blob: 25c40484a3c0aaa3a18d1c858edd2a2b0820d526 [file] [log] [blame]
/*
* arch/arm/include/asm/arch-gxb/secure_apb.h
*
* Copyright (C) 2015 Amlogic, Inc. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
// ----------------------------------------------------------------------
// This file is automatically generated from the script:
//
// ./create_headers_from_secure_apb4_h.pl
//
// and was applied to the file
//
// ./secure_apb4_ee.h ./ao_rti_reg.h
//
// DO NOT EDIT!!!!!
// ----------------------------------------------------------------------
//
#include <asm/arch/regs.h>
#ifdef SECURE_APB_H
#else
#define SECURE_APB_H
//
// Reading file: ./secure_apb4_ee.h
//
// synopsys translate_off
// synopsys translate_on
//========================================================================
// RNG
//========================================================================
// APB4_DECODER_NON_SECURE_BASE 32'hC8834000
// APB4_DECODER_SECURE_BASE 32'hDA834000
// Non Secure Register
#define RNG_DATA (0xc8834000 + (0x00 << 2))
#define SEC_RNG_DATA (0xda834000 + (0x00 << 2))
#define P_RNG_DATA (volatile uint32_t *)(0xc8834000 + (0x00 << 2))
// Secure Register
#define RNG_SEC_CONFIG_REG1 (0xc8834000 + (0x01 << 2))
#define SEC_RNG_SEC_CONFIG_REG1 (0xda834000 + (0x01 << 2))
#define P_RNG_SEC_CONFIG_REG1 (volatile uint32_t *)(0xc8834000 + (0x01 << 2))
#define RNG_SEC_CONFIG_REG2 (0xc8834000 + (0x02 << 2))
#define SEC_RNG_SEC_CONFIG_REG2 (0xda834000 + (0x02 << 2))
#define P_RNG_SEC_CONFIG_REG2 (volatile uint32_t *)(0xc8834000 + (0x02 << 2))
#define RNG_SEC_SCRATCH_REG (0xc8834000 + (0x03 << 2))
#define SEC_RNG_SEC_SCRATCH_REG (0xda834000 + (0x03 << 2))
#define P_RNG_SEC_SCRATCH_REG (volatile uint32_t *)(0xc8834000 + (0x03 << 2))
//========================================================================
// PERIPHS
//========================================================================
// APB4_DECODER_NON_SECURE_BASE 32'hC8834400
// APB4_DECODER_SECURE_BASE 32'hDA834400
// The following are handled by $periphs/rtl/periphs_reg.v
#define PREG_CTLREG0_ADDR (0xc8834400 + (0x00 << 2))
#define SEC_PREG_CTLREG0_ADDR (0xda834400 + (0x00 << 2))
#define P_PREG_CTLREG0_ADDR (volatile uint32_t *)(0xc8834400 + (0x00 << 2))
// ----------------------------
#define PREG_PAD_GPIO6_EN_N (0xc8834400 + (0x08 << 2))
#define SEC_PREG_PAD_GPIO6_EN_N (0xda834400 + (0x08 << 2))
#define P_PREG_PAD_GPIO6_EN_N (volatile uint32_t *)(0xc8834400 + (0x08 << 2))
#define PREG_PAD_GPIO6_O (0xc8834400 + (0x09 << 2))
#define SEC_PREG_PAD_GPIO6_O (0xda834400 + (0x09 << 2))
#define P_PREG_PAD_GPIO6_O (volatile uint32_t *)(0xc8834400 + (0x09 << 2))
#define PREG_PAD_GPIO6_I (0xc8834400 + (0x0a << 2))
#define SEC_PREG_PAD_GPIO6_I (0xda834400 + (0x0a << 2))
#define P_PREG_PAD_GPIO6_I (volatile uint32_t *)(0xc8834400 + (0x0a << 2))
// ----------------------------
// ----------------------------
#define PREG_JTAG_GPIO_ADDR (0xc8834400 + (0x0b << 2))
#define SEC_PREG_JTAG_GPIO_ADDR (0xda834400 + (0x0b << 2))
#define P_PREG_JTAG_GPIO_ADDR (volatile uint32_t *)(0xc8834400 + (0x0b << 2))
// ----------------------------
// Pre-defined GPIO addresses
// ----------------------------
#define PREG_PAD_GPIO0_EN_N (0xc8834400 + (0x0c << 2))
#define SEC_PREG_PAD_GPIO0_EN_N (0xda834400 + (0x0c << 2))
#define P_PREG_PAD_GPIO0_EN_N (volatile uint32_t *)(0xc8834400 + (0x0c << 2))
#define PREG_PAD_GPIO0_O (0xc8834400 + (0x0d << 2))
#define SEC_PREG_PAD_GPIO0_O (0xda834400 + (0x0d << 2))
#define P_PREG_PAD_GPIO0_O (volatile uint32_t *)(0xc8834400 + (0x0d << 2))
#define PREG_PAD_GPIO0_I (0xc8834400 + (0x0e << 2))
#define SEC_PREG_PAD_GPIO0_I (0xda834400 + (0x0e << 2))
#define P_PREG_PAD_GPIO0_I (volatile uint32_t *)(0xc8834400 + (0x0e << 2))
// ----------------------------
#define PREG_PAD_GPIO1_EN_N (0xc8834400 + (0x0f << 2))
#define SEC_PREG_PAD_GPIO1_EN_N (0xda834400 + (0x0f << 2))
#define P_PREG_PAD_GPIO1_EN_N (volatile uint32_t *)(0xc8834400 + (0x0f << 2))
#define PREG_PAD_GPIO1_O (0xc8834400 + (0x10 << 2))
#define SEC_PREG_PAD_GPIO1_O (0xda834400 + (0x10 << 2))
#define P_PREG_PAD_GPIO1_O (volatile uint32_t *)(0xc8834400 + (0x10 << 2))
#define PREG_PAD_GPIO1_I (0xc8834400 + (0x11 << 2))
#define SEC_PREG_PAD_GPIO1_I (0xda834400 + (0x11 << 2))
#define P_PREG_PAD_GPIO1_I (volatile uint32_t *)(0xc8834400 + (0x11 << 2))
// ----------------------------
#define PREG_PAD_GPIO2_EN_N (0xc8834400 + (0x12 << 2))
#define SEC_PREG_PAD_GPIO2_EN_N (0xda834400 + (0x12 << 2))
#define P_PREG_PAD_GPIO2_EN_N (volatile uint32_t *)(0xc8834400 + (0x12 << 2))
#define PREG_PAD_GPIO2_O (0xc8834400 + (0x13 << 2))
#define SEC_PREG_PAD_GPIO2_O (0xda834400 + (0x13 << 2))
#define P_PREG_PAD_GPIO2_O (volatile uint32_t *)(0xc8834400 + (0x13 << 2))
#define PREG_PAD_GPIO2_I (0xc8834400 + (0x14 << 2))
#define SEC_PREG_PAD_GPIO2_I (0xda834400 + (0x14 << 2))
#define P_PREG_PAD_GPIO2_I (volatile uint32_t *)(0xc8834400 + (0x14 << 2))
// ----------------------------
#define PREG_PAD_GPIO3_EN_N (0xc8834400 + (0x15 << 2))
#define SEC_PREG_PAD_GPIO3_EN_N (0xda834400 + (0x15 << 2))
#define P_PREG_PAD_GPIO3_EN_N (volatile uint32_t *)(0xc8834400 + (0x15 << 2))
#define PREG_PAD_GPIO3_O (0xc8834400 + (0x16 << 2))
#define SEC_PREG_PAD_GPIO3_O (0xda834400 + (0x16 << 2))
#define P_PREG_PAD_GPIO3_O (volatile uint32_t *)(0xc8834400 + (0x16 << 2))
#define PREG_PAD_GPIO3_I (0xc8834400 + (0x17 << 2))
#define SEC_PREG_PAD_GPIO3_I (0xda834400 + (0x17 << 2))
#define P_PREG_PAD_GPIO3_I (volatile uint32_t *)(0xc8834400 + (0x17 << 2))
// ----------------------------
#define PREG_PAD_GPIO4_EN_N (0xc8834400 + (0x18 << 2))
#define SEC_PREG_PAD_GPIO4_EN_N (0xda834400 + (0x18 << 2))
#define P_PREG_PAD_GPIO4_EN_N (volatile uint32_t *)(0xc8834400 + (0x18 << 2))
#define PREG_PAD_GPIO4_O (0xc8834400 + (0x19 << 2))
#define SEC_PREG_PAD_GPIO4_O (0xda834400 + (0x19 << 2))
#define P_PREG_PAD_GPIO4_O (volatile uint32_t *)(0xc8834400 + (0x19 << 2))
#define PREG_PAD_GPIO4_I (0xc8834400 + (0x1a << 2))
#define SEC_PREG_PAD_GPIO4_I (0xda834400 + (0x1a << 2))
#define P_PREG_PAD_GPIO4_I (volatile uint32_t *)(0xc8834400 + (0x1a << 2))
// ----------------------------
#define PREG_PAD_GPIO5_EN_N (0xc8834400 + (0x1b << 2))
#define SEC_PREG_PAD_GPIO5_EN_N (0xda834400 + (0x1b << 2))
#define P_PREG_PAD_GPIO5_EN_N (volatile uint32_t *)(0xc8834400 + (0x1b << 2))
#define PREG_PAD_GPIO5_O (0xc8834400 + (0x1c << 2))
#define SEC_PREG_PAD_GPIO5_O (0xda834400 + (0x1c << 2))
#define P_PREG_PAD_GPIO5_O (volatile uint32_t *)(0xc8834400 + (0x1c << 2))
#define PREG_PAD_GPIO5_I (0xc8834400 + (0x1d << 2))
#define SEC_PREG_PAD_GPIO5_I (0xda834400 + (0x1d << 2))
#define P_PREG_PAD_GPIO5_I (volatile uint32_t *)(0xc8834400 + (0x1d << 2))
// ----------------------------
// ----------------------------
// Pin Mux (9)
// ----------------------------
#define PERIPHS_PIN_MUX_0 (0xc8834400 + (0x2c << 2))
#define SEC_PERIPHS_PIN_MUX_0 (0xda834400 + (0x2c << 2))
#define P_PERIPHS_PIN_MUX_0 (volatile uint32_t *)(0xc8834400 + (0x2c << 2))
#define PERIPHS_PIN_MUX_1 (0xc8834400 + (0x2d << 2))
#define SEC_PERIPHS_PIN_MUX_1 (0xda834400 + (0x2d << 2))
#define P_PERIPHS_PIN_MUX_1 (volatile uint32_t *)(0xc8834400 + (0x2d << 2))
#define PERIPHS_PIN_MUX_2 (0xc8834400 + (0x2e << 2))
#define SEC_PERIPHS_PIN_MUX_2 (0xda834400 + (0x2e << 2))
#define P_PERIPHS_PIN_MUX_2 (volatile uint32_t *)(0xc8834400 + (0x2e << 2))
#define PERIPHS_PIN_MUX_3 (0xc8834400 + (0x2f << 2))
#define SEC_PERIPHS_PIN_MUX_3 (0xda834400 + (0x2f << 2))
#define P_PERIPHS_PIN_MUX_3 (volatile uint32_t *)(0xc8834400 + (0x2f << 2))
#define PERIPHS_PIN_MUX_4 (0xc8834400 + (0x30 << 2))
#define SEC_PERIPHS_PIN_MUX_4 (0xda834400 + (0x30 << 2))
#define P_PERIPHS_PIN_MUX_4 (volatile uint32_t *)(0xc8834400 + (0x30 << 2))
#define PERIPHS_PIN_MUX_5 (0xc8834400 + (0x31 << 2))
#define SEC_PERIPHS_PIN_MUX_5 (0xda834400 + (0x31 << 2))
#define P_PERIPHS_PIN_MUX_5 (volatile uint32_t *)(0xc8834400 + (0x31 << 2))
#define PERIPHS_PIN_MUX_6 (0xc8834400 + (0x32 << 2))
#define SEC_PERIPHS_PIN_MUX_6 (0xda834400 + (0x32 << 2))
#define P_PERIPHS_PIN_MUX_6 (volatile uint32_t *)(0xc8834400 + (0x32 << 2))
#define PERIPHS_PIN_MUX_7 (0xc8834400 + (0x33 << 2))
#define SEC_PERIPHS_PIN_MUX_7 (0xda834400 + (0x33 << 2))
#define P_PERIPHS_PIN_MUX_7 (volatile uint32_t *)(0xc8834400 + (0x33 << 2))
#define PERIPHS_PIN_MUX_8 (0xc8834400 + (0x34 << 2))
#define SEC_PERIPHS_PIN_MUX_8 (0xda834400 + (0x34 << 2))
#define P_PERIPHS_PIN_MUX_8 (volatile uint32_t *)(0xc8834400 + (0x34 << 2))
#define PERIPHS_PIN_MUX_9 (0xc8834400 + (0x35 << 2))
#define SEC_PERIPHS_PIN_MUX_9 (0xda834400 + (0x35 << 2))
#define P_PERIPHS_PIN_MUX_9 (volatile uint32_t *)(0xc8834400 + (0x35 << 2))
#define PERIPHS_PIN_MUX_10 (0xc8834400 + (0x36 << 2))
#define SEC_PERIPHS_PIN_MUX_10 (0xda834400 + (0x36 << 2))
#define P_PERIPHS_PIN_MUX_10 (volatile uint32_t *)(0xc8834400 + (0x36 << 2))
#define PERIPHS_PIN_MUX_11 (0xc8834400 + (0x37 << 2))
#define SEC_PERIPHS_PIN_MUX_11 (0xda834400 + (0x37 << 2))
#define P_PERIPHS_PIN_MUX_11 (volatile uint32_t *)(0xc8834400 + (0x37 << 2))
#define PERIPHS_PIN_MUX_12 (0xc8834400 + (0x38 << 2))
#define SEC_PERIPHS_PIN_MUX_12 (0xda834400 + (0x38 << 2))
#define P_PERIPHS_PIN_MUX_12 (volatile uint32_t *)(0xc8834400 + (0x38 << 2))
// ----------------------------
// Pad conntrols
// ----------------------------
#define PAD_PULL_UP_REG6 (0xc8834400 + (0x39 << 2))
#define SEC_PAD_PULL_UP_REG6 (0xda834400 + (0x39 << 2))
#define P_PAD_PULL_UP_REG6 (volatile uint32_t *)(0xc8834400 + (0x39 << 2))
#define PAD_PULL_UP_REG0 (0xc8834400 + (0x3a << 2))
#define SEC_PAD_PULL_UP_REG0 (0xda834400 + (0x3a << 2))
#define P_PAD_PULL_UP_REG0 (volatile uint32_t *)(0xc8834400 + (0x3a << 2))
#define PAD_PULL_UP_REG1 (0xc8834400 + (0x3b << 2))
#define SEC_PAD_PULL_UP_REG1 (0xda834400 + (0x3b << 2))
#define P_PAD_PULL_UP_REG1 (volatile uint32_t *)(0xc8834400 + (0x3b << 2))
#define PAD_PULL_UP_REG2 (0xc8834400 + (0x3c << 2))
#define SEC_PAD_PULL_UP_REG2 (0xda834400 + (0x3c << 2))
#define P_PAD_PULL_UP_REG2 (volatile uint32_t *)(0xc8834400 + (0x3c << 2))
#define PAD_PULL_UP_REG3 (0xc8834400 + (0x3d << 2))
#define SEC_PAD_PULL_UP_REG3 (0xda834400 + (0x3d << 2))
#define P_PAD_PULL_UP_REG3 (volatile uint32_t *)(0xc8834400 + (0x3d << 2))
#define PAD_PULL_UP_REG4 (0xc8834400 + (0x3e << 2))
#define SEC_PAD_PULL_UP_REG4 (0xda834400 + (0x3e << 2))
#define P_PAD_PULL_UP_REG4 (volatile uint32_t *)(0xc8834400 + (0x3e << 2))
#define PAD_PULL_UP_REG5 (0xc8834400 + (0x3f << 2))
#define SEC_PAD_PULL_UP_REG5 (0xda834400 + (0x3f << 2))
#define P_PAD_PULL_UP_REG5 (volatile uint32_t *)(0xc8834400 + (0x3f << 2))
// ----------------------------
// Random (2)
// ----------------------------
#define RAND64_ADDR0 (0xc8834400 + (0x40 << 2))
#define SEC_RAND64_ADDR0 (0xda834400 + (0x40 << 2))
#define P_RAND64_ADDR0 (volatile uint32_t *)(0xc8834400 + (0x40 << 2))
#define RAND64_ADDR1 (0xc8834400 + (0x41 << 2))
#define SEC_RAND64_ADDR1 (0xda834400 + (0x41 << 2))
#define P_RAND64_ADDR1 (volatile uint32_t *)(0xc8834400 + (0x41 << 2))
// ---------------------------
// Ethernet (1)
// ----------------------------
#define PREG_ETHERNET_ADDR0 (0xc8834400 + (0x42 << 2))
#define SEC_PREG_ETHERNET_ADDR0 (0xda834400 + (0x42 << 2))
#define P_PREG_ETHERNET_ADDR0 (volatile uint32_t *)(0xc8834400 + (0x42 << 2))
// ---------------------------
// AM_ANALOG_TOP
// ----------------------------
#define PREG_AM_ANALOG_ADDR (0xc8834400 + (0x43 << 2))
#define SEC_PREG_AM_ANALOG_ADDR (0xda834400 + (0x43 << 2))
#define P_PREG_AM_ANALOG_ADDR (volatile uint32_t *)(0xc8834400 + (0x43 << 2))
// ---------------------------
// Mali55 (1)
// ----------------------------
#define PREG_MALI_BYTE_CNTL (0xc8834400 + (0x44 << 2))
#define SEC_PREG_MALI_BYTE_CNTL (0xda834400 + (0x44 << 2))
#define P_PREG_MALI_BYTE_CNTL (volatile uint32_t *)(0xc8834400 + (0x44 << 2))
// ---------------------------
// WIFI (1)
// ----------------------------
#define PREG_WIFI_CNTL (0xc8834400 + (0x45 << 2))
#define SEC_PREG_WIFI_CNTL (0xda834400 + (0x45 << 2))
#define P_PREG_WIFI_CNTL (volatile uint32_t *)(0xc8834400 + (0x45 << 2))
#define PAD_PULL_UP_EN_REG0 (0xc8834400 + (0x48 << 2))
#define SEC_PAD_PULL_UP_EN_REG0 (0xda834400 + (0x48 << 2))
#define P_PAD_PULL_UP_EN_REG0 (volatile uint32_t *)(0xc8834400 + (0x48 << 2))
#define PAD_PULL_UP_EN_REG1 (0xc8834400 + (0x49 << 2))
#define SEC_PAD_PULL_UP_EN_REG1 (0xda834400 + (0x49 << 2))
