/*
<:copyright-BRCM:2015:DUAL/GPL:standard 

   Copyright (c) 2015 Broadcom 
   All Rights Reserved

Unless you and Broadcom execute a separate written software license
agreement governing use of this software, this software is licensed
to you under the terms of the GNU General Public License version 2
(the "GPL"), available at http://www.broadcom.com/licenses/GPLv2.php,
with the following added to such license:

   As a special exception, the copyright holders of this software give
   you permission to link this software with independent modules, and
   to copy and distribute the resulting executable under terms of your
   choice, provided that you also meet, for each linked independent
   module, the terms and conditions of the license of that module.
   An independent module is a module which is not derived from this
   software.  The special exception does not apply to any modifications
   of the software.

Not withstanding the above, under no circumstances may you combine
this software in any way with any other Broadcom software provided
under a license other than the GPL, without Broadcom's express prior
written consent.

:>

*/

#ifndef __BCM6846_MAP_PART_H
#define __BCM6846_MAP_PART_H

#ifdef __cplusplus
extern "C" {
#endif

#include "bcmtypes.h"
#include "bcm_io_map.h"

#define CHIP_FAMILY_ID_HEX	        0x6846

#ifndef __ASSEMBLER__
typedef enum 
{
    MEMC_IDX,
#if defined(_ATF_)
    PMC_IDX,
    PROC_MON_IDX,
#endif
    XRDP_IDX,
    PERF_IDX,
    USIM_IDX,
    PERF1_IDX,
    NANDFLASH_IDX,
    PCM_IDX,
    PCMBUS_IDX,
    WAN_IDX,
    USBH_IDX,
    MST_PORT_NODE_PCIE0_IDX,
    MST_PORT_NODE_B53_IDX,
    MST_PORT_NODE_USB_IDX,
    MST_PORT_NODE_PER_IDX,
    MST_PORT_NODE_DMA0_IDX,
    MST_PORT_NODE_RQ0_IDX,
    MST_PORT_NODE_NATC_IDX,
    MST_PORT_NODE_DQM_IDX,
    MST_PORT_NODE_QM_IDX,
    UBUS4_COHERENCY_PORT_IDX,
    BIUCFG_IDX,
    BOOTLUT_IDX,
    UBUS_MAPPED_IDX,
    UBUS_CAPTURE_PORT_NODE_0,
    UBUS_CAPTURE_PORT_NODE_1,
    CCI400_IDX,
    LAST_IDX
} BCM_IO_MAP_IDX;
#endif

#define MEMC_PHYS_BASE              0x80180000
#define MEMC_SIZE                   0x24000
#define UBUS_MAPPED_PHYS_BASE       0x83000000
#define UBUS_MAPPED_SIZE            0x1000
#define PMC_PHYS_BASE               0xffb00000
#define PMC_SIZE                    0x6000
#define PROC_MON_PHYS_BASE          0xffb20000
#define PROC_MON_SIZE               0x1000
#define XRDP_PHYS_BASE              0x82000000
#define XRDP_SIZE                   0x1000000
#define PERF_PHYS_BASE              0xff800000
#define PERF_SIZE                   0x3000
#define USIM_PHYS_BASE              0xff854000
#define USIM_SIZE                   0x1000
#define PERF1_PHYS_BASE             0xff858000
#define PERF1_SIZE                  0x3000
#define EMMCFLASH_PHYS_BASE         0xffc00000  
#define EMMCFLASH_SIZE              0x100000    
#define SPIFLASH_PHYS_BASE          0xffd00000  
#define SPIFLASH_SIZE               0x100000    
#define NANDFLASH_PHYS_BASE         0xffe00000  
#define NANDFLASH_SIZE              0x100000    
#define BIUCFG_PHYS_BASE            0x81060000
#define BIUCFG_SIZE                 0x3000
#define BOOTLUT_PHYS_BASE           0xffff0000
#define BOOTLUT_SIZE                0x1000
#define XRDP_PHYS_BASE              0x82000000

#define PCM_PHYS_BASE               0xff860000
#define APM_CORE_OFFSET             0x00000000  
#define PCM_CORE_OFFSET             0x00000C00
#define PCM_DMA_OFFSET              0x00001800
#define PCM_SIZE                    0x2000
#define PCMBUS_PHYS_BASE            0x83058600
#define PCMBUS_OFFSET               0x00000000
#define PCMBUS_SIZE                 0x100

#define PCIE0_PHYS_BASE             0x80040000
#define PCIE0_SIZE                  0x0000A000
#define PCIE1_PHYS_BASE             0x80050000
#define PCIE1_SIZE                  0x0000A000
#define PCIE0_MEM_PHYS_BASE         0x90000000
#define PCIE0_MEM_SIZE              0x10000000
#define PCIE1_MEM_PHYS_BASE         0xA0000000
#define PCIE1_MEM_SIZE              0x10000000

#define TIMR_OFFSET                 0x0400
#define GPIO_OFFSET                 0x0500
#define BROM_OFFSET                 0x0600
#define UART_OFFSET                 0x0640
#define LED_OFFSET                  0x0800
#define RNG_OFFSET                  0x0b80
#define SOTP_OFFSET                 0x0c00
#define HSSPIM_OFFSET               0x1000
#define NAND_REG_OFFSET             0x1800
#define NAND_CACHE_OFFSET           0x1c00
#define NAND_INTR_OFFSET            0x2000
#define MDIO_OFFSET                 0x2060
#define I2C_OFFSET                  0x2100
#define MISC_OFFSET                 0x2600
#define JTAG_OTP_OFFSET             0x2800

#define NANDFLASH_OFFSET            0x0000
#define SPIFLASH_OFFSET             0x0000 
#define EMMCFLASH_OFFSET            0x0000 
#define BIUCFG_OFFSET               0x0000

#define GPIO_PHYS_BASE              (PERF_PHYS_BASE + GPIO_OFFSET)
#define UART_PHYS_BASE              (PERF_PHYS_BASE + UART_OFFSET)
#define UART0_PHYS_BASE             UART_PHYS_BASE
#define LED_PHYS_BASE               (PERF_PHYS_BASE + LED1_OFFSET)
#define JTAG_OTP_PHYS_BASE          (PERF_PHYS_BASE + JTAG_OTP_OFFSET)
#define HSSPIM_PHYS_BASE            (PERF_PHYS_BASE + HSSPIM_OFFSET)
#define NAND_REG_PHYS_BASE          (PERF_PHYS_BASE + NAND_REG_OFFSET)
#define NAND_CACHE_PHYS_BASE        (PERF_PHYS_BASE + NAND_CACHE_OFFSET)
#define NAND_INTR_PHYS_BASE         (PERF_PHYS_BASE + NAND_INTR_OFFSET)

#define USBH_BASE                   BCM_IO_MAP(USBH_IDX, USBH_PHYS_BASE, USBH_OFFSET)
#define USBH_CFG_BASE               BCM_IO_MAP(USBH_IDX, USBH_PHYS_BASE, CFG_OFFSET)
#define USBH_EHCI_BASE              BCM_IO_MAP(USBH_IDX, USBH_PHYS_BASE, EHCI_OFFSET)
#define USBH_OHCI_BASE              BCM_IO_MAP(USBH_IDX, USBH_PHYS_BASE, OHCI_OFFSET)



#define MDIO_PHYS_BASE              (PERF_PHYS_BASE + MDIO_OFFSET)
#define I2C_PHYS_BASE               (PERF_PHYS_BASE + I2C_OFFSET)
#define TIMR_PHYS_BASE              (PERF_PHYS_BASE + TIMR_OFFSET)
#define MISC_PHYS_BASE              (PERF_PHYS_BASE + MISC_OFFSET)

#define EMMC_HOST_OFFSET            0x0000 
#define EMMC_TOP_OFFSET             0x0100
#define EMMC_BOOT_OFFSET            0x0200 
#define AHB_CONTROL_OFFSET          0x0300
#define PL081_DMA_OFFSET            0x1000
#define TOP_CNTRL_OFFSET            0x2000
#define PMB_OFFSET                  0x0100

#define EMMC_HOST_PHYS_BASE         (PERF1_PHYS_BASE + EMMC_HOST_OFFSET)
#define EMMC_TOP_PHYS_BASE          (PERF1_PHYS_BASE + EMMC_TOP_OFFSET)
#define EMMC_BOOT_PHYS_BASE         (PERF1_PHYS_BASE + EMMC_BOOT_OFFSET)
#define AHB_CONTROL_PHYS_BASE       (PERF1_PHYS_BASE + AHB_CONTROL_OFFSET)
#define PL081_DMA_PHYS_BASE         (PERF1_PHYS_BASE + PL081_DMA_OFFSET)
#define TOP_CNTRL_BASE              (PERF1_PHYS_BASE + TOP_CNTRL_OFFSET)  /* chip top control registers*/

#define GIC_PHYS_BASE           0x81000000
#define GIC_SIZE                0x10000
#define GIC_OFFSET              0x0000
#define GICD_OFFSET             0x1000
#define GICC_OFFSET             0x2000

#define SYS_CLK_CTRL_OFFSET                 0x80
#define SYS_ERR_PORT_CFG_OFFSET             0x100
#define UBUS_SYS_MODULE_REGISTRATION_OFFSET 0x200

#define WAN_PHYS_BASE                       0x82db2000
#define WAN_SIZE                            0x1000
#define MST_PORT_NODE_PCIE0_PHYS_BASE       0x8300C000
#define MST_PORT_NODE_PCIE0_SIZE            0x1000
#define MST_PORT_NODE_B53_PHYS_BASE         0x83020000
#define MST_PORT_NODE_B53_SIZE              0x1000
#define MST_PORT_NODE_USB_PHYS_BASE         0x83038000
#define MST_PORT_NODE_USB_SIZE              0x1000
#define MST_PORT_NODE_PER_PHYS_BASE         0x83058000
#define MST_PORT_NODE_PER_SIZE              0x1000
#define MST_PORT_NODE_DMA0_PHYS_BASE        0x83064000
#define MST_PORT_NODE_DMA0_SIZE             0x1000
#define MST_PORT_NODE_RQ0_PHYS_BASE         0x83080000
#define MST_PORT_NODE_RQ0_SIZE              0x1000
#define MST_PORT_NODE_NATC_PHYS_BASE        0x830A0000
#define MST_PORT_NODE_NATC_SIZE             0x1000
#define MST_PORT_NODE_DQM_PHYS_BASE         0x830A4000
#define MST_PORT_NODE_DQM_SIZE              0x1000
#define MST_PORT_NODE_QM_PHYS_BASE          0x830AC000 
#define MST_PORT_NODE_QM_SIZE               0x1000
#define UBUS4_PORT_NODE_ROUTING_ADDRESS_OFFSET 0x200
#define UBUS_CAPTURE_PORT_NODE_0_PHYS_BASE  0x830c0000
#define UBUS_CAPTURE_PORT_NODE_1_PHYS_BASE  0x830c0100
#define UBUS_CAPTURE_PORT_NODE_SIZE         0x1000

#define USBH_PHYS_BASE          0x8000c000
#define USBH_SIZE               0x3fff
#define USBH_OFFSET             0x0000
#define CFG_OFFSET              0x200
#define EHCI_OFFSET             0x300     /* USB host registers */
#define OHCI_OFFSET             0x400     /* USB host registers */
#define EHCI1_OFFSET            0x500     /* EHCI1 host registers */
#define OHCI1_OFFSET            0x600     /* OHCI1 host registers */

/* to support non-DT pltaform device add below defs */
#define USB_EHCI_PHYS_BASE      (USBH_PHYS_BASE+EHCI_OFFSET)
#define USB_OHCI_PHYS_BASE      (USBH_PHYS_BASE+OHCI_OFFSET)
#define USB_EHCI1_PHYS_BASE     (USBH_PHYS_BASE+EHCI1_OFFSET)
#define USB_OHCI1_PHYS_BASE     (USBH_PHYS_BASE+OHCI1_OFFSET)

#define UBUS_SYS_MODULE_BASE        BCM_IO_MAP(UBUS_MAPPED_IDX, UBUS_MAPPED_PHYS_BASE, 0)
#define UBUS_SYS_MODULE_REGISTRATION_BASE   BCM_IO_MAP(UBUS_MAPPED_IDX, UBUS_MAPPED_PHYS_BASE, UBUS_SYS_MODULE_REGISTRATION_OFFSET)
#define UBUS_MAPPED_BASE            BCM_IO_MAP(UBUS_MAPPED_IDX, UBUS_MAPPED_PHYS_BASE, SYS_CLK_CTRL_OFFSET)
#define WAN_BASE                    BCM_IO_MAP(WAN_IDX, WAN_PHYS_BASE, 0)
#if defined(_ATF_)
#define PMC_BASE                    BCM_IO_MAP(PMC_IDX, PMC_PHYS_BASE, 0)
#define PROC_MON_BASE               BCM_IO_MAP(PROC_MON_IDX, PROC_MON_PHYS_BASE, 0)
#define PMB_BASE                    BCM_IO_MAP(PROC_MON_IDX, PROC_MON_PHYS_BASE, PMB_OFFSET)
#endif
#define MEMC_BASE                   BCM_IO_MAP(MEMC_IDX, MEMC_PHYS_BASE, 0)
#define XRDP_BASE                   BCM_IO_MAP(XRDP_IDX, XRDP_PHYS_BASE, 0)
#define PERF_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, 0)
#define TIMR_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, TIMR_OFFSET)
#define XRDP_BASE                   BCM_IO_MAP(XRDP_IDX, XRDP_PHYS_BASE, 0)
#define GPIO_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, GPIO_OFFSET)
#define UART_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, UART_OFFSET)
//#define UART1_BASE                  BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, UART1_OFFSET)
#define LED_BASE                    BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, LED_OFFSET)
#define SOTP_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, SOTP_OFFSET)
#define RNG_BASE                    BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, RNG_OFFSET)
#define JTAG_OTP_BASE               BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, JTAG_OTP_OFFSET)
#define HSSPIM_BASE                 BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, HSSPIM_OFFSET)
#define NAND_REG_BASE               BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, NAND_REG_OFFSET)
#define NAND_CACHE_BASE             BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, NAND_CACHE_OFFSET)
#define NAND_INTR_BASE              BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, NAND_INTR_OFFSET)
#define MDIO_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, MDIO_OFFSET)
#define I2C_BASE                    BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, I2C_OFFSET)
#define MISC_BASE                   BCM_IO_MAP(PERF_IDX, PERF_PHYS_BASE, MISC_OFFSET)

#define USIM_BASE                   BCM_IO_MAP(USIM_IDX, USIM_PHYS_BASE, 0)

#define PERF1_BASE                  BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, 0)
#define EMMC_HOST_BASE              BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, EMMC_HOST_OFFSET)
#define EMMC_TOP_BASE               BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, EMMC_TOP_OFFSET)
#define EMMC_BOOT_BASE              BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, EMMC_BOOT_OFFSET)
#define AHB_CONTROL_BASE            BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, AHB_CONTROL_OFFSET)
#define PL081_DMA_BASE              BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, PL081_DMA_OFFSET)
#define TOP_CONTROL_BASE            BCM_IO_MAP(PERF1_IDX, PERF1_PHYS_BASE, TOP_CNTRL_OFFSET)

#define NANDFLASH_BASE              BCM_IO_MAP(NANDFLASH_IDX, NANDFLASH_PHYS_BASE, NANDFLASH_OFFSET)
#define BOOTLUT_BASE                BCM_IO_MAP(BOOTLUT_IDX, BOOTLUT_PHYS_BASE, 0)

#define UBUS4_COHERENCY_PORT_PHYS_BASE      0x810A0000
#define UBUS4_COHERENCY_PORT_BASE_SIZE      0x1000

#define CCI400_PHYS_BASE                    0x81090000
#define CCI400_OFFSET                       0x0000
#define CCI400_SIZE                         0xe000
#define UBUS4_COHERENCY_PORT_PHYS_BASE      0x810A0000
#define UBUS4_COHERENCY_PORT_BASE_SIZE      0x1000

#define XRDP_RCQ_COMMON_REGS_RCQ_GENERAL_CONFIG 0xd08500
#define XRDP_RCQ_GEN_CFG       \
        BCM_IO_MAP(XRDP_IDX, XRDP_PHYS_BASE, \
            XRDP_RCQ_COMMON_REGS_RCQ_GENERAL_CONFIG)
#define XRDP_RCQ_GENERAL_DDR_CONGEST_THRESHOLD_SHIFT   4
#define XRDP_RCQ_GENERAL_PSRAM_CONGEST_THRESHOLD_SHIFT 9

#define MST_PORT_NODE_PCIE0_BASE    	BCM_IO_MAP(MST_PORT_NODE_PCIE0_IDX, MST_PORT_NODE_PCIE0_PHYS_BASE, 0)
#define MST_PORT_NODE_B53_BASE     	    BCM_IO_MAP(MST_PORT_NODE_B53_IDX, MST_PORT_NODE_B53_PHYS_BASE, 0)
#define MST_PORT_NODE_SPU_BASE      	BCM_IO_MAP(MST_PORT_NODE_SPU_IDX, MST_PORT_NODE_SPU_PHYS_BASE, 0)
#define MST_PORT_NODE_USB_BASE      	BCM_IO_MAP(MST_PORT_NODE_USB_IDX, MST_PORT_NODE_USB_PHYS_BASE, 0)
#define MST_PORT_NODE_PER_BASE      	BCM_IO_MAP(MST_PORT_NODE_PER_IDX, MST_PORT_NODE_PER_PHYS_BASE, 0)
#define MST_PORT_NODE_DMA0_BASE     	BCM_IO_MAP(MST_PORT_NODE_DMA0_IDX, MST_PORT_NODE_DMA0_PHYS_BASE, 0)
#define MST_PORT_NODE_RQ0_BASE      	BCM_IO_MAP(MST_PORT_NODE_RQ0_IDX, MST_PORT_NODE_RQ0_PHYS_BASE, 0)
#define MST_PORT_NODE_NATC_BASE     	BCM_IO_MAP(MST_PORT_NODE_NATC_IDX, MST_PORT_NODE_NATC_PHYS_BASE, 0)
#define MST_PORT_NODE_DQM_BASE      	BCM_IO_MAP(MST_PORT_NODE_DQM_IDX, MST_PORT_NODE_DQM_PHYS_BASE, 0)
#define MST_PORT_NODE_QM_BASE       	BCM_IO_MAP(MST_PORT_NODE_QM_IDX, MST_PORT_NODE_QM_PHYS_BASE, 0)
#define BIUCFG_BASE                 	BCM_IO_MAP(BIUCFG_IDX, BIUCFG_PHYS_BASE, BIUCFG_OFFSET)
#define UBUS_RANGE_CHK_SETUP_BASE   	BCM_IO_MAP(UBUS4_COHERENCY_PORT_IDX,UBUS4_COHERENCY_PORT_PHYS_BASE, 0)
#define UBUS_RANGE_CHK_CFG_BASE     	BCM_IO_MAP(UBUS4_COHERENCY_PORT_IDX,UBUS4_COHERENCY_PORT_PHYS_BASE, 0x310)
#define UBUS_COHERENCY_PORT_CFG_BASE   	BCM_IO_MAP(UBUS4_COHERENCY_PORT_IDX,UBUS4_COHERENCY_PORT_PHYS_BASE, 0x400)
#define UBUS_CAPTURE_PORT_NODE_0_BASE     BCM_IO_MAP(UBUS_CAPTURE_PORT_NODE_0, UBUS_CAPTURE_PORT_NODE_0_PHYS_BASE, 0)
#define UBUS_CAPTURE_PORT_NODE_1_BASE     BCM_IO_MAP(UBUS_CAPTURE_PORT_NODE_1, UBUS_CAPTURE_PORT_NODE_1_PHYS_BASE, 0)
#define CCI400_BASE			BCM_IO_MAP(CCI400_IDX, CCI400_PHYS_BASE, CCI400_OFFSET)

