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/*-
 * Copyright (c) 2007-2011 Broadcom Corporation. All rights reserved.
 *
 *    Gary Zambrano <zambrano@broadcom.com>
 *    David Christensen <davidch@broadcom.com>
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 3. Neither the name of Broadcom Corporation nor the name of its contributors
 *    may be used to endorse or promote products derived from this software
 *    without specific prior written consent.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS'
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */

 /*$FreeBSD: release/9.1.0/sys/dev/bxe/bxe_reg.h 219656 2011-03-15 01:06:27Z davidch $*/

/* bxe_reg.h: Broadcom Everest network driver.
 * 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)
 */

#ifndef _BXE_REG_H
#define	_BXE_REG_H

/* [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 o
 * 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 Fetc
 * Interface.
 */
#define	DORQ_REG_OUTST_REQ					0x17003c
#define	DORQ_REG_REGN						0x170038
/*
 * [R 4] Current value of response A counter credit. Initial credit i
 * 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 i
 * 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 writ
 * 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 th
 * 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 a
 * 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 a
 * 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 a
 * 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 a
 * 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 latche
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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. mappe
 * 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.mappe
 * 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.mappe
 * 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.mappe
 * 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.mappe
 * 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 ae
 * 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 syste
 * 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' -
 * Port.
 */
#define	MISC_REG_BOND_ID					0xa400
/*
 * [R 8] These bits indicate the metal revision of the chip. This valu
 * 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 valu
 * 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 an
 * 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
 * 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 o
 * 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 th
 * 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
 * '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 reserve
 * 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 timeou
 * 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 an
 * 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 o
 * 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 pers
 * 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 i
 * 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 th
 * 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 i
 * 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 addresse
 * 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/ar
 * 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 al
 * 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 output
 * 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 th
 * 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 register
 * 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 register
 * 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. Dat
 * 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 latc
 * 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 th
 * ~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) fo
 * 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 th
 * ~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. Th
 * 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 whe
 * ~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 i
 * all incoming packets.
 */
#define	NIG_REG_LLH0_DEST_TCP_0 				0x10220
/*
 * [RW 16] destination UDP address 1 The LLH will look for this address i
 * 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 i
 * ~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 wit
 * e1hov
 */
#define	NIG_REG_LLH_E1HOV_MODE					0x160d8
/*
 * [RW 1] When this bit is set; the LLH will classify the packet befor
 * 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 th
 * 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 whe
 * ~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 whe
 * ~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 backpressur
 * for port0
 */
#define	NIG_REG_STAT0_BRB_DISCARD				0x105f0
/*
 * [R 32] Rx statistics : In user packets truncated due to BRB backpressur
 * for port0
 */
#define	NIG_REG_STAT0_BRB_TRUNCATE				0x105f8
/*
 * [WB_R 36] Tx statistics : Number of packets from emac0 or bmac0 tha
 * 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 tha
 * 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 backpressur
 * for port1
 */
#define	NIG_REG_STAT1_BRB_DISCARD				0x10628
/*
 * [WB_R 36] Tx statistics : Number of packets from emac1 or bmac1 tha
 * 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 tha
 * 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 por
 * 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 th
 * current task in process).
 */
#define	PBF_REG_DISABLE_NEW_TASK_PROC_P0			0x14005c
/*
 * [RW 1] Disable processing further tasks from port 1 (after ending th
 * current task in process).
 */
#define	PBF_REG_DISABLE_NEW_TASK_PROC_P1			0x140060
/*
 * [RW 1] Disable processing further tasks from port 4 (after ending th
 * 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 credi
 * 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 i
 * 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 i
 * 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 i
 * 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 paus
 * 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 byt
 * 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 byt
 * 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 byt
 * 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 CF
 * 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 CF
 * 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 star
 * 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 packe
 * 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 CF
 * 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 th
 * 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 i
 * 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 an
 * 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 loa
 * request message
 */
#define	PRS_REG_PURE_REGIONS					0x40024
/*
 * [R 32] debug only: Serial number status lsb 32 bits. '1' indicates thi
 * 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 thi
 * 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 i
 * 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 functio
 * 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
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F1				0x120678
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F2				0x12067c
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F3				0x120680
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F4				0x120684
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F5				0x120688
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F6				0x12068c
/*
 * [RW 3] this field allows one function to pretend being another functio
 * 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_F7				0x120690
/*
 * [R 1] this bit indicates that a read request was blocked because o
 * 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 o
 * 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 (give
 * 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 b
 * allocated for vq10.