#define P_PAD_PULL_UP_EN_REG1 (volatile uint32_t *)(0xc8834400 + (0x49 << 2))
#define PAD_PULL_UP_EN_REG2 (0xc8834400 + (0x4a << 2))
#define SEC_PAD_PULL_UP_EN_REG2 (0xda834400 + (0x4a << 2))
#define P_PAD_PULL_UP_EN_REG2 (volatile uint32_t *)(0xc8834400 + (0x4a << 2))
#define PAD_PULL_UP_EN_REG3 (0xc8834400 + (0x4b << 2))
#define SEC_PAD_PULL_UP_EN_REG3 (0xda834400 + (0x4b << 2))
#define P_PAD_PULL_UP_EN_REG3 (volatile uint32_t *)(0xc8834400 + (0x4b << 2))
#define PAD_PULL_UP_EN_REG4 (0xc8834400 + (0x4c << 2))
#define SEC_PAD_PULL_UP_EN_REG4 (0xda834400 + (0x4c << 2))
#define P_PAD_PULL_UP_EN_REG4 (volatile uint32_t *)(0xc8834400 + (0x4c << 2))
#define PAD_PULL_UP_EN_REG5 (0xc8834400 + (0x4d << 2))
#define SEC_PAD_PULL_UP_EN_REG5 (0xda834400 + (0x4d << 2))
#define P_PAD_PULL_UP_EN_REG5 (volatile uint32_t *)(0xc8834400 + (0x4d << 2))
#define PAD_PULL_UP_EN_REG6 (0xc8834400 + (0x4e << 2))
#define SEC_PAD_PULL_UP_EN_REG6 (0xda834400 + (0x4e << 2))
#define P_PAD_PULL_UP_EN_REG6 (volatile uint32_t *)(0xc8834400 + (0x4e << 2))
// ---------------------------
#define PREG_ETH_REG0 (0xc8834400 + (0x50 << 2))
#define SEC_PREG_ETH_REG0 (0xda834400 + (0x50 << 2))
#define P_PREG_ETH_REG0 (volatile uint32_t *)(0xc8834400 + (0x50 << 2))
#define PREG_ETH_REG1 (0xc8834400 + (0x51 << 2))
#define SEC_PREG_ETH_REG1 (0xda834400 + (0x51 << 2))
#define P_PREG_ETH_REG1 (volatile uint32_t *)(0xc8834400 + (0x51 << 2))
#define PREG_NAND_CFG_KEY0 (0xc8834400 + (0x52 << 2))
#define SEC_PREG_NAND_CFG_KEY0 (0xda834400 + (0x52 << 2))
#define P_PREG_NAND_CFG_KEY0 (volatile uint32_t *)(0xc8834400 + (0x52 << 2))
#define PREG_NAND_CFG_KEY1 (0xc8834400 + (0x53 << 2))
#define SEC_PREG_NAND_CFG_KEY1 (0xda834400 + (0x53 << 2))
#define P_PREG_NAND_CFG_KEY1 (volatile uint32_t *)(0xc8834400 + (0x53 << 2))
#define PREG_VPU_SECURE0 (0xc8834400 + (0x54 << 2))
#define SEC_PREG_VPU_SECURE0 (0xda834400 + (0x54 << 2))
#define P_PREG_VPU_SECURE0 (volatile uint32_t *)(0xc8834400 + (0x54 << 2))
#define PREG_VPU_SECURE1 (0xc8834400 + (0x55 << 2))
#define SEC_PREG_VPU_SECURE1 (0xda834400 + (0x55 << 2))
#define P_PREG_VPU_SECURE1 (volatile uint32_t *)(0xc8834400 + (0x55 << 2))
// ---------------------------
// Generic production test
// ----------------------------
#define PROD_TEST_REG0 (0xc8834400 + (0x60 << 2))
#define SEC_PROD_TEST_REG0 (0xda834400 + (0x60 << 2))
#define P_PROD_TEST_REG0 (volatile uint32_t *)(0xc8834400 + (0x60 << 2))
#define PROD_TEST_REG1 (0xc8834400 + (0x61 << 2))
#define SEC_PROD_TEST_REG1 (0xda834400 + (0x61 << 2))
#define P_PROD_TEST_REG1 (volatile uint32_t *)(0xc8834400 + (0x61 << 2))
#define PROD_TEST_REG2 (0xc8834400 + (0x62 << 2))
#define SEC_PROD_TEST_REG2 (0xda834400 + (0x62 << 2))
#define P_PROD_TEST_REG2 (volatile uint32_t *)(0xc8834400 + (0x62 << 2))
#define PROD_TEST_REG3 (0xc8834400 + (0x63 << 2))
#define SEC_PROD_TEST_REG3 (0xda834400 + (0x63 << 2))
#define P_PROD_TEST_REG3 (volatile uint32_t *)(0xc8834400 + (0x63 << 2))
// ---------------------------
// am_analog_top
// ----------------------------
#define METAL_REVISION (0xc8834400 + (0x6a << 2))
#define SEC_METAL_REVISION (0xda834400 + (0x6a << 2))
#define P_METAL_REVISION (volatile uint32_t *)(0xc8834400 + (0x6a << 2))
#define ADC_TOP_MISC (0xc8834400 + (0x6b << 2))
#define SEC_ADC_TOP_MISC (0xda834400 + (0x6b << 2))
#define P_ADC_TOP_MISC (volatile uint32_t *)(0xc8834400 + (0x6b << 2))
#define DPLL_TOP_MISC (0xc8834400 + (0x6c << 2))
#define SEC_DPLL_TOP_MISC (0xda834400 + (0x6c << 2))
#define P_DPLL_TOP_MISC (volatile uint32_t *)(0xc8834400 + (0x6c << 2))
#define ANALOG_TOP_MISC (0xc8834400 + (0x6d << 2))
#define SEC_ANALOG_TOP_MISC (0xda834400 + (0x6d << 2))
#define P_ANALOG_TOP_MISC (volatile uint32_t *)(0xc8834400 + (0x6d << 2))
#define AM_ANALOG_TOP_REG0 (0xc8834400 + (0x6e << 2))
#define SEC_AM_ANALOG_TOP_REG0 (0xda834400 + (0x6e << 2))
#define P_AM_ANALOG_TOP_REG0 (volatile uint32_t *)(0xc8834400 + (0x6e << 2))
#define AM_ANALOG_TOP_REG1 (0xc8834400 + (0x6f << 2))
#define SEC_AM_ANALOG_TOP_REG1 (0xda834400 + (0x6f << 2))
#define P_AM_ANALOG_TOP_REG1 (volatile uint32_t *)(0xc8834400 + (0x6f << 2))
// ---------------------------
// Sticky regs
// ----------------------------
#define PREG_STICKY_REG0 (0xc8834400 + (0x7c << 2))
#define SEC_PREG_STICKY_REG0 (0xda834400 + (0x7c << 2))
#define P_PREG_STICKY_REG0 (volatile uint32_t *)(0xc8834400 + (0x7c << 2))
#define PREG_STICKY_REG1 (0xc8834400 + (0x7d << 2))
#define SEC_PREG_STICKY_REG1 (0xda834400 + (0x7d << 2))
#define P_PREG_STICKY_REG1 (volatile uint32_t *)(0xc8834400 + (0x7d << 2))
#define PREG_WRITE_ONCE_REG (0xc8834400 + (0x7e << 2))
#define SEC_PREG_WRITE_ONCE_REG (0xda834400 + (0x7e << 2))
#define P_PREG_WRITE_ONCE_REG (volatile uint32_t *)(0xc8834400 + (0x7e << 2))
// ---------------------------
// AM Ring Oscillator
// ----------------------------
#define AM_RING_OSC_REG0 (0xc8834400 + (0x7f << 2))
#define SEC_AM_RING_OSC_REG0 (0xda834400 + (0x7f << 2))
#define P_AM_RING_OSC_REG0 (volatile uint32_t *)(0xc8834400 + (0x7f << 2))
// Control whether to provide random number to HDMITX20
#define HDMITX20_RNDNUM (0xc8834400 + (0x80 << 2))
#define SEC_HDMITX20_RNDNUM (0xda834400 + (0x80 << 2))
#define P_HDMITX20_RNDNUM (volatile uint32_t *)(0xc8834400 + (0x80 << 2))
// ---------------------------
// Bus Monitoring
// ----------------------------
#define BUS_MONITOR_CNTL (0xc8834400 + (0x81 << 2))
#define SEC_BUS_MONITOR_CNTL (0xda834400 + (0x81 << 2))
#define P_BUS_MONITOR_CNTL (volatile uint32_t *)(0xc8834400 + (0x81 << 2))
#define BUS_MON0_ADDR (0xc8834400 + (0x82 << 2))
#define SEC_BUS_MON0_ADDR (0xda834400 + (0x82 << 2))
#define P_BUS_MON0_ADDR (volatile uint32_t *)(0xc8834400 + (0x82 << 2))
#define BUS_MON0_DATA (0xc8834400 + (0x83 << 2))
#define SEC_BUS_MON0_DATA (0xda834400 + (0x83 << 2))
#define P_BUS_MON0_DATA (volatile uint32_t *)(0xc8834400 + (0x83 << 2))
#define BUS_MON0_DATA_MSK (0xc8834400 + (0x84 << 2))
#define SEC_BUS_MON0_DATA_MSK (0xda834400 + (0x84 << 2))
#define P_BUS_MON0_DATA_MSK (volatile uint32_t *)(0xc8834400 + (0x84 << 2))
#define BUS_MON1_ADDR (0xc8834400 + (0x85 << 2))
#define SEC_BUS_MON1_ADDR (0xda834400 + (0x85 << 2))
#define P_BUS_MON1_ADDR (volatile uint32_t *)(0xc8834400 + (0x85 << 2))
#define BUS_MON1_DATA (0xc8834400 + (0x86 << 2))
#define SEC_BUS_MON1_DATA (0xda834400 + (0x86 << 2))
#define P_BUS_MON1_DATA (volatile uint32_t *)(0xc8834400 + (0x86 << 2))
#define BUS_MON1_DATA_MSK (0xc8834400 + (0x87 << 2))
#define SEC_BUS_MON1_DATA_MSK (0xda834400 + (0x87 << 2))
#define P_BUS_MON1_DATA_MSK (volatile uint32_t *)(0xc8834400 + (0x87 << 2))
// ---------------------------
// System CPU control registers
// ----------------------------
#define SYS_CPU_POR_CFG0 (0xc8834400 + (0x90 << 2))
#define SEC_SYS_CPU_POR_CFG0 (0xda834400 + (0x90 << 2))
#define P_SYS_CPU_POR_CFG0 (volatile uint32_t *)(0xc8834400 + (0x90 << 2))
#define SYS_CPU_POR_CFG1 (0xc8834400 + (0x91 << 2))
#define SEC_SYS_CPU_POR_CFG1 (0xda834400 + (0x91 << 2))
#define P_SYS_CPU_POR_CFG1 (volatile uint32_t *)(0xc8834400 + (0x91 << 2))
#define SYS_CPU_CFG0 (0xc8834400 + (0x92 << 2))
#define SEC_SYS_CPU_CFG0 (0xda834400 + (0x92 << 2))
#define P_SYS_CPU_CFG0 (volatile uint32_t *)(0xc8834400 + (0x92 << 2))
#define SYS_CPU_CFG1 (0xc8834400 + (0x93 << 2))
#define SEC_SYS_CPU_CFG1 (0xda834400 + (0x93 << 2))
#define P_SYS_CPU_CFG1 (volatile uint32_t *)(0xc8834400 + (0x93 << 2))
#define SYS_CPU_CFG2 (0xc8834400 + (0x94 << 2))
#define SEC_SYS_CPU_CFG2 (0xda834400 + (0x94 << 2))
#define P_SYS_CPU_CFG2 (volatile uint32_t *)(0xc8834400 + (0x94 << 2))
#define SYS_CPU_CFG3 (0xc8834400 + (0x95 << 2))
#define SEC_SYS_CPU_CFG3 (0xda834400 + (0x95 << 2))
#define P_SYS_CPU_CFG3 (volatile uint32_t *)(0xc8834400 + (0x95 << 2))
#define SYS_CPU_CFG4 (0xc8834400 + (0x96 << 2))
#define SEC_SYS_CPU_CFG4 (0xda834400 + (0x96 << 2))
#define P_SYS_CPU_CFG4 (volatile uint32_t *)(0xc8834400 + (0x96 << 2))
#define SYS_CPU_CFG5 (0xc8834400 + (0x97 << 2))
#define SEC_SYS_CPU_CFG5 (0xda834400 + (0x97 << 2))
#define P_SYS_CPU_CFG5 (volatile uint32_t *)(0xc8834400 + (0x97 << 2))
#define SYS_CPU_CFG6 (0xc8834400 + (0x98 << 2))
#define SEC_SYS_CPU_CFG6 (0xda834400 + (0x98 << 2))
#define P_SYS_CPU_CFG6 (volatile uint32_t *)(0xc8834400 + (0x98 << 2))
#define SYS_CPU_CFG7 (0xc8834400 + (0x99 << 2))
#define SEC_SYS_CPU_CFG7 (0xda834400 + (0x99 << 2))
#define P_SYS_CPU_CFG7 (volatile uint32_t *)(0xc8834400 + (0x99 << 2))
#define SYS_CPU_CFG8 (0xc8834400 + (0x9a << 2))
#define SEC_SYS_CPU_CFG8 (0xda834400 + (0x9a << 2))
#define P_SYS_CPU_CFG8 (volatile uint32_t *)(0xc8834400 + (0x9a << 2))
#define SYS_CPU_CFG9 (0xc8834400 + (0x9b << 2))
#define SEC_SYS_CPU_CFG9 (0xda834400 + (0x9b << 2))
#define P_SYS_CPU_CFG9 (volatile uint32_t *)(0xc8834400 + (0x9b << 2))
#define SYS_CPU_CFG10 (0xc8834400 + (0x9c << 2))
#define SEC_SYS_CPU_CFG10 (0xda834400 + (0x9c << 2))
#define P_SYS_CPU_CFG10 (volatile uint32_t *)(0xc8834400 + (0x9c << 2))
#define SYS_CPU_CFG11 (0xc8834400 + (0x9d << 2))
#define SEC_SYS_CPU_CFG11 (0xda834400 + (0x9d << 2))
#define P_SYS_CPU_CFG11 (volatile uint32_t *)(0xc8834400 + (0x9d << 2))
#define SYS_CPU_CFG12 (0xc8834400 + (0x9e << 2))
#define SEC_SYS_CPU_CFG12 (0xda834400 + (0x9e << 2))
#define P_SYS_CPU_CFG12 (volatile uint32_t *)(0xc8834400 + (0x9e << 2))
#define SYS_CPU_CFG13 (0xc8834400 + (0x9f << 2))
#define SEC_SYS_CPU_CFG13 (0xda834400 + (0x9f << 2))
#define P_SYS_CPU_CFG13 (volatile uint32_t *)(0xc8834400 + (0x9f << 2))
#define SYS_CPU_STATUS0 (0xc8834400 + (0xa0 << 2))
#define SEC_SYS_CPU_STATUS0 (0xda834400 + (0xa0 << 2))
#define P_SYS_CPU_STATUS0 (volatile uint32_t *)(0xc8834400 + (0xa0 << 2))
#define SYS_CPU_STATUS1 (0xc8834400 + (0xa1 << 2))
#define SEC_SYS_CPU_STATUS1 (0xda834400 + (0xa1 << 2))
#define P_SYS_CPU_STATUS1 (volatile uint32_t *)(0xc8834400 + (0xa1 << 2))
#define SYS_CPU_STATUS2 (0xc8834400 + (0xa2 << 2))
#define SEC_SYS_CPU_STATUS2 (0xda834400 + (0xa2 << 2))
#define P_SYS_CPU_STATUS2 (volatile uint32_t *)(0xc8834400 + (0xa2 << 2))
#define SYS_CPU_STATUS3 (0xc8834400 + (0xa3 << 2))
#define SEC_SYS_CPU_STATUS3 (0xda834400 + (0xa3 << 2))
#define P_SYS_CPU_STATUS3 (volatile uint32_t *)(0xc8834400 + (0xa3 << 2))
#define SYS_CPU_STATUS4 (0xc8834400 + (0xa4 << 2))
#define SEC_SYS_CPU_STATUS4 (0xda834400 + (0xa4 << 2))
#define P_SYS_CPU_STATUS4 (volatile uint32_t *)(0xc8834400 + (0xa4 << 2))
#define SYS_CPU_STATUS5 (0xc8834400 + (0xa5 << 2))
#define SEC_SYS_CPU_STATUS5 (0xda834400 + (0xa5 << 2))
#define P_SYS_CPU_STATUS5 (volatile uint32_t *)(0xc8834400 + (0xa5 << 2))
#define SYS_CPU_MISC (0xc8834400 + (0xa8 << 2))
#define SEC_SYS_CPU_MISC (0xda834400 + (0xa8 << 2))
#define P_SYS_CPU_MISC (volatile uint32_t *)(0xc8834400 + (0xa8 << 2))
//========================================================================
// HIU - Registers
//========================================================================
// APB4_DECODER_NON_SECURE_BASE 32'hC883C000
// APB4_DECODER_SECURE_BASE 32'hDA83C000
#define SCR_HIU (0xc883c000 + (0x0b << 2))
#define SEC_SCR_HIU (0xda83c000 + (0x0b << 2))
#define P_SCR_HIU (volatile uint32_t *)(0xc883c000 + (0x0b << 2))
#define HPG_TIMER (0xc883c000 + (0x0f << 2))
#define SEC_HPG_TIMER (0xda83c000 + (0x0f << 2))
#define P_HPG_TIMER (volatile uint32_t *)(0xc883c000 + (0x0f << 2))
#define HHI_GP0_PLL_CNTL (0xc883c000 + (0x10 << 2))
#define SEC_HHI_GP0_PLL_CNTL (0xda83c000 + (0x10 << 2))
#define P_HHI_GP0_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0x10 << 2))
#define HHI_GP0_PLL_CNTL2 (0xc883c000 + (0x11 << 2))
#define SEC_HHI_GP0_PLL_CNTL2 (0xda83c000 + (0x11 << 2))
#define P_HHI_GP0_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x11 << 2))
#define HHI_GP0_PLL_CNTL3 (0xc883c000 + (0x12 << 2))
#define SEC_HHI_GP0_PLL_CNTL3 (0xda83c000 + (0x12 << 2))
#define P_HHI_GP0_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x12 << 2))
#define HHI_GP0_PLL_CNTL4 (0xc883c000 + (0x13 << 2))
#define SEC_HHI_GP0_PLL_CNTL4 (0xda83c000 + (0x13 << 2))
#define P_HHI_GP0_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0x13 << 2))
#define HHI_GP0_PLL_CNTL5 (0xc883c000 + (0x14 << 2))
#define SEC_HHI_GP0_PLL_CNTL5 (0xda83c000 + (0x14 << 2))
#define P_HHI_GP0_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0x14 << 2))
#define HHI_GP1_PLL_CNTL (0xc883c000 + (0x16 << 2))
#define SEC_HHI_GP1_PLL_CNTL (0xda83c000 + (0x16 << 2))
#define P_HHI_GP1_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0x16 << 2))