#define APM_BASE           BCM_IO_MAP(PCM_IDX, PCM_PHYS_BASE, APM_CORE_OFFSET)
#define PCM_BASE           BCM_IO_MAP(PCM_IDX, PCM_PHYS_BASE, PCM_CORE_OFFSET)
#define PCM_DMA_BASE       BCM_IO_MAP(PCM_IDX, PCM_PHYS_BASE, PCM_DMA_OFFSET)
#define PCM_BUS_BASE       BCM_IO_MAP(PCMBUS_IDX, PCMBUS_PHYS_BASE, PCMBUS_OFFSET)

#define UBUS_COHERENCY_PORT_CFG_LUT_BASE            UBUS_COHERENCY_PORT_CFG_BASE + 0
#define UBUS_COHERENCY_PORT_CFG_DEPTH_BASE          UBUS_COHERENCY_PORT_CFG_BASE + 0x80
#define UBUS_COHERENCY_PORT_CFG_CBS_BASE            UBUS_COHERENCY_PORT_CFG_BASE + 0x90
#define UBUS_COHERENCY_PORT_CFG_CIR_INCR_BASE       UBUS_COHERENCY_PORT_CFG_BASE + 0xB0
#define UBUS_COHERENCY_PORT_CFG_REF_COUNT_BASE      UBUS_COHERENCY_PORT_CFG_BASE + 0xc0

/* These block uses DT or not used by linux at all, no need to map for the legacy support */
#define GIC_BASE           BCM_IO_NOMAP(-1, GIC_PHYS_BASE, GIC_OFFSET)
#define GICC_BASE          BCM_IO_NOMAP(-1, GIC_PHYS_BASE, GICC_OFFSET)
#define GICD_BASE          BCM_IO_NOMAP(-1, GIC_PHYS_BASE, GICD_OFFSET)
#define SPIFLASH_BASE      BCM_IO_NOMAP(-1, SPIFLASH_PHYS_BASE, SPIFLASH_OFFSET)
#define EMMCFLASH_BASE     BCM_IO_NOMAP(-1, EMMCFLASH_PHYS_BASE, EMMCFLASH_OFFSET)

#ifndef __ASSEMBLER__
#ifdef __BOARD_DRV_ARMV7__
BCM_IO_BLOCKS bcm_io_blocks[] =  
{
    {MEMC_IDX, MEMC_SIZE, MEMC_PHYS_BASE},                                                                               
#if defined(_ATF_)
    {PMC_IDX, PMC_SIZE, PMC_PHYS_BASE},                                                                                     
    {PROC_MON_IDX, PROC_MON_SIZE, PROC_MON_PHYS_BASE},                                                                 
#endif
    {XRDP_IDX, XRDP_SIZE, XRDP_PHYS_BASE},                                                                                 
    {PERF_IDX, PERF_SIZE, PERF_PHYS_BASE},                                                                                 
    {USIM_IDX, USIM_SIZE, USIM_PHYS_BASE},                                                                                 
    {PERF1_IDX, PERF1_SIZE, PERF1_PHYS_BASE},                                                                             
    {NANDFLASH_IDX, NANDFLASH_SIZE, NANDFLASH_PHYS_BASE},                                                             
    {PCM_IDX, PCM_SIZE, PCM_PHYS_BASE},
    {PCMBUS_IDX, PCMBUS_SIZE, PCMBUS_PHYS_BASE},
    {USBH_IDX, USBH_SIZE, USBH_PHYS_BASE},
    {WAN_IDX, WAN_SIZE, WAN_PHYS_BASE},                                                                                     
    {MST_PORT_NODE_PCIE0_IDX, MST_PORT_NODE_PCIE0_SIZE, MST_PORT_NODE_PCIE0_PHYS_BASE},                 
    {MST_PORT_NODE_B53_IDX, MST_PORT_NODE_B53_SIZE, MST_PORT_NODE_B53_PHYS_BASE},                       
    {MST_PORT_NODE_USB_IDX, MST_PORT_NODE_USB_SIZE, MST_PORT_NODE_USB_PHYS_BASE},                       
    {MST_PORT_NODE_PER_IDX, MST_PORT_NODE_PER_SIZE, MST_PORT_NODE_PER_PHYS_BASE},                       
    {MST_PORT_NODE_DMA0_IDX, MST_PORT_NODE_DMA0_SIZE, MST_PORT_NODE_DMA0_PHYS_BASE},                         
    {MST_PORT_NODE_RQ0_IDX, MST_PORT_NODE_RQ0_SIZE, MST_PORT_NODE_RQ0_PHYS_BASE},                             
    {MST_PORT_NODE_NATC_IDX, MST_PORT_NODE_NATC_SIZE, MST_PORT_NODE_NATC_PHYS_BASE},                         
    {MST_PORT_NODE_DQM_IDX, MST_PORT_NODE_DQM_SIZE, MST_PORT_NODE_DQM_PHYS_BASE},                             
    {MST_PORT_NODE_QM_IDX, MST_PORT_NODE_QM_SIZE, MST_PORT_NODE_QM_PHYS_BASE},                                
    {UBUS4_COHERENCY_PORT_IDX, UBUS4_COHERENCY_PORT_BASE_SIZE, UBUS4_COHERENCY_PORT_PHYS_BASE},     
    {BIUCFG_IDX, BIUCFG_SIZE, BIUCFG_PHYS_BASE},                                                                   
    {BOOTLUT_IDX, BOOTLUT_SIZE, BOOTLUT_PHYS_BASE},                                                                
    {UBUS_MAPPED_IDX, UBUS_MAPPED_SIZE, UBUS_MAPPED_PHYS_BASE},
    {UBUS_CAPTURE_PORT_NODE_0, UBUS_CAPTURE_PORT_NODE_SIZE, UBUS_CAPTURE_PORT_NODE_0_PHYS_BASE},
    {UBUS_CAPTURE_PORT_NODE_1, UBUS_CAPTURE_PORT_NODE_SIZE, UBUS_CAPTURE_PORT_NODE_1_PHYS_BASE},
    {CCI400_IDX, CCI400_SIZE, CCI400_PHYS_BASE},
};

unsigned long bcm_io_block_address[LAST_IDX];
#else
extern BCM_IO_BLOCKS bcm_io_blocks[];
extern unsigned long bcm_io_block_address[];
#endif

typedef struct EmmcHostCtrl{
    uint32      emmc_host_sdma;
    uint32      emmc_host_block;
    uint32      emmc_host_argument;           /* 8 */
    uint32      emmc_host_cmd_mode;
    uint32      emmc_host_resp_01;            /* 10 */
    uint32      emmc_host_resp_23;
    uint32      emmc_host_resp_45;
    uint32      emmc_host_resp_67;
    uint32      emmc_host_buffdata;           /* 20 */
    uint32      emmc_host_state;
    uint32      emmc_host_ctrl_set0;
    uint32      emmc_host_ctrl_set1;
    uint32      emmc_host_int_status;         /* 30 */
    uint32      emmc_host_int_stat_ena;
    uint32      emmc_host_int_signal_ena;
    uint32      emmc_host_autocmd12_stat;
    uint32      emmc_host_capable;            /* 40 */
    uint32      emmc_host_capable_1;
    uint32      emmc_host_pwr_capable;
    uint32      emmc_host_pwr_capable_rsvd;
    uint32      emmc_host_force_events;       /* 50 */
    uint32      emmc_host_adma_err_stat;
    uint32      emmc_host_adma_sysaddr_lo;
    uint32      emmc_host_adma_sysaddr_hi;
    uint32      emmc_host_preset_init_default; /* 60 */
    uint32      emmc_host_preset_high_speed;
    uint32      emmc_host_preset_sdr25_50;
    uint32      emmc_host_preset_sdr104_ddr50;
    uint32      emmc_host_boot_timeout;       /* 70 */
    uint32      emmc_host_debug_select;
    uint32      emmc_host_ahb_reserved[26];   /* 78 */
    uint32      emmc_host_shared_bus_ctrl;    /* e0 */
    uint32      emmc_host_ahb_reserved1[3];
    uint32      emmc_host_spi_interrupt;      /* f0 */
    uint32      emmc_host_ahb_reserved2[2];
    uint32      emmc_host_version_stat;       /* fc */
} EmmcHostCtrl;

#define EMMC_HOSTIF ((volatile EmmcHostCtrl * const) EMMC_HOST_BASE)

typedef struct EmmcTopCnfg{
    uint32      emmc_top_cfg_sdio_emmc_ctrl1;
    uint32      emmc_top_cfg_sdio_emmc_ctrl2;
    uint32      emmc_top_cfg_tp_out_sel;
    uint32      emmc_top_cfg_cap_reg_override;
    uint32      emmc_top_cfg_cap_reg0;       /* 10 */
    uint32      emmc_top_cfg_cap_reg1;
    uint32      emmc_top_cfg_preset1;
    uint32      emmc_top_cfg_preset2;
    uint32      emmc_top_cfg_preset3;        /* 20 */
    uint32      emmc_top_cfg_preset4;
    uint32      emmc_top_cfg_sd_clock_delay;
    uint32      emmc_top_cfg_sd_pad_drv;
    uint32      emmc_top_cfg_ip_dly;         /* 30 */
    uint32      emmc_top_cfg_op_dly;
    uint32      emmc_top_cfg_tuning;
    uint32      emmc_top_cfg_volt_ctrl;
    uint32      emmc_top_cfg_debug_tap_dly;  /* 40 */
    uint32      emmc_top_cfg_reserved[4];
    uint32      emmc_top_cfg_sd_pin_sel;     /* 54 */
    uint32      emmc_top_cfg_max_current;    
    uint32      emmc_top_cfg_reserved1[37];   /* 5c */
    uint32      emmc_top_cfg_version;        /* f0 */
    uint32      emmc_top_cfg_reserved2[2];
    uint32      emmc_top_cfg_scratch;        /* fc */
} EmmTopCnfg;

#define EMMC_TOP_CFG ((volatile EmmcTopCnfg * const) EMMC_TOP_BASE)

typedef struct EmmcBoot{
    uint32      emmc_boot_main_ctl;
#define EMMC_BOOT_ENABLE   (1 << 0)   
    uint32      emmc_boot_status;
#define EMMC_BOOT_MODE_MASK (1 << 0)    
    uint32      emmc_boot_version;
    uint32      emmc_boot_reserved;
    uint32      emmc_boot_clk_div;        /* 10 */
    uint32      emmc_boot_reset_cnt; 
    uint32      emmc_boot_ram_fill;
    uint32      emmc_boot_error_addr;
    uint32      emmc_boot_base_addr0;     /* 20 */
    uint32      emmc_boot_base_addr1;
    uint32      emmc_boot_ram_fill_cnt;
    uint32      emmc_boot_data_access_time;
    uint32      emmc_boot_reserved1[3];   /* 30 */
    uint32      emmc_boot_debug;          /* 3c */
} EmmcBoot;

#define EMMC_BOOT ((volatile EmmcBoot * const) EMMC_BOOT_BASE)

typedef struct PL081Dma{
    uint32      dmacintstat;
    uint32      dmacinttcstat;
    uint32      dmacinttcclr;
    uint32      dmacinterrstat;
    uint32      dmacinterrclr;      /* 10 */
    uint32      dmacwintc;
    uint32      dmacwinterr;
    uint32      dmacenbldchns;
    uint32      dmacsoftbreq;       /* 20 */
    uint32      dmacsoftsreq;
    uint32      dmacsofttlbreq;
    uint32      dmacsofttlsreq;
    uint32      dmacconfig;
    uint32      dmacsync;           /* 34 */
    uint32      dmacreserved[50];
    uint32      dmacc0srcaddr;      /* 100 */
    uint32      dmacc0destaddr;
    uint32      dmacc0llireg;
    uint32      dmacc0control;
    uint32      dmacc0config;
    uint32      unused2[3];         /* 0x114 - 0x11f */
    uint32      dmacc1srcaddr;
    uint32      dmacc1destaddr;
    uint32      dmacc1llireg;
    uint32      dmacc1control;
    uint32      dmacc1config;
    uint32      dmacreserved1[51];  /* 134 */
#define Pl081_DMACCxControl_TCINT_EN         (1 << 31)
#define Pl081_DMACCxControl_PROT_PRIVILEGED  (1 << 28)
#define Pl081_DMACCxControl_PROT_BUFF        (1 << 29)
#define Pl081_DMACCxControl_PROT_CACHE       (1 << 30)
#define Pl081_DMACCxControl_DI               (1 << 27)
#define Pl081_DMACCxControl_SI               (1 << 26)

#define Pl081_DMACCxControl_DWIDTH_B      0
#define Pl081_DMACCxControl_DWIDTH_H      1
#define Pl081_DMACCxControl_DWIDTH_W      2
#define Pl081_DMACCxControl_DWIDTH_SHIFT  21
                                          
#define Pl081_DMACCxControl_SWIDTH_B      0
#define Pl081_DMACCxControl_SWIDTH_H      1
#define Pl081_DMACCxControl_SWIDTH_W      2
#define Pl081_DMACCxControl_SWIDTH_SHIFT  18
                                          
#define Pl081_DMACCxControl_DBSIZE_1      0
#define Pl081_DMACCxControl_DBSIZE_4      1
#define Pl081_DMACCxControl_DBSIZE_8      2
#define Pl081_DMACCxControl_DBSIZE_16     3
#define Pl081_DMACCxControl_DBSIZE_32     4
#define Pl081_DMACCxControl_DBSIZE_64     5
#define Pl081_DMACCxControl_DBSIZE_128    6
#define Pl081_DMACCxControl_DBSIZE_256    7
#define Pl081_DMACCxControl_DBSIZE_SHIFT  15
                                          
#define Pl081_DMACCxControl_SBSIZE_1      0
#define Pl081_DMACCxControl_SBSIZE_4      1
#define Pl081_DMACCxControl_SBSIZE_8      2
#define Pl081_DMACCxControl_SBSIZE_16     3
#define Pl081_DMACCxControl_SBSIZE_32     4
#define Pl081_DMACCxControl_SBSIZE_64     5
#define Pl081_DMACCxControl_SBSIZE_128    6
#define Pl081_DMACCxControl_SBSIZE_SHIFT  12
    uint32      dmactcr;            /* 200 */
    uint32      dmactop1;
    uint32      dmactop2;
    uint32      dmactop3;
    uint32      dmacreserved2[52];  /* 210 */
    uint32      dmacperiphid0;      /* 2e0 */
    uint32      dmacperiphid1;
    uint32      dmacperiphid2;
    uint32      dmacperiphid3;
    uint32      dmacpcellid0;
    uint32      dmacpcellid1;
    uint32      dmacpcellid2;
    uint32      dmacpcellid3;
} PL081Dma;

#define PLDMA ((volatile PL081Dma * const) PL081_DMA_BASE)


typedef struct TopControl {
   uint32      MiiPadCtl;          // 0x0
   uint32      Rgmii1PadCtl;       // 0x4
   uint32      Rgmii2PadCtl;       // 0x8
   uint32      Rgmii3PadCtl;       // 0xc
   uint32      MiiPullCtl;         // 0x10
   uint32      Rgmii1PullCtl;      // 0x14
   uint32      Rgmii2PullCtl;      // 0x18
   uint32      Rgmii3PullCtl;      // 0x1c
   uint32      SgmiiFiberDetect;   // 0x20
   uint32      DgSensePadCtl;      // 0x24
#define DG_CTRL_SHIFT   4
#define DG_EN_SHIFT     3
#define DG_TRIM_SHIFT   0
   uint32      TpDirOverride0;     // 0x28
   uint32      TpDirOverride1;     // 0x2c
   uint32      RescalReadData0;    // 0x30
   uint32      RescalReadData1;    // 0x34
   uint32      reserved0;          // 0x38 
   uint32      ResetStatus;        // 0x3c 
#define PCIE_RESET_STATUS       0x10000000
#define SW_RESET_STATUS         0x20000000
#define HW_RESET_STATUS         0x40000000
#define POR_RESET_STATUS        0x80000000
#define RESET_STATUS_MASK       0xF0000000
   uint32      TodSync;            // 0x40
   uint32      Pm0Pm1RescalSts;    // 0x44
   uint32      Pm2Pm3RescalSts;    // 0x48
   uint32      SgbRescalSts;       // 0x4c
   uint32      Pm0Pm1RescalCfg;    // 0x50
   uint32      Pm2Pm3RescalCfg;    // 0x54
   uint32      SgbRescalCfg;       // 0x58
   uint32      Pm0Pm1TmonCfg;      // 0x5c
   uint32      Pm2Pm3TmonCfg;      // 0x60
   uint32      SgbTmonCfg;         // 0x64
   uint32      MdioMasterSelect;   // 0x68
   uint32      SwControlReg;       // 0x6c
} TopControl;

#define TOPCTRL ((volatile TopControl * const) TOP_CONTROL_BASE)
#define TOP ((volatile TopControl * const) TOP_CONTROL_BASE)

/*
** Peripheral Controller
*/

typedef struct PerfControl { /* GenInt */
     uint32        RevID;             /* (00) word 0 */
#define CHIP_ID_SHIFT   12
#define CHIP_ID_MASK    (0xfffff << CHIP_ID_SHIFT)
#define REV_ID_MASK     0xff

   uint32 Ext1IrqCtrl;         /* 0x04 */
#define EI_CLEAR_SHFT   0
#define EI_SENSE_SHFT   8
#define EI_INSENS_SHFT  16
#define EI_LEVEL_SHFT   24
   uint32 Ext1IrqStatus;       /* 0x08 */
#define EI_STATUS_SHFT  0
   uint32 Ext1IrqSet;          /* 0x0c */
   uint32 Ext1IrqClear;        /* 0x10 */
   uint32 Ext1IrqMaskStatus;   /* 0x14 */
   uint32 Ext1IrqMaskSet;      /* 0x18 */
   uint32 Ext1IrqMaskClear;    /* 0x1c */
   uint32 ExtIrqCtrl;        /* 0x20 */
   uint32 ExtIrqStatus;      /* 0x24 */
   uint32 ExtIrqSet;         /* 0x28 */
   uint32 ExtIrqClear;       /* 0x2c */
   uint32 ExtIrqMaskStatus;  /* 0x30 */
   uint32 ExtIrqMaskSet;     /* 0x34 */
   uint32 ExtIrqMaskClear;   /* 0x38 */
   uint32 reserved0[2];      /* 0x3c */
   uint32 ExtIrqMuxSel0;      /* 0x44 */
#define EXT_IRQ_SLOT_SIZE             16
#define EXT_IRQ_MUX_SEL0_SHIFT        4
#define EXT_IRQ_MUX_SEL0_MASK         0xf
   uint32 ExtIrqMuxSel1;      /* 0x48 */
#define EXT_IRQ_MUX_SEL1_SHIFT        4
#define EXT_IRQ_MUX_SEL1_MASK         0xf
   uint32 IrqPeriphStatus;    /* 0x4c */
   uint32 IrqPeriphMask;      /* 0x50 */
   uint32 reserved[8];        /* 0x4c */  
   uint32 DMAIrqStatus;       /* 0x6c */
   uint32 DMAIrqSet;          /* 0x70 */
   uint32 DMAIrqClear;        /* 0x74 */
   uint32 DMAIrqMaskStatus;   /* 0x78 */
   uint32 DMAIrqMaskSet;      /* 0x7c */
   uint32 DMAIrqMaskClear;    /* 0x80 */
} PerfControl;

