset12[5:0]...offset0[5:0];
ength12[5:0]...length0[5:0]; d12[3:0]...id0[3:0]} */
#define CDU_REG_L1TT 0x101800
/* [WB 24] MATT ram access. each entry has the following
format:{RegionLength[11:0]; egionOffset[11:0]} */
#define CDU_REG_MATT 0x101100
/* [RW 1] when this bit is set the CDU operates in e1hmf mode */
#define CDU_REG_MF_MODE 0x101050
/* [R 1] indication the initializing the activity counter by the hardware
was done. */
#define CFC_REG_AC_INIT_DONE 0x104078
/* [RW 13] activity counter ram access */
#define CFC_REG_ACTIVITY_COUNTER 0x104400
#define CFC_REG_ACTIVITY_COUNTER_SIZE 256
/* [R 1] indication the initializing the cams by the hardware was done. */
#define CFC_REG_CAM_INIT_DONE 0x10407c
/* [RW 2] Interrupt mask register #0 read/write */
#define CFC_REG_CFC_INT_MASK 0x104108
/* [R 2] Interrupt register #0 read */
#define CFC_REG_CFC_INT_STS 0x1040fc
/* [RC 2] Interrupt register #0 read clear */
#define CFC_REG_CFC_INT_STS_CLR 0x104100
/* [RW 4] Parity mask register #0 read/write */
#define CFC_REG_CFC_PRTY_MASK 0x104118
/* [R 4] Parity register #0 read */
#define CFC_REG_CFC_PRTY_STS 0x10410c
/* [RW 21] CID cam access (21:1 - Data; alid - 0) */
#define CFC_REG_CID_CAM 0x104800
#define CFC_REG_CONTROL0 0x104028
#define CFC_REG_DEBUG0 0x104050
/* [RW 14] indicates per error (in #cfc_registers_cfc_error_vector.cfc_error
vector) whether the cfc should be disabled upon it */
#define CFC_REG_DISABLE_ON_ERROR 0x104044
/* [RC 14] CFC error vector. when the CFC detects an internal error it will
set one of these bits. the bit description can be found in CFC
specifications */
#define CFC_REG_ERROR_VECTOR 0x10403c
/* [WB 93] LCID info ram access */
#define CFC_REG_INFO_RAM 0x105000
#define CFC_REG_INFO_RAM_SIZE 1024
#define CFC_REG_INIT_REG 0x10404c
#define CFC_REG_INTERFACES 0x104058
/* [RW 24] {weight_load_client7[2:0] to weight_load_client0[2:0]}. this
field allows changing the priorities of the weighted-round-robin arbiter
which selects which CFC load client should be served next */
#define CFC_REG_LCREQ_WEIGHTS 0x104084
/* [RW 16] Link List ram access; data = {prev_lcid; ext_lcid} */
#define CFC_REG_LINK_LIST 0x104c00
#define CFC_REG_LINK_LIST_SIZE 256
/* [R 1] indication the initializing the link list by the hardware was done. */
#define CFC_REG_LL_INIT_DONE 0x104074
/* [R 9] Number of allocated LCIDs which are at empty state */
#define CFC_REG_NUM_LCIDS_ALLOC 0x104020
/* [R 9] Number of Arriving LCIDs in Link List Block */
#define CFC_REG_NUM_LCIDS_ARRIVING 0x104004
/* [R 9] Number of Leaving LCIDs in Link List Block */
#define CFC_REG_NUM_LCIDS_LEAVING 0x104018
/* [RW 8] The event id for aggregated interrupt 0 */
#define CSDM_REG_AGG_INT_EVENT_0 0xc2038
#define CSDM_REG_AGG_INT_EVENT_10 0xc2060
#define CSDM_REG_AGG_INT_EVENT_11 0xc2064
#define CSDM_REG_AGG_INT_EVENT_12 0xc2068
#define CSDM_REG_AGG_INT_EVENT_13 0xc206c
#define CSDM_REG_AGG_INT_EVENT_14 0xc2070
#define CSDM_REG_AGG_INT_EVENT_15 0xc2074
#define CSDM_REG_AGG_INT_EVENT_16 0xc2078
#define CSDM_REG_AGG_INT_EVENT_2 0xc2040
#define CSDM_REG_AGG_INT_EVENT_3 0xc2044
#define CSDM_REG_AGG_INT_EVENT_4 0xc2048
#define CSDM_REG_AGG_INT_EVENT_5 0xc204c
#define CSDM_REG_AGG_INT_EVENT_6 0xc2050
#define CSDM_REG_AGG_INT_EVENT_7 0xc2054
#define CSDM_REG_AGG_INT_EVENT_8 0xc2058
#define CSDM_REG_AGG_INT_EVENT_9 0xc205c
/* [RW 1] For each aggregated interrupt index whether the mode is normal (0)
or auto-mask-mode (1) */
#define CSDM_REG_AGG_INT_MODE_10 0xc21e0
#define CSDM_REG_AGG_INT_MODE_11 0xc21e4
#define CSDM_REG_AGG_INT_MODE_12 0xc21e8
#define CSDM_REG_AGG_INT_MODE_13 0xc21ec
#define CSDM_REG_AGG_INT_MODE_14 0xc21f0
#define CSDM_REG_AGG_INT_MODE_15 0xc21f4
#define CSDM_REG_AGG_INT_MODE_16 0xc21f8
#define CSDM_REG_AGG_INT_MODE_6 0xc21d0
#define CSDM_REG_AGG_INT_MODE_7 0xc21d4
#define CSDM_REG_AGG_INT_MODE_8 0xc21d8
#define CSDM_REG_AGG_INT_MODE_9 0xc21dc
/* [RW 13] The start address in the internal RAM for the cfc_rsp lcid */
#define CSDM_REG_CFC_RSP_START_ADDR 0xc2008
/* [RW 16] The maximum value of the competion counter #0 */
#define CSDM_REG_CMP_COUNTER_MAX0 0xc201c
/* [RW 16] The maximum value of the competion counter #1 */
#define CSDM_REG_CMP_COUNTER_MAX1 0xc2020
/* [RW 16] The maximum value of the competion counter #2 */
#define CSDM_REG_CMP_COUNTER_MAX2 0xc2024
/* [RW 16] The maximum value of the competion counter #3 */
#define CSDM_REG_CMP_COUNTER_MAX3 0xc2028
/* [RW 13] The start address in the internal RAM for the completion
counters. */
#define CSDM_REG_CMP_COUNTER_START_ADDR 0xc200c
/* [RW 32] Interrupt mask register #0 read/write */
#define CSDM_REG_CSDM_INT_MASK_0 0xc229c
#define CSDM_REG_CSDM_INT_MASK_1 0xc22ac
/* [R 32] Interrupt register #0 read */
#define CSDM_REG_CSDM_INT_STS_0 0xc2290
#define CSDM_REG_CSDM_INT_STS_1 0xc22a0
/* [RW 11] Parity mask register #0 read/write */
#define CSDM_REG_CSDM_PRTY_MASK 0xc22bc
/* [R 11] Parity register #0 read */
#define CSDM_REG_CSDM_PRTY_STS 0xc22b0
#define CSDM_REG_ENABLE_IN1 0xc2238
#define CSDM_REG_ENABLE_IN2 0xc223c
#define CSDM_REG_ENABLE_OUT1 0xc2240
#define CSDM_REG_ENABLE_OUT2 0xc2244
/* [RW 4] The initial number of messages that can be sent to the pxp control
interface without receiving any ACK. */
#define CSDM_REG_INIT_CREDIT_PXP_CTRL 0xc24bc
/* [ST 32] The number of ACK after placement messages received */
#define CSDM_REG_NUM_OF_ACK_AFTER_PLACE 0xc227c
/* [ST 32] The number of packet end messages received from the parser */
#define CSDM_REG_NUM_OF_PKT_END_MSG 0xc2274
/* [ST 32] The number of requests received from the pxp async if */
#define CSDM_REG_NUM_OF_PXP_ASYNC_REQ 0xc2278
/* [ST 32] The number of commands received in queue 0 */
#define CSDM_REG_NUM_OF_Q0_CMD 0xc2248
/* [ST 32] The number of commands received in queue 10 */
#define CSDM_REG_NUM_OF_Q10_CMD 0xc226c
/* [ST 32] The number of commands received in queue 11 */
#define CSDM_REG_NUM_OF_Q11_CMD 0xc2270
/* [ST 32] The number of commands received in queue 1 */
#define CSDM_REG_NUM_OF_Q1_CMD 0xc224c
/* [ST 32] The number of commands received in queue 3 */
#define CSDM_REG_NUM_OF_Q3_CMD 0xc2250
/* [ST 32] The number of commands received in queue 4 */
#define CSDM_REG_NUM_OF_Q4_CMD 0xc2254
/* [ST 32] The number of commands received in queue 5 */
#define CSDM_REG_NUM_OF_Q5_CMD 0xc2258
/* [ST 32] The number of commands received in queue 6 */
#define CSDM_REG_NUM_OF_Q6_CMD 0xc225c
/* [ST 32] The number of commands received in queue 7 */
#define CSDM_REG_NUM_OF_Q7_CMD 0xc2260
/* [ST 32] The number of commands received in queue 8 */
#define CSDM_REG_NUM_OF_Q8_CMD 0xc2264
/* [ST 32] The number of commands received in queue 9 */
#define CSDM_REG_NUM_OF_Q9_CMD 0xc2268
/* [RW 13] The start address in the internal RAM for queue counters */
#define CSDM_REG_Q_COUNTER_START_ADDR 0xc2010
/* [R 1] pxp_ctrl rd_data fifo empty in sdm_dma_rsp block */
#define CSDM_REG_RSP_PXP_CTRL_RDATA_EMPTY 0xc2548
/* [R 1] parser fifo empty in sdm_sync block */
#define CSDM_REG_SYNC_PARSER_EMPTY 0xc2550
/* [R 1] parser serial fifo empty in sdm_sync block */
#define CSDM_REG_SYNC_SYNC_EMPTY 0xc2558
/* [RW 32] Tick for timer counter. Applicable only when
~csdm_registers_timer_tick_enable.timer_tick_enable =1 */
#define CSDM_REG_TIMER_TICK 0xc2000
/* [RW 5] The number of time_slots in the arbitration cycle */
#define CSEM_REG_ARB_CYCLE_SIZE 0x200034
/* [RW 3] The source that is associated with arbitration element 0. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2 */
#define CSEM_REG_ARB_ELEMENT0 0x200020
/* [RW 3] The source that is associated with arbitration element 1. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~csem_registers_arb_element0.arb_element0 */
#define CSEM_REG_ARB_ELEMENT1 0x200024
/* [RW 3] The source that is associated with arbitration element 2. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~csem_registers_arb_element0.arb_element0
and ~csem_registers_arb_element1.arb_element1 */
#define CSEM_REG_ARB_ELEMENT2 0x200028
/* [RW 3] The source that is associated with arbitration element 3. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.Could
not be equal to register ~csem_registers_arb_element0.arb_element0 and
~csem_registers_arb_element1.arb_element1 and
~csem_registers_arb_element2.arb_element2 */
#define CSEM_REG_ARB_ELEMENT3 0x20002c
/* [RW 3] The source that is associated with arbitration element 4. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~csem_registers_arb_element0.arb_element0
and ~csem_registers_arb_element1.arb_element1 and
~csem_registers_arb_element2.arb_element2 and
~csem_registers_arb_element3.arb_element3 */
#define CSEM_REG_ARB_ELEMENT4 0x200030
/* [RW 32] Interrupt mask register #0 read/write */
#define CSEM_REG_CSEM_INT_MASK_0 0x200110
#define CSEM_REG_CSEM_INT_MASK_1 0x200120
/* [R 32] Interrupt register #0 read */
#define CSEM_REG_CSEM_INT_STS_0 0x200104
#define CSEM_REG_CSEM_INT_STS_1 0x200114
/* [RW 32] Parity mask register #0 read/write */
#define CSEM_REG_CSEM_PRTY_MASK_0 0x200130
#define CSEM_REG_CSEM_PRTY_MASK_1 0x200140
/* [R 32] Parity register #0 read */
#define CSEM_REG_CSEM_PRTY_STS_0 0x200124
#define CSEM_REG_CSEM_PRTY_STS_1 0x200134
#define CSEM_REG_ENABLE_IN 0x2000a4
#define CSEM_REG_ENABLE_OUT 0x2000a8
/* [RW 32] This address space contains all registers and memories that are
placed in SEM_FAST block. The SEM_FAST registers are described in
appendix B. In order to access the sem_fast registers the base address
~fast_memory.fast_memory should be added to eachsem_fast register offset. */
#define CSEM_REG_FAST_MEMORY 0x220000
/* [RW 1] Disables input messages from FIC0 May be updated during run_time
by the microcode */
#define CSEM_REG_FIC0_DISABLE 0x200224
/* [RW 1] Disables input messages from FIC1 May be updated during run_time
by the microcode */
#define CSEM_REG_FIC1_DISABLE 0x200234
/* [RW 15] Interrupt table Read and write access to it is not possible in
the middle of the work */
#define CSEM_REG_INT_TABLE 0x200400
/* [ST 24] Statistics register. The number of messages that entered through
FIC0 */
#define CSEM_REG_MSG_NUM_FIC0 0x200000
/* [ST 24] Statistics register. The number of messages that entered through
FIC1 */
#define CSEM_REG_MSG_NUM_FIC1 0x200004
/* [ST 24] Statistics register. The number of messages that were sent to
FOC0 */
#define CSEM_REG_MSG_NUM_FOC0 0x200008
/* [ST 24] Statistics register. The number of messages that were sent to
FOC1 */
#define CSEM_REG_MSG_NUM_FOC1 0x20000c
/* [ST 24] Statistics register. The number of messages that were sent to
FOC2 */
#define CSEM_REG_MSG_NUM_FOC2 0x200010
/* [ST 24] Statistics register. The number of messages that were sent to
FOC3 */
#define CSEM_REG_MSG_NUM_FOC3 0x200014
/* [RW 1] Disables input messages from the passive buffer May be updated
during run_time by the microcode */
#define CSEM_REG_PAS_DISABLE 0x20024c
/* [WB 128] Debug only. Passive buffer memory */
#define CSEM_REG_PASSIVE_BUFFER 0x202000
/* [WB 46] pram memory. B45 is parity; b[44:0] - data. */
#define CSEM_REG_PRAM 0x240000
/* [R 16] Valid sleeping threads indication have bit per thread */
#define CSEM_REG_SLEEP_THREADS_VALID 0x20026c
/* [R 1] EXT_STORE FIFO is empty in sem_slow_ls_ext */
#define CSEM_REG_SLOW_EXT_STORE_EMPTY 0x2002a0
/* [RW 16] List of free threads . There is a bit per thread. */
#define CSEM_REG_THREADS_LIST 0x2002e4
/* [RW 3] The arbitration scheme of time_slot 0 */
#define CSEM_REG_TS_0_AS 0x200038
/* [RW 3] The arbitration scheme of time_slot 10 */
#define CSEM_REG_TS_10_AS 0x200060
/* [RW 3] The arbitration scheme of time_slot 11 */
#define CSEM_REG_TS_11_AS 0x200064
/* [RW 3] The arbitration scheme of time_slot 12 */
#define CSEM_REG_TS_12_AS 0x200068
/* [RW 3] The arbitration scheme of time_slot 13 */
#define CSEM_REG_TS_13_AS 0x20006c
/* [RW 3] The arbitration scheme of time_slot 14 */
#define CSEM_REG_TS_14_AS 0x200070
/* [RW 3] The arbitration scheme of time_slot 15 */
#define CSEM_REG_TS_15_AS 0x200074
/* [RW 3] The arbitration scheme of time_slot 16 */
#define CSEM_REG_TS_16_AS 0x200078
/* [RW 3] The arbitration scheme of time_slot 17 */
#define CSEM_REG_TS_17_AS 0x20007c
/* [RW 3] The arbitration scheme of time_slot 18 */
#define CSEM_REG_TS_18_AS 0x200080
/* [RW 3] The arbitration scheme of time_slot 1 */
#define CSEM_REG_TS_1_AS 0x20003c
/* [RW 3] The arbitration scheme of time_slot 2 */
#define CSEM_REG_TS_2_AS 0x200040
/* [RW 3] The arbitration scheme of time_slot 3 */
#define CSEM_REG_TS_3_AS 0x200044
/* [RW 3] The arbitration scheme of time_slot 4 */
#define CSEM_REG_TS_4_AS 0x200048
/* [RW 3] The arbitration scheme of time_slot 5 */
#define CSEM_REG_TS_5_AS 0x20004c
/* [RW 3] The arbitration scheme of time_slot 6 */
#define CSEM_REG_TS_6_AS 0x200050
/* [RW 3] The arbitration scheme of time_slot 7 */
#define CSEM_REG_TS_7_AS 0x200054
/* [RW 3] The arbitration scheme of time_slot 8 */
#define CSEM_REG_TS_8_AS 0x200058
/* [RW 3] The arbitration scheme of time_slot 9 */
#define CSEM_REG_TS_9_AS 0x20005c
/* [RW 1] Parity mask register #0 read/write */
#define DBG_REG_DBG_PRTY_MASK 0xc0a8
/* [R 1] Parity register #0 read */
#define DBG_REG_DBG_PRTY_STS 0xc09c
/* [RW 32] Commands memory. The address to command X; row Y is to calculated
as 14*X+Y. */
#define DMAE_REG_CMD_MEM 0x102400
#define DMAE_REG_CMD_MEM_SIZE 224
/* [RW 1] If 0 - the CRC-16c initial value is all zeroes; if 1 - the CRC-16c
initial value is all ones. */
#define DMAE_REG_CRC16C_INIT 0x10201c
/* [RW 1] If 0 - the CRC-16 T10 initial value is all zeroes; if 1 - the
CRC-16 T10 initial value is all ones. */
#define DMAE_REG_CRC16T10_INIT 0x102020
/* [RW 2] Interrupt mask register #0 read/write */
#define DMAE_REG_DMAE_INT_MASK 0x102054
/* [RW 4] Parity mask register #0 read/write */
#define DMAE_REG_DMAE_PRTY_MASK 0x102064
/* [R 4] Parity register #0 read */
#define DMAE_REG_DMAE_PRTY_STS 0x102058
/* [RW 1] Command 0 go. */
#define DMAE_REG_GO_C0 0x102080
/* [RW 1] Command 1 go. */
#define DMAE_REG_GO_C1 0x102084
/* [RW 1] Command 10 go. */
#define DMAE_REG_GO_C10 0x102088
/* [RW 1] Command 11 go. */
#define DMAE_REG_GO_C11 0x10208c
/* [RW 1] Command 12 go. */
#define DMAE_REG_GO_C12 0x102090
/* [RW 1] Command 13 go. */
#define DMAE_REG_GO_C13 0x102094
/* [RW 1] Command 14 go. */
#define DMAE_REG_GO_C14 0x102098
/* [RW 1] Command 15 go. */
#define DMAE_REG_GO_C15 0x10209c
/* [RW 1] Command 2 go. */
#define DMAE_REG_GO_C2 0x1020a0
/* [RW 1] Command 3 go. */
#define DMAE_REG_GO_C3 0x1020a4
/* [RW 1] Command 4 go. */
#define DMAE_REG_GO_C4 0x1020a8
/* [RW 1] Command 5 go. */
#define DMAE_REG_GO_C5 0x1020ac
/* [RW 1] Command 6 go. */
#define DMAE_REG_GO_C6 0x1020b0
/* [RW 1] Command 7 go. */
#define DMAE_REG_GO_C7 0x1020b4
/* [RW 1] Command 8 go. */
#define DMAE_REG_GO_C8 0x1020b8
/* [RW 1] Command 9 go. */
#define DMAE_REG_GO_C9 0x1020bc
/* [RW 1] DMAE GRC Interface (Target; aster) enable. If 0 - the acknowledge
input is disregarded; valid is deasserted; all other signals are treated
as usual; if 1 - normal activity. */
#define DMAE_REG_GRC_IFEN 0x102008
/* [RW 1] DMAE PCI Interface (Request; ead; rite) enable. If 0 - the
acknowledge input is disregarded; valid is deasserted; full is asserted;
all other signals are treated as usual; if 1 - normal activity. */
#define DMAE_REG_PCI_IFEN 0x102004
/* [RW 4] DMAE- PCI Request Interface initial credit. Write writes the
initial value to the credit counter; related to the address. Read returns
the current value of the counter. */
#define DMAE_REG_PXP_REQ_INIT_CRD 0x1020c0
/* [RW 8] Aggregation command. */
#define DORQ_REG_AGG_CMD0 0x170060
/* [RW 8] Aggregation command. */
#define DORQ_REG_AGG_CMD1 0x170064
/* [RW 8] Aggregation command. */
#define DORQ_REG_AGG_CMD2 0x170068
/* [RW 8] Aggregation command. */
#define DORQ_REG_AGG_CMD3 0x17006c
/* [RW 28] UCM Header. */
#define DORQ_REG_CMHEAD_RX 0x170050
/* [RW 32] Doorbell address for RBC doorbells (function 0). */
#define DORQ_REG_DB_ADDR0 0x17008c
/* [RW 5] Interrupt mask register #0 read/write */
#define DORQ_REG_DORQ_INT_MASK 0x170180
/* [R 5] Interrupt register #0 read */
#define DORQ_REG_DORQ_INT_STS 0x170174
/* [RC 5] Interrupt register #0 read clear */
#define DORQ_REG_DORQ_INT_STS_CLR 0x170178
/* [RW 2] Parity mask register #0 read/write */
#define DORQ_REG_DORQ_PRTY_MASK 0x170190
/* [R 2] Parity register #0 read */
#define DORQ_REG_DORQ_PRTY_STS 0x170184
/* [RW 8] The address to write the DPM CID to STORM. */
#define DORQ_REG_DPM_CID_ADDR 0x170044
/* [RW 5] The DPM mode CID extraction offset. */
#define DORQ_REG_DPM_CID_OFST 0x170030
/* [RW 12] The threshold of the DQ FIFO to send the almost full interrupt. */
#define DORQ_REG_DQ_FIFO_AFULL_TH 0x17007c
/* [RW 12] The threshold of the DQ FIFO to send the full interrupt. */
#define DORQ_REG_DQ_FIFO_FULL_TH 0x170078
/* [R 13] Current value of the DQ FIFO fill level according to following
pointer. The range is 0 - 256 FIFO rows; where each row stands for the
doorbell. */
#define DORQ_REG_DQ_FILL_LVLF 0x1700a4
/* [R 1] DQ FIFO full status. Is set; when FIFO filling level is more or
equal to full threshold; reset on full clear. */
#define DORQ_REG_DQ_FULL_ST 0x1700c0
/* [RW 28] The value sent to CM header in the case of CFC load error. */
#define DORQ_REG_ERR_CMHEAD 0x170058
#define DORQ_REG_IF_EN 0x170004
#define DORQ_REG_MODE_ACT 0x170008
/* [RW 5] The normal mode CID extraction offset. */
#define DORQ_REG_NORM_CID_OFST 0x17002c
/* [RW 28] TCM Header when only TCP context is loaded. */
#define DORQ_REG_NORM_CMHEAD_TX 0x17004c
/* [RW 3] The number of simultaneous outstanding requests to Context Fetch
Interface. */
#define DORQ_REG_OUTST_REQ 0x17003c
#define DORQ_REG_REGN 0x170038
/* [R 4] Current value of response A counter credit. Initial credit is
configured through write to ~dorq_registers_rsp_init_crd.rsp_init_crd
register. */
#define DORQ_REG_RSPA_CRD_CNT 0x1700ac
/* [R 4] Current value of response B counter credit. Initial credit is
configured through write to ~dorq_registers_rsp_init_crd.rsp_init_crd
register. */
#define DORQ_REG_RSPB_CRD_CNT 0x1700b0
/* [RW 4] The initial credit at the Doorbell Response Interface. The write
writes the same initial credit to the rspa_crd_cnt and rspb_crd_cnt. The
read reads this written value. */
#define DORQ_REG_RSP_INIT_CRD 0x170048
/* [RW 4] Initial activity counter value on the load request; when the
shortcut is done. */
#define DORQ_REG_SHRT_ACT_CNT 0x170070
/* [RW 28] TCM Header when both ULP and TCP context is loaded. */
#define DORQ_REG_SHRT_CMHEAD 0x170054
#define HC_CONFIG_0_REG_ATTN_BIT_EN_0 (0x1<<4)
#define HC_CONFIG_0_REG_INT_LINE_EN_0 (0x1<<3)
#define HC_CONFIG_0_REG_MSI_ATTN_EN_0 (0x1<<7)
#define HC_CONFIG_0_REG_MSI_MSIX_INT_EN_0 (0x1<<2)
#define HC_CONFIG_0_REG_SINGLE_ISR_EN_0 (0x1<<1)
#define HC_REG_AGG_INT_0 0x108050
#define HC_REG_AGG_INT_1 0x108054
#define HC_REG_ATTN_BIT 0x108120
#define HC_REG_ATTN_IDX 0x108100
#define HC_REG_ATTN_MSG0_ADDR_L 0x108018
#define HC_REG_ATTN_MSG1_ADDR_L 0x108020
#define HC_REG_ATTN_NUM_P0 0x108038
#define HC_REG_ATTN_NUM_P1 0x10803c
#define HC_REG_COMMAND_REG 0x108180
#define HC_REG_CONFIG_0 0x108000
#define HC_REG_CONFIG_1 0x108004
#define HC_REG_FUNC_NUM_P0 0x1080ac
#define HC_REG_FUNC_NUM_P1 0x1080b0
/* [RW 3] Parity mask register #0 read/write */
#define HC_REG_HC_PRTY_MASK 0x1080a0
/* [R 3] Parity register #0 read */
#define HC_REG_HC_PRTY_STS 0x108094
#define HC_REG_INT_MASK 0x108108
#define HC_REG_LEADING_EDGE_0 0x108040
#define HC_REG_LEADING_EDGE_1 0x108048
#define HC_REG_P0_PROD_CONS 0x108200
#define HC_REG_P1_PROD_CONS 0x108400
#define HC_REG_PBA_COMMAND 0x108140
#define HC_REG_PCI_CONFIG_0 0x108010
#define HC_REG_PCI_CONFIG_1 0x108014
#define HC_REG_STATISTIC_COUNTERS 0x109000
#define HC_REG_TRAILING_EDGE_0 0x108044
#define HC_REG_TRAILING_EDGE_1 0x10804c
#define HC_REG_UC_RAM_ADDR_0 0x108028
#define HC_REG_UC_RAM_ADDR_1 0x108030
#define HC_REG_USTORM_ADDR_FOR_COALESCE 0x108068
#define HC_REG_VQID_0 0x108008
#define HC_REG_VQID_1 0x10800c
#define MCP_REG_MCPR_NVM_ACCESS_ENABLE 0x86424
#define MCP_REG_MCPR_NVM_ADDR 0x8640c
#define MCP_REG_MCPR_NVM_CFG4 0x8642c
#define MCP_REG_MCPR_NVM_COMMAND 0x86400
#define MCP_REG_MCPR_NVM_READ 0x86410
#define MCP_REG_MCPR_NVM_SW_ARB 0x86420
#define MCP_REG_MCPR_NVM_WRITE 0x86408
#define MCP_REG_MCPR_SCRATCH 0xa0000
/* [R 32] read first 32 bit after inversion of function 0. mapped as
follows: [0] NIG attention for function0; [1] NIG attention for
function1; [2] GPIO1 mcp; [3] GPIO2 mcp; [4] GPIO3 mcp; [5] GPIO4 mcp;
[6] GPIO1 function 1; [7] GPIO2 function 1; [8] GPIO3 function 1; [9]
GPIO4 function 1; [10] PCIE glue/PXP VPD event function0; [11] PCIE
glue/PXP VPD event function1; [12] PCIE glue/PXP Expansion ROM event0;
[13] PCIE glue/PXP Expansion ROM event1; [14] SPIO4; [15] SPIO5; [16]
MSI/X indication for mcp; [17] MSI/X indication for function 1; [18] BRB
Parity error; [19] BRB Hw interrupt; [20] PRS Parity error; [21] PRS Hw
interrupt; [22] SRC Parity error; [23] SRC Hw interrupt; [24] TSDM Parity
error; [25] TSDM Hw interrupt; [26] TCM Parity error; [27] TCM Hw
interrupt; [28] TSEMI Parity error; [29] TSEMI Hw interrupt; [30] PBF
Parity error; [31] PBF Hw interrupt; */
#define MISC_REG_AEU_AFTER_INVERT_1_FUNC_0 0xa42c
#define MISC_REG_AEU_AFTER_INVERT_1_FUNC_1 0xa430
/* [R 32] read first 32 bit after inversion of mcp. mapped as follows: [0]
NIG attention for function0; [1] NIG attention for function1; [2] GPIO1
mcp; [3] GPIO2 mcp; [4] GPIO3 mcp; [5] GPIO4 mcp; [6] GPIO1 function 1;
[7] GPIO2 function 1; [8] GPIO3 function 1; [9] GPIO4 function 1; [10]
PCIE glue/PXP VPD event function0; [11] PCIE glue/PXP VPD event
function1; [12] PCIE glue/PXP Expansion ROM event0; [13] PCIE glue/PXP
Expansion ROM event1; [14] SPIO4; [15] SPIO5; [16] MSI/X indication for
mcp; [17] MSI/X indication for function 1; [18] BRB Parity error; [19]
BRB Hw interrupt; [20] PRS Parity error; [21] PRS Hw interrupt; [22] SRC
Parity error; [23] SRC Hw interrupt; [24] TSDM Parity error; [25] TSDM Hw
interrupt; [26] TCM Parity error; [27] TCM Hw interrupt; [28] TSEMI
Parity error; [29] TSEMI Hw interrupt; [30] PBF Parity error; [31] PBF Hw
interrupt; */
#define MISC_REG_AEU_AFTER_INVERT_1_MCP 0xa434
/* [R 32] read second 32 bit after inversion of function 0. mapped as
follows: [0] PBClient Parity error; [1] PBClient Hw interrupt; [2] QM
Parity error; [3] QM Hw interrupt; [4] Timers Parity error; [5] Timers Hw
interrupt; [6] XSDM Parity error; [7] XSDM Hw interrupt; [8] XCM Parity
error; [9] XCM Hw interrupt; [10] XSEMI Parity error; [11] XSEMI Hw
interrupt; [12] DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14]
NIG Parity error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error;
[17] Vaux PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw
interrupt; [20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM
Parity error; [23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI
Hw interrupt; [26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM
Parity error; [29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw
interrupt; */
#define MISC_REG_AEU_AFTER_INVERT_2_FUNC_0 0xa438
#define MISC_REG_AEU_AFTER_INVERT_2_FUNC_1 0xa43c
/* [R 32] read second 32 bit after inversion of mcp. mapped as follows: [0]
PBClient Parity error; [1] PBClient Hw interrupt; [2] QM Parity error;
[3] QM Hw interrupt; [4] Timers Parity error; [5] Timers Hw interrupt;
[6] XSDM Parity error; [7] XSDM Hw interrupt; [8] XCM Parity error; [9]
XCM Hw interrupt; [10] XSEMI Parity error; [11] XSEMI Hw interrupt; [12]
DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14] NIG Parity
error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error; [17] Vaux
PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw interrupt;
[20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM Parity error;
[23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI Hw interrupt;
[26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM Parity error;
[29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw interrupt; */
#define MISC_REG_AEU_AFTER_INVERT_2_MCP 0xa440
/* [R 32] read third 32 bit after inversion of function 0. mapped as
follows: [0] CSEMI Parity error; [1] CSEMI Hw interrupt; [2] PXP Parity
error; [3] PXP Hw interrupt; [4] PXPpciClockClient Parity error; [5]
PXPpciClockClient Hw interrupt; [6] CFC Parity error; [7] CFC Hw
interrupt; [8] CDU Parity error; [9] CDU Hw interrupt; [10] DMAE Parity
error; [11] DMAE Hw interrupt; [12] IGU (HC) Parity error; [13] IGU (HC)
Hw interrupt; [14] MISC Parity error; [15] MISC Hw interrupt; [16]
pxp_misc_mps_attn; [17] Flash event; [18] SMB event; [19] MCP attn0; [20]
MCP attn1; [21] SW timers attn_1 func0; [22] SW timers attn_2 func0; [23]
SW timers attn_3 func0; [24] SW timers attn_4 func0; [25] PERST; [26] SW
timers attn_1 func1; [27] SW timers attn_2 func1; [28] SW timers attn_3
func1; [29] SW timers attn_4 func1; [30] General attn0; [31] General
attn1; */
#define MISC_REG_AEU_AFTER_INVERT_3_FUNC_0 0xa444
#define MISC_REG_AEU_AFTER_INVERT_3_FUNC_1 0xa448
/* [R 32] read third 32 bit after inversion of mcp. mapped as follows: [0]
CSEMI Parity error; [1] CSEMI Hw interrupt; [2] PXP Parity error; [3] PXP
Hw interrupt; [4] PXPpciClockClient Parity error; [5] PXPpciClockClient
Hw interrupt; [6] CFC Parity error; [7] CFC Hw interrupt; [8] CDU Parity
error; [9] CDU Hw interrupt; [10] DMAE Parity error; [11] DMAE Hw
interrupt; [12] IGU (HC) Parity error; [13] IGU (HC) Hw interrupt; [14]
MISC Parity error; [15] MISC Hw interrupt; [16] pxp_misc_mps_attn; [17]
Flash event; [18] SMB event; [19] MCP attn0; [20] MCP attn1; [21] SW
timers attn_1 func0; [22] SW timers attn_2 func0; [23] SW timers attn_3
func0; [24] SW timers attn_4 func0; [25] PERST; [26] SW timers attn_1
func1; [27] SW timers attn_2 func1; [28] SW timers attn_3 func1; [29] SW
timers attn_4 func1; [30] General attn0; [31] General attn1; */
#define MISC_REG_AEU_AFTER_INVERT_3_MCP 0xa44c
/* [R 32] read fourth 32 bit after inversion of function 0. mapped as
follows: [0] General attn2; [1] General attn3; [2] General attn4; [3]
General attn5; [4] General attn6; [5] General attn7; [6] General attn8;
[7] General attn9; [8] General attn10; [9] General attn11; [10] General
attn12; [11] General attn13; [12] General attn14; [13] General attn15;
[14] General attn16; [15] General attn17; [16] General attn18; [17]
General attn19; [18] General attn20; [19] General attn21; [20] Main power
interrupt; [21] RBCR Latched attn; [22] RBCT Latched attn; [23] RBCN
Latched attn; [24] RBCU Latched attn; [25] RBCP Latched attn; [26] GRC
Latched timeout attention; [27] GRC Latched reserved access attention;
[28] MCP Latched rom_parity; [29] MCP Latched ump_rx_parity; [30] MCP
Latched ump_tx_parity; [31] MCP Latched scpad_parity; */
#define MISC_REG_AEU_AFTER_INVERT_4_FUNC_0 0xa450
#define MISC_REG_AEU_AFTER_INVERT_4_FUNC_1 0xa454
/* [R 32] read fourth 32 bit after inversion of mcp. mapped as follows: [0]
General attn2; [1] General attn3; [2] General attn4; [3] General attn5;
[4] General attn6; [5] General attn7; [6] General attn8; [7] General
attn9; [8] General attn10; [9] General attn11; [10] General attn12; [11]
General attn13; [12] General attn14; [13] General attn15; [14] General
attn16; [15] General attn17; [16] General attn18; [17] General attn19;
[18] General attn20; [19] General attn21; [20] Main power interrupt; [21]
RBCR Latched attn; [22] RBCT Latched attn; [23] RBCN Latched attn; [24]
RBCU Latched attn; [25] RBCP Latched attn; [26] GRC Latched timeout
attention; [27] GRC Latched reserved access attention; [28] MCP Latched
rom_parity; [29] MCP Latched ump_rx_parity; [30] MCP Latched
ump_tx_parity; [31] MCP Latched scpad_parity; */
#define MISC_REG_AEU_AFTER_INVERT_4_MCP 0xa458
/* [W 14] write to this register results with the clear of the latched
signals; one in d0 clears RBCR latch; one in d1 clears RBCT latch; one in
d2 clears RBCN latch; one in d3 clears RBCU latch; one in d4 clears RBCP
latch; one in d5 clears GRC Latched timeout attention; one in d6 clears
GRC Latched reserved access attention; one in d7 clears Latched
rom_parity; one in d8 clears Latched ump_rx_parity; one in d9 clears
Latched ump_tx_parity; one in d10 clears Latched scpad_parity (both
ports); one in d11 clears pxpv_misc_mps_attn; one in d12 clears
pxp_misc_exp_rom_attn0; one in d13 clears pxp_misc_exp_rom_attn1; read
from this register return zero */
#define MISC_REG_AEU_CLR_LATCH_SIGNAL 0xa45c
/* [RW 32] first 32b for enabling the output for function 0 output0. mapped
as follows: [0] NIG attention for function0; [1] NIG attention for
function1; [2] GPIO1 function 0; [3] GPIO2 function 0; [4] GPIO3 function
0; [5] GPIO4 function 0; [6] GPIO1 function 1; [7] GPIO2 function 1; [8]
GPIO3 function 1; [9] GPIO4 function 1; [10] PCIE glue/PXP VPD event
function0; [11] PCIE glue/PXP VPD event function1; [12] PCIE glue/PXP
Expansion ROM event0; [13] PCIE glue/PXP Expansion ROM event1; [14]
SPIO4; [15] SPIO5; [16] MSI/X indication for function 0; [17] MSI/X
indication for function 1; [18] BRB Parity error; [19] BRB Hw interrupt;
[20] PRS Parity error; [21] PRS Hw interrupt; [22] SRC Parity error; [23]
SRC Hw interrupt; [24] TSDM Parity error; [25] TSDM Hw interrupt; [26]
TCM Parity error; [27] TCM Hw interrupt; [28] TSEMI Parity error; [29]
TSEMI Hw interrupt; [30] PBF Parity error; [31] PBF Hw interrupt; */
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_0 0xa06c
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_1 0xa07c
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_2 0xa08c
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_3 0xa09c
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_5 0xa0bc
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_6 0xa0cc
#define MISC_REG_AEU_ENABLE1_FUNC_0_OUT_7 0xa0dc
/* [RW 32] first 32b for enabling the output for function 1 output0. mapped
as follows: [0] NIG attention for function0; [1] NIG attention for
function1; [2] GPIO1 function 1; [3] GPIO2 function 1; [4] GPIO3 function
1; [5] GPIO4 function 1; [6] GPIO1 function 1; [7] GPIO2 function 1; [8]
GPIO3 function 1; [9] GPIO4 function 1; [10] PCIE glue/PXP VPD event
function0; [11] PCIE glue/PXP VPD event function1; [12] PCIE glue/PXP
Expansion ROM event0; [13] PCIE glue/PXP Expansion ROM event1; [14]