#define HHI_GP1_PLL_CNTL2 (0xc883c000 + (0x17 << 2))
#define SEC_HHI_GP1_PLL_CNTL2 (0xda83c000 + (0x17 << 2))
#define P_HHI_GP1_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x17 << 2))
#define HHI_GP1_PLL_CNTL3 (0xc883c000 + (0x18 << 2))
#define SEC_HHI_GP1_PLL_CNTL3 (0xda83c000 + (0x18 << 2))
#define P_HHI_GP1_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x18 << 2))
#define HHI_GP1_PLL_CNTL4 (0xc883c000 + (0x19 << 2))
#define SEC_HHI_GP1_PLL_CNTL4 (0xda83c000 + (0x19 << 2))
#define P_HHI_GP1_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0x19 << 2))
#define HHI_GP1_PLL_CNTL5 (0xc883c000 + (0x1a << 2))
#define SEC_HHI_GP1_PLL_CNTL5 (0xda83c000 + (0x1a << 2))
#define P_HHI_GP1_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0x1a << 2))
#define HHI_CADC_CNTL (0xc883c000 + (0x20 << 2))
#define SEC_HHI_CADC_CNTL (0xda83c000 + (0x20 << 2))
#define P_HHI_CADC_CNTL (volatile uint32_t *)(0xc883c000 + (0x20 << 2))
#define HHI_CADC_CNTL2 (0xc883c000 + (0x21 << 2))
#define SEC_HHI_CADC_CNTL2 (0xda83c000 + (0x21 << 2))
#define P_HHI_CADC_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x21 << 2))
#define HHI_CADC_CNTL3 (0xc883c000 + (0x22 << 2))
#define SEC_HHI_CADC_CNTL3 (0xda83c000 + (0x22 << 2))
#define P_HHI_CADC_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x22 << 2))
#define HHI_CADC_CNTL4 (0xc883c000 + (0x23 << 2))
#define SEC_HHI_CADC_CNTL4 (0xda83c000 + (0x23 << 2))
#define P_HHI_CADC_CNTL4 (volatile uint32_t *)(0xc883c000 + (0x23 << 2))
#define HHI_CADC_CNTL5 (0xc883c000 + (0x24 << 2))
#define SEC_HHI_CADC_CNTL5 (0xda83c000 + (0x24 << 2))
#define P_HHI_CADC_CNTL5 (volatile uint32_t *)(0xc883c000 + (0x24 << 2))
#define HHI_CADC_CNTL6 (0xc883c000 + (0x25 << 2))
#define SEC_HHI_CADC_CNTL6 (0xda83c000 + (0x25 << 2))
#define P_HHI_CADC_CNTL6 (volatile uint32_t *)(0xc883c000 + (0x25 << 2))
#define HHI_DADC_CNTL (0xc883c000 + (0x27 << 2))
#define SEC_HHI_DADC_CNTL (0xda83c000 + (0x27 << 2))
#define P_HHI_DADC_CNTL (volatile uint32_t *)(0xc883c000 + (0x27 << 2))
#define HHI_DADC_CNTL2 (0xc883c000 + (0x28 << 2))
#define SEC_HHI_DADC_CNTL2 (0xda83c000 + (0x28 << 2))
#define P_HHI_DADC_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x28 << 2))
#define HHI_DADC_RDBK0_I (0xc883c000 + (0x29 << 2))
#define SEC_HHI_DADC_RDBK0_I (0xda83c000 + (0x29 << 2))
#define P_HHI_DADC_RDBK0_I (volatile uint32_t *)(0xc883c000 + (0x29 << 2))
#define HHI_DADC_CNTL3 (0xc883c000 + (0x2a << 2))
#define SEC_HHI_DADC_CNTL3 (0xda83c000 + (0x2a << 2))
#define P_HHI_DADC_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x2a << 2))
#define HHI_DADC_CNTL4 (0xc883c000 + (0x2b << 2))
#define SEC_HHI_DADC_CNTL4 (0xda83c000 + (0x2b << 2))
#define P_HHI_DADC_CNTL4 (volatile uint32_t *)(0xc883c000 + (0x2b << 2))
#define HHI_XTAL_DIVN_CNTL (0xc883c000 + (0x2f << 2))
#define SEC_HHI_XTAL_DIVN_CNTL (0xda83c000 + (0x2f << 2))
#define P_HHI_XTAL_DIVN_CNTL (volatile uint32_t *)(0xc883c000 + (0x2f << 2))
#define HHI_TIMER90K (0xc883c000 + (0x3b << 2))
#define SEC_HHI_TIMER90K (0xda83c000 + (0x3b << 2))
#define P_HHI_TIMER90K (volatile uint32_t *)(0xc883c000 + (0x3b << 2))
#define HHI_MEM_PD_REG0 (0xc883c000 + (0x40 << 2))
#define SEC_HHI_MEM_PD_REG0 (0xda83c000 + (0x40 << 2))
#define P_HHI_MEM_PD_REG0 (volatile uint32_t *)(0xc883c000 + (0x40 << 2))
//VIU1
//bit 29:28 mem_pd_vi_sharp, 2'b00: Sharpness line buffer memory power on, 2'b11: power down
//bit 29:28 mem_pd_vi_dipost, 2'b00: Deinterlace - di_post memory power on, 2'b11: power down
//bit 27:26 mem_pd_vi_dipre, 2'b00: Deinterlace - di_pre memory power on, 2'b11: power down
//bit 25:24 mem_pd_vi_prot3, 2'b00: picture rotation3 memory power on, 2'b11: power down
//bit 23:22 mem_pd_vi_prot2, 2'b00: picture rotation2 memory power on, 2'b11: power down
//bit 21:20 mem_pd_vi_prot1, 2'b00: picture rotation1 memory power on, 2'b11: power down
//bit 19:18 mem_pd_vi_vdin1, 2'b00: vdin1 memory power on, 2'b11: power down
//bit 17:16 mem_pd_vi_vdin0, 2'b00: vdin0 memory power on, 2'b11: power down
//bit 15:14 mem_pd_vi_osd_sc, 2'b00: osd_scaler memory power on, 2'b11: power down
//bit 13:12 mem_pd_vi_scale, 2'b00: scaler memory power on, 2'b11: power down
//bit 11:10 mem_pd_vi_ofifo, 2'b00: vpp output fifo memory power on, 2'b11: power down
//bit 9:8 mem_pd_vi_chroma, 2'b00: color management module memory power on, 2'b11: power down
//bit 7:6 mem_pd_vi_vd2, 2'b00: vd2 memory power on, 2'b11: power down
//bit 5:4 mem_pd_vi_vd1, 2'b00: vd1 memory power on, 2'b11: power down
//bit 3:2 mem_pd_vi_osd2, 2'b00: osd2 memory power on, 2'b11: power down
//bit 1:0 mem_pd_vi_osd1, 2'b00: osd1 memory power on, 2'b11: power down
#define HHI_VPU_MEM_PD_REG0 (0xc883c000 + (0x41 << 2))
#define SEC_HHI_VPU_MEM_PD_REG0 (0xda83c000 + (0x41 << 2))
#define P_HHI_VPU_MEM_PD_REG0 (volatile uint32_t *)(0xc883c000 + (0x41 << 2))
//bit 29:28 mem_pd_atv_dmd, 2'b00: ATV DMD memory power on, 2'b11: power down
//bit 29:28 mem_pd_cvd2, 2'b00: CVD2 memory power on, 2'b11: power down
//bit 27:26 mem_pd_isp, 2'b00: ISP memory power on, 2'b11: power down
//bit 25:24 mem_pd_venci_int, 2'b00: cvbs- enci interface memory power on, 2'b11: power down
//bit 23:22 mem_pd_venc_l_top,2'b00: panel - encl top memory power on, 2'b11: power down
//bit 21:20 mem_pd_vencp_int, 2'b00: hdmi - encp interface memory power on, 2'b11: power down
//bit 13:12 mem_pd_vi2_osd_sc,2'b00: viu2 OSD scaler memory power on, 2'b11: power down
//bit 11:10 mem_pd_vi2_scale, 2'b00: viu2 scaler memory power on, 2'b11: power down
//bit 9:8 mem_pd_vi2_ofifo, 2'b00: viu2 vpp output fifo memory power on, 2'b11: power down
//bit 7:6 mem_pd_vi2_chroma,2'b00: viu2 color management module memory power on, 2'b11: power down
//bit 5:4 mem_pd_vi2_vd1, 2'b00: viu2 vd1 memory power on, 2'b11: power down
//bit 3:2 mem_pd_vi2_osd2, 2'b00: viu2 osd2 memory power on, 2'b11: power down
//bit 1:0 mem_pd_vi2_osd1, 2'b00: viu2 osd1 memory power on, 2'b11: power down
#define HHI_VPU_MEM_PD_REG1 (0xc883c000 + (0x42 << 2))
#define SEC_HHI_VPU_MEM_PD_REG1 (0xda83c000 + (0x42 << 2))
#define P_HHI_VPU_MEM_PD_REG1 (volatile uint32_t *)(0xc883c000 + (0x42 << 2))
#define HHI_DEMOD_MEM_PD_REG (0xc883c000 + (0x43 << 2))
#define SEC_HHI_DEMOD_MEM_PD_REG (0xda83c000 + (0x43 << 2))
#define P_HHI_DEMOD_MEM_PD_REG (volatile uint32_t *)(0xc883c000 + (0x43 << 2))
#define HHI_AUD_DAC_CTRL (0xc883c000 + (0x44 << 2))
#define SEC_HHI_AUD_DAC_CTRL (0xda83c000 + (0x44 << 2))
#define P_HHI_AUD_DAC_CTRL (volatile uint32_t *)(0xc883c000 + (0x44 << 2))
// `define HHI_VIID_PLL_CNTL4 8'h46 // video PLL read back
// `define HHI_VIID_PLL_CNTL 8'h47 // Video PLL control, word 1
// `define HHI_VIID_PLL_CNTL2 8'h48 // Video PLL control, word 2
// `define HHI_VIID_PLL_CNTL3 8'h49 // Video PLL control, word 3
#define HHI_VIID_CLK_DIV (0xc883c000 + (0x4a << 2))
#define SEC_HHI_VIID_CLK_DIV (0xda83c000 + (0x4a << 2))
#define P_HHI_VIID_CLK_DIV (volatile uint32_t *)(0xc883c000 + (0x4a << 2))
#define HHI_VIID_CLK_CNTL (0xc883c000 + (0x4b << 2))
#define SEC_HHI_VIID_CLK_CNTL (0xda83c000 + (0x4b << 2))
#define P_HHI_VIID_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x4b << 2))
#define HHI_VIID_DIVIDER_CNTL (0xc883c000 + (0x4c << 2))
#define SEC_HHI_VIID_DIVIDER_CNTL (0xda83c000 + (0x4c << 2))
#define P_HHI_VIID_DIVIDER_CNTL (volatile uint32_t *)(0xc883c000 + (0x4c << 2))
// Gated clock enables. There are 64 enables for the MPEG clocks and 32 enables for other clock domains
#define HHI_GCLK_MPEG0 (0xc883c000 + (0x50 << 2))
#define SEC_HHI_GCLK_MPEG0 (0xda83c000 + (0x50 << 2))
#define P_HHI_GCLK_MPEG0 (volatile uint32_t *)(0xc883c000 + (0x50 << 2))
#define HHI_GCLK_MPEG1 (0xc883c000 + (0x51 << 2))
#define SEC_HHI_GCLK_MPEG1 (0xda83c000 + (0x51 << 2))
#define P_HHI_GCLK_MPEG1 (volatile uint32_t *)(0xc883c000 + (0x51 << 2))
#define HHI_GCLK_MPEG2 (0xc883c000 + (0x52 << 2))
#define SEC_HHI_GCLK_MPEG2 (0xda83c000 + (0x52 << 2))
#define P_HHI_GCLK_MPEG2 (volatile uint32_t *)(0xc883c000 + (0x52 << 2))
#define HHI_GCLK_OTHER (0xc883c000 + (0x54 << 2))
#define SEC_HHI_GCLK_OTHER (0xda83c000 + (0x54 << 2))
#define P_HHI_GCLK_OTHER (volatile uint32_t *)(0xc883c000 + (0x54 << 2))
#define HHI_GCLK_AO (0xc883c000 + (0x55 << 2))
#define SEC_HHI_GCLK_AO (0xda83c000 + (0x55 << 2))
#define P_HHI_GCLK_AO (volatile uint32_t *)(0xc883c000 + (0x55 << 2))
#define HHI_SYS_OSCIN_CNTL (0xc883c000 + (0x56 << 2))
#define SEC_HHI_SYS_OSCIN_CNTL (0xda83c000 + (0x56 << 2))
#define P_HHI_SYS_OSCIN_CNTL (volatile uint32_t *)(0xc883c000 + (0x56 << 2))
#define HHI_SYS_CPU_CLK_CNTL1 (0xc883c000 + (0x57 << 2))
#define SEC_HHI_SYS_CPU_CLK_CNTL1 (0xda83c000 + (0x57 << 2))
#define P_HHI_SYS_CPU_CLK_CNTL1 (volatile uint32_t *)(0xc883c000 + (0x57 << 2))
#define HHI_SYS_CPU_RESET_CNTL (0xc883c000 + (0x58 << 2))
#define SEC_HHI_SYS_CPU_RESET_CNTL (0xda83c000 + (0x58 << 2))
#define P_HHI_SYS_CPU_RESET_CNTL (volatile uint32_t *)(0xc883c000 + (0x58 << 2))
// PLL Controls
#define HHI_VID_CLK_DIV (0xc883c000 + (0x59 << 2))
#define SEC_HHI_VID_CLK_DIV (0xda83c000 + (0x59 << 2))
#define P_HHI_VID_CLK_DIV (volatile uint32_t *)(0xc883c000 + (0x59 << 2))
#define HHI_MPEG_CLK_CNTL (0xc883c000 + (0x5d << 2))
#define SEC_HHI_MPEG_CLK_CNTL (0xda83c000 + (0x5d << 2))
#define P_HHI_MPEG_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x5d << 2))
#define HHI_AUD_CLK_CNTL (0xc883c000 + (0x5e << 2))
#define SEC_HHI_AUD_CLK_CNTL (0xda83c000 + (0x5e << 2))
#define P_HHI_AUD_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x5e << 2))
#define HHI_VID_CLK_CNTL (0xc883c000 + (0x5f << 2))
#define SEC_HHI_VID_CLK_CNTL (0xda83c000 + (0x5f << 2))
#define P_HHI_VID_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x5f << 2))
#define HHI_WIFI_CLK_CNTL (0xc883c000 + (0x60 << 2))
#define SEC_HHI_WIFI_CLK_CNTL (0xda83c000 + (0x60 << 2))
#define P_HHI_WIFI_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x60 << 2))
#define HHI_WIFI_PLL_CNTL (0xc883c000 + (0x61 << 2))
#define SEC_HHI_WIFI_PLL_CNTL (0xda83c000 + (0x61 << 2))
#define P_HHI_WIFI_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0x61 << 2))
#define HHI_WIFI_PLL_CNTL2 (0xc883c000 + (0x62 << 2))
#define SEC_HHI_WIFI_PLL_CNTL2 (0xda83c000 + (0x62 << 2))
#define P_HHI_WIFI_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x62 << 2))
#define HHI_WIFI_PLL_CNTL3 (0xc883c000 + (0x63 << 2))
#define SEC_HHI_WIFI_PLL_CNTL3 (0xda83c000 + (0x63 << 2))
#define P_HHI_WIFI_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x63 << 2))
#define HHI_AUD_CLK_CNTL2 (0xc883c000 + (0x64 << 2))
#define SEC_HHI_AUD_CLK_CNTL2 (0xda83c000 + (0x64 << 2))
#define P_HHI_AUD_CLK_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x64 << 2))
#define HHI_VID_CLK_CNTL2 (0xc883c000 + (0x65 << 2))
#define SEC_HHI_VID_CLK_CNTL2 (0xda83c000 + (0x65 << 2))
#define P_HHI_VID_CLK_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x65 << 2))
#define HHI_VID_DIVIDER_CNTL (0xc883c000 + (0x66 << 2))
#define SEC_HHI_VID_DIVIDER_CNTL (0xda83c000 + (0x66 << 2))
#define P_HHI_VID_DIVIDER_CNTL (volatile uint32_t *)(0xc883c000 + (0x66 << 2))
#define HHI_SYS_CPU_CLK_CNTL (0xc883c000 + (0x67 << 2))
#define SEC_HHI_SYS_CPU_CLK_CNTL (0xda83c000 + (0x67 << 2))
#define P_HHI_SYS_CPU_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x67 << 2))
#define HHI_VID_PLL_CLK_DIV (0xc883c000 + (0x68 << 2))
#define SEC_HHI_VID_PLL_CLK_DIV (0xda83c000 + (0x68 << 2))
#define P_HHI_VID_PLL_CLK_DIV (volatile uint32_t *)(0xc883c000 + (0x68 << 2))
#define HHI_AUD_CLK_CNTL3 (0xc883c000 + (0x69 << 2))
#define SEC_HHI_AUD_CLK_CNTL3 (0xda83c000 + (0x69 << 2))
#define P_HHI_AUD_CLK_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x69 << 2))
// Moved to Martin's domain `define HHI_DDR_PLL_CNTL 8'h68 // DDR PLL control, word 1
// Moved to Martin's domain `define HHI_DDR_PLL_CNTL2 8'h69 // DDR PLL control, word 2
// Moved to Martin's domain `define HHI_DDR_PLL_CNTL3 8'h6a // DDR PLL control, word 3
// Moved to Martin's domain `define HHI_DDR_PLL_CNTL4 8'h6b // DDR PLL control, word 3
#define HHI_MALI_CLK_CNTL (0xc883c000 + (0x6c << 2))
#define SEC_HHI_MALI_CLK_CNTL (0xda83c000 + (0x6c << 2))
#define P_HHI_MALI_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x6c << 2))
#define HHI_MIPI_PHY_CLK_CNTL (0xc883c000 + (0x6e << 2))
#define SEC_HHI_MIPI_PHY_CLK_CNTL (0xda83c000 + (0x6e << 2))
#define P_HHI_MIPI_PHY_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x6e << 2))
#define HHI_VPU_CLK_CNTL (0xc883c000 + (0x6f << 2))