#define PERF ((volatile PerfControl * const) PERF_BASE)

/*
** Timer
*/
#define TIMER_64BIT
typedef struct Timer {
    uint64        TimerCtl0;
    uint64        TimerCtl1;
    uint64        TimerCtl2;
    uint64        TimerCtl3;
#define TIMERENABLE     (1ULL << 63)
#define RSTCNTCLR       (1ULL << 62)
    uint64        TimerCnt0;
    uint64        TimerCnt1;
    uint64        TimerCnt2;
    uint64        TimerCnt3;
#define TIMER_COUNT_MASK   0x3FFFFFFFFFFFFFFFULL
    uint32        TimerMask;
#define TIMER0EN        0x01
#define TIMER1EN        0x02
#define TIMER2EN        0x04
#define TIMER3EN        0x08
    uint32        TimerInts;
#define TIMER0          0x01
#define TIMER1          0x02
#define TIMER2          0x04
#define TIMER3          0x08
    uint32        ResetReason;
#define SW_INI_RESET            0x00000001
    uint32        spare[3];
} Timer;

#define TIMER ((volatile Timer * const) TIMR_BASE)

/*
** UART
*/
typedef struct UartChannel {
   byte fifoctl;  /* 0x00 */
#define RSTTXFIFOS   0x80
#define RSTRXFIFOS   0x40
   /* 5-bit TimeoutCnt is in low bits of this register.
    *  This count represents the number of characters
    *  idle times before setting receive Irq when below threshold
    */
   byte config;
#define XMITBREAK 0x40
#define BITS5SYM  0x00
#define BITS6SYM  0x10
#define BITS7SYM  0x20
#define BITS8SYM  0x30
#define ONESTOP      0x07
#define TWOSTOP      0x0f
   /* 4-LSBS represent STOP bits/char
    * in 1/8 bit-time intervals.  Zero
    * represents 1/8 stop bit interval.
    * Fifteen represents 2 stop bits.
    */
   byte control;
#define BRGEN     0x80  /* Control register bit defs */
#define TXEN      0x40
#define RXEN      0x20
#define LOOPBK    0x10
#define TXPARITYEN   0x08
#define TXPARITYEVEN 0x04
#define RXPARITYEN   0x02
#define RXPARITYEVEN 0x01
   byte unused0;
          
   uint32 baudword;  /* 0x04 */
   /* When divide SysClk/2/(1+baudword) we should get 32*bit-rate
    */

   /* 0x08 */
   byte  prog_out;  /* Set value of DTR (Bit0), RTS (Bit1)
                *  if these bits are also enabled to
                *  GPIO_o
                */
#define ARMUARTEN 0x04
#define RTSEN     0x02
#define DTREN     0x01
   byte fifocfg;  /* Upper 4-bits are TxThresh, Lower are
                * RxThreshold.  Irq can be asserted
                * when rx fifo> thresh, txfifo<thresh
                */

   byte rxf_levl;  /* Read-only fifo depth */
   byte txf_levl;  /* Read-only fifo depth */

   /* 0x0c */
   byte DeltaIP_SyncIP;  /* Upper 4 bits show which bits
                   *  have changed (may set IRQ).
                   *  read automatically clears
                   *  bit.
                   *  Lower 4 bits are actual
                   *  status
                   */
   byte DeltaIPConfig_Mask; /* Upper 4 bits: 1 for posedge
                   * sense 0 for negedge sense if
                   * not configured for edge
                   * insensitive (see above)
                   * Lower 4 bits: Mask to enable
                   * change detection IRQ for
                   * corresponding GPIO_i
                   */
   byte DeltaIPEdgeNoSense; /* Low 4-bits, set corr bit to
                   * 1 to detect irq on rising
                   * AND falling edges for
                   * corresponding GPIO_i
                   * if enabled (edge insensitive)
                   */
   byte unused1;

   uint16 intStatus; /* 0x10 */
#define DELTAIP         0x0001
#define TXUNDERR        0x0002
#define TXOVFERR        0x0004
#define TXFIFOTHOLD     0x0008
#define TXREADLATCH     0x0010
#define TXFIFOEMT       0x0020
#define RXUNDERR        0x0040
#define RXOVFERR        0x0080
#define RXTIMEOUT       0x0100
#define RXFIFOFULL      0x0200
#define RXFIFOTHOLD     0x0400
#define RXFIFONE        0x0800
#define RXFRAMERR       0x1000
#define RXPARERR        0x2000
#define RXBRK           0x4000
   uint16 intMask;

   uint16 Data;    /* 0x14  Write to TX, Read from RX */
                        /* bits 10:8 are BRK,PAR,FRM errors */
   uint16 unused2;
} Uart;
#define UART ((volatile Uart * const) UART_BASE)

/*
 * Gpio Controller
 */
typedef struct GpioControl {
        uint32 GPIODir[8];             /* 0x00-0x1c */
        uint32 GPIOio[8];              /* 0x20-0x3c */
        uint32 PadCtrl;                 /* 0x40 */
        uint32 SpiSlaveCfg;             /* 0x44 */
        uint32 TestControl;             /* 0x48 */
        uint32 TestPortBlockEnMSB;      /* 0x4c */
        uint32 TestPortBlockEnLSB;      /* 0x50 */
        uint32 TestPortBlockDataMSB;    /* 0x54 */
        uint32 TestPortBlockDataLSB;    /* 0x58 */
#define PINMUX_DATA_SHIFT       12
#define PINMUX_0                0
#define PINMUX_1                1
#define PINMUX_2                2
#define PINMUX_3                3
#define PINMUX_4                4
#define PINMUX_5                5
#define PINMUX_6                6
#define PINMUX_7                7
#define PAD_CTRL_SHIFT          12
#define PAD_CTRL_MASK           (0x3f<<PAD_CTRL_SHIFT)
#define PAD_SEL_SHIFT           12
#define PAD_AMP_SHIFT           15
#define PAD_IND_SHIFT           16
#define PAD_GMII_SHIFT          17
       uint32 TestPortCmd;             /* 0x5c */
#define LOAD_MUX_REG_CMD        0x21
#define LOAD_PAD_CTRL_CMD       0x22
        uint32 DiagReadBack;            /* 0x60 */
        uint32 DiagReadBackHi;          /* 0x64 */
        uint32 GeneralPurpose;          /* 0x68 */
        uint32 spare[3];
} GpioControl;

#define GPIO ((volatile GpioControl * const) GPIO_BASE)

/* Number to mask conversion macro used for GPIODir and GPIOio */
#define GPIO_NUM_MAX                78 /* accoring to pinmuxing table */  
#define GPIO_NUM_TO_ARRAY_IDX(X)	(((X & BP_GPIO_NUM_MASK) < GPIO_NUM_MAX) ? (((X & BP_GPIO_NUM_MASK) >> 5) & 0x0f) : (0))
#define GPIO_NUM_TO_MASK(X)         (((X & BP_GPIO_NUM_MASK) < GPIO_NUM_MAX) ? (1 << ((X & BP_GPIO_NUM_MASK) & 0x1f)) : (0))
#define GPIO_NUM_TO_ARRAY_SHIFT(X)  (((X) & BP_GPIO_NUM_MASK) & 0x1f)

/*
** Misc Register Set Definitions.
*/

typedef struct Misc {
    uint32  miscStrapBus;                       /* 0x00 */
#define MISC_STRAP_BUS_BOOT_SEL_SHIFT           5
#define MISC_STRAP_BUS_BOOT_SEL_MASK            (0x38 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_SPI_NOR             (0x38 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_EMMC                (0x30 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_SPI_NAND            (0x28 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_SEL_NAND_MASK       (0x20 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND                (0x00 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_SEL_PAGE_MASK       (0x18 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_2K_PAGE        (0x00 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_4K_PAGE        (0x08 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_8K_PAGE        (0x10 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_512_PAGE       (0x18 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_SEL_ECC_MASK        (0x7 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_DISABLE    (0x0 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_1_BIT      (0x1 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_4_BIT      (0x2 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_8_BIT      (0x3 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_12_BIT     (0x4 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_24_BIT     (0x5 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_40_BIT     (0x6 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOT_NAND_ECC_60_BIT     (0x7 << MISC_STRAP_BUS_BOOT_SEL_SHIFT)
#define MISC_STRAP_BUS_BOOTROM_BOOT_N           (0x1 << 11)

#define MISC_STRAP_BUS_PCIE_SATA_MASK		    (1 << 3)  /* 1-PCI  0-SATA */
#define MISC_STRAP_BUS_B53_NO_BOOT              (1 << 12) /* 1-PMC boot A53, 0-A53 boots at POR */
#define MISC_STRAP_DDR_DENSITY_SHIFT            18
#define MISC_STRAP_DDR_DENSITY_MASK             (3 << MISC_STRAP_DDR_DENSITY_SHIFT) /* 0=1Gb, 1=2Gb, 2=8Gb, 3=4Gb */
#define MISC_STRAP_BUS_PMC_BOOT_AVS             (1 << 20) /* 1 = PMC run AVS */
#define MISC_STRAP_BUS_PMC_BOOT_FLASH_N         (1 << 21) /* 1 = PMC boot from rom */
#define MISC_STRAP_DDR_FREQ_SHIFT               27
#define MISC_STRAP_DDR_FREQ_MASK                (1 << MISC_STRAP_DDR_FREQ_SHIFT) /* 1-800MHz, 0-533MHz */
#define MISC_STRAP_BUS_PCIE_SINGLE_LANES_SHIFT  29
#define MISC_STRAP_BUS_PCIE_SINGLE_LANES        (1 << MISC_STRAP_BUS_PCIE_SINGLE_LANES_SHIFT) /* 1-Single Lanes  0-Dual Lanes */
#define MISC_STRAP_ENABLE_INT_1p8V              (1 << 1)

    uint32  miscStrapOverride;                  /* 0x04 */
    uint32  miscMaskUBUSErr;                    /* 0x08 */
    uint32  miscPeriphCtrl;                     /* 0x0c */
    uint32  miscSPImasterCtrl;                  /* 0x10 */
    uint32  miscDierevid;                       /* 0x14 */
    uint32  miscPeriphMiscCtrl;                 /* 0x18 */
    uint32  miscPeriphMiscStat;                 /* 0x1c */
    uint32  miscMbox0_data;                     /* 0x20 */
    uint32  miscMbox1_data;                     /* 0x24 */
    uint32  miscMbox2_data;                     /* 0x28 */
    uint32  miscMbox3_data;                     /* 0x2c */
    uint32  miscMbox_ctrl;                      /* 0x30 */
    uint32  miscSoftResetB;                     /* 0x34 */
    uint32  reserved0;                          /* 0x38 */
    uint32  miscSWdebugNW[2];                   /* 0x3c */
    uint32  miscWDresetCtrl;                    /* 0x44 */
} Misc;

#define MISC ((volatile Misc * const) MISC_BASE)

typedef struct Rng {
   uint32 ctrl0;                 /* 0x00 */
   uint32 rngSoftReset;          /* 0x04 */
   uint32 rbgSoftReset;          /* 0x08 */
   uint32 totalBitCnt;           /* 0x0c */
   uint32 totalBitCntThreshold;  /* 0x10 */
   uint32 revId;                 /* 0x14 */
   uint32 intStatus;             /* 0x18 */
#define RNG_INT_STATUS_NIST_FAIL       (0x1<<5)
#define RNG_INT_STATUS_FIFO_FULL       (0x1<<2)
   uint32 intEn;                 /* 0x1c */
   uint32 rngFifoData;           /* 0x20 */
   uint32 fifoCnt;               /* 0x24 */
#define RNG_PERM_ALLOW_SECURE_ACCESS           0xCC
#define RNG_PERM_ALLOW_NONSEC_ACCESS           0x33
   uint32 perm;                  /* 0x28 */
} Rng;

#define RNG ((volatile Rng * const) RNG_BASE)

#define USIM_CTRL           &MISC->miscUSIMCtrl

/*
** High-Speed SPI Controller
*/

#define __mask(end, start)      (((1 << ((end - start) + 1)) - 1) << start)
typedef struct HsSpiControl {

  uint32    hs_spiGlobalCtrl;       // 0x0000
#define HS_SPI_MOSI_IDLE            (1 << 18)
#define HS_SPI_CLK_POLARITY         (1 << 17)
#define HS_SPI_CLK_GATE_SSOFF       (1 << 16)
#define HS_SPI_PLL_CLK_CTRL         (8)
#define HS_SPI_PLL_CLK_CTRL_MASK    __mask(15, HS_SPI_PLL_CLK_CTRL)
#define HS_SPI_SS_POLARITY          (0)
#define HS_SPI_SS_POLARITY_MASK     __mask(7, HS_SPI_SS_POLARITY)

  uint32    hs_spiExtTrigCtrl;      // 0x0004
#define HS_SPI_TRIG_RAW_STATE       (24)
#define HS_SPI_TRIG_RAW_STATE_MASK  __mask(31, HS_SPI_TRIG_RAW_STATE)
#define HS_SPI_TRIG_LATCHED         (16)
#define HS_SPI_TRIG_LATCHED_MASK    __mask(23, HS_SPI_TRIG_LATCHED)
#define HS_SPI_TRIG_SENSE           (8)
#define HS_SPI_TRIG_SENSE_MASK      __mask(15, HS_SPI_TRIG_SENSE)
#define HS_SPI_TRIG_TYPE            (0)
#define HS_SPI_TRIG_TYPE_MASK       __mask(7, HS_SPI_TRIG_TYPE)
#define HS_SPI_TRIG_TYPE_EDGE       (0)
#define HS_SPI_TRIG_TYPE_LEVEL      (1)

  uint32    hs_spiIntStatus;        // 0x0008
#define HS_SPI_IRQ_PING1_USER       (28)
#define HS_SPI_IRQ_PING1_USER_MASK  __mask(31, HS_SPI_IRQ_PING1_USER)
#define HS_SPI_IRQ_PING0_USER       (24)
#define HS_SPI_IRQ_PING0_USER_MASK  __mask(27, HS_SPI_IRQ_PING0_USER)

#define HS_SPI_IRQ_PING1_CTRL_INV   (1 << 12)
#define HS_SPI_IRQ_PING1_POLL_TOUT  (1 << 11)
#define HS_SPI_IRQ_PING1_TX_UNDER   (1 << 10)
#define HS_SPI_IRQ_PING1_RX_OVER    (1 << 9)
#define HS_SPI_IRQ_PING1_CMD_DONE   (1 << 8)

#define HS_SPI_IRQ_PING0_CTRL_INV   (1 << 4)
#define HS_SPI_IRQ_PING0_POLL_TOUT  (1 << 3)
#define HS_SPI_IRQ_PING0_TX_UNDER   (1 << 2)
#define HS_SPI_IRQ_PING0_RX_OVER    (1 << 1)
#define HS_SPI_IRQ_PING0_CMD_DONE   (1 << 0)

  uint32    hs_spiIntStatusMasked;  // 0x000C
#define HS_SPI_IRQSM__PING1_USER    (28)
#define HS_SPI_IRQSM__PING1_USER_MASK   __mask(31, HS_SPI_IRQSM__PING1_USER)
#define HS_SPI_IRQSM__PING0_USER    (24)
#define HS_SPI_IRQSM__PING0_USER_MASK   __mask(27, HS_SPI_IRQSM__PING0_USER)

#define HS_SPI_IRQSM__PING1_CTRL_INV    (1 << 12)
#define HS_SPI_IRQSM__PING1_POLL_TOUT   (1 << 11)
#define HS_SPI_IRQSM__PING1_TX_UNDER    (1 << 10)
#define HS_SPI_IRQSM__PING1_RX_OVER     (1 << 9)
#define HS_SPI_IRQSM__PING1_CMD_DONE    (1 << 8)

#define HS_SPI_IRQSM__PING0_CTRL_INV    (1 << 4)
#define HS_SPI_IRQSM__PING0_POLL_TOUT   (1 << 3)
#define HS_SPI_IRQSM__PING0_TX_UNDER    (1 << 2)
#define HS_SPI_IRQSM__PING0_RX_OVER     (1 << 1)
#define HS_SPI_IRQSM__PING0_CMD_DONE    (1 << 0)

  uint32    hs_spiIntMask;              // 0x0010
#define HS_SPI_IRQM_PING1_USER          (28)
#define HS_SPI_IRQM_PING1_USER_MASK __mask(31, HS_SPI_IRQM_PING1_USER)
#define HS_SPI_IRQM_PING0_USER          (24)
#define HS_SPI_IRQM_PING0_USER_MASK __mask(27, HS_SPI_IRQM_PING0_USER)

#define HS_SPI_IRQM_PING1_CTRL_INV      (1 << 12)
#define HS_SPI_IRQM_PING1_POLL_TOUT     (1 << 11)
#define HS_SPI_IRQM_PING1_TX_UNDER      (1 << 10)
#define HS_SPI_IRQM_PING1_RX_OVER       (1 << 9)
#define HS_SPI_IRQM_PING1_CMD_DONE      (1 << 8)
                                        
#define HS_SPI_IRQM_PING0_CTRL_INV      (1 << 4)
#define HS_SPI_IRQM_PING0_POLL_TOUT     (1 << 3)
#define HS_SPI_IRQM_PING0_TX_UNDER      (1 << 2)
#define HS_SPI_IRQM_PING0_RX_OVER       (1 << 1)
#define HS_SPI_IRQM_PING0_CMD_DONE      (1 << 0)