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ10				0x1203a0
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq11
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ11				0x1203a4
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq17
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ17				0x1203bc
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq18
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ18				0x1203c0
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq19
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ19				0x1203c4
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq22
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ22				0x1203d0
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq25
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ25				0x1203dc
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * allocated for vq6
 */
#define	PXP2_REG_RD_MAX_BLKS_VQ6				0x120390
/*
 * [RW 8] The maximum number of blocks in Tetris Buffer that can b
 * 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. Mus
 * 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 interna
 * 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 ou
 * 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 wil
 * 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 bac
 * 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 th
 * 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 th
 * 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 th
 * 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 th
 * 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 thi
 * threshold then has_payload indication will be asserted; the default value
 * should be equal to &gt;  write MBS size!
 */
#define	PXP2_REG_WR_DMAE_TH					0x120368
/*
 * [RW 2] 0 - 128B;  - 256B;  - 512B;  - 1024B; when the payload in th
 * 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 th
 * 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 th
 * 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 th
 * 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 th
 * 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 thi
 * threshold then has_payload indication will be asserted; the default value
 * should be equal to &gt;  write MBS size!
 */
#define	PXP2_REG_WR_USDMDP_TH					0x120348
/*
 * [RW 2] 0 - 128B;  - 256B;  - 512B;  - 1024B; when the payload in th
 * 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 th
 * 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' mean
 * 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 bi
 * 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 loa
 * 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. Th
 * 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. Th
 * 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 physica
 * 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 physica
 * 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 physica
 * 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 physica
 * 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 almos
 * 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 interfac
 * is masked
 */
#define	QM_REG_CMINTEN						0x1680ec
/*
 * [RW 12] A bit vector which indicates which one of the queues are tied t
 * 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 siz
 * 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 fo
 * bypass enable
 */
#define	QM_REG_ENBYPVOQMASK					0x16823c
/*
 * [RW 32] A bit mask per each physical queue. If a bit is set then th
 * 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 th
 * 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 th
 * 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 th
 * 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 th
 * 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 no
 * 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 no
 * 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 no
 * 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 no
 * 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 th
 * queues.
 */
#define	QM_REG_OVFERROR 					0x16805c
/* [RC 7] the Q were the qverflow 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 tw
 * 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 i
 * 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 inpu
 * 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 i
 * 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 vali
 * 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 write
 * 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 fo
 * 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 i
 * 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#
 * interface.
 */
#define	TCM_REG_CSEM_LENGTH_MIS 				0x50174
/*
 * [RW 3] The weight of the input csem in the WRR mechanism. 0 stands fo
 * 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.Writ
 * 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.Writ
 * 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;
 * - 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; th
 * 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; th
 * 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 an
 * 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#
 * interface.
 */
#define	TCM_REG_PBF_LENGTH_MIS					0x5016c
/*
 * [RW 3] The weight of the input pbf in the WRR mechanism. 0 stands fo
 * 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#
 * interface.
 */
#define	TCM_REG_PRS_LENGTH_MIS					0x50168
/*
 * [RW 3] The weight of the input prs in the WRR mechanism. 0 stands fo
 * 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 STOR
 * interface.
 */
#define	TCM_REG_STORM_LENGTH_MIS				0x50160
/*
 * [RW 1] STORM - CM Interface enable. If 0 - the valid input i
 * 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 fo
 * 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 M
 * 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 i
 * 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 i
 * 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 i
 * 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 i
 * 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 fo
 * 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 write
 * 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.