#define SEC_HHI_VPU_CLK_CNTL (0xda83c000 + (0x6f << 2))
#define P_HHI_VPU_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x6f << 2))
#define HHI_OTHER_PLL_CNTL (0xc883c000 + (0x70 << 2))
#define SEC_HHI_OTHER_PLL_CNTL (0xda83c000 + (0x70 << 2))
#define P_HHI_OTHER_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0x70 << 2))
#define HHI_OTHER_PLL_CNTL2 (0xc883c000 + (0x71 << 2))
#define SEC_HHI_OTHER_PLL_CNTL2 (0xda83c000 + (0x71 << 2))
#define P_HHI_OTHER_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x71 << 2))
#define HHI_OTHER_PLL_CNTL3 (0xc883c000 + (0x72 << 2))
#define SEC_HHI_OTHER_PLL_CNTL3 (0xda83c000 + (0x72 << 2))
#define P_HHI_OTHER_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0x72 << 2))
#define HHI_HDMI_CLK_CNTL (0xc883c000 + (0x73 << 2))
#define SEC_HHI_HDMI_CLK_CNTL (0xda83c000 + (0x73 << 2))
#define P_HHI_HDMI_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x73 << 2))
#define HHI_DEMOD_CLK_CNTL (0xc883c000 + (0x74 << 2))
#define SEC_HHI_DEMOD_CLK_CNTL (0xda83c000 + (0x74 << 2))
#define P_HHI_DEMOD_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x74 << 2))
#define HHI_SATA_CLK_CNTL (0xc883c000 + (0x75 << 2))
#define SEC_HHI_SATA_CLK_CNTL (0xda83c000 + (0x75 << 2))
#define P_HHI_SATA_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x75 << 2))
#define HHI_ETH_CLK_CNTL (0xc883c000 + (0x76 << 2))
#define SEC_HHI_ETH_CLK_CNTL (0xda83c000 + (0x76 << 2))
#define P_HHI_ETH_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x76 << 2))
#define HHI_CLK_DOUBLE_CNTL (0xc883c000 + (0x77 << 2))
#define SEC_HHI_CLK_DOUBLE_CNTL (0xda83c000 + (0x77 << 2))
#define P_HHI_CLK_DOUBLE_CNTL (volatile uint32_t *)(0xc883c000 + (0x77 << 2))
#define HHI_VDEC_CLK_CNTL (0xc883c000 + (0x78 << 2))
#define SEC_HHI_VDEC_CLK_CNTL (0xda83c000 + (0x78 << 2))
#define P_HHI_VDEC_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x78 << 2))
#define HHI_VDEC2_CLK_CNTL (0xc883c000 + (0x79 << 2))
#define SEC_HHI_VDEC2_CLK_CNTL (0xda83c000 + (0x79 << 2))
#define P_HHI_VDEC2_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x79 << 2))
#define HHI_VDEC3_CLK_CNTL (0xc883c000 + (0x7a << 2))
#define SEC_HHI_VDEC3_CLK_CNTL (0xda83c000 + (0x7a << 2))
#define P_HHI_VDEC3_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x7a << 2))
#define HHI_VDEC4_CLK_CNTL (0xc883c000 + (0x7b << 2))
#define SEC_HHI_VDEC4_CLK_CNTL (0xda83c000 + (0x7b << 2))
#define P_HHI_VDEC4_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x7b << 2))
#define HHI_HDCP22_CLK_CNTL (0xc883c000 + (0x7c << 2))
#define SEC_HHI_HDCP22_CLK_CNTL (0xda83c000 + (0x7c << 2))
#define P_HHI_HDCP22_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x7c << 2))
#define HHI_VAPBCLK_CNTL (0xc883c000 + (0x7d << 2))
#define SEC_HHI_VAPBCLK_CNTL (0xda83c000 + (0x7d << 2))
#define P_HHI_VAPBCLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x7d << 2))
#define HHI_VP9DEC_CLK_CNTL (0xc883c000 + (0x7e << 2))
#define SEC_HHI_VP9DEC_CLK_CNTL (0xda83c000 + (0x7e << 2))
#define P_HHI_VP9DEC_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x7e << 2))
// `define HHI_SYS_CPU_AUTO_CLK0 8'h78 never used
// `define HHI_SYS_CPU_AUTO_CLK1 8'h79 never used
// `define HHI_MEDIA_CPU_AUTO_CLK0 8'h7a never used
// `define HHI_MEDIA_CPU_AUTO_CLK1 8'h7b never used
#define HHI_HDMI_AFC_CNTL (0xc883c000 + (0x7f << 2))
#define SEC_HHI_HDMI_AFC_CNTL (0xda83c000 + (0x7f << 2))
#define P_HHI_HDMI_AFC_CNTL (volatile uint32_t *)(0xc883c000 + (0x7f << 2))
#define HHI_HDMIRX_CLK_CNTL (0xc883c000 + (0x80 << 2))
#define SEC_HHI_HDMIRX_CLK_CNTL (0xda83c000 + (0x80 << 2))
#define P_HHI_HDMIRX_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x80 << 2))
#define HHI_HDMIRX_AUD_CLK_CNTL (0xc883c000 + (0x81 << 2))
#define SEC_HHI_HDMIRX_AUD_CLK_CNTL (0xda83c000 + (0x81 << 2))
#define P_HHI_HDMIRX_AUD_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x81 << 2))
#define HHI_EDP_APB_CLK_CNTL (0xc883c000 + (0x82 << 2))
#define SEC_HHI_EDP_APB_CLK_CNTL (0xda83c000 + (0x82 << 2))
#define P_HHI_EDP_APB_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x82 << 2))
#define HHI_VPU_CLKB_CNTL (0xc883c000 + (0x83 << 2))
#define SEC_HHI_VPU_CLKB_CNTL (0xda83c000 + (0x83 << 2))
#define P_HHI_VPU_CLKB_CNTL (volatile uint32_t *)(0xc883c000 + (0x83 << 2))
#define HHI_VID_PLL_MOD_CNTL0 (0xc883c000 + (0x84 << 2))
#define SEC_HHI_VID_PLL_MOD_CNTL0 (0xda83c000 + (0x84 << 2))
#define P_HHI_VID_PLL_MOD_CNTL0 (volatile uint32_t *)(0xc883c000 + (0x84 << 2))
#define HHI_VID_PLL_MOD_LOW_TCNT (0xc883c000 + (0x85 << 2))
#define SEC_HHI_VID_PLL_MOD_LOW_TCNT (0xda83c000 + (0x85 << 2))
#define P_HHI_VID_PLL_MOD_LOW_TCNT (volatile uint32_t *)(0xc883c000 + (0x85 << 2))
#define HHI_VID_PLL_MOD_HIGH_TCNT (0xc883c000 + (0x86 << 2))
#define SEC_HHI_VID_PLL_MOD_HIGH_TCNT (0xda83c000 + (0x86 << 2))
#define P_HHI_VID_PLL_MOD_HIGH_TCNT (volatile uint32_t *)(0xc883c000 + (0x86 << 2))
#define HHI_VID_PLL_MOD_NOM_TCNT (0xc883c000 + (0x87 << 2))
#define SEC_HHI_VID_PLL_MOD_NOM_TCNT (0xda83c000 + (0x87 << 2))
#define P_HHI_VID_PLL_MOD_NOM_TCNT (volatile uint32_t *)(0xc883c000 + (0x87 << 2))
#define HHI_USB_CLK_CNTL (0xc883c000 + (0x88 << 2))
#define SEC_HHI_USB_CLK_CNTL (0xda83c000 + (0x88 << 2))
#define P_HHI_USB_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x88 << 2))
// Removed `define HHI_DDR_CLK_CNTL 8'h88
#define HHI_32K_CLK_CNTL (0xc883c000 + (0x89 << 2))
#define SEC_HHI_32K_CLK_CNTL (0xda83c000 + (0x89 << 2))
#define P_HHI_32K_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x89 << 2))
#define HHI_GEN_CLK_CNTL (0xc883c000 + (0x8a << 2))
#define SEC_HHI_GEN_CLK_CNTL (0xda83c000 + (0x8a << 2))
#define P_HHI_GEN_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x8a << 2))
#define HHI_GEN_CLK_CNTL2 (0xc883c000 + (0x8b << 2))
#define SEC_HHI_GEN_CLK_CNTL2 (0xda83c000 + (0x8b << 2))
#define P_HHI_GEN_CLK_CNTL2 (volatile uint32_t *)(0xc883c000 + (0x8b << 2))
#define HHI_JTAG_CONFIG (0xc883c000 + (0x8e << 2))
#define SEC_HHI_JTAG_CONFIG (0xda83c000 + (0x8e << 2))
#define P_HHI_JTAG_CONFIG (volatile uint32_t *)(0xc883c000 + (0x8e << 2))
#define HHI_VAFE_CLKXTALIN_CNTL (0xc883c000 + (0x8f << 2))
#define SEC_HHI_VAFE_CLKXTALIN_CNTL (0xda83c000 + (0x8f << 2))
#define P_HHI_VAFE_CLKXTALIN_CNTL (volatile uint32_t *)(0xc883c000 + (0x8f << 2))
#define HHI_VAFE_CLKOSCIN_CNTL (0xc883c000 + (0x90 << 2))
#define SEC_HHI_VAFE_CLKOSCIN_CNTL (0xda83c000 + (0x90 << 2))
#define P_HHI_VAFE_CLKOSCIN_CNTL (volatile uint32_t *)(0xc883c000 + (0x90 << 2))
#define HHI_VAFE_CLKIN_CNTL (0xc883c000 + (0x91 << 2))
#define SEC_HHI_VAFE_CLKIN_CNTL (0xda83c000 + (0x91 << 2))
#define P_HHI_VAFE_CLKIN_CNTL (volatile uint32_t *)(0xc883c000 + (0x91 << 2))
#define HHI_TVFE_AUTOMODE_CLK_CNTL (0xc883c000 + (0x92 << 2))
#define SEC_HHI_TVFE_AUTOMODE_CLK_CNTL (0xda83c000 + (0x92 << 2))
#define P_HHI_TVFE_AUTOMODE_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x92 << 2))
#define HHI_VAFE_CLKPI_CNTL (0xc883c000 + (0x93 << 2))
#define SEC_HHI_VAFE_CLKPI_CNTL (0xda83c000 + (0x93 << 2))
#define P_HHI_VAFE_CLKPI_CNTL (volatile uint32_t *)(0xc883c000 + (0x93 << 2))
#define HHI_VDIN_MEAS_CLK_CNTL (0xc883c000 + (0x94 << 2))
#define SEC_HHI_VDIN_MEAS_CLK_CNTL (0xda83c000 + (0x94 << 2))
#define P_HHI_VDIN_MEAS_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x94 << 2))
// `define HHI_PCM2_CLK_CNTL 8'h95
#define HHI_PCM_CLK_CNTL (0xc883c000 + (0x96 << 2))
#define SEC_HHI_PCM_CLK_CNTL (0xda83c000 + (0x96 << 2))
#define P_HHI_PCM_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x96 << 2))
#define HHI_NAND_CLK_CNTL (0xc883c000 + (0x97 << 2))
#define SEC_HHI_NAND_CLK_CNTL (0xda83c000 + (0x97 << 2))
#define P_HHI_NAND_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x97 << 2))
#define HHI_ISP_LED_CLK_CNTL (0xc883c000 + (0x98 << 2))
#define SEC_HHI_ISP_LED_CLK_CNTL (0xda83c000 + (0x98 << 2))
#define P_HHI_ISP_LED_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x98 << 2))
#define HHI_SD_EMMC_CLK_CNTL (0xc883c000 + (0x99 << 2))
#define SEC_HHI_SD_EMMC_CLK_CNTL (0xda83c000 + (0x99 << 2))
#define P_HHI_SD_EMMC_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0x99 << 2))
#define HHI_EDP_TX_PHY_CNTL0 (0xc883c000 + (0x9c << 2))
#define SEC_HHI_EDP_TX_PHY_CNTL0 (0xda83c000 + (0x9c << 2))
#define P_HHI_EDP_TX_PHY_CNTL0 (volatile uint32_t *)(0xc883c000 + (0x9c << 2))
#define HHI_EDP_TX_PHY_CNTL1 (0xc883c000 + (0x9d << 2))
#define SEC_HHI_EDP_TX_PHY_CNTL1 (0xda83c000 + (0x9d << 2))
#define P_HHI_EDP_TX_PHY_CNTL1 (volatile uint32_t *)(0xc883c000 + (0x9d << 2))
#define HHI_MPLL_CNTL (0xc883c000 + (0xa0 << 2))
#define SEC_HHI_MPLL_CNTL (0xda83c000 + (0xa0 << 2))
#define P_HHI_MPLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xa0 << 2))
#define HHI_MPLL_CNTL2 (0xc883c000 + (0xa1 << 2))
#define SEC_HHI_MPLL_CNTL2 (0xda83c000 + (0xa1 << 2))
#define P_HHI_MPLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xa1 << 2))
#define HHI_MPLL_CNTL3 (0xc883c000 + (0xa2 << 2))
#define SEC_HHI_MPLL_CNTL3 (0xda83c000 + (0xa2 << 2))
#define P_HHI_MPLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xa2 << 2))
#define HHI_MPLL_CNTL4 (0xc883c000 + (0xa3 << 2))
#define SEC_HHI_MPLL_CNTL4 (0xda83c000 + (0xa3 << 2))
#define P_HHI_MPLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xa3 << 2))
#define HHI_MPLL_CNTL5 (0xc883c000 + (0xa4 << 2))
#define SEC_HHI_MPLL_CNTL5 (0xda83c000 + (0xa4 << 2))
#define P_HHI_MPLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xa4 << 2))
#define HHI_MPLL_CNTL6 (0xc883c000 + (0xa5 << 2))
#define SEC_HHI_MPLL_CNTL6 (0xda83c000 + (0xa5 << 2))
#define P_HHI_MPLL_CNTL6 (volatile uint32_t *)(0xc883c000 + (0xa5 << 2))
#define HHI_MPLL_CNTL7 (0xc883c000 + (0xa6 << 2))
#define SEC_HHI_MPLL_CNTL7 (0xda83c000 + (0xa6 << 2))
#define P_HHI_MPLL_CNTL7 (volatile uint32_t *)(0xc883c000 + (0xa6 << 2))
#define HHI_MPLL_CNTL8 (0xc883c000 + (0xa7 << 2))
#define SEC_HHI_MPLL_CNTL8 (0xda83c000 + (0xa7 << 2))
#define P_HHI_MPLL_CNTL8 (volatile uint32_t *)(0xc883c000 + (0xa7 << 2))
#define HHI_MPLL_CNTL9 (0xc883c000 + (0xa8 << 2))
#define SEC_HHI_MPLL_CNTL9 (0xda83c000 + (0xa8 << 2))
#define P_HHI_MPLL_CNTL9 (volatile uint32_t *)(0xc883c000 + (0xa8 << 2))
#define HHI_MPLL_CNTL10 (0xc883c000 + (0xa9 << 2))
#define SEC_HHI_MPLL_CNTL10 (0xda83c000 + (0xa9 << 2))
#define P_HHI_MPLL_CNTL10 (volatile uint32_t *)(0xc883c000 + (0xa9 << 2))
#define HHI_ADC_PLL_CNTL (0xc883c000 + (0xaa << 2))
#define SEC_HHI_ADC_PLL_CNTL (0xda83c000 + (0xaa << 2))
#define P_HHI_ADC_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xaa << 2))
#define HHI_ADC_PLL_CNTL2 (0xc883c000 + (0xab << 2))
#define SEC_HHI_ADC_PLL_CNTL2 (0xda83c000 + (0xab << 2))
#define P_HHI_ADC_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xab << 2))
#define HHI_ADC_PLL_CNTL3 (0xc883c000 + (0xac << 2))
#define SEC_HHI_ADC_PLL_CNTL3 (0xda83c000 + (0xac << 2))
#define P_HHI_ADC_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xac << 2))
#define HHI_ADC_PLL_CNTL4 (0xc883c000 + (0xad << 2))
#define SEC_HHI_ADC_PLL_CNTL4 (0xda83c000 + (0xad << 2))
#define P_HHI_ADC_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xad << 2))
#define HHI_ADC_PLL_CNTL_I (0xc883c000 + (0xae << 2))
#define SEC_HHI_ADC_PLL_CNTL_I (0xda83c000 + (0xae << 2))
#define P_HHI_ADC_PLL_CNTL_I (volatile uint32_t *)(0xc883c000 + (0xae << 2))
#define HHI_AUDCLK_PLL_CNTL (0xc883c000 + (0xb0 << 2))
#define SEC_HHI_AUDCLK_PLL_CNTL (0xda83c000 + (0xb0 << 2))
#define P_HHI_AUDCLK_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xb0 << 2))
#define HHI_AUDCLK_PLL_CNTL2 (0xc883c000 + (0xb1 << 2))
#define SEC_HHI_AUDCLK_PLL_CNTL2 (0xda83c000 + (0xb1 << 2))
#define P_HHI_AUDCLK_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xb1 << 2))
#define HHI_AUDCLK_PLL_CNTL3 (0xc883c000 + (0xb2 << 2))
#define SEC_HHI_AUDCLK_PLL_CNTL3 (0xda83c000 + (0xb2 << 2))
#define P_HHI_AUDCLK_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xb2 << 2))
#define HHI_AUDCLK_PLL_CNTL4 (0xc883c000 + (0xb3 << 2))
#define SEC_HHI_AUDCLK_PLL_CNTL4 (0xda83c000 + (0xb3 << 2))
#define P_HHI_AUDCLK_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xb3 << 2))
#define HHI_AUDCLK_PLL_CNTL5 (0xc883c000 + (0xb4 << 2))
#define SEC_HHI_AUDCLK_PLL_CNTL5 (0xda83c000 + (0xb4 << 2))
#define P_HHI_AUDCLK_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xb4 << 2))
#define HHI_AUDCLK_PLL_CNTL6 (0xc883c000 + (0xb5 << 2))
#define SEC_HHI_AUDCLK_PLL_CNTL6 (0xda83c000 + (0xb5 << 2))
#define P_HHI_AUDCLK_PLL_CNTL6 (volatile uint32_t *)(0xc883c000 + (0xb5 << 2))