SPIO4; [15] SPIO5; [16] MSI/X indication for function 1; [17] MSI/X
indication for function 1; [18] BRB Parity error; [19] BRB Hw interrupt;
[20] PRS Parity error; [21] PRS Hw interrupt; [22] SRC Parity error; [23]
SRC Hw interrupt; [24] TSDM Parity error; [25] TSDM Hw interrupt; [26]
TCM Parity error; [27] TCM Hw interrupt; [28] TSEMI Parity error; [29]
TSEMI Hw interrupt; [30] PBF Parity error; [31] PBF Hw interrupt; */
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_0 0xa10c
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_1 0xa11c
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_2 0xa12c
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_3 0xa13c
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_5 0xa15c
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_6 0xa16c
#define MISC_REG_AEU_ENABLE1_FUNC_1_OUT_7 0xa17c
/* [RW 32] first 32b for enabling the output for close the gate nig. mapped
as follows: [0] NIG attention for function0; [1] NIG attention for
function1; [2] GPIO1 function 0; [3] GPIO2 function 0; [4] GPIO3 function
0; [5] GPIO4 function 0; [6] GPIO1 function 1; [7] GPIO2 function 1; [8]
GPIO3 function 1; [9] GPIO4 function 1; [10] PCIE glue/PXP VPD event
function0; [11] PCIE glue/PXP VPD event function1; [12] PCIE glue/PXP
Expansion ROM event0; [13] PCIE glue/PXP Expansion ROM event1; [14]
SPIO4; [15] SPIO5; [16] MSI/X indication for function 0; [17] MSI/X
indication for function 1; [18] BRB Parity error; [19] BRB Hw interrupt;
[20] PRS Parity error; [21] PRS Hw interrupt; [22] SRC Parity error; [23]
SRC Hw interrupt; [24] TSDM Parity error; [25] TSDM Hw interrupt; [26]
TCM Parity error; [27] TCM Hw interrupt; [28] TSEMI Parity error; [29]
TSEMI Hw interrupt; [30] PBF Parity error; [31] PBF Hw interrupt; */
#define MISC_REG_AEU_ENABLE1_NIG_0 0xa0ec
#define MISC_REG_AEU_ENABLE1_NIG_1 0xa18c
/* [RW 32] first 32b for enabling the output for close the gate pxp. mapped
as follows: [0] NIG attention for function0; [1] NIG attention for
function1; [2] GPIO1 function 0; [3] GPIO2 function 0; [4] GPIO3 function
0; [5] GPIO4 function 0; [6] GPIO1 function 1; [7] GPIO2 function 1; [8]
GPIO3 function 1; [9] GPIO4 function 1; [10] PCIE glue/PXP VPD event
function0; [11] PCIE glue/PXP VPD event function1; [12] PCIE glue/PXP
Expansion ROM event0; [13] PCIE glue/PXP Expansion ROM event1; [14]
SPIO4; [15] SPIO5; [16] MSI/X indication for function 0; [17] MSI/X
indication for function 1; [18] BRB Parity error; [19] BRB Hw interrupt;
[20] PRS Parity error; [21] PRS Hw interrupt; [22] SRC Parity error; [23]
SRC Hw interrupt; [24] TSDM Parity error; [25] TSDM Hw interrupt; [26]
TCM Parity error; [27] TCM Hw interrupt; [28] TSEMI Parity error; [29]
TSEMI Hw interrupt; [30] PBF Parity error; [31] PBF Hw interrupt; */
#define MISC_REG_AEU_ENABLE1_PXP_0 0xa0fc
#define MISC_REG_AEU_ENABLE1_PXP_1 0xa19c
/* [RW 32] second 32b for enabling the output for function 0 output0. mapped
as follows: [0] PBClient Parity error; [1] PBClient Hw interrupt; [2] QM
Parity error; [3] QM Hw interrupt; [4] Timers Parity error; [5] Timers Hw
interrupt; [6] XSDM Parity error; [7] XSDM Hw interrupt; [8] XCM Parity
error; [9] XCM Hw interrupt; [10] XSEMI Parity error; [11] XSEMI Hw
interrupt; [12] DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14]
NIG Parity error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error;
[17] Vaux PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw
interrupt; [20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM
Parity error; [23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI
Hw interrupt; [26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM
Parity error; [29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw
interrupt; */
#define MISC_REG_AEU_ENABLE2_FUNC_0_OUT_0 0xa070
#define MISC_REG_AEU_ENABLE2_FUNC_0_OUT_1 0xa080
/* [RW 32] second 32b for enabling the output for function 1 output0. mapped
as follows: [0] PBClient Parity error; [1] PBClient Hw interrupt; [2] QM
Parity error; [3] QM Hw interrupt; [4] Timers Parity error; [5] Timers Hw
interrupt; [6] XSDM Parity error; [7] XSDM Hw interrupt; [8] XCM Parity
error; [9] XCM Hw interrupt; [10] XSEMI Parity error; [11] XSEMI Hw
interrupt; [12] DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14]
NIG Parity error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error;
[17] Vaux PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw
interrupt; [20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM
Parity error; [23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI
Hw interrupt; [26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM
Parity error; [29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw
interrupt; */
#define MISC_REG_AEU_ENABLE2_FUNC_1_OUT_0 0xa110
#define MISC_REG_AEU_ENABLE2_FUNC_1_OUT_1 0xa120
/* [RW 32] second 32b for enabling the output for close the gate nig. mapped
as follows: [0] PBClient Parity error; [1] PBClient Hw interrupt; [2] QM
Parity error; [3] QM Hw interrupt; [4] Timers Parity error; [5] Timers Hw
interrupt; [6] XSDM Parity error; [7] XSDM Hw interrupt; [8] XCM Parity
error; [9] XCM Hw interrupt; [10] XSEMI Parity error; [11] XSEMI Hw
interrupt; [12] DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14]
NIG Parity error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error;
[17] Vaux PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw
interrupt; [20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM
Parity error; [23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI
Hw interrupt; [26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM
Parity error; [29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw
interrupt; */
#define MISC_REG_AEU_ENABLE2_NIG_0 0xa0f0
#define MISC_REG_AEU_ENABLE2_NIG_1 0xa190
/* [RW 32] second 32b for enabling the output for close the gate pxp. mapped
as follows: [0] PBClient Parity error; [1] PBClient Hw interrupt; [2] QM
Parity error; [3] QM Hw interrupt; [4] Timers Parity error; [5] Timers Hw
interrupt; [6] XSDM Parity error; [7] XSDM Hw interrupt; [8] XCM Parity
error; [9] XCM Hw interrupt; [10] XSEMI Parity error; [11] XSEMI Hw
interrupt; [12] DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14]
NIG Parity error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error;
[17] Vaux PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw
interrupt; [20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM
Parity error; [23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI
Hw interrupt; [26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM
Parity error; [29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw
interrupt; */
#define MISC_REG_AEU_ENABLE2_PXP_0 0xa100
#define MISC_REG_AEU_ENABLE2_PXP_1 0xa1a0
/* [RW 32] third 32b for enabling the output for function 0 output0. mapped
as follows: [0] CSEMI Parity error; [1] CSEMI Hw interrupt; [2] PXP
Parity error; [3] PXP Hw interrupt; [4] PXPpciClockClient Parity error;
[5] PXPpciClockClient Hw interrupt; [6] CFC Parity error; [7] CFC Hw
interrupt; [8] CDU Parity error; [9] CDU Hw interrupt; [10] DMAE Parity
error; [11] DMAE Hw interrupt; [12] IGU (HC) Parity error; [13] IGU (HC)
Hw interrupt; [14] MISC Parity error; [15] MISC Hw interrupt; [16]
pxp_misc_mps_attn; [17] Flash event; [18] SMB event; [19] MCP attn0; [20]
MCP attn1; [21] SW timers attn_1 func0; [22] SW timers attn_2 func0; [23]
SW timers attn_3 func0; [24] SW timers attn_4 func0; [25] PERST; [26] SW
timers attn_1 func1; [27] SW timers attn_2 func1; [28] SW timers attn_3
func1; [29] SW timers attn_4 func1; [30] General attn0; [31] General
attn1; */
#define MISC_REG_AEU_ENABLE3_FUNC_0_OUT_0 0xa074
#define MISC_REG_AEU_ENABLE3_FUNC_0_OUT_1 0xa084
/* [RW 32] third 32b for enabling the output for function 1 output0. mapped
as follows: [0] CSEMI Parity error; [1] CSEMI Hw interrupt; [2] PXP
Parity error; [3] PXP Hw interrupt; [4] PXPpciClockClient Parity error;
[5] PXPpciClockClient Hw interrupt; [6] CFC Parity error; [7] CFC Hw
interrupt; [8] CDU Parity error; [9] CDU Hw interrupt; [10] DMAE Parity
error; [11] DMAE Hw interrupt; [12] IGU (HC) Parity error; [13] IGU (HC)
Hw interrupt; [14] MISC Parity error; [15] MISC Hw interrupt; [16]
pxp_misc_mps_attn; [17] Flash event; [18] SMB event; [19] MCP attn0; [20]
MCP attn1; [21] SW timers attn_1 func0; [22] SW timers attn_2 func0; [23]
SW timers attn_3 func0; [24] SW timers attn_4 func0; [25] PERST; [26] SW
timers attn_1 func1; [27] SW timers attn_2 func1; [28] SW timers attn_3
func1; [29] SW timers attn_4 func1; [30] General attn0; [31] General
attn1; */
#define MISC_REG_AEU_ENABLE3_FUNC_1_OUT_0 0xa114
#define MISC_REG_AEU_ENABLE3_FUNC_1_OUT_1 0xa124
/* [RW 32] third 32b for enabling the output for close the gate nig. mapped
as follows: [0] CSEMI Parity error; [1] CSEMI Hw interrupt; [2] PXP
Parity error; [3] PXP Hw interrupt; [4] PXPpciClockClient Parity error;
[5] PXPpciClockClient Hw interrupt; [6] CFC Parity error; [7] CFC Hw
interrupt; [8] CDU Parity error; [9] CDU Hw interrupt; [10] DMAE Parity
error; [11] DMAE Hw interrupt; [12] IGU (HC) Parity error; [13] IGU (HC)
Hw interrupt; [14] MISC Parity error; [15] MISC Hw interrupt; [16]
pxp_misc_mps_attn; [17] Flash event; [18] SMB event; [19] MCP attn0; [20]
MCP attn1; [21] SW timers attn_1 func0; [22] SW timers attn_2 func0; [23]
SW timers attn_3 func0; [24] SW timers attn_4 func0; [25] PERST; [26] SW
timers attn_1 func1; [27] SW timers attn_2 func1; [28] SW timers attn_3
func1; [29] SW timers attn_4 func1; [30] General attn0; [31] General
attn1; */
#define MISC_REG_AEU_ENABLE3_NIG_0 0xa0f4
#define MISC_REG_AEU_ENABLE3_NIG_1 0xa194
/* [RW 32] third 32b for enabling the output for close the gate pxp. mapped
as follows: [0] CSEMI Parity error; [1] CSEMI Hw interrupt; [2] PXP
Parity error; [3] PXP Hw interrupt; [4] PXPpciClockClient Parity error;
[5] PXPpciClockClient Hw interrupt; [6] CFC Parity error; [7] CFC Hw
interrupt; [8] CDU Parity error; [9] CDU Hw interrupt; [10] DMAE Parity
error; [11] DMAE Hw interrupt; [12] IGU (HC) Parity error; [13] IGU (HC)
Hw interrupt; [14] MISC Parity error; [15] MISC Hw interrupt; [16]
pxp_misc_mps_attn; [17] Flash event; [18] SMB event; [19] MCP attn0; [20]
MCP attn1; [21] SW timers attn_1 func0; [22] SW timers attn_2 func0; [23]
SW timers attn_3 func0; [24] SW timers attn_4 func0; [25] PERST; [26] SW
timers attn_1 func1; [27] SW timers attn_2 func1; [28] SW timers attn_3
func1; [29] SW timers attn_4 func1; [30] General attn0; [31] General
attn1; */
#define MISC_REG_AEU_ENABLE3_PXP_0 0xa104
#define MISC_REG_AEU_ENABLE3_PXP_1 0xa1a4
/* [RW 32] fourth 32b for enabling the output for function 0 output0.mapped
as follows: [0] General attn2; [1] General attn3; [2] General attn4; [3]
General attn5; [4] General attn6; [5] General attn7; [6] General attn8;
[7] General attn9; [8] General attn10; [9] General attn11; [10] General
attn12; [11] General attn13; [12] General attn14; [13] General attn15;
[14] General attn16; [15] General attn17; [16] General attn18; [17]
General attn19; [18] General attn20; [19] General attn21; [20] Main power
interrupt; [21] RBCR Latched attn; [22] RBCT Latched attn; [23] RBCN
Latched attn; [24] RBCU Latched attn; [25] RBCP Latched attn; [26] GRC
Latched timeout attention; [27] GRC Latched reserved access attention;
[28] MCP Latched rom_parity; [29] MCP Latched ump_rx_parity; [30] MCP
Latched ump_tx_parity; [31] MCP Latched scpad_parity; */
#define MISC_REG_AEU_ENABLE4_FUNC_0_OUT_0 0xa078
#define MISC_REG_AEU_ENABLE4_FUNC_0_OUT_2 0xa098
#define MISC_REG_AEU_ENABLE4_FUNC_0_OUT_4 0xa0b8
#define MISC_REG_AEU_ENABLE4_FUNC_0_OUT_5 0xa0c8
#define MISC_REG_AEU_ENABLE4_FUNC_0_OUT_6 0xa0d8
#define MISC_REG_AEU_ENABLE4_FUNC_0_OUT_7 0xa0e8
/* [RW 32] fourth 32b for enabling the output for function 1 output0.mapped
as follows: [0] General attn2; [1] General attn3; [2] General attn4; [3]
General attn5; [4] General attn6; [5] General attn7; [6] General attn8;
[7] General attn9; [8] General attn10; [9] General attn11; [10] General
attn12; [11] General attn13; [12] General attn14; [13] General attn15;
[14] General attn16; [15] General attn17; [16] General attn18; [17]
General attn19; [18] General attn20; [19] General attn21; [20] Main power
interrupt; [21] RBCR Latched attn; [22] RBCT Latched attn; [23] RBCN
Latched attn; [24] RBCU Latched attn; [25] RBCP Latched attn; [26] GRC
Latched timeout attention; [27] GRC Latched reserved access attention;
[28] MCP Latched rom_parity; [29] MCP Latched ump_rx_parity; [30] MCP
Latched ump_tx_parity; [31] MCP Latched scpad_parity; */
#define MISC_REG_AEU_ENABLE4_FUNC_1_OUT_0 0xa118
#define MISC_REG_AEU_ENABLE4_FUNC_1_OUT_2 0xa138
#define MISC_REG_AEU_ENABLE4_FUNC_1_OUT_4 0xa158
#define MISC_REG_AEU_ENABLE4_FUNC_1_OUT_5 0xa168
#define MISC_REG_AEU_ENABLE4_FUNC_1_OUT_6 0xa178
#define MISC_REG_AEU_ENABLE4_FUNC_1_OUT_7 0xa188
/* [RW 32] fourth 32b for enabling the output for close the gate nig.mapped
as follows: [0] General attn2; [1] General attn3; [2] General attn4; [3]
General attn5; [4] General attn6; [5] General attn7; [6] General attn8;
[7] General attn9; [8] General attn10; [9] General attn11; [10] General
attn12; [11] General attn13; [12] General attn14; [13] General attn15;
[14] General attn16; [15] General attn17; [16] General attn18; [17]
General attn19; [18] General attn20; [19] General attn21; [20] Main power
interrupt; [21] RBCR Latched attn; [22] RBCT Latched attn; [23] RBCN
Latched attn; [24] RBCU Latched attn; [25] RBCP Latched attn; [26] GRC
Latched timeout attention; [27] GRC Latched reserved access attention;
[28] MCP Latched rom_parity; [29] MCP Latched ump_rx_parity; [30] MCP
Latched ump_tx_parity; [31] MCP Latched scpad_parity; */
#define MISC_REG_AEU_ENABLE4_NIG_0 0xa0f8
#define MISC_REG_AEU_ENABLE4_NIG_1 0xa198
/* [RW 32] fourth 32b for enabling the output for close the gate pxp.mapped
as follows: [0] General attn2; [1] General attn3; [2] General attn4; [3]
General attn5; [4] General attn6; [5] General attn7; [6] General attn8;
[7] General attn9; [8] General attn10; [9] General attn11; [10] General
attn12; [11] General attn13; [12] General attn14; [13] General attn15;
[14] General attn16; [15] General attn17; [16] General attn18; [17]
General attn19; [18] General attn20; [19] General attn21; [20] Main power
interrupt; [21] RBCR Latched attn; [22] RBCT Latched attn; [23] RBCN
Latched attn; [24] RBCU Latched attn; [25] RBCP Latched attn; [26] GRC
Latched timeout attention; [27] GRC Latched reserved access attention;
[28] MCP Latched rom_parity; [29] MCP Latched ump_rx_parity; [30] MCP
Latched ump_tx_parity; [31] MCP Latched scpad_parity; */
#define MISC_REG_AEU_ENABLE4_PXP_0 0xa108
#define MISC_REG_AEU_ENABLE4_PXP_1 0xa1a8
/* [RW 1] set/clr general attention 0; this will set/clr bit 94 in the aeu
128 bit vector */
#define MISC_REG_AEU_GENERAL_ATTN_0 0xa000
#define MISC_REG_AEU_GENERAL_ATTN_1 0xa004
#define MISC_REG_AEU_GENERAL_ATTN_10 0xa028
#define MISC_REG_AEU_GENERAL_ATTN_11 0xa02c
#define MISC_REG_AEU_GENERAL_ATTN_12 0xa030
#define MISC_REG_AEU_GENERAL_ATTN_2 0xa008
#define MISC_REG_AEU_GENERAL_ATTN_3 0xa00c
#define MISC_REG_AEU_GENERAL_ATTN_4 0xa010
#define MISC_REG_AEU_GENERAL_ATTN_5 0xa014
#define MISC_REG_AEU_GENERAL_ATTN_6 0xa018
#define MISC_REG_AEU_GENERAL_ATTN_7 0xa01c
#define MISC_REG_AEU_GENERAL_ATTN_8 0xa020
#define MISC_REG_AEU_GENERAL_ATTN_9 0xa024
#define MISC_REG_AEU_GENERAL_MASK 0xa61c
/* [RW 32] first 32b for inverting the input for function 0; for each bit:
0= do not invert; 1= invert; mapped as follows: [0] NIG attention for
function0; [1] NIG attention for function1; [2] GPIO1 mcp; [3] GPIO2 mcp;
[4] GPIO3 mcp; [5] GPIO4 mcp; [6] GPIO1 function 1; [7] GPIO2 function 1;
[8] GPIO3 function 1; [9] GPIO4 function 1; [10] PCIE glue/PXP VPD event
function0; [11] PCIE glue/PXP VPD event function1; [12] PCIE glue/PXP
Expansion ROM event0; [13] PCIE glue/PXP Expansion ROM event1; [14]
SPIO4; [15] SPIO5; [16] MSI/X indication for mcp; [17] MSI/X indication
for function 1; [18] BRB Parity error; [19] BRB Hw interrupt; [20] PRS
Parity error; [21] PRS Hw interrupt; [22] SRC Parity error; [23] SRC Hw
interrupt; [24] TSDM Parity error; [25] TSDM Hw interrupt; [26] TCM
Parity error; [27] TCM Hw interrupt; [28] TSEMI Parity error; [29] TSEMI
Hw interrupt; [30] PBF Parity error; [31] PBF Hw interrupt; */
#define MISC_REG_AEU_INVERTER_1_FUNC_0 0xa22c
#define MISC_REG_AEU_INVERTER_1_FUNC_1 0xa23c
/* [RW 32] second 32b for inverting the input for function 0; for each bit:
0= do not invert; 1= invert. mapped as follows: [0] PBClient Parity
error; [1] PBClient Hw interrupt; [2] QM Parity error; [3] QM Hw
interrupt; [4] Timers Parity error; [5] Timers Hw interrupt; [6] XSDM
Parity error; [7] XSDM Hw interrupt; [8] XCM Parity error; [9] XCM Hw
interrupt; [10] XSEMI Parity error; [11] XSEMI Hw interrupt; [12]
DoorbellQ Parity error; [13] DoorbellQ Hw interrupt; [14] NIG Parity
error; [15] NIG Hw interrupt; [16] Vaux PCI core Parity error; [17] Vaux
PCI core Hw interrupt; [18] Debug Parity error; [19] Debug Hw interrupt;
[20] USDM Parity error; [21] USDM Hw interrupt; [22] UCM Parity error;
[23] UCM Hw interrupt; [24] USEMI Parity error; [25] USEMI Hw interrupt;
[26] UPB Parity error; [27] UPB Hw interrupt; [28] CSDM Parity error;
[29] CSDM Hw interrupt; [30] CCM Parity error; [31] CCM Hw interrupt; */
#define MISC_REG_AEU_INVERTER_2_FUNC_0 0xa230
#define MISC_REG_AEU_INVERTER_2_FUNC_1 0xa240
/* [RW 10] [7:0] = mask 8 attention output signals toward IGU function0;
[9:8] = raserved. Zero = mask; one = unmask */
#define MISC_REG_AEU_MASK_ATTN_FUNC_0 0xa060
#define MISC_REG_AEU_MASK_ATTN_FUNC_1 0xa064
/* [RW 1] If set a system kill occurred */
#define MISC_REG_AEU_SYS_KILL_OCCURRED 0xa610
/* [RW 32] Represent the status of the input vector to the AEU when a system
kill occurred. The register is reset in por reset. Mapped as follows: [0]
NIG attention for function0; [1] NIG attention for function1; [2] GPIO1
mcp; [3] GPIO2 mcp; [4] GPIO3 mcp; [5] GPIO4 mcp; [6] GPIO1 function 1;
[7] GPIO2 function 1; [8] GPIO3 function 1; [9] GPIO4 function 1; [10]
PCIE glue/PXP VPD event function0; [11] PCIE glue/PXP VPD event
function1; [12] PCIE glue/PXP Expansion ROM event0; [13] PCIE glue/PXP
Expansion ROM event1; [14] SPIO4; [15] SPIO5; [16] MSI/X indication for
mcp; [17] MSI/X indication for function 1; [18] BRB Parity error; [19]
BRB Hw interrupt; [20] PRS Parity error; [21] PRS Hw interrupt; [22] SRC
Parity error; [23] SRC Hw interrupt; [24] TSDM Parity error; [25] TSDM Hw
interrupt; [26] TCM Parity error; [27] TCM Hw interrupt; [28] TSEMI
Parity error; [29] TSEMI Hw interrupt; [30] PBF Parity error; [31] PBF Hw
interrupt; */
#define MISC_REG_AEU_SYS_KILL_STATUS_0 0xa600
#define MISC_REG_AEU_SYS_KILL_STATUS_1 0xa604
#define MISC_REG_AEU_SYS_KILL_STATUS_2 0xa608
#define MISC_REG_AEU_SYS_KILL_STATUS_3 0xa60c
/* [R 4] This field indicates the type of the device. '0' - 2 Ports; '1' - 1
Port. */
#define MISC_REG_BOND_ID 0xa400
/* [R 8] These bits indicate the metal revision of the chip. This value
starts at 0x00 for each all-layer tape-out and increments by one for each
tape-out. */
#define MISC_REG_CHIP_METAL 0xa404
/* [R 16] These bits indicate the part number for the chip. */
#define MISC_REG_CHIP_NUM 0xa408
/* [R 4] These bits indicate the base revision of the chip. This value
starts at 0x0 for the A0 tape-out and increments by one for each
all-layer tape-out. */
#define MISC_REG_CHIP_REV 0xa40c
/* [RW 32] The following driver registers(1...16) represent 16 drivers and
32 clients. Each client can be controlled by one driver only. One in each
bit represent that this driver control the appropriate client (Ex: bit 5
is set means this driver control client number 5). addr1 = set; addr0 =
clear; read from both addresses will give the same result = status. write
to address 1 will set a request to control all the clients that their
appropriate bit (in the write command) is set. if the client is free (the
appropriate bit in all the other drivers is clear) one will be written to
that driver register; if the client isn't free the bit will remain zero.
if the appropriate bit is set (the driver request to gain control on a
client it already controls the ~MISC_REGISTERS_INT_STS.GENERIC_SW
interrupt will be asserted). write to address 0 will set a request to
free all the clients that their appropriate bit (in the write command) is
set. if the appropriate bit is clear (the driver request to free a client
it doesn't controls the ~MISC_REGISTERS_INT_STS.GENERIC_SW interrupt will
be asserted). */
#define MISC_REG_DRIVER_CONTROL_1 0xa510
#define MISC_REG_DRIVER_CONTROL_7 0xa3c8
/* [RW 1] e1hmf for WOL. If clr WOL signal o the PXP will be send on bit 0
only. */
#define MISC_REG_E1HMF_MODE 0xa5f8
/* [RW 32] Debug only: spare RW register reset by core reset */
#define MISC_REG_GENERIC_CR_0 0xa460
/* [RW 32] GPIO. [31-28] FLOAT port 0; [27-24] FLOAT port 0; When any of
these bits is written as a '1'; the corresponding SPIO bit will turn off
it's drivers and become an input. This is the reset state of all GPIO
pins. The read value of these bits will be a '1' if that last command
(#SET; #CLR; or #FLOAT) for this bit was a #FLOAT. (reset value 0xff).
[23-20] CLR port 1; 19-16] CLR port 0; When any of these bits is written
as a '1'; the corresponding GPIO bit will drive low. The read value of
these bits will be a '1' if that last command (#SET; #CLR; or #FLOAT) for
this bit was a #CLR. (reset value 0). [15-12] SET port 1; 11-8] port 0;
SET When any of these bits is written as a '1'; the corresponding GPIO
bit will drive high (if it has that capability). The read value of these
bits will be a '1' if that last command (#SET; #CLR; or #FLOAT) for this
bit was a #SET. (reset value 0). [7-4] VALUE port 1; [3-0] VALUE port 0;
RO; These bits indicate the read value of each of the eight GPIO pins.
This is the result value of the pin; not the drive value. Writing these
bits will have not effect. */
#define MISC_REG_GPIO 0xa490
/* [RW 8] These bits enable the GPIO_INTs to signals event to the
IGU/MCP.according to the following map: [0] p0_gpio_0; [1] p0_gpio_1; [2]
p0_gpio_2; [3] p0_gpio_3; [4] p1_gpio_0; [5] p1_gpio_1; [6] p1_gpio_2;
[7] p1_gpio_3; */
#define MISC_REG_GPIO_EVENT_EN 0xa2bc
/* [RW 32] GPIO INT. [31-28] OLD_CLR port1; [27-24] OLD_CLR port0; Writing a
'1' to these bit clears the corresponding bit in the #OLD_VALUE register.
This will acknowledge an interrupt on the falling edge of corresponding
GPIO input (reset value 0). [23-16] OLD_SET [23-16] port1; OLD_SET port0;
Writing a '1' to these bit sets the corresponding bit in the #OLD_VALUE
register. This will acknowledge an interrupt on the rising edge of
corresponding SPIO input (reset value 0). [15-12] OLD_VALUE [11-8] port1;
OLD_VALUE port0; RO; These bits indicate the old value of the GPIO input
value. When the ~INT_STATE bit is set; this bit indicates the OLD value
of the pin such that if ~INT_STATE is set and this bit is '0'; then the
interrupt is due to a low to high edge. If ~INT_STATE is set and this bit
is '1'; then the interrupt is due to a high to low edge (reset value 0).
[7-4] INT_STATE port1; [3-0] INT_STATE RO port0; These bits indicate the
current GPIO interrupt state for each GPIO pin. This bit is cleared when
the appropriate #OLD_SET or #OLD_CLR command bit is written. This bit is
set when the GPIO input does not match the current value in #OLD_VALUE
(reset value 0). */
#define MISC_REG_GPIO_INT 0xa494
/* [R 28] this field hold the last information that caused reserved
attention. bits [19:0] - address; [22:20] function; [23] reserved;
[27:24] the master that caused the attention - according to the following
encodeing:1 = pxp; 2 = mcp; 3 = usdm; 4 = tsdm; 5 = xsdm; 6 = csdm; 7 =
dbu; 8 = dmae */
#define MISC_REG_GRC_RSV_ATTN 0xa3c0
/* [R 28] this field hold the last information that caused timeout
attention. bits [19:0] - address; [22:20] function; [23] reserved;
[27:24] the master that caused the attention - according to the following
encodeing:1 = pxp; 2 = mcp; 3 = usdm; 4 = tsdm; 5 = xsdm; 6 = csdm; 7 =
dbu; 8 = dmae */
#define MISC_REG_GRC_TIMEOUT_ATTN 0xa3c4
/* [RW 1] Setting this bit enables a timer in the GRC block to timeout any
access that does not finish within
~misc_registers_grc_timout_val.grc_timeout_val cycles. When this bit is
cleared; this timeout is disabled. If this timeout occurs; the GRC shall
assert it attention output. */
#define MISC_REG_GRC_TIMEOUT_EN 0xa280
/* [RW 28] 28 LSB of LCPLL first register; reset val = 521. inside order of
the bits is: [2:0] OAC reset value 001) CML output buffer bias control;
111 for +40%; 011 for +20%; 001 for 0%; 000 for -20%. [5:3] Icp_ctrl
(reset value 001) Charge pump current control; 111 for 720u; 011 for
600u; 001 for 480u and 000 for 360u. [7:6] Bias_ctrl (reset value 00)
Global bias control; When bit 7 is high bias current will be 10 0gh; When
bit 6 is high bias will be 100w; Valid values are 00; 10; 01. [10:8]
Pll_observe (reset value 010) Bits to control observability. bit 10 is
for test bias; bit 9 is for test CK; bit 8 is test Vc. [12:11] Vth_ctrl
(reset value 00) Comparator threshold control. 00 for 0.6V; 01 for 0.54V
and 10 for 0.66V. [13] pllSeqStart (reset value 0) Enables VCO tuning
sequencer: 1= sequencer disabled; 0= sequencer enabled (inverted
internally). [14] reserved (reset value 0) Reset for VCO sequencer is
connected to RESET input directly. [15] capRetry_en (reset value 0)
enable retry on cap search failure (inverted). [16] freqMonitor_e (reset
value 0) bit to continuously monitor vco freq (inverted). [17]
freqDetRestart_en (reset value 0) bit to enable restart when not freq
locked (inverted). [18] freqDetRetry_en (reset value 0) bit to enable
retry on freq det failure(inverted). [19] pllForceFdone_en (reset value
0) bit to enable pllForceFdone & pllForceFpass into pllSeq. [20]
pllForceFdone (reset value 0) bit to force freqDone. [21] pllForceFpass
(reset value 0) bit to force freqPass. [22] pllForceDone_en (reset value
0) bit to enable pllForceCapDone. [23] pllForceCapDone (reset value 0)
bit to force capDone. [24] pllForceCapPass_en (reset value 0) bit to
enable pllForceCapPass. [25] pllForceCapPass (reset value 0) bit to force
capPass. [26] capRestart (reset value 0) bit to force cap sequencer to
restart. [27] capSelectM_en (reset value 0) bit to enable cap select
register bits. */
#define MISC_REG_LCPLL_CTRL_1 0xa2a4
#define MISC_REG_LCPLL_CTRL_REG_2 0xa2a8
/* [RW 4] Interrupt mask register #0 read/write */
#define MISC_REG_MISC_INT_MASK 0xa388
/* [RW 1] Parity mask register #0 read/write */
#define MISC_REG_MISC_PRTY_MASK 0xa398
/* [R 1] Parity register #0 read */
#define MISC_REG_MISC_PRTY_STS 0xa38c
#define MISC_REG_NIG_WOL_P0 0xa270
#define MISC_REG_NIG_WOL_P1 0xa274
/* [R 1] If set indicate that the pcie_rst_b was asserted without perst
assertion */
#define MISC_REG_PCIE_HOT_RESET 0xa618
/* [RW 32] 32 LSB of storm PLL first register; reset val = 0x 071d2911.
inside order of the bits is: [0] P1 divider[0] (reset value 1); [1] P1
divider[1] (reset value 0); [2] P1 divider[2] (reset value 0); [3] P1
divider[3] (reset value 0); [4] P2 divider[0] (reset value 1); [5] P2
divider[1] (reset value 0); [6] P2 divider[2] (reset value 0); [7] P2
divider[3] (reset value 0); [8] ph_det_dis (reset value 1); [9]
freq_det_dis (reset value 0); [10] Icpx[0] (reset value 0); [11] Icpx[1]
(reset value 1); [12] Icpx[2] (reset value 0); [13] Icpx[3] (reset value
1); [14] Icpx[4] (reset value 0); [15] Icpx[5] (reset value 0); [16]
Rx[0] (reset value 1); [17] Rx[1] (reset value 0); [18] vc_en (reset
value 1); [19] vco_rng[0] (reset value 1); [20] vco_rng[1] (reset value
1); [21] Kvco_xf[0] (reset value 0); [22] Kvco_xf[1] (reset value 0);
[23] Kvco_xf[2] (reset value 0); [24] Kvco_xs[0] (reset value 1); [25]
Kvco_xs[1] (reset value 1); [26] Kvco_xs[2] (reset value 1); [27]
testd_en (reset value 0); [28] testd_sel[0] (reset value 0); [29]
testd_sel[1] (reset value 0); [30] testd_sel[2] (reset value 0); [31]
testa_en (reset value 0); */
#define MISC_REG_PLL_STORM_CTRL_1 0xa294
#define MISC_REG_PLL_STORM_CTRL_2 0xa298
#define MISC_REG_PLL_STORM_CTRL_3 0xa29c
#define MISC_REG_PLL_STORM_CTRL_4 0xa2a0
/* [RW 32] reset reg#2; rite/read one = the specific block is out of reset;
write/read zero = the specific block is in reset; addr 0-wr- the write
value will be written to the register; addr 1-set - one will be written
to all the bits that have the value of one in the data written (bits that
have the value of zero will not be change) ; addr 2-clear - zero will be
written to all the bits that have the value of one in the data written
(bits that have the value of zero will not be change); addr 3-ignore;
read ignore from all addr except addr 00; inside order of the bits is:
[0] rst_bmac0; [1] rst_bmac1; [2] rst_emac0; [3] rst_emac1; [4] rst_grc;
[5] rst_mcp_n_reset_reg_hard_core; [6] rst_ mcp_n_hard_core_rst_b; [7]
rst_ mcp_n_reset_cmn_cpu; [8] rst_ mcp_n_reset_cmn_core; [9] rst_rbcn;
[10] rst_dbg; [11] rst_misc_core; [12] rst_dbue (UART); [13]
Pci_resetmdio_n; [14] rst_emac0_hard_core; [15] rst_emac1_hard_core; 16]
rst_pxp_rq_rd_wr; 31:17] reserved */
#define MISC_REG_RESET_REG_2 0xa590
/* [RW 20] 20 bit GRC address where the scratch-pad of the MCP that is
shared with the driver resides */
#define MISC_REG_SHARED_MEM_ADDR 0xa2b4
/* [RW 32] SPIO. [31-24] FLOAT When any of these bits is written as a '1';
the corresponding SPIO bit will turn off it's drivers and become an
input. This is the reset state of all SPIO pins. The read value of these
bits will be a '1' if that last command (#SET; #CL; or #FLOAT) for this
bit was a #FLOAT. (reset value 0xff). [23-16] CLR When any of these bits
is written as a '1'; the corresponding SPIO bit will drive low. The read
value of these bits will be a '1' if that last command (#SET; #CLR; or
#FLOAT) for this bit was a #CLR. (reset value 0). [15-8] SET When any of
these bits is written as a '1'; the corresponding SPIO bit will drive
high (if it has that capability). The read value of these bits will be a
'1' if that last command (#SET; #CLR; or #FLOAT) for this bit was a #SET.