 * 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.
 * 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 SD
 * interface.
 */
#define	TCM_REG_TSDM_LENGTH_MIS 				0x50164
/*
 * [RW 3] The weight of the SDM input in the WRR mechanism. 0 stands fo
 * 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 i
 * 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#
 * interface.
 */
#define	TCM_REG_USEM_LENGTH_MIS 				0x50170
/*
 * [RW 3] The weight of the input usem in the WRR mechanism. 0 stands fo
 * 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 protectio
 * 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 fulfillin
 * 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 X
 * protection.
 */
#define	TCM_REG_XX_MAX_LL_SZ					0x50044
/*
 * [RW 6] The maximum number of pending messages; which may be stored in X
 * 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 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 o
 * 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 completio
 * 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 contro
 * 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 whe
 * ~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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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 ar
 * 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_tim
 * by the microcode
 */
#define	TSEM_REG_FIC0_DISABLE					0x180224
/*
 * [RW 1] Disables input messages from FIC1 May be updated during run_tim
 * by the microcode
 */
#define	TSEM_REG_FIC1_DISABLE					0x180234
/*
 * [RW 15] Interrupt table Read and write access to it is not possible i
 * the middle of the work
 */
#define	TSEM_REG_INT_TABLE					0x180400
/*
 * [ST 24] Statistics register. The number of messages that entered throug
 * FIC0
 */
#define	TSEM_REG_MSG_NUM_FIC0					0x180000
/*
 * [ST 24] Statistics register. The number of messages that entered throug
 * FIC1
 */
#define	TSEM_REG_MSG_NUM_FIC1					0x180004
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC0
 */
#define	TSEM_REG_MSG_NUM_FOC0					0x180008
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC1
 */
#define	TSEM_REG_MSG_NUM_FOC1					0x18000c
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC2
 */
#define	TSEM_REG_MSG_NUM_FOC2					0x180010
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC3
 */
#define	TSEM_REG_MSG_NUM_FOC3					0x180014
/*
 * [RW 1] Disables input messages from the passive buffer May be update
 * 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 i
 * 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 inpu
 * 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 i
 * 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 vali
 * 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 write
 * 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 fo
 * 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 i
 * 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 fo
 * 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 i
 * 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 fo
 * 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.Writ
 * 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.Writ
 * 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;
 * - 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; th
 * 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; th
 * 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 an
 * 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 i
 * 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 fo
 * 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.Writ
 * 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 i
 * 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 fo
 * 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 i
 * 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 fo
 * 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 M
 * 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 i
 * 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 i
 * 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 i
 * 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 i
 * 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 write
 * 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.
 * 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.
 * 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 fo
 * 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 i
 * 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 fo
 * 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 protectio
 * 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 fulfillin
 * 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 X
 * 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 completio
 * 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 contro
 * 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 whe
 * ~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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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 ar
 * 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_tim
 * by the microcode
 */
#define	USEM_REG_FIC0_DISABLE					0x300224
/*
 * [RW 1] Disables input messages from FIC1 May be updated during run_tim
 * by the microcode
 */
#define	USEM_REG_FIC1_DISABLE					0x300234
/*
 * [RW 15] Interrupt table Read and write access to it is not possible i
 * the middle of the work
 */
#define	USEM_REG_INT_TABLE					0x300400
/*
 * [ST 24] Statistics register. The number of messages that entered throug
 * FIC0
 */
#define	USEM_REG_MSG_NUM_FIC0					0x300000
/*
 * [ST 24] Statistics register. The number of messages that entered throug
 * FIC1
 */
#define	USEM_REG_MSG_NUM_FIC1					0x300004
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC0
 */
#define	USEM_REG_MSG_NUM_FOC0					0x300008
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC1
 */
#define	USEM_REG_MSG_NUM_FOC1					0x30000c
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC2
 */
#define	USEM_REG_MSG_NUM_FOC2					0x300010
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC3
 */
#define	USEM_REG_MSG_NUM_FOC3					0x300014
/*
 * [RW 1] Disables input messages from the passive buffer May be update
 * 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 i
 * 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 inpu
 * 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 i
 * 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 vali
 * 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 write
 * 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 fo
 * 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 i
 * 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) a
 * the csem interface.