#define HS_SPI_INTR_CLEAR_ALL           (0xFF001F1F)

  uint32    hs_spiFlashCtrl;            // 0x0014
#define HS_SPI_FCTRL_MB_ENABLE          (23)
#define HS_SPI_FCTRL_SS_NUM             (20)
#define HS_SPI_FCTRL_SS_NUM_MASK        __mask(22, HS_SPI_FCTRL_SS_NUM)
#define HS_SPI_FCTRL_PROFILE_NUM        (16)
#define HS_SPI_FCTRL_PROFILE_NUM_MASK   __mask(18, HS_SPI_FCTRL_PROFILE_NUM)
#define HS_SPI_FCTRL_DUMMY_BYTES        (10)
#define HS_SPI_FCTRL_DUMMY_BYTES_MASK   __mask(11, HS_SPI_FCTRL_DUMMY_BYTES)
#define HS_SPI_FCTRL_ADDR_BYTES         (8)
#define HS_SPI_FCTRL_ADDR_BYTES_MASK    __mask(9, HS_SPI_FCTRL_ADDR_BYTES)
#define HS_SPI_FCTRL_ADDR_BYTES_2       (0)
#define HS_SPI_FCTRL_ADDR_BYTES_3       (1)
#define HS_SPI_FCTRL_ADDR_BYTES_4       (2)
#define HS_SPI_FCTRL_READ_OPCODE        (0)
#define HS_SPI_FCTRL_READ_OPCODE_MASK   __mask(7, HS_SPI_FCTRL_READ_OPCODE)

  uint32    hs_spiFlashAddrBase;        // 0x0018

} HsSpiControl;

typedef struct HsSpiPingPong {

    uint32 command;
#define HS_SPI_SS_NUM (12)
#define ZSI_SPI_DEV_ID 7 // SS_N[7] connected to APM/PCM block for use by MSIF/ZDS interfaces
#define HS_SPI_PROFILE_NUM (8)
#define HS_SPI_TRIGGER_NUM (4)
#define HS_SPI_COMMAND_VALUE (0)
    #define HS_SPI_COMMAND_NOOP (0)
    #define HS_SPI_COMMAND_START_NOW (1)
    #define HS_SPI_COMMAND_START_TRIGGER (2)
    #define HS_SPI_COMMAND_HALT (3)
    #define HS_SPI_COMMAND_FLUSH (4)

    uint32 status;
#define HS_SPI_ERROR_BYTE_OFFSET (16)
#define HS_SPI_WAIT_FOR_TRIGGER (2)
#define HS_SPI_SOURCE_BUSY (1)
#define HS_SPI_SOURCE_GNT (0)

    uint32 fifo_status;
    uint32 control;
    uint32 PingPongReserved[12];
} HsSpiPingPong;

typedef struct HsSpiProfile {

    uint32 clk_ctrl;
#define HS_SPI_ACCUM_RST_ON_LOOP    (15)
#define HS_SPI_SPI_CLK_2X_SEL       (14)
#define HS_SPI_FREQ_CTRL_WORD       (0)

    uint32 signal_ctrl;
#define	HS_SPI_ASYNC_INPUT_PATH     (1 << 16)
#define	HS_SPI_LAUNCH_RISING        (1 << 13)
#define	HS_SPI_LATCH_RISING         (1 << 12)

    uint32 mode_ctrl;
#define HS_SPI_PREPENDBYTE_CNT      (24)
#define HS_SPI_MODE_ONE_WIRE        (20)
#define HS_SPI_MULTIDATA_WR_SIZE    (18)
#define HS_SPI_MULTIDATA_RD_SIZE    (16)
#define HS_SPI_MULTIDATA_WR_STRT    (12)
#define HS_SPI_MULTIDATA_RD_STRT    (8)
#define HS_SPI_FILLBYTE             (0)

    uint32 polling_config;
    uint32 polling_and_mask;
    uint32 polling_compare;
    uint32 polling_timeout;
    uint32 reserved;

} HsSpiProfile;

#define HS_SPI_OP_CODE 13
    #define HS_SPI_OP_SLEEP         (0)
    #define HS_SPI_OP_READ_WRITE    (1)
    #define HS_SPI_OP_WRITE         (2)
    #define HS_SPI_OP_READ          (3)
    #define HS_SPI_OP_SETIRQ        (4)

#define HS_SPI ((volatile HsSpiControl * const) HSSPIM_BASE)
#define HS_SPI_PINGPONG0 ((volatile HsSpiPingPong * const) (HSSPIM_BASE+0x80))
#define HS_SPI_PINGPONG1 ((volatile HsSpiPingPong * const) (HSSPIM_BASE+0xc0))
#define HS_SPI_PROFILES  ((volatile HsSpiProfile * const) (HSSPIM_BASE+0x100))
#define HS_SPI_FIFO0     ((volatile uint8 * const) (HSSPIM_BASE+0x200))
#define HS_SPI_FIFO1     ((volatile uint8 * const) (HSSPIM_BASE+0x400))


typedef struct NandCtrlRegs {
    uint32 NandRevision;        /* 0x00 */
    uint32 NandCmdStart;        /* 0x04 */
#define NCMD_MASK               0x0000001f
#define NCMD_BLOCK_ERASE_MULTI  0x15
#define NCMD_PROGRAM_PAGE_MULTI 0x13
#define NCMD_STS_READ_MULTI     0x12
#define NCMD_PAGE_READ_MULTI    0x11
#define NCMD_LOW_LEVEL_OP       0x10
#define NCMD_PARAM_CHG_COL      0x0f
#define NCMD_PARAM_READ         0x0e
#define NCMD_BLK_LOCK_STS       0x0d
#define NCMD_BLK_UNLOCK         0x0c
#define NCMD_BLK_LOCK_DOWN      0x0b
#define NCMD_BLK_LOCK           0x0a
#define NCMD_FLASH_RESET        0x09
#define NCMD_BLOCK_ERASE        0x08
#define NCMD_DEV_ID_READ        0x07
#define NCMD_COPY_BACK          0x06
#define NCMD_PROGRAM_SPARE      0x05
#define NCMD_PROGRAM_PAGE       0x04
#define NCMD_STS_READ           0x03
#define NCMD_SPARE_READ         0x02
#define NCMD_PAGE_READ          0x01

    uint32 NandCmdExtAddr;      /* 0x08 */
    uint32 NandCmdAddr;         /* 0x0c */
    uint32 NandCmdEndAddr;      /* 0x10 */
    uint32 NandIntfcStatus;     /* 0x14 */
#define NIS_CTLR_READY          (1 << 31)
#define NIS_FLASH_READY         (1 << 30)
#define NIS_CACHE_VALID         (1 << 29)
#define NIS_SPARE_VALID         (1 << 28)
#define NIS_FLASH_STS_MASK      0x000000ff
#define NIS_WRITE_PROTECT       0x00000080
#define NIS_DEV_READY           0x00000040
#define NIS_PGM_ERASE_ERROR     0x00000001


    uint32 NandNandBootConfig;  /* 0x18 */
#define NBC_CS_LOCK             (1 << 31)
#define NBC_AUTO_DEV_ID_CFG     (1 << 30)
#define NBC_WR_PROT_BLK0        (1 << 28)
#define NBC_EBI_CS7_USES_NAND   (1<<15)
#define NBC_EBI_CS6_USES_NAND   (1<<14)
#define NBC_EBI_CS5_USES_NAND   (1<<13)
#define NBC_EBI_CS4_USES_NAND   (1<<12)
#define NBC_EBI_CS3_USES_NAND   (1<<11)
#define NBC_EBI_CS2_USES_NAND   (1<<10)
#define NBC_EBI_CS1_USES_NAND   (1<< 9)
#define NBC_EBI_CS0_USES_NAND   (1<< 8)
#define NBC_EBC_CS7_SEL         (1<< 7)
#define NBC_EBC_CS6_SEL         (1<< 6)
#define NBC_EBC_CS5_SEL         (1<< 5)
#define NBC_EBC_CS4_SEL         (1<< 4)
#define NBC_EBC_CS3_SEL         (1<< 3)
#define NBC_EBC_CS2_SEL         (1<< 2)
#define NBC_EBC_CS1_SEL         (1<< 1)
#define NBC_EBC_CS0_SEL         (1<< 0)

    uint32 NandCsNandXor;           /* 0x1c */
    uint32 NandLlOpNand;            /* 0x20 */
    uint32 NandMplaneBaseExtAddr;   /* 0x24 */
    uint32 NandMplaneBaseAddr;      /* 0x28 */
    uint32 NandReserved1[9];        /* 0x2c-0x4f */
    uint32 NandAccControl;          /* 0x50 */
#define NAC_RD_ECC_EN           (1 << 31)
#define NAC_WR_ECC_EN           (1 << 30)
#define NAC_CE_CARE_EN          (1 << 28)
#define NAC_RD_ERASED_ECC_EN    (1 << 27)
#define NAC_PARTIAL_PAGE_EN     (1 << 26)
#define NAC_WR_PREEMPT_EN       (1 << 25)
#define NAC_PAGE_HIT_EN         (1 << 24)
#define NAC_PREFETCH_EN         (1 << 23)
#define NAC_CACHE_MODE_EN       (1 << 22)
#define NAC_ECC_LVL_SHIFT       16
#define NAC_ECC_LVL_MASK        0x001f0000
#define NAC_ECC_LVL_DISABLE     0
#define NAC_ECC_LVL_BCH_1       1
#define NAC_ECC_LVL_BCH_2       2
#define NAC_ECC_LVL_BCH_3       3
#define NAC_ECC_LVL_BCH_4       4
#define NAC_ECC_LVL_BCH_5       5
#define NAC_ECC_LVL_BCH_6       6
#define NAC_ECC_LVL_BCH_7       7
#define NAC_ECC_LVL_BCH_8       8
#define NAC_ECC_LVL_BCH_9       9
#define NAC_ECC_LVL_BCH_10      10
#define NAC_ECC_LVL_BCH_11      11
#define NAC_ECC_LVL_BCH_12      12
#define NAC_ECC_LVL_BCH_13      13
#define NAC_ECC_LVL_BCH_14      14
#define NAC_ECC_LVL_HAMMING     15  /* Hamming if spare are size = 16, BCH15 otherwise */
#define NAC_ECC_LVL_BCH15       15
#define NAC_ECC_LVL_BCH_16      16
#define NAC_ECC_LVL_BCH_17      17
/* BCH18 to 30 for sector size = 1K. To be added when we need it */
#define NAC_SECTOR_SIZE_1K      (1 << 7)
#define NAC_SPARE_SZ_SHIFT      0
#define NAC_SPARE_SZ_MASK       0x0000007f

    uint32 NandConfigExt;       /* 0x54 */ /* Nand Flash Config Ext*/
#define NC_BLK_SIZE_MASK        (0xff << 4)
#define NC_BLK_SIZE_8192K       (0xa << 4)
#define NC_BLK_SIZE_4096K       (0x9 << 4)
#define NC_BLK_SIZE_2048K       (0x8 << 4)
#define NC_BLK_SIZE_1024K       (0x7 << 4)
#define NC_BLK_SIZE_512K        (0x6 << 4)
#define NC_BLK_SIZE_256K        (0x5 << 4)
#define NC_BLK_SIZE_128K        (0x4 << 4)
#define NC_BLK_SIZE_64K         (0x3 << 4)
#define NC_BLK_SIZE_32K         (0x2 << 4)
#define NC_BLK_SIZE_16K         (0x1 << 4)
#define NC_BLK_SIZE_8K          (0x0 << 4)
#define NC_PG_SIZE_MASK         (0xf << 0)
#define NC_PG_SIZE_16K          (0x5 << 0)
#define NC_PG_SIZE_8K           (0x4 << 0)
#define NC_PG_SIZE_4K           (0x3 << 0)
#define NC_PG_SIZE_2K           (0x2 << 0)
#define NC_PG_SIZE_1K           (0x1 << 0)
#define NC_PG_SIZE_512B         (0x0 << 0)

    uint32 NandConfig;          /* 0x58 */ /* Nand Flash Config */
#define NC_CONFIG_LOCK          (1 << 31)
#define NC_DEV_SIZE_SHIFT       24
#define NC_DEV_SIZE_MASK        (0x0f << NC_DEV_SIZE_SHIFT)
#define NC_DEV_WIDTH_MASK       (1 << 23)
#define NC_DEV_WIDTH_16         (1 << 23)
#define NC_DEV_WIDTH_8          (0 << 23)
#define NC_FUL_ADDR_SHIFT       16
#define NC_FUL_ADDR_MASK        (0x7 << NC_FUL_ADDR_SHIFT)
#define NC_BLK_ADDR_SHIFT       8
#define NC_BLK_ADDR_MASK        (0x07 << NC_BLK_ADDR_SHIFT)

    uint32 NandTiming1;         /* 0x5c */ /* Nand Flash Timing Parameters 1 */
#define NT_TREH_MASK        0x000f0000
#define NT_TREH_SHIFT       16
#define NT_TRP_MASK         0x00f00000
#define NT_TRP_SHIFT        20
    uint32 NandTiming2;         /* 0x60 */ /* Nand Flash Timing Parameters 2 */
#define NT_TREAD_MASK       0x0000000f
#define NT_TREAD_SHIFT      0
    /* 0x64 */
    uint32 NandAccControlCs1;   /* Nand Flash Access Control */
    uint32 NandConfigExtCs1;    /* Nand Flash Config Ext*/
    uint32 NandConfigCs1;       /* Nand Flash Config */
    uint32 NandTiming1Cs1;      /* Nand Flash Timing Parameters 1 */
    uint32 NandTiming2Cs1;      /* Nand Flash Timing Parameters 2 */
    /* 0x78 */
    uint32 NandAccControlCs2;   /* Nand Flash Access Control */
    uint32 NandConfigExtCs2;    /* Nand Flash Config Ext*/
    uint32 NandConfigCs2;       /* Nand Flash Config */
    uint32 NandTiming1Cs2;      /* Nand Flash Timing Parameters 1 */
    uint32 NandTiming2Cs2;      /* Nand Flash Timing Parameters 2 */
    /* 0x8c */
    uint32 NandAccControlCs3;   /* Nand Flash Access Control */
    uint32 NandConfigExtCs3;    /* Nand Flash Config Ext*/
    uint32 NandConfigCs3;       /* Nand Flash Config */
    uint32 NandTiming1Cs3;      /* Nand Flash Timing Parameters 1 */
    uint32 NandTiming2Cs3;      /* Nand Flash Timing Parameters 2 */
    /* 0xa0 */
    uint32 NandAccControlCs4;   /* Nand Flash Access Control */
    uint32 NandConfigExtCs4;    /* Nand Flash Config Ext*/
    uint32 NandConfigCs4;       /* Nand Flash Config */
    uint32 NandTiming1Cs4;      /* Nand Flash Timing Parameters 1 */
    uint32 NandTiming2Cs4;      /* Nand Flash Timing Parameters 2 */
    /* 0xb4 */
    uint32 NandAccControlCs5;   /* Nand Flash Access Control */
    uint32 NandConfigExtCs5;    /* Nand Flash Config Ext*/
    uint32 NandConfigCs5;       /* Nand Flash Config */
    uint32 NandTiming1Cs5;      /* Nand Flash Timing Parameters 1 */
    uint32 NandTiming2Cs5;      /* Nand Flash Timing Parameters 2 */
    /* 0xc8 */
    uint32 NandAccControlCs6;   /* Nand Flash Access Control */
    uint32 NandConfigExtCs6;    /* Nand Flash Config Ext*/
    uint32 NandConfigCs6;       /* Nand Flash Config */
    uint32 NandTiming1Cs6;      /* Nand Flash Timing Parameters 1 */
    uint32 NandTiming2Cs6;      /* Nand Flash Timing Parameters 2 */

    /* 0xdc */
    uint32 NandCorrStatThreshold;       /* Correctable Error Reporting Threshold */
    uint32 NandCorrStatThresholdExt;    /* Correctable Error Reporting Threshold */
    uint32 NandBlkWrProtect;            /* Block Write Protect Enable and Size */
                                        /*   for EBI_CS0b */
    uint32 NandMplaneOpcode1;

    /* 0xec */
    uint32 NandMplaneOpcode2;
    uint32 NandMplaneCtrl;
    uint32 NandReserved2[2];            /* 0xf4-0xfb */
    uint32 NandUncorrErrorCount;        /* 0xfc */

    /* 0x100 */
    uint32 NandCorrErrorCount;
    uint32 NandReadErrorCount;      /* Read Error Count */
    uint32 NandBlockLockStatus;     /* Nand Flash Block Lock Status */
    uint32 NandEccCorrExtAddr;      /* ECC Correctable Error Extended Address*/
    /* 0x110 */                     
    uint32 NandEccCorrAddr;         /* ECC Correctable Error Address */
    uint32 NandEccUncExtAddr;       /* ECC Uncorrectable Error Extended Addr */
    uint32 NandEccUncAddr;          /* ECC Uncorrectable Error Address */
    uint32 NandFlashReadExtAddr;    /* Flash Read Data Extended Address */
    /* 0x120 */                     
    uint32 NandFlashReadAddr;       /* Flash Read Data Address */
    uint32 NandProgramPageExtAddr;  /* Page Program Extended Address */
    uint32 NandProgramPageAddr;     /* Page Program Address */
    uint32 NandCopyBackExtAddr;     /* Copy Back Extended Address */
    /* 0x130 */
    uint32 NandCopyBackAddr;        /* Copy Back Address */
    uint32 NandBlockEraseExtAddr;   /* Block Erase Extended Address */
    uint32 NandBlockEraseAddr;      /* Block Erase Address */
    uint32 NandInvReadExtAddr;      /* Flash Invalid Data Extended Address */
    /* 0x140 */
    uint32 NandInvReadAddr;         /* Flash Invalid Data Address */
    uint32 NandInitStatus;
    uint32 NandOnfiStatus;          /* ONFI Status */
    uint32 NandOnfiDebugData;       /* ONFI Debug Data */

    uint32 NandSemaphore;           /* 0x150 */ /* Semaphore */
    uint32 NandReserved3[16];       /* 0x154-0x193 */

    /* 0x194 */
    uint32 NandFlashDeviceId;       /* Nand Flash Device ID */
    uint32 NandFlashDeviceIdExt;    /* Nand Flash Extended Device ID */
    uint32 NandLlRdData;            /* Nand Flash Low Level Read Data */

    uint32 NandReserved4[24];       /* 0x1a0 - 0x1ff */

    /* 0x200 */
    uint32 NandSpareAreaReadOfs0;   /* Nand Flash Spare Area Read Bytes 0-3 */
    uint32 NandSpareAreaReadOfs4;   /* Nand Flash Spare Area Read Bytes 4-7 */
    uint32 NandSpareAreaReadOfs8;   /* Nand Flash Spare Area Read Bytes 8-11 */
    uint32 NandSpareAreaReadOfsC;   /* Nand Flash Spare Area Read Bytes 12-15*/
    /* 0x210 */
    uint32 NandSpareAreaReadOfs10;  /* Nand Flash Spare Area Read Bytes 16-19 */
    uint32 NandSpareAreaReadOfs14;  /* Nand Flash Spare Area Read Bytes 20-23 */
    uint32 NandSpareAreaReadOfs18;  /* Nand Flash Spare Area Read Bytes 24-27 */
    uint32 NandSpareAreaReadOfs1C;  /* Nand Flash Spare Area Read Bytes 28-31*/
    /* 0x220 */
    uint32 NandSpareAreaReadOfs20;  /* Nand Flash Spare Area Read Bytes 32-35 */
    uint32 NandSpareAreaReadOfs24;  /* Nand Flash Spare Area Read Bytes 36-39 */
    uint32 NandSpareAreaReadOfs28;  /* Nand Flash Spare Area Read Bytes 40-43 */
    uint32 NandSpareAreaReadOfs2C;  /* Nand Flash Spare Area Read Bytes 44-47*/
    /* 0x230 */
    uint32 NandSpareAreaReadOfs30;  /* Nand Flash Spare Area Read Bytes 48-51 */
    uint32 NandSpareAreaReadOfs34;  /* Nand Flash Spare Area Read Bytes 52-55 */
    uint32 NandSpareAreaReadOfs38;  /* Nand Flash Spare Area Read Bytes 56-59 */
    uint32 NandSpareAreaReadOfs3C;  /* Nand Flash Spare Area Read Bytes 60-63*/

    uint32 NandReserved5[16];       /* 0x240-0x27f */

    /* 0x280 */
    uint32 NandSpareAreaWriteOfs0;  /* Nand Flash Spare Area Write Bytes 0-3 */
    uint32 NandSpareAreaWriteOfs4;  /* Nand Flash Spare Area Write Bytes 4-7 */
    uint32 NandSpareAreaWriteOfs8;  /* Nand Flash Spare Area Write Bytes 8-11 */
    uint32 NandSpareAreaWriteOfsC;  /* Nand Flash Spare Area Write Bytes 12-15 */
    /* 0x290 */
    uint32 NandSpareAreaWriteOfs10; /* Nand Flash Spare Area Write Bytes 16-19 */
    uint32 NandSpareAreaWriteOfs14; /* Nand Flash Spare Area Write Bytes 20-23 */
    uint32 NandSpareAreaWriteOfs18; /* Nand Flash Spare Area Write Bytes 24-27 */
    uint32 NandSpareAreaWriteOfs1C; /* Nand Flash Spare Area Write Bytes 28-31 */
    /* 0x2a0 */
    uint32 NandSpareAreaWriteOfs20; /* Nand Flash Spare Area Write Bytes 32-35 */
    uint32 NandSpareAreaWriteOfs24; /* Nand Flash Spare Area Write Bytes 36-39 */
    uint32 NandSpareAreaWriteOfs28; /* Nand Flash Spare Area Write Bytes 40-43 */
    uint32 NandSpareAreaWriteOfs2C; /* Nand Flash Spare Area Write Bytes 44-47 */
    /* 0x2b0 */
    uint32 NandSpareAreaWriteOfs30; /* Nand Flash Spare Area Write Bytes 48-51 */
    uint32 NandSpareAreaWriteOfs34; /* Nand Flash Spare Area Write Bytes 52-55 */
    uint32 NandSpareAreaWriteOfs38; /* Nand Flash Spare Area Write Bytes 56-59 */
    uint32 NandSpareAreaWriteOfs3C; /* Nand Flash Spare Area Write Bytes 60-63 */
    /* 0x2c0 */
    uint32 NandDdrTiming;
    uint32 NandDdrNcdlCalibCtl;
    uint32 NandDdrNcdlCalibPeriod;
    uint32 NandDdrNcdlCalibStat;
    /* 0x2d0 */
    uint32 NandDdrNcdlMode;
    uint32 NandDdrNcdlOffset;
    uint32 NandDdrPhyCtl;
    uint32 NandDdrPhyBistCtl;
    /* 0x2e0 */
    uint32 NandDdrPhyBistStat;
    uint32 NandDdrDiagStat0;
    uint32 NandDdrDiagStat1;
    uint32 NandReserved6[69];       /* 0x2ec-0x3ff */