(reset value 0). [7-0] VALUE RO; These bits indicate the read value of
each of the eight SPIO pins. This is the result value of the pin; not the
drive value. Writing these bits will have not effect. Each 8 bits field
is divided as follows: [0] VAUX Enable; when pulsed low; enables supply
from VAUX. (This is an output pin only; the FLOAT field is not applicable
for this pin); [1] VAUX Disable; when pulsed low; disables supply form
VAUX. (This is an output pin only; FLOAT field is not applicable for this
pin); [2] SEL_VAUX_B - Control to power switching logic. Drive low to
select VAUX supply. (This is an output pin only; it is not controlled by
the SET and CLR fields; it is controlled by the Main Power SM; the FLOAT
field is not applicable for this pin; only the VALUE fields is relevant -
it reflects the output value); [3] port swap [4] spio_4; [5] spio_5; [6]
Bit 0 of UMP device ID select; read by UMP firmware; [7] Bit 1 of UMP
device ID select; read by UMP firmware. */
#define MISC_REG_SPIO 0xa4fc
/* [RW 8] These bits enable the SPIO_INTs to signals event to the IGU/MC.
according to the following map: [3:0] reserved; [4] spio_4 [5] spio_5;
[7:0] reserved */
#define MISC_REG_SPIO_EVENT_EN 0xa2b8
/* [RW 32] SPIO INT. [31-24] OLD_CLR Writing a '1' to these bit clears the
corresponding bit in the #OLD_VALUE register. This will acknowledge an
interrupt on the falling edge of corresponding SPIO input (reset value
0). [23-16] OLD_SET Writing a '1' to these bit sets the corresponding bit
in the #OLD_VALUE register. This will acknowledge an interrupt on the
rising edge of corresponding SPIO input (reset value 0). [15-8] OLD_VALUE
RO; These bits indicate the old value of the SPIO input value. When the
~INT_STATE bit is set; this bit indicates the OLD value of the pin such
that if ~INT_STATE is set and this bit is '0'; then the interrupt is due
to a low to high edge. If ~INT_STATE is set and this bit is '1'; then the
interrupt is due to a high to low edge (reset value 0). [7-0] INT_STATE
RO; These bits indicate the current SPIO interrupt state for each SPIO
pin. This bit is cleared when the appropriate #OLD_SET or #OLD_CLR
command bit is written. This bit is set when the SPIO input does not
match the current value in #OLD_VALUE (reset value 0). */
#define MISC_REG_SPIO_INT 0xa500
/* [RW 32] reload value for counter 4 if reload; the value will be reload if
the counter reached zero and the reload bit
(~misc_registers_sw_timer_cfg_4.sw_timer_cfg_4[1] ) is set */
#define MISC_REG_SW_TIMER_RELOAD_VAL_4 0xa2fc
/* [RW 32] the value of the counter for sw timers1-8. there are 8 addresses
in this register. addres 0 - timer 1; address - timer 2�address 7 -
timer 8 */
#define MISC_REG_SW_TIMER_VAL 0xa5c0
/* [RW 1] Set by the MCP to remember if one or more of the drivers is/are
loaded; 0-prepare; -unprepare */
#define MISC_REG_UNPREPARED 0xa424
#define NIG_LLH0_BRB1_DRV_MASK_REG_LLH0_BRB1_DRV_MASK_BRCST (0x1<<0)
#define NIG_LLH0_BRB1_DRV_MASK_REG_LLH0_BRB1_DRV_MASK_MLCST (0x1<<1)
#define NIG_LLH0_BRB1_DRV_MASK_REG_LLH0_BRB1_DRV_MASK_NO_VLAN (0x1<<4)
#define NIG_LLH0_BRB1_DRV_MASK_REG_LLH0_BRB1_DRV_MASK_UNCST (0x1<<2)
#define NIG_LLH0_BRB1_DRV_MASK_REG_LLH0_BRB1_DRV_MASK_VLAN (0x1<<3)
#define NIG_MASK_INTERRUPT_PORT0_REG_MASK_EMAC0_MISC_MI_INT (0x1<<0)
#define NIG_MASK_INTERRUPT_PORT0_REG_MASK_SERDES0_LINK_STATUS (0x1<<9)
#define NIG_MASK_INTERRUPT_PORT0_REG_MASK_XGXS0_LINK10G (0x1<<15)
#define NIG_MASK_INTERRUPT_PORT0_REG_MASK_XGXS0_LINK_STATUS (0xf<<18)
/* [RW 1] Input enable for RX_BMAC0 IF */
#define NIG_REG_BMAC0_IN_EN 0x100ac
/* [RW 1] output enable for TX_BMAC0 IF */
#define NIG_REG_BMAC0_OUT_EN 0x100e0
/* [RW 1] output enable for TX BMAC pause port 0 IF */
#define NIG_REG_BMAC0_PAUSE_OUT_EN 0x10110
/* [RW 1] output enable for RX_BMAC0_REGS IF */
#define NIG_REG_BMAC0_REGS_OUT_EN 0x100e8
/* [RW 1] output enable for RX BRB1 port0 IF */
#define NIG_REG_BRB0_OUT_EN 0x100f8
/* [RW 1] Input enable for TX BRB1 pause port 0 IF */
#define NIG_REG_BRB0_PAUSE_IN_EN 0x100c4
/* [RW 1] output enable for RX BRB1 port1 IF */
#define NIG_REG_BRB1_OUT_EN 0x100fc
/* [RW 1] Input enable for TX BRB1 pause port 1 IF */
#define NIG_REG_BRB1_PAUSE_IN_EN 0x100c8
/* [RW 1] output enable for RX BRB1 LP IF */
#define NIG_REG_BRB_LB_OUT_EN 0x10100
/* [WB_W 82] Debug packet to LP from RBC; Data spelling:[63:0] data; 64]
error; [67:65]eop_bvalid; [68]eop; [69]sop; [70]port_id; 71]flush;
72:73]-vnic_num; 81:74]-sideband_info */
#define NIG_REG_DEBUG_PACKET_LB 0x10800
/* [RW 1] Input enable for TX Debug packet */
#define NIG_REG_EGRESS_DEBUG_IN_EN 0x100dc
/* [RW 1] If 1 - egress drain mode for port0 is active. In this mode all
packets from PBFare not forwarded to the MAC and just deleted from FIFO.
First packet may be deleted from the middle. And last packet will be
always deleted till the end. */
#define NIG_REG_EGRESS_DRAIN0_MODE 0x10060
/* [RW 1] Output enable to EMAC0 */
#define NIG_REG_EGRESS_EMAC0_OUT_EN 0x10120
/* [RW 1] MAC configuration for packets of port0. If 1 - all packet outputs
to emac for port0; other way to bmac for port0 */
#define NIG_REG_EGRESS_EMAC0_PORT 0x10058
/* [RW 1] Input enable for TX PBF user packet port0 IF */
#define NIG_REG_EGRESS_PBF0_IN_EN 0x100cc
/* [RW 1] Input enable for TX PBF user packet port1 IF */
#define NIG_REG_EGRESS_PBF1_IN_EN 0x100d0
/* [RW 1] Input enable for TX UMP management packet port0 IF */
#define NIG_REG_EGRESS_UMP0_IN_EN 0x100d4
/* [RW 1] Input enable for RX_EMAC0 IF */
#define NIG_REG_EMAC0_IN_EN 0x100a4
/* [RW 1] output enable for TX EMAC pause port 0 IF */
#define NIG_REG_EMAC0_PAUSE_OUT_EN 0x10118
/* [R 1] status from emac0. This bit is set when MDINT from either the
EXT_MDINT pin or from the Copper PHY is driven low. This condition must
be cleared in the attached PHY device that is driving the MINT pin. */
#define NIG_REG_EMAC0_STATUS_MISC_MI_INT 0x10494
/* [WB 48] This address space contains BMAC0 registers. The BMAC registers
are described in appendix A. In order to access the BMAC0 registers; the
base address; NIG_REGISTERS_INGRESS_BMAC0_MEM; Offset: 0x10c00; should be
added to each BMAC register offset */
#define NIG_REG_INGRESS_BMAC0_MEM 0x10c00
/* [WB 48] This address space contains BMAC1 registers. The BMAC registers
are described in appendix A. In order to access the BMAC0 registers; the
base address; NIG_REGISTERS_INGRESS_BMAC1_MEM; Offset: 0x11000; should be
added to each BMAC register offset */
#define NIG_REG_INGRESS_BMAC1_MEM 0x11000
/* [R 1] FIFO empty in EOP descriptor FIFO of LP in NIG_RX_EOP */
#define NIG_REG_INGRESS_EOP_LB_EMPTY 0x104e0
/* [RW 17] Debug only. RX_EOP_DSCR_lb_FIFO in NIG_RX_EOP. Data
packet_length[13:0]; mac_error[14]; trunc_error[15]; parity[16] */
#define NIG_REG_INGRESS_EOP_LB_FIFO 0x104e4
/* [RW 27] 0 - must be active for Everest A0; 1- for Everest B0 when latch
logic for interrupts must be used. Enable per bit of interrupt of
~latch_status.latch_status */
#define NIG_REG_LATCH_BC_0 0x16210
/* [RW 27] Latch for each interrupt from Unicore.b[0]
status_emac0_misc_mi_int; b[1] status_emac0_misc_mi_complete;
b[2]status_emac0_misc_cfg_change; b[3]status_emac0_misc_link_status;
b[4]status_emac0_misc_link_change; b[5]status_emac0_misc_attn;
b[6]status_serdes0_mac_crs; b[7]status_serdes0_autoneg_complete;
b[8]status_serdes0_fiber_rxact; b[9]status_serdes0_link_status;
b[10]status_serdes0_mr_page_rx; b[11]status_serdes0_cl73_an_complete;
b[12]status_serdes0_cl73_mr_page_rx; b[13]status_serdes0_rx_sigdet;
b[14]status_xgxs0_remotemdioreq; b[15]status_xgxs0_link10g;
b[16]status_xgxs0_autoneg_complete; b[17]status_xgxs0_fiber_rxact;
b[21:18]status_xgxs0_link_status; b[22]status_xgxs0_mr_page_rx;
b[23]status_xgxs0_cl73_an_complete; b[24]status_xgxs0_cl73_mr_page_rx;
b[25]status_xgxs0_rx_sigdet; b[26]status_xgxs0_mac_crs */
#define NIG_REG_LATCH_STATUS_0 0x18000
/* [RW 1] led 10g for port 0 */
#define NIG_REG_LED_10G_P0 0x10320
/* [RW 1] led 10g for port 1 */
#define NIG_REG_LED_10G_P1 0x10324
/* [RW 1] Port0: This bit is set to enable the use of the
~nig_registers_led_control_blink_rate_p0.led_control_blink_rate_p0 field
defined below. If this bit is cleared; then the blink rate will be about
8Hz. */
#define NIG_REG_LED_CONTROL_BLINK_RATE_ENA_P0 0x10318
/* [RW 12] Port0: Specifies the period of each blink cycle (on + off) for
Traffic LED in milliseconds. Must be a non-zero value. This 12-bit field
is reset to 0x080; giving a default blink period of approximately 8Hz. */
#define NIG_REG_LED_CONTROL_BLINK_RATE_P0 0x10310
/* [RW 1] Port0: If set along with the
~nig_registers_led_control_override_traffic_p0.led_control_override_traffic_p0
bit and ~nig_registers_led_control_traffic_p0.led_control_traffic_p0 LED
bit; the Traffic LED will blink with the blink rate specified in
~nig_registers_led_control_blink_rate_p0.led_control_blink_rate_p0 and
~nig_registers_led_control_blink_rate_ena_p0.led_control_blink_rate_ena_p0
fields. */
#define NIG_REG_LED_CONTROL_BLINK_TRAFFIC_P0 0x10308
/* [RW 1] Port0: If set overrides hardware control of the Traffic LED. The
Traffic LED will then be controlled via bit ~nig_registers_
led_control_traffic_p0.led_control_traffic_p0 and bit
~nig_registers_led_control_blink_traffic_p0.led_control_blink_traffic_p0 */
#define NIG_REG_LED_CONTROL_OVERRIDE_TRAFFIC_P0 0x102f8
/* [RW 1] Port0: If set along with the led_control_override_trafic_p0 bit;
turns on the Traffic LED. If the led_control_blink_traffic_p0 bit is also
set; the LED will blink with blink rate specified in
~nig_registers_led_control_blink_rate_p0.led_control_blink_rate_p0 and
~nig_regsters_led_control_blink_rate_ena_p0.led_control_blink_rate_ena_p0
fields. */
#define NIG_REG_LED_CONTROL_TRAFFIC_P0 0x10300
/* [RW 4] led mode for port0: 0 MAC; 1-3 PHY1; 4 MAC2; 5-7 PHY4; 8-MAC3;
9-11PHY7; 12 MAC4; 13-15 PHY10; */
#define NIG_REG_LED_MODE_P0 0x102f0
/* [RW 3] for port0 enable for llfc ppp and pause. b0 - brb1 enable; b1-
tsdm enable; b2- usdm enable */
#define NIG_REG_LLFC_EGRESS_SRC_ENABLE_0 0x16070
#define NIG_REG_LLFC_EGRESS_SRC_ENABLE_1 0x16074
/* [RW 1] SAFC enable for port0. This register may get 1 only when
~ppp_enable.ppp_enable = 0 and pause_enable.pause_enable =0 for the same
port */
#define NIG_REG_LLFC_ENABLE_0 0x16208
/* [RW 16] classes are high-priority for port0 */
#define NIG_REG_LLFC_HIGH_PRIORITY_CLASSES_0 0x16058
/* [RW 16] classes are low-priority for port0 */
#define NIG_REG_LLFC_LOW_PRIORITY_CLASSES_0 0x16060
/* [RW 1] Output enable of message to LLFC BMAC IF for port0 */
#define NIG_REG_LLFC_OUT_EN_0 0x160c8
#define NIG_REG_LLH0_ACPI_PAT_0_CRC 0x1015c
#define NIG_REG_LLH0_ACPI_PAT_6_LEN 0x10154
#define NIG_REG_LLH0_BRB1_DRV_MASK 0x10244
#define NIG_REG_LLH0_BRB1_DRV_MASK_MF 0x16048
/* [RW 1] send to BRB1 if no match on any of RMP rules. */
#define NIG_REG_LLH0_BRB1_NOT_MCP 0x1025c
/* [RW 2] Determine the classification participants. 0: no classification.1:
classification upon VLAN id. 2: classification upon MAC address. 3:
classification upon both VLAN id & MAC addr. */
#define NIG_REG_LLH0_CLS_TYPE 0x16080
/* [RW 32] cm header for llh0 */
#define NIG_REG_LLH0_CM_HEADER 0x1007c
#define NIG_REG_LLH0_DEST_IP_0_1 0x101dc
#define NIG_REG_LLH0_DEST_MAC_0_0 0x101c0
/* [RW 16] destination TCP address 1. The LLH will look for this address in
all incoming packets. */
#define NIG_REG_LLH0_DEST_TCP_0 0x10220
/* [RW 16] destination UDP address 1 The LLH will look for this address in
all incoming packets. */
#define NIG_REG_LLH0_DEST_UDP_0 0x10214
#define NIG_REG_LLH0_ERROR_MASK 0x1008c
/* [RW 8] event id for llh0 */
#define NIG_REG_LLH0_EVENT_ID 0x10084
#define NIG_REG_LLH0_FUNC_EN 0x160fc
#define NIG_REG_LLH0_FUNC_VLAN_ID 0x16100
/* [RW 1] Determine the IP version to look for in
~nig_registers_llh0_dest_ip_0.llh0_dest_ip_0. 0 - IPv6; 1-IPv4 */
#define NIG_REG_LLH0_IPV4_IPV6_0 0x10208
/* [RW 1] t bit for llh0 */
#define NIG_REG_LLH0_T_BIT 0x10074
/* [RW 12] VLAN ID 1. In case of VLAN packet the LLH will look for this ID. */
#define NIG_REG_LLH0_VLAN_ID_0 0x1022c
/* [RW 8] init credit counter for port0 in LLH */
#define NIG_REG_LLH0_XCM_INIT_CREDIT 0x10554
#define NIG_REG_LLH0_XCM_MASK 0x10130
#define NIG_REG_LLH1_BRB1_DRV_MASK 0x10248
/* [RW 1] send to BRB1 if no match on any of RMP rules. */
#define NIG_REG_LLH1_BRB1_NOT_MCP 0x102dc
/* [RW 2] Determine the classification participants. 0: no classification.1:
classification upon VLAN id. 2: classification upon MAC address. 3:
classification upon both VLAN id & MAC addr. */
#define NIG_REG_LLH1_CLS_TYPE 0x16084
/* [RW 32] cm header for llh1 */
#define NIG_REG_LLH1_CM_HEADER 0x10080
#define NIG_REG_LLH1_ERROR_MASK 0x10090
/* [RW 8] event id for llh1 */
#define NIG_REG_LLH1_EVENT_ID 0x10088
/* [RW 8] init credit counter for port1 in LLH */
#define NIG_REG_LLH1_XCM_INIT_CREDIT 0x10564
#define NIG_REG_LLH1_XCM_MASK 0x10134
/* [RW 1] When this bit is set; the LLH will expect all packets to be with
e1hov */
#define NIG_REG_LLH_E1HOV_MODE 0x160d8
/* [RW 1] When this bit is set; the LLH will classify the packet before
sending it to the BRB or calculating WoL on it. */
#define NIG_REG_LLH_MF_MODE 0x16024
#define NIG_REG_MASK_INTERRUPT_PORT0 0x10330
#define NIG_REG_MASK_INTERRUPT_PORT1 0x10334
/* [RW 1] Output signal from NIG to EMAC0. When set enables the EMAC0 block. */
#define NIG_REG_NIG_EMAC0_EN 0x1003c
/* [RW 1] Output signal from NIG to EMAC1. When set enables the EMAC1 block. */
#define NIG_REG_NIG_EMAC1_EN 0x10040
/* [RW 1] Output signal from NIG to TX_EMAC0. When set indicates to the
EMAC0 to strip the CRC from the ingress packets. */
#define NIG_REG_NIG_INGRESS_EMAC0_NO_CRC 0x10044
/* [R 32] Interrupt register #0 read */
#define NIG_REG_NIG_INT_STS_0 0x103b0
#define NIG_REG_NIG_INT_STS_1 0x103c0
/* [R 32] Parity register #0 read */
#define NIG_REG_NIG_PRTY_STS 0x103d0
/* [RW 1] Pause enable for port0. This register may get 1 only when
~safc_enable.safc_enable = 0 and ppp_enable.ppp_enable =0 for the same
port */
#define NIG_REG_PAUSE_ENABLE_0 0x160c0
/* [RW 1] Input enable for RX PBF LP IF */
#define NIG_REG_PBF_LB_IN_EN 0x100b4
/* [RW 1] Value of this register will be transmitted to port swap when
~nig_registers_strap_override.strap_override =1 */
#define NIG_REG_PORT_SWAP 0x10394
/* [RW 1] output enable for RX parser descriptor IF */
#define NIG_REG_PRS_EOP_OUT_EN 0x10104
/* [RW 1] Input enable for RX parser request IF */
#define NIG_REG_PRS_REQ_IN_EN 0x100b8
/* [RW 5] control to serdes - CL45 DEVAD */
#define NIG_REG_SERDES0_CTRL_MD_DEVAD 0x10370
/* [RW 1] control to serdes; 0 - clause 45; 1 - clause 22 */
#define NIG_REG_SERDES0_CTRL_MD_ST 0x1036c
/* [RW 5] control to serdes - CL22 PHY_ADD and CL45 PRTAD */
#define NIG_REG_SERDES0_CTRL_PHY_ADDR 0x10374
/* [R 1] status from serdes0 that inputs to interrupt logic of link status */
#define NIG_REG_SERDES0_STATUS_LINK_STATUS 0x10578
/* [R 32] Rx statistics : In user packets discarded due to BRB backpressure
for port0 */
#define NIG_REG_STAT0_BRB_DISCARD 0x105f0
/* [R 32] Rx statistics : In user packets truncated due to BRB backpressure
for port0 */
#define NIG_REG_STAT0_BRB_TRUNCATE 0x105f8
/* [WB_R 36] Tx statistics : Number of packets from emac0 or bmac0 that
between 1024 and 1522 bytes for port0 */
#define NIG_REG_STAT0_EGRESS_MAC_PKT0 0x10750
/* [WB_R 36] Tx statistics : Number of packets from emac0 or bmac0 that
between 1523 bytes and above for port0 */
#define NIG_REG_STAT0_EGRESS_MAC_PKT1 0x10760
/* [R 32] Rx statistics : In user packets discarded due to BRB backpressure
for port1 */
#define NIG_REG_STAT1_BRB_DISCARD 0x10628
/* [WB_R 36] Tx statistics : Number of packets from emac1 or bmac1 that
between 1024 and 1522 bytes for port1 */
#define NIG_REG_STAT1_EGRESS_MAC_PKT0 0x107a0
/* [WB_R 36] Tx statistics : Number of packets from emac1 or bmac1 that
between 1523 bytes and above for port1 */
#define NIG_REG_STAT1_EGRESS_MAC_PKT1 0x107b0
/* [WB_R 64] Rx statistics : User octets received for LP */
#define NIG_REG_STAT2_BRB_OCTET 0x107e0
#define NIG_REG_STATUS_INTERRUPT_PORT0 0x10328
#define NIG_REG_STATUS_INTERRUPT_PORT1 0x1032c
/* [RW 1] port swap mux selection. If this register equal to 0 then port
swap is equal to SPIO pin that inputs from ifmux_serdes_swap. If 1 then
ort swap is equal to ~nig_registers_port_swap.port_swap */
#define NIG_REG_STRAP_OVERRIDE 0x10398
/* [RW 1] output enable for RX_XCM0 IF */
#define NIG_REG_XCM0_OUT_EN 0x100f0
/* [RW 1] output enable for RX_XCM1 IF */
#define NIG_REG_XCM1_OUT_EN 0x100f4
/* [RW 1] control to xgxs - remote PHY in-band MDIO */
#define NIG_REG_XGXS0_CTRL_EXTREMOTEMDIOST 0x10348
/* [RW 5] control to xgxs - CL45 DEVAD */
#define NIG_REG_XGXS0_CTRL_MD_DEVAD 0x1033c
/* [RW 1] control to xgxs; 0 - clause 45; 1 - clause 22 */
#define NIG_REG_XGXS0_CTRL_MD_ST 0x10338
/* [RW 5] control to xgxs - CL22 PHY_ADD and CL45 PRTAD */
#define NIG_REG_XGXS0_CTRL_PHY_ADDR 0x10340
/* [R 1] status from xgxs0 that inputs to interrupt logic of link10g. */
#define NIG_REG_XGXS0_STATUS_LINK10G 0x10680
/* [R 4] status from xgxs0 that inputs to interrupt logic of link status */
#define NIG_REG_XGXS0_STATUS_LINK_STATUS 0x10684
/* [RW 2] selection for XGXS lane of port 0 in NIG_MUX block */
#define NIG_REG_XGXS_LANE_SEL_P0 0x102e8
/* [RW 1] selection for port0 for NIG_MUX block : 0 = SerDes; 1 = XGXS */
#define NIG_REG_XGXS_SERDES0_MODE_SEL 0x102e0
#define NIG_STATUS_INTERRUPT_PORT0_REG_STATUS_EMAC0_MISC_MI_INT (0x1<<0)
#define NIG_STATUS_INTERRUPT_PORT0_REG_STATUS_SERDES0_LINK_STATUS (0x1<<9)
#define NIG_STATUS_INTERRUPT_PORT0_REG_STATUS_XGXS0_LINK10G (0x1<<15)
#define NIG_STATUS_INTERRUPT_PORT0_REG_STATUS_XGXS0_LINK_STATUS (0xf<<18)
#define NIG_STATUS_INTERRUPT_PORT0_REG_STATUS_XGXS0_LINK_STATUS_SIZE 18
/* [RW 1] Disable processing further tasks from port 0 (after ending the
current task in process). */
#define PBF_REG_DISABLE_NEW_TASK_PROC_P0 0x14005c
/* [RW 1] Disable processing further tasks from port 1 (after ending the
current task in process). */
#define PBF_REG_DISABLE_NEW_TASK_PROC_P1 0x140060
/* [RW 1] Disable processing further tasks from port 4 (after ending the
current task in process). */
#define PBF_REG_DISABLE_NEW_TASK_PROC_P4 0x14006c
#define PBF_REG_IF_ENABLE_REG 0x140044
/* [RW 1] Init bit. When set the initial credits are copied to the credit
registers (except the port credits). Should be set and then reset after
the configuration of the block has ended. */
#define PBF_REG_INIT 0x140000
/* [RW 1] Init bit for port 0. When set the initial credit of port 0 is
copied to the credit register. Should be set and then reset after the
configuration of the port has ended. */
#define PBF_REG_INIT_P0 0x140004
/* [RW 1] Init bit for port 1. When set the initial credit of port 1 is
copied to the credit register. Should be set and then reset after the
configuration of the port has ended. */
#define PBF_REG_INIT_P1 0x140008
/* [RW 1] Init bit for port 4. When set the initial credit of port 4 is
copied to the credit register. Should be set and then reset after the
configuration of the port has ended. */
#define PBF_REG_INIT_P4 0x14000c
/* [RW 1] Enable for mac interface 0. */
#define PBF_REG_MAC_IF0_ENABLE 0x140030
/* [RW 1] Enable for mac interface 1. */
#define PBF_REG_MAC_IF1_ENABLE 0x140034
/* [RW 1] Enable for the loopback interface. */
#define PBF_REG_MAC_LB_ENABLE 0x140040
/* [RW 10] Port 0 threshold used by arbiter in 16 byte lines used when pause
not suppoterd. */
#define PBF_REG_P0_ARB_THRSH 0x1400e4
/* [R 11] Current credit for port 0 in the tx port buffers in 16 byte lines. */
#define PBF_REG_P0_CREDIT 0x140200
/* [RW 11] Initial credit for port 0 in the tx port buffers in 16 byte
lines. */
#define PBF_REG_P0_INIT_CRD 0x1400d0
/* [RW 1] Indication that pause is enabled for port 0. */
#define PBF_REG_P0_PAUSE_ENABLE 0x140014
/* [R 8] Number of tasks in port 0 task queue. */
#define PBF_REG_P0_TASK_CNT 0x140204
/* [R 11] Current credit for port 1 in the tx port buffers in 16 byte lines. */
#define PBF_REG_P1_CREDIT 0x140208
/* [RW 11] Initial credit for port 1 in the tx port buffers in 16 byte
lines. */
#define PBF_REG_P1_INIT_CRD 0x1400d4
/* [R 8] Number of tasks in port 1 task queue. */
#define PBF_REG_P1_TASK_CNT 0x14020c
/* [R 11] Current credit for port 4 in the tx port buffers in 16 byte lines. */
#define PBF_REG_P4_CREDIT 0x140210
/* [RW 11] Initial credit for port 4 in the tx port buffers in 16 byte
lines. */
#define PBF_REG_P4_INIT_CRD 0x1400e0
/* [R 8] Number of tasks in port 4 task queue. */
#define PBF_REG_P4_TASK_CNT 0x140214
/* [RW 5] Interrupt mask register #0 read/write */
#define PBF_REG_PBF_INT_MASK 0x1401d4
/* [R 5] Interrupt register #0 read */
#define PBF_REG_PBF_INT_STS 0x1401c8
#define PB_REG_CONTROL 0
/* [RW 2] Interrupt mask register #0 read/write */
#define PB_REG_PB_INT_MASK 0x28
/* [R 2] Interrupt register #0 read */
#define PB_REG_PB_INT_STS 0x1c
/* [RW 4] Parity mask register #0 read/write */
#define PB_REG_PB_PRTY_MASK 0x38
/* [R 4] Parity register #0 read */
#define PB_REG_PB_PRTY_STS 0x2c
#define PRS_REG_A_PRSU_20 0x40134
/* [R 8] debug only: CFC load request current credit. Transaction based. */
#define PRS_REG_CFC_LD_CURRENT_CREDIT 0x40164
/* [R 8] debug only: CFC search request current credit. Transaction based. */
#define PRS_REG_CFC_SEARCH_CURRENT_CREDIT 0x40168
/* [RW 6] The initial credit for the search message to the CFC interface.
Credit is transaction based. */
#define PRS_REG_CFC_SEARCH_INITIAL_CREDIT 0x4011c
/* [RW 24] CID for port 0 if no match */
#define PRS_REG_CID_PORT_0 0x400fc
/* [RW 32] The CM header for flush message where 'load existed' bit in CFC
load response is reset and packet type is 0. Used in packet start message
to TCM. */
#define PRS_REG_CM_HDR_FLUSH_LOAD_TYPE_0 0x400dc
#define PRS_REG_CM_HDR_FLUSH_LOAD_TYPE_1 0x400e0
#define PRS_REG_CM_HDR_FLUSH_LOAD_TYPE_2 0x400e4
#define PRS_REG_CM_HDR_FLUSH_LOAD_TYPE_3 0x400e8
#define PRS_REG_CM_HDR_FLUSH_LOAD_TYPE_4 0x400ec
#define PRS_REG_CM_HDR_FLUSH_LOAD_TYPE_5 0x400f0
/* [RW 32] The CM header for flush message where 'load existed' bit in CFC
load response is set and packet type is 0. Used in packet start message
to TCM. */
#define PRS_REG_CM_HDR_FLUSH_NO_LOAD_TYPE_0 0x400bc
#define PRS_REG_CM_HDR_FLUSH_NO_LOAD_TYPE_1 0x400c0
#define PRS_REG_CM_HDR_FLUSH_NO_LOAD_TYPE_2 0x400c4
#define PRS_REG_CM_HDR_FLUSH_NO_LOAD_TYPE_3 0x400c8
#define PRS_REG_CM_HDR_FLUSH_NO_LOAD_TYPE_4 0x400cc
#define PRS_REG_CM_HDR_FLUSH_NO_LOAD_TYPE_5 0x400d0
/* [RW 32] The CM header for a match and packet type 1 for loopback port.
Used in packet start message to TCM. */
#define PRS_REG_CM_HDR_LOOPBACK_TYPE_1 0x4009c
#define PRS_REG_CM_HDR_LOOPBACK_TYPE_2 0x400a0
#define PRS_REG_CM_HDR_LOOPBACK_TYPE_3 0x400a4
#define PRS_REG_CM_HDR_LOOPBACK_TYPE_4 0x400a8
/* [RW 32] The CM header for a match and packet type 0. Used in packet start
message to TCM. */
#define PRS_REG_CM_HDR_TYPE_0 0x40078
#define PRS_REG_CM_HDR_TYPE_1 0x4007c
#define PRS_REG_CM_HDR_TYPE_2 0x40080
#define PRS_REG_CM_HDR_TYPE_3 0x40084
#define PRS_REG_CM_HDR_TYPE_4 0x40088
/* [RW 32] The CM header in case there was not a match on the connection */
#define PRS_REG_CM_NO_MATCH_HDR 0x400b8
/* [RW 1] Indicates if in e1hov mode. 0=non-e1hov mode; 1=e1hov mode. */
#define PRS_REG_E1HOV_MODE 0x401c8
/* [RW 8] The 8-bit event ID for a match and packet type 1. Used in packet
start message to TCM. */
#define PRS_REG_EVENT_ID_1 0x40054
#define PRS_REG_EVENT_ID_2 0x40058
#define PRS_REG_EVENT_ID_3 0x4005c
/* [RW 16] The Ethernet type value for FCoE */
#define PRS_REG_FCOE_TYPE 0x401d0
/* [RW 8] Context region for flush packet with packet type 0. Used in CFC
load request message. */
#define PRS_REG_FLUSH_REGIONS_TYPE_0 0x40004
#define PRS_REG_FLUSH_REGIONS_TYPE_1 0x40008
#define PRS_REG_FLUSH_REGIONS_TYPE_2 0x4000c
#define PRS_REG_FLUSH_REGIONS_TYPE_3 0x40010
#define PRS_REG_FLUSH_REGIONS_TYPE_4 0x40014
#define PRS_REG_FLUSH_REGIONS_TYPE_5 0x40018
#define PRS_REG_FLUSH_REGIONS_TYPE_6 0x4001c
#define PRS_REG_FLUSH_REGIONS_TYPE_7 0x40020
/* [RW 4] The increment value to send in the CFC load request message */
#define PRS_REG_INC_VALUE 0x40048
/* [RW 1] If set indicates not to send messages to CFC on received packets */
#define PRS_REG_NIC_MODE 0x40138
/* [RW 8] The 8-bit event ID for cases where there is no match on the
connection. Used in packet start message to TCM. */
#define PRS_REG_NO_MATCH_EVENT_ID 0x40070
/* [ST 24] The number of input CFC flush packets */
#define PRS_REG_NUM_OF_CFC_FLUSH_MESSAGES 0x40128
/* [ST 32] The number of cycles the Parser halted its operation since it
could not allocate the next serial number */
#define PRS_REG_NUM_OF_DEAD_CYCLES 0x40130
/* [ST 24] The number of input packets */
#define PRS_REG_NUM_OF_PACKETS 0x40124
/* [ST 24] The number of input transparent flush packets */
#define PRS_REG_NUM_OF_TRANSPARENT_FLUSH_MESSAGES 0x4012c
/* [RW 8] Context region for received Ethernet packet with a match and
packet type 0. Used in CFC load request message */
#define PRS_REG_PACKET_REGIONS_TYPE_0 0x40028
#define PRS_REG_PACKET_REGIONS_TYPE_1 0x4002c
#define PRS_REG_PACKET_REGIONS_TYPE_2 0x40030
#define PRS_REG_PACKET_REGIONS_TYPE_3 0x40034
#define PRS_REG_PACKET_REGIONS_TYPE_4 0x40038
#define PRS_REG_PACKET_REGIONS_TYPE_5 0x4003c
#define PRS_REG_PACKET_REGIONS_TYPE_6 0x40040
#define PRS_REG_PACKET_REGIONS_TYPE_7 0x40044
/* [R 2] debug only: Number of pending requests for CAC on port 0. */
#define PRS_REG_PENDING_BRB_CAC0_RQ 0x40174
/* [R 2] debug only: Number of pending requests for header parsing. */
#define PRS_REG_PENDING_BRB_PRS_RQ 0x40170
/* [R 1] Interrupt register #0 read */
#define PRS_REG_PRS_INT_STS 0x40188
/* [RW 8] Parity mask register #0 read/write */
#define PRS_REG_PRS_PRTY_MASK 0x401a4
/* [R 8] Parity register #0 read */
#define PRS_REG_PRS_PRTY_STS 0x40198
/* [RW 8] Context region for pure acknowledge packets. Used in CFC load
request message */
#define PRS_REG_PURE_REGIONS 0x40024
/* [R 32] debug only: Serial number status lsb 32 bits. '1' indicates this
serail number was released by SDM but cannot be used because a previous
serial number was not released. */
#define PRS_REG_SERIAL_NUM_STATUS_LSB 0x40154
/* [R 32] debug only: Serial number status msb 32 bits. '1' indicates this
serail number was released by SDM but cannot be used because a previous
serial number was not released. */
#define PRS_REG_SERIAL_NUM_STATUS_MSB 0x40158
/* [R 4] debug only: SRC current credit. Transaction based. */
#define PRS_REG_SRC_CURRENT_CREDIT 0x4016c
/* [R 8] debug only: TCM current credit. Cycle based. */
#define PRS_REG_TCM_CURRENT_CREDIT 0x40160
/* [R 8] debug only: TSDM current credit. Transaction based. */
#define PRS_REG_TSDM_CURRENT_CREDIT 0x4015c
/* [R 6] Debug only: Number of used entries in the data FIFO */
#define PXP2_REG_HST_DATA_FIFO_STATUS 0x12047c
/* [R 7] Debug only: Number of used entries in the header FIFO */
#define PXP2_REG_HST_HEADER_FIFO_STATUS 0x120478
#define PXP2_REG_PGL_ADDR_88_F0 0x120534
#define PXP2_REG_PGL_ADDR_8C_F0 0x120538
#define PXP2_REG_PGL_ADDR_90_F0 0x12053c
#define PXP2_REG_PGL_ADDR_94_F0 0x120540
#define PXP2_REG_PGL_CONTROL0 0x120490
#define PXP2_REG_PGL_CONTROL1 0x120514
#define PXP2_REG_PGL_DEBUG 0x120520
/* [RW 32] third dword data of expansion rom request. this register is
special. reading from it provides a vector outstanding read requests. if
a bit is zero it means that a read request on the corresponding tag did
not finish yet (not all completions have arrived for it) */
#define PXP2_REG_PGL_EXP_ROM2 0x120808
/* [RW 32] Inbound interrupt table for CSDM: bits[31:16]-mask;
its[15:0]-address */
#define PXP2_REG_PGL_INT_CSDM_0 0x1204f4
#define PXP2_REG_PGL_INT_CSDM_1 0x1204f8
#define PXP2_REG_PGL_INT_CSDM_2 0x1204fc
#define PXP2_REG_PGL_INT_CSDM_3 0x120500
#define PXP2_REG_PGL_INT_CSDM_4 0x120504
#define PXP2_REG_PGL_INT_CSDM_5 0x120508
#define PXP2_REG_PGL_INT_CSDM_6 0x12050c
#define PXP2_REG_PGL_INT_CSDM_7 0x120510
/* [RW 32] Inbound interrupt table for TSDM: bits[31:16]-mask;
its[15:0]-address */
#define PXP2_REG_PGL_INT_TSDM_0 0x120494
#define PXP2_REG_PGL_INT_TSDM_1 0x120498
#define PXP2_REG_PGL_INT_TSDM_2 0x12049c
#define PXP2_REG_PGL_INT_TSDM_3 0x1204a0
#define PXP2_REG_PGL_INT_TSDM_4 0x1204a4
#define PXP2_REG_PGL_INT_TSDM_5 0x1204a8
#define PXP2_REG_PGL_INT_TSDM_6 0x1204ac
#define PXP2_REG_PGL_INT_TSDM_7 0x1204b0
/* [RW 32] Inbound interrupt table for USDM: bits[31:16]-mask;
its[15:0]-address */
#define PXP2_REG_PGL_INT_USDM_0 0x1204b4
#define PXP2_REG_PGL_INT_USDM_1 0x1204b8
#define PXP2_REG_PGL_INT_USDM_2 0x1204bc
#define PXP2_REG_PGL_INT_USDM_3 0x1204c0
#define PXP2_REG_PGL_INT_USDM_4 0x1204c4
#define PXP2_REG_PGL_INT_USDM_5 0x1204c8
#define PXP2_REG_PGL_INT_USDM_6 0x1204cc
#define PXP2_REG_PGL_INT_USDM_7 0x1204d0
/* [RW 32] Inbound interrupt table for XSDM: bits[31:16]-mask;
its[15:0]-address */
#define PXP2_REG_PGL_INT_XSDM_0 0x1204d4
#define PXP2_REG_PGL_INT_XSDM_1 0x1204d8
#define PXP2_REG_PGL_INT_XSDM_2 0x1204dc
#define PXP2_REG_PGL_INT_XSDM_3 0x1204e0
#define PXP2_REG_PGL_INT_XSDM_4 0x1204e4
#define PXP2_REG_PGL_INT_XSDM_5 0x1204e8
#define PXP2_REG_PGL_INT_XSDM_6 0x1204ec
#define PXP2_REG_PGL_INT_XSDM_7 0x1204f0
/* [RW 3] this field allows one function to pretend being another function
when accessing any BAR mapped resource within the device. the value of
the field is the number of the function that will be accessed
effectively. after software write to this bit it must read it in order to
know that the new value is updated */
#define PXP2_REG_PGL_PRETEND_FUNC_F0 0x120674
#define PXP2_REG_PGL_PRETEND_FUNC_F1 0x120678
#define PXP2_REG_PGL_PRETEND_FUNC_F2 0x12067c
#define PXP2_REG_PGL_PRETEND_FUNC_F3 0x120680
#define PXP2_REG_PGL_PRETEND_FUNC_F4 0x120684
#define PXP2_REG_PGL_PRETEND_FUNC_F5 0x120688
#define PXP2_REG_PGL_PRETEND_FUNC_F6 0x12068c
#define PXP2_REG_PGL_PRETEND_FUNC_F7 0x120690
/* [R 1] this bit indicates that a read request was blocked because of
bus_master_en was deasserted */
#define PXP2_REG_PGL_READ_BLOCKED 0x120568
#define PXP2_REG_PGL_TAGS_LIMIT 0x1205a8
/* [R 18] debug only */
#define PXP2_REG_PGL_TXW_CDTS 0x12052c
/* [R 1] this bit indicates that a write request was blocked because of
bus_master_en was deasserted */
#define PXP2_REG_PGL_WRITE_BLOCKED 0x120564
#define PXP2_REG_PSWRQ_BW_ADD1 0x1201c0
#define PXP2_REG_PSWRQ_BW_ADD10 0x1201e4
#define PXP2_REG_PSWRQ_BW_ADD11 0x1201e8
#define PXP2_REG_PSWRQ_BW_ADD2 0x1201c4
#define PXP2_REG_PSWRQ_BW_ADD28 0x120228
#define PXP2_REG_PSWRQ_BW_ADD3 0x1201c8
#define PXP2_REG_PSWRQ_BW_ADD6 0x1201d4
#define PXP2_REG_PSWRQ_BW_ADD7 0x1201d8
#define PXP2_REG_PSWRQ_BW_ADD8 0x1201dc
#define PXP2_REG_PSWRQ_BW_ADD9 0x1201e0
#define PXP2_REG_PSWRQ_BW_CREDIT 0x12032c
#define PXP2_REG_PSWRQ_BW_L1 0x1202b0
#define PXP2_REG_PSWRQ_BW_L10 0x1202d4
#define PXP2_REG_PSWRQ_BW_L11 0x1202d8
#define PXP2_REG_PSWRQ_BW_L2 0x1202b4
#define PXP2_REG_PSWRQ_BW_L28 0x120318
#define PXP2_REG_PSWRQ_BW_L3 0x1202b8
#define PXP2_REG_PSWRQ_BW_L6 0x1202c4
#define PXP2_REG_PSWRQ_BW_L7 0x1202c8
#define PXP2_REG_PSWRQ_BW_L8 0x1202cc
#define PXP2_REG_PSWRQ_BW_L9 0x1202d0
#define PXP2_REG_PSWRQ_BW_RD 0x120324
#define PXP2_REG_PSWRQ_BW_UB1 0x120238
#define PXP2_REG_PSWRQ_BW_UB10 0x12025c
#define PXP2_REG_PSWRQ_BW_UB11 0x120260
#define PXP2_REG_PSWRQ_BW_UB2 0x12023c
#define PXP2_REG_PSWRQ_BW_UB28 0x1202a0
#define PXP2_REG_PSWRQ_BW_UB3 0x120240
#define PXP2_REG_PSWRQ_BW_UB6 0x12024c
#define PXP2_REG_PSWRQ_BW_UB7 0x120250
#define PXP2_REG_PSWRQ_BW_UB8 0x120254
#define PXP2_REG_PSWRQ_BW_UB9 0x120258
#define PXP2_REG_PSWRQ_BW_WR 0x120328
#define PXP2_REG_PSWRQ_CDU0_L2P 0x120000
#define PXP2_REG_PSWRQ_QM0_L2P 0x120038
#define PXP2_REG_PSWRQ_SRC0_L2P 0x120054
#define PXP2_REG_PSWRQ_TM0_L2P 0x12001c
#define PXP2_REG_PSWRQ_TSDM0_L2P 0x1200e0
/* [RW 32] Interrupt mask register #0 read/write */
#define PXP2_REG_PXP2_INT_MASK_0 0x120578
/* [R 32] Interrupt register #0 read */
#define PXP2_REG_PXP2_INT_STS_0 0x12056c
#define PXP2_REG_PXP2_INT_STS_1 0x120608
/* [RC 32] Interrupt register #0 read clear */
#define PXP2_REG_PXP2_INT_STS_CLR_0 0x120570
/* [RW 32] Parity mask register #0 read/write */
#define PXP2_REG_PXP2_PRTY_MASK_0 0x120588
#define PXP2_REG_PXP2_PRTY_MASK_1 0x120598
/* [R 32] Parity register #0 read */
#define PXP2_REG_PXP2_PRTY_STS_0 0x12057c
#define PXP2_REG_PXP2_PRTY_STS_1 0x12058c
/* [R 1] Debug only: The 'almost full' indication from each fifo (gives
indication about backpressure) */
#define PXP2_REG_RD_ALMOST_FULL_0 0x120424
/* [R 8] Debug only: The blocks counter - number of unused block ids */
#define PXP2_REG_RD_BLK_CNT 0x120418
/* [RW 8] Debug only: Total number of available blocks in Tetris Buffer.