 */
#define	XCM_REG_CSEM_LENGTH_MIS 				0x20228
/*
 * [RW 3] The weight of the input csem in the WRR mechanism. 0 stands fo
 * 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 i
 * 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) a
 * the dorq interface.
 */
#define	XCM_REG_DORQ_LENGTH_MIS 				0x20230
/*
 * [RW 3] The weight of the input dorq in the WRR mechanism. 0 stands fo
 * 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.Writ
 * 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.Writ
 * 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;
 * - 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; th
 * 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; th
 * 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 i
 * 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) a
 * the nig0 interface.
 */
#define	XCM_REG_NIG0_LENGTH_MIS 				0x20238
/*
 * [RW 3] The weight of the input nig0 in the WRR mechanism. 0 stands fo
 * 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 i
 * 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) a
 * the nig1 interface.
 */
#define	XCM_REG_NIG1_LENGTH_MIS 				0x2023c
/*
 * [RW 5] The number of double REG-pairs; loaded from the STORM context an
 * 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) a
 * the pbf interface.
 */
#define	XCM_REG_PBF_LENGTH_MIS					0x20234
/*
 * [RW 3] The weight of the input pbf in the WRR mechanism. 0 stands fo
 * 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) a
 * the STORM interface.
 */
#define	XCM_REG_STORM_LENGTH_MIS				0x2021c
/*
 * [RW 3] The weight of the STORM input in the WRR mechanism. 0 stands fo
 * 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 i
 * 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.Writ
 * 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 fo
 * 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 i
 * 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 i
 * 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) a
 * the tsem interface.
 */
#define	XCM_REG_TSEM_LENGTH_MIS 				0x20224
/*
 * [RW 3] The weight of the input tsem in the WRR mechanism. 0 stands fo
 * 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 i
 * 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 use
 * interface.
 */
#define	XCM_REG_USEM_LENGTH_MIS 				0x2022c
/*
 * [RW 3] The weight of the input usem in the WRR mechanism. 0 stands fo
 * 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 M
 * 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 i
 * 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 i
 * 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 i
 * 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 i
 * 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 write
 * 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.
 * 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.
 * 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) a
 * the SDM interface.