#define HHI_L2_DDR_CLK_CNTL (0xc883c000 + (0xb6 << 2))
#define SEC_HHI_L2_DDR_CLK_CNTL (0xda83c000 + (0xb6 << 2))
#define P_HHI_L2_DDR_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0xb6 << 2))
#define HHI_MPLL3_CNTL0 (0xc883c000 + (0xb8 << 2))
#define SEC_HHI_MPLL3_CNTL0 (0xda83c000 + (0xb8 << 2))
#define P_HHI_MPLL3_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xb8 << 2))
#define HHI_MPLL3_CNTL1 (0xc883c000 + (0xb9 << 2))
#define SEC_HHI_MPLL3_CNTL1 (0xda83c000 + (0xb9 << 2))
#define P_HHI_MPLL3_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xb9 << 2))
#define HHI_VDAC_CNTL0 (0xc883c000 + (0xbd << 2))
#define SEC_HHI_VDAC_CNTL0 (0xda83c000 + (0xbd << 2))
#define P_HHI_VDAC_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xbd << 2))
#define HHI_VDAC_CNTL1 (0xc883c000 + (0xbe << 2))
#define SEC_HHI_VDAC_CNTL1 (0xda83c000 + (0xbe << 2))
#define P_HHI_VDAC_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xbe << 2))
#define HHI_SYS_PLL_CNTL (0xc883c000 + (0xc0 << 2))
#define SEC_HHI_SYS_PLL_CNTL (0xda83c000 + (0xc0 << 2))
#define P_HHI_SYS_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xc0 << 2))
#define HHI_SYS_PLL_CNTL2 (0xc883c000 + (0xc1 << 2))
#define SEC_HHI_SYS_PLL_CNTL2 (0xda83c000 + (0xc1 << 2))
#define P_HHI_SYS_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xc1 << 2))
#define HHI_SYS_PLL_CNTL3 (0xc883c000 + (0xc2 << 2))
#define SEC_HHI_SYS_PLL_CNTL3 (0xda83c000 + (0xc2 << 2))
#define P_HHI_SYS_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xc2 << 2))
#define HHI_SYS_PLL_CNTL4 (0xc883c000 + (0xc3 << 2))
#define SEC_HHI_SYS_PLL_CNTL4 (0xda83c000 + (0xc3 << 2))
#define P_HHI_SYS_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xc3 << 2))
#define HHI_SYS_PLL_CNTL5 (0xc883c000 + (0xc4 << 2))
#define SEC_HHI_SYS_PLL_CNTL5 (0xda83c000 + (0xc4 << 2))
#define P_HHI_SYS_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xc4 << 2))
#define HHI_DPLL_TOP_I (0xc883c000 + (0xc6 << 2))
#define SEC_HHI_DPLL_TOP_I (0xda83c000 + (0xc6 << 2))
#define P_HHI_DPLL_TOP_I (volatile uint32_t *)(0xc883c000 + (0xc6 << 2))
#define HHI_DPLL_TOP2_I (0xc883c000 + (0xc7 << 2))
#define SEC_HHI_DPLL_TOP2_I (0xda83c000 + (0xc7 << 2))
#define P_HHI_DPLL_TOP2_I (volatile uint32_t *)(0xc883c000 + (0xc7 << 2))
#define HHI_HDMI_PLL_CNTL (0xc883c000 + (0xc8 << 2))
#define SEC_HHI_HDMI_PLL_CNTL (0xda83c000 + (0xc8 << 2))
#define P_HHI_HDMI_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xc8 << 2))
#define HHI_HDMI_PLL_CNTL2 (0xc883c000 + (0xc9 << 2))
#define SEC_HHI_HDMI_PLL_CNTL2 (0xda83c000 + (0xc9 << 2))
#define P_HHI_HDMI_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xc9 << 2))
#define HHI_HDMI_PLL_CNTL3 (0xc883c000 + (0xca << 2))
#define SEC_HHI_HDMI_PLL_CNTL3 (0xda83c000 + (0xca << 2))
#define P_HHI_HDMI_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xca << 2))
#define HHI_HDMI_PLL_CNTL4 (0xc883c000 + (0xcb << 2))
#define SEC_HHI_HDMI_PLL_CNTL4 (0xda83c000 + (0xcb << 2))
#define P_HHI_HDMI_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xcb << 2))
#define HHI_HDMI_PLL_CNTL5 (0xc883c000 + (0xcc << 2))
#define SEC_HHI_HDMI_PLL_CNTL5 (0xda83c000 + (0xcc << 2))
#define P_HHI_HDMI_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xcc << 2))
#define HHI_HDMI_PLL_CNTL6 (0xc883c000 + (0xcd << 2))
#define SEC_HHI_HDMI_PLL_CNTL6 (0xda83c000 + (0xcd << 2))
#define P_HHI_HDMI_PLL_CNTL6 (volatile uint32_t *)(0xc883c000 + (0xcd << 2))
#define HHI_HDMI_PLL_CNTL_I (0xc883c000 + (0xce << 2))
#define SEC_HHI_HDMI_PLL_CNTL_I (0xda83c000 + (0xce << 2))
#define P_HHI_HDMI_PLL_CNTL_I (volatile uint32_t *)(0xc883c000 + (0xce << 2))
#define HHI_HDMI_PLL_CNTL7 (0xc883c000 + (0xcf << 2))
#define SEC_HHI_HDMI_PLL_CNTL7 (0xda83c000 + (0xcf << 2))
#define P_HHI_HDMI_PLL_CNTL7 (volatile uint32_t *)(0xc883c000 + (0xcf << 2))
#define HHI_DSI_LVDS_EDP_CNTL0 (0xc883c000 + (0xd1 << 2))
#define SEC_HHI_DSI_LVDS_EDP_CNTL0 (0xda83c000 + (0xd1 << 2))
#define P_HHI_DSI_LVDS_EDP_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xd1 << 2))
#define HHI_DSI_LVDS_EDP_CNTL1 (0xc883c000 + (0xd2 << 2))
#define SEC_HHI_DSI_LVDS_EDP_CNTL1 (0xda83c000 + (0xd2 << 2))
#define P_HHI_DSI_LVDS_EDP_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xd2 << 2))
#define HHI_CSI_PHY_CNTL0 (0xc883c000 + (0xd3 << 2))
#define SEC_HHI_CSI_PHY_CNTL0 (0xda83c000 + (0xd3 << 2))
#define P_HHI_CSI_PHY_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xd3 << 2))
#define HHI_CSI_PHY_CNTL1 (0xc883c000 + (0xd4 << 2))
#define SEC_HHI_CSI_PHY_CNTL1 (0xda83c000 + (0xd4 << 2))
#define P_HHI_CSI_PHY_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xd4 << 2))
#define HHI_CSI_PHY_CNTL2 (0xc883c000 + (0xd5 << 2))
#define SEC_HHI_CSI_PHY_CNTL2 (0xda83c000 + (0xd5 << 2))
#define P_HHI_CSI_PHY_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xd5 << 2))
#define HHI_CSI_PHY_CNTL3 (0xc883c000 + (0xd6 << 2))
#define SEC_HHI_CSI_PHY_CNTL3 (0xda83c000 + (0xd6 << 2))
#define P_HHI_CSI_PHY_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xd6 << 2))
#define HHI_CSI_PHY_CNTL4 (0xc883c000 + (0xd7 << 2))
#define SEC_HHI_CSI_PHY_CNTL4 (0xda83c000 + (0xd7 << 2))
#define P_HHI_CSI_PHY_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xd7 << 2))
#define HHI_DIF_CSI_PHY_CNTL0 (0xc883c000 + (0xd8 << 2))
#define SEC_HHI_DIF_CSI_PHY_CNTL0 (0xda83c000 + (0xd8 << 2))
#define P_HHI_DIF_CSI_PHY_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xd8 << 2))
#define HHI_DIF_CSI_PHY_CNTL1 (0xc883c000 + (0xd9 << 2))
#define SEC_HHI_DIF_CSI_PHY_CNTL1 (0xda83c000 + (0xd9 << 2))
#define P_HHI_DIF_CSI_PHY_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xd9 << 2))
#define HHI_DIF_CSI_PHY_CNTL2 (0xc883c000 + (0xda << 2))
#define SEC_HHI_DIF_CSI_PHY_CNTL2 (0xda83c000 + (0xda << 2))
#define P_HHI_DIF_CSI_PHY_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xda << 2))
#define HHI_DIF_CSI_PHY_CNTL3 (0xc883c000 + (0xdb << 2))
#define SEC_HHI_DIF_CSI_PHY_CNTL3 (0xda83c000 + (0xdb << 2))
#define P_HHI_DIF_CSI_PHY_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xdb << 2))
#define HHI_DIF_CSI_PHY_CNTL4 (0xc883c000 + (0xdc << 2))
#define SEC_HHI_DIF_CSI_PHY_CNTL4 (0xda83c000 + (0xdc << 2))
#define P_HHI_DIF_CSI_PHY_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xdc << 2))
#define HHI_DIF_CSI_PHY_CNTL5 (0xc883c000 + (0xdd << 2))
#define SEC_HHI_DIF_CSI_PHY_CNTL5 (0xda83c000 + (0xdd << 2))
#define P_HHI_DIF_CSI_PHY_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xdd << 2))
#define HHI_LVDS_TX_PHY_CNTL0 (0xc883c000 + (0xde << 2))
#define SEC_HHI_LVDS_TX_PHY_CNTL0 (0xda83c000 + (0xde << 2))
#define P_HHI_LVDS_TX_PHY_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xde << 2))
#define HHI_LVDS_TX_PHY_CNTL1 (0xc883c000 + (0xdf << 2))
#define SEC_HHI_LVDS_TX_PHY_CNTL1 (0xda83c000 + (0xdf << 2))
#define P_HHI_LVDS_TX_PHY_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xdf << 2))
#define HHI_VID2_PLL_CNTL (0xc883c000 + (0xe0 << 2))
#define SEC_HHI_VID2_PLL_CNTL (0xda83c000 + (0xe0 << 2))
#define P_HHI_VID2_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xe0 << 2))
#define HHI_VID2_PLL_CNTL2 (0xc883c000 + (0xe1 << 2))
#define SEC_HHI_VID2_PLL_CNTL2 (0xda83c000 + (0xe1 << 2))
#define P_HHI_VID2_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xe1 << 2))
#define HHI_VID2_PLL_CNTL3 (0xc883c000 + (0xe2 << 2))
#define SEC_HHI_VID2_PLL_CNTL3 (0xda83c000 + (0xe2 << 2))
#define P_HHI_VID2_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xe2 << 2))
#define HHI_VID2_PLL_CNTL4 (0xc883c000 + (0xe3 << 2))
#define SEC_HHI_VID2_PLL_CNTL4 (0xda83c000 + (0xe3 << 2))
#define P_HHI_VID2_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xe3 << 2))
#define HHI_VID2_PLL_CNTL5 (0xc883c000 + (0xe4 << 2))
#define SEC_HHI_VID2_PLL_CNTL5 (0xda83c000 + (0xe4 << 2))
#define P_HHI_VID2_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xe4 << 2))
#define HHI_VID2_PLL_CNTL_I (0xc883c000 + (0xe5 << 2))
#define SEC_HHI_VID2_PLL_CNTL_I (0xda83c000 + (0xe5 << 2))
#define P_HHI_VID2_PLL_CNTL_I (volatile uint32_t *)(0xc883c000 + (0xe5 << 2))
#define HHI_HDMI_PHY_CNTL0 (0xc883c000 + (0xe8 << 2))
#define SEC_HHI_HDMI_PHY_CNTL0 (0xda83c000 + (0xe8 << 2))
#define P_HHI_HDMI_PHY_CNTL0 (volatile uint32_t *)(0xc883c000 + (0xe8 << 2))
#define HHI_HDMI_PHY_CNTL1 (0xc883c000 + (0xe9 << 2))
#define SEC_HHI_HDMI_PHY_CNTL1 (0xda83c000 + (0xe9 << 2))
#define P_HHI_HDMI_PHY_CNTL1 (volatile uint32_t *)(0xc883c000 + (0xe9 << 2))
#define HHI_HDMI_PHY_CNTL2 (0xc883c000 + (0xea << 2))
#define SEC_HHI_HDMI_PHY_CNTL2 (0xda83c000 + (0xea << 2))
#define P_HHI_HDMI_PHY_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xea << 2))
#define HHI_HDMI_PHY_CNTL3 (0xc883c000 + (0xeb << 2))
#define SEC_HHI_HDMI_PHY_CNTL3 (0xda83c000 + (0xeb << 2))
#define P_HHI_HDMI_PHY_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xeb << 2))
#define HHI_VID_LOCK_CLK_CNTL (0xc883c000 + (0xf2 << 2))
#define SEC_HHI_VID_LOCK_CLK_CNTL (0xda83c000 + (0xf2 << 2))
#define P_HHI_VID_LOCK_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0xf2 << 2))
#define HHI_ATV_DMD_SYS_CLK_CNTL (0xc883c000 + (0xf3 << 2))
#define SEC_HHI_ATV_DMD_SYS_CLK_CNTL (0xda83c000 + (0xf3 << 2))
#define P_HHI_ATV_DMD_SYS_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0xf3 << 2))
// `define HHI_EE_MISC_CNTL 8'hf4
#define HHI_BT656_CLK_CNTL (0xc883c000 + (0xf5 << 2))
#define SEC_HHI_BT656_CLK_CNTL (0xda83c000 + (0xf5 << 2))
#define P_HHI_BT656_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0xf5 << 2))
#define HHI_SAR_CLK_CNTL (0xc883c000 + (0xf6 << 2))
#define SEC_HHI_SAR_CLK_CNTL (0xda83c000 + (0xf6 << 2))
#define P_HHI_SAR_CLK_CNTL (volatile uint32_t *)(0xc883c000 + (0xf6 << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL (0xc883c000 + (0xf8 << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL (0xda83c000 + (0xf8 << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL (volatile uint32_t *)(0xc883c000 + (0xf8 << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL2 (0xc883c000 + (0xf9 << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL2 (0xda83c000 + (0xf9 << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL2 (volatile uint32_t *)(0xc883c000 + (0xf9 << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL3 (0xc883c000 + (0xfa << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL3 (0xda83c000 + (0xfa << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL3 (volatile uint32_t *)(0xc883c000 + (0xfa << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL4 (0xc883c000 + (0xfb << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL4 (0xda83c000 + (0xfb << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL4 (volatile uint32_t *)(0xc883c000 + (0xfb << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL5 (0xc883c000 + (0xfc << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL5 (0xda83c000 + (0xfc << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL5 (volatile uint32_t *)(0xc883c000 + (0xfc << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL6 (0xc883c000 + (0xfd << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL6 (0xda83c000 + (0xfd << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL6 (volatile uint32_t *)(0xc883c000 + (0xfd << 2))
#define HHI_HDMIRX_AUD_PLL_CNTL_I (0xc883c000 + (0xfe << 2))
#define SEC_HHI_HDMIRX_AUD_PLL_CNTL_I (0xda83c000 + (0xfe << 2))
#define P_HHI_HDMIRX_AUD_PLL_CNTL_I (volatile uint32_t *)(0xc883c000 + (0xfe << 2))
//========================================================================
// HIU - Mailbox
//========================================================================
// APB4_DECODER_NON_SECURE_BASE 32'hC883C400
// APB4_DECODER_SECURE_BASE 32'hDA83C400
#define HIU_MAILBOX_SET_0 (0xc883c400 + (0x01 << 2))
#define SEC_HIU_MAILBOX_SET_0 (0xda83c400 + (0x01 << 2))
#define P_HIU_MAILBOX_SET_0 (volatile uint32_t *)(0xc883c400 + (0x01 << 2))
#define HIU_MAILBOX_STAT_0 (0xc883c400 + (0x02 << 2))
#define SEC_HIU_MAILBOX_STAT_0 (0xda83c400 + (0x02 << 2))
#define P_HIU_MAILBOX_STAT_0 (volatile uint32_t *)(0xc883c400 + (0x02 << 2))
#define HIU_MAILBOX_CLR_0 (0xc883c400 + (0x03 << 2))
#define SEC_HIU_MAILBOX_CLR_0 (0xda83c400 + (0x03 << 2))
#define P_HIU_MAILBOX_CLR_0 (volatile uint32_t *)(0xc883c400 + (0x03 << 2))
#define HIU_MAILBOX_SET_1 (0xc883c400 + (0x04 << 2))
#define SEC_HIU_MAILBOX_SET_1 (0xda83c400 + (0x04 << 2))
#define P_HIU_MAILBOX_SET_1 (volatile uint32_t *)(0xc883c400 + (0x04 << 2))