Must be bigger than 6. Normally should not be changed. */
#define PXP2_REG_RD_BLK_NUM_CFG 0x12040c
/* [RW 2] CDU byte swapping mode configuration for master read requests */
#define PXP2_REG_RD_CDURD_SWAP_MODE 0x120404
/* [RW 1] When '1'; inputs to the PSWRD block are ignored */
#define PXP2_REG_RD_DISABLE_INPUTS 0x120374
/* [R 1] PSWRD internal memories initialization is done */
#define PXP2_REG_RD_INIT_DONE 0x120370
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq10 */
#define PXP2_REG_RD_MAX_BLKS_VQ10 0x1203a0
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq11 */
#define PXP2_REG_RD_MAX_BLKS_VQ11 0x1203a4
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq17 */
#define PXP2_REG_RD_MAX_BLKS_VQ17 0x1203bc
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq18 */
#define PXP2_REG_RD_MAX_BLKS_VQ18 0x1203c0
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq19 */
#define PXP2_REG_RD_MAX_BLKS_VQ19 0x1203c4
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq22 */
#define PXP2_REG_RD_MAX_BLKS_VQ22 0x1203d0
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq25 */
#define PXP2_REG_RD_MAX_BLKS_VQ25 0x1203dc
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq6 */
#define PXP2_REG_RD_MAX_BLKS_VQ6 0x120390
/* [RW 8] The maximum number of blocks in Tetris Buffer that can be
allocated for vq9 */
#define PXP2_REG_RD_MAX_BLKS_VQ9 0x12039c
/* [RW 2] PBF byte swapping mode configuration for master read requests */
#define PXP2_REG_RD_PBF_SWAP_MODE 0x1203f4
/* [R 1] Debug only: Indication if delivery ports are idle */
#define PXP2_REG_RD_PORT_IS_IDLE_0 0x12041c
#define PXP2_REG_RD_PORT_IS_IDLE_1 0x120420
/* [RW 2] QM byte swapping mode configuration for master read requests */
#define PXP2_REG_RD_QM_SWAP_MODE 0x1203f8
/* [R 7] Debug only: The SR counter - number of unused sub request ids */
#define PXP2_REG_RD_SR_CNT 0x120414
/* [RW 2] SRC byte swapping mode configuration for master read requests */
#define PXP2_REG_RD_SRC_SWAP_MODE 0x120400
/* [RW 7] Debug only: Total number of available PCI read sub-requests. Must
be bigger than 1. Normally should not be changed. */
#define PXP2_REG_RD_SR_NUM_CFG 0x120408
/* [RW 1] Signals the PSWRD block to start initializing internal memories */
#define PXP2_REG_RD_START_INIT 0x12036c
/* [RW 2] TM byte swapping mode configuration for master read requests */
#define PXP2_REG_RD_TM_SWAP_MODE 0x1203fc
/* [RW 10] Bandwidth addition to VQ0 write requests */
#define PXP2_REG_RQ_BW_RD_ADD0 0x1201bc
/* [RW 10] Bandwidth addition to VQ12 read requests */
#define PXP2_REG_RQ_BW_RD_ADD12 0x1201ec
/* [RW 10] Bandwidth addition to VQ13 read requests */
#define PXP2_REG_RQ_BW_RD_ADD13 0x1201f0
/* [RW 10] Bandwidth addition to VQ14 read requests */
#define PXP2_REG_RQ_BW_RD_ADD14 0x1201f4
/* [RW 10] Bandwidth addition to VQ15 read requests */
#define PXP2_REG_RQ_BW_RD_ADD15 0x1201f8
/* [RW 10] Bandwidth addition to VQ16 read requests */
#define PXP2_REG_RQ_BW_RD_ADD16 0x1201fc
/* [RW 10] Bandwidth addition to VQ17 read requests */
#define PXP2_REG_RQ_BW_RD_ADD17 0x120200
/* [RW 10] Bandwidth addition to VQ18 read requests */
#define PXP2_REG_RQ_BW_RD_ADD18 0x120204
/* [RW 10] Bandwidth addition to VQ19 read requests */
#define PXP2_REG_RQ_BW_RD_ADD19 0x120208
/* [RW 10] Bandwidth addition to VQ20 read requests */
#define PXP2_REG_RQ_BW_RD_ADD20 0x12020c
/* [RW 10] Bandwidth addition to VQ22 read requests */
#define PXP2_REG_RQ_BW_RD_ADD22 0x120210
/* [RW 10] Bandwidth addition to VQ23 read requests */
#define PXP2_REG_RQ_BW_RD_ADD23 0x120214
/* [RW 10] Bandwidth addition to VQ24 read requests */
#define PXP2_REG_RQ_BW_RD_ADD24 0x120218
/* [RW 10] Bandwidth addition to VQ25 read requests */
#define PXP2_REG_RQ_BW_RD_ADD25 0x12021c
/* [RW 10] Bandwidth addition to VQ26 read requests */
#define PXP2_REG_RQ_BW_RD_ADD26 0x120220
/* [RW 10] Bandwidth addition to VQ27 read requests */
#define PXP2_REG_RQ_BW_RD_ADD27 0x120224
/* [RW 10] Bandwidth addition to VQ4 read requests */
#define PXP2_REG_RQ_BW_RD_ADD4 0x1201cc
/* [RW 10] Bandwidth addition to VQ5 read requests */
#define PXP2_REG_RQ_BW_RD_ADD5 0x1201d0
/* [RW 10] Bandwidth Typical L for VQ0 Read requests */
#define PXP2_REG_RQ_BW_RD_L0 0x1202ac
/* [RW 10] Bandwidth Typical L for VQ12 Read requests */
#define PXP2_REG_RQ_BW_RD_L12 0x1202dc
/* [RW 10] Bandwidth Typical L for VQ13 Read requests */
#define PXP2_REG_RQ_BW_RD_L13 0x1202e0
/* [RW 10] Bandwidth Typical L for VQ14 Read requests */
#define PXP2_REG_RQ_BW_RD_L14 0x1202e4
/* [RW 10] Bandwidth Typical L for VQ15 Read requests */
#define PXP2_REG_RQ_BW_RD_L15 0x1202e8
/* [RW 10] Bandwidth Typical L for VQ16 Read requests */
#define PXP2_REG_RQ_BW_RD_L16 0x1202ec
/* [RW 10] Bandwidth Typical L for VQ17 Read requests */
#define PXP2_REG_RQ_BW_RD_L17 0x1202f0
/* [RW 10] Bandwidth Typical L for VQ18 Read requests */
#define PXP2_REG_RQ_BW_RD_L18 0x1202f4
/* [RW 10] Bandwidth Typical L for VQ19 Read requests */
#define PXP2_REG_RQ_BW_RD_L19 0x1202f8
/* [RW 10] Bandwidth Typical L for VQ20 Read requests */
#define PXP2_REG_RQ_BW_RD_L20 0x1202fc
/* [RW 10] Bandwidth Typical L for VQ22 Read requests */
#define PXP2_REG_RQ_BW_RD_L22 0x120300
/* [RW 10] Bandwidth Typical L for VQ23 Read requests */
#define PXP2_REG_RQ_BW_RD_L23 0x120304
/* [RW 10] Bandwidth Typical L for VQ24 Read requests */
#define PXP2_REG_RQ_BW_RD_L24 0x120308
/* [RW 10] Bandwidth Typical L for VQ25 Read requests */
#define PXP2_REG_RQ_BW_RD_L25 0x12030c
/* [RW 10] Bandwidth Typical L for VQ26 Read requests */
#define PXP2_REG_RQ_BW_RD_L26 0x120310
/* [RW 10] Bandwidth Typical L for VQ27 Read requests */
#define PXP2_REG_RQ_BW_RD_L27 0x120314
/* [RW 10] Bandwidth Typical L for VQ4 Read requests */
#define PXP2_REG_RQ_BW_RD_L4 0x1202bc
/* [RW 10] Bandwidth Typical L for VQ5 Read- currently not used */
#define PXP2_REG_RQ_BW_RD_L5 0x1202c0
/* [RW 7] Bandwidth upper bound for VQ0 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND0 0x120234
/* [RW 7] Bandwidth upper bound for VQ12 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND12 0x120264
/* [RW 7] Bandwidth upper bound for VQ13 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND13 0x120268
/* [RW 7] Bandwidth upper bound for VQ14 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND14 0x12026c
/* [RW 7] Bandwidth upper bound for VQ15 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND15 0x120270
/* [RW 7] Bandwidth upper bound for VQ16 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND16 0x120274
/* [RW 7] Bandwidth upper bound for VQ17 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND17 0x120278
/* [RW 7] Bandwidth upper bound for VQ18 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND18 0x12027c
/* [RW 7] Bandwidth upper bound for VQ19 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND19 0x120280
/* [RW 7] Bandwidth upper bound for VQ20 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND20 0x120284
/* [RW 7] Bandwidth upper bound for VQ22 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND22 0x120288
/* [RW 7] Bandwidth upper bound for VQ23 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND23 0x12028c
/* [RW 7] Bandwidth upper bound for VQ24 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND24 0x120290
/* [RW 7] Bandwidth upper bound for VQ25 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND25 0x120294
/* [RW 7] Bandwidth upper bound for VQ26 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND26 0x120298
/* [RW 7] Bandwidth upper bound for VQ27 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND27 0x12029c
/* [RW 7] Bandwidth upper bound for VQ4 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND4 0x120244
/* [RW 7] Bandwidth upper bound for VQ5 read requests */
#define PXP2_REG_RQ_BW_RD_UBOUND5 0x120248
/* [RW 10] Bandwidth addition to VQ29 write requests */
#define PXP2_REG_RQ_BW_WR_ADD29 0x12022c
/* [RW 10] Bandwidth addition to VQ30 write requests */
#define PXP2_REG_RQ_BW_WR_ADD30 0x120230
/* [RW 10] Bandwidth Typical L for VQ29 Write requests */
#define PXP2_REG_RQ_BW_WR_L29 0x12031c
/* [RW 10] Bandwidth Typical L for VQ30 Write requests */
#define PXP2_REG_RQ_BW_WR_L30 0x120320
/* [RW 7] Bandwidth upper bound for VQ29 */
#define PXP2_REG_RQ_BW_WR_UBOUND29 0x1202a4
/* [RW 7] Bandwidth upper bound for VQ30 */
#define PXP2_REG_RQ_BW_WR_UBOUND30 0x1202a8
/* [RW 18] external first_mem_addr field in L2P table for CDU module port 0 */
#define PXP2_REG_RQ_CDU0_EFIRST_MEM_ADDR 0x120008
/* [RW 2] Endian mode for cdu */
#define PXP2_REG_RQ_CDU_ENDIAN_M 0x1201a0
#define PXP2_REG_RQ_CDU_FIRST_ILT 0x12061c
#define PXP2_REG_RQ_CDU_LAST_ILT 0x120620
/* [RW 3] page size in L2P table for CDU module; -4k; -8k; -16k; -32k; -64k;
-128k */
#define PXP2_REG_RQ_CDU_P_SIZE 0x120018
/* [R 1] 1' indicates that the requester has finished its internal
configuration */
#define PXP2_REG_RQ_CFG_DONE 0x1201b4
/* [RW 2] Endian mode for debug */
#define PXP2_REG_RQ_DBG_ENDIAN_M 0x1201a4
/* [RW 1] When '1'; requests will enter input buffers but wont get out
towards the glue */
#define PXP2_REG_RQ_DISABLE_INPUTS 0x120330
/* [RW 1] 1 - SR will be aligned by 64B; 0 - SR will be aligned by 8B */
#define PXP2_REG_RQ_DRAM_ALIGN 0x1205b0
/* [RW 1] If 1 ILT failiue will not result in ELT access; An interrupt will
be asserted */
#define PXP2_REG_RQ_ELT_DISABLE 0x12066c
/* [RW 2] Endian mode for hc */
#define PXP2_REG_RQ_HC_ENDIAN_M 0x1201a8
/* [RW 1] when '0' ILT logic will work as in A0; otherwise B0; for back
compatibility needs; Note that different registers are used per mode */
#define PXP2_REG_RQ_ILT_MODE 0x1205b4
/* [WB 53] Onchip address table */
#define PXP2_REG_RQ_ONCHIP_AT 0x122000
/* [WB 53] Onchip address table - B0 */
#define PXP2_REG_RQ_ONCHIP_AT_B0 0x128000
/* [RW 13] Pending read limiter threshold; in Dwords */
#define PXP2_REG_RQ_PDR_LIMIT 0x12033c
/* [RW 2] Endian mode for qm */
#define PXP2_REG_RQ_QM_ENDIAN_M 0x120194
#define PXP2_REG_RQ_QM_FIRST_ILT 0x120634
#define PXP2_REG_RQ_QM_LAST_ILT 0x120638
/* [RW 3] page size in L2P table for QM module; -4k; -8k; -16k; -32k; -64k;
-128k */
#define PXP2_REG_RQ_QM_P_SIZE 0x120050
/* [RW 1] 1' indicates that the RBC has finished configuring the PSWRQ */
#define PXP2_REG_RQ_RBC_DONE 0x1201b0
/* [RW 3] Max burst size filed for read requests port 0; 000 - 128B;
001:256B; 010: 512B; 11:1K:100:2K; 01:4K */
#define PXP2_REG_RQ_RD_MBS0 0x120160
/* [RW 3] Max burst size filed for read requests port 1; 000 - 128B;
001:256B; 010: 512B; 11:1K:100:2K; 01:4K */
#define PXP2_REG_RQ_RD_MBS1 0x120168
/* [RW 2] Endian mode for src */
#define PXP2_REG_RQ_SRC_ENDIAN_M 0x12019c
#define PXP2_REG_RQ_SRC_FIRST_ILT 0x12063c
#define PXP2_REG_RQ_SRC_LAST_ILT 0x120640
/* [RW 3] page size in L2P table for SRC module; -4k; -8k; -16k; -32k; -64k;
-128k */
#define PXP2_REG_RQ_SRC_P_SIZE 0x12006c
/* [RW 2] Endian mode for tm */
#define PXP2_REG_RQ_TM_ENDIAN_M 0x120198
#define PXP2_REG_RQ_TM_FIRST_ILT 0x120644
#define PXP2_REG_RQ_TM_LAST_ILT 0x120648
/* [RW 3] page size in L2P table for TM module; -4k; -8k; -16k; -32k; -64k;
-128k */
#define PXP2_REG_RQ_TM_P_SIZE 0x120034
/* [R 5] Number of entries in the ufifo; his fifo has l2p completions */
#define PXP2_REG_RQ_UFIFO_NUM_OF_ENTRY 0x12080c
/* [RW 18] external first_mem_addr field in L2P table for USDM module port 0 */
#define PXP2_REG_RQ_USDM0_EFIRST_MEM_ADDR 0x120094
/* [R 8] Number of entries occupied by vq 0 in pswrq memory */
#define PXP2_REG_RQ_VQ0_ENTRY_CNT 0x120810
/* [R 8] Number of entries occupied by vq 10 in pswrq memory */
#define PXP2_REG_RQ_VQ10_ENTRY_CNT 0x120818
/* [R 8] Number of entries occupied by vq 11 in pswrq memory */
#define PXP2_REG_RQ_VQ11_ENTRY_CNT 0x120820
/* [R 8] Number of entries occupied by vq 12 in pswrq memory */
#define PXP2_REG_RQ_VQ12_ENTRY_CNT 0x120828
/* [R 8] Number of entries occupied by vq 13 in pswrq memory */
#define PXP2_REG_RQ_VQ13_ENTRY_CNT 0x120830
/* [R 8] Number of entries occupied by vq 14 in pswrq memory */
#define PXP2_REG_RQ_VQ14_ENTRY_CNT 0x120838
/* [R 8] Number of entries occupied by vq 15 in pswrq memory */
#define PXP2_REG_RQ_VQ15_ENTRY_CNT 0x120840
/* [R 8] Number of entries occupied by vq 16 in pswrq memory */
#define PXP2_REG_RQ_VQ16_ENTRY_CNT 0x120848
/* [R 8] Number of entries occupied by vq 17 in pswrq memory */
#define PXP2_REG_RQ_VQ17_ENTRY_CNT 0x120850
/* [R 8] Number of entries occupied by vq 18 in pswrq memory */
#define PXP2_REG_RQ_VQ18_ENTRY_CNT 0x120858
/* [R 8] Number of entries occupied by vq 19 in pswrq memory */
#define PXP2_REG_RQ_VQ19_ENTRY_CNT 0x120860
/* [R 8] Number of entries occupied by vq 1 in pswrq memory */
#define PXP2_REG_RQ_VQ1_ENTRY_CNT 0x120868
/* [R 8] Number of entries occupied by vq 20 in pswrq memory */
#define PXP2_REG_RQ_VQ20_ENTRY_CNT 0x120870
/* [R 8] Number of entries occupied by vq 21 in pswrq memory */
#define PXP2_REG_RQ_VQ21_ENTRY_CNT 0x120878
/* [R 8] Number of entries occupied by vq 22 in pswrq memory */
#define PXP2_REG_RQ_VQ22_ENTRY_CNT 0x120880
/* [R 8] Number of entries occupied by vq 23 in pswrq memory */
#define PXP2_REG_RQ_VQ23_ENTRY_CNT 0x120888
/* [R 8] Number of entries occupied by vq 24 in pswrq memory */
#define PXP2_REG_RQ_VQ24_ENTRY_CNT 0x120890
/* [R 8] Number of entries occupied by vq 25 in pswrq memory */
#define PXP2_REG_RQ_VQ25_ENTRY_CNT 0x120898
/* [R 8] Number of entries occupied by vq 26 in pswrq memory */
#define PXP2_REG_RQ_VQ26_ENTRY_CNT 0x1208a0
/* [R 8] Number of entries occupied by vq 27 in pswrq memory */
#define PXP2_REG_RQ_VQ27_ENTRY_CNT 0x1208a8
/* [R 8] Number of entries occupied by vq 28 in pswrq memory */
#define PXP2_REG_RQ_VQ28_ENTRY_CNT 0x1208b0
/* [R 8] Number of entries occupied by vq 29 in pswrq memory */
#define PXP2_REG_RQ_VQ29_ENTRY_CNT 0x1208b8
/* [R 8] Number of entries occupied by vq 2 in pswrq memory */
#define PXP2_REG_RQ_VQ2_ENTRY_CNT 0x1208c0
/* [R 8] Number of entries occupied by vq 30 in pswrq memory */
#define PXP2_REG_RQ_VQ30_ENTRY_CNT 0x1208c8
/* [R 8] Number of entries occupied by vq 31 in pswrq memory */
#define PXP2_REG_RQ_VQ31_ENTRY_CNT 0x1208d0
/* [R 8] Number of entries occupied by vq 3 in pswrq memory */
#define PXP2_REG_RQ_VQ3_ENTRY_CNT 0x1208d8
/* [R 8] Number of entries occupied by vq 4 in pswrq memory */
#define PXP2_REG_RQ_VQ4_ENTRY_CNT 0x1208e0
/* [R 8] Number of entries occupied by vq 5 in pswrq memory */
#define PXP2_REG_RQ_VQ5_ENTRY_CNT 0x1208e8
/* [R 8] Number of entries occupied by vq 6 in pswrq memory */
#define PXP2_REG_RQ_VQ6_ENTRY_CNT 0x1208f0
/* [R 8] Number of entries occupied by vq 7 in pswrq memory */
#define PXP2_REG_RQ_VQ7_ENTRY_CNT 0x1208f8
/* [R 8] Number of entries occupied by vq 8 in pswrq memory */
#define PXP2_REG_RQ_VQ8_ENTRY_CNT 0x120900
/* [R 8] Number of entries occupied by vq 9 in pswrq memory */
#define PXP2_REG_RQ_VQ9_ENTRY_CNT 0x120908
/* [RW 3] Max burst size filed for write requests port 0; 000 - 128B;
001:256B; 010: 512B; */
#define PXP2_REG_RQ_WR_MBS0 0x12015c
/* [RW 3] Max burst size filed for write requests port 1; 000 - 128B;
001:256B; 010: 512B; */
#define PXP2_REG_RQ_WR_MBS1 0x120164
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_CDU_MPS 0x1205f0
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_CSDM_MPS 0x1205d0
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_DBG_MPS 0x1205e8
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_DMAE_MPS 0x1205ec
/* [RW 10] if Number of entries in dmae fifo will be higher than this
threshold then has_payload indication will be asserted; the default value
should be equal to > write MBS size! */
#define PXP2_REG_WR_DMAE_TH 0x120368
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_HC_MPS 0x1205c8
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_QM_MPS 0x1205dc
/* [RW 1] 0 - working in A0 mode; - working in B0 mode */
#define PXP2_REG_WR_REV_MODE 0x120670
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_SRC_MPS 0x1205e4
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_TM_MPS 0x1205e0
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_TSDM_MPS 0x1205d4
/* [RW 10] if Number of entries in usdmdp fifo will be higher than this
threshold then has_payload indication will be asserted; the default value
should be equal to > write MBS size! */
#define PXP2_REG_WR_USDMDP_TH 0x120348
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_USDM_MPS 0x1205cc
/* [RW 2] 0 - 128B; - 256B; - 512B; - 1024B; when the payload in the
buffer reaches this number has_payload will be asserted */
#define PXP2_REG_WR_XSDM_MPS 0x1205d8
/* [R 1] debug only: Indication if PSWHST arbiter is idle */
#define PXP_REG_HST_ARB_IS_IDLE 0x103004
/* [R 8] debug only: A bit mask for all PSWHST arbiter clients. '1' means
this client is waiting for the arbiter. */
#define PXP_REG_HST_CLIENTS_WAITING_TO_ARB 0x103008
/* [R 1] debug only: '1' means this PSWHST is discarding doorbells. This bit
should update accoring to 'hst_discard_doorbells' register when the state
machine is idle */
#define PXP_REG_HST_DISCARD_DOORBELLS_STATUS 0x1030a0
/* [R 6] debug only: A bit mask for all PSWHST internal write clients. '1'
means this PSWHST is discarding inputs from this client. Each bit should
update accoring to 'hst_discard_internal_writes' register when the state
machine is idle. */
#define PXP_REG_HST_DISCARD_INTERNAL_WRITES_STATUS 0x10309c
/* [WB 160] Used for initialization of the inbound interrupts memory */
#define PXP_REG_HST_INBOUND_INT 0x103800
/* [RW 32] Interrupt mask register #0 read/write */
#define PXP_REG_PXP_INT_MASK_0 0x103074
#define PXP_REG_PXP_INT_MASK_1 0x103084
/* [R 32] Interrupt register #0 read */
#define PXP_REG_PXP_INT_STS_0 0x103068
#define PXP_REG_PXP_INT_STS_1 0x103078
/* [RC 32] Interrupt register #0 read clear */
#define PXP_REG_PXP_INT_STS_CLR_0 0x10306c
/* [RW 26] Parity mask register #0 read/write */
#define PXP_REG_PXP_PRTY_MASK 0x103094
/* [R 26] Parity register #0 read */
#define PXP_REG_PXP_PRTY_STS 0x103088
/* [RW 4] The activity counter initial increment value sent in the load
request */
#define QM_REG_ACTCTRINITVAL_0 0x168040
#define QM_REG_ACTCTRINITVAL_1 0x168044
#define QM_REG_ACTCTRINITVAL_2 0x168048
#define QM_REG_ACTCTRINITVAL_3 0x16804c
/* [RW 32] The base logical address (in bytes) of each physical queue. The
index I represents the physical queue number. The 12 lsbs are ignore and
considered zero so practically there are only 20 bits in this register;
queues 63-0 */
#define QM_REG_BASEADDR 0x168900
/* [RW 32] The base logical address (in bytes) of each physical queue. The
index I represents the physical queue number. The 12 lsbs are ignore and
considered zero so practically there are only 20 bits in this register;
queues 127-64 */
#define QM_REG_BASEADDR_EXT_A 0x16e100
/* [RW 16] The byte credit cost for each task. This value is for both ports */
#define QM_REG_BYTECRDCOST 0x168234
/* [RW 16] The initial byte credit value for both ports. */
#define QM_REG_BYTECRDINITVAL 0x168238
/* [RW 32] A bit per physical queue. If the bit is cleared then the physical
queue uses port 0 else it uses port 1; queues 31-0 */
#define QM_REG_BYTECRDPORT_LSB 0x168228
/* [RW 32] A bit per physical queue. If the bit is cleared then the physical
queue uses port 0 else it uses port 1; queues 95-64 */
#define QM_REG_BYTECRDPORT_LSB_EXT_A 0x16e520
/* [RW 32] A bit per physical queue. If the bit is cleared then the physical
queue uses port 0 else it uses port 1; queues 63-32 */
#define QM_REG_BYTECRDPORT_MSB 0x168224
/* [RW 32] A bit per physical queue. If the bit is cleared then the physical
queue uses port 0 else it uses port 1; queues 127-96 */
#define QM_REG_BYTECRDPORT_MSB_EXT_A 0x16e51c
/* [RW 16] The byte credit value that if above the QM is considered almost
full */
#define QM_REG_BYTECREDITAFULLTHR 0x168094
/* [RW 4] The initial credit for interface */
#define QM_REG_CMINITCRD_0 0x1680cc
#define QM_REG_CMINITCRD_1 0x1680d0
#define QM_REG_CMINITCRD_2 0x1680d4
#define QM_REG_CMINITCRD_3 0x1680d8
#define QM_REG_CMINITCRD_4 0x1680dc
#define QM_REG_CMINITCRD_5 0x1680e0
#define QM_REG_CMINITCRD_6 0x1680e4
#define QM_REG_CMINITCRD_7 0x1680e8
/* [RW 8] A mask bit per CM interface. If this bit is 0 then this interface
is masked */
#define QM_REG_CMINTEN 0x1680ec
/* [RW 12] A bit vector which indicates which one of the queues are tied to
interface 0 */
#define QM_REG_CMINTVOQMASK_0 0x1681f4
#define QM_REG_CMINTVOQMASK_1 0x1681f8
#define QM_REG_CMINTVOQMASK_2 0x1681fc
#define QM_REG_CMINTVOQMASK_3 0x168200
#define QM_REG_CMINTVOQMASK_4 0x168204
#define QM_REG_CMINTVOQMASK_5 0x168208
#define QM_REG_CMINTVOQMASK_6 0x16820c
#define QM_REG_CMINTVOQMASK_7 0x168210
/* [RW 20] The number of connections divided by 16 which dictates the size
of each queue which belongs to even function number. */
#define QM_REG_CONNNUM_0 0x168020
/* [R 6] Keep the fill level of the fifo from write client 4 */
#define QM_REG_CQM_WRC_FIFOLVL 0x168018
/* [RW 8] The context regions sent in the CFC load request */
#define QM_REG_CTXREG_0 0x168030
#define QM_REG_CTXREG_1 0x168034
#define QM_REG_CTXREG_2 0x168038
#define QM_REG_CTXREG_3 0x16803c
/* [RW 12] The VOQ mask used to select the VOQs which needs to be full for
bypass enable */
#define QM_REG_ENBYPVOQMASK 0x16823c
/* [RW 32] A bit mask per each physical queue. If a bit is set then the
physical queue uses the byte credit; queues 31-0 */
#define QM_REG_ENBYTECRD_LSB 0x168220
/* [RW 32] A bit mask per each physical queue. If a bit is set then the
physical queue uses the byte credit; queues 95-64 */
#define QM_REG_ENBYTECRD_LSB_EXT_A 0x16e518
/* [RW 32] A bit mask per each physical queue. If a bit is set then the
physical queue uses the byte credit; queues 63-32 */
#define QM_REG_ENBYTECRD_MSB 0x16821c
/* [RW 32] A bit mask per each physical queue. If a bit is set then the
physical queue uses the byte credit; queues 127-96 */
#define QM_REG_ENBYTECRD_MSB_EXT_A 0x16e514
/* [RW 4] If cleared then the secondary interface will not be served by the
RR arbiter */
#define QM_REG_ENSEC 0x1680f0
/* [RW 32] NA */
#define QM_REG_FUNCNUMSEL_LSB 0x168230
/* [RW 32] NA */
#define QM_REG_FUNCNUMSEL_MSB 0x16822c
/* [RW 32] A mask register to mask the Almost empty signals which will not
be use for the almost empty indication to the HW block; queues 31:0 */
#define QM_REG_HWAEMPTYMASK_LSB 0x168218
/* [RW 32] A mask register to mask the Almost empty signals which will not
be use for the almost empty indication to the HW block; queues 95-64 */
#define QM_REG_HWAEMPTYMASK_LSB_EXT_A 0x16e510
/* [RW 32] A mask register to mask the Almost empty signals which will not
be use for the almost empty indication to the HW block; queues 63:32 */
#define QM_REG_HWAEMPTYMASK_MSB 0x168214
/* [RW 32] A mask register to mask the Almost empty signals which will not
be use for the almost empty indication to the HW block; queues 127-96 */
#define QM_REG_HWAEMPTYMASK_MSB_EXT_A 0x16e50c
/* [RW 4] The number of outstanding request to CFC */
#define QM_REG_OUTLDREQ 0x168804
/* [RC 1] A flag to indicate that overflow error occurred in one of the
queues. */
#define QM_REG_OVFERROR 0x16805c
/* [RC 7] the Q where the overflow occurs */
#define QM_REG_OVFQNUM 0x168058
/* [R 16] Pause state for physical queues 15-0 */
#define QM_REG_PAUSESTATE0 0x168410
/* [R 16] Pause state for physical queues 31-16 */
#define QM_REG_PAUSESTATE1 0x168414
/* [R 16] Pause state for physical queues 47-32 */
#define QM_REG_PAUSESTATE2 0x16e684
/* [R 16] Pause state for physical queues 63-48 */
#define QM_REG_PAUSESTATE3 0x16e688
/* [R 16] Pause state for physical queues 79-64 */
#define QM_REG_PAUSESTATE4 0x16e68c
/* [R 16] Pause state for physical queues 95-80 */
#define QM_REG_PAUSESTATE5 0x16e690
/* [R 16] Pause state for physical queues 111-96 */
#define QM_REG_PAUSESTATE6 0x16e694
/* [R 16] Pause state for physical queues 127-112 */
#define QM_REG_PAUSESTATE7 0x16e698
/* [RW 2] The PCI attributes field used in the PCI request. */
#define QM_REG_PCIREQAT 0x168054
/* [R 16] The byte credit of port 0 */
#define QM_REG_PORT0BYTECRD 0x168300
/* [R 16] The byte credit of port 1 */
#define QM_REG_PORT1BYTECRD 0x168304
/* [RW 3] pci function number of queues 15-0 */
#define QM_REG_PQ2PCIFUNC_0 0x16e6bc
#define QM_REG_PQ2PCIFUNC_1 0x16e6c0
#define QM_REG_PQ2PCIFUNC_2 0x16e6c4
#define QM_REG_PQ2PCIFUNC_3 0x16e6c8
#define QM_REG_PQ2PCIFUNC_4 0x16e6cc
#define QM_REG_PQ2PCIFUNC_5 0x16e6d0
#define QM_REG_PQ2PCIFUNC_6 0x16e6d4
#define QM_REG_PQ2PCIFUNC_7 0x16e6d8
/* [WB 54] Pointer Table Memory for queues 63-0; The mapping is as follow:
ptrtbl[53:30] read pointer; ptrtbl[29:6] write pointer; ptrtbl[5:4] read
bank0; ptrtbl[3:2] read bank 1; ptrtbl[1:0] write bank; */
#define QM_REG_PTRTBL 0x168a00
/* [WB 54] Pointer Table Memory for queues 127-64; The mapping is as follow:
ptrtbl[53:30] read pointer; ptrtbl[29:6] write pointer; ptrtbl[5:4] read
bank0; ptrtbl[3:2] read bank 1; ptrtbl[1:0] write bank; */
#define QM_REG_PTRTBL_EXT_A 0x16e200
/* [RW 2] Interrupt mask register #0 read/write */
#define QM_REG_QM_INT_MASK 0x168444
/* [R 2] Interrupt register #0 read */
#define QM_REG_QM_INT_STS 0x168438
/* [RW 12] Parity mask register #0 read/write */
#define QM_REG_QM_PRTY_MASK 0x168454
/* [R 12] Parity register #0 read */
#define QM_REG_QM_PRTY_STS 0x168448
/* [R 32] Current queues in pipeline: Queues from 32 to 63 */
#define QM_REG_QSTATUS_HIGH 0x16802c
/* [R 32] Current queues in pipeline: Queues from 96 to 127 */
#define QM_REG_QSTATUS_HIGH_EXT_A 0x16e408
/* [R 32] Current queues in pipeline: Queues from 0 to 31 */
#define QM_REG_QSTATUS_LOW 0x168028
/* [R 32] Current queues in pipeline: Queues from 64 to 95 */
#define QM_REG_QSTATUS_LOW_EXT_A 0x16e404
/* [R 24] The number of tasks queued for each queue; queues 63-0 */
#define QM_REG_QTASKCTR_0 0x168308
/* [R 24] The number of tasks queued for each queue; queues 127-64 */
#define QM_REG_QTASKCTR_EXT_A_0 0x16e584
/* [RW 4] Queue tied to VOQ */
#define QM_REG_QVOQIDX_0 0x1680f4
#define QM_REG_QVOQIDX_10 0x16811c
#define QM_REG_QVOQIDX_100 0x16e49c
#define QM_REG_QVOQIDX_101 0x16e4a0
#define QM_REG_QVOQIDX_102 0x16e4a4
#define QM_REG_QVOQIDX_103 0x16e4a8
#define QM_REG_QVOQIDX_104 0x16e4ac
#define QM_REG_QVOQIDX_105 0x16e4b0
#define QM_REG_QVOQIDX_106 0x16e4b4
#define QM_REG_QVOQIDX_107 0x16e4b8
#define QM_REG_QVOQIDX_108 0x16e4bc
#define QM_REG_QVOQIDX_109 0x16e4c0
#define QM_REG_QVOQIDX_11 0x168120
#define QM_REG_QVOQIDX_110 0x16e4c4
#define QM_REG_QVOQIDX_111 0x16e4c8
#define QM_REG_QVOQIDX_112 0x16e4cc
#define QM_REG_QVOQIDX_113 0x16e4d0
#define QM_REG_QVOQIDX_114 0x16e4d4
#define QM_REG_QVOQIDX_115 0x16e4d8
#define QM_REG_QVOQIDX_116 0x16e4dc
#define QM_REG_QVOQIDX_117 0x16e4e0
#define QM_REG_QVOQIDX_118 0x16e4e4
#define QM_REG_QVOQIDX_119 0x16e4e8
#define QM_REG_QVOQIDX_12 0x168124
#define QM_REG_QVOQIDX_120 0x16e4ec
#define QM_REG_QVOQIDX_121 0x16e4f0
#define QM_REG_QVOQIDX_122 0x16e4f4
#define QM_REG_QVOQIDX_123 0x16e4f8
#define QM_REG_QVOQIDX_124 0x16e4fc
#define QM_REG_QVOQIDX_125 0x16e500
#define QM_REG_QVOQIDX_126 0x16e504
#define QM_REG_QVOQIDX_127 0x16e508
#define QM_REG_QVOQIDX_13 0x168128
#define QM_REG_QVOQIDX_14 0x16812c
#define QM_REG_QVOQIDX_15 0x168130
#define QM_REG_QVOQIDX_16 0x168134
#define QM_REG_QVOQIDX_17 0x168138
#define QM_REG_QVOQIDX_21 0x168148
#define QM_REG_QVOQIDX_22 0x16814c
#define QM_REG_QVOQIDX_23 0x168150
#define QM_REG_QVOQIDX_24 0x168154
#define QM_REG_QVOQIDX_25 0x168158
#define QM_REG_QVOQIDX_26 0x16815c
#define QM_REG_QVOQIDX_27 0x168160
#define QM_REG_QVOQIDX_28 0x168164
#define QM_REG_QVOQIDX_29 0x168168
#define QM_REG_QVOQIDX_30 0x16816c
#define QM_REG_QVOQIDX_31 0x168170
#define QM_REG_QVOQIDX_32 0x168174
#define QM_REG_QVOQIDX_33 0x168178
#define QM_REG_QVOQIDX_34 0x16817c
#define QM_REG_QVOQIDX_35 0x168180
#define QM_REG_QVOQIDX_36 0x168184
#define QM_REG_QVOQIDX_37 0x168188
#define QM_REG_QVOQIDX_38 0x16818c
#define QM_REG_QVOQIDX_39 0x168190
#define QM_REG_QVOQIDX_40 0x168194
#define QM_REG_QVOQIDX_41 0x168198
#define QM_REG_QVOQIDX_42 0x16819c
#define QM_REG_QVOQIDX_43 0x1681a0
#define QM_REG_QVOQIDX_44 0x1681a4
#define QM_REG_QVOQIDX_45 0x1681a8
#define QM_REG_QVOQIDX_46 0x1681ac
#define QM_REG_QVOQIDX_47 0x1681b0
#define QM_REG_QVOQIDX_48 0x1681b4
#define QM_REG_QVOQIDX_49 0x1681b8
#define QM_REG_QVOQIDX_5 0x168108
#define QM_REG_QVOQIDX_50 0x1681bc
#define QM_REG_QVOQIDX_51 0x1681c0
#define QM_REG_QVOQIDX_52 0x1681c4
#define QM_REG_QVOQIDX_53 0x1681c8
#define QM_REG_QVOQIDX_54 0x1681cc
#define QM_REG_QVOQIDX_55 0x1681d0
#define QM_REG_QVOQIDX_56 0x1681d4
#define QM_REG_QVOQIDX_57 0x1681d8
#define QM_REG_QVOQIDX_58 0x1681dc
#define QM_REG_QVOQIDX_59 0x1681e0
#define QM_REG_QVOQIDX_6 0x16810c
#define QM_REG_QVOQIDX_60 0x1681e4
#define QM_REG_QVOQIDX_61 0x1681e8
#define QM_REG_QVOQIDX_62 0x1681ec
#define QM_REG_QVOQIDX_63 0x1681f0
#define QM_REG_QVOQIDX_64 0x16e40c
#define QM_REG_QVOQIDX_65 0x16e410
#define QM_REG_QVOQIDX_69 0x16e420
#define QM_REG_QVOQIDX_7 0x168110
#define QM_REG_QVOQIDX_70 0x16e424
#define QM_REG_QVOQIDX_71 0x16e428
#define QM_REG_QVOQIDX_72 0x16e42c
#define QM_REG_QVOQIDX_73 0x16e430
#define QM_REG_QVOQIDX_74 0x16e434
#define QM_REG_QVOQIDX_75 0x16e438
#define QM_REG_QVOQIDX_76 0x16e43c
#define QM_REG_QVOQIDX_77 0x16e440
#define QM_REG_QVOQIDX_78 0x16e444
#define QM_REG_QVOQIDX_79 0x16e448
#define QM_REG_QVOQIDX_8 0x168114
#define QM_REG_QVOQIDX_80 0x16e44c
#define QM_REG_QVOQIDX_81 0x16e450
#define QM_REG_QVOQIDX_85 0x16e460
#define QM_REG_QVOQIDX_86 0x16e464
#define QM_REG_QVOQIDX_87 0x16e468
#define QM_REG_QVOQIDX_88 0x16e46c
#define QM_REG_QVOQIDX_89 0x16e470
#define QM_REG_QVOQIDX_9 0x168118
#define QM_REG_QVOQIDX_90 0x16e474
#define QM_REG_QVOQIDX_91 0x16e478
#define QM_REG_QVOQIDX_92 0x16e47c
#define QM_REG_QVOQIDX_93 0x16e480
#define QM_REG_QVOQIDX_94 0x16e484
#define QM_REG_QVOQIDX_95 0x16e488
#define QM_REG_QVOQIDX_96 0x16e48c
#define QM_REG_QVOQIDX_97 0x16e490
#define QM_REG_QVOQIDX_98 0x16e494
#define QM_REG_QVOQIDX_99 0x16e498
/* [RW 1] Initialization bit command */
#define QM_REG_SOFT_RESET 0x168428
/* [RW 8] The credit cost per every task in the QM. A value per each VOQ */
#define QM_REG_TASKCRDCOST_0 0x16809c
#define QM_REG_TASKCRDCOST_1 0x1680a0
#define QM_REG_TASKCRDCOST_2 0x1680a4
#define QM_REG_TASKCRDCOST_4 0x1680ac
#define QM_REG_TASKCRDCOST_5 0x1680b0
/* [R 6] Keep the fill level of the fifo from write client 3 */
#define QM_REG_TQM_WRC_FIFOLVL 0x168010
/* [R 6] Keep the fill level of the fifo from write client 2 */
#define QM_REG_UQM_WRC_FIFOLVL 0x168008
/* [RC 32] Credit update error register */
#define QM_REG_VOQCRDERRREG 0x168408
/* [R 16] The credit value for each VOQ */
#define QM_REG_VOQCREDIT_0 0x1682d0
#define QM_REG_VOQCREDIT_1 0x1682d4
#define QM_REG_VOQCREDIT_4 0x1682e0
/* [RW 16] The credit value that if above the QM is considered almost full */
#define QM_REG_VOQCREDITAFULLTHR 0x168090
/* [RW 16] The init and maximum credit for each VoQ */
#define QM_REG_VOQINITCREDIT_0 0x168060
#define QM_REG_VOQINITCREDIT_1 0x168064
#define QM_REG_VOQINITCREDIT_2 0x168068
#define QM_REG_VOQINITCREDIT_4 0x168070
#define QM_REG_VOQINITCREDIT_5 0x168074
/* [RW 1] The port of which VOQ belongs */
#define QM_REG_VOQPORT_0 0x1682a0
#define QM_REG_VOQPORT_1 0x1682a4
#define QM_REG_VOQPORT_2 0x1682a8
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_0_LSB 0x168240
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_0_LSB_EXT_A 0x16e524
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_0_MSB 0x168244
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_0_MSB_EXT_A 0x16e528
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_10_LSB 0x168290
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_10_LSB_EXT_A 0x16e574