 */
#define	XCM_REG_XSDM_LENGTH_MIS 				0x20220
/*
 * [RW 3] The weight of the SDM input in the WRR mechanism. 0 stands fo
 * 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 protectio
 * 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 fulfillin
 * 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 X
 * 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 completio
 * 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 contro
 * 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 whe
 * ~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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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. Sourc
 * 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 ar
 * 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_tim
 * by the microcode
 */
#define	XSEM_REG_FIC0_DISABLE					0x280224
/*
 * [RW 1] Disables input messages from FIC1 May be updated during run_tim
 * by the microcode
 */
#define	XSEM_REG_FIC1_DISABLE					0x280234
/*
 * [RW 15] Interrupt table Read and write access to it is not possible i
 * the middle of the work
 */
#define	XSEM_REG_INT_TABLE					0x280400
/*
 * [ST 24] Statistics register. The number of messages that entered throug
 * FIC0
 */
#define	XSEM_REG_MSG_NUM_FIC0					0x280000
/*
 * [ST 24] Statistics register. The number of messages that entered throug
 * FIC1
 */
#define	XSEM_REG_MSG_NUM_FIC1					0x280004
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC0
 */
#define	XSEM_REG_MSG_NUM_FOC0					0x280008
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC1
 */
#define	XSEM_REG_MSG_NUM_FOC1					0x28000c
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC2
 */
#define	XSEM_REG_MSG_NUM_FOC2					0x280010
/*
 * [ST 24] Statistics register. The number of messages that were sent t
 * FOC3
 */
#define	XSEM_REG_MSG_NUM_FOC3					0x280014
/*
 * [RW 1] Disables input messages from the passive buffer May be update
 * 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	BIGMAC2_REGISTER_BMAC_CONTROL				(0x00<<3)
#define	BIGMAC2_REGISTER_BMAC_XGXS_CONTROL			(0x01<<3)
#define	BIGMAC2_REGISTER_PFC_CONTROL				(0x06<<3)
#define	BIGMAC2_REGISTER_RX_CONTROL				(0x3A<<3)
#define	BIGMAC2_REGISTER_RX_LLFC_MSG_FLDS			(0x62<<3)
#define	BIGMAC2_REGISTER_RX_MAX_SIZE				(0x3C<<3)
#define	BIGMAC2_REGISTER_TX_CONTROL				(0x1C<<3)
#define	BIGMAC2_REGISTER_TX_MAX_SIZE				(0x1E<<3)
#define	BIGMAC2_REGISTER_TX_SOURCE_ADDR				(0x1D<<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				(1<<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				(1<<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			(1UL<<18)
#define	AEU_INPUTS_ATTN_BITS_CCM_HW_INTERRUPT			(1UL<<31)
#define	AEU_INPUTS_ATTN_BITS_CDU_HW_INTERRUPT			(1UL<<9)
#define	AEU_INPUTS_ATTN_BITS_CDU_PARITY_ERROR			(1UL<<8)
#define	AEU_INPUTS_ATTN_BITS_CFC_HW_INTERRUPT			(1UL<<7)
#define	AEU_INPUTS_ATTN_BITS_CFC_PARITY_ERROR			(1UL<<6)
#define	AEU_INPUTS_ATTN_BITS_CSDM_HW_INTERRUPT			(1UL<<29)