    /* 0x400 */
    uint32 NandFlashCache[128];     /* 0x400-0x5ff */
} NandCtrlRegs;

/*
 * ** NAND Interrupt Controller Registers
 * */
typedef struct NandIntrCtrlRegs {
    uint32 NandInterrupt;
#define NINT_STS_MASK           0x00000fff
#define NINT_ECC_ERROR_CORR_SEC 0x00000800
#define NINT_ECC_ERROR_UNC_SEC  0x00000400
#define NINT_CTRL_READY_SEC     0x00000200
#define NINT_INV_ACC_SEC        0x00000100
#define NINT_ECC_ERROR_CORR     0x00000080
#define NINT_ECC_ERROR_UNC      0x00000040
#define NINT_DEV_RBPIN          0x00000020
#define NINT_CTRL_READY         0x00000010
#define NINT_PAGE_PGM           0x00000008
#define NINT_COPY_BACK          0x00000004
#define NINT_BLOCK_ERASE        0x00000002
#define NINT_NP_READ            0x00000001
    uint32 NandInterruptEn;
#define NINT_ENABLE_MASK        0x0000ffff
    uint32 NandBaseAddr0;   /* Default address when booting from NAND flash */
    uint32 NandBaseAddr1;   /* Secondary base address for NAND flash */
} NandIntrCtrlRegs;

#define NAND_INTR ((volatile NandIntrCtrlRegs * const) NAND_INTR_BASE)
#define NAND ((volatile NandCtrlRegs * const) NAND_REG_BASE)
#define NAND_CACHE ((volatile uint8 * const) NAND_CACHE_BASE)

typedef struct UsimBase {

    uint32 UsimScr;  		//sim Control Register 
    uint32 UsimSsr;  		//sim Status Register 
    uint32 UsimSdr;  		//sim Data Register 
    uint32 UsimSier;  		//siM Interrupt Enable Register 
    uint32 UsimSfcr;  		//siM FIFO Control Register 
    uint32 UsimSecgtr;  	//SIM Extra Character Guard Time Register 
    uint32 UsimStgtr;  		//sIM Turnaround Guard Time Register 
    uint32 UsimSgccr;  		//sIM Generic Counter Compare Register 
    uint32 UsimSgcvr;  		//sIM Generic Counter Value Register 
    uint32 UsimScdr;  		//siM Clock Divide Register 
    uint32 UsimSfdrr;  		//sIM F/D Ratio Register 
    uint32 UsimSesr;  		//siM Extra Sample Register 
    uint32 UsimSimdebug;	//SIM Debug Register 
    uint32 UsimSrtor;  		//sIM Received Time Out Register 
    uint32 UsimReserved[4];                        
    uint32 UsimSipver;  	//SIM Controller IP version - 0x4c 
    uint32 Usim_control;
    uint32 UsimPadControl;
    uint32 UsimReserved1[2];                        
    uint32 UsimSesdcr;  	//SIM Card Detection and Emergency Shutdown Control Register - 0x60 
    uint32 UsimSesdisr;  	//SIM Card Detection and Emergency Shutdown Interrupt Status Register 
    uint32 UsimScardsr;  	//SIM Card Status Control and Status Register 
    uint32 UsimSldocr;  	//SIM LDO Controler Register 
} UsimBase;
#define USIM ((volatile UsimBase * const) USIM_BASE)


#define MDIO ((volatile MDIOBase * const) MDIO_BASE)

#if defined(_ATF_)
/*
 * Power Management Control
 */
typedef struct PmcCtrlReg {
    uint32 gpTmr0Ctl;           /* 0x018 */
    uint32 gpTmr0Cnt;           /* 0x01c */
    uint32 gpTmr1Ctl;           /* 0x020 */
    uint32 gpTmr1Cnt;           /* 0x024 */
    uint32 hostMboxIn;          /* 0x028 */
    uint32 hostMboxOut;         /* 0x02c */
    uint32 reserved[4];         /* 0x030 */
    uint32 dmaCtrl;             /* 0x040 */
    uint32 dmaStatus;           /* 0x044 */
    uint32 dma0_3FifoStatus;    /* 0x048 */
    uint32 reserved1[4];	    /* 0x04c */
    uint32 diagControl;         /* 0x05c */
    uint32 diagHigh;            /* 0x060 */
    uint32 diagLow;             /* 0x064 */
    uint32 reserved8;           /* 0x068 */
    uint32 addr1WndwMask;       /* 0x06c */
    uint32 addr1WndwBaseIn;     /* 0x070 */
    uint32 addr1WndwBaseOut;    /* 0x074 */
    uint32 addr2WndwMask;       /* 0x078 */
    uint32 addr2WndwBaseIn;     /* 0x07c */
    uint32 addr2WndwBaseOut;    /* 0x080 */
    uint32 scratch;             /* 0x084 */
    uint32 reserved9;           /* 0x088 */
    uint32 softResets;          /* 0x08c */
    uint32 reserved2;           /* 0x090 */
    uint32 m4keCoreStatus;      /* 0x094 */
    uint32 reserved3;           /* 0x098 */
    uint32 ubSlaveTimeout;      /* 0x09c */
    uint32 diagEn;              /* 0x0a0 */
    uint32 devTimeout;          /* 0x0a4 */
    uint32 ubusErrorOutMask;    /* 0x0a8 */
    uint32 diagCaptStopMask;    /* 0x0ac */
    uint32 revId;               /* 0x0b0 */
    uint32 gpTmr2Ctl;           /* 0x0b4 */
    uint32 gpTmr2Cnt;           /* 0x0b8 */
    uint32 reserved4[2];        /* 0x0bc */
    uint32 diagCtrl;            /* 0x0c4 */
    uint32 diagStat;            /* 0x0c8 */
    uint32 diagMask;            /* 0x0cc */
    uint32 diagRslt;            /* 0x0d0 */
    uint32 diagCmp;             /* 0x0d4 */
    uint32 diagCapt;            /* 0x0d8 */    
    uint32 diagCnt;             /* 0x0dc */
    uint32 diagEdgeCnt;         /* 0x0e0 */
    uint32 reserved5[4];	    /* 0x0e4 */
    uint32 smisc_bus_config;    /* 0x0f4 */
    uint32 lfsr;                /* 0x0f8 */
    uint32 dqm_pac_lock;        /* 0x0fc */
    uint32 l1_irq_4ke_mask;     /* 0x100 */
    uint32 l1_irq_4ke_status;   /* 0x104 */
    uint32 l1_irq_mips_mask;    /* 0x108 */
    uint32 l1_irq_mips_status;  /* 0x10c */
    uint32 l1_irq_mips1_mask;   /* 0x110 */
    uint32 reserved6[3];        /* 0x114 */
    uint32 l2_irq_gp_mask;      /* 0x120 */
    uint32 l2_irq_gp_status;    /* 0x124 */
    uint32 l2_irq_gp_set;       /* 0x128 */
    uint32 reserved7;           /* 0x12c */
    uint32 gp_in_irq_mask;      /* 0x130 */
    uint32 gp_in_irq_status;    /* 0x134 */
    uint32 gp_in_irq_set;       /* 0x138 */
    uint32 gp_in_irq_sense;     /* 0x13c */
    uint32 gp_in;               /* 0x140 */
    uint32 gp_out;              /* 0x144 */
} PmcCtrlReg;

typedef struct PmcDmaReg {
	/* 0x00 */
	uint32 src;
	uint32 dest;
	uint32 cmdList;
	uint32 lenCtl;
	/* 0x10 */
	uint32 rsltSrc;
	uint32 rsltDest;
	uint32 rsltHcs;
	uint32 rsltLenStat;
} PmcDmaReg;

typedef struct PmcTokenReg {
	/* 0x00 */
	uint32 bufSize;
	uint32 bufBase;
	uint32 idx2ptrIdx;
	uint32 idx2ptrPtr;
	/* 0x10 */
	uint32 unused[2];
	uint32 bufSize2;
} PmcTokenReg;

typedef struct PmcPerfPowReg {
	uint32 freqScalarCtrl; /* 0x3c */
	uint32 freqScalarMask; /* 0x40 */
} PmcPerfPowReg;

typedef struct PmcDQMPac {
    uint32 dqmPac[32];
} PmcDQMPac;

typedef struct PmcDQMReg {
	uint32 cfg;                     /* 0x1c00 */
	uint32 _4keLowWtmkIrqMask;      /* 0x1c04 */
	uint32 mipsLowWtmkIrqMask;      /* 0x1c08 */
	uint32 lowWtmkIrqMask;          /* 0x1c0c */
	uint32 _4keNotEmptyIrqMask;     /* 0x1c10 */
	uint32 mipsNotEmptyIrqMask;     /* 0x1c14 */
	uint32 notEmptyIrqSts;          /* 0x1c18 */
	uint32 queueRst;                /* 0x1c1c */
	uint32 notEmptySts;             /* 0x1c20 */
	uint32 nextAvailMask;           /* 0x1c24 */
	uint32 nextAvailQueue;          /* 0x1c28 */
	uint32 mips1LowWtmkIrqMask;     /* 0x1c2c */
	uint32 mips1NotEmptyIrqMask;    /* 0x1c30 */
	uint32 autoSrcPidInsert;        /* 0x1c34 */
    uint32 timerIrqStatus;          /* 0x1c38 */
    uint32 timerStatus;             /* 0x1c3c */
    uint32 _4keTimerIrqMask;        /* 0x1c40 */
    uint32 mipsTimerIrqMask;        /* 0x1c44 */
    uint32 mips1TimerIrqMask;       /* 0x1c48 */
} PmcDQMReg;

typedef struct PmcCntReg {
	uint32 cntr[10];
	uint32 unused[6];	/* 0x28-0x3f */
	uint32 cntrIrqMask;
	uint32 cntrIrqSts;
} PmcCntReg;

typedef struct PmcDqmQCtrlReg {
	uint32 size;
	uint32 cfga;
	uint32 cfgb;
	uint32 cfgc;
} PmcDqmQCtrlReg;

typedef struct PmcDqmQDataReg {
	uint32 word[4];
} PmcDqmQDataReg;

typedef struct PmcDqmQMibReg {
	uint32 qNumFull[32];
	uint32 qNumEmpty[32];
	uint32 qNumPushed[32];
} PmcDqmQMibReg;

typedef struct SSBMaster {
    uint32 ssbmControl;     /* 0x0060 */
    uint32 ssbmWrData;      /* 0x0064 */
    uint32 ssbmRdData;      /* 0x0068 */
    uint32 ssbmStatus;      /* 0x006c */
} SSBMaster;

typedef struct PmmReg {
    uint32 memPowerCtrl;            /* 0x0000 */
    uint32 regSecurityConfig;       /* 0x0004 */
} PmmReg;

typedef struct keyholeReg {
    uint32 ctrlSts;
    uint32 wrData;
    uint32 mutex;
    uint32 rdData;
} keyholeReg;

typedef struct PmbBus {
    uint32 config;          /* 0x0100 */
    uint32 arbiter;         /* 0x0104 */
    uint32 timeout;         /* 0x0108 */
    uint32 unused1;         /* 0x010c */
    keyholeReg keyhole[4];  /* 0x0110-0x014f */
    uint32 unused2[44];     /* 0x0150-0x01ff */
    uint32 map[64];         /* 0x0200-0x02ff */ 
}PmbBus;

typedef struct  CoreCtrl {
    uint32  coreEnable;         /* 0x0400 */
    uint32  autoresetControl;   /* 0x0404 */
    uint32  coreIdle;           /* 0x0408 */
    uint32  coreResetCause;     /* 0x040c */
    uint32  memPwrDownCtrl0;    /* 0x0410 */
    uint32  memPwrDownSts0;     /* 0x0414 */
    uint32  memPwrDownCtrl1;    /* 0x0418 */
    uint32  memPwrDownSts1;     /* 0x041c */
    uint32  sysFlg0Status;      /* 0x0420 */
    uint32  sysFlg0Set;         /* 0x0424 */
    uint32  sysFlg0Clear;       /* 0x0428 */
    uint32  unused1;            /* 0x042c */
    uint32  usrFlg0Status;      /* 0x0430 */
    uint32  usrFlg0Set;         /* 0x0434 */
    uint32  usrFlg0Clear;       /* 0x0438 */
    uint32  unused2;            /* 0x043c */
    uint32  subsystemRev;       /* 0x0440 */
    uint32  resetVector;        /* 0x0444 */
} CoreCtrl;

typedef struct  CoreState {
    uint32  sysMbx[8];          /* 0x0480 */
    uint32  usrMbx[8];          /* 0x04a0 */
    uint32  sysMtx[4];          /* 0x04c0 */
    uint32  usrMtx[8];          /* 0x04d0 */
} CoreState;

typedef struct  CoreIntr {
    uint32  irqStatus;          /* 0x0500 */
    uint32  irqSet;             /* 0x0504 */
    uint32  irqClear;           /* 0x0508 */
    uint32  unused1;            /* 0x050c */
    uint32  srqStatus;          /* 0x0510 */
    uint32  srqSet;             /* 0x0514 */
    uint32  srqClear;           /* 0x0518 */
    uint32  unused2;            /* 0x051c */
    uint32  drqStatus;          /* 0x0520 */
    uint32  drqSet;             /* 0x0524 */
    uint32  drqClear;           /* 0x0528 */
    uint32  unused3;            /* 0x052c */
    uint32  frqStatus;          /* 0x0530 */
    uint32  frqSet;             /* 0x0534 */
    uint32  frqClear;           /* 0x0538 */
    uint32  unused4;            /* 0x053c */
    uint32  hostIrqLatched;     /* 0x0540 */
    uint32  hostIrqSet;         /* 0x0544 */
    uint32  hostIrqClear;       /* 0x0548 */
    uint32  hostIrqEnable;      /* 0x054c */
    uint32  obusFaultStatus;    /* 0x0550 */
    uint32  obusFaultClear;     /* 0x0554 */
    uint32  obusFaultAddr;      /* 0x0558 */
} CoreIntr;

typedef struct CoreProfile {
    uint32  mutex;              /* 0x0580 */
    uint32  lastConfPcLo;       /* 0x0584 */
    uint32  lastConfPcHi;       /* 0x0588 */
    uint32  lastPcLo;           /* 0x058c */
    uint32  lastPcHi;           /* 0x0590 */
    uint32  braTargetPc0Lo;     /* 0x0594 */
    uint32  braTargetPc0Hi;     /* 0x0598 */
    uint32  braTargetPc1Lo;     /* 0x059c */
    uint32  braTargetPc1Hi;     /* 0x05a0 */
    uint32  braTargetPc2Lo;     /* 0x05a4 */
    uint32  braTargetPc2Hi;     /* 0x05a8 */
    uint32  braTargetPc3Lo;     /* 0x05ac */
    uint32  braTargetPc3Hi;     /* 0x05b0 */
    uint32  unused[3];          /* 0x05b4-0x05bf */
    uint32  profSampleW[4];     /* 0x05c0 */
} CoreProfile;

typedef struct MaestroMisc {
    CoreCtrl coreCtrl;          /* 0x0400 */
    uint32   unused1[14];       /* 0x0448-0x047f */
    CoreState coreState;        /* 0x0480 */
    uint32   unused2[4];        /* 0x04f0-0x04ff */
    CoreIntr interrupt;         /* 0x0500 */
    uint32   unused3[9];        /* 0x055c-0x057f */
    CoreProfile profile;        /* 0x0580 */
} MaestroMisc;

typedef struct Pmc {
    uint32 baseReserved;		        /* 0x0000 */
    uint32 unused0[1029];
    PmcCtrlReg ctrl;		            /* 0x1018 */
    uint32 unused1[174];	            /* 0x1148-0x13ff */
    PmcTokenReg token;		            /* 0x1400 */
    uint32 unused2[136];		        /* 0x141c-0x163b */
    PmcPerfPowReg perfPower;	        /* 0x163c */
    uint32 unused3[175];		        /* 0x1644-0x18ff */
    PmcCntReg hwCounter;		        /* 0x1900 */
    uint32 unused4[110];		        /* 0x1948-0x1aff */
    PmcDQMPac dqmPac;                   /* 0x1b00 */
    uint32 unused5[32];                 /* 0x1b80-0x1bff */
    PmcDQMReg dqm;			            /* 0x1c00 */
    uint32 unused6[749];		        /* 0x1c4c-0x27ff */
    uint32 qStatus[32];		            /* 0x2800 */
    uint32 unused7[480];	            /* 0x2880-0x2fff */
    PmcDqmQMibReg qMib;		            /* 0x3000 */
    uint32 unused8[928];	            /* 0x3180-0x3fff */
    PmcDqmQCtrlReg dqmQCtrl[8]; 	    /* 0x4000 */
    uint32 unused9[992];                /* 0x4080-0x4fff */
    PmcDqmQDataReg dqmQData[8]; 	    /* 0x5000 */
} Pmc;
#define PMC ((volatile Pmc * const) PMC_BASE)

typedef struct Procmon {
    PmmReg  pmm;                        /* 0x20000 */
    uint32 unused11[22];                /* 0x20008-0x2005f */
    SSBMaster ssbMasterCtrl;            /* 0x20060 */
    uint32 unused12[36];                /* 0x20070-0x200ff */
    PmbBus pmb;                         /* 0x20100 */
    uint32 unused13[64];                /* 0x20300-0x203ff */
    MaestroMisc maestroReg;             /* 0x20400 */
} Procmon;
#define PROCMON ((volatile Procmon * const) PROC_MON_BASE)

typedef struct PMSSBMasterControl {
	uint32 control;
	uint32 wr_data;
	uint32 rd_data;
} PMSSBMasterControl;

typedef struct
{
    uint32  control;
#define PMC_PMBM_START		            (1 << 31)
#define PMC_PMBM_TIMEOUT	            (1 << 30)
#define PMC_PMBM_SLAVE_ERR	            (1 << 29)
#define PMC_PMBM_BUSY		            (1 << 28)
#define PMC_PMBM_BUS_SHIFT              (20)
#define PMC_PMBM_Read		            (0 << 24)
#define PMC_PMBM_Write		            (1 << 24)
    uint32  wr_data;
    uint32  mutex;
    uint32  rd_data;
} PMB_keyhole_reg;

typedef struct PMBMaster {
    uint32 config;
#define PMB_NUM_REGS_SHIFT (20)
#define PMB_NUM_REGS_MASK  (0x3ff)
    uint32 arbitger;
    uint32 timeout;
    uint32 reserved;
    PMB_keyhole_reg keyhole[4];
    uint32 reserved1[44];
	uint32 map[64];
} PMBMaster;
#define PMB ((volatile PMBMaster * const) PMB_BASE)
#endif