#define HIU_MAILBOX_STAT_1 (0xc883c400 + (0x05 << 2))
#define SEC_HIU_MAILBOX_STAT_1 (0xda83c400 + (0x05 << 2))
#define P_HIU_MAILBOX_STAT_1 (volatile uint32_t *)(0xc883c400 + (0x05 << 2))
#define HIU_MAILBOX_CLR_1 (0xc883c400 + (0x06 << 2))
#define SEC_HIU_MAILBOX_CLR_1 (0xda83c400 + (0x06 << 2))
#define P_HIU_MAILBOX_CLR_1 (volatile uint32_t *)(0xc883c400 + (0x06 << 2))
#define HIU_MAILBOX_SET_2 (0xc883c400 + (0x07 << 2))
#define SEC_HIU_MAILBOX_SET_2 (0xda83c400 + (0x07 << 2))
#define P_HIU_MAILBOX_SET_2 (volatile uint32_t *)(0xc883c400 + (0x07 << 2))
#define HIU_MAILBOX_STAT_2 (0xc883c400 + (0x08 << 2))
#define SEC_HIU_MAILBOX_STAT_2 (0xda83c400 + (0x08 << 2))
#define P_HIU_MAILBOX_STAT_2 (volatile uint32_t *)(0xc883c400 + (0x08 << 2))
#define HIU_MAILBOX_CLR_2 (0xc883c400 + (0x09 << 2))
#define SEC_HIU_MAILBOX_CLR_2 (0xda83c400 + (0x09 << 2))
#define P_HIU_MAILBOX_CLR_2 (volatile uint32_t *)(0xc883c400 + (0x09 << 2))
#define HIU_MAILBOX_SET_3 (0xc883c400 + (0x0a << 2))
#define SEC_HIU_MAILBOX_SET_3 (0xda83c400 + (0x0a << 2))
#define P_HIU_MAILBOX_SET_3 (volatile uint32_t *)(0xc883c400 + (0x0a << 2))
#define HIU_MAILBOX_STAT_3 (0xc883c400 + (0x0b << 2))
#define SEC_HIU_MAILBOX_STAT_3 (0xda83c400 + (0x0b << 2))
#define P_HIU_MAILBOX_STAT_3 (volatile uint32_t *)(0xc883c400 + (0x0b << 2))
#define HIU_MAILBOX_CLR_3 (0xc883c400 + (0x0c << 2))
#define SEC_HIU_MAILBOX_CLR_3 (0xda83c400 + (0x0c << 2))
#define P_HIU_MAILBOX_CLR_3 (volatile uint32_t *)(0xc883c400 + (0x0c << 2))
#define HIU_MAILBOX_SET_4 (0xc883c400 + (0x0d << 2))
#define SEC_HIU_MAILBOX_SET_4 (0xda83c400 + (0x0d << 2))
#define P_HIU_MAILBOX_SET_4 (volatile uint32_t *)(0xc883c400 + (0x0d << 2))
#define HIU_MAILBOX_STAT_4 (0xc883c400 + (0x0e << 2))
#define SEC_HIU_MAILBOX_STAT_4 (0xda83c400 + (0x0e << 2))
#define P_HIU_MAILBOX_STAT_4 (volatile uint32_t *)(0xc883c400 + (0x0e << 2))
#define HIU_MAILBOX_CLR_4 (0xc883c400 + (0x0f << 2))
#define SEC_HIU_MAILBOX_CLR_4 (0xda83c400 + (0x0f << 2))
#define P_HIU_MAILBOX_CLR_4 (volatile uint32_t *)(0xc883c400 + (0x0f << 2))
#define HIU_MAILBOX_SET_5 (0xc883c400 + (0x10 << 2))
#define SEC_HIU_MAILBOX_SET_5 (0xda83c400 + (0x10 << 2))
#define P_HIU_MAILBOX_SET_5 (volatile uint32_t *)(0xc883c400 + (0x10 << 2))
#define HIU_MAILBOX_STAT_5 (0xc883c400 + (0x11 << 2))
#define SEC_HIU_MAILBOX_STAT_5 (0xda83c400 + (0x11 << 2))
#define P_HIU_MAILBOX_STAT_5 (volatile uint32_t *)(0xc883c400 + (0x11 << 2))
#define HIU_MAILBOX_CLR_5 (0xc883c400 + (0x12 << 2))
#define SEC_HIU_MAILBOX_CLR_5 (0xda83c400 + (0x12 << 2))
#define P_HIU_MAILBOX_CLR_5 (volatile uint32_t *)(0xc883c400 + (0x12 << 2))
//========================================================================
// EFUSE
//========================================================================
// APB4_DECODER_NON_SECURE_BASE 32'hC8830000
// APB4_DECODER_SECURE_BASE 32'hDA830000
#define EFUSE_CNTL0 (0xc8830000 + (0x00 << 2))
#define SEC_EFUSE_CNTL0 (0xda830000 + (0x00 << 2))
#define P_EFUSE_CNTL0 (volatile uint32_t *)(0xc8830000 + (0x00 << 2))
#define EFUSE_CNTL1 (0xc8830000 + (0x01 << 2))
#define SEC_EFUSE_CNTL1 (0xda830000 + (0x01 << 2))
#define P_EFUSE_CNTL1 (volatile uint32_t *)(0xc8830000 + (0x01 << 2))
#define EFUSE_CNTL2 (0xc8830000 + (0x02 << 2))
#define SEC_EFUSE_CNTL2 (0xda830000 + (0x02 << 2))
#define P_EFUSE_CNTL2 (volatile uint32_t *)(0xc8830000 + (0x02 << 2))
#define EFUSE_CNTL3 (0xc8830000 + (0x03 << 2))
#define SEC_EFUSE_CNTL3 (0xda830000 + (0x03 << 2))
#define P_EFUSE_CNTL3 (volatile uint32_t *)(0xc8830000 + (0x03 << 2))
#define EFUSE_CNTL4 (0xc8830000 + (0x04 << 2))
#define SEC_EFUSE_CNTL4 (0xda830000 + (0x04 << 2))
#define P_EFUSE_CNTL4 (volatile uint32_t *)(0xc8830000 + (0x04 << 2))
#define EFUSE_WDATA0 (0xc8830000 + (0x05 << 2))
#define SEC_EFUSE_WDATA0 (0xda830000 + (0x05 << 2))
#define P_EFUSE_WDATA0 (volatile uint32_t *)(0xc8830000 + (0x05 << 2))
#define EFUSE_WDATA1 (0xc8830000 + (0x06 << 2))
#define SEC_EFUSE_WDATA1 (0xda830000 + (0x06 << 2))
#define P_EFUSE_WDATA1 (volatile uint32_t *)(0xc8830000 + (0x06 << 2))
#define EFUSE_WDATA2 (0xc8830000 + (0x07 << 2))
#define SEC_EFUSE_WDATA2 (0xda830000 + (0x07 << 2))
#define P_EFUSE_WDATA2 (volatile uint32_t *)(0xc8830000 + (0x07 << 2))
#define EFUSE_WDATA3 (0xc8830000 + (0x08 << 2))
#define SEC_EFUSE_WDATA3 (0xda830000 + (0x08 << 2))
#define P_EFUSE_WDATA3 (volatile uint32_t *)(0xc8830000 + (0x08 << 2))
#define EFUSE_RDATA0 (0xc8830000 + (0x09 << 2))
#define SEC_EFUSE_RDATA0 (0xda830000 + (0x09 << 2))
#define P_EFUSE_RDATA0 (volatile uint32_t *)(0xc8830000 + (0x09 << 2))
#define EFUSE_RDATA1 (0xc8830000 + (0x0a << 2))
#define SEC_EFUSE_RDATA1 (0xda830000 + (0x0a << 2))
#define P_EFUSE_RDATA1 (volatile uint32_t *)(0xc8830000 + (0x0a << 2))
#define EFUSE_RDATA2 (0xc8830000 + (0x0b << 2))
#define SEC_EFUSE_RDATA2 (0xda830000 + (0x0b << 2))
#define P_EFUSE_RDATA2 (volatile uint32_t *)(0xc8830000 + (0x0b << 2))
#define EFUSE_RDATA3 (0xc8830000 + (0x0c << 2))
#define SEC_EFUSE_RDATA3 (0xda830000 + (0x0c << 2))
#define P_EFUSE_RDATA3 (volatile uint32_t *)(0xc8830000 + (0x0c << 2))
#define EFUSE_RD_DISABLE (0xc8830000 + (0x10 << 2))
#define SEC_EFUSE_RD_DISABLE (0xda830000 + (0x10 << 2))
#define P_EFUSE_RD_DISABLE (volatile uint32_t *)(0xc8830000 + (0x10 << 2))
#define EFUSE_WR_DISABLE (0xc8830000 + (0x11 << 2))
#define SEC_EFUSE_WR_DISABLE (0xda830000 + (0x11 << 2))
#define P_EFUSE_WR_DISABLE (volatile uint32_t *)(0xc8830000 + (0x11 << 2))
#define EFUSE_OBFUSCATE (0xc8830000 + (0x12 << 2))
#define SEC_EFUSE_OBFUSCATE (0xda830000 + (0x12 << 2))
#define P_EFUSE_OBFUSCATE (volatile uint32_t *)(0xc8830000 + (0x12 << 2))
#define EFUSE_AES_KEY32 (0xc8830000 + (0x13 << 2))
#define SEC_EFUSE_AES_KEY32 (0xda830000 + (0x13 << 2))
#define P_EFUSE_AES_KEY32 (volatile uint32_t *)(0xc8830000 + (0x13 << 2))
#define KEY_LDR_USR_CNTL (0xc8830000 + (0x20 << 2))
#define SEC_KEY_LDR_USR_CNTL (0xda830000 + (0x20 << 2))
#define P_KEY_LDR_USR_CNTL (volatile uint32_t *)(0xc8830000 + (0x20 << 2))
#define KEY_LDR_USR_RAM_W (0xc8830000 + (0x21 << 2))
#define SEC_KEY_LDR_USR_RAM_W (0xda830000 + (0x21 << 2))
#define P_KEY_LDR_USR_RAM_W (volatile uint32_t *)(0xc8830000 + (0x21 << 2))
#define KEY_LDR_VENDOR_ID (0xc8830000 + (0x22 << 2))
#define SEC_KEY_LDR_VENDOR_ID (0xda830000 + (0x22 << 2))
#define P_KEY_LDR_VENDOR_ID (volatile uint32_t *)(0xc8830000 + (0x22 << 2))
#define KEY_LDR_SEC_REG0 (0xc8830000 + (0x23 << 2))
#define SEC_KEY_LDR_SEC_REG0 (0xda830000 + (0x23 << 2))
#define P_KEY_LDR_SEC_REG0 (volatile uint32_t *)(0xc8830000 + (0x23 << 2))
#define KEY_LDR_SEC_CFG (0xc8830000 + (0x24 << 2))
#define SEC_KEY_LDR_SEC_CFG (0xda830000 + (0x24 << 2))
#define P_KEY_LDR_SEC_CFG (volatile uint32_t *)(0xc8830000 + (0x24 << 2))
#define KEY_LDR_SEC_BLK_NUM (0xc8830000 + (0x25 << 2))
#define SEC_KEY_LDR_SEC_BLK_NUM (0xda830000 + (0x25 << 2))
#define P_KEY_LDR_SEC_BLK_NUM (volatile uint32_t *)(0xc8830000 + (0x25 << 2))
#define KEY_LDR_NONCE_0 (0xc8830000 + (0x26 << 2))
#define SEC_KEY_LDR_NONCE_0 (0xda830000 + (0x26 << 2))
#define P_KEY_LDR_NONCE_0 (volatile uint32_t *)(0xc8830000 + (0x26 << 2))
#define KEY_LDR_NONCE_1 (0xc8830000 + (0x27 << 2))
#define SEC_KEY_LDR_NONCE_1 (0xda830000 + (0x27 << 2))
#define P_KEY_LDR_NONCE_1 (volatile uint32_t *)(0xc8830000 + (0x27 << 2))
#define KEY_LDR_NONCE_2 (0xc8830000 + (0x28 << 2))
#define SEC_KEY_LDR_NONCE_2 (0xda830000 + (0x28 << 2))
#define P_KEY_LDR_NONCE_2 (volatile uint32_t *)(0xc8830000 + (0x28 << 2))
#define KEY_LDR_NONCE_3 (0xc8830000 + (0x29 << 2))
#define SEC_KEY_LDR_NONCE_3 (0xda830000 + (0x29 << 2))
#define P_KEY_LDR_NONCE_3 (volatile uint32_t *)(0xc8830000 + (0x29 << 2))
//========================================================================
// BLKMV
//========================================================================
// APB4_DECODER_NON_SECURE_BASE 32'hC8832000
// APB4_DECODER_SECURE_BASE 32'hDA832000
//
// Secure APB3 Slot 3 registers
//
#define SEC_BLKMV_AES_REG0 (0xc8832000 + (0x00 << 2))
#define SEC_SEC_BLKMV_AES_REG0 (0xda832000 + (0x00 << 2))
#define P_SEC_BLKMV_AES_REG0 (volatile uint32_t *)(0xc8832000 + (0x00 << 2))
#define SEC_BLKMV_AES_PIO_W0 (0xc8832000 + (0x01 << 2))
#define SEC_SEC_BLKMV_AES_PIO_W0 (0xda832000 + (0x01 << 2))
#define P_SEC_BLKMV_AES_PIO_W0 (volatile uint32_t *)(0xc8832000 + (0x01 << 2))
#define SEC_BLKMV_AES_PIO_W1 (0xc8832000 + (0x02 << 2))
#define SEC_SEC_BLKMV_AES_PIO_W1 (0xda832000 + (0x02 << 2))
#define P_SEC_BLKMV_AES_PIO_W1 (volatile uint32_t *)(0xc8832000 + (0x02 << 2))
#define SEC_BLKMV_AES_PIO_W2 (0xc8832000 + (0x03 << 2))
#define SEC_SEC_BLKMV_AES_PIO_W2 (0xda832000 + (0x03 << 2))
#define P_SEC_BLKMV_AES_PIO_W2 (volatile uint32_t *)(0xc8832000 + (0x03 << 2))
#define SEC_BLKMV_AES_PIO_W3 (0xc8832000 + (0x04 << 2))
#define SEC_SEC_BLKMV_AES_PIO_W3 (0xda832000 + (0x04 << 2))
#define P_SEC_BLKMV_AES_PIO_W3 (volatile uint32_t *)(0xc8832000 + (0x04 << 2))
#define SEC_BLKMV_TDES_KEY_LO (0xc8832000 + (0x08 << 2))
#define SEC_SEC_BLKMV_TDES_KEY_LO (0xda832000 + (0x08 << 2))
#define P_SEC_BLKMV_TDES_KEY_LO (volatile uint32_t *)(0xc8832000 + (0x08 << 2))
#define SEC_BLKMV_TDES_KEY_HI (0xc8832000 + (0x09 << 2))
#define SEC_SEC_BLKMV_TDES_KEY_HI (0xda832000 + (0x09 << 2))
#define P_SEC_BLKMV_TDES_KEY_HI (volatile uint32_t *)(0xc8832000 + (0x09 << 2))
#define SEC_BLKMV_TDES_CONTROL (0xc8832000 + (0x0a << 2))
#define SEC_SEC_BLKMV_TDES_CONTROL (0xda832000 + (0x0a << 2))
#define P_SEC_BLKMV_TDES_CONTROL (volatile uint32_t *)(0xc8832000 + (0x0a << 2))
#define SEC_BLKMV_AES_IV_0 (0xc8832000 + (0x0b << 2))
#define SEC_SEC_BLKMV_AES_IV_0 (0xda832000 + (0x0b << 2))
#define P_SEC_BLKMV_AES_IV_0 (volatile uint32_t *)(0xc8832000 + (0x0b << 2))
#define SEC_BLKMV_AES_IV_1 (0xc8832000 + (0x0c << 2))
#define SEC_SEC_BLKMV_AES_IV_1 (0xda832000 + (0x0c << 2))
#define P_SEC_BLKMV_AES_IV_1 (volatile uint32_t *)(0xc8832000 + (0x0c << 2))
#define SEC_BLKMV_AES_IV_2 (0xc8832000 + (0x0d << 2))
#define SEC_SEC_BLKMV_AES_IV_2 (0xda832000 + (0x0d << 2))
#define P_SEC_BLKMV_AES_IV_2 (volatile uint32_t *)(0xc8832000 + (0x0d << 2))
#define SEC_BLKMV_AES_IV_3 (0xc8832000 + (0x0e << 2))
#define SEC_SEC_BLKMV_AES_IV_3 (0xda832000 + (0x0e << 2))
#define P_SEC_BLKMV_AES_IV_3 (volatile uint32_t *)(0xc8832000 + (0x0e << 2))
#define SEC_BLKMV_AES_KEY_0 (0xc8832000 + (0x10 << 2))
#define SEC_SEC_BLKMV_AES_KEY_0 (0xda832000 + (0x10 << 2))
#define P_SEC_BLKMV_AES_KEY_0 (volatile uint32_t *)(0xc8832000 + (0x10 << 2))
#define SEC_BLKMV_AES_KEY_1 (0xc8832000 + (0x11 << 2))
#define SEC_SEC_BLKMV_AES_KEY_1 (0xda832000 + (0x11 << 2))
#define P_SEC_BLKMV_AES_KEY_1 (volatile uint32_t *)(0xc8832000 + (0x11 << 2))
#define SEC_BLKMV_AES_KEY_2 (0xc8832000 + (0x12 << 2))
#define SEC_SEC_BLKMV_AES_KEY_2 (0xda832000 + (0x12 << 2))
#define P_SEC_BLKMV_AES_KEY_2 (volatile uint32_t *)(0xc8832000 + (0x12 << 2))
#define SEC_BLKMV_AES_KEY_3 (0xc8832000 + (0x13 << 2))
#define SEC_SEC_BLKMV_AES_KEY_3 (0xda832000 + (0x13 << 2))
#define P_SEC_BLKMV_AES_KEY_3 (volatile uint32_t *)(0xc8832000 + (0x13 << 2))
#define SEC_BLKMV_AES_KEY_4 (0xc8832000 + (0x14 << 2))
#define SEC_SEC_BLKMV_AES_KEY_4 (0xda832000 + (0x14 << 2))
#define P_SEC_BLKMV_AES_KEY_4 (volatile uint32_t *)(0xc8832000 + (0x14 << 2))
#define SEC_BLKMV_AES_KEY_5 (0xc8832000 + (0x15 << 2))
#define SEC_SEC_BLKMV_AES_KEY_5 (0xda832000 + (0x15 << 2))
#define P_SEC_BLKMV_AES_KEY_5 (volatile uint32_t *)(0xc8832000 + (0x15 << 2))
#define SEC_BLKMV_AES_KEY_6 (0xc8832000 + (0x16 << 2))
#define SEC_SEC_BLKMV_AES_KEY_6 (0xda832000 + (0x16 << 2))
#define P_SEC_BLKMV_AES_KEY_6 (volatile uint32_t *)(0xc8832000 + (0x16 << 2))
#define SEC_BLKMV_AES_KEY_7 (0xc8832000 + (0x17 << 2))
#define SEC_SEC_BLKMV_AES_KEY_7 (0xda832000 + (0x17 << 2))
#define P_SEC_BLKMV_AES_KEY_7 (volatile uint32_t *)(0xc8832000 + (0x17 << 2))
#define SEC_BLKMV_THREAD_TABLE_START0 (0xc8832000 + (0x18 << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_START0 (0xda832000 + (0x18 << 2))
#define P_SEC_BLKMV_THREAD_TABLE_START0 (volatile uint32_t *)(0xc8832000 + (0x18 << 2))
#define SEC_BLKMV_THREAD_TABLE_CURR0 (0xc8832000 + (0x19 << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_CURR0 (0xda832000 + (0x19 << 2))
#define P_SEC_BLKMV_THREAD_TABLE_CURR0 (volatile uint32_t *)(0xc8832000 + (0x19 << 2))
#define SEC_BLKMV_THREAD_TABLE_END0 (0xc8832000 + (0x1a << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_END0 (0xda832000 + (0x1a << 2))