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_10_MSB 0x168294
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_10_MSB_EXT_A 0x16e578
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_11_LSB 0x168298
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_11_LSB_EXT_A 0x16e57c
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_11_MSB 0x16829c
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_11_MSB_EXT_A 0x16e580
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_1_LSB 0x168248
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_1_LSB_EXT_A 0x16e52c
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_1_MSB 0x16824c
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_1_MSB_EXT_A 0x16e530
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_2_LSB 0x168250
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_2_LSB_EXT_A 0x16e534
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_2_MSB 0x168254
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_2_MSB_EXT_A 0x16e538
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_3_LSB 0x168258
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_3_LSB_EXT_A 0x16e53c
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_3_MSB_EXT_A 0x16e540
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_4_LSB 0x168260
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_4_LSB_EXT_A 0x16e544
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_4_MSB 0x168264
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_4_MSB_EXT_A 0x16e548
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_5_LSB 0x168268
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_5_LSB_EXT_A 0x16e54c
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_5_MSB 0x16826c
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_5_MSB_EXT_A 0x16e550
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_6_LSB 0x168270
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_6_LSB_EXT_A 0x16e554
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_6_MSB 0x168274
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_6_MSB_EXT_A 0x16e558
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_7_LSB 0x168278
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_7_LSB_EXT_A 0x16e55c
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_7_MSB 0x16827c
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_7_MSB_EXT_A 0x16e560
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_8_LSB 0x168280
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_8_LSB_EXT_A 0x16e564
/* [RW 32] The physical queue number associated with each VOQ; queues 63-32 */
#define QM_REG_VOQQMASK_8_MSB 0x168284
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_8_MSB_EXT_A 0x16e568
/* [RW 32] The physical queue number associated with each VOQ; queues 31-0 */
#define QM_REG_VOQQMASK_9_LSB 0x168288
/* [RW 32] The physical queue number associated with each VOQ; queues 95-64 */
#define QM_REG_VOQQMASK_9_LSB_EXT_A 0x16e56c
/* [RW 32] The physical queue number associated with each VOQ; queues 127-96 */
#define QM_REG_VOQQMASK_9_MSB_EXT_A 0x16e570
/* [RW 32] Wrr weights */
#define QM_REG_WRRWEIGHTS_0 0x16880c
#define QM_REG_WRRWEIGHTS_1 0x168810
#define QM_REG_WRRWEIGHTS_10 0x168814
#define QM_REG_WRRWEIGHTS_11 0x168818
#define QM_REG_WRRWEIGHTS_12 0x16881c
#define QM_REG_WRRWEIGHTS_13 0x168820
#define QM_REG_WRRWEIGHTS_14 0x168824
#define QM_REG_WRRWEIGHTS_15 0x168828
#define QM_REG_WRRWEIGHTS_16 0x16e000
#define QM_REG_WRRWEIGHTS_17 0x16e004
#define QM_REG_WRRWEIGHTS_18 0x16e008
#define QM_REG_WRRWEIGHTS_19 0x16e00c
#define QM_REG_WRRWEIGHTS_2 0x16882c
#define QM_REG_WRRWEIGHTS_20 0x16e010
#define QM_REG_WRRWEIGHTS_21 0x16e014
#define QM_REG_WRRWEIGHTS_22 0x16e018
#define QM_REG_WRRWEIGHTS_23 0x16e01c
#define QM_REG_WRRWEIGHTS_24 0x16e020
#define QM_REG_WRRWEIGHTS_25 0x16e024
#define QM_REG_WRRWEIGHTS_26 0x16e028
#define QM_REG_WRRWEIGHTS_27 0x16e02c
#define QM_REG_WRRWEIGHTS_28 0x16e030
#define QM_REG_WRRWEIGHTS_29 0x16e034
#define QM_REG_WRRWEIGHTS_3 0x168830
#define QM_REG_WRRWEIGHTS_30 0x16e038
#define QM_REG_WRRWEIGHTS_31 0x16e03c
#define QM_REG_WRRWEIGHTS_4 0x168834
#define QM_REG_WRRWEIGHTS_5 0x168838
#define QM_REG_WRRWEIGHTS_6 0x16883c
#define QM_REG_WRRWEIGHTS_7 0x168840
#define QM_REG_WRRWEIGHTS_8 0x168844
#define QM_REG_WRRWEIGHTS_9 0x168848
/* [R 6] Keep the fill level of the fifo from write client 1 */
#define QM_REG_XQM_WRC_FIFOLVL 0x168000
#define SRC_REG_COUNTFREE0 0x40500
/* [RW 1] If clr the searcher is compatible to E1 A0 - support only two
ports. If set the searcher support 8 functions. */
#define SRC_REG_E1HMF_ENABLE 0x404cc
#define SRC_REG_FIRSTFREE0 0x40510
#define SRC_REG_KEYRSS0_0 0x40408
#define SRC_REG_KEYRSS0_7 0x40424
#define SRC_REG_KEYRSS1_9 0x40454
#define SRC_REG_KEYSEARCH_0 0x40458
#define SRC_REG_KEYSEARCH_1 0x4045c
#define SRC_REG_KEYSEARCH_2 0x40460
#define SRC_REG_KEYSEARCH_3 0x40464
#define SRC_REG_KEYSEARCH_4 0x40468
#define SRC_REG_KEYSEARCH_5 0x4046c
#define SRC_REG_KEYSEARCH_6 0x40470
#define SRC_REG_KEYSEARCH_7 0x40474
#define SRC_REG_KEYSEARCH_8 0x40478
#define SRC_REG_KEYSEARCH_9 0x4047c
#define SRC_REG_LASTFREE0 0x40530
#define SRC_REG_NUMBER_HASH_BITS0 0x40400
/* [RW 1] Reset internal state machines. */
#define SRC_REG_SOFT_RST 0x4049c
/* [R 3] Interrupt register #0 read */
#define SRC_REG_SRC_INT_STS 0x404ac
/* [RW 3] Parity mask register #0 read/write */
#define SRC_REG_SRC_PRTY_MASK 0x404c8
/* [R 3] Parity register #0 read */
#define SRC_REG_SRC_PRTY_STS 0x404bc
/* [R 4] Used to read the value of the XX protection CAM occupancy counter. */
#define TCM_REG_CAM_OCCUP 0x5017c
/* [RW 1] CDU AG read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define TCM_REG_CDU_AG_RD_IFEN 0x50034
/* [RW 1] CDU AG write Interface enable. If 0 - the request and valid input
are disregarded; all other signals are treated as usual; if 1 - normal
activity. */
#define TCM_REG_CDU_AG_WR_IFEN 0x50030
/* [RW 1] CDU STORM read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define TCM_REG_CDU_SM_RD_IFEN 0x5003c
/* [RW 1] CDU STORM write Interface enable. If 0 - the request and valid
input is disregarded; all other signals are treated as usual; if 1 -
normal activity. */
#define TCM_REG_CDU_SM_WR_IFEN 0x50038
/* [RW 4] CFC output initial credit. Max credit available - 15.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 1 at start-up. */
#define TCM_REG_CFC_INIT_CRD 0x50204
/* [RW 3] The weight of the CP input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_CP_WEIGHT 0x500c0
/* [RW 1] Input csem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define TCM_REG_CSEM_IFEN 0x5002c
/* [RC 1] Message length mismatch (relative to last indication) at the In#9
interface. */
#define TCM_REG_CSEM_LENGTH_MIS 0x50174
/* [RW 3] The weight of the input csem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_CSEM_WEIGHT 0x500bc
/* [RW 8] The Event ID in case of ErrorFlg is set in the input message. */
#define TCM_REG_ERR_EVNT_ID 0x500a0
/* [RW 28] The CM erroneous header for QM and Timers formatting. */
#define TCM_REG_ERR_TCM_HDR 0x5009c
/* [RW 8] The Event ID for Timers expiration. */
#define TCM_REG_EXPR_EVNT_ID 0x500a4
/* [RW 8] FIC0 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define TCM_REG_FIC0_INIT_CRD 0x5020c
/* [RW 8] FIC1 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define TCM_REG_FIC1_INIT_CRD 0x50210
/* [RW 1] Arbitration between Input Arbiter groups: 0 - fair Round-Robin; 1
- strict priority defined by ~tcm_registers_gr_ag_pr.gr_ag_pr;
~tcm_registers_gr_ld0_pr.gr_ld0_pr and
~tcm_registers_gr_ld1_pr.gr_ld1_pr. */
#define TCM_REG_GR_ARB_TYPE 0x50114
/* [RW 2] Load (FIC0) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed that the Store channel is the
compliment of the other 3 groups. */
#define TCM_REG_GR_LD0_PR 0x5011c
/* [RW 2] Load (FIC1) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed that the Store channel is the
compliment of the other 3 groups. */
#define TCM_REG_GR_LD1_PR 0x50120
/* [RW 4] The number of double REG-pairs; loaded from the STORM context and
sent to STORM; for a specific connection type. The double REG-pairs are
used to align to STORM context row size of 128 bits. The offset of these
data in the STORM context is always 0. Index _i stands for the connection
type (one of 16). */
#define TCM_REG_N_SM_CTX_LD_0 0x50050
#define TCM_REG_N_SM_CTX_LD_1 0x50054
#define TCM_REG_N_SM_CTX_LD_2 0x50058
#define TCM_REG_N_SM_CTX_LD_3 0x5005c
#define TCM_REG_N_SM_CTX_LD_4 0x50060
#define TCM_REG_N_SM_CTX_LD_5 0x50064
/* [RW 1] Input pbf Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_PBF_IFEN 0x50024
/* [RC 1] Message length mismatch (relative to last indication) at the In#7
interface. */
#define TCM_REG_PBF_LENGTH_MIS 0x5016c
/* [RW 3] The weight of the input pbf in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_PBF_WEIGHT 0x500b4
#define TCM_REG_PHYS_QNUM0_0 0x500e0
#define TCM_REG_PHYS_QNUM0_1 0x500e4
#define TCM_REG_PHYS_QNUM1_0 0x500e8
#define TCM_REG_PHYS_QNUM1_1 0x500ec
#define TCM_REG_PHYS_QNUM2_0 0x500f0
#define TCM_REG_PHYS_QNUM2_1 0x500f4
#define TCM_REG_PHYS_QNUM3_0 0x500f8
#define TCM_REG_PHYS_QNUM3_1 0x500fc
/* [RW 1] Input prs Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_PRS_IFEN 0x50020
/* [RC 1] Message length mismatch (relative to last indication) at the In#6
interface. */
#define TCM_REG_PRS_LENGTH_MIS 0x50168
/* [RW 3] The weight of the input prs in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_PRS_WEIGHT 0x500b0
/* [RW 8] The Event ID for Timers formatting in case of stop done. */
#define TCM_REG_STOP_EVNT_ID 0x500a8
/* [RC 1] Message length mismatch (relative to last indication) at the STORM
interface. */
#define TCM_REG_STORM_LENGTH_MIS 0x50160
/* [RW 1] STORM - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define TCM_REG_STORM_TCM_IFEN 0x50010
/* [RW 3] The weight of the STORM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_STORM_WEIGHT 0x500ac
/* [RW 1] CM - CFC Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_TCM_CFC_IFEN 0x50040
/* [RW 11] Interrupt mask register #0 read/write */
#define TCM_REG_TCM_INT_MASK 0x501dc
/* [R 11] Interrupt register #0 read */
#define TCM_REG_TCM_INT_STS 0x501d0
/* [R 27] Parity register #0 read */
#define TCM_REG_TCM_PRTY_STS 0x501e0
/* [RW 3] The size of AG context region 0 in REG-pairs. Designates the MS
REG-pair number (e.g. if region 0 is 6 REG-pairs; the value should be 5).
Is used to determine the number of the AG context REG-pairs written back;
when the input message Reg1WbFlg isn't set. */
#define TCM_REG_TCM_REG0_SZ 0x500d8
/* [RW 1] CM - STORM 0 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_TCM_STORM0_IFEN 0x50004
/* [RW 1] CM - STORM 1 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_TCM_STORM1_IFEN 0x50008
/* [RW 1] CM - QM Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_TCM_TQM_IFEN 0x5000c
/* [RW 1] If set the Q index; received from the QM is inserted to event ID. */
#define TCM_REG_TCM_TQM_USE_Q 0x500d4
/* [RW 28] The CM header for Timers expiration command. */
#define TCM_REG_TM_TCM_HDR 0x50098
/* [RW 1] Timers - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define TCM_REG_TM_TCM_IFEN 0x5001c
/* [RW 3] The weight of the Timers input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_TM_WEIGHT 0x500d0
/* [RW 6] QM output initial credit. Max credit available - 32.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 32 at start-up. */
#define TCM_REG_TQM_INIT_CRD 0x5021c
/* [RW 3] The weight of the QM (primary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_TQM_P_WEIGHT 0x500c8
/* [RW 3] The weight of the QM (secondary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_TQM_S_WEIGHT 0x500cc
/* [RW 28] The CM header value for QM request (primary). */
#define TCM_REG_TQM_TCM_HDR_P 0x50090
/* [RW 28] The CM header value for QM request (secondary). */
#define TCM_REG_TQM_TCM_HDR_S 0x50094
/* [RW 1] QM - CM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_TQM_TCM_IFEN 0x50014
/* [RW 1] Input SDM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define TCM_REG_TSDM_IFEN 0x50018
/* [RC 1] Message length mismatch (relative to last indication) at the SDM
interface. */
#define TCM_REG_TSDM_LENGTH_MIS 0x50164
/* [RW 3] The weight of the SDM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_TSDM_WEIGHT 0x500c4
/* [RW 1] Input usem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define TCM_REG_USEM_IFEN 0x50028
/* [RC 1] Message length mismatch (relative to last indication) at the In#8
interface. */
#define TCM_REG_USEM_LENGTH_MIS 0x50170
/* [RW 3] The weight of the input usem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define TCM_REG_USEM_WEIGHT 0x500b8
/* [RW 21] Indirect access to the descriptor table of the XX protection
mechanism. The fields are: [5:0] - length of the message; 15:6] - message
pointer; 20:16] - next pointer. */
#define TCM_REG_XX_DESCR_TABLE 0x50280
#define TCM_REG_XX_DESCR_TABLE_SIZE 32
/* [R 6] Use to read the value of XX protection Free counter. */
#define TCM_REG_XX_FREE 0x50178
/* [RW 6] Initial value for the credit counter; responsible for fulfilling
of the Input Stage XX protection buffer by the XX protection pending
messages. Max credit available - 127.Write writes the initial credit
value; read returns the current value of the credit counter. Must be
initialized to 19 at start-up. */
#define TCM_REG_XX_INIT_CRD 0x50220
/* [RW 6] Maximum link list size (messages locked) per connection in the XX
protection. */
#define TCM_REG_XX_MAX_LL_SZ 0x50044
/* [RW 6] The maximum number of pending messages; which may be stored in XX
protection. ~tcm_registers_xx_free.xx_free is read on read. */
#define TCM_REG_XX_MSG_NUM 0x50224
/* [RW 8] The Event ID; sent to the STORM in case of XX overflow. */
#define TCM_REG_XX_OVFL_EVNT_ID 0x50048
/* [RW 16] Indirect access to the XX table of the XX protection mechanism.
The fields are:[4:0] - tail pointer; [10:5] - Link List size; 15:11] -
header pointer. */
#define TCM_REG_XX_TABLE 0x50240
/* [RW 4] Load value for cfc ac credit cnt. */
#define TM_REG_CFC_AC_CRDCNT_VAL 0x164208
/* [RW 4] Load value for cfc cld credit cnt. */
#define TM_REG_CFC_CLD_CRDCNT_VAL 0x164210
/* [RW 8] Client0 context region. */
#define TM_REG_CL0_CONT_REGION 0x164030
/* [RW 8] Client1 context region. */
#define TM_REG_CL1_CONT_REGION 0x164034
/* [RW 8] Client2 context region. */
#define TM_REG_CL2_CONT_REGION 0x164038
/* [RW 2] Client in High priority client number. */
#define TM_REG_CLIN_PRIOR0_CLIENT 0x164024
/* [RW 4] Load value for clout0 cred cnt. */
#define TM_REG_CLOUT_CRDCNT0_VAL 0x164220
/* [RW 4] Load value for clout1 cred cnt. */
#define TM_REG_CLOUT_CRDCNT1_VAL 0x164228
/* [RW 4] Load value for clout2 cred cnt. */
#define TM_REG_CLOUT_CRDCNT2_VAL 0x164230
/* [RW 1] Enable client0 input. */
#define TM_REG_EN_CL0_INPUT 0x164008
/* [RW 1] Enable client1 input. */
#define TM_REG_EN_CL1_INPUT 0x16400c
/* [RW 1] Enable client2 input. */
#define TM_REG_EN_CL2_INPUT 0x164010
#define TM_REG_EN_LINEAR0_TIMER 0x164014
/* [RW 1] Enable real time counter. */
#define TM_REG_EN_REAL_TIME_CNT 0x1640d8
/* [RW 1] Enable for Timers state machines. */
#define TM_REG_EN_TIMERS 0x164000
/* [RW 4] Load value for expiration credit cnt. CFC max number of
outstanding load requests for timers (expiration) context loading. */
#define TM_REG_EXP_CRDCNT_VAL 0x164238
/* [RW 32] Linear0 logic address. */
#define TM_REG_LIN0_LOGIC_ADDR 0x164240
/* [RW 18] Linear0 Max active cid (in banks of 32 entries). */
#define TM_REG_LIN0_MAX_ACTIVE_CID 0x164048
/* [WB 64] Linear0 phy address. */
#define TM_REG_LIN0_PHY_ADDR 0x164270
/* [RW 1] Linear0 physical address valid. */
#define TM_REG_LIN0_PHY_ADDR_VALID 0x164248
#define TM_REG_LIN0_SCAN_ON 0x1640d0
/* [RW 24] Linear0 array scan timeout. */
#define TM_REG_LIN0_SCAN_TIME 0x16403c
/* [RW 32] Linear1 logic address. */
#define TM_REG_LIN1_LOGIC_ADDR 0x164250
/* [WB 64] Linear1 phy address. */
#define TM_REG_LIN1_PHY_ADDR 0x164280
/* [RW 1] Linear1 physical address valid. */
#define TM_REG_LIN1_PHY_ADDR_VALID 0x164258
/* [RW 6] Linear timer set_clear fifo threshold. */
#define TM_REG_LIN_SETCLR_FIFO_ALFULL_THR 0x164070
/* [RW 2] Load value for pci arbiter credit cnt. */
#define TM_REG_PCIARB_CRDCNT_VAL 0x164260
/* [RW 20] The amount of hardware cycles for each timer tick. */
#define TM_REG_TIMER_TICK_SIZE 0x16401c
/* [RW 8] Timers Context region. */
#define TM_REG_TM_CONTEXT_REGION 0x164044
/* [RW 1] Interrupt mask register #0 read/write */
#define TM_REG_TM_INT_MASK 0x1640fc
/* [R 1] Interrupt register #0 read */
#define TM_REG_TM_INT_STS 0x1640f0
/* [RW 8] The event id for aggregated interrupt 0 */
#define TSDM_REG_AGG_INT_EVENT_0 0x42038
#define TSDM_REG_AGG_INT_EVENT_1 0x4203c
#define TSDM_REG_AGG_INT_EVENT_2 0x42040
#define TSDM_REG_AGG_INT_EVENT_3 0x42044
#define TSDM_REG_AGG_INT_EVENT_4 0x42048
/* [RW 1] The T bit for aggregated interrupt 0 */
#define TSDM_REG_AGG_INT_T_0 0x420b8
#define TSDM_REG_AGG_INT_T_1 0x420bc
/* [RW 13] The start address in the internal RAM for the cfc_rsp lcid */
#define TSDM_REG_CFC_RSP_START_ADDR 0x42008
/* [RW 16] The maximum value of the competion counter #0 */
#define TSDM_REG_CMP_COUNTER_MAX0 0x4201c
/* [RW 16] The maximum value of the competion counter #1 */
#define TSDM_REG_CMP_COUNTER_MAX1 0x42020
/* [RW 16] The maximum value of the competion counter #2 */
#define TSDM_REG_CMP_COUNTER_MAX2 0x42024
/* [RW 16] The maximum value of the competion counter #3 */
#define TSDM_REG_CMP_COUNTER_MAX3 0x42028
/* [RW 13] The start address in the internal RAM for the completion
counters. */
#define TSDM_REG_CMP_COUNTER_START_ADDR 0x4200c
#define TSDM_REG_ENABLE_IN1 0x42238
#define TSDM_REG_ENABLE_IN2 0x4223c
#define TSDM_REG_ENABLE_OUT1 0x42240
#define TSDM_REG_ENABLE_OUT2 0x42244
/* [RW 4] The initial number of messages that can be sent to the pxp control
interface without receiving any ACK. */
#define TSDM_REG_INIT_CREDIT_PXP_CTRL 0x424bc
/* [ST 32] The number of ACK after placement messages received */
#define TSDM_REG_NUM_OF_ACK_AFTER_PLACE 0x4227c
/* [ST 32] The number of packet end messages received from the parser */
#define TSDM_REG_NUM_OF_PKT_END_MSG 0x42274
/* [ST 32] The number of requests received from the pxp async if */
#define TSDM_REG_NUM_OF_PXP_ASYNC_REQ 0x42278
/* [ST 32] The number of commands received in queue 0 */
#define TSDM_REG_NUM_OF_Q0_CMD 0x42248
/* [ST 32] The number of commands received in queue 10 */
#define TSDM_REG_NUM_OF_Q10_CMD 0x4226c
/* [ST 32] The number of commands received in queue 11 */
#define TSDM_REG_NUM_OF_Q11_CMD 0x42270
/* [ST 32] The number of commands received in queue 1 */
#define TSDM_REG_NUM_OF_Q1_CMD 0x4224c
/* [ST 32] The number of commands received in queue 3 */
#define TSDM_REG_NUM_OF_Q3_CMD 0x42250
/* [ST 32] The number of commands received in queue 4 */
#define TSDM_REG_NUM_OF_Q4_CMD 0x42254
/* [ST 32] The number of commands received in queue 5 */
#define TSDM_REG_NUM_OF_Q5_CMD 0x42258
/* [ST 32] The number of commands received in queue 6 */
#define TSDM_REG_NUM_OF_Q6_CMD 0x4225c
/* [ST 32] The number of commands received in queue 7 */
#define TSDM_REG_NUM_OF_Q7_CMD 0x42260
/* [ST 32] The number of commands received in queue 8 */
#define TSDM_REG_NUM_OF_Q8_CMD 0x42264
/* [ST 32] The number of commands received in queue 9 */
#define TSDM_REG_NUM_OF_Q9_CMD 0x42268
/* [RW 13] The start address in the internal RAM for the packet end message */
#define TSDM_REG_PCK_END_MSG_START_ADDR 0x42014
/* [RW 13] The start address in the internal RAM for queue counters */
#define TSDM_REG_Q_COUNTER_START_ADDR 0x42010
/* [R 1] pxp_ctrl rd_data fifo empty in sdm_dma_rsp block */
#define TSDM_REG_RSP_PXP_CTRL_RDATA_EMPTY 0x42548
/* [R 1] parser fifo empty in sdm_sync block */
#define TSDM_REG_SYNC_PARSER_EMPTY 0x42550
/* [R 1] parser serial fifo empty in sdm_sync block */
#define TSDM_REG_SYNC_SYNC_EMPTY 0x42558
/* [RW 32] Tick for timer counter. Applicable only when
~tsdm_registers_timer_tick_enable.timer_tick_enable =1 */
#define TSDM_REG_TIMER_TICK 0x42000
/* [RW 32] Interrupt mask register #0 read/write */
#define TSDM_REG_TSDM_INT_MASK_0 0x4229c
#define TSDM_REG_TSDM_INT_MASK_1 0x422ac
/* [R 32] Interrupt register #0 read */
#define TSDM_REG_TSDM_INT_STS_0 0x42290
#define TSDM_REG_TSDM_INT_STS_1 0x422a0
/* [RW 11] Parity mask register #0 read/write */
#define TSDM_REG_TSDM_PRTY_MASK 0x422bc
/* [R 11] Parity register #0 read */
#define TSDM_REG_TSDM_PRTY_STS 0x422b0
/* [RW 5] The number of time_slots in the arbitration cycle */
#define TSEM_REG_ARB_CYCLE_SIZE 0x180034
/* [RW 3] The source that is associated with arbitration element 0. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2 */
#define TSEM_REG_ARB_ELEMENT0 0x180020
/* [RW 3] The source that is associated with arbitration element 1. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~tsem_registers_arb_element0.arb_element0 */
#define TSEM_REG_ARB_ELEMENT1 0x180024
/* [RW 3] The source that is associated with arbitration element 2. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~tsem_registers_arb_element0.arb_element0
and ~tsem_registers_arb_element1.arb_element1 */
#define TSEM_REG_ARB_ELEMENT2 0x180028
/* [RW 3] The source that is associated with arbitration element 3. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.Could
not be equal to register ~tsem_registers_arb_element0.arb_element0 and
~tsem_registers_arb_element1.arb_element1 and
~tsem_registers_arb_element2.arb_element2 */
#define TSEM_REG_ARB_ELEMENT3 0x18002c
/* [RW 3] The source that is associated with arbitration element 4. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~tsem_registers_arb_element0.arb_element0
and ~tsem_registers_arb_element1.arb_element1 and
~tsem_registers_arb_element2.arb_element2 and
~tsem_registers_arb_element3.arb_element3 */
#define TSEM_REG_ARB_ELEMENT4 0x180030
#define TSEM_REG_ENABLE_IN 0x1800a4
#define TSEM_REG_ENABLE_OUT 0x1800a8
/* [RW 32] This address space contains all registers and memories that are
placed in SEM_FAST block. The SEM_FAST registers are described in
appendix B. In order to access the sem_fast registers the base address
~fast_memory.fast_memory should be added to eachsem_fast register offset. */
#define TSEM_REG_FAST_MEMORY 0x1a0000
/* [RW 1] Disables input messages from FIC0 May be updated during run_time
by the microcode */
#define TSEM_REG_FIC0_DISABLE 0x180224
/* [RW 1] Disables input messages from FIC1 May be updated during run_time
by the microcode */
#define TSEM_REG_FIC1_DISABLE 0x180234
/* [RW 15] Interrupt table Read and write access to it is not possible in
the middle of the work */
#define TSEM_REG_INT_TABLE 0x180400
/* [ST 24] Statistics register. The number of messages that entered through
FIC0 */
#define TSEM_REG_MSG_NUM_FIC0 0x180000
/* [ST 24] Statistics register. The number of messages that entered through
FIC1 */
#define TSEM_REG_MSG_NUM_FIC1 0x180004
/* [ST 24] Statistics register. The number of messages that were sent to
FOC0 */
#define TSEM_REG_MSG_NUM_FOC0 0x180008
/* [ST 24] Statistics register. The number of messages that were sent to
FOC1 */
#define TSEM_REG_MSG_NUM_FOC1 0x18000c
/* [ST 24] Statistics register. The number of messages that were sent to
FOC2 */
#define TSEM_REG_MSG_NUM_FOC2 0x180010
/* [ST 24] Statistics register. The number of messages that were sent to
FOC3 */
#define TSEM_REG_MSG_NUM_FOC3 0x180014
/* [RW 1] Disables input messages from the passive buffer May be updated
during run_time by the microcode */
#define TSEM_REG_PAS_DISABLE 0x18024c
/* [WB 128] Debug only. Passive buffer memory */
#define TSEM_REG_PASSIVE_BUFFER 0x181000
/* [WB 46] pram memory. B45 is parity; b[44:0] - data. */
#define TSEM_REG_PRAM 0x1c0000
/* [R 8] Valid sleeping threads indication have bit per thread */
#define TSEM_REG_SLEEP_THREADS_VALID 0x18026c
/* [R 1] EXT_STORE FIFO is empty in sem_slow_ls_ext */
#define TSEM_REG_SLOW_EXT_STORE_EMPTY 0x1802a0
/* [RW 8] List of free threads . There is a bit per thread. */
#define TSEM_REG_THREADS_LIST 0x1802e4
/* [RW 3] The arbitration scheme of time_slot 0 */
#define TSEM_REG_TS_0_AS 0x180038
/* [RW 3] The arbitration scheme of time_slot 10 */
#define TSEM_REG_TS_10_AS 0x180060
/* [RW 3] The arbitration scheme of time_slot 11 */
#define TSEM_REG_TS_11_AS 0x180064
/* [RW 3] The arbitration scheme of time_slot 12 */
#define TSEM_REG_TS_12_AS 0x180068
/* [RW 3] The arbitration scheme of time_slot 13 */
#define TSEM_REG_TS_13_AS 0x18006c
/* [RW 3] The arbitration scheme of time_slot 14 */
#define TSEM_REG_TS_14_AS 0x180070
/* [RW 3] The arbitration scheme of time_slot 15 */
#define TSEM_REG_TS_15_AS 0x180074
/* [RW 3] The arbitration scheme of time_slot 16 */
#define TSEM_REG_TS_16_AS 0x180078
/* [RW 3] The arbitration scheme of time_slot 17 */
#define TSEM_REG_TS_17_AS 0x18007c
/* [RW 3] The arbitration scheme of time_slot 18 */
#define TSEM_REG_TS_18_AS 0x180080
/* [RW 3] The arbitration scheme of time_slot 1 */
#define TSEM_REG_TS_1_AS 0x18003c
/* [RW 3] The arbitration scheme of time_slot 2 */
#define TSEM_REG_TS_2_AS 0x180040
/* [RW 3] The arbitration scheme of time_slot 3 */
#define TSEM_REG_TS_3_AS 0x180044
/* [RW 3] The arbitration scheme of time_slot 4 */
#define TSEM_REG_TS_4_AS 0x180048
/* [RW 3] The arbitration scheme of time_slot 5 */
#define TSEM_REG_TS_5_AS 0x18004c
/* [RW 3] The arbitration scheme of time_slot 6 */
#define TSEM_REG_TS_6_AS 0x180050
/* [RW 3] The arbitration scheme of time_slot 7 */
#define TSEM_REG_TS_7_AS 0x180054
/* [RW 3] The arbitration scheme of time_slot 8 */
#define TSEM_REG_TS_8_AS 0x180058
/* [RW 3] The arbitration scheme of time_slot 9 */
#define TSEM_REG_TS_9_AS 0x18005c
/* [RW 32] Interrupt mask register #0 read/write */
#define TSEM_REG_TSEM_INT_MASK_0 0x180100
#define TSEM_REG_TSEM_INT_MASK_1 0x180110
/* [R 32] Interrupt register #0 read */
#define TSEM_REG_TSEM_INT_STS_0 0x1800f4
#define TSEM_REG_TSEM_INT_STS_1 0x180104
/* [RW 32] Parity mask register #0 read/write */
#define TSEM_REG_TSEM_PRTY_MASK_0 0x180120
#define TSEM_REG_TSEM_PRTY_MASK_1 0x180130
/* [R 32] Parity register #0 read */
#define TSEM_REG_TSEM_PRTY_STS_0 0x180114
#define TSEM_REG_TSEM_PRTY_STS_1 0x180124
/* [R 5] Used to read the XX protection CAM occupancy counter. */
#define UCM_REG_CAM_OCCUP 0xe0170
/* [RW 1] CDU AG read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define UCM_REG_CDU_AG_RD_IFEN 0xe0038
/* [RW 1] CDU AG write Interface enable. If 0 - the request and valid input
are disregarded; all other signals are treated as usual; if 1 - normal
activity. */
#define UCM_REG_CDU_AG_WR_IFEN 0xe0034
/* [RW 1] CDU STORM read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define UCM_REG_CDU_SM_RD_IFEN 0xe0040
/* [RW 1] CDU STORM write Interface enable. If 0 - the request and valid
input is disregarded; all other signals are treated as usual; if 1 -
normal activity. */
#define UCM_REG_CDU_SM_WR_IFEN 0xe003c
/* [RW 4] CFC output initial credit. Max credit available - 15.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 1 at start-up. */
#define UCM_REG_CFC_INIT_CRD 0xe0204
/* [RW 3] The weight of the CP input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_CP_WEIGHT 0xe00c4
/* [RW 1] Input csem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_CSEM_IFEN 0xe0028
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the csem interface is detected. */
#define UCM_REG_CSEM_LENGTH_MIS 0xe0160
/* [RW 3] The weight of the input csem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_CSEM_WEIGHT 0xe00b8
/* [RW 1] Input dorq Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_DORQ_IFEN 0xe0030
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the dorq interface is detected. */
#define UCM_REG_DORQ_LENGTH_MIS 0xe0168
/* [RW 3] The weight of the input dorq in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_DORQ_WEIGHT 0xe00c0
/* [RW 8] The Event ID in case ErrorFlg input message bit is set. */
#define UCM_REG_ERR_EVNT_ID 0xe00a4
/* [RW 28] The CM erroneous header for QM and Timers formatting. */
#define UCM_REG_ERR_UCM_HDR 0xe00a0
/* [RW 8] The Event ID for Timers expiration. */
#define UCM_REG_EXPR_EVNT_ID 0xe00a8
/* [RW 8] FIC0 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define UCM_REG_FIC0_INIT_CRD 0xe020c
/* [RW 8] FIC1 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define UCM_REG_FIC1_INIT_CRD 0xe0210
/* [RW 1] Arbitration between Input Arbiter groups: 0 - fair Round-Robin; 1
- strict priority defined by ~ucm_registers_gr_ag_pr.gr_ag_pr;
~ucm_registers_gr_ld0_pr.gr_ld0_pr and
~ucm_registers_gr_ld1_pr.gr_ld1_pr. */
#define UCM_REG_GR_ARB_TYPE 0xe0144
/* [RW 2] Load (FIC0) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed that the Store channel group is
compliment to the others. */
#define UCM_REG_GR_LD0_PR 0xe014c
/* [RW 2] Load (FIC1) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed that the Store channel group is
compliment to the others. */
#define UCM_REG_GR_LD1_PR 0xe0150
/* [RW 2] The queue index for invalidate counter flag decision. */
#define UCM_REG_INV_CFLG_Q 0xe00e4
/* [RW 5] The number of double REG-pairs; loaded from the STORM context and
sent to STORM; for a specific connection type. the double REG-pairs are
used in order to align to STORM context row size of 128 bits. The offset
of these data in the STORM context is always 0. Index _i stands for the
connection type (one of 16). */
#define UCM_REG_N_SM_CTX_LD_0 0xe0054
#define UCM_REG_N_SM_CTX_LD_1 0xe0058
#define UCM_REG_N_SM_CTX_LD_2 0xe005c
#define UCM_REG_N_SM_CTX_LD_3 0xe0060
#define UCM_REG_N_SM_CTX_LD_4 0xe0064
#define UCM_REG_N_SM_CTX_LD_5 0xe0068
#define UCM_REG_PHYS_QNUM0_0 0xe0110
#define UCM_REG_PHYS_QNUM0_1 0xe0114
#define UCM_REG_PHYS_QNUM1_0 0xe0118
#define UCM_REG_PHYS_QNUM1_1 0xe011c
#define UCM_REG_PHYS_QNUM2_0 0xe0120
#define UCM_REG_PHYS_QNUM2_1 0xe0124
#define UCM_REG_PHYS_QNUM3_0 0xe0128
#define UCM_REG_PHYS_QNUM3_1 0xe012c
/* [RW 8] The Event ID for Timers formatting in case of stop done. */
#define UCM_REG_STOP_EVNT_ID 0xe00ac
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the STORM interface is detected. */
#define UCM_REG_STORM_LENGTH_MIS 0xe0154
/* [RW 1] STORM - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_STORM_UCM_IFEN 0xe0010
/* [RW 3] The weight of the STORM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_STORM_WEIGHT 0xe00b0
/* [RW 4] Timers output initial credit. Max credit available - 15.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 4 at start-up. */
#define UCM_REG_TM_INIT_CRD 0xe021c
/* [RW 28] The CM header for Timers expiration command. */
#define UCM_REG_TM_UCM_HDR 0xe009c
/* [RW 1] Timers - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_TM_UCM_IFEN 0xe001c
/* [RW 3] The weight of the Timers input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_TM_WEIGHT 0xe00d4
/* [RW 1] Input tsem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_TSEM_IFEN 0xe0024
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the tsem interface is detected. */
#define UCM_REG_TSEM_LENGTH_MIS 0xe015c
/* [RW 3] The weight of the input tsem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_TSEM_WEIGHT 0xe00b4
/* [RW 1] CM - CFC Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define UCM_REG_UCM_CFC_IFEN 0xe0044
/* [RW 11] Interrupt mask register #0 read/write */
#define UCM_REG_UCM_INT_MASK 0xe01d4
/* [R 11] Interrupt register #0 read */
#define UCM_REG_UCM_INT_STS 0xe01c8
/* [R 27] Parity register #0 read */
#define UCM_REG_UCM_PRTY_STS 0xe01d8
/* [RW 2] The size of AG context region 0 in REG-pairs. Designates the MS
REG-pair number (e.g. if region 0 is 6 REG-pairs; the value should be 5).