/*
 * LedControl Register Set Definitions.
 */
typedef struct LedControl {
	uint32 glbCtrl;		                /* 0x00 */
	uint32 mask;		                /* 0x04 */
	uint32 hWLedEn;		                /* 0x08 */
	uint32 serialLedShiftSel;           /* 0x0c */
	uint32 flashRateCtrl[4];	        /* 0x10-0x1c */
	uint32 brightCtrl[4];	            /* 0x20-0x2c */
	uint32 powerLedCfg;	                /* 0x30 */
	uint32 pledLut[2][16];	            /* 0x34-0x70, 0x74-0xb0 */
	uint32 HwPolarity;	                /* 0xb4 */    
	uint32 SwData;		                /* 0xb8 */
	uint32 SwPolarity;	                /* 0xbc */
	uint32 ParallelLedPolarity;	        /* 0xc0 */
	uint32 SerialLedPolarity;	        /* 0xc4 */
	uint32 HwLedStatus;		            /* 0xc8 */
    uint32 FlashCtrlStatus; 
    uint32 BrtCtrlStatus; 
    uint32 ParallelOutStatus; 
    uint32 SerialRegStatus; 
} LedControl;


#define LED ((volatile LedControl * const) LED_BASE)
#define LED_NUM_LEDS       32
#define LED_NUM_TO_MASK(X)       (1 << ((X) & (LED_NUM_LEDS-1)))


#define GPIO_NUM_TO_LED_MODE_SHIFT(X) \
    ((((X) & BP_GPIO_NUM_MASK) < 8) ? (32 + (((X) & BP_GPIO_NUM_MASK) << 1)) : \
    ((((X) & BP_GPIO_NUM_MASK) - 8) << 1))

typedef struct AXIInterface {
   uint32 CFG;					/* 0x00 */
   uint32 REP_ARB_MODE;			/* 0x04 */
   uint32 QUEUE_CFG;            /* 0x08 */
   uint32 ESRCID_CFG;           /* 0x0c */
   uint32 SRC_QUEUE_CTRL[8];    /* 0x10 */
   uint32 SRC_ID_4_QUEUE_CTRL;  /* 0x30 */
   uint32 SCRATCH;              /* 0x34 */
   uint32 debug[2];             /* 0x38 */
} AXIInterface;

typedef struct EDISEngine {
   uint32 REV_ID;             /* 0x00 */
   uint32 CTRL_TRIG;          /* 0x04 */
   uint32 CTRL_MODE;          /* 0x08 */
   uint32 CTRL_SIZE;          /* 0x0c */
   uint32 CTRL_ADDR_START;    /* 0x10 */
   uint32 CTRL_ADDR_START_EXT;/* 0x14 */
   uint32 CTRL_ADDR_END;      /* 0x18 */
   uint32 CTRL_ADDR_END_EXT;  /* 0x1c */
   uint32 CTRL_WRITE_MASKS;   /* 0x20 */
   uint32 CTRL_INT_ENABLES;   /* 0x24 */
   uint32 unused0[6];         /* 0x28-0x3f */
   uint32 STAT_MAIN;          /* 0x40 */
   uint32 STAT_WORDS_WRITTEN; /* 0x44 */
   uint32 STAT_WORDS_READ;    /* 0x48 */
   uint32 STAT_ERROR_COUNT;   /* 0x4c */
   uint32 STAT_ERROR_BITS;    /* 0x50 */
   uint32 STAT_ADDR_LAST;     /* 0x54 */
   uint32 STAT_ADDR_LAST_EXT; /* 0x58 */
   uint32 STAT_CLOCK_CYCLES;  /* 0x5c */
   uint32 unused1[7];         /* 0x60-0x7b */
   uint32 STAT_DEBUG;         /* 0x7c */
   uint32 STAT_DATA_PORT[8];  /* 0x80-0x9c */
   uint32 GEN_LFSR_STATE[4];  /* 0xa0-0xac */
   uint32 GEN_CLOCK;          /* 0xb0 */
   uint32 GEN_PATTERN;        /* 0xb4 */
   uint32 unused2[2];         /* 0xb8-0xbf */
   uint32 BYTELANE_0_CTRL_LO; /* 0xc0 */
   uint32 BYTELANE_0_CTRL_HI; /* 0xc4 */
   uint32 BYTELANE_1_CTRL_LO; /* 0xc8 */
   uint32 BYTELANE_1_CTRL_HI; /* 0xcc */
   uint32 BYTELANE_2_CTRL_LO; /* 0xd0 */
   uint32 BYTELANE_2_CTRL_HI; /* 0xd4 */
   uint32 BYTELANE_3_CTRL_LO; /* 0xd8 */
   uint32 BYTELANE_3_CTRL_HI; /* 0xdc */
   uint32 BYTELANE_0_STAT_LO; /* 0xe0 */
   uint32 BYTELANE_0_STAT_HI; /* 0xe4 */
   uint32 BYTELANE_1_STAT_LO; /* 0xe8 */
   uint32 BYTELANE_1_STAT_HI; /* 0xec */
   uint32 BYTELANE_2_STAT_LO; /* 0xf0 */
   uint32 BYTELANE_2_STAT_HI; /* 0xf4 */
   uint32 BYTELANE_3_STAT_LO; /* 0xf8 */
   uint32 BYTELANE_3_STAT_HI; /* 0xfc */
} EDISEngine;

typedef struct RangeCtrl {
   uint32 CTRL;                /* 0x00 */
   uint32 UBUS0_PORT;          /* 0x04 */
   uint32 UBUS0_PORT_UPPER;    /* 0x08 */
   uint32 BASE;                /* 0x0c */
   uint32 BASE_UPPER;          /* 0x10 */
   uint32 SECLEC_EN;           /* 0x14 */
} RangeCtrl;

typedef struct SecureRangeCheckers {
   uint32 LOCK;            /* 0x00 */
   uint32 LOG_INFO[3];     /* 0x04 - 0x0c */
   RangeCtrl RANGE_CTRL[8];/* 0x10 - 0xcf */
   uint32 unused[12];      /* 0xd0 - 0xff */
} SecureRangeCheckers;

typedef struct MEMCControl {
   uint32 GLB_VERS;               /* 0x000 */
   uint32 GLB_GCFG;               /* 0x004 */
#define MEMC_GLB_GCFG_DRAM_EN_SHIFT        31
#define MEMC_GLB_GCFG_DRAM_EN_MASK         (0x1<<MEMC_GLB_GCFG_DRAM_EN_SHIFT)
#define MEMC_GLB_GCFG_FORCE_SEQ_SHIFT      30
#define MEMC_GLB_GCFG_FORCE_SEQ_MASK       (0x1<<MEMC_GLB_GCFG_FORCE_SEQ_SHIFT)
#define MEMC_GLB_GCFG_FORCE_SEQ2_SHIFT     29
#define MEMC_GLB_GCFG_FORCE_SEQ2_MASK      (1<<MEMC_GLB_GCFG_FORCE_SEQ2_SHIFT)
#define MEMC_GLB_GCFG_RBF_REORDER_SHIFT    28
#define MEMC_GLB_GCFG_RBF_REORDER_MASK     (1<<MEMC_GLB_GCFG_RBF_REORDER_SHIFT)
#define MEMC_GLB_GCFG_PHY_DFI_MODE_SHIFT   24
#define MEMC_GLB_GCFG_PHY_DFI_MODE_MASK    (0x3<<MEMC_GLB_GCFG_PHY_DFI_MODE_SHIFT)
#define MEMC_GLB_GCFG_PHY_DFI_2X           0x0
#define MEMC_GLB_GCFG_PHY_DFI_4X           0x1
#define MEMC_GLB_GCFG_PHY_DFI_8X           0x2
#define MEMC_GLB_GCFG_DFI_EN_SHIFT         10
#define MEMC_GLB_GCFG_DFI_EN_MASK          (0x1<<MEMC_GLB_GCFG_DFI_EN_SHIFT)
#define MEMC_GLB_GCFG_MCLKSRC_SHIFT        9
#define MEMC_GLB_GCFG_MCLKSRC_MASK         (0x1<<MEMC_GLB_GCFG_MCLKSRC_SHIFT)
#define MEMC_GLB_GCFG_MEMINITDONE_SHIFT    8
#define MEMC_GLB_GCFG_MEMINITDONE_MASK     (0x1<<MEMC_GLB_GCFG_MEMINITDONE_SHIFT)
   uint32 GLB_MRQ_CFG;            /* 0x008 */
   uint32 unused0;                /* 0x00c */
   uint32 GLB_FSBL_STATE;         /* 0x010 */
#define MEMC_GLB_FSBL_DRAM_SIZE_SHIFT      0
#define MEMC_GLB_FSBL_DRAM_SIZE_MASK       (0xf << MEMC_GLB_FSBL_DRAM_SIZE_SHIFT)
   uint32 unused1[3];             /* 0x014 - 0x01f */

   uint32 SRAM_REMAP_CTRL;        /* 0x020 */
   uint32 SRAM_REMAP_CTRL_UPPER;  /* 0x024 */
   uint32 SRAM_REMAP_INIT;        /* 0x028 */
   uint32 SRAM_REMAP_LOG_INFO_0;  /* 0x02c */
   uint32 SRAM_REMAP_LOG_INFO_1;  /* 0x030 */
   uint32 SRAM_REMAP_LOG_INFO_2;  /* 0x034 */
   uint32 unused2[2];             /* 0x038-0x03f */

   uint32 RBF_REORDER_0_CFG[16];  /* 0x040 - 0x07f */

   uint32 INTR2_CPU_STATUS;       /* 0x080 */
   uint32 INTR2_CPU_SET;          /* 0x084 */
   uint32 INTR2_CPU_CLEAR;        /* 0x088 */
   uint32 INTR2_CPU_MASK_STATUS;  /* 0x08c */
   uint32 INTR2_CPU_MASK_SET;     /* 0x090 */
   uint32 INTR2_CPU_MASK_CLEAR;   /* 0x094 */
   uint32 unused3[26];            /* 0x098-0x0ff */

   uint32 CHN_CFG_CNFG;           /* 0x100 */
#define MEMC_CHN_CFG_CNFG_CS_MODE_SHIFT            16
#define MEMC_CHN_CFG_CNFG_CS_MODE_MASK             (0x3 << MEMC_CHN_CFG_CNFG_CS_MODE_SHIFT)
   uint32 CHN_CFG_CSST;           /* 0x104 */
   uint32 unused4[2];             /* 0x108-0x10f */
   uint32 CHN_CFG_ROW00_0;        /* 0x110 */
   uint32 CHN_CFG_ROW00_1;        /* 0x114 */
   uint32 CHN_CFG_ROW01_0;        /* 0x118 */
   uint32 CHN_CFG_ROW01_1;        /* 0x11c */
   uint32 CHN_CFG_ROW02_0;        /* 0x120 */
   uint32 CHN_CFG_COL00_0;        /* 0x124 */
   uint32 CHN_CFG_COL00_1;        /* 0x128 */
   uint32 CHN_CFG_COL01_0;        /* 0x12c */
   uint32 CHN_CFG_COL01_1;        /* 0x130 */
   uint32 CHN_CFG_BNK10;          /* 0x134 */
   uint32 CHN_CFG_BG0;            /* 0x138 */
   uint32 unused5;                /* 0x13c */
   uint32 CHN_CFG_DRAM_SZ_CHK;    /* 0x140 */
#define MEMC_CHN_CFG_DRAM_SZ_CHK_SHIFT                          4
#define MEMC_CHN_CFG_DRAM_SZ_CHK_MASK                           (0xf<<MEMC_CHN_CFG_DRAM_SZ_CHK_SHIFT)
   uint32 CHN_CFG_DIAG_SEL;       /* 0x144 */
   uint32 unused6[46];            /* 0x148-0x1ff */

   uint32 CHN_TIM_DCMD;           /* 0x200 */
   uint32 CHN_TIM_DMODE_0;        /* 0x204 */
   uint32 CHN_TIM_DMODE_2;        /* 0x208 */
   uint32 CHN_TIM_CLKS;           /* 0x20c */
#define MEMC_CHN_TIM_CLKS_REF_RATE_SHIFT          8
#define MEMC_CHN_TIM_CLKS_REF_DISABLE_SHIFT       31
   uint32 CHN_TIM_ODT;            /* 0x210 */
   uint32 CHN_TIM_TIM1_0;         /* 0x214 */
/* MC_CHN_TIM :: TIM1_0 :: TIM1_tWL [31:24] */
#define MC_CHN_TIM_TIM1_0_TIM1_tWL_MASK                            0xff000000
#define MC_CHN_TIM_TIM1_0_TIM1_tWL_ALIGN                           0
#define MC_CHN_TIM_TIM1_0_TIM1_tWL_BITS                            8
#define MC_CHN_TIM_TIM1_0_TIM1_tWL_SHIFT                           24
#define MC_CHN_TIM_TIM1_0_TIM1_tWL_DEFAULT                         0x00000004
/* MC_CHN_TIM :: TIM1_0 :: TIM1_tRP [23:16] */
#define MC_CHN_TIM_TIM1_0_TIM1_tRP_MASK                            0x00ff0000
#define MC_CHN_TIM_TIM1_0_TIM1_tRP_ALIGN                           0
#define MC_CHN_TIM_TIM1_0_TIM1_tRP_BITS                            8
#define MC_CHN_TIM_TIM1_0_TIM1_tRP_SHIFT                           16
#define MC_CHN_TIM_TIM1_0_TIM1_tRP_DEFAULT                         0x00000006
/* MC_CHN_TIM :: TIM1_0 :: TIM1_tCL [15:08] */
#define MC_CHN_TIM_TIM1_0_TIM1_tCL_MASK                            0x0000ff00
#define MC_CHN_TIM_TIM1_0_TIM1_tCL_ALIGN                           0
#define MC_CHN_TIM_TIM1_0_TIM1_tCL_BITS                            8
#define MC_CHN_TIM_TIM1_0_TIM1_tCL_SHIFT                           8
#define MC_CHN_TIM_TIM1_0_TIM1_tCL_DEFAULT                         0x00000005
/* MC_CHN_TIM :: TIM1_0 :: TIM1_tRCD [07:00] */
#define MC_CHN_TIM_TIM1_0_TIM1_tRCD_MASK                           0x000000ff
#define MC_CHN_TIM_TIM1_0_TIM1_tRCD_ALIGN                          0
#define MC_CHN_TIM_TIM1_0_TIM1_tRCD_BITS                           8
#define MC_CHN_TIM_TIM1_0_TIM1_tRCD_SHIFT                          0
#define MC_CHN_TIM_TIM1_0_TIM1_tRCD_DEFAULT                        0x00000006

   uint32 CHN_TIM_TIM1_1;         /* 0x218 */
/* MC_CHN_TIM :: TIM1_1 :: TIM1_tCCD_L [31:24] */
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_L_MASK                         0xff000000
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_L_ALIGN                        0
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_L_BITS                         8
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_L_SHIFT                        24
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_L_DEFAULT                      0x00000002
/* MC_CHN_TIM :: TIM1_1 :: TIM1_tCCD_S [23:16] */
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_S_MASK                         0x00ff0000
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_S_ALIGN                        0
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_S_BITS                         8
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_S_SHIFT                        16
#define MC_CHN_TIM_TIM1_1_TIM1_tCCD_S_DEFAULT                      0x00000002
/* MC_CHN_TIM :: TIM1_1 :: TIM1_tRRD_L [15:08] */
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_L_MASK                         0x0000ff00
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_L_ALIGN                        0
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_L_BITS                         8
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_L_SHIFT                        8
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_L_DEFAULT                      0x00000002
/* MC_CHN_TIM :: TIM1_1 :: TIM1_tRRD_S [07:00] */
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_S_MASK                         0x000000ff
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_S_ALIGN                        0
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_S_BITS                         8
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_S_SHIFT                        0
#define MC_CHN_TIM_TIM1_1_TIM1_tRRD_S_DEFAULT                      0x00000002

   uint32 CHN_TIM_TIM1_2;         /* 0x21c */
/* MC_CHN_TIM :: TIM1_2 :: TIM1_tFAW [31:24] */
#define MC_CHN_TIM_TIM1_2_TIM1_tFAW_MASK                           0xff000000
#define MC_CHN_TIM_TIM1_2_TIM1_tFAW_ALIGN                          0
#define MC_CHN_TIM_TIM1_2_TIM1_tFAW_BITS                           8
#define MC_CHN_TIM_TIM1_2_TIM1_tFAW_SHIFT                          24
#define MC_CHN_TIM_TIM1_2_TIM1_tFAW_DEFAULT                        0x00000000
/* MC_CHN_TIM :: TIM1_2 :: reserved0 [23:16] */
#define MC_CHN_TIM_TIM1_2_reserved0_MASK                           0x00ff0000
#define MC_CHN_TIM_TIM1_2_reserved0_ALIGN                          0
#define MC_CHN_TIM_TIM1_2_reserved0_BITS                           8
#define MC_CHN_TIM_TIM1_2_reserved0_SHIFT                          16
/* MC_CHN_TIM :: TIM1_2 :: TIM1_tRTP [15:08] */
#define MC_CHN_TIM_TIM1_2_TIM1_tRTP_MASK                           0x0000ff00
#define MC_CHN_TIM_TIM1_2_TIM1_tRTP_ALIGN                          0
#define MC_CHN_TIM_TIM1_2_TIM1_tRTP_BITS                           8
#define MC_CHN_TIM_TIM1_2_TIM1_tRTP_SHIFT                          8
#define MC_CHN_TIM_TIM1_2_TIM1_tRTP_DEFAULT                        0x00000002
/* MC_CHN_TIM :: TIM1_2 :: TIM1_tRC [07:00] */
#define MC_CHN_TIM_TIM1_2_TIM1_tRC_MASK                            0x000000ff
#define MC_CHN_TIM_TIM1_2_TIM1_tRC_ALIGN                           0
#define MC_CHN_TIM_TIM1_2_TIM1_tRC_BITS                            8
#define MC_CHN_TIM_TIM1_2_TIM1_tRC_SHIFT                           0
#define MC_CHN_TIM_TIM1_2_TIM1_tRC_DEFAULT                         0x00000011