#define	AEU_INPUTS_ATTN_BITS_CSDM_PARITY_ERROR			(1UL<<28)
#define	AEU_INPUTS_ATTN_BITS_CSEMI_HW_INTERRUPT			(1UL<<1)
#define	AEU_INPUTS_ATTN_BITS_CSEMI_PARITY_ERROR			(1UL<<0)
#define	AEU_INPUTS_ATTN_BITS_DEBUG_PARITY_ERROR			(1UL<<18)
#define	AEU_INPUTS_ATTN_BITS_DMAE_HW_INTERRUPT			(1UL<<11)
#define	AEU_INPUTS_ATTN_BITS_DOORBELLQ_HW_INTERRUPT		(1UL<<13)
#define	AEU_INPUTS_ATTN_BITS_DOORBELLQ_PARITY_ERROR		(1UL<<12)
#define	AEU_INPUTS_ATTN_BITS_GPIO3_FUNCTION_0			(1UL<<5)
#define	AEU_INPUTS_ATTN_BITS_GPIO3_FUNCTION_1			(1UL<<9)
#define	AEU_INPUTS_ATTN_BITS_IGU_PARITY_ERROR			(1UL<<12)
#define	AEU_INPUTS_ATTN_BITS_MISC_HW_INTERRUPT			(1UL<<15)
#define	AEU_INPUTS_ATTN_BITS_MISC_PARITY_ERROR			(1UL<<14)
#define	AEU_INPUTS_ATTN_BITS_PARSER_PARITY_ERROR		(1UL<<20)
#define	AEU_INPUTS_ATTN_BITS_PBCLIENT_PARITY_ERROR		(1UL<<0)
#define	AEU_INPUTS_ATTN_BITS_PBF_HW_INTERRUPT			(1UL<<31)
#define	AEU_INPUTS_ATTN_BITS_PXP_HW_INTERRUPT			(1UL<<3)
#define	AEU_INPUTS_ATTN_BITS_PXP_PARITY_ERROR			(1UL<<2)
#define	AEU_INPUTS_ATTN_BITS_PXPPCICLOCKCLIENT_HW_INTERRUPT	(1UL<<5)
#define	AEU_INPUTS_ATTN_BITS_PXPPCICLOCKCLIENT_PARITY_ERROR	(1UL<<4)
#define	AEU_INPUTS_ATTN_BITS_QM_HW_INTERRUPT			(1UL<<3)
#define	AEU_INPUTS_ATTN_BITS_QM_PARITY_ERROR			(1UL<<2)
#define	AEU_INPUTS_ATTN_BITS_SEARCHER_PARITY_ERROR		(1UL<<22)
#define	AEU_INPUTS_ATTN_BITS_SPIO5				(1UL<<15)
#define	AEU_INPUTS_ATTN_BITS_TCM_HW_INTERRUPT			(1UL<<27)
#define	AEU_INPUTS_ATTN_BITS_TIMERS_HW_INTERRUPT		(1UL<<5)
#define	AEU_INPUTS_ATTN_BITS_TSDM_HW_INTERRUPT			(1UL<<25)
#define	AEU_INPUTS_ATTN_BITS_TSDM_PARITY_ERROR			(1UL<<24)
#define	AEU_INPUTS_ATTN_BITS_TSEMI_HW_INTERRUPT			(1UL<<29)
#define	AEU_INPUTS_ATTN_BITS_TSEMI_PARITY_ERROR			(1UL<<28)
#define	AEU_INPUTS_ATTN_BITS_UCM_HW_INTERRUPT			(1UL<<23)
#define	AEU_INPUTS_ATTN_BITS_UPB_HW_INTERRUPT			(1UL<<27)
#define	AEU_INPUTS_ATTN_BITS_UPB_PARITY_ERROR			(1UL<<26)
#define	AEU_INPUTS_ATTN_BITS_USDM_HW_INTERRUPT			(1UL<<21)
#define	AEU_INPUTS_ATTN_BITS_USDM_PARITY_ERROR			(1UL<<20)
#define	AEU_INPUTS_ATTN_BITS_USEMI_HW_INTERRUPT			(1UL<<25)
#define	AEU_INPUTS_ATTN_BITS_USEMI_PARITY_ERROR			(1UL<<24)
#define	AEU_INPUTS_ATTN_BITS_VAUX_PCI_CORE_PARITY_ERROR		(1UL<<16)
#define	AEU_INPUTS_ATTN_BITS_XCM_HW_INTERRUPT			(1UL<<9)
#define	AEU_INPUTS_ATTN_BITS_XSDM_HW_INTERRUPT			(1UL<<7)
#define	AEU_INPUTS_ATTN_BITS_XSDM_PARITY_ERROR			(1UL<<6)
#define	AEU_INPUTS_ATTN_BITS_XSEMI_HW_INTERRUPT			(1UL<<11)
#define	AEU_INPUTS_ATTN_BITS_XSEMI_PARITY_ERROR			(1UL<<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_USTORM_INTMEM			0x400000
#define	BAR_CSTORM_INTMEM			0x410000
#define	BAR_XSTORM_INTMEM			0x420000
#define	BAR_TSTORM_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
#define	ME_REG_PF_NUM				(7L<<0)	/* Relative PF Num */
#define	ME_REG_PF_NUM_SHIFT			0
#define	ME_REG_ABS_PF_NUM			(7L<<16) /* Absolute PF Num */
#define	ME_REG_ABS_PF_NUM_SHIFT			16

/* 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_ADV1			0x00