Is used to determine the number of the AG context REG-pairs written back;
when the Reg1WbFlg isn't set. */
#define UCM_REG_UCM_REG0_SZ 0xe00dc
/* [RW 1] CM - STORM 0 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define UCM_REG_UCM_STORM0_IFEN 0xe0004
/* [RW 1] CM - STORM 1 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define UCM_REG_UCM_STORM1_IFEN 0xe0008
/* [RW 1] CM - Timers Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_UCM_TM_IFEN 0xe0020
/* [RW 1] CM - QM Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define UCM_REG_UCM_UQM_IFEN 0xe000c
/* [RW 1] If set the Q index; received from the QM is inserted to event ID. */
#define UCM_REG_UCM_UQM_USE_Q 0xe00d8
/* [RW 6] QM output initial credit. Max credit available - 32.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 32 at start-up. */
#define UCM_REG_UQM_INIT_CRD 0xe0220
/* [RW 3] The weight of the QM (primary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_UQM_P_WEIGHT 0xe00cc
/* [RW 3] The weight of the QM (secondary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_UQM_S_WEIGHT 0xe00d0
/* [RW 28] The CM header value for QM request (primary). */
#define UCM_REG_UQM_UCM_HDR_P 0xe0094
/* [RW 28] The CM header value for QM request (secondary). */
#define UCM_REG_UQM_UCM_HDR_S 0xe0098
/* [RW 1] QM - CM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define UCM_REG_UQM_UCM_IFEN 0xe0014
/* [RW 1] Input SDM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define UCM_REG_USDM_IFEN 0xe0018
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the SDM interface is detected. */
#define UCM_REG_USDM_LENGTH_MIS 0xe0158
/* [RW 3] The weight of the SDM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_USDM_WEIGHT 0xe00c8
/* [RW 1] Input xsem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define UCM_REG_XSEM_IFEN 0xe002c
/* [RC 1] Set when the message length mismatch (relative to last indication)
at the xsem interface isdetected. */
#define UCM_REG_XSEM_LENGTH_MIS 0xe0164
/* [RW 3] The weight of the input xsem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define UCM_REG_XSEM_WEIGHT 0xe00bc
/* [RW 20] Indirect access to the descriptor table of the XX protection
mechanism. The fields are:[5:0] - message length; 14:6] - message
pointer; 19:15] - next pointer. */
#define UCM_REG_XX_DESCR_TABLE 0xe0280
#define UCM_REG_XX_DESCR_TABLE_SIZE 32
/* [R 6] Use to read the XX protection Free counter. */
#define UCM_REG_XX_FREE 0xe016c
/* [RW 6] Initial value for the credit counter; responsible for fulfilling
of the Input Stage XX protection buffer by the XX protection pending
messages. Write writes the initial credit value; read returns the current
value of the credit counter. Must be initialized to 12 at start-up. */
#define UCM_REG_XX_INIT_CRD 0xe0224
/* [RW 6] The maximum number of pending messages; which may be stored in XX
protection. ~ucm_registers_xx_free.xx_free read on read. */
#define UCM_REG_XX_MSG_NUM 0xe0228
/* [RW 8] The Event ID; sent to the STORM in case of XX overflow. */
#define UCM_REG_XX_OVFL_EVNT_ID 0xe004c
/* [RW 16] Indirect access to the XX table of the XX protection mechanism.
The fields are: [4:0] - tail pointer; 10:5] - Link List size; 15:11] -
header pointer. */
#define UCM_REG_XX_TABLE 0xe0300
/* [RW 8] The event id for aggregated interrupt 0 */
#define USDM_REG_AGG_INT_EVENT_0 0xc4038
#define USDM_REG_AGG_INT_EVENT_1 0xc403c
#define USDM_REG_AGG_INT_EVENT_2 0xc4040
#define USDM_REG_AGG_INT_EVENT_4 0xc4048
#define USDM_REG_AGG_INT_EVENT_5 0xc404c
#define USDM_REG_AGG_INT_EVENT_6 0xc4050
/* [RW 1] For each aggregated interrupt index whether the mode is normal (0)
or auto-mask-mode (1) */
#define USDM_REG_AGG_INT_MODE_0 0xc41b8
#define USDM_REG_AGG_INT_MODE_1 0xc41bc
#define USDM_REG_AGG_INT_MODE_4 0xc41c8
#define USDM_REG_AGG_INT_MODE_5 0xc41cc
#define USDM_REG_AGG_INT_MODE_6 0xc41d0
/* [RW 1] The T bit for aggregated interrupt 5 */
#define USDM_REG_AGG_INT_T_5 0xc40cc
#define USDM_REG_AGG_INT_T_6 0xc40d0
/* [RW 13] The start address in the internal RAM for the cfc_rsp lcid */
#define USDM_REG_CFC_RSP_START_ADDR 0xc4008
/* [RW 16] The maximum value of the competion counter #0 */
#define USDM_REG_CMP_COUNTER_MAX0 0xc401c
/* [RW 16] The maximum value of the competion counter #1 */
#define USDM_REG_CMP_COUNTER_MAX1 0xc4020
/* [RW 16] The maximum value of the competion counter #2 */
#define USDM_REG_CMP_COUNTER_MAX2 0xc4024
/* [RW 16] The maximum value of the competion counter #3 */
#define USDM_REG_CMP_COUNTER_MAX3 0xc4028
/* [RW 13] The start address in the internal RAM for the completion
counters. */
#define USDM_REG_CMP_COUNTER_START_ADDR 0xc400c
#define USDM_REG_ENABLE_IN1 0xc4238
#define USDM_REG_ENABLE_IN2 0xc423c
#define USDM_REG_ENABLE_OUT1 0xc4240
#define USDM_REG_ENABLE_OUT2 0xc4244
/* [RW 4] The initial number of messages that can be sent to the pxp control
interface without receiving any ACK. */
#define USDM_REG_INIT_CREDIT_PXP_CTRL 0xc44c0
/* [ST 32] The number of ACK after placement messages received */
#define USDM_REG_NUM_OF_ACK_AFTER_PLACE 0xc4280
/* [ST 32] The number of packet end messages received from the parser */
#define USDM_REG_NUM_OF_PKT_END_MSG 0xc4278
/* [ST 32] The number of requests received from the pxp async if */
#define USDM_REG_NUM_OF_PXP_ASYNC_REQ 0xc427c
/* [ST 32] The number of commands received in queue 0 */
#define USDM_REG_NUM_OF_Q0_CMD 0xc4248
/* [ST 32] The number of commands received in queue 10 */
#define USDM_REG_NUM_OF_Q10_CMD 0xc4270
/* [ST 32] The number of commands received in queue 11 */
#define USDM_REG_NUM_OF_Q11_CMD 0xc4274
/* [ST 32] The number of commands received in queue 1 */
#define USDM_REG_NUM_OF_Q1_CMD 0xc424c
/* [ST 32] The number of commands received in queue 2 */
#define USDM_REG_NUM_OF_Q2_CMD 0xc4250
/* [ST 32] The number of commands received in queue 3 */
#define USDM_REG_NUM_OF_Q3_CMD 0xc4254
/* [ST 32] The number of commands received in queue 4 */
#define USDM_REG_NUM_OF_Q4_CMD 0xc4258
/* [ST 32] The number of commands received in queue 5 */
#define USDM_REG_NUM_OF_Q5_CMD 0xc425c
/* [ST 32] The number of commands received in queue 6 */
#define USDM_REG_NUM_OF_Q6_CMD 0xc4260
/* [ST 32] The number of commands received in queue 7 */
#define USDM_REG_NUM_OF_Q7_CMD 0xc4264
/* [ST 32] The number of commands received in queue 8 */
#define USDM_REG_NUM_OF_Q8_CMD 0xc4268
/* [ST 32] The number of commands received in queue 9 */
#define USDM_REG_NUM_OF_Q9_CMD 0xc426c
/* [RW 13] The start address in the internal RAM for the packet end message */
#define USDM_REG_PCK_END_MSG_START_ADDR 0xc4014
/* [RW 13] The start address in the internal RAM for queue counters */
#define USDM_REG_Q_COUNTER_START_ADDR 0xc4010
/* [R 1] pxp_ctrl rd_data fifo empty in sdm_dma_rsp block */
#define USDM_REG_RSP_PXP_CTRL_RDATA_EMPTY 0xc4550
/* [R 1] parser fifo empty in sdm_sync block */
#define USDM_REG_SYNC_PARSER_EMPTY 0xc4558
/* [R 1] parser serial fifo empty in sdm_sync block */
#define USDM_REG_SYNC_SYNC_EMPTY 0xc4560
/* [RW 32] Tick for timer counter. Applicable only when
~usdm_registers_timer_tick_enable.timer_tick_enable =1 */
#define USDM_REG_TIMER_TICK 0xc4000
/* [RW 32] Interrupt mask register #0 read/write */
#define USDM_REG_USDM_INT_MASK_0 0xc42a0
#define USDM_REG_USDM_INT_MASK_1 0xc42b0
/* [R 32] Interrupt register #0 read */
#define USDM_REG_USDM_INT_STS_0 0xc4294
#define USDM_REG_USDM_INT_STS_1 0xc42a4
/* [RW 11] Parity mask register #0 read/write */
#define USDM_REG_USDM_PRTY_MASK 0xc42c0
/* [R 11] Parity register #0 read */
#define USDM_REG_USDM_PRTY_STS 0xc42b4
/* [RW 5] The number of time_slots in the arbitration cycle */
#define USEM_REG_ARB_CYCLE_SIZE 0x300034
/* [RW 3] The source that is associated with arbitration element 0. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2 */
#define USEM_REG_ARB_ELEMENT0 0x300020
/* [RW 3] The source that is associated with arbitration element 1. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~usem_registers_arb_element0.arb_element0 */
#define USEM_REG_ARB_ELEMENT1 0x300024
/* [RW 3] The source that is associated with arbitration element 2. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~usem_registers_arb_element0.arb_element0
and ~usem_registers_arb_element1.arb_element1 */
#define USEM_REG_ARB_ELEMENT2 0x300028
/* [RW 3] The source that is associated with arbitration element 3. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.Could
not be equal to register ~usem_registers_arb_element0.arb_element0 and
~usem_registers_arb_element1.arb_element1 and
~usem_registers_arb_element2.arb_element2 */
#define USEM_REG_ARB_ELEMENT3 0x30002c
/* [RW 3] The source that is associated with arbitration element 4. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~usem_registers_arb_element0.arb_element0
and ~usem_registers_arb_element1.arb_element1 and
~usem_registers_arb_element2.arb_element2 and
~usem_registers_arb_element3.arb_element3 */
#define USEM_REG_ARB_ELEMENT4 0x300030
#define USEM_REG_ENABLE_IN 0x3000a4
#define USEM_REG_ENABLE_OUT 0x3000a8
/* [RW 32] This address space contains all registers and memories that are
placed in SEM_FAST block. The SEM_FAST registers are described in
appendix B. In order to access the sem_fast registers the base address
~fast_memory.fast_memory should be added to eachsem_fast register offset. */
#define USEM_REG_FAST_MEMORY 0x320000
/* [RW 1] Disables input messages from FIC0 May be updated during run_time
by the microcode */
#define USEM_REG_FIC0_DISABLE 0x300224
/* [RW 1] Disables input messages from FIC1 May be updated during run_time
by the microcode */
#define USEM_REG_FIC1_DISABLE 0x300234
/* [RW 15] Interrupt table Read and write access to it is not possible in
the middle of the work */
#define USEM_REG_INT_TABLE 0x300400
/* [ST 24] Statistics register. The number of messages that entered through
FIC0 */
#define USEM_REG_MSG_NUM_FIC0 0x300000
/* [ST 24] Statistics register. The number of messages that entered through
FIC1 */
#define USEM_REG_MSG_NUM_FIC1 0x300004
/* [ST 24] Statistics register. The number of messages that were sent to
FOC0 */
#define USEM_REG_MSG_NUM_FOC0 0x300008
/* [ST 24] Statistics register. The number of messages that were sent to
FOC1 */
#define USEM_REG_MSG_NUM_FOC1 0x30000c
/* [ST 24] Statistics register. The number of messages that were sent to
FOC2 */
#define USEM_REG_MSG_NUM_FOC2 0x300010
/* [ST 24] Statistics register. The number of messages that were sent to
FOC3 */
#define USEM_REG_MSG_NUM_FOC3 0x300014
/* [RW 1] Disables input messages from the passive buffer May be updated
during run_time by the microcode */
#define USEM_REG_PAS_DISABLE 0x30024c
/* [WB 128] Debug only. Passive buffer memory */
#define USEM_REG_PASSIVE_BUFFER 0x302000
/* [WB 46] pram memory. B45 is parity; b[44:0] - data. */
#define USEM_REG_PRAM 0x340000
/* [R 16] Valid sleeping threads indication have bit per thread */
#define USEM_REG_SLEEP_THREADS_VALID 0x30026c
/* [R 1] EXT_STORE FIFO is empty in sem_slow_ls_ext */
#define USEM_REG_SLOW_EXT_STORE_EMPTY 0x3002a0
/* [RW 16] List of free threads . There is a bit per thread. */
#define USEM_REG_THREADS_LIST 0x3002e4
/* [RW 3] The arbitration scheme of time_slot 0 */
#define USEM_REG_TS_0_AS 0x300038
/* [RW 3] The arbitration scheme of time_slot 10 */
#define USEM_REG_TS_10_AS 0x300060
/* [RW 3] The arbitration scheme of time_slot 11 */
#define USEM_REG_TS_11_AS 0x300064
/* [RW 3] The arbitration scheme of time_slot 12 */
#define USEM_REG_TS_12_AS 0x300068
/* [RW 3] The arbitration scheme of time_slot 13 */
#define USEM_REG_TS_13_AS 0x30006c
/* [RW 3] The arbitration scheme of time_slot 14 */
#define USEM_REG_TS_14_AS 0x300070
/* [RW 3] The arbitration scheme of time_slot 15 */
#define USEM_REG_TS_15_AS 0x300074
/* [RW 3] The arbitration scheme of time_slot 16 */
#define USEM_REG_TS_16_AS 0x300078
/* [RW 3] The arbitration scheme of time_slot 17 */
#define USEM_REG_TS_17_AS 0x30007c
/* [RW 3] The arbitration scheme of time_slot 18 */
#define USEM_REG_TS_18_AS 0x300080
/* [RW 3] The arbitration scheme of time_slot 1 */
#define USEM_REG_TS_1_AS 0x30003c
/* [RW 3] The arbitration scheme of time_slot 2 */
#define USEM_REG_TS_2_AS 0x300040
/* [RW 3] The arbitration scheme of time_slot 3 */
#define USEM_REG_TS_3_AS 0x300044
/* [RW 3] The arbitration scheme of time_slot 4 */
#define USEM_REG_TS_4_AS 0x300048
/* [RW 3] The arbitration scheme of time_slot 5 */
#define USEM_REG_TS_5_AS 0x30004c
/* [RW 3] The arbitration scheme of time_slot 6 */
#define USEM_REG_TS_6_AS 0x300050
/* [RW 3] The arbitration scheme of time_slot 7 */
#define USEM_REG_TS_7_AS 0x300054
/* [RW 3] The arbitration scheme of time_slot 8 */
#define USEM_REG_TS_8_AS 0x300058
/* [RW 3] The arbitration scheme of time_slot 9 */
#define USEM_REG_TS_9_AS 0x30005c
/* [RW 32] Interrupt mask register #0 read/write */
#define USEM_REG_USEM_INT_MASK_0 0x300110
#define USEM_REG_USEM_INT_MASK_1 0x300120
/* [R 32] Interrupt register #0 read */
#define USEM_REG_USEM_INT_STS_0 0x300104
#define USEM_REG_USEM_INT_STS_1 0x300114
/* [RW 32] Parity mask register #0 read/write */
#define USEM_REG_USEM_PRTY_MASK_0 0x300130
#define USEM_REG_USEM_PRTY_MASK_1 0x300140
/* [R 32] Parity register #0 read */
#define USEM_REG_USEM_PRTY_STS_0 0x300124
#define USEM_REG_USEM_PRTY_STS_1 0x300134
/* [RW 2] The queue index for registration on Aux1 counter flag. */
#define XCM_REG_AUX1_Q 0x20134
/* [RW 2] Per each decision rule the queue index to register to. */
#define XCM_REG_AUX_CNT_FLG_Q_19 0x201b0
/* [R 5] Used to read the XX protection CAM occupancy counter. */
#define XCM_REG_CAM_OCCUP 0x20244
/* [RW 1] CDU AG read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define XCM_REG_CDU_AG_RD_IFEN 0x20044
/* [RW 1] CDU AG write Interface enable. If 0 - the request and valid input
are disregarded; all other signals are treated as usual; if 1 - normal
activity. */
#define XCM_REG_CDU_AG_WR_IFEN 0x20040
/* [RW 1] CDU STORM read Interface enable. If 0 - the request input is
disregarded; valid output is deasserted; all other signals are treated as
usual; if 1 - normal activity. */
#define XCM_REG_CDU_SM_RD_IFEN 0x2004c
/* [RW 1] CDU STORM write Interface enable. If 0 - the request and valid
input is disregarded; all other signals are treated as usual; if 1 -
normal activity. */
#define XCM_REG_CDU_SM_WR_IFEN 0x20048
/* [RW 4] CFC output initial credit. Max credit available - 15.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 1 at start-up. */
#define XCM_REG_CFC_INIT_CRD 0x20404
/* [RW 3] The weight of the CP input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_CP_WEIGHT 0x200dc
/* [RW 1] Input csem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_CSEM_IFEN 0x20028
/* [RC 1] Set at message length mismatch (relative to last indication) at
the csem interface. */
#define XCM_REG_CSEM_LENGTH_MIS 0x20228
/* [RW 3] The weight of the input csem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_CSEM_WEIGHT 0x200c4
/* [RW 1] Input dorq Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_DORQ_IFEN 0x20030
/* [RC 1] Set at message length mismatch (relative to last indication) at
the dorq interface. */
#define XCM_REG_DORQ_LENGTH_MIS 0x20230
/* [RW 3] The weight of the input dorq in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_DORQ_WEIGHT 0x200cc
/* [RW 8] The Event ID in case the ErrorFlg input message bit is set. */
#define XCM_REG_ERR_EVNT_ID 0x200b0
/* [RW 28] The CM erroneous header for QM and Timers formatting. */
#define XCM_REG_ERR_XCM_HDR 0x200ac
/* [RW 8] The Event ID for Timers expiration. */
#define XCM_REG_EXPR_EVNT_ID 0x200b4
/* [RW 8] FIC0 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define XCM_REG_FIC0_INIT_CRD 0x2040c
/* [RW 8] FIC1 output initial credit. Max credit available - 255.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 64 at start-up. */
#define XCM_REG_FIC1_INIT_CRD 0x20410
#define XCM_REG_GLB_DEL_ACK_MAX_CNT_0 0x20118
#define XCM_REG_GLB_DEL_ACK_MAX_CNT_1 0x2011c
#define XCM_REG_GLB_DEL_ACK_TMR_VAL_0 0x20108
#define XCM_REG_GLB_DEL_ACK_TMR_VAL_1 0x2010c
/* [RW 1] Arbitratiojn between Input Arbiter groups: 0 - fair Round-Robin; 1
- strict priority defined by ~xcm_registers_gr_ag_pr.gr_ag_pr;
~xcm_registers_gr_ld0_pr.gr_ld0_pr and
~xcm_registers_gr_ld1_pr.gr_ld1_pr. */
#define XCM_REG_GR_ARB_TYPE 0x2020c
/* [RW 2] Load (FIC0) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed that the Channel group is the
compliment of the other 3 groups. */
#define XCM_REG_GR_LD0_PR 0x20214
/* [RW 2] Load (FIC1) channel group priority. The lowest priority is 0; the
highest priority is 3. It is supposed that the Channel group is the
compliment of the other 3 groups. */
#define XCM_REG_GR_LD1_PR 0x20218
/* [RW 1] Input nig0 Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_NIG0_IFEN 0x20038
/* [RC 1] Set at message length mismatch (relative to last indication) at
the nig0 interface. */
#define XCM_REG_NIG0_LENGTH_MIS 0x20238
/* [RW 3] The weight of the input nig0 in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_NIG0_WEIGHT 0x200d4
/* [RW 1] Input nig1 Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_NIG1_IFEN 0x2003c
/* [RC 1] Set at message length mismatch (relative to last indication) at
the nig1 interface. */
#define XCM_REG_NIG1_LENGTH_MIS 0x2023c
/* [RW 5] The number of double REG-pairs; loaded from the STORM context and
sent to STORM; for a specific connection type. The double REG-pairs are
used in order to align to STORM context row size of 128 bits. The offset
of these data in the STORM context is always 0. Index _i stands for the
connection type (one of 16). */
#define XCM_REG_N_SM_CTX_LD_0 0x20060
#define XCM_REG_N_SM_CTX_LD_1 0x20064
#define XCM_REG_N_SM_CTX_LD_2 0x20068
#define XCM_REG_N_SM_CTX_LD_3 0x2006c
#define XCM_REG_N_SM_CTX_LD_4 0x20070
#define XCM_REG_N_SM_CTX_LD_5 0x20074
/* [RW 1] Input pbf Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_PBF_IFEN 0x20034
/* [RC 1] Set at message length mismatch (relative to last indication) at
the pbf interface. */
#define XCM_REG_PBF_LENGTH_MIS 0x20234
/* [RW 3] The weight of the input pbf in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_PBF_WEIGHT 0x200d0
#define XCM_REG_PHYS_QNUM3_0 0x20100
#define XCM_REG_PHYS_QNUM3_1 0x20104
/* [RW 8] The Event ID for Timers formatting in case of stop done. */
#define XCM_REG_STOP_EVNT_ID 0x200b8
/* [RC 1] Set at message length mismatch (relative to last indication) at
the STORM interface. */
#define XCM_REG_STORM_LENGTH_MIS 0x2021c
/* [RW 3] The weight of the STORM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_STORM_WEIGHT 0x200bc
/* [RW 1] STORM - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_STORM_XCM_IFEN 0x20010
/* [RW 4] Timers output initial credit. Max credit available - 15.Write
writes the initial credit value; read returns the current value of the
credit counter. Must be initialized to 4 at start-up. */
#define XCM_REG_TM_INIT_CRD 0x2041c
/* [RW 3] The weight of the Timers input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_TM_WEIGHT 0x200ec
/* [RW 28] The CM header for Timers expiration command. */
#define XCM_REG_TM_XCM_HDR 0x200a8
/* [RW 1] Timers - CM Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_TM_XCM_IFEN 0x2001c
/* [RW 1] Input tsem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_TSEM_IFEN 0x20024
/* [RC 1] Set at message length mismatch (relative to last indication) at
the tsem interface. */
#define XCM_REG_TSEM_LENGTH_MIS 0x20224
/* [RW 3] The weight of the input tsem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_TSEM_WEIGHT 0x200c0
/* [RW 2] The queue index for registration on UNA greater NXT decision rule. */
#define XCM_REG_UNA_GT_NXT_Q 0x20120
/* [RW 1] Input usem Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_USEM_IFEN 0x2002c
/* [RC 1] Message length mismatch (relative to last indication) at the usem
interface. */
#define XCM_REG_USEM_LENGTH_MIS 0x2022c
/* [RW 3] The weight of the input usem in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_USEM_WEIGHT 0x200c8
#define XCM_REG_WU_DA_CNT_CMD00 0x201d4
#define XCM_REG_WU_DA_CNT_CMD01 0x201d8
#define XCM_REG_WU_DA_CNT_CMD10 0x201dc
#define XCM_REG_WU_DA_CNT_CMD11 0x201e0
#define XCM_REG_WU_DA_CNT_UPD_VAL00 0x201e4
#define XCM_REG_WU_DA_CNT_UPD_VAL01 0x201e8
#define XCM_REG_WU_DA_CNT_UPD_VAL10 0x201ec
#define XCM_REG_WU_DA_CNT_UPD_VAL11 0x201f0
#define XCM_REG_WU_DA_SET_TMR_CNT_FLG_CMD00 0x201c4
#define XCM_REG_WU_DA_SET_TMR_CNT_FLG_CMD01 0x201c8
#define XCM_REG_WU_DA_SET_TMR_CNT_FLG_CMD10 0x201cc
#define XCM_REG_WU_DA_SET_TMR_CNT_FLG_CMD11 0x201d0
/* [RW 1] CM - CFC Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_XCM_CFC_IFEN 0x20050
/* [RW 14] Interrupt mask register #0 read/write */
#define XCM_REG_XCM_INT_MASK 0x202b4
/* [R 14] Interrupt register #0 read */
#define XCM_REG_XCM_INT_STS 0x202a8
/* [R 30] Parity register #0 read */
#define XCM_REG_XCM_PRTY_STS 0x202b8
/* [RW 4] The size of AG context region 0 in REG-pairs. Designates the MS
REG-pair number (e.g. if region 0 is 6 REG-pairs; the value should be 5).
Is used to determine the number of the AG context REG-pairs written back;
when the Reg1WbFlg isn't set. */
#define XCM_REG_XCM_REG0_SZ 0x200f4
/* [RW 1] CM - STORM 0 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_XCM_STORM0_IFEN 0x20004
/* [RW 1] CM - STORM 1 Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_XCM_STORM1_IFEN 0x20008
/* [RW 1] CM - Timers Interface enable. If 0 - the valid input is
disregarded; acknowledge output is deasserted; all other signals are
treated as usual; if 1 - normal activity. */
#define XCM_REG_XCM_TM_IFEN 0x20020
/* [RW 1] CM - QM Interface enable. If 0 - the acknowledge input is
disregarded; valid is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_XCM_XQM_IFEN 0x2000c
/* [RW 1] If set the Q index; received from the QM is inserted to event ID. */
#define XCM_REG_XCM_XQM_USE_Q 0x200f0
/* [RW 4] The value by which CFC updates the activity counter at QM bypass. */
#define XCM_REG_XQM_BYP_ACT_UPD 0x200fc
/* [RW 6] QM output initial credit. Max credit available - 32.Write writes
the initial credit value; read returns the current value of the credit
counter. Must be initialized to 32 at start-up. */
#define XCM_REG_XQM_INIT_CRD 0x20420
/* [RW 3] The weight of the QM (primary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_XQM_P_WEIGHT 0x200e4
/* [RW 3] The weight of the QM (secondary) input in the WRR mechanism. 0
stands for weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_XQM_S_WEIGHT 0x200e8
/* [RW 28] The CM header value for QM request (primary). */
#define XCM_REG_XQM_XCM_HDR_P 0x200a0
/* [RW 28] The CM header value for QM request (secondary). */
#define XCM_REG_XQM_XCM_HDR_S 0x200a4
/* [RW 1] QM - CM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_XQM_XCM_IFEN 0x20014
/* [RW 1] Input SDM Interface enable. If 0 - the valid input is disregarded;
acknowledge output is deasserted; all other signals are treated as usual;
if 1 - normal activity. */
#define XCM_REG_XSDM_IFEN 0x20018
/* [RC 1] Set at message length mismatch (relative to last indication) at
the SDM interface. */
#define XCM_REG_XSDM_LENGTH_MIS 0x20220
/* [RW 3] The weight of the SDM input in the WRR mechanism. 0 stands for
weight 8 (the most prioritised); 1 stands for weight 1(least
prioritised); 2 stands for weight 2; tc. */
#define XCM_REG_XSDM_WEIGHT 0x200e0
/* [RW 17] Indirect access to the descriptor table of the XX protection
mechanism. The fields are: [5:0] - message length; 11:6] - message
pointer; 16:12] - next pointer. */
#define XCM_REG_XX_DESCR_TABLE 0x20480
#define XCM_REG_XX_DESCR_TABLE_SIZE 32
/* [R 6] Used to read the XX protection Free counter. */
#define XCM_REG_XX_FREE 0x20240
/* [RW 6] Initial value for the credit counter; responsible for fulfilling
of the Input Stage XX protection buffer by the XX protection pending
messages. Max credit available - 3.Write writes the initial credit value;
read returns the current value of the credit counter. Must be initialized
to 2 at start-up. */
#define XCM_REG_XX_INIT_CRD 0x20424
/* [RW 6] The maximum number of pending messages; which may be stored in XX
protection. ~xcm_registers_xx_free.xx_free read on read. */
#define XCM_REG_XX_MSG_NUM 0x20428
/* [RW 8] The Event ID; sent to the STORM in case of XX overflow. */
#define XCM_REG_XX_OVFL_EVNT_ID 0x20058
/* [RW 16] Indirect access to the XX table of the XX protection mechanism.