   uint32 CHN_TIM_TIM1_3;         /* 0x220 */
/* MC_CHN_TIM :: TIM1_3 :: TIM1_tWTR_L [31:24] */
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_L_MASK                         0xff000000
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_L_ALIGN                        0
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_L_BITS                         8
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_L_SHIFT                        24
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_L_DEFAULT                      0x00000002
/* MC_CHN_TIM :: TIM1_3 :: TIM1_tWTR_S [23:16] */
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_S_MASK                         0x00ff0000
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_S_ALIGN                        0
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_S_BITS                         8
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_S_SHIFT                        16
#define MC_CHN_TIM_TIM1_3_TIM1_tWTR_S_DEFAULT                      0x00000002
/* MC_CHN_TIM :: TIM1_3 :: reserved_for_padding0 [15:12] */
#define MC_CHN_TIM_TIM1_3_reserved_for_padding0_MASK               0x0000f000
#define MC_CHN_TIM_TIM1_3_reserved_for_padding0_ALIGN              0
#define MC_CHN_TIM_TIM1_3_reserved_for_padding0_BITS               4
#define MC_CHN_TIM_TIM1_3_reserved_for_padding0_SHIFT              12
/* MC_CHN_TIM :: TIM1_3 :: TIM1_tWR_L [11:08] */
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_L_MASK                          0x00000f00
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_L_ALIGN                         0
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_L_BITS                          4
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_L_SHIFT                         8
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_L_DEFAULT                       0x00000004
/* MC_CHN_TIM :: TIM1_3 :: TIM1_tWR_S [07:00] */
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_S_MASK                          0x000000ff
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_S_ALIGN                         0
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_S_BITS                          8
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_S_SHIFT                         0
#define MC_CHN_TIM_TIM1_3_TIM1_tWR_S_DEFAULT                       0x00000004

   uint32 CHN_TIM_TIM2;          /* 0x224 */
/* MC_CHN_TIM :: TIM2 :: TIM2_tR2R [31:30] */
#define MC_CHN_TIM_TIM2_TIM2_tR2R_MASK                             0xc0000000
#define MC_CHN_TIM_TIM2_TIM2_tR2R_ALIGN                            0
#define MC_CHN_TIM_TIM2_TIM2_tR2R_BITS                             2
#define MC_CHN_TIM_TIM2_TIM2_tR2R_SHIFT                            30
#define MC_CHN_TIM_TIM2_TIM2_tR2R_DEFAULT                          0x00000000
/* MC_CHN_TIM :: TIM2 :: TIM2_tR2W [29:27] */
#define MC_CHN_TIM_TIM2_TIM2_tR2W_MASK                             0x38000000
#define MC_CHN_TIM_TIM2_TIM2_tR2W_ALIGN                            0
#define MC_CHN_TIM_TIM2_TIM2_tR2W_BITS                             3
#define MC_CHN_TIM_TIM2_TIM2_tR2W_SHIFT                            27
#define MC_CHN_TIM_TIM2_TIM2_tR2W_DEFAULT                          0x00000001
/* MC_CHN_TIM :: TIM2 :: TIM2_tW2R [26:24] */
#define MC_CHN_TIM_TIM2_TIM2_tW2R_MASK                             0x07000000
#define MC_CHN_TIM_TIM2_TIM2_tW2R_ALIGN                            0
#define MC_CHN_TIM_TIM2_TIM2_tW2R_BITS                             3
#define MC_CHN_TIM_TIM2_TIM2_tW2R_SHIFT                            24
#define MC_CHN_TIM_TIM2_TIM2_tW2R_DEFAULT                          0x00000001
/* MC_CHN_TIM :: TIM2 :: reserved_for_padding0 [23:22] */
#define MC_CHN_TIM_TIM2_reserved_for_padding0_MASK                 0x00c00000
#define MC_CHN_TIM_TIM2_reserved_for_padding0_ALIGN                0
#define MC_CHN_TIM_TIM2_reserved_for_padding0_BITS                 2
#define MC_CHN_TIM_TIM2_reserved_for_padding0_SHIFT                22
/* MC_CHN_TIM :: TIM2 :: TIM2_tW2W [21:18] */
#define MC_CHN_TIM_TIM2_TIM2_tW2W_MASK                             0x003c0000
#define MC_CHN_TIM_TIM2_TIM2_tW2W_ALIGN                            0
#define MC_CHN_TIM_TIM2_TIM2_tW2W_BITS                             4
#define MC_CHN_TIM_TIM2_TIM2_tW2W_SHIFT                            18
#define MC_CHN_TIM_TIM2_TIM2_tW2W_DEFAULT                          0x00000000
/* MC_CHN_TIM :: TIM2 :: reserved1 [17:16] */
#define MC_CHN_TIM_TIM2_reserved1_MASK                             0x00030000
#define MC_CHN_TIM_TIM2_reserved1_ALIGN                            0
#define MC_CHN_TIM_TIM2_reserved1_BITS                             2
#define MC_CHN_TIM_TIM2_reserved1_SHIFT                            16
/* MC_CHN_TIM :: TIM2 :: TIM2_tAL [15:12] */
#define MC_CHN_TIM_TIM2_TIM2_tAL_MASK                              0x0000f000
#define MC_CHN_TIM_TIM2_TIM2_tAL_ALIGN                             0
#define MC_CHN_TIM_TIM2_TIM2_tAL_BITS                              4
#define MC_CHN_TIM_TIM2_TIM2_tAL_SHIFT                             12
#define MC_CHN_TIM_TIM2_TIM2_tAL_DEFAULT                           0x00000000
/* MC_CHN_TIM :: TIM2 :: TIM2_tRFC [11:00] */
#define MC_CHN_TIM_TIM2_TIM2_tRFC_MASK                             0x00000fff
#define MC_CHN_TIM_TIM2_TIM2_tRFC_ALIGN                            0
#define MC_CHN_TIM_TIM2_TIM2_tRFC_BITS                             12
#define MC_CHN_TIM_TIM2_TIM2_tRFC_SHIFT                            0
#define MC_CHN_TIM_TIM2_TIM2_tRFC_DEFAULT                          0x00000014

   uint32 unused7[2];            /* 0x228 - 0x22f */
   uint32 CHN_TIM_PHY_ST;         /* 0x230 */
#define MEMC_CHN_TIM_PHY_ST_PHY_ST_POWER_UP       0x1
#define MEMC_CHN_TIM_PHY_ST_PHY_ST_HW_RESET       0x2
#define MEMC_CHN_TIM_PHY_ST_PHY_ST_SW_RESET       0x4
#define MEMC_CHN_TIM_PHY_ST_PHY_ST_READY          0x10
   uint32 CHN_TIM_DRAM_CFG;       /* 0x234 */
#define MEMC_CHN_TIM_DRAM_CFG_HDP_SHIFT           12
#define MEMC_CHN_TIM_DRAM_CFG_HDP_MASK            (0x1<<MEMC_CHN_TIM_DRAM_CFG_HDP_SHIFT)
#define MEMC_CHN_TIM_DRAM_CFG_2TADDRCMD_SHIFT     10
#define MEMC_CHN_TIM_DRAM_CFG_2TADDRCMD_MASK      (0x1<<MEMC_CHN_TIM_DRAM_CFG_2TADDRCMD_SHIFT)
#define MEMC_CHN_TIM_DRAM_CFG_DRAMTYPE_SHIFT      0
#define MEMC_CHN_TIM_DRAM_CFG_DRAMTYPE_MASK       (0xf<<MEMC_CHN_TIM_DRAM_CFG_DRAMTYPE_SHIFT)
#define MC_DRAM_CFG_DDR3                          0x1
   uint32 CHN_TIM_STAT;           /* 0x238 */
   uint32 CHN_TIM_PERF;           /* 0x23c */

   uint32 CHN_TIM_PKM_CFG;        /* 0x240 */
   uint32 CHN_TIM_AB4_CFG;        /* 0x244 */
   uint32 unused8[2];             /* 0x248 */
   uint32 CHN_TIM_AB4_ACT_PRI;    /* 0x250 */
   uint32 CHN_TIM_AB4_PRI_OPEN;   /* 0x254 */
   uint32 CHN_TIM_AB4_PRI_CLOSED; /* 0x258 */
   uint32 CHN_TIM_AUTO_SELF_REF;  /* 0x25c */
   uint32 CHN_TIM_AUTO_ZQCS;      /* 0x260 */
   uint32 CHN_TIM_TIM3;           /* 0x264 */
   uint32 unused9[38];            /* 0x268-0x2ff */

   uint32 ARB_CFG;                /* 0x300 */
   uint32 ARB_QUE_DIS[2];         /* 0x304 */
   uint32 unused10;               /* 0x30c */
   uint32 ARB_BKT_CFG_CPU_WR[4];  /* 0x310 */
   uint32 ARB_BKT_CFG_CPU_RD[4];  /* 0x320 */
   uint32 ARB_BKT_CFG_CPQ_RD[4];  /* 0x330 */
   uint32 ARB_BKT_CFG_CPQ_WR[4];  /* 0x340 */
   uint32 ARB_BKT_CFG_EDIS[4];    /* 0x350 */
   uint32 unused11[32];           /* 0x360 */
   uint32 ARB_QUEUE_PRI[3];       /* 0x3e0 */
   uint32 ARB_WRR_QUEUE_PRI;      /* 0x3ec */
   uint32 ARB_RATE_OK_WEIGHT[2];  /* 0x3f0 */
   uint32 ARB_RATE_FAIL_WEIGHT[2]; /* 0x3f4 */

   uint32 unused12[48];           /* 0x400 */
   AXIInterface AXIWIF;			  /* 0x4c0 */

   uint32 unused13[192];		  /* 0x500-0x7ff */

   EDISEngine EDIS_0;             /* 0x800 */
   uint32 unused14[64];           /* 0x900 */

   uint32 STATS_CTRL;             /* 0xa00 */
   uint32 STATS_TIMER_CFG;        /* 0xa04 */
   uint32 STATS_TIMER_COUNT;      /* 0xa08 */
   uint32 STATS_TOTAL_SLICE;      /* 0xa0c */
   uint32 STATS_TOTAL_PACKET;     /* 0xa10 */
   uint32 STATS_TOTAL_READ_SLICE; /* 0xa14 */
   uint32 STATS_TOTAL_READ_PACKET;/* 0xa18 */
   uint32 STATS_TOTAL_LATENCY;    /* 0xa1c */
   uint32 STAT_MAX_LATENCY;       /* 0xa20 */
   uint32 STATS_SLICE_REORDER;    /* 0xa24 */
   uint32 STATS_TOTAL_DDR_CMD;    /* 0xa28 */
   uint32 STATS_TOTAL_DDR_ACT;    /* 0xa2c */
   uint32 STATS_TOTAL_DDR_RDWR;   /* 0xa30 */
   uint32 STATS_TOTAL_DDR_WRRD;   /* 0xa34 */
   uint32 STATS_TOTAL_MRQ_CHN_FULL; /* 0xa38 */
   uint32 STATS_TOTAL_SELF_REF;   /* 0xa3c */
   uint32 STATS_ARB_GRANT_MATCH0; /* 0xa40 */
   uint32 STATS_TOTAL_QUEUE_FULL; /* 0xa44 */
   uint32 STATS_TOTAL_ARB_GRANT;  /* 0xa48 */
   uint32 STATS_TOTAL_RATE_OK_GRANT; /* 0xa4c*/
   uint32 STATS_FILTER_CFG_0;     /* 0xa50 */
#define MEMC_STATS_FILTER_CFG_MATCH_SRC_SHIFT  25
#define MEMC_STATS_FILTER_CFG_MATCH_SRC_MASK   (0x1<<MEMC_STATS_FILTER_CFG_MATCH_SRC_SHIFT)
#define MEMC_STATS_FILTER_CFG_MATCH_SRC_EN     0x02000000
#define MEMC_STATS_FILTER_CFG_SRC_ID_SHIFT     16
#define MEMC_STATS_FILTER_CFG_SRC_ID_MASK      (0x1FF<<MEMC_STATS_FILTER_CFG_SRC_ID_SHIFT)
#define MEMC_STATS_FILTER_CFG_MATCH_INTF_SHIFT 0
#define MEMC_STATS_FILTER_CFG_MATCH_INTF_MASK  0x0000FFFF
#define MEMC_STATS_FILTER_CFG_INTF_AXI         0x00000001
#define MEMC_STATS_FILTER_CFG_INTF_EDIS0       0x00000002
#define MEMC_STATS_FILTER_CFG_INTF_UNUSED      0x00000008
#define MEMC_STATS_FILTER_CFG_INTF_UBUS        MEMC_STATS_FILTER_CFG_INTF_UNUSED
#define MEMC_STATS_FILTER_CFG_INTF_UBUS0       MEMC_STATS_FILTER_CFG_INTF_UNUSED
#define MEMC_STATS_FILTER_CFG_INTF_UBUS1       MEMC_STATS_FILTER_CFG_INTF_UNUSED
#define MEMC_STATS_FILTER_CFG_INTF_MCP         MEMC_STATS_FILTER_CFG_INTF_UNUSED
#define MEMC_STATS_FILTER_CFG_INTF_EDIS1       MEMC_STATS_FILTER_CFG_INTF_UNUSED
   uint32 STATS_PROG0_SLICE;      /* 0xa54 */
   uint32 STATS_PROG0_PACKET;     /* 0xa58 */
   uint32 STATS_PROG0_READ_SLICE; /* 0xa5c */
   uint32 STATS_PROG0_READ_PACKET; /* 0xa60 */
   uint32 STATS_PROG0_LATENCY;    /* 0xa64 */ 
   uint32 STATS_PROG0_MAX_LETANCY; /* 0xa68 */

   // uint32 unused15[37];            /* 0xa6c */
   uint32 unused15_0;              /* 0xa6c */
   uint32 STATS_FILTER_CFG_1;     /* 0xa70 */
   uint32 STATS_PROG1_SLICE;      /* 0xa74 */
   uint32 STATS_PROG1_PACKET;     /* 0xa78 */ 
   uint32 STATS_PROG1_READ_SLICE; /* 0xa7c */  
   uint32 STATS_PROG1_READ_PACKET;/* 0xa80 */
   uint32 STATS_PROG1_LATENCY;    /* 0xa84 */ 
   uint32 unused15_1[2];          /* 0xa88 - 0xa8c */   
   uint32 STATS_FILTER_CFG_2;     /* 0xa90 */
   uint32 STATS_PROG2_SLICE;      /* 0xa94 */
   uint32 STATS_PROG2_PACKET;     /* 0xa98 */ 
   uint32 STATS_PROG2_READ_SLICE; /* 0xa9c */  
   uint32 STATS_PROG2_READ_PACKET;/* 0xaa0 */
   uint32 STATS_PROG2_LATENCY;    /* 0xaa4 */ 
   uint32 unused15_2[2];          /* 0xaa8 - 0xaac */
   uint32 STATS_FILTER_CFG_3;     /* 0xab0 */
   uint32 STATS_PROG3_SLICE;      /* 0xab4 */
   uint32 STATS_PROG3_PACKET;     /* 0xab8 */ 
   uint32 STATS_PROG3_READ_SLICE; /* 0xabc */  
   uint32 STATS_PROG3_READ_PACKET;/* 0xac0 */
   uint32 STATS_PROG3_LATENCY;    /* 0xac4 */
   uint32 unused15_3[2];            /* 0xac8 - 0xacc */
   uint32 STATS_AXI_BLOCK_CPU_RD; /* 0xad0 */    
   uint32 STATS_AXI_BLOCK_CPQ_RD; /* 0xad4 */    
   uint32 unused15_4[10];           /* 0xad8 - 0xaff */
   
   uint32 CAP_CAPTURE_CFG;        /* 0xb00 */
   uint32 CAP_TRIGGER_ADDR;       /* 0xb04 */
   uint32 CAP_READ_CTRL;          /* 0xb08 */
   uint32 unused16;               /* 0xb0c */
   uint32 CAP_CAPTURE_MATCH0;     /* 0xb10 */
   uint32 CAP_CAPTURE_MATCH1;     /* 0xb14 */
   uint32 CAP_CAPTURE_MATCH2;     /* 0xb18 */
   uint32 unused17;               /* 0xb1c */
   uint32 CAP_CAPTURE_MASK0;      /* 0xb20 */
   uint32 CAP_CAPTURE_MASK1;      /* 0xb24 */
   uint32 CAP_CAPTURE_MASK2;      /* 0xb28 */
   uint32 unused18;               /* 0xb2c */
   uint32 CAP_TRIGGER_MATCH0;     /* 0xb30 */
   uint32 CAP_TRIGGER_MATCH1;     /* 0xb34 */
   uint32 CAP_TRIGGER_MATCH2;     /* 0xb38 */
   uint32 unused19;               /* 0xb3c */
   uint32 CAP_TRIGGER_MASK0;      /* 0xb40 */
   uint32 CAP_TRIGGER_MASK1;      /* 0xb44 */
   uint32 CAP_TRIGGER_MASK2;      /* 0xb48 */
   uint32 unused20;               /* 0xb4c */
   uint32 CAP_READ_DATA[8];       /* 0xb50-0xb6f */
   uint32 unused21[164];          /* 0xb70-0xdff */

   uint32 SEC_INTR2_CPU_STATUS;   /* 0xe00 */
   uint32 SEC_INTR2_CPU_SET;      /* 0xe04 */
   uint32 SEC_INTR2_CPU_CLEAR;    /* 0xe08 */
   uint32 SEC_INTR2_CPU_MASK_STATUS;  /* 0xe0c */
   uint32 SEC_INTR2_CPU_MASK_SET;  /* 0xe10 */
   uint32 SEC_INTR2_CPU_MASK_CLEAR;   /* 0xe14 */
   uint32 unused22[58];              /* 0xe18-0xeff */

   uint32 UBUSIF0_PERMCTL;			/* 0xf00 */
   uint32 UBUSIF1_PERMCTL;          /* 0xf04 */
   uint32 SRAM_REMAP_PERMCTL;       /* 0xf08 */
   uint32 AXIWIF_PERMCTL;           /* 0xf0c */
   uint32 CHNCFG_PERMCTL;           /* 0xf10 */
   uint32 MCCAP_PERMCTL;            /* 0xf14 */
   uint32 SCRAM_PERMCTL;            /* 0xf18 */
   uint32 RNG_PERMCTL;              /* 0xf1c */
   uint32 RNGCHK_PERMCTL;           /* 0xf20 */
   uint32 unused23[567];            /* 0xf24-0x17ff */

   SecureRangeCheckers SEC_RANGE_CHK; /* 0x1800-0x18ff */
   uint32 unused24[31168];            /* 0x1900-0x200000 */

   uint32 PhyControl[256];           /* 0x2000 */
   uint32 PhyByteLane0Control[128];  /* 0x2400 */
   uint32 PhyByteLane1Control[128];  /* 0x2600 */
   uint32 PhyByteLane2Control[128];  /* 0x2800 */
   uint32 PhyByteLane3Control[128];  /* 0x2a00 */
} MEMCControl;