#define P_SEC_BLKMV_THREAD_TABLE_END0 (volatile uint32_t *)(0xc8832000 + (0x1a << 2))
#define SEC_BLKMV_THREAD_TABLE_START1 (0xc8832000 + (0x1b << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_START1 (0xda832000 + (0x1b << 2))
#define P_SEC_BLKMV_THREAD_TABLE_START1 (volatile uint32_t *)(0xc8832000 + (0x1b << 2))
#define SEC_BLKMV_THREAD_TABLE_CURR1 (0xc8832000 + (0x1c << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_CURR1 (0xda832000 + (0x1c << 2))
#define P_SEC_BLKMV_THREAD_TABLE_CURR1 (volatile uint32_t *)(0xc8832000 + (0x1c << 2))
#define SEC_BLKMV_THREAD_TABLE_END1 (0xc8832000 + (0x1d << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_END1 (0xda832000 + (0x1d << 2))
#define P_SEC_BLKMV_THREAD_TABLE_END1 (volatile uint32_t *)(0xc8832000 + (0x1d << 2))
#define SEC_BLKMV_THREAD_TABLE_START2 (0xc8832000 + (0x1e << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_START2 (0xda832000 + (0x1e << 2))
#define P_SEC_BLKMV_THREAD_TABLE_START2 (volatile uint32_t *)(0xc8832000 + (0x1e << 2))
#define SEC_BLKMV_THREAD_TABLE_CURR2 (0xc8832000 + (0x1f << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_CURR2 (0xda832000 + (0x1f << 2))
#define P_SEC_BLKMV_THREAD_TABLE_CURR2 (volatile uint32_t *)(0xc8832000 + (0x1f << 2))
#define SEC_BLKMV_THREAD_TABLE_END2 (0xc8832000 + (0x20 << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_END2 (0xda832000 + (0x20 << 2))
#define P_SEC_BLKMV_THREAD_TABLE_END2 (volatile uint32_t *)(0xc8832000 + (0x20 << 2))
#define SEC_BLKMV_THREAD_TABLE_START3 (0xc8832000 + (0x21 << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_START3 (0xda832000 + (0x21 << 2))
#define P_SEC_BLKMV_THREAD_TABLE_START3 (volatile uint32_t *)(0xc8832000 + (0x21 << 2))
#define SEC_BLKMV_THREAD_TABLE_CURR3 (0xc8832000 + (0x22 << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_CURR3 (0xda832000 + (0x22 << 2))
#define P_SEC_BLKMV_THREAD_TABLE_CURR3 (volatile uint32_t *)(0xc8832000 + (0x22 << 2))
#define SEC_BLKMV_THREAD_TABLE_END3 (0xc8832000 + (0x23 << 2))
#define SEC_SEC_BLKMV_THREAD_TABLE_END3 (0xda832000 + (0x23 << 2))
#define P_SEC_BLKMV_THREAD_TABLE_END3 (volatile uint32_t *)(0xc8832000 + (0x23 << 2))
#define SEC_BLKMV_GEN_REG0 (0xc8832000 + (0x24 << 2))
#define SEC_SEC_BLKMV_GEN_REG0 (0xda832000 + (0x24 << 2))
#define P_SEC_BLKMV_GEN_REG0 (volatile uint32_t *)(0xc8832000 + (0x24 << 2))
#define SEC_BLKMV_PIO_CNTL0 (0xc8832000 + (0x25 << 2))
#define SEC_SEC_BLKMV_PIO_CNTL0 (0xda832000 + (0x25 << 2))
#define P_SEC_BLKMV_PIO_CNTL0 (volatile uint32_t *)(0xc8832000 + (0x25 << 2))
#define SEC_BLKMV_PIO_DATA0 (0xc8832000 + (0x26 << 2))
#define SEC_SEC_BLKMV_PIO_DATA0 (0xda832000 + (0x26 << 2))
#define P_SEC_BLKMV_PIO_DATA0 (volatile uint32_t *)(0xc8832000 + (0x26 << 2))
#define SEC_BLKMV_PIO_DATA1 (0xc8832000 + (0x27 << 2))
#define SEC_SEC_BLKMV_PIO_DATA1 (0xda832000 + (0x27 << 2))
#define P_SEC_BLKMV_PIO_DATA1 (volatile uint32_t *)(0xc8832000 + (0x27 << 2))
#define SEC_BLKMV_PIO_DATA2 (0xc8832000 + (0x28 << 2))
#define SEC_SEC_BLKMV_PIO_DATA2 (0xda832000 + (0x28 << 2))
#define P_SEC_BLKMV_PIO_DATA2 (volatile uint32_t *)(0xc8832000 + (0x28 << 2))
#define SEC_BLKMV_PIO_DATA3 (0xc8832000 + (0x29 << 2))
#define SEC_SEC_BLKMV_PIO_DATA3 (0xda832000 + (0x29 << 2))
#define P_SEC_BLKMV_PIO_DATA3 (volatile uint32_t *)(0xc8832000 + (0x29 << 2))
#define SEC_BLKMV_PIO_DATA4 (0xc8832000 + (0x2a << 2))
#define SEC_SEC_BLKMV_PIO_DATA4 (0xda832000 + (0x2a << 2))
#define P_SEC_BLKMV_PIO_DATA4 (volatile uint32_t *)(0xc8832000 + (0x2a << 2))
#define SEC_BLKMV_PIO_DATA5 (0xc8832000 + (0x2b << 2))
#define SEC_SEC_BLKMV_PIO_DATA5 (0xda832000 + (0x2b << 2))
#define P_SEC_BLKMV_PIO_DATA5 (volatile uint32_t *)(0xc8832000 + (0x2b << 2))
#define SEC_BLKMV_PIO_DATA6 (0xc8832000 + (0x2c << 2))
#define SEC_SEC_BLKMV_PIO_DATA6 (0xda832000 + (0x2c << 2))
#define P_SEC_BLKMV_PIO_DATA6 (volatile uint32_t *)(0xc8832000 + (0x2c << 2))
#define SEC_BLKMV_PIO_DATA7 (0xc8832000 + (0x2d << 2))
#define SEC_SEC_BLKMV_PIO_DATA7 (0xda832000 + (0x2d << 2))
#define P_SEC_BLKMV_PIO_DATA7 (volatile uint32_t *)(0xc8832000 + (0x2d << 2))
#define SEC_BLKMV_PIO_DATA8 (0xc8832000 + (0x2e << 2))
#define SEC_SEC_BLKMV_PIO_DATA8 (0xda832000 + (0x2e << 2))
#define P_SEC_BLKMV_PIO_DATA8 (volatile uint32_t *)(0xc8832000 + (0x2e << 2))
#define SEC_BLKMV_PIO_DATA9 (0xc8832000 + (0x2f << 2))
#define SEC_SEC_BLKMV_PIO_DATA9 (0xda832000 + (0x2f << 2))
#define P_SEC_BLKMV_PIO_DATA9 (volatile uint32_t *)(0xc8832000 + (0x2f << 2))
#define SEC_BLKMV_PIO_DATA10 (0xc8832000 + (0x30 << 2))
#define SEC_SEC_BLKMV_PIO_DATA10 (0xda832000 + (0x30 << 2))
#define P_SEC_BLKMV_PIO_DATA10 (volatile uint32_t *)(0xc8832000 + (0x30 << 2))
#define SEC_BLKMV_PIO_DATA11 (0xc8832000 + (0x31 << 2))
#define SEC_SEC_BLKMV_PIO_DATA11 (0xda832000 + (0x31 << 2))
#define P_SEC_BLKMV_PIO_DATA11 (volatile uint32_t *)(0xc8832000 + (0x31 << 2))
#define SEC_BLKMV_SHA_CONTROL (0xc8832000 + (0x32 << 2))
#define SEC_SEC_BLKMV_SHA_CONTROL (0xda832000 + (0x32 << 2))
#define P_SEC_BLKMV_SHA_CONTROL (volatile uint32_t *)(0xc8832000 + (0x32 << 2))
#define SEC_BLKMV_SHA_PIO_WDATA (0xc8832000 + (0x33 << 2))
#define SEC_SEC_BLKMV_SHA_PIO_WDATA (0xda832000 + (0x33 << 2))
#define P_SEC_BLKMV_SHA_PIO_WDATA (volatile uint32_t *)(0xc8832000 + (0x33 << 2))
#define SEC_BLKMV_SHA_DMA_MSG_IN (0xc8832000 + (0x34 << 2))
#define SEC_SEC_BLKMV_SHA_DMA_MSG_IN (0xda832000 + (0x34 << 2))
#define P_SEC_BLKMV_SHA_DMA_MSG_IN (volatile uint32_t *)(0xc8832000 + (0x34 << 2))
#define SEC_BLKMV_SHA_DMA_DATALEN_IN (0xc8832000 + (0x35 << 2))
#define SEC_SEC_BLKMV_SHA_DMA_DATALEN_IN (0xda832000 + (0x35 << 2))
#define P_SEC_BLKMV_SHA_DMA_DATALEN_IN (volatile uint32_t *)(0xc8832000 + (0x35 << 2))
#define SEC_BLKMV_AES_CW_WR (0xc8832000 + (0x38 << 2))
#define SEC_SEC_BLKMV_AES_CW_WR (0xda832000 + (0x38 << 2))
#define P_SEC_BLKMV_AES_CW_WR (volatile uint32_t *)(0xc8832000 + (0x38 << 2))
#define SEC_BLKMV_TDES_CW_WR (0xc8832000 + (0x39 << 2))
#define SEC_SEC_BLKMV_TDES_CW_WR (0xda832000 + (0x39 << 2))
#define P_SEC_BLKMV_TDES_CW_WR (volatile uint32_t *)(0xc8832000 + (0x39 << 2))
// ----------------------------
// Non-Secure
// ----------------------------
#define NDMA_CNTL_REG0 (0xc8832000 + (0x70 << 2))
#define SEC_NDMA_CNTL_REG0 (0xda832000 + (0x70 << 2))
#define P_NDMA_CNTL_REG0 (volatile uint32_t *)(0xc8832000 + (0x70 << 2))
#define NDMA_STATUS 26
#define NDMA_PERIODIC_INT_DLY_MSB 25
#define NDMA_PERIODIC_INT_DLY_LSB 16
#define NDMA_PERIODIC_INT_EN 15
#define NDMA_ENABLE 14
#define NDMA_AHB_DELAY_MSB 13
#define NDMA_AHB_DELAY_LSB 0
#define NDMA_TABLE_ADD_REG (0xc8832000 + (0x72 << 2))
#define SEC_NDMA_TABLE_ADD_REG (0xda832000 + (0x72 << 2))
#define P_NDMA_TABLE_ADD_REG (volatile uint32_t *)(0xc8832000 + (0x72 << 2))
#define NDMA_TDES_KEY_LO (0xc8832000 + (0x73 << 2))
#define SEC_NDMA_TDES_KEY_LO (0xda832000 + (0x73 << 2))
#define P_NDMA_TDES_KEY_LO (volatile uint32_t *)(0xc8832000 + (0x73 << 2))
#define NDMA_TDES_KEY_HI (0xc8832000 + (0x74 << 2))
#define SEC_NDMA_TDES_KEY_HI (0xda832000 + (0x74 << 2))
#define P_NDMA_TDES_KEY_HI (volatile uint32_t *)(0xc8832000 + (0x74 << 2))
#define NDMA_TDES_CONTROL (0xc8832000 + (0x75 << 2))
#define SEC_NDMA_TDES_CONTROL (0xda832000 + (0x75 << 2))
#define P_NDMA_TDES_CONTROL (volatile uint32_t *)(0xc8832000 + (0x75 << 2))
#define NDMA_RIJNDAEL_CONTROL (0xc8832000 + (0x76 << 2))
#define SEC_NDMA_RIJNDAEL_CONTROL (0xda832000 + (0x76 << 2))
#define P_NDMA_RIJNDAEL_CONTROL (volatile uint32_t *)(0xc8832000 + (0x76 << 2))
#define NDMA_RIJNDAEL_RK_FIFO (0xc8832000 + (0x77 << 2))
#define SEC_NDMA_RIJNDAEL_RK_FIFO (0xda832000 + (0x77 << 2))
#define P_NDMA_RIJNDAEL_RK_FIFO (volatile uint32_t *)(0xc8832000 + (0x77 << 2))
#define NDMA_CRC_OUT (0xc8832000 + (0x78 << 2))
#define SEC_NDMA_CRC_OUT (0xda832000 + (0x78 << 2))
#define P_NDMA_CRC_OUT (volatile uint32_t *)(0xc8832000 + (0x78 << 2))
#define NDMA_THREAD_REG (0xc8832000 + (0x79 << 2))
#define SEC_NDMA_THREAD_REG (0xda832000 + (0x79 << 2))
#define P_NDMA_THREAD_REG (volatile uint32_t *)(0xc8832000 + (0x79 << 2))
#define NDMA_THREAD_TABLE_START0 (0xc8832000 + (0x80 << 2))
#define SEC_NDMA_THREAD_TABLE_START0 (0xda832000 + (0x80 << 2))
#define P_NDMA_THREAD_TABLE_START0 (volatile uint32_t *)(0xc8832000 + (0x80 << 2))
#define NDMA_THREAD_TABLE_CURR0 (0xc8832000 + (0x81 << 2))
#define SEC_NDMA_THREAD_TABLE_CURR0 (0xda832000 + (0x81 << 2))
#define P_NDMA_THREAD_TABLE_CURR0 (volatile uint32_t *)(0xc8832000 + (0x81 << 2))
#define NDMA_THREAD_TABLE_END0 (0xc8832000 + (0x82 << 2))
#define SEC_NDMA_THREAD_TABLE_END0 (0xda832000 + (0x82 << 2))
#define P_NDMA_THREAD_TABLE_END0 (volatile uint32_t *)(0xc8832000 + (0x82 << 2))
#define NDMA_THREAD_TABLE_START1 (0xc8832000 + (0x83 << 2))
#define SEC_NDMA_THREAD_TABLE_START1 (0xda832000 + (0x83 << 2))
#define P_NDMA_THREAD_TABLE_START1 (volatile uint32_t *)(0xc8832000 + (0x83 << 2))
#define NDMA_THREAD_TABLE_CURR1 (0xc8832000 + (0x84 << 2))
#define SEC_NDMA_THREAD_TABLE_CURR1 (0xda832000 + (0x84 << 2))
#define P_NDMA_THREAD_TABLE_CURR1 (volatile uint32_t *)(0xc8832000 + (0x84 << 2))
#define NDMA_THREAD_TABLE_END1 (0xc8832000 + (0x85 << 2))
#define SEC_NDMA_THREAD_TABLE_END1 (0xda832000 + (0x85 << 2))
#define P_NDMA_THREAD_TABLE_END1 (volatile uint32_t *)(0xc8832000 + (0x85 << 2))
#define NDMA_THREAD_TABLE_START2 (0xc8832000 + (0x86 << 2))
#define SEC_NDMA_THREAD_TABLE_START2 (0xda832000 + (0x86 << 2))
#define P_NDMA_THREAD_TABLE_START2 (volatile uint32_t *)(0xc8832000 + (0x86 << 2))
#define NDMA_THREAD_TABLE_CURR2 (0xc8832000 + (0x87 << 2))
#define SEC_NDMA_THREAD_TABLE_CURR2 (0xda832000 + (0x87 << 2))
#define P_NDMA_THREAD_TABLE_CURR2 (volatile uint32_t *)(0xc8832000 + (0x87 << 2))
#define NDMA_THREAD_TABLE_END2 (0xc8832000 + (0x88 << 2))
#define SEC_NDMA_THREAD_TABLE_END2 (0xda832000 + (0x88 << 2))
#define P_NDMA_THREAD_TABLE_END2 (volatile uint32_t *)(0xc8832000 + (0x88 << 2))
#define NDMA_THREAD_TABLE_START3 (0xc8832000 + (0x89 << 2))
#define SEC_NDMA_THREAD_TABLE_START3 (0xda832000 + (0x89 << 2))
#define P_NDMA_THREAD_TABLE_START3 (volatile uint32_t *)(0xc8832000 + (0x89 << 2))
#define NDMA_THREAD_TABLE_CURR3 (0xc8832000 + (0x8a << 2))
#define SEC_NDMA_THREAD_TABLE_CURR3 (0xda832000 + (0x8a << 2))
#define P_NDMA_THREAD_TABLE_CURR3 (volatile uint32_t *)(0xc8832000 + (0x8a << 2))
#define NDMA_THREAD_TABLE_END3 (0xc8832000 + (0x8b << 2))
#define SEC_NDMA_THREAD_TABLE_END3 (0xda832000 + (0x8b << 2))
#define P_NDMA_THREAD_TABLE_END3 (volatile uint32_t *)(0xc8832000 + (0x8b << 2))
#define NDMA_CNTL_REG1 (0xc8832000 + (0x8c << 2))
#define SEC_NDMA_CNTL_REG1 (0xda832000 + (0x8c << 2))
#define P_NDMA_CNTL_REG1 (volatile uint32_t *)(0xc8832000 + (0x8c << 2))
// Non-secure AES Key Writes
#define NDMA_AES_KEY_0 (0xc8832000 + (0x90 << 2))
#define SEC_NDMA_AES_KEY_0 (0xda832000 + (0x90 << 2))
#define P_NDMA_AES_KEY_0 (volatile uint32_t *)(0xc8832000 + (0x90 << 2))
#define NDMA_AES_KEY_1 (0xc8832000 + (0x91 << 2))
#define SEC_NDMA_AES_KEY_1 (0xda832000 + (0x91 << 2))
#define P_NDMA_AES_KEY_1 (volatile uint32_t *)(0xc8832000 + (0x91 << 2))
#define NDMA_AES_KEY_2 (0xc8832000 + (0x92 << 2))
#define SEC_NDMA_AES_KEY_2 (0xda832000 + (0x92 << 2))
#define P_NDMA_AES_KEY_2 (volatile uint32_t *)(0xc8832000 + (0x92 << 2))
#define NDMA_AES_KEY_3 (0xc8832000 + (0x93 << 2))
#define SEC_NDMA_AES_KEY_3 (0xda832000 + (0x93 << 2))
#define P_NDMA_AES_KEY_3 (volatile uint32_t *)(0xc8832000 + (0x93 << 2))
#define NDMA_AES_KEY_4 (0xc8832000 + (0x94 << 2))
#define SEC_NDMA_AES_KEY_4 (0xda832000 + (0x94 << 2))
#define P_NDMA_AES_KEY_4 (volatile uint32_t *)(0xc8832000 + (0x94 << 2))
#define NDMA_AES_KEY_5 (0xc8832000 + (0x95 << 2))
#define SEC_NDMA_AES_KEY_5 (0xda832000 + (0x95 << 2))
#define P_NDMA_AES_KEY_5 (volatile uint32_t *)(0xc8832000 + (0x95 << 2))
#define NDMA_AES_KEY_6 (0xc8832000 + (0x96 << 2))
#define SEC_NDMA_AES_KEY_6 (0xda832000 + (0x96 << 2))
#define P_NDMA_AES_KEY_6 (volatile uint32_t *)(0xc8832000 + (0x96 << 2))
#define NDMA_AES_KEY_7 (0xc8832000 + (0x97 << 2))
#define SEC_NDMA_AES_KEY_7 (0xda832000 + (0x97 << 2))
#define P_NDMA_AES_KEY_7 (volatile uint32_t *)(0xc8832000 + (0x97 << 2))
// Non-secure AES IV Writes
#define NDMA_AES_IV_0 (0xc8832000 + (0x98 << 2))
#define SEC_NDMA_AES_IV_0 (0xda832000 + (0x98 << 2))
#define P_NDMA_AES_IV_0 (volatile uint32_t *)(0xc8832000 + (0x98 << 2))
#define NDMA_AES_IV_1 (0xc8832000 + (0x99 << 2))
#define SEC_NDMA_AES_IV_1 (0xda832000 + (0x99 << 2))