The fields are:[4:0] - tail pointer; 9:5] - Link List size; 14:10] -
header pointer. */
#define XCM_REG_XX_TABLE 0x20500
/* [RW 8] The event id for aggregated interrupt 0 */
#define XSDM_REG_AGG_INT_EVENT_0 0x166038
#define XSDM_REG_AGG_INT_EVENT_1 0x16603c
#define XSDM_REG_AGG_INT_EVENT_10 0x166060
#define XSDM_REG_AGG_INT_EVENT_11 0x166064
#define XSDM_REG_AGG_INT_EVENT_12 0x166068
#define XSDM_REG_AGG_INT_EVENT_13 0x16606c
#define XSDM_REG_AGG_INT_EVENT_14 0x166070
#define XSDM_REG_AGG_INT_EVENT_2 0x166040
#define XSDM_REG_AGG_INT_EVENT_3 0x166044
#define XSDM_REG_AGG_INT_EVENT_4 0x166048
#define XSDM_REG_AGG_INT_EVENT_5 0x16604c
#define XSDM_REG_AGG_INT_EVENT_6 0x166050
#define XSDM_REG_AGG_INT_EVENT_7 0x166054
#define XSDM_REG_AGG_INT_EVENT_8 0x166058
#define XSDM_REG_AGG_INT_EVENT_9 0x16605c
/* [RW 1] For each aggregated interrupt index whether the mode is normal (0)
or auto-mask-mode (1) */
#define XSDM_REG_AGG_INT_MODE_0 0x1661b8
#define XSDM_REG_AGG_INT_MODE_1 0x1661bc
/* [RW 13] The start address in the internal RAM for the cfc_rsp lcid */
#define XSDM_REG_CFC_RSP_START_ADDR 0x166008
/* [RW 16] The maximum value of the competion counter #0 */
#define XSDM_REG_CMP_COUNTER_MAX0 0x16601c
/* [RW 16] The maximum value of the competion counter #1 */
#define XSDM_REG_CMP_COUNTER_MAX1 0x166020
/* [RW 16] The maximum value of the competion counter #2 */
#define XSDM_REG_CMP_COUNTER_MAX2 0x166024
/* [RW 16] The maximum value of the competion counter #3 */
#define XSDM_REG_CMP_COUNTER_MAX3 0x166028
/* [RW 13] The start address in the internal RAM for the completion
counters. */
#define XSDM_REG_CMP_COUNTER_START_ADDR 0x16600c
#define XSDM_REG_ENABLE_IN1 0x166238
#define XSDM_REG_ENABLE_IN2 0x16623c
#define XSDM_REG_ENABLE_OUT1 0x166240
#define XSDM_REG_ENABLE_OUT2 0x166244
/* [RW 4] The initial number of messages that can be sent to the pxp control
interface without receiving any ACK. */
#define XSDM_REG_INIT_CREDIT_PXP_CTRL 0x1664bc
/* [ST 32] The number of ACK after placement messages received */
#define XSDM_REG_NUM_OF_ACK_AFTER_PLACE 0x16627c
/* [ST 32] The number of packet end messages received from the parser */
#define XSDM_REG_NUM_OF_PKT_END_MSG 0x166274
/* [ST 32] The number of requests received from the pxp async if */
#define XSDM_REG_NUM_OF_PXP_ASYNC_REQ 0x166278
/* [ST 32] The number of commands received in queue 0 */
#define XSDM_REG_NUM_OF_Q0_CMD 0x166248
/* [ST 32] The number of commands received in queue 10 */
#define XSDM_REG_NUM_OF_Q10_CMD 0x16626c
/* [ST 32] The number of commands received in queue 11 */
#define XSDM_REG_NUM_OF_Q11_CMD 0x166270
/* [ST 32] The number of commands received in queue 1 */
#define XSDM_REG_NUM_OF_Q1_CMD 0x16624c
/* [ST 32] The number of commands received in queue 3 */
#define XSDM_REG_NUM_OF_Q3_CMD 0x166250
/* [ST 32] The number of commands received in queue 4 */
#define XSDM_REG_NUM_OF_Q4_CMD 0x166254
/* [ST 32] The number of commands received in queue 5 */
#define XSDM_REG_NUM_OF_Q5_CMD 0x166258
/* [ST 32] The number of commands received in queue 6 */
#define XSDM_REG_NUM_OF_Q6_CMD 0x16625c
/* [ST 32] The number of commands received in queue 7 */
#define XSDM_REG_NUM_OF_Q7_CMD 0x166260
/* [ST 32] The number of commands received in queue 8 */
#define XSDM_REG_NUM_OF_Q8_CMD 0x166264
/* [ST 32] The number of commands received in queue 9 */
#define XSDM_REG_NUM_OF_Q9_CMD 0x166268
/* [RW 13] The start address in the internal RAM for queue counters */
#define XSDM_REG_Q_COUNTER_START_ADDR 0x166010
/* [R 1] pxp_ctrl rd_data fifo empty in sdm_dma_rsp block */
#define XSDM_REG_RSP_PXP_CTRL_RDATA_EMPTY 0x166548
/* [R 1] parser fifo empty in sdm_sync block */
#define XSDM_REG_SYNC_PARSER_EMPTY 0x166550
/* [R 1] parser serial fifo empty in sdm_sync block */
#define XSDM_REG_SYNC_SYNC_EMPTY 0x166558
/* [RW 32] Tick for timer counter. Applicable only when
~xsdm_registers_timer_tick_enable.timer_tick_enable =1 */
#define XSDM_REG_TIMER_TICK 0x166000
/* [RW 32] Interrupt mask register #0 read/write */
#define XSDM_REG_XSDM_INT_MASK_0 0x16629c
#define XSDM_REG_XSDM_INT_MASK_1 0x1662ac
/* [R 32] Interrupt register #0 read */
#define XSDM_REG_XSDM_INT_STS_0 0x166290
#define XSDM_REG_XSDM_INT_STS_1 0x1662a0
/* [RW 11] Parity mask register #0 read/write */
#define XSDM_REG_XSDM_PRTY_MASK 0x1662bc
/* [R 11] Parity register #0 read */
#define XSDM_REG_XSDM_PRTY_STS 0x1662b0
/* [RW 5] The number of time_slots in the arbitration cycle */
#define XSEM_REG_ARB_CYCLE_SIZE 0x280034
/* [RW 3] The source that is associated with arbitration element 0. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2 */
#define XSEM_REG_ARB_ELEMENT0 0x280020
/* [RW 3] The source that is associated with arbitration element 1. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~xsem_registers_arb_element0.arb_element0 */
#define XSEM_REG_ARB_ELEMENT1 0x280024
/* [RW 3] The source that is associated with arbitration element 2. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~xsem_registers_arb_element0.arb_element0
and ~xsem_registers_arb_element1.arb_element1 */
#define XSEM_REG_ARB_ELEMENT2 0x280028
/* [RW 3] The source that is associated with arbitration element 3. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.Could
not be equal to register ~xsem_registers_arb_element0.arb_element0 and
~xsem_registers_arb_element1.arb_element1 and
~xsem_registers_arb_element2.arb_element2 */
#define XSEM_REG_ARB_ELEMENT3 0x28002c
/* [RW 3] The source that is associated with arbitration element 4. Source
decoding is: 0- foc0; 1-fic1; 2-sleeping thread with priority 0; 3-
sleeping thread with priority 1; 4- sleeping thread with priority 2.
Could not be equal to register ~xsem_registers_arb_element0.arb_element0
and ~xsem_registers_arb_element1.arb_element1 and
~xsem_registers_arb_element2.arb_element2 and
~xsem_registers_arb_element3.arb_element3 */
#define XSEM_REG_ARB_ELEMENT4 0x280030
#define XSEM_REG_ENABLE_IN 0x2800a4
#define XSEM_REG_ENABLE_OUT 0x2800a8
/* [RW 32] This address space contains all registers and memories that are
placed in SEM_FAST block. The SEM_FAST registers are described in
appendix B. In order to access the sem_fast registers the base address
~fast_memory.fast_memory should be added to eachsem_fast register offset. */
#define XSEM_REG_FAST_MEMORY 0x2a0000
/* [RW 1] Disables input messages from FIC0 May be updated during run_time
by the microcode */
#define XSEM_REG_FIC0_DISABLE 0x280224
/* [RW 1] Disables input messages from FIC1 May be updated during run_time
by the microcode */
#define XSEM_REG_FIC1_DISABLE 0x280234
/* [RW 15] Interrupt table Read and write access to it is not possible in
the middle of the work */
#define XSEM_REG_INT_TABLE 0x280400
/* [ST 24] Statistics register. The number of messages that entered through
FIC0 */
#define XSEM_REG_MSG_NUM_FIC0 0x280000
/* [ST 24] Statistics register. The number of messages that entered through
FIC1 */
#define XSEM_REG_MSG_NUM_FIC1 0x280004
/* [ST 24] Statistics register. The number of messages that were sent to
FOC0 */
#define XSEM_REG_MSG_NUM_FOC0 0x280008
/* [ST 24] Statistics register. The number of messages that were sent to
FOC1 */
#define XSEM_REG_MSG_NUM_FOC1 0x28000c
/* [ST 24] Statistics register. The number of messages that were sent to
FOC2 */
#define XSEM_REG_MSG_NUM_FOC2 0x280010
/* [ST 24] Statistics register. The number of messages that were sent to
FOC3 */
#define XSEM_REG_MSG_NUM_FOC3 0x280014
/* [RW 1] Disables input messages from the passive buffer May be updated
during run_time by the microcode */
#define XSEM_REG_PAS_DISABLE 0x28024c
/* [WB 128] Debug only. Passive buffer memory */
#define XSEM_REG_PASSIVE_BUFFER 0x282000
/* [WB 46] pram memory. B45 is parity; b[44:0] - data. */
#define XSEM_REG_PRAM 0x2c0000
/* [R 16] Valid sleeping threads indication have bit per thread */
#define XSEM_REG_SLEEP_THREADS_VALID 0x28026c
/* [R 1] EXT_STORE FIFO is empty in sem_slow_ls_ext */
#define XSEM_REG_SLOW_EXT_STORE_EMPTY 0x2802a0
/* [RW 16] List of free threads . There is a bit per thread. */
#define XSEM_REG_THREADS_LIST 0x2802e4
/* [RW 3] The arbitration scheme of time_slot 0 */
#define XSEM_REG_TS_0_AS 0x280038
/* [RW 3] The arbitration scheme of time_slot 10 */
#define XSEM_REG_TS_10_AS 0x280060
/* [RW 3] The arbitration scheme of time_slot 11 */
#define XSEM_REG_TS_11_AS 0x280064
/* [RW 3] The arbitration scheme of time_slot 12 */
#define XSEM_REG_TS_12_AS 0x280068
/* [RW 3] The arbitration scheme of time_slot 13 */
#define XSEM_REG_TS_13_AS 0x28006c
/* [RW 3] The arbitration scheme of time_slot 14 */
#define XSEM_REG_TS_14_AS 0x280070
/* [RW 3] The arbitration scheme of time_slot 15 */
#define XSEM_REG_TS_15_AS 0x280074
/* [RW 3] The arbitration scheme of time_slot 16 */
#define XSEM_REG_TS_16_AS 0x280078
/* [RW 3] The arbitration scheme of time_slot 17 */
#define XSEM_REG_TS_17_AS 0x28007c
/* [RW 3] The arbitration scheme of time_slot 18 */
#define XSEM_REG_TS_18_AS 0x280080
/* [RW 3] The arbitration scheme of time_slot 1 */
#define XSEM_REG_TS_1_AS 0x28003c
/* [RW 3] The arbitration scheme of time_slot 2 */
#define XSEM_REG_TS_2_AS 0x280040
/* [RW 3] The arbitration scheme of time_slot 3 */
#define XSEM_REG_TS_3_AS 0x280044
/* [RW 3] The arbitration scheme of time_slot 4 */
#define XSEM_REG_TS_4_AS 0x280048
/* [RW 3] The arbitration scheme of time_slot 5 */
#define XSEM_REG_TS_5_AS 0x28004c
/* [RW 3] The arbitration scheme of time_slot 6 */
#define XSEM_REG_TS_6_AS 0x280050
/* [RW 3] The arbitration scheme of time_slot 7 */
#define XSEM_REG_TS_7_AS 0x280054
/* [RW 3] The arbitration scheme of time_slot 8 */
#define XSEM_REG_TS_8_AS 0x280058
/* [RW 3] The arbitration scheme of time_slot 9 */
#define XSEM_REG_TS_9_AS 0x28005c
/* [RW 32] Interrupt mask register #0 read/write */
#define XSEM_REG_XSEM_INT_MASK_0 0x280110
#define XSEM_REG_XSEM_INT_MASK_1 0x280120
/* [R 32] Interrupt register #0 read */
#define XSEM_REG_XSEM_INT_STS_0 0x280104
#define XSEM_REG_XSEM_INT_STS_1 0x280114
/* [RW 32] Parity mask register #0 read/write */
#define XSEM_REG_XSEM_PRTY_MASK_0 0x280130
#define XSEM_REG_XSEM_PRTY_MASK_1 0x280140
/* [R 32] Parity register #0 read */
#define XSEM_REG_XSEM_PRTY_STS_0 0x280124
#define XSEM_REG_XSEM_PRTY_STS_1 0x280134
#define MCPR_NVM_ACCESS_ENABLE_EN (1L<<0)
#define MCPR_NVM_ACCESS_ENABLE_WR_EN (1L<<1)
#define MCPR_NVM_ADDR_NVM_ADDR_VALUE (0xffffffL<<0)
#define MCPR_NVM_CFG4_FLASH_SIZE (0x7L<<0)
#define MCPR_NVM_COMMAND_DOIT (1L<<4)
#define MCPR_NVM_COMMAND_DONE (1L<<3)
#define MCPR_NVM_COMMAND_FIRST (1L<<7)
#define MCPR_NVM_COMMAND_LAST (1L<<8)
#define MCPR_NVM_COMMAND_WR (1L<<5)
#define MCPR_NVM_SW_ARB_ARB_ARB1 (1L<<9)
#define MCPR_NVM_SW_ARB_ARB_REQ_CLR1 (1L<<5)
#define MCPR_NVM_SW_ARB_ARB_REQ_SET1 (1L<<1)
#define BIGMAC_REGISTER_BMAC_CONTROL (0x00<<3)
#define BIGMAC_REGISTER_BMAC_XGXS_CONTROL (0x01<<3)
#define BIGMAC_REGISTER_CNT_MAX_SIZE (0x05<<3)
#define BIGMAC_REGISTER_RX_CONTROL (0x21<<3)
#define BIGMAC_REGISTER_RX_LLFC_MSG_FLDS (0x46<<3)
#define BIGMAC_REGISTER_RX_MAX_SIZE (0x23<<3)
#define BIGMAC_REGISTER_RX_STAT_GR64 (0x26<<3)
#define BIGMAC_REGISTER_RX_STAT_GRIPJ (0x42<<3)
#define BIGMAC_REGISTER_TX_CONTROL (0x07<<3)
#define BIGMAC_REGISTER_TX_MAX_SIZE (0x09<<3)
#define BIGMAC_REGISTER_TX_PAUSE_THRESHOLD (0x0A<<3)
#define BIGMAC_REGISTER_TX_SOURCE_ADDR (0x08<<3)
#define BIGMAC_REGISTER_TX_STAT_GTBYT (0x20<<3)
#define BIGMAC_REGISTER_TX_STAT_GTPKT (0x0C<<3)
#define EMAC_LED_1000MB_OVERRIDE (1L<<1)
#define EMAC_LED_100MB_OVERRIDE (1L<<2)
#define EMAC_LED_10MB_OVERRIDE (1L<<3)
#define EMAC_LED_2500MB_OVERRIDE (1L<<12)
#define EMAC_LED_OVERRIDE (1L<<0)
#define EMAC_LED_TRAFFIC (1L<<6)
#define EMAC_MDIO_COMM_COMMAND_ADDRESS (0L<<26)
#define EMAC_MDIO_COMM_COMMAND_READ_45 (3L<<26)
#define EMAC_MDIO_COMM_COMMAND_WRITE_45 (1L<<26)
#define EMAC_MDIO_COMM_DATA (0xffffL<<0)
#define EMAC_MDIO_COMM_START_BUSY (1L<<29)
#define EMAC_MDIO_MODE_AUTO_POLL (1L<<4)
#define EMAC_MDIO_MODE_CLAUSE_45 (1L<<31)
#define EMAC_MDIO_MODE_CLOCK_CNT (0x3fL<<16)
#define EMAC_MDIO_MODE_CLOCK_CNT_BITSHIFT 16
#define EMAC_MODE_25G_MODE (1L<<5)
#define EMAC_MODE_HALF_DUPLEX (1L<<1)
#define EMAC_MODE_PORT_GMII (2L<<2)
#define EMAC_MODE_PORT_MII (1L<<2)
#define EMAC_MODE_PORT_MII_10M (3L<<2)
#define EMAC_MODE_RESET (1L<<0)
#define EMAC_REG_EMAC_LED 0xc
#define EMAC_REG_EMAC_MAC_MATCH 0x10
#define EMAC_REG_EMAC_MDIO_COMM 0xac
#define EMAC_REG_EMAC_MDIO_MODE 0xb4
#define EMAC_REG_EMAC_MODE 0x0
#define EMAC_REG_EMAC_RX_MODE 0xc8
#define EMAC_REG_EMAC_RX_MTU_SIZE 0x9c
#define EMAC_REG_EMAC_RX_STAT_AC 0x180
#define EMAC_REG_EMAC_RX_STAT_AC_28 0x1f4
#define EMAC_REG_EMAC_RX_STAT_AC_COUNT 23
#define EMAC_REG_EMAC_TX_MODE 0xbc
#define EMAC_REG_EMAC_TX_STAT_AC 0x280
#define EMAC_REG_EMAC_TX_STAT_AC_COUNT 22
#define EMAC_RX_MODE_FLOW_EN (1L<<2)
#define EMAC_RX_MODE_KEEP_VLAN_TAG (1L<<10)
#define EMAC_RX_MODE_PROMISCUOUS (1L<<8)
#define EMAC_RX_MODE_RESET (1L<<0)
#define EMAC_RX_MTU_SIZE_JUMBO_ENA (1L<<31)
#define EMAC_TX_MODE_EXT_PAUSE_EN (1L<<3)
#define EMAC_TX_MODE_FLOW_EN (1L<<4)
#define EMAC_TX_MODE_RESET (1L<<0)
#define MISC_REGISTERS_GPIO_0 0
#define MISC_REGISTERS_GPIO_1 1
#define MISC_REGISTERS_GPIO_2 2
#define MISC_REGISTERS_GPIO_3 3
#define MISC_REGISTERS_GPIO_CLR_POS 16
#define MISC_REGISTERS_GPIO_FLOAT (0xffL<<24)
#define MISC_REGISTERS_GPIO_FLOAT_POS 24
#define MISC_REGISTERS_GPIO_HIGH 1
#define MISC_REGISTERS_GPIO_INPUT_HI_Z 2
#define MISC_REGISTERS_GPIO_INT_CLR_POS 24
#define MISC_REGISTERS_GPIO_INT_OUTPUT_CLR 0
#define MISC_REGISTERS_GPIO_INT_OUTPUT_SET 1
#define MISC_REGISTERS_GPIO_INT_SET_POS 16
#define MISC_REGISTERS_GPIO_LOW 0
#define MISC_REGISTERS_GPIO_OUTPUT_HIGH 1
#define MISC_REGISTERS_GPIO_OUTPUT_LOW 0
#define MISC_REGISTERS_GPIO_PORT_SHIFT 4
#define MISC_REGISTERS_GPIO_SET_POS 8
#define MISC_REGISTERS_RESET_REG_1_CLEAR 0x588
#define MISC_REGISTERS_RESET_REG_1_RST_NIG (0x1<<7)
#define MISC_REGISTERS_RESET_REG_1_SET 0x584
#define MISC_REGISTERS_RESET_REG_2_CLEAR 0x598
#define MISC_REGISTERS_RESET_REG_2_RST_BMAC0 (0x1<<0)
#define MISC_REGISTERS_RESET_REG_2_RST_EMAC0_HARD_CORE (0x1<<14)
#define MISC_REGISTERS_RESET_REG_2_SET 0x594
#define MISC_REGISTERS_RESET_REG_3_CLEAR 0x5a8
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_SERDES0_IDDQ (0x1<<1)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_SERDES0_PWRDWN (0x1<<2)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_SERDES0_PWRDWN_SD (0x1<<3)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_SERDES0_RSTB_HW (0x1<<0)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_XGXS0_IDDQ (0x1<<5)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_XGXS0_PWRDWN (0x1<<6)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_XGXS0_PWRDWN_SD (0x1<<7)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_XGXS0_RSTB_HW (0x1<<4)
#define MISC_REGISTERS_RESET_REG_3_MISC_NIG_MUX_XGXS0_TXD_FIFO_RSTB (0x1<<8)
#define MISC_REGISTERS_RESET_REG_3_SET 0x5a4
#define MISC_REGISTERS_SPIO_4 4
#define MISC_REGISTERS_SPIO_5 5
#define MISC_REGISTERS_SPIO_7 7
#define MISC_REGISTERS_SPIO_CLR_POS 16
#define MISC_REGISTERS_SPIO_FLOAT (0xffL<<24)
#define MISC_REGISTERS_SPIO_FLOAT_POS 24
#define MISC_REGISTERS_SPIO_INPUT_HI_Z 2
#define MISC_REGISTERS_SPIO_INT_OLD_SET_POS 16
#define MISC_REGISTERS_SPIO_OUTPUT_HIGH 1
#define MISC_REGISTERS_SPIO_OUTPUT_LOW 0
#define MISC_REGISTERS_SPIO_SET_POS 8
#define HW_LOCK_MAX_RESOURCE_VALUE 31
#define HW_LOCK_RESOURCE_GPIO 1
#define HW_LOCK_RESOURCE_MDIO 0
#define HW_LOCK_RESOURCE_PORT0_ATT_MASK 3
#define HW_LOCK_RESOURCE_SPIO 2
#define HW_LOCK_RESOURCE_UNDI 5
#define PRS_FLAG_OVERETH_IPV4 1
#define AEU_INPUTS_ATTN_BITS_BRB_PARITY_ERROR (1<<18)
#define AEU_INPUTS_ATTN_BITS_CCM_HW_INTERRUPT (1<<31)
#define AEU_INPUTS_ATTN_BITS_CDU_HW_INTERRUPT (1<<9)
#define AEU_INPUTS_ATTN_BITS_CDU_PARITY_ERROR (1<<8)
#define AEU_INPUTS_ATTN_BITS_CFC_HW_INTERRUPT (1<<7)
#define AEU_INPUTS_ATTN_BITS_CFC_PARITY_ERROR (1<<6)
#define AEU_INPUTS_ATTN_BITS_CSDM_HW_INTERRUPT (1<<29)
#define AEU_INPUTS_ATTN_BITS_CSDM_PARITY_ERROR (1<<28)
#define AEU_INPUTS_ATTN_BITS_CSEMI_HW_INTERRUPT (1<<1)
#define AEU_INPUTS_ATTN_BITS_CSEMI_PARITY_ERROR (1<<0)
#define AEU_INPUTS_ATTN_BITS_DEBUG_PARITY_ERROR (1<<18)
#define AEU_INPUTS_ATTN_BITS_DMAE_HW_INTERRUPT (1<<11)
#define AEU_INPUTS_ATTN_BITS_DOORBELLQ_HW_INTERRUPT (1<<13)
#define AEU_INPUTS_ATTN_BITS_DOORBELLQ_PARITY_ERROR (1<<12)
#define AEU_INPUTS_ATTN_BITS_GPIO3_FUNCTION_0 (1<<5)
#define AEU_INPUTS_ATTN_BITS_GPIO3_FUNCTION_1 (1<<9)
#define AEU_INPUTS_ATTN_BITS_IGU_PARITY_ERROR (1<<12)
#define AEU_INPUTS_ATTN_BITS_MISC_HW_INTERRUPT (1<<15)
#define AEU_INPUTS_ATTN_BITS_MISC_PARITY_ERROR (1<<14)
#define AEU_INPUTS_ATTN_BITS_PARSER_PARITY_ERROR (1<<20)
#define AEU_INPUTS_ATTN_BITS_PBCLIENT_PARITY_ERROR (1<<0)
#define AEU_INPUTS_ATTN_BITS_PBF_HW_INTERRUPT (1<<31)
#define AEU_INPUTS_ATTN_BITS_PXP_HW_INTERRUPT (1<<3)
#define AEU_INPUTS_ATTN_BITS_PXP_PARITY_ERROR (1<<2)
#define AEU_INPUTS_ATTN_BITS_PXPPCICLOCKCLIENT_HW_INTERRUPT (1<<5)
#define AEU_INPUTS_ATTN_BITS_PXPPCICLOCKCLIENT_PARITY_ERROR (1<<4)
#define AEU_INPUTS_ATTN_BITS_QM_HW_INTERRUPT (1<<3)
#define AEU_INPUTS_ATTN_BITS_QM_PARITY_ERROR (1<<2)
#define AEU_INPUTS_ATTN_BITS_SEARCHER_PARITY_ERROR (1<<22)
#define AEU_INPUTS_ATTN_BITS_SPIO5 (1<<15)
#define AEU_INPUTS_ATTN_BITS_TCM_HW_INTERRUPT (1<<27)
#define AEU_INPUTS_ATTN_BITS_TIMERS_HW_INTERRUPT (1<<5)
#define AEU_INPUTS_ATTN_BITS_TSDM_HW_INTERRUPT (1<<25)
#define AEU_INPUTS_ATTN_BITS_TSDM_PARITY_ERROR (1<<24)
#define AEU_INPUTS_ATTN_BITS_TSEMI_HW_INTERRUPT (1<<29)
#define AEU_INPUTS_ATTN_BITS_TSEMI_PARITY_ERROR (1<<28)
#define AEU_INPUTS_ATTN_BITS_UCM_HW_INTERRUPT (1<<23)
#define AEU_INPUTS_ATTN_BITS_UPB_HW_INTERRUPT (1<<27)
#define AEU_INPUTS_ATTN_BITS_UPB_PARITY_ERROR (1<<26)
#define AEU_INPUTS_ATTN_BITS_USDM_HW_INTERRUPT (1<<21)
#define AEU_INPUTS_ATTN_BITS_USDM_PARITY_ERROR (1<<20)
#define AEU_INPUTS_ATTN_BITS_USEMI_HW_INTERRUPT (1<<25)
#define AEU_INPUTS_ATTN_BITS_USEMI_PARITY_ERROR (1<<24)
#define AEU_INPUTS_ATTN_BITS_VAUX_PCI_CORE_PARITY_ERROR (1<<16)
#define AEU_INPUTS_ATTN_BITS_XCM_HW_INTERRUPT (1<<9)
#define AEU_INPUTS_ATTN_BITS_XSDM_HW_INTERRUPT (1<<7)
#define AEU_INPUTS_ATTN_BITS_XSDM_PARITY_ERROR (1<<6)
#define AEU_INPUTS_ATTN_BITS_XSEMI_HW_INTERRUPT (1<<11)
#define AEU_INPUTS_ATTN_BITS_XSEMI_PARITY_ERROR (1<<10)
#define RESERVED_GENERAL_ATTENTION_BIT_0 0
#define EVEREST_GEN_ATTN_IN_USE_MASK 0x3ffe0
#define EVEREST_LATCHED_ATTN_IN_USE_MASK 0xffe00000
#define RESERVED_GENERAL_ATTENTION_BIT_6 6
#define RESERVED_GENERAL_ATTENTION_BIT_7 7
#define RESERVED_GENERAL_ATTENTION_BIT_8 8
#define RESERVED_GENERAL_ATTENTION_BIT_9 9
#define RESERVED_GENERAL_ATTENTION_BIT_10 10
#define RESERVED_GENERAL_ATTENTION_BIT_11 11
#define RESERVED_GENERAL_ATTENTION_BIT_12 12
#define RESERVED_GENERAL_ATTENTION_BIT_13 13
#define RESERVED_GENERAL_ATTENTION_BIT_14 14
#define RESERVED_GENERAL_ATTENTION_BIT_15 15
#define RESERVED_GENERAL_ATTENTION_BIT_16 16
#define RESERVED_GENERAL_ATTENTION_BIT_17 17
#define RESERVED_GENERAL_ATTENTION_BIT_18 18
#define RESERVED_GENERAL_ATTENTION_BIT_19 19
#define RESERVED_GENERAL_ATTENTION_BIT_20 20
#define RESERVED_GENERAL_ATTENTION_BIT_21 21
/* storm asserts attention bits */
#define TSTORM_FATAL_ASSERT_ATTENTION_BIT RESERVED_GENERAL_ATTENTION_BIT_7
#define USTORM_FATAL_ASSERT_ATTENTION_BIT RESERVED_GENERAL_ATTENTION_BIT_8
#define CSTORM_FATAL_ASSERT_ATTENTION_BIT RESERVED_GENERAL_ATTENTION_BIT_9
#define XSTORM_FATAL_ASSERT_ATTENTION_BIT RESERVED_GENERAL_ATTENTION_BIT_10
/* mcp error attention bit */
#define MCP_FATAL_ASSERT_ATTENTION_BIT RESERVED_GENERAL_ATTENTION_BIT_11
/*E1H NIG status sync attention mapped to group 4-7*/
#define LINK_SYNC_ATTENTION_BIT_FUNC_0 RESERVED_GENERAL_ATTENTION_BIT_12
#define LINK_SYNC_ATTENTION_BIT_FUNC_1 RESERVED_GENERAL_ATTENTION_BIT_13
#define LINK_SYNC_ATTENTION_BIT_FUNC_2 RESERVED_GENERAL_ATTENTION_BIT_14
#define LINK_SYNC_ATTENTION_BIT_FUNC_3 RESERVED_GENERAL_ATTENTION_BIT_15
#define LINK_SYNC_ATTENTION_BIT_FUNC_4 RESERVED_GENERAL_ATTENTION_BIT_16
#define LINK_SYNC_ATTENTION_BIT_FUNC_5 RESERVED_GENERAL_ATTENTION_BIT_17
#define LINK_SYNC_ATTENTION_BIT_FUNC_6 RESERVED_GENERAL_ATTENTION_BIT_18
#define LINK_SYNC_ATTENTION_BIT_FUNC_7 RESERVED_GENERAL_ATTENTION_BIT_19
#define LATCHED_ATTN_RBCR 23
#define LATCHED_ATTN_RBCT 24
#define LATCHED_ATTN_RBCN 25
#define LATCHED_ATTN_RBCU 26
#define LATCHED_ATTN_RBCP 27
#define LATCHED_ATTN_TIMEOUT_GRC 28
#define LATCHED_ATTN_RSVD_GRC 29
#define LATCHED_ATTN_ROM_PARITY_MCP 30
#define LATCHED_ATTN_UM_RX_PARITY_MCP 31
#define LATCHED_ATTN_UM_TX_PARITY_MCP 32
#define LATCHED_ATTN_SCPAD_PARITY_MCP 33
#define GENERAL_ATTEN_WORD(atten_name) ((94 + atten_name) / 32)
#define GENERAL_ATTEN_OFFSET(atten_name)\
(1UL << ((94 + atten_name) % 32))
/*
* This file defines GRC base address for every block.
* This file is included by chipsim, asm microcode and cpp microcode.
* These values are used in Design.xml on regBase attribute
* Use the base with the generated offsets of specific registers.