#define MEMC ((volatile MEMCControl * const) MEMC_BASE)

typedef struct Jtag_Otp {
   uint32 ctrl0;                          /* 0x00 */
#define JTAG_OTP_CTRL_ACCESS_MODE         (0x2 << 22)
#define JTAG_OTP_CTRL_PROG_EN             (1 << 21)
#define JTAG_OTP_CTRL_START               (1 << 0)
#define JTAG_OTP_CTRL_CMD_OTP_PROG_EN	(0x2 << 1)
#define JTAG_OTP_CTRL_CMD_PROG		(0xa << 1)
#define JTAG_OTP_CTRL_CMD_PROG_LOCK	(0x19 << 1)
   uint32 ctrl1;                          /* 0x04 */
#define JTAG_OTP_CTRL_CPU_MODE            (1 << 0)
   uint32 ctrl2;                          /* 0x08 */
   uint32 ctrl2_hi;                       /* 0x0c */
   uint32 ctrl3;                          /* 0x10 */
   uint32 ctrl4;                          /* 0x14 */
   uint32 status0;                        /* 0x18 */
   uint32 status0_hi;                     /* 0x20 */
   uint32 status1;                        /* 0x24 */
   uint32 status[12];                     /* 0x28 */
#define JTAG_OTP_STATUS_1_PROG_OK       (1 << 2) 
#define JTAG_OTP_STATUS_1_CMD_DONE        (1 << 1)
} Jtag_Otp;

#define JTAG_OTP ((volatile Jtag_Otp * const) JTAG_OTP_BASE)

#define BTRM_OTP_READ_TIMEOUT_CNT       0x10000

/* row 8 */
#define OTP_CPU_CORE_CFG_ROW            8
#define OTP_CPU_CORE_CFG_SHIFT          28
#define OTP_CPU_CORE_CFG_MASK           (0x1 << OTP_CPU_CORE_CFG_SHIFT)

#define OTP_SEC_CHIPVAR_ROW         8
#define OTP_SEC_CHIPVAR_SHIFT       24
#define OTP_SEC_CHIPVAR_MASK        (0xf << OTP_SEC_CHIPVAR_SHIFT)

/* row 9 */
#define OTP_CPU_CLOCK_FREQ_ROW          9
#define OTP_CPU_CLOCK_FREQ_SHIFT        0
#define OTP_CPU_CLOCK_FREQ_MASK         (0x7 << OTP_CPU_CLOCK_FREQ_SHIFT)

/* row 14 */
#define OTP_PCM_DISABLE_ROW             14
#define OTP_PCM_DISABLE_SHIFT           13
#define OTP_PCM_DISABLE_MASK            (0x1 << OTP_PCM_DISABLE_SHIFT)

/* row 17 */
#define OTP_BRCM_BTRM_BOOT_ENABLE_ROW           17
#define OTP_BRCM_BTRM_BOOT_ENABLE_SHIFT         3
#define OTP_BRCM_BTRM_BOOT_ENABLE_MASK          (1 << OTP_BRCM_BTRM_BOOT_ENABLE_SHIFT)

/* row 18 */
#define OTP_CUST_BTRM_BOOT_ENABLE_ROW           18
#define OTP_CUST_BTRM_BOOT_ENABLE_SHIFT         15
#define OTP_CUST_BTRM_BOOT_ENABLE_MASK          (7 << OTP_CUST_BTRM_BOOT_ENABLE_SHIFT)

/* row 20 */
#define OTP_CHIPID_ROW              20
#define OTP_CHIPID_SHIFT            0
#define OTP_CHIP_ID_MASK            (0xffffffff << OTP_CHIPID_SHIFT)

/* row 23 */
#define OTP_CUST_MFG_MRKTID_ROW                 23
#define OTP_CUST_MFG_MRKTID_SHIFT               0
#define OTP_CUST_MFG_MRKTID_MASK                (0xffff << OTP_CUST_MFG_MRKTID_SHIFT)

/* SOTP defs */
#define SOTP_OTP_REGION_RD_LOCK                 0x3c

#define RGMII_BASE          XRDP_BASE + 0xd97300
#define WAN_MISC_BASE       XRDP_BASE + 0xdb2000
#define QEGPHY_BASE         XRDP_BASE + 0xdb2200


#define UNIMAC_BASE         XRDP_BASE + 0x00da0000
#define UNIMAC_CFG_BASE     UNIMAC_BASE + 0x00000000
#define UNIMAC_MIB_BASE     UNIMAC_BASE + 0x00008000
#define UNIMAC_TOP_BASE     UNIMAC_BASE + 0x0000a000

typedef struct
{
/*SRC_PID_CFG */
#define SRCPID_TO_QUEUE_0_BITS_SHIFT       (0)
#define SRCPID_TO_QUEUE_1_BITS_SHIFT       (4)
#define SRCPID_TO_QUEUE_2_BITS_SHIFT       (8)
#define SRCPID_TO_QUEUE_3_BITS_SHIFT       (12)
#define SRCPID_TO_QUEUE_4_BITS_SHIFT       (16)
#define SRCPID_TO_QUEUE_5_BITS_SHIFT       (20)
#define SRCPID_TO_QUEUE_6_BITS_SHIFT       (24)
#define SRCPID_TO_QUEUE_7_BITS_SHIFT       (28)
#define SRCPID_TO_QUEUE_0                  (1 << SRCPID_TO_QUEUE_0_BITS_SHIFT)                      
#define SRCPID_TO_QUEUE_1                  (1 << SRCPID_TO_QUEUE_1_BITS_SHIFT)
#define SRCPID_TO_QUEUE_2                  (1 << SRCPID_TO_QUEUE_2_BITS_SHIFT) 
#define SRCPID_TO_QUEUE_3                  (1 << SRCPID_TO_QUEUE_3_BITS_SHIFT) 
#define SRCPID_TO_QUEUE_4                  (1 << SRCPID_TO_QUEUE_4_BITS_SHIFT) 
#define SRCPID_TO_QUEUE_5                  (1 << SRCPID_TO_QUEUE_5_BITS_SHIFT) 
#define SRCPID_TO_QUEUE_6                  (1 << SRCPID_TO_QUEUE_6_BITS_SHIFT)
#define SRCPID_TO_QUEUE_7                  (1 << SRCPID_TO_QUEUE_7_BITS_SHIFT)
/* Depth CFG */     
#define DEPTH_TO_QUEUE_0_BITS_SHIFT       (0)
#define DEPTH_TO_QUEUE_1_BITS_SHIFT       (8)
#define DEPTH_TO_QUEUE_2_BITS_SHIFT       (16)
#define DEPTH_TO_QUEUE_3_BITS_SHIFT       (24)
#define DEPTH_TO_QUEUE_0                  (1 << DEPTH_TO_QUEUE_0_BITS_SHIFT)                      
#define DEPTH_TO_QUEUE_1                  (1 << DEPTH_TO_QUEUE_1_BITS_SHIFT)
#define DEPTH_TO_QUEUE_2                  (1 << DEPTH_TO_QUEUE_2_BITS_SHIFT) 
#define DEPTH_TO_QUEUE_3                  (1 << DEPTH_TO_QUEUE_3_BITS_SHIFT)
/* CBS Thresh */
#define THRESH_TO_QUEUE_0_BITS_SHIFT       (0)
#define THRESH_TO_QUEUE_1_BITS_SHIFT       (16)
#define THRESH_TO_QUEUE_0                  (1 << THRESH_TO_QUEUE_0_BITS_SHIFT)                      
#define THRESH_TO_QUEUE_1                  (1 << THRESH_TO_QUEUE_1_BITS_SHIFT)
/* Cir Inc CFG */     
#define CIR_INCR_TO_QUEUE_0_BITS_SHIFT    (0)
#define CIR_INCR_TO_QUEUE_1_BITS_SHIFT    (8)
#define CIR_INCR_TO_QUEUE_2_BITS_SHIFT    (16)
#define CIR_INCR_TO_QUEUE_3_BITS_SHIFT    (24)
#define CIR_INCR_TO_QUEUE_0               (1 << CIR_INCR_TO_QUEUE_0_BITS_SHIFT)                      
#define CIR_INCR_TO_QUEUE_1               (1 << CIR_INCR_TO_QUEUE_1_BITS_SHIFT)
#define CIR_INCR_TO_QUEUE_2               (1 << CIR_INCR_TO_QUEUE_2_BITS_SHIFT) 
#define CIR_INCR_TO_QUEUE_3               (1 << CIR_INCR_TO_QUEUE_3_BITS_SHIFT)
/* Ref Counters */
#define REF_CNT_0_BITS_SHIFT       (0)
#define REF_CNT_1_BITS_SHIFT       (4)
#define REF_CNT_2_BITS_SHIFT       (8)
#define REF_CNT_3_BITS_SHIFT       (12)
#define REF_CNT_4_BITS_SHIFT       (16)
#define REF_CNT_5_BITS_SHIFT       (20)
#define REF_CNT_6_BITS_SHIFT       (24)
#define REF_CNT_7_BITS_SHIFT       (28)
#define REF_CNT_0                  (1 << REF_CNT_0_BITS_SHIFT)                      
#define REF_CNT_1                  (1 << REF_CNT_1_BITS_SHIFT)
#define REF_CNT_2                  (1 << REF_CNT_2_BITS_SHIFT) 
#define REF_CNT_3                  (1 << REF_CNT_3_BITS_SHIFT) 
#define REF_CNT_4                  (1 << REF_CNT_4_BITS_SHIFT) 
#define REF_CNT_5                  (1 << REF_CNT_5_BITS_SHIFT) 
#define REF_CNT_6                  (1 << REF_CNT_6_BITS_SHIFT)
#define REF_CNT_7                  (1 << REF_CNT_7_BITS_SHIFT)         
   uint32 lut[32];           /* 0x00 */
   uint32 queue_depth[4];    /* 0x80 */
   uint32 cbs_thresh[8];     /* 0x90 */
   uint32 cir_incr[4];       /* 0xb0 */
   uint32 ref_cnt[4];        /* 0xc0 */
   uint32 max_bonus[2];      /* 0xd0 */
#define QUE_ID_NUM_BITS     (4) /* Number of queue_id bits per source port */
#define DEPTH_NUM_BITS      (8) /* Number of depth bits per queue id */
#define CBS_NUM_BITS        (16)/* Number of CBS bits per queue id */
#define CIR_INCR_NUM_BITS   (8) /* Number of CIS_INCR bits per queue id */
#define REF_CNT_NUM_BITS    (8) /* Number of refresh cnt bits per queue id */
#define MAX_BONUS_NUM_BITS  (4) /* Number of max bonus bits per queue id
                                   Actually 3-bits but 4th is reserved */

#define MAX_WLU_SRCPID_NUM                    256
#define MAX_WLU_SRCPID_REG_NUM                8
#define WLU_SRCPID_TO_REG_OFFSET(srcpid)      ((srcpid)>>5)
#define WLU_SRCPID_TO_REG_BIT(srcpid)         ((srcpid)%32)
   uint32 wlu_srcpid[MAX_WLU_SRCPID_REG_NUM];     /* 0xd8 */
   uint32 qos_reg[2];        /* 0xf8 */
}CoherencyPortCfgReg_t;

#define CohPortCfg ((volatile CoherencyPortCfgReg_t * const) UBUS_COHERENCY_PORT_CFG_BASE)

typedef struct BIUCFG_Access {
    uint32 permission;        /* 0x0 */
    uint32 sbox;              /* 0x4 */
    uint32 cpu_defeature;     /* 0x8 */
    uint32 dbg_security;      /* 0xc */
    uint32 rsvd1[32];         /* 0x10 - 0x8f */
    uint64 violation[2];      /* 0x90 - 0x9f */
    uint32 ts_access[2];      /* 0xa0 - 0xa7 */
    uint32 rsvd2[22];         /* 0xa8 - 0xff */
}BIUCFG_Access;

typedef struct CCI400_SlaveIntf {
#define SNOOP_CTRL_ENABLE_SNOOP            0x1
    uint32 snoop_ctrl;        /* 0x0 */
    uint32 share_ovr;         /* 0x4 */
    uint32 rsvd1[62];         /* 0x8 - 0xff */
    uint32 arqos_ovr;         /* 0x100 */
    uint32 awqos_ovr;         /* 0x104 */
    uint32 rsvd2[2];          /* 0x108 - 0x10f */
    uint32 qos_max_ot;        /* 0x110 */
    uint32 rsvd3[955];        /* 0x114 - 0xfff */
}CCI400_SlaveIntf;


typedef struct CCI400 {
    uint32 ctrl_ovr;        /* 0x0 */
    uint32 spec_ctrl;       /* 0x4 */
#define SECURE_ACCESS_UNSECURE_ENABLE      0x1
    uint32 secr_acc;        /* 0x8 */
    uint32 status;          /* 0xc */
    uint32 impr_err;        /* 0x10 */
    uint32 rdvd[59];        /* 0x14 */
    uint32 pmu_ctrl;        /* 0x100 */
    uint32 rsvd1[959];      /* 0x104 - 0xfff */
    CCI400_SlaveIntf si[5]; /* 0x1000 - 0x5fff */
}CCI400;

#define CCI400 ((volatile CCI400 * const) CCI400_BASE)

/* CCI-400 Reg Defines */
#define CCI400_CONTROL_OVERRIDE_REG_OFFSET 0
#define CCI400_CONTROL_OVERRIDE_SNOOP_ENABLE_OFFSET  (1<<0)
#define CCI400_SECURE_ACCESS_REG_OFFSET 8
#define CCI400_SECURE_ACCESS_UNSECURE_ENABLE  (1<<0)
#define CCI400_S2_SAHREABLE_OVERRIDE_REG_OFFSET 0x3004
#define CCI400_S2_SAHREABLE_OVERRIDE_AX_DOMAIN 0x3
#define CCI400_S3_SNOOP_CTRL_REG_OFFSET 0x4000
#define CCI400_S3_SNOOP_CTRL_EN_SNOOP (1<<0)

typedef struct BIUCFG_Cluster {
    uint32 permission;        /* 0x0 */
    uint32 config;            /* 0x4 */
    uint32 status;            /* 0x8 */
    uint32 control;           /* 0xc */
    uint32 cpucfg;            /* 0x10 */
    uint32 dbgrom;            /* 0x14 */
    uint32 rsvd1[2];          /* 0x18 - 0x1f */
    uint64 rvbar_addr[4];     /* 0x20 - 0x3f */
    uint32 rsvd2[48];         /* 0x40 - 0xff */
}BIUCFG_Cluster;

typedef struct BIUCFG {
    BIUCFG_Access access;         /* 0x0 - 0xff*/
    BIUCFG_Cluster cluster[2];    /* 0x100 - 0x2ff*/
    uint32 anonymous[2880];       /* 0x300 - 0x2fff*/
}BIUCFG;
#define BIUCFG ((volatile BIUCFG * const) BIUCFG_BASE)

/* USB Host contorl regs */
typedef struct usb_ctrl{
    uint32 setup;
#define USBH_IPP                (1<<5)
#define USBH_IOC                (1<<4)
#define USBH_STRAP_IPP_SEL      (1<<25)
#define USB2_OC_DISABLE_PORT0   (1<<28)
#define USB2_OC_DISABLE_PORT1   (1<<29)
#define USB3_OC_DISABLE_PORT0   (1<<30)
#define USB3_OC_DISABLE_PORT1   (1<<31)
    uint32 pll_ctl;
    uint32 fladj_value;
    uint32 bridge_ctl;
#define USB_BRCTL_OHCI_MEM_REQ_DIS (1<<16)
    uint32 spare1;
    uint32 mdio;
    uint32 mdio2;
    uint32 test_port_control;
    uint32 usb_simctl;
    uint32 usb_testctl;
    uint32 usb_testmon;
    uint32 utmi_ctl_1;
    uint32 utmi_ctl_2;
    uint32 usb_pm;
#define XHC_SOFT_RESETB         (1<<22)
#define USB_PWRDWN              (1<<31)
    uint32 usb_pm_status;
    uint32 spare3;
    uint32 pll_ldo_ctl;
    uint32 pll_ldo_pllbias;
    uint32 pll_afe_bg_cntl;
    uint32 afe_usbio_tst;
    uint32 pll_ndiv_frac;
    uint32 tp_diag;
    uint32 ahb_capture_fifo;
    uint32 spare4;
    uint32 usb30_ctl1;
#define PHY3_PLL_SEQ_START      (1<<4)
    uint32 usb30_ctl2;
    uint32 usb30_ctl3;
    uint32 usb30_ctl4;
    uint32 usb30_pctl;
    uint32 usb30_ctl5;
    uint32 spare5;
    uint32 spare6;
    uint32 spare7;
    uint32 unsused1[3];
    uint32 usb_device_ctl1;
    uint32 usb_device_ctl2;
    uint32 unsused2[22];
    uint32 usb20_id;
    uint32 usb30_id;
    uint32 bdc_coreid;
    uint32 usb_revid;
} usb_ctrl;
#define USBH_CTRL ((volatile usb_ctrl * const) USBH_CFG_BASE)

typedef struct Ubus4SysModuleTop {
    uint32 unused0[16];      /* 0x0 */
    uint32 UcbData;          /* 0x40 */
    uint32 UcbHdr;           /* 0x44 */
    uint32 UcbCntl;          /* 0x48 */
    uint32 unused1;          /* 0x4c */
    uint32 ReadUcbHdr;       /* 0x50 */
    uint32 ReadUcbData;      /* 0x54 */
    uint32 ReadUcbStatus;    /* 0x58 */
    uint32 ReacUcbFifoStatus; /* 0x5c */
} Ubus4SysModuleTop;

typedef struct Ubus4ModuleClientRegistration {
    uint32 SlvStatus[16];       /* 0x0   */
    uint32 MstStatus[ 8];       /* 0x240 */
    uint32 RegCntl;             /* 0x260 */
    uint32 SlvStopProgDelay;    /* 0x264 */
} Ubus4ModuleClientRegistration;

#define UBUSSYSTOP ((volatile Ubus4SysModuleTop * const) UBUS_SYS_MODULE_BASE)
#define UBUSSYSTOP_REGISTRATION  \
        ((volatile Ubus4ModuleClientRegistration * const) \
        UBUS_SYS_MODULE_REGISTRATION_BASE)

typedef struct Ubus4ClkCtrlCfgRegs {
    uint32 ClockCtrl;
#define UBUS4_CLK_CTRL_EN_SHIFT    (0)
#define UBUS4_CLK_CTRL_EN_MASK     (0x1 << UBUS4_CLK_CTRL_EN_SHIFT)
#define UBUS4_CLK_BYPASS_SHIFT     (2)
#define UBUS4_CLK_BYPASS_MASK      (0x1 << UBUS4_CLK_BYPASS_SHIFT)
#define UBUS4_MIN_CLK_SEL_SHIFT    (4)
#define UBUS4_MIN_CLK_SEL_MASK     (0x7 << UBUS4_MIN_CLK_SEL_SHIFT)
#define UBUS4_MID_CLK_SEL_SHIFT    (8)
#define UBUS4_MID_CLK_SEL_MASK     (0x7 << UBUS4_MID_CLK_SEL_SHIFT)
    uint32 reserved0[3];
    uint32 Min2Mid_threshhold;
    uint32 Mid2Max_threshhold;
    uint32 Mid2Min_threshhold;
    uint32 Max2Mid_threshhold;
    uint32 ClkIntoMin;
    uint32 ClkIntoMid;
    uint32 ClkIntoMax;
    uint32 reserved1;
    uint32 ClkMinTime;
    uint32 ClkMidTime;
    uint32 ClkMaxTime;
} Ubus4ClkCtrlCfgRegs;
#define UBUS4CLK ((volatile Ubus4ClkCtrlCfgRegs * const) UBUS_MAPPED_BASE)

#endif

#ifdef __cplusplus
}
#endif

#endif