#define P_NDMA_AES_IV_1 (volatile uint32_t *)(0xc8832000 + (0x99 << 2))
#define NDMA_AES_IV_2 (0xc8832000 + (0x9a << 2))
#define SEC_NDMA_AES_IV_2 (0xda832000 + (0x9a << 2))
#define P_NDMA_AES_IV_2 (volatile uint32_t *)(0xc8832000 + (0x9a << 2))
#define NDMA_AES_IV_3 (0xc8832000 + (0x9b << 2))
#define SEC_NDMA_AES_IV_3 (0xda832000 + (0x9b << 2))
#define P_NDMA_AES_IV_3 (volatile uint32_t *)(0xc8832000 + (0x9b << 2))
#define NDMA_AES_REG0 (0xc8832000 + (0x9c << 2))
#define SEC_NDMA_AES_REG0 (0xda832000 + (0x9c << 2))
#define P_NDMA_AES_REG0 (volatile uint32_t *)(0xc8832000 + (0x9c << 2))
// Non-secure SHA Message In writes
#define NDMA_SHA_MSG_IN (0xc8832000 + (0x9d << 2))
#define SEC_NDMA_SHA_MSG_IN (0xda832000 + (0x9d << 2))
#define P_NDMA_SHA_MSG_IN (volatile uint32_t *)(0xc8832000 + (0x9d << 2))
// Non-secure SHA Datalenth In writes
#define NDMA_SHA_DATALEN_IN (0xc8832000 + (0x9e << 2))
#define SEC_NDMA_SHA_DATALEN_IN (0xda832000 + (0x9e << 2))
#define P_NDMA_SHA_DATALEN_IN (volatile uint32_t *)(0xc8832000 + (0x9e << 2))
#define NDMA_SHA_CONTROL (0xc8832000 + (0x9f << 2))
#define SEC_NDMA_SHA_CONTROL (0xda832000 + (0x9f << 2))
#define P_NDMA_SHA_CONTROL (volatile uint32_t *)(0xc8832000 + (0x9f << 2))
// Non-secure SHA Reads
#define NDMA_CRYPTO_OUT_0 (0xc8832000 + (0xa0 << 2))
#define SEC_NDMA_CRYPTO_OUT_0 (0xda832000 + (0xa0 << 2))
#define P_NDMA_CRYPTO_OUT_0 (volatile uint32_t *)(0xc8832000 + (0xa0 << 2))
#define NDMA_CRYPTO_OUT_1 (0xc8832000 + (0xa1 << 2))
#define SEC_NDMA_CRYPTO_OUT_1 (0xda832000 + (0xa1 << 2))
#define P_NDMA_CRYPTO_OUT_1 (volatile uint32_t *)(0xc8832000 + (0xa1 << 2))
#define NDMA_CRYPTO_OUT_2 (0xc8832000 + (0xa2 << 2))
#define SEC_NDMA_CRYPTO_OUT_2 (0xda832000 + (0xa2 << 2))
#define P_NDMA_CRYPTO_OUT_2 (volatile uint32_t *)(0xc8832000 + (0xa2 << 2))
#define NDMA_CRYPTO_OUT_3 (0xc8832000 + (0xa3 << 2))
#define SEC_NDMA_CRYPTO_OUT_3 (0xda832000 + (0xa3 << 2))
#define P_NDMA_CRYPTO_OUT_3 (volatile uint32_t *)(0xc8832000 + (0xa3 << 2))
#define NDMA_CRYPTO_OUT_4 (0xc8832000 + (0xa4 << 2))
#define SEC_NDMA_CRYPTO_OUT_4 (0xda832000 + (0xa4 << 2))
#define P_NDMA_CRYPTO_OUT_4 (volatile uint32_t *)(0xc8832000 + (0xa4 << 2))
#define NDMA_CRYPTO_OUT_5 (0xc8832000 + (0xa5 << 2))
#define SEC_NDMA_CRYPTO_OUT_5 (0xda832000 + (0xa5 << 2))
#define P_NDMA_CRYPTO_OUT_5 (volatile uint32_t *)(0xc8832000 + (0xa5 << 2))
#define NDMA_CRYPTO_OUT_6 (0xc8832000 + (0xa6 << 2))
#define SEC_NDMA_CRYPTO_OUT_6 (0xda832000 + (0xa6 << 2))
#define P_NDMA_CRYPTO_OUT_6 (volatile uint32_t *)(0xc8832000 + (0xa6 << 2))
#define NDMA_CRYPTO_OUT_7 (0xc8832000 + (0xa7 << 2))
#define SEC_NDMA_CRYPTO_OUT_7 (0xda832000 + (0xa7 << 2))
#define P_NDMA_CRYPTO_OUT_7 (volatile uint32_t *)(0xc8832000 + (0xa7 << 2))
#define NDMA_CRYPTO_OUT_8 (0xc8832000 + (0xa8 << 2))
#define SEC_NDMA_CRYPTO_OUT_8 (0xda832000 + (0xa8 << 2))
#define P_NDMA_CRYPTO_OUT_8 (volatile uint32_t *)(0xc8832000 + (0xa8 << 2))
#define NDMA_CRYPTO_OUT_9 (0xc8832000 + (0xa9 << 2))
#define SEC_NDMA_CRYPTO_OUT_9 (0xda832000 + (0xa9 << 2))
#define P_NDMA_CRYPTO_OUT_9 (volatile uint32_t *)(0xc8832000 + (0xa9 << 2))
#define NDMA_CRYPTO_OUT_10 (0xc8832000 + (0xaa << 2))
#define SEC_NDMA_CRYPTO_OUT_10 (0xda832000 + (0xaa << 2))
#define P_NDMA_CRYPTO_OUT_10 (volatile uint32_t *)(0xc8832000 + (0xaa << 2))
#define NDMA_CRYPTO_OUT_11 (0xc8832000 + (0xab << 2))
#define SEC_NDMA_CRYPTO_OUT_11 (0xda832000 + (0xab << 2))
#define P_NDMA_CRYPTO_OUT_11 (volatile uint32_t *)(0xc8832000 + (0xab << 2))
#define NON_SEC_BLKMV_AES_CW_WR (0xc8832000 + (0xb0 << 2))
#define SEC_NON_SEC_BLKMV_AES_CW_WR (0xda832000 + (0xb0 << 2))
#define P_NON_SEC_BLKMV_AES_CW_WR (volatile uint32_t *)(0xc8832000 + (0xb0 << 2))
#define NON_SEC_BLKMV_TDES_CW_WR (0xc8832000 + (0xb1 << 2))
#define SEC_NON_SEC_BLKMV_TDES_CW_WR (0xda832000 + (0xb1 << 2))
#define P_NON_SEC_BLKMV_TDES_CW_WR (volatile uint32_t *)(0xc8832000 + (0xb1 << 2))
// synopsys translate_off
// synopsys translate_on
//
// Closing file: ./secure_apb4_ee.h
//
//
// Reading file: ./ao_rti_reg.h
//
// -------------------------------------------------------------------
// PSEL #0
// -------------------------------------------------------------------
// APB4_DECODER_NON_SECURE_BASE 32'hC8100000
// APB4_DECODER_SECURE_BASE 32'hDA100000
// Registers not affected by the Watchdog timer
#define AO_RTI_STATUS_REG0 (0xc8100000 + (0x00 << 2))
#define SEC_AO_RTI_STATUS_REG0 (0xda100000 + (0x00 << 2))
#define P_AO_RTI_STATUS_REG0 (volatile uint32_t *)(0xc8100000 + (0x00 << 2))
#define AO_RTI_STATUS_REG1 (0xc8100000 + (0x01 << 2))
#define SEC_AO_RTI_STATUS_REG1 (0xda100000 + (0x01 << 2))
#define P_AO_RTI_STATUS_REG1 (volatile uint32_t *)(0xc8100000 + (0x01 << 2))
#define AO_RTI_STATUS_REG2 (0xc8100000 + (0x02 << 2))
#define SEC_AO_RTI_STATUS_REG2 (0xda100000 + (0x02 << 2))
#define P_AO_RTI_STATUS_REG2 (volatile uint32_t *)(0xc8100000 + (0x02 << 2))
#define AO_RTI_PWR_CNTL_REG1 (0xc8100000 + (0x03 << 2))
#define SEC_AO_RTI_PWR_CNTL_REG1 (0xda100000 + (0x03 << 2))
#define P_AO_RTI_PWR_CNTL_REG1 (volatile uint32_t *)(0xc8100000 + (0x03 << 2))
#define AO_RTI_PWR_CNTL_REG0 (0xc8100000 + (0x04 << 2))
#define SEC_AO_RTI_PWR_CNTL_REG0 (0xda100000 + (0x04 << 2))
#define P_AO_RTI_PWR_CNTL_REG0 (volatile uint32_t *)(0xc8100000 + (0x04 << 2))
#define AO_RTI_PIN_MUX_REG (0xc8100000 + (0x05 << 2))
#define SEC_AO_RTI_PIN_MUX_REG (0xda100000 + (0x05 << 2))
#define P_AO_RTI_PIN_MUX_REG (volatile uint32_t *)(0xc8100000 + (0x05 << 2))
#define AO_RTI_PIN_MUX_REG2 (0xc8100000 + (0x06 << 2))
#define SEC_AO_RTI_PIN_MUX_REG2 (0xda100000 + (0x06 << 2))
#define P_AO_RTI_PIN_MUX_REG2 (volatile uint32_t *)(0xc8100000 + (0x06 << 2))
#define AO_RTI_STATUS_REG3 (0xc8100000 + (0x07 << 2))
#define SEC_AO_RTI_STATUS_REG3 (0xda100000 + (0x07 << 2))
#define P_AO_RTI_STATUS_REG3 (volatile uint32_t *)(0xc8100000 + (0x07 << 2))
//`define AO_REMAP_REG0 8'h07 //TODO: DELETE. NOT USED
#define AO_REMAP_REG1 (0xc8100000 + (0x08 << 2))
#define SEC_AO_REMAP_REG1 (0xda100000 + (0x08 << 2))
#define P_AO_REMAP_REG1 (volatile uint32_t *)(0xc8100000 + (0x08 << 2))
#define AO_GPIO_O_EN_N (0xc8100000 + (0x09 << 2))
#define SEC_AO_GPIO_O_EN_N (0xda100000 + (0x09 << 2))
#define P_AO_GPIO_O_EN_N (volatile uint32_t *)(0xc8100000 + (0x09 << 2))
#define AO_GPIO_I (0xc8100000 + (0x0a << 2))
#define SEC_AO_GPIO_I (0xda100000 + (0x0a << 2))
#define P_AO_GPIO_I (volatile uint32_t *)(0xc8100000 + (0x0a << 2))
#define AO_RTI_PULL_UP_REG (0xc8100000 + (0x0b << 2))
#define SEC_AO_RTI_PULL_UP_REG (0xda100000 + (0x0b << 2))
#define P_AO_RTI_PULL_UP_REG (volatile uint32_t *)(0xc8100000 + (0x0b << 2))
#define AO_RTI_JTAG_CONFIG_REG (0xc8100000 + (0x0c << 2))
#define SEC_AO_RTI_JTAG_CONFIG_REG (0xda100000 + (0x0c << 2))
#define P_AO_RTI_JTAG_CONFIG_REG (volatile uint32_t *)(0xc8100000 + (0x0c << 2))
#define AO_RTI_WD_MARK (0xc8100000 + (0x0d << 2))
#define SEC_AO_RTI_WD_MARK (0xda100000 + (0x0d << 2))
#define P_AO_RTI_WD_MARK (volatile uint32_t *)(0xc8100000 + (0x0d << 2))
// sando add for AO CPU
#define AO_CPU_CNTL (0xc8100000 + (0x0e << 2))
#define SEC_AO_CPU_CNTL (0xda100000 + (0x0e << 2))
#define P_AO_CPU_CNTL (volatile uint32_t *)(0xc8100000 + (0x0e << 2))
#define AO_CPU_CNTL2 (0xc8100000 + (0x0f << 2))
#define SEC_AO_CPU_CNTL2 (0xda100000 + (0x0f << 2))
#define P_AO_CPU_CNTL2 (volatile uint32_t *)(0xc8100000 + (0x0f << 2))
#define AO_RTI_GEN_CNTL_REG0 (0xc8100000 + (0x10 << 2))
#define SEC_AO_RTI_GEN_CNTL_REG0 (0xda100000 + (0x10 << 2))
#define P_AO_RTI_GEN_CNTL_REG0 (volatile uint32_t *)(0xc8100000 + (0x10 << 2))
#define AO_CPU_CNTL_NS (0xc8100000 + (0x11 << 2))
#define SEC_AO_CPU_CNTL_NS (0xda100000 + (0x11 << 2))
#define P_AO_CPU_CNTL_NS (volatile uint32_t *)(0xc8100000 + (0x11 << 2))
#define AO_TIMER_REG (0xc8100000 + (0x13 << 2))
#define SEC_AO_TIMER_REG (0xda100000 + (0x13 << 2))
#define P_AO_TIMER_REG (volatile uint32_t *)(0xc8100000 + (0x13 << 2))
#define AO_TIMERA_REG (0xc8100000 + (0x14 << 2))
#define SEC_AO_TIMERA_REG (0xda100000 + (0x14 << 2))
#define P_AO_TIMERA_REG (volatile uint32_t *)(0xc8100000 + (0x14 << 2))
#define AO_TIMERE_REG (0xc8100000 + (0x15 << 2))
#define SEC_AO_TIMERE_REG (0xda100000 + (0x15 << 2))
#define P_AO_TIMERE_REG (volatile uint32_t *)(0xc8100000 + (0x15 << 2))
#define AO_AHB2DDR_CNTL (0xc8100000 + (0x18 << 2))
#define SEC_AO_AHB2DDR_CNTL (0xda100000 + (0x18 << 2))
#define P_AO_AHB2DDR_CNTL (volatile uint32_t *)(0xc8100000 + (0x18 << 2))
#define AO_TIMEBASE_CNTL (0xc8100000 + (0x19 << 2))
#define SEC_AO_TIMEBASE_CNTL (0xda100000 + (0x19 << 2))
#define P_AO_TIMEBASE_CNTL (volatile uint32_t *)(0xc8100000 + (0x19 << 2))
#define AO_CRT_CLK_CNTL1 (0xc8100000 + (0x1a << 2))
#define SEC_AO_CRT_CLK_CNTL1 (0xda100000 + (0x1a << 2))
#define P_AO_CRT_CLK_CNTL1 (volatile uint32_t *)(0xc8100000 + (0x1a << 2))
#define AO_RTI_INTER_OSC_CTL0 (0xc8100000 + (0x1b << 2))
#define SEC_AO_RTI_INTER_OSC_CTL0 (0xda100000 + (0x1b << 2))
#define P_AO_RTI_INTER_OSC_CTL0 (volatile uint32_t *)(0xc8100000 + (0x1b << 2))
#define AO_RTI_INTER_OSC_CTL1 (0xc8100000 + (0x1c << 2))
#define SEC_AO_RTI_INTER_OSC_CTL1 (0xda100000 + (0x1c << 2))
#define P_AO_RTI_INTER_OSC_CTL1 (volatile uint32_t *)(0xc8100000 + (0x1c << 2))
#define AO_IRQ_MASK_FIQ_SEL (0xc8100000 + (0x20 << 2))
#define SEC_AO_IRQ_MASK_FIQ_SEL (0xda100000 + (0x20 << 2))
#define P_AO_IRQ_MASK_FIQ_SEL (volatile uint32_t *)(0xc8100000 + (0x20 << 2))
#define AO_IRQ_GPIO_REG (0xc8100000 + (0x21 << 2))
#define SEC_AO_IRQ_GPIO_REG (0xda100000 + (0x21 << 2))
#define P_AO_IRQ_GPIO_REG (volatile uint32_t *)(0xc8100000 + (0x21 << 2))
#define AO_IRQ_STAT (0xc8100000 + (0x22 << 2))
#define SEC_AO_IRQ_STAT (0xda100000 + (0x22 << 2))
#define P_AO_IRQ_STAT (volatile uint32_t *)(0xc8100000 + (0x22 << 2))
#define AO_IRQ_STAT_CLR (0xc8100000 + (0x23 << 2))
#define SEC_AO_IRQ_STAT_CLR (0xda100000 + (0x23 << 2))
#define P_AO_IRQ_STAT_CLR (volatile uint32_t *)(0xc8100000 + (0x23 << 2))
// `define AO_SAR_CLK 8'h24 moved to the EE domain in Gx
#define AO_RTC_ALT_CLK_CNTL0 (0xc8100000 + (0x25 << 2))
#define SEC_AO_RTC_ALT_CLK_CNTL0 (0xda100000 + (0x25 << 2))
#define P_AO_RTC_ALT_CLK_CNTL0 (volatile uint32_t *)(0xc8100000 + (0x25 << 2))
#define AO_RTC_ALT_CLK_CNTL1 (0xc8100000 + (0x26 << 2))
#define SEC_AO_RTC_ALT_CLK_CNTL1 (0xda100000 + (0x26 << 2))
#define P_AO_RTC_ALT_CLK_CNTL1 (volatile uint32_t *)(0xc8100000 + (0x26 << 2))
#define AO_DEBUG_REG0 (0xc8100000 + (0x28 << 2))
#define SEC_AO_DEBUG_REG0 (0xda100000 + (0x28 << 2))
#define P_AO_DEBUG_REG0 (volatile uint32_t *)(0xc8100000 + (0x28 << 2))
#define AO_DEBUG_REG1 (0xc8100000 + (0x29 << 2))
#define SEC_AO_DEBUG_REG1 (0xda100000 + (0x29 << 2))
#define P_AO_DEBUG_REG1 (volatile uint32_t *)(0xc8100000 + (0x29 << 2))
#define AO_DEBUG_REG2 (0xc8100000 + (0x2a << 2))
#define SEC_AO_DEBUG_REG2 (0xda100000 + (0x2a << 2))
#define P_AO_DEBUG_REG2 (volatile uint32_t *)(0xc8100000 + (0x2a << 2))
#define AO_DEBUG_REG3 (0xc8100000 + (0x2b << 2))
#define SEC_AO_DEBUG_REG3 (0xda100000 + (0x2b << 2))
#define P_AO_DEBUG_REG3 (volatile uint32_t *)(0xc8100000 + (0x2b << 2))
#define AO_TIMESTAMP_CNTL (0xc8100000 + (0x2d << 2))
#define SEC_AO_TIMESTAMP_CNTL (0xda100000 + (0x2d << 2))
#define P_AO_TIMESTAMP_CNTL (volatile uint32_t *)(0xc8100000 + (0x2d << 2))
#define AO_TIMESTAMP_RD0 (0xc8100000 + (0x2e << 2))
#define SEC_AO_TIMESTAMP_RD0 (0xda100000 + (0x2e << 2))
#define P_AO_TIMESTAMP_RD0 (volatile uint32_t *)(0xc8100000 + (0x2e << 2))
#define AO_TIMESTAMP_RD1 (0xc8100000 + (0x2f << 2))
#define SEC_AO_TIMESTAMP_RD1 (0xda100000 + (0x2f << 2))
#define P_AO_TIMESTAMP_RD1 (volatile uint32_t *)(0xc8100000 + (0x2f << 2))
#define AO_IR_BLASTER_ADDR0 (0xc8100000 + (0x30 << 2))
#define SEC_AO_IR_BLASTER_ADDR0 (0xda100000 + (0x30 << 2))
#define P_AO_IR_BLASTER_ADDR0 (volatile uint32_t *)(0xc8100000 + (0x30 << 2))
#define AO_IR_BLASTER_ADDR1 (0xc8100000 + (0x31 << 2))
#define SEC_AO_IR_BLASTER_ADDR1 (0xda100000 + (0x31 << 2))
#define P_AO_IR_BLASTER_ADDR1 (volatile uint32_t *)(0xc8100000 + (0x31 << 2))
#define AO_IR_BLASTER_ADDR2 (0xc8100000 + (0x32 << 2))
#define SEC_AO_IR_BLASTER_ADDR2 (0xda100000 + (0x32 << 2))
#define P_AO_IR_BLASTER_ADDR2 (volatile uint32_t *)(0xc8100000 + (0x32 << 2))
#define AO_CPU_STAT1 (0xc8100000 + (0x33 << 2))
#define SEC_AO_CPU_STAT1 (0xda100000 + (0x33 << 2))
#define P_AO_CPU_STAT1 (volatile uint32_t *)(0xc8100000 + (0x33 << 2))
#define AO_CPU_STAT2 (0xc8100000 + (0x34 << 2))
#define SEC_AO_CPU_STAT2 (0xda100000 + (0x