*/
#define GRCBASE_PXPCS 0x000000
#define GRCBASE_PCICONFIG 0x002000
#define GRCBASE_PCIREG 0x002400
#define GRCBASE_EMAC0 0x008000
#define GRCBASE_EMAC1 0x008400
#define GRCBASE_DBU 0x008800
#define GRCBASE_MISC 0x00A000
#define GRCBASE_DBG 0x00C000
#define GRCBASE_NIG 0x010000
#define GRCBASE_XCM 0x020000
#define GRCBASE_PRS 0x040000
#define GRCBASE_SRCH 0x040400
#define GRCBASE_TSDM 0x042000
#define GRCBASE_TCM 0x050000
#define GRCBASE_BRB1 0x060000
#define GRCBASE_MCP 0x080000
#define GRCBASE_UPB 0x0C1000
#define GRCBASE_CSDM 0x0C2000
#define GRCBASE_USDM 0x0C4000
#define GRCBASE_CCM 0x0D0000
#define GRCBASE_UCM 0x0E0000
#define GRCBASE_CDU 0x101000
#define GRCBASE_DMAE 0x102000
#define GRCBASE_PXP 0x103000
#define GRCBASE_CFC 0x104000
#define GRCBASE_HC 0x108000
#define GRCBASE_PXP2 0x120000
#define GRCBASE_PBF 0x140000
#define GRCBASE_XPB 0x161000
#define GRCBASE_TIMERS 0x164000
#define GRCBASE_XSDM 0x166000
#define GRCBASE_QM 0x168000
#define GRCBASE_DQ 0x170000
#define GRCBASE_TSEM 0x180000
#define GRCBASE_CSEM 0x200000
#define GRCBASE_XSEM 0x280000
#define GRCBASE_USEM 0x300000
#define GRCBASE_MISC_AEU GRCBASE_MISC
/* offset of configuration space in the pci core register */
#define PCICFG_OFFSET 0x2000
#define PCICFG_VENDOR_ID_OFFSET 0x00
#define PCICFG_DEVICE_ID_OFFSET 0x02
#define PCICFG_COMMAND_OFFSET 0x04
#define PCICFG_COMMAND_IO_SPACE (1<<0)
#define PCICFG_COMMAND_MEM_SPACE (1<<1)
#define PCICFG_COMMAND_BUS_MASTER (1<<2)
#define PCICFG_COMMAND_SPECIAL_CYCLES (1<<3)
#define PCICFG_COMMAND_MWI_CYCLES (1<<4)
#define PCICFG_COMMAND_VGA_SNOOP (1<<5)
#define PCICFG_COMMAND_PERR_ENA (1<<6)
#define PCICFG_COMMAND_STEPPING (1<<7)
#define PCICFG_COMMAND_SERR_ENA (1<<8)
#define PCICFG_COMMAND_FAST_B2B (1<<9)
#define PCICFG_COMMAND_INT_DISABLE (1<<10)
#define PCICFG_COMMAND_RESERVED (0x1f<<11)
#define PCICFG_STATUS_OFFSET 0x06
#define PCICFG_REVESION_ID_OFFSET 0x08
#define PCICFG_CACHE_LINE_SIZE 0x0c
#define PCICFG_LATENCY_TIMER 0x0d
#define PCICFG_BAR_1_LOW 0x10
#define PCICFG_BAR_1_HIGH 0x14
#define PCICFG_BAR_2_LOW 0x18
#define PCICFG_BAR_2_HIGH 0x1c
#define PCICFG_SUBSYSTEM_VENDOR_ID_OFFSET 0x2c
#define PCICFG_SUBSYSTEM_ID_OFFSET 0x2e
#define PCICFG_INT_LINE 0x3c
#define PCICFG_INT_PIN 0x3d
#define PCICFG_PM_CAPABILITY 0x48
#define PCICFG_PM_CAPABILITY_VERSION (0x3<<16)
#define PCICFG_PM_CAPABILITY_CLOCK (1<<19)
#define PCICFG_PM_CAPABILITY_RESERVED (1<<20)
#define PCICFG_PM_CAPABILITY_DSI (1<<21)
#define PCICFG_PM_CAPABILITY_AUX_CURRENT (0x7<<22)
#define PCICFG_PM_CAPABILITY_D1_SUPPORT (1<<25)
#define PCICFG_PM_CAPABILITY_D2_SUPPORT (1<<26)
#define PCICFG_PM_CAPABILITY_PME_IN_D0 (1<<27)
#define PCICFG_PM_CAPABILITY_PME_IN_D1 (1<<28)
#define PCICFG_PM_CAPABILITY_PME_IN_D2 (1<<29)
#define PCICFG_PM_CAPABILITY_PME_IN_D3_HOT (1<<30)
#define PCICFG_PM_CAPABILITY_PME_IN_D3_COLD (1<<31)
#define PCICFG_PM_CSR_OFFSET 0x4c
#define PCICFG_PM_CSR_STATE (0x3<<0)
#define PCICFG_PM_CSR_PME_ENABLE (1<<8)
#define PCICFG_PM_CSR_PME_STATUS (1<<15)
#define PCICFG_MSI_CAP_ID_OFFSET 0x58
#define PCICFG_MSI_CONTROL_ENABLE (0x1<<16)
#define PCICFG_MSI_CONTROL_MCAP (0x7<<17)
#define PCICFG_MSI_CONTROL_MENA (0x7<<20)
#define PCICFG_MSI_CONTROL_64_BIT_ADDR_CAP (0x1<<23)
#define PCICFG_MSI_CONTROL_MSI_PVMASK_CAPABLE (0x1<<24)
#define PCICFG_GRC_ADDRESS 0x78
#define PCICFG_GRC_DATA 0x80
#define PCICFG_MSIX_CAP_ID_OFFSET 0xa0
#define PCICFG_MSIX_CONTROL_TABLE_SIZE (0x7ff<<16)
#define PCICFG_MSIX_CONTROL_RESERVED (0x7<<27)
#define PCICFG_MSIX_CONTROL_FUNC_MASK (0x1<<30)
#define PCICFG_MSIX_CONTROL_MSIX_ENABLE (0x1<<31)
#define PCICFG_DEVICE_CONTROL 0xb4
#define PCICFG_DEVICE_STATUS 0xb6
#define PCICFG_DEVICE_STATUS_CORR_ERR_DET (1<<0)
#define PCICFG_DEVICE_STATUS_NON_FATAL_ERR_DET (1<<1)
#define PCICFG_DEVICE_STATUS_FATAL_ERR_DET (1<<2)
#define PCICFG_DEVICE_STATUS_UNSUP_REQ_DET (1<<3)
#define PCICFG_DEVICE_STATUS_AUX_PWR_DET (1<<4)
#define PCICFG_DEVICE_STATUS_NO_PEND (1<<5)
#define PCICFG_LINK_CONTROL 0xbc
#define BAR_USTRORM_INTMEM 0x400000
#define BAR_CSTRORM_INTMEM 0x410000
#define BAR_XSTRORM_INTMEM 0x420000
#define BAR_TSTRORM_INTMEM 0x430000
/* for accessing the IGU in case of status block ACK */
#define BAR_IGU_INTMEM 0x440000
#define BAR_DOORBELL_OFFSET 0x800000
#define BAR_ME_REGISTER 0x450000
/* config_2 offset */
#define GRC_CONFIG_2_SIZE_REG 0x408
#define PCI_CONFIG_2_BAR1_SIZE (0xfL<<0)
#define PCI_CONFIG_2_BAR1_SIZE_DISABLED (0L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_64K (1L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_128K (2L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_256K (3L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_512K (4L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_1M (5L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_2M (6L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_4M (7L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_8M (8L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_16M (9L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_32M (10L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_64M (11L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_128M (12L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_256M (13L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_512M (14L<<0)
#define PCI_CONFIG_2_BAR1_SIZE_1G (15L<<0)
#define PCI_CONFIG_2_BAR1_64ENA (1L<<4)
#define PCI_CONFIG_2_EXP_ROM_RETRY (1L<<5)
#define PCI_CONFIG_2_CFG_CYCLE_RETRY (1L<<6)
#define PCI_CONFIG_2_FIRST_CFG_DONE (1L<<7)
#define PCI_CONFIG_2_EXP_ROM_SIZE (0xffL<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_DISABLED (0L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_2K (1L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_4K (2L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_8K (3L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_16K (4L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_32K (5L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_64K (6L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_128K (7L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_256K (8L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_512K (9L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_1M (10L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_2M (11L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_4M (12L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_8M (13L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_16M (14L<<8)
#define PCI_CONFIG_2_EXP_ROM_SIZE_32M (15L<<8)
#define PCI_CONFIG_2_BAR_PREFETCH (1L<<16)
#define PCI_CONFIG_2_RESERVED0 (0x7fffL<<17)
/* config_3 offset */
#define GRC_CONFIG_3_SIZE_REG 0x40c
#define PCI_CONFIG_3_STICKY_BYTE (0xffL<<0)
#define PCI_CONFIG_3_FORCE_PME (1L<<24)
#define PCI_CONFIG_3_PME_STATUS (1L<<25)
#define PCI_CONFIG_3_PME_ENABLE (1L<<26)
#define PCI_CONFIG_3_PM_STATE (0x3L<<27)
#define PCI_CONFIG_3_VAUX_PRESET (1L<<30)
#define PCI_CONFIG_3_PCI_POWER (1L<<31)
#define GRC_BAR2_CONFIG 0x4e0
#define PCI_CONFIG_2_BAR2_SIZE (0xfL<<0)
#define PCI_CONFIG_2_BAR2_SIZE_DISABLED (0L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_64K (1L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_128K (2L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_256K (3L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_512K (4L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_1M (5L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_2M (6L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_4M (7L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_8M (8L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_16M (9L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_32M (10L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_64M (11L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_128M (12L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_256M (13L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_512M (14L<<0)
#define PCI_CONFIG_2_BAR2_SIZE_1G (15L<<0)
#define PCI_CONFIG_2_BAR2_64ENA (1L<<4)
#define PCI_PM_DATA_A 0x410
#define PCI_PM_DATA_B 0x414
#define PCI_ID_VAL1 0x434
#define PCI_ID_VAL2 0x438
#define MDIO_REG_BANK_CL73_IEEEB0 0x0
#define MDIO_CL73_IEEEB0_CL73_AN_CONTROL 0x0
#define MDIO_CL73_IEEEB0_CL73_AN_CONTROL_RESTART_AN 0x0200
#define MDIO_CL73_IEEEB0_CL73_AN_CONTROL_AN_EN 0x1000
#define MDIO_CL73_IEEEB0_CL73_AN_CONTROL_MAIN_RST 0x8000
#define MDIO_REG_BANK_CL73_IEEEB1 0x10
#define MDIO_CL73_IEEEB1_AN_ADV2 0x01
#define MDIO_CL73_IEEEB1_AN_ADV2_ADVR_1000M 0x0000
#define MDIO_CL73_IEEEB1_AN_ADV2_ADVR_1000M_KX 0x0020
#define MDIO_CL73_IEEEB1_AN_ADV2_ADVR_10G_KX4 0x0040
#define MDIO_CL73_IEEEB1_AN_ADV2_ADVR_10G_KR 0x0080
#define MDIO_REG_BANK_RX0 0x80b0
#define MDIO_RX0_RX_STATUS 0x10
#define MDIO_RX0_RX_STATUS_SIGDET 0x8000
#define MDIO_RX0_RX_STATUS_RX_SEQ_DONE 0x1000
#define MDIO_RX0_RX_EQ_BOOST 0x1c
#define MDIO_RX0_RX_EQ_BOOST_EQUALIZER_CTRL_MASK 0x7
#define MDIO_RX0_RX_EQ_BOOST_OFFSET_CTRL 0x10
#define MDIO_REG_BANK_RX1 0x80c0
#define MDIO_RX1_RX_EQ_BOOST 0x1c
#define MDIO_RX1_RX_EQ_BOOST_EQUALIZER_CTRL_MASK 0x7
#define MDIO_RX1_RX_EQ_BOOST_OFFSET_CTRL 0x10
#define MDIO_REG_BANK_RX2 0x80d0
#define MDIO_RX2_RX_EQ_BOOST 0x1c
#define MDIO_RX2_RX_EQ_BOOST_EQUALIZER_CTRL_MASK 0x7
#define MDIO_RX2_RX_EQ_BOOST_OFFSET_CTRL 0x10
#define MDIO_REG_BANK_RX3 0x80e0
#define MDIO_RX3_RX_EQ_BOOST 0x1c
#define MDIO_RX3_RX_EQ_BOOST_EQUALIZER_CTRL_MASK 0x7
#define MDIO_RX3_RX_EQ_BOOST_OFFSET_CTRL 0x10
#define MDIO_REG_BANK_RX_ALL 0x80f0
#define MDIO_RX_ALL_RX_EQ_BOOST 0x1c
#define MDIO_RX_ALL_RX_EQ_BOOST_EQUALIZER_CTRL_MASK 0x7
#define MDIO_RX_ALL_RX_EQ_BOOST_OFFSET_CTRL 0x10
#define MDIO_REG_BANK_TX0 0x8060
#define MDIO_TX0_TX_DRIVER 0x17
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_MASK 0xf000
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_SHIFT 12
#define MDIO_TX0_TX_DRIVER_IDRIVER_MASK 0x0f00
#define MDIO_TX0_TX_DRIVER_IDRIVER_SHIFT 8
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_MASK 0x00f0
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_SHIFT 4
#define MDIO_TX0_TX_DRIVER_IFULLSPD_MASK 0x000e
#define MDIO_TX0_TX_DRIVER_IFULLSPD_SHIFT 1
#define MDIO_TX0_TX_DRIVER_ICBUF1T 1
#define MDIO_REG_BANK_TX1 0x8070
#define MDIO_TX1_TX_DRIVER 0x17
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_MASK 0xf000
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_SHIFT 12
#define MDIO_TX0_TX_DRIVER_IDRIVER_MASK 0x0f00
#define MDIO_TX0_TX_DRIVER_IDRIVER_SHIFT 8
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_MASK 0x00f0
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_SHIFT 4
#define MDIO_TX0_TX_DRIVER_IFULLSPD_MASK 0x000e
#define MDIO_TX0_TX_DRIVER_IFULLSPD_SHIFT 1
#define MDIO_TX0_TX_DRIVER_ICBUF1T 1
#define MDIO_REG_BANK_TX2 0x8080
#define MDIO_TX2_TX_DRIVER 0x17
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_MASK 0xf000
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_SHIFT 12
#define MDIO_TX0_TX_DRIVER_IDRIVER_MASK 0x0f00
#define MDIO_TX0_TX_DRIVER_IDRIVER_SHIFT 8
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_MASK 0x00f0
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_SHIFT 4
#define MDIO_TX0_TX_DRIVER_IFULLSPD_MASK 0x000e
#define MDIO_TX0_TX_DRIVER_IFULLSPD_SHIFT 1
#define MDIO_TX0_TX_DRIVER_ICBUF1T 1
#define MDIO_REG_BANK_TX3 0x8090
#define MDIO_TX3_TX_DRIVER 0x17
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_MASK 0xf000
#define MDIO_TX0_TX_DRIVER_PREEMPHASIS_SHIFT 12
#define MDIO_TX0_TX_DRIVER_IDRIVER_MASK 0x0f00
#define MDIO_TX0_TX_DRIVER_IDRIVER_SHIFT 8
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_MASK 0x00f0
#define MDIO_TX0_TX_DRIVER_IPREDRIVER_SHIFT 4
#define MDIO_TX0_TX_DRIVER_IFULLSPD_MASK 0x000e
#define MDIO_TX0_TX_DRIVER_IFULLSPD_SHIFT 1
#define MDIO_TX0_TX_DRIVER_ICBUF1T 1
#define MDIO_REG_BANK_XGXS_BLOCK0 0x8000
#define MDIO_BLOCK0_XGXS_CONTROL 0x10
#define MDIO_REG_BANK_XGXS_BLOCK1 0x8010
#define MDIO_BLOCK1_LANE_CTRL0 0x15
#define MDIO_BLOCK1_LANE_CTRL1 0x16
#define MDIO_BLOCK1_LANE_CTRL2 0x17
#define MDIO_BLOCK1_LANE_PRBS 0x19
#define MDIO_REG_BANK_XGXS_BLOCK2 0x8100
#define MDIO_XGXS_BLOCK2_RX_LN_SWAP 0x10
#define MDIO_XGXS_BLOCK2_RX_LN_SWAP_ENABLE 0x8000
#define MDIO_XGXS_BLOCK2_RX_LN_SWAP_FORCE_ENABLE 0x4000
#define MDIO_XGXS_BLOCK2_TX_LN_SWAP 0x11
#define MDIO_XGXS_BLOCK2_TX_LN_SWAP_ENABLE 0x8000
#define MDIO_XGXS_BLOCK2_UNICORE_MODE_10G 0x14
#define MDIO_XGXS_BLOCK2_UNICORE_MODE_10G_CX4_XGXS 0x0001
#define MDIO_XGXS_BLOCK2_UNICORE_MODE_10G_HIGIG_XGXS 0x0010
#define MDIO_XGXS_BLOCK2_TEST_MODE_LANE 0x15
#define MDIO_REG_BANK_GP_STATUS 0x8120
#define MDIO_GP_STATUS_TOP_AN_STATUS1 0x1B
#define MDIO_GP_STATUS_TOP_AN_STATUS1_CL73_AUTONEG_COMPLETE 0x0001
#define MDIO_GP_STATUS_TOP_AN_STATUS1_CL37_AUTONEG_COMPLETE 0x0002
#define MDIO_GP_STATUS_TOP_AN_STATUS1_LINK_STATUS 0x0004
#define MDIO_GP_STATUS_TOP_AN_STATUS1_DUPLEX_STATUS 0x0008
#define MDIO_GP_STATUS_TOP_AN_STATUS1_CL73_MR_LP_NP_AN_ABLE 0x0010
#define MDIO_GP_STATUS_TOP_AN_STATUS1_CL73_LP_NP_BAM_ABLE 0x0020
#define MDIO_GP_STATUS_TOP_AN_STATUS1_PAUSE_RSOLUTION_TXSIDE 0x0040
#define MDIO_GP_STATUS_TOP_AN_STATUS1_PAUSE_RSOLUTION_RXSIDE 0x0080
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_MASK 0x3f00
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_10M 0x0000
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_100M 0x0100
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_1G 0x0200
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_2_5G 0x0300
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_5G 0x0400
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_6G 0x0500
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_10G_HIG 0x0600
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_10G_CX4 0x0700
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_12G_HIG 0x0800
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_12_5G 0x0900
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_13G 0x0A00
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_15G 0x0B00
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_16G 0x0C00
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_1G_KX 0x0D00
#define MDIO_GP_STATUS_TOP_AN_STATUS1_ACTUAL_SPEED_10G_KX4 0x0E00
#define MDIO_REG_BANK_10G_PARALLEL_DETECT 0x8130
#define MDIO_10G_PARALLEL_DETECT_PAR_DET_10G_CONTROL 0x11
#define MDIO_10G_PARALLEL_DETECT_PAR_DET_10G_CONTROL_PARDET10G_EN 0x1
#define MDIO_10G_PARALLEL_DETECT_PAR_DET_10G_LINK 0x13
#define MDIO_10G_PARALLEL_DETECT_PAR_DET_10G_LINK_CNT (0xb71<<1)
#define MDIO_REG_BANK_SERDES_DIGITAL 0x8300
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1 0x10
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1_FIBER_MODE 0x0001
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1_TBI_IF 0x0002
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1_SIGNAL_DETECT_EN 0x0004
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1_INVERT_SIGNAL_DETECT 0x0008
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1_AUTODET 0x0010
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL1_MSTR_MODE 0x0020
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL2 0x11
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL2_PRL_DT_EN 0x0001
#define MDIO_SERDES_DIGITAL_A_1000X_CONTROL2_AN_FST_TMR 0x0040
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1 0x14
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_DUPLEX 0x0004
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_SPEED_MASK 0x0018
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_SPEED_SHIFT 3
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_SPEED_2_5G 0x0018
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_SPEED_1G 0x0010
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_SPEED_100M 0x0008
#define MDIO_SERDES_DIGITAL_A_1000X_STATUS1_SPEED_10M 0x0000
#define MDIO_SERDES_DIGITAL_MISC1 0x18
#define MDIO_SERDES_DIGITAL_MISC1_REFCLK_SEL_MASK 0xE000
#define MDIO_SERDES_DIGITAL_MISC1_REFCLK_SEL_25M 0x0000
#define MDIO_SERDES_DIGITAL_MISC1_REFCLK_SEL_100M 0x2000
#define MDIO_SERDES_DIGITAL_MISC1_REFCLK_SEL_125M 0x4000
#define MDIO_SERDES_DIGITAL_MISC1_REFCLK_SEL_156_25M 0x6000
#define MDIO_SERDES_DIGITAL_MISC1_REFCLK_SEL_187_5M 0x8000
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_SEL 0x0010
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_MASK 0x000f
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_2_5G 0x0000
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_5G 0x0001
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_6G 0x0002
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_10G_HIG 0x0003
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_10G_CX4 0x0004
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_12G 0x0005
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_12_5G 0x0006
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_13G 0x0007
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_15G 0x0008
#define MDIO_SERDES_DIGITAL_MISC1_FORCE_SPEED_16G 0x0009
#define MDIO_REG_BANK_OVER_1G 0x8320
#define MDIO_OVER_1G_DIGCTL_3_4 0x14
#define MDIO_OVER_1G_DIGCTL_3_4_MP_ID_MASK 0xffe0
#define MDIO_OVER_1G_DIGCTL_3_4_MP_ID_SHIFT 5
#define MDIO_OVER_1G_UP1 0x19
#define MDIO_OVER_1G_UP1_2_5G 0x0001
#define MDIO_OVER_1G_UP1_5G 0x0002
#define MDIO_OVER_1G_UP1_6G 0x0004
#define MDIO_OVER_1G_UP1_10G 0x0010
#define MDIO_OVER_1G_UP1_10GH 0x0008
#define MDIO_OVER_1G_UP1_12G 0x0020
#define MDIO_OVER_1G_UP1_12_5G 0x0040
#define MDIO_OVER_1G_UP1_13G 0x0080
#define MDIO_OVER_1G_UP1_15G 0x0100
#define MDIO_OVER_1G_UP1_16G 0x0200
#define MDIO_OVER_1G_UP2 0x1A
#define MDIO_OVER_1G_UP2_IPREDRIVER_MASK 0x0007
#define MDIO_OVER_1G_UP2_IDRIVER_MASK 0x0038
#define MDIO_OVER_1G_UP2_PREEMPHASIS_MASK 0x03C0
#define MDIO_OVER_1G_UP3 0x1B
#define MDIO_OVER_1G_UP3_HIGIG2 0x0001
#define MDIO_OVER_1G_LP_UP1 0x1C
#define MDIO_OVER_1G_LP_UP2 0x1D
#define MDIO_OVER_1G_LP_UP2_MR_ADV_OVER_1G_MASK 0x03ff
#define MDIO_OVER_1G_LP_UP2_PREEMPHASIS_MASK 0x0780
#define MDIO_OVER_1G_LP_UP2_PREEMPHASIS_SHIFT 7
#define MDIO_OVER_1G_LP_UP3 0x1E
#define MDIO_REG_BANK_REMOTE_PHY 0x8330
#define MDIO_REMOTE_PHY_MISC_RX_STATUS 0x10
#define MDIO_REMOTE_PHY_MISC_RX_STATUS_CL37_FSM_RECEIVED_OVER1G_MSG 0x0010
#define MDIO_REMOTE_PHY_MISC_RX_STATUS_CL37_FSM_RECEIVED_BRCM_OUI_MSG 0x0600
#define MDIO_REG_BANK_BAM_NEXT_PAGE 0x8350
#define MDIO_BAM_NEXT_PAGE_MP5_NEXT_PAGE_CTRL 0x10
#define MDIO_BAM_NEXT_PAGE_MP5_NEXT_PAGE_CTRL_BAM_MODE 0x0001
#define MDIO_BAM_NEXT_PAGE_MP5_NEXT_PAGE_CTRL_TETON_AN 0x0002
#define MDIO_REG_BANK_CL73_USERB0 0x8370
#define MDIO_CL73_USERB0_CL73_UCTRL 0x10
#define MDIO_CL73_USERB0_CL73_UCTRL_USTAT1_MUXSEL 0x0002
#define MDIO_CL73_USERB0_CL73_USTAT1 0x11
#define MDIO_CL73_USERB0_CL73_USTAT1_LINK_STATUS_CHECK 0x0100
#define MDIO_CL73_USERB0_CL73_USTAT1_AN_GOOD_CHECK_BAM37 0x0400
#define MDIO_CL73_USERB0_CL73_BAM_CTRL1 0x12
#define MDIO_CL73_USERB0_CL73_BAM_CTRL1_BAM_EN 0x8000
#define MDIO_CL73_USERB0_CL73_BAM_CTRL1_BAM_STATION_MNGR_EN 0x4000
#define MDIO_CL73_USERB0_CL73_BAM_CTRL1_BAM_NP_AFTER_BP_EN 0x2000
#define MDIO_CL73_USERB0_CL73_BAM_CTRL3 0x14
#define MDIO_CL73_USERB0_CL73_BAM_CTRL3_USE_CL73_HCD_MR 0x0001
#define MDIO_REG_BANK_AER_BLOCK 0xFFD0
#define MDIO_AER_BLOCK_AER_REG 0x1E
#define MDIO_REG_BANK_COMBO_IEEE0 0xFFE0
#define MDIO_COMBO_IEEE0_MII_CONTROL 0x10
#define MDIO_COMBO_IEEO_MII_CONTROL_MAN_SGMII_SP_MASK 0x2040
#define MDIO_COMBO_IEEO_MII_CONTROL_MAN_SGMII_SP_10 0x0000
#define MDIO_COMBO_IEEO_MII_CONTROL_MAN_SGMII_SP_100 0x2000
#define MDIO_COMBO_IEEO_MII_CONTROL_MAN_SGMII_SP_1000 0x0040
#define MDIO_COMBO_IEEO_MII_CONTROL_FULL_DUPLEX 0x0100
#define MDIO_COMBO_IEEO_MII_CONTROL_RESTART_AN 0x0200
#define MDIO_COMBO_IEEO_MII_CONTROL_AN_EN 0x1000
#define MDIO_COMBO_IEEO_MII_CONTROL_LOOPBACK 0x4000
#define MDIO_COMBO_IEEO_MII_CONTROL_RESET 0x8000
#define MDIO_COMBO_IEEE0_MII_STATUS 0x11
#define MDIO_COMBO_IEEE0_MII_STATUS_LINK_PASS 0x0004
#define MDIO_COMBO_IEEE0_MII_STATUS_AUTONEG_COMPLETE 0x0020
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV 0x14
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_FULL_DUPLEX 0x0020
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_HALF_DUPLEX 0x0040
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_PAUSE_MASK 0x0180
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_PAUSE_NONE 0x0000
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_PAUSE_SYMMETRIC 0x0080
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_PAUSE_ASYMMETRIC 0x0100
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_PAUSE_BOTH 0x0180
#define MDIO_COMBO_IEEE0_AUTO_NEG_ADV_NEXT_PAGE 0x8000
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1 0x15
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_NEXT_PAGE 0x8000
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_ACK 0x4000
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_PAUSE_MASK 0x0180
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_PAUSE_NONE 0x0000
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_PAUSE_BOTH 0x0180
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_HALF_DUP_CAP 0x0040
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_FULL_DUP_CAP 0x0020
/*WhenthelinkpartnerisinSGMIImode(bit0=1),then
bit15=link,bit12=duplex,bits11:10=speed,bit14=acknowledge.
Theotherbitsarereservedandshouldbezero*/
#define MDIO_COMBO_IEEE0_AUTO_NEG_LINK_PARTNER_ABILITY1_SGMII_MODE 0x0001
#define MDIO_PMA_DEVAD 0x1
/*ieee*/
#define MDIO_PMA_REG_CTRL 0x0
#define MDIO_PMA_REG_STATUS 0x1
#define MDIO_PMA_REG_10G_CTRL2 0x7
#define MDIO_PMA_REG_RX_SD 0xa
/*bcm*/
#define MDIO_PMA_REG_BCM_CTRL 0x0096
#define MDIO_PMA_REG_FEC_CTRL 0x00ab
#define MDIO_PMA_REG_RX_ALARM_CTRL 0x9000
#define MDIO_PMA_REG_LASI_CTRL 0x9002
#define MDIO_PMA_REG_RX_ALARM 0x9003
#define MDIO_PMA_REG_TX_ALARM 0x9004
#define MDIO_PMA_REG_LASI_STATUS 0x9005
#define MDIO_PMA_REG_PHY_IDENTIFIER 0xc800
#define MDIO_PMA_REG_DIGITAL_CTRL 0xc808
#define MDIO_PMA_REG_DIGITAL_STATUS 0xc809
#define MDIO_PMA_REG_TX_POWER_DOWN 0xca02
#define MDIO_PMA_REG_CMU_PLL_BYPASS 0xca09
#define MDIO_PMA_REG_MISC_CTRL 0xca0a
#define MDIO_PMA_REG_GEN_CTRL 0xca10
#define MDIO_PMA_REG_GEN_CTRL_ROM_RESET_INTERNAL_MP 0x0188
#define MDIO_PMA_REG_GEN_CTRL_ROM_MICRO_RESET 0x018a
#define MDIO_PMA_REG_M8051_MSGIN_REG 0xca12
#define MDIO_PMA_REG_M8051_MSGOUT_REG 0xca13
#define MDIO_PMA_REG_ROM_VER1 0xca19
#define MDIO_PMA_REG_ROM_VER2 0xca1a
#define MDIO_PMA_REG_EDC_FFE_MAIN 0xca1b
#define MDIO_PMA_REG_PLL_BANDWIDTH 0xca1d
#define MDIO_PMA_REG_PLL_CTRL 0xca1e
#define MDIO_PMA_REG_MISC_CTRL0 0xca23
#define MDIO_PMA_REG_LRM_MODE 0xca3f
#define MDIO_PMA_REG_CDR_BANDWIDTH 0xca46
#define MDIO_PMA_REG_MISC_CTRL1 0xca85
#define MDIO_PMA_REG_SFP_TWO_WIRE_CTRL 0x8000
#define MDIO_PMA_REG_SFP_TWO_WIRE_CTRL_STATUS_MASK 0x000c
#define MDIO_PMA_REG_SFP_TWO_WIRE_STATUS_IDLE 0x0000
#define MDIO_PMA_REG_SFP_TWO_WIRE_STATUS_COMPLETE 0x0004
#define MDIO_PMA_REG_SFP_TWO_WIRE_STATUS_IN_PROGRESS 0x0008
#define MDIO_PMA_REG_SFP_TWO_WIRE_STATUS_FAILED 0x000c
#define MDIO_PMA_REG_SFP_TWO_WIRE_BYTE_CNT 0x8002
#define MDIO_PMA_REG_SFP_TWO_WIRE_MEM_ADDR 0x8003
#define MDIO_PMA_REG_8726_TWO_WIRE_DATA_BUF 0xc820
#define MDIO_PMA_REG_8726_TWO_WIRE_DATA_MASK 0xff
#define MDIO_PMA_REG_8726_TX_CTRL1 0xca01
#define MDIO_PMA_REG_8726_TX_CTRL2 0xca05
#define MDIO_PMA_REG_8727_TWO_WIRE_SLAVE_ADDR 0x8005
#define MDIO_PMA_REG_8727_TWO_WIRE_DATA_BUF 0x8007
#define MDIO_PMA_REG_8727_TWO_WIRE_DATA_MASK 0xff
#define MDIO_PMA_REG_8727_MISC_CTRL 0x8309
#define MDIO_PMA_REG_8727_TX_CTRL1 0xca02
#define MDIO_PMA_REG_8727_TX_CTRL2 0xca05
#define MDIO_PMA_REG_8727_PCS_OPT_CTRL 0xc808
#define MDIO_PMA_REG_8727_GPIO_CTRL 0xc80e
#define MDIO_PMA_REG_8073_CHIP_REV 0xc801
#define MDIO_PMA_REG_8073_SPEED_LINK_STATUS 0xc820
#define MDIO_PMA_REG_8073_XAUI_WA 0xc841
#define MDIO_PMA_REG_7101_RESET 0xc000
#define MDIO_PMA_REG_7107_LED_CNTL 0xc007
#define MDIO_PMA_REG_7101_VER1 0xc026
#define MDIO_PMA_REG_7101_VER2 0xc027
#define MDIO_PMA_REG_8481_PMD_SIGNAL 0xa811
#define MDIO_PMA_REG_8481_LED1_MASK 0xa82c
#define MDIO_PMA_REG_8481_LED2_MASK 0xa82f
#define MDIO_PMA_REG_8481_LED3_MASK 0xa832
#define MDIO_PMA_REG_8481_SIGNAL_MASK 0xa835
#define MDIO_PMA_REG_8481_LINK_SIGNAL 0xa83b
#define MDIO_WIS_DEVAD 0x2
/*bcm*/
#define MDIO_WIS_REG_LASI_CNTL 0x9002
#define MDIO_WIS_REG_LASI_STATUS 0x9005
#define MDIO_PCS_DEVAD 0x3
#define MDIO_PCS_REG_STATUS 0x0020
#define MDIO_PCS_REG_LASI_STATUS 0x9005
#define MDIO_PCS_REG_7101_DSP_ACCESS 0xD000
#define MDIO_PCS_REG_7101_SPI_MUX 0xD008
#define MDIO_PCS_REG_7101_SPI_CTRL_ADDR 0xE12A
#define MDIO_PCS_REG_7101_SPI_RESET_BIT (5)
#define MDIO_PCS_REG_7101_SPI_FIFO_ADDR 0xE02A
#define MDIO_PCS_REG_7101_SPI_FIFO_ADDR_WRITE_ENABLE_CMD (6)
#define MDIO_PCS_REG_7101_SPI_FIFO_ADDR_BULK_ERASE_CMD (0xC7)
#define MDIO_PCS_REG_7101_SPI_FIFO_ADDR_PAGE_PROGRAM_CMD (2)
#define MDIO_PCS_REG_7101_SPI_BYTES_TO_TRANSFER_ADDR 0xE028
#define MDIO_XS_DEVAD 0x4
#define MDIO_XS_PLL_SEQUENCER 0x8000
#define MDIO_XS_SFX7101_XGXS_TEST1 0xc00a
#define MDIO_XS_8706_REG_BANK_RX0 0x80bc
#define MDIO_XS_8706_REG_BANK_RX1 0x80cc
#define MDIO_XS_8706_REG_BANK_RX2 0x80dc
#define MDIO_XS_8706_REG_BANK_RX3 0x80ec
#define MDIO_XS_8706_REG_BANK_RXA 0x80fc
#define MDIO_AN_DEVAD 0x7
/*ieee*/
#define MDIO_AN_REG_CTRL 0x0000
#define MDIO_AN_REG_STATUS 0x0001
#define MDIO_AN_REG_STATUS_AN_COMPLETE 0x0020
#define MDIO_AN_REG_ADV_PAUSE 0x0010
#define MDIO_AN_REG_ADV_PAUSE_PAUSE 0x0400
#define MDIO_AN_REG_ADV_PAUSE_ASYMMETRIC 0x0800
#define MDIO_AN_REG_ADV_PAUSE_BOTH 0x0C00
#define MDIO_AN_REG_ADV_PAUSE_MASK 0x0C00
#define MDIO_AN_REG_ADV 0x0011
#define MDIO_AN_REG_ADV2 0x0012
#define MDIO_AN_REG_LP_AUTO_NEG 0x0013
#define MDIO_AN_REG_MASTER_STATUS 0x0021
/*bcm*/
#define MDIO_AN_REG_LINK_STATUS 0x8304
#define MDIO_AN_REG_CL37_CL73 0x8370
#define MDIO_AN_REG_CL37_AN 0xffe0
#define MDIO_AN_REG_CL37_FC_LD 0xffe4
#define MDIO_AN_REG_CL37_FC_LP 0xffe5
#define MDIO_AN_REG_8073_2_5G 0x8329
#define MDIO_AN_REG_8481_LEGACY_MII_CTRL 0xffe0
#define MDIO_AN_REG_8481_LEGACY_AN_ADV 0xffe4
#define MDIO_AN_REG_8481_1000T_CTRL 0xffe9
#define MDIO_AN_REG_8481_EXPANSION_REG_RD_RW 0xfff5
#define MDIO_AN_REG_8481_EXPANSION_REG_ACCESS 0xfff7
#define MDIO_AN_REG_8481_LEGACY_SHADOW 0xfffc
#define IGU_FUNC_BASE 0x0400
#define IGU_ADDR_MSIX 0x0000
#define IGU_ADDR_INT_ACK 0x0200
#define IGU_ADDR_PROD_UPD 0x0201
#define IGU_ADDR_ATTN_BITS_UPD 0x0202
#define IGU_ADDR_ATTN_BITS_SET 0x0203
#define IGU_ADDR_ATTN_BITS_CLR 0x0204
#define IGU_ADDR_COALESCE_NOW 0x0205
#define IGU_ADDR_SIMD_MASK 0x0206
#define IGU_ADDR_SIMD_NOMASK 0x0207
#define IGU_ADDR_MSI_CTL 0x0210
#define IGU_ADDR_MSI_ADDR_LO 0x0211
#define IGU_ADDR_MSI_ADDR_HI 0x0212
#define IGU_ADDR_MSI_DATA 0x0213
#define IGU_INT_ENABLE 0
#define IGU_INT_DISABLE 1
#define IGU_INT_NOP 2
#define IGU_INT_NOP2 3
#define COMMAND_REG_INT_ACK 0x0
#define COMMAND_REG_PROD_UPD 0x4
#define COMMAND_REG_ATTN_BITS_UPD 0x8
#define COMMAND_REG_ATTN_BITS_SET 0xc
#define COMMAND_REG_ATTN_BITS_CLR 0x10
#define COMMAND_REG_COALESCE_NOW 0x14
#define COMMAND_REG_SIMD_MASK 0x18
#define COMMAND_REG_SIMD_NOMASK 0x1c
#define IGU_MEM_BASE 0x0000
#define IGU_MEM_MSIX_BASE 0x0000
#define IGU_MEM_MSIX_UPPER 0x007f
#define IGU_MEM_MSIX_RESERVED_UPPER 0x01ff
#define IGU_MEM_PBA_MSIX_BASE 0x0200
#define IGU_MEM_PBA_MSIX_UPPER 0x0200
#define IGU_CMD_BACKWARD_COMP_PROD_UPD 0x0201
#define IGU_MEM_PBA_MSIX_RESERVED_UPPER 0x03ff
#define IGU_CMD_INT_ACK_BASE 0x0400
#define IGU_CMD_INT_ACK_UPPER\
(IGU_CMD_INT_ACK_BASE + MAX_SB_PER_PORT * NUM_OF_PORTS_PER_PATH - 1)
#define IGU_CMD_INT_ACK_RESERVED_UPPER 0x04ff
#define IGU_CMD_E2_PROD_UPD_BASE 0x0500
#define IGU_CMD_E2_PROD_UPD_UPPER\
(IGU_CMD_E2_PROD_UPD_BASE + MAX_SB_PER_PORT * NUM_OF_PORTS_PER_PATH - 1)
#define IGU_CMD_E2_PROD_UPD_RESERVED_UPPER 0x059f
#define IGU_CMD_ATTN_BIT_UPD_UPPER 0x05a0
#define IGU_CMD_ATTN_BIT_SET_UPPER 0x05a1
#define IGU_CMD_ATTN_BIT_CLR_UPPER 0x05a2
#define IGU_REG_SISR_MDPC_WMASK_UPPER 0x05a3
#define IGU_REG_SISR_MDPC_WMASK_LSB_UPPER 0x05a4
#define IGU_REG_SISR_MDPC_WMASK_MSB_UPPER 0x05a5
#define IGU_REG_SISR_MDPC_WOMASK_UPPER 0x05a6
#define IGU_REG_RESERVED_UPPER 0x05ff
#define CDU_REGION_NUMBER_XCM_AG 2
#define CDU_REGION_NUMBER_UCM_AG 4
/**
* String-to-compress [31:8] = CID (all 24 bits)
* String-to-compress [7:4] = Region
* String-to-compress [3:0] = Type
*/
#define CDU_VALID_DATA(_cid, _region, _type)\
(((_cid) << 8) | (((_region)&0xf)<<4) | (((_type)&0xf)))
#define CDU_CRC8(_cid, _region, _type)\
(calc_crc8(CDU_VALID_DATA(_cid, _region, _type), 0xff))
#define CDU_RSRVD_VALUE_TYPE_A(_cid, _region, _type)\
(0x80 | ((CDU_CRC8(_cid, _region, _type)) & 0x7f))
#define CDU_RSRVD_VALUE_TYPE_B(_crc, _type)\
(0x80 | ((_type)&0xf << 3) | ((CDU_CRC8(_cid, _region, _type)) & 0x7))
#define CDU_RSRVD_INVALIDATE_CONTEXT_VALUE(_val) ((_val) & ~0x80)
/******************************************************************************
* Description:
* Calculates crc 8 on a word value: polynomial 0-1-2-8
* Code was translated from Verilog.
* Return:
*****************************************************************************/
static inline u8 calc_crc8(u32 data, u8 crc)
{
u8 D[32];
u8 NewCRC[8];
u8 C[8];
u8 crc_res;
u8 i;
/* split the data into 31 bits */
for (i = 0; i < 32; i++) {
D[i] = (u8)(data & 1);
data = data >> 1;
}
/* split the crc into 8 bits */
for (i = 0; i < 8; i++) {
C[i] = crc & 1;
crc = crc >> 1;
}
NewCRC[0] = D[31] ^ D[30] ^ D[28] ^ D[23] ^ D[21] ^ D[19] ^ D[18] ^
D[16] ^ D[14] ^ D[12] ^ D[8] ^ D[7] ^ D[6] ^ D[0] ^ C[4] ^
C[6] ^ C[7];
NewCRC[1] = D[30] ^ D[29] ^ D[28] ^ D[24] ^ D[23] ^ D[22] ^ D[21] ^
D[20] ^ D[18] ^ D[17] ^ D[16] ^ D[15] ^ D[14] ^ D[13] ^
D[12] ^ D[9] ^ D[6] ^ D[1] ^ D[0] ^ C[0] ^ C[4] ^ C[5] ^
C[6];
NewCRC[2] = D[29] ^ D[28] ^ D[25] ^ D[24] ^ D[22] ^ D[17] ^ D[15] ^
D[13] ^ D[12] ^ D[10] ^ D[8] ^ D[6] ^ D[2] ^ D[1] ^ D[0] ^
C[0] ^ C[1] ^ C[4] ^ C[5];
NewCRC[3] = D[30] ^ D[29] ^ D[26] ^ D[25] ^ D[23] ^ D[18] ^ D[16] ^
D[14] ^ D[13] ^ D[11] ^ D[9] ^ D[7] ^ D[3] ^ D[2] ^ D[1] ^
C[1] ^ C[2] ^ C[5] ^ C[6];
NewCRC[4] = D[31] ^ D[30] ^ D[27] ^ D[26] ^ D[24] ^ D[19] ^ D[17] ^
D[15] ^ D[14] ^ D[12] ^ D[10] ^ D[8] ^ D[4] ^ D[3] ^ D[2] ^
C[0] ^ C[2] ^ C[3] ^ C[6] ^ C[7];
NewCRC[5] = D[31] ^ D[28] ^ D[27] ^ D[25] ^ D[20] ^ D[18] ^ D[16] ^
D[15] ^ D[13] ^ D[11] ^ D[9] ^ D[5] ^ D[4] ^ D[3] ^ C[1] ^
C[3] ^ C[4] ^ C[7];
NewCRC[6] = D[29] ^ D[28] ^ D[26] ^ D[21] ^ D[19] ^ D[17] ^ D[16] ^
D[14] ^ D[12] ^ D[10] ^ D[6] ^ D[5] ^ D[4] ^ C[2] ^ C[4] ^
C[5];
NewCRC[7] = D[30] ^ D[29] ^ D[27] ^ D[22] ^ D[20] ^ D[18] ^ D[17] ^
D[15] ^ D[13] ^ D[11] ^ D[7] ^ D[6] ^ D[5] ^ C[3] ^ C[5] ^
C[6];
crc_res = 0;
for (i = 0; i < 8; i++)
crc_res |= (NewCRC[i] << i);
return crc_res;
}
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