#define	MDIO_CL73_IEEEB1_AN_ADV1_PAUSE			0x0400
#define	MDIO_CL73_IEEEB1_AN_ADV1_ASYMMETRIC		0x0800
#define	MDIO_CL73_IEEEB1_AN_ADV1_PAUSE_BOTH		0x0C00
#define	MDIO_CL73_IEEEB1_AN_ADV1_PAUSE_MASK		0x0C00
#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_CL73_IEEEB1_AN_LP_ADV1			0x03
#define	MDIO_CL73_IEEEB1_AN_LP_ADV1_PAUSE		0x0400
#define	MDIO_CL73_IEEEB1_AN_LP_ADV1_ASYMMETRIC		0x0800
#define	MDIO_CL73_IEEEB1_AN_LP_ADV1_PAUSE_BOTH		0x0C00
#define	MDIO_CL73_IEEEB1_AN_LP_ADV1_PAUSE_MASK		0x0C00

#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_TX1_TX_DRIVER_PREEMPHASIS_MASK		0xf000
#define	MDIO_TX1_TX_DRIVER_PREEMPHASIS_SHIFT		12
#define	MDIO_TX1_TX_DRIVER_IDRIVER_MASK			0x0f00
#define	MDIO_TX1_TX_DRIVER_IDRIVER_SHIFT		8
#define	MDIO_TX1_TX_DRIVER_IPREDRIVER_MASK		0x00f0
#define	MDIO_TX1_TX_DRIVER_IPREDRIVER_SHIFT		4
#define	MDIO_TX1_TX_DRIVER_IFULLSPD_MASK		0x000e
#define	MDIO_TX1_TX_DRIVER_IFULLSPD_SHIFT		1
#define	MDIO_TX1_TX_DRIVER_ICBUF1T			1

#define	MDIO_REG_BANK_TX2				0x8080
#define	MDIO_TX2_TX_DRIVER				0x17
#define	MDIO_TX2_TX_DRIVER_PREEMPHASIS_MASK		0xf000
#define	MDIO_TX2_TX_DRIVER_PREEMPHASIS_SHIFT		12
#define	MDIO_TX2_TX_DRIVER_IDRIVER_MASK			0x0f00
#define	MDIO_TX2_TX_DRIVER_IDRIVER_SHIFT		8
#define	MDIO_TX2_TX_DRIVER_IPREDRIVER_MASK		0x00f0
#define	MDIO_TX2_TX_DRIVER_IPREDRIVER_SHIFT		4
#define	MDIO_TX2_TX_DRIVER_IFULLSPD_MASK		0x000e
#define	MDIO_TX2_TX_DRIVER_IFULLSPD_SHIFT		1
#define	MDIO_TX2_TX_DRIVER_ICBUF1T			1

#define	MDIO_REG_BANK_TX3				0x8090
#define	MDIO_TX3_TX_DRIVER				0x17
#define	MDIO_TX3_TX_DRIVER_PREEMPHASIS_MASK		0xf000
#define	MDIO_TX3_TX_DRIVER_PREEMPHASIS_SHIFT		12
#define	MDIO_TX3_TX_DRIVER_IDRIVER_MASK			0x0f00
#define	MDIO_TX3_TX_DRIVER_IDRIVER_SHIFT		8
#define	MDIO_TX3_TX_DRIVER_IPREDRIVER_MASK		0x00f0
#define	MDIO_TX3_TX_DRIVER_IPREDRIVER_SHIFT		4
#define	MDIO_TX3_TX_DRIVER_IFULLSPD_MASK		0x000e
#define	MDIO_TX3_TX_DRIVER_IFULLSPD_SHIFT		1
#define	MDIO_TX3_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_STATUS		0x10
#define	MDIO_10G_PARALLEL_DETECT_PAR_DET_10G_STATUS_PD_LINK	0x8000
#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_A_1000X_STATUS2			0x15
#define	MDIO_SERDES_DIGITAL_A_1000X_STATUS2_AN_DISABLED		0x0002
#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),the
 * 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_LED3_BLINK	0xa834
#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_MII_STATUS	0xffe1
#define	MDIO_AN_REG_8481_LEGACY_AN_ADV		0xffe4
#define	MDIO_AN_REG_8481_LEGACY_AN_EXPANSION	0xffe6
#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 uint8_t
calc_crc8(uint32_t data, uint8_t crc)
{
	uint8_t	D[32];
	uint8_t	NewCRC[8];
	uint8_t	C[8];
	uint8_t	crc_res;
	uint8_t	i;

	/* split the data into 31 bits */
	for (i = 0; i < 32; i++) {
		D[i] = (uint8_t)(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);
}
#endif /* _BXE_REG_H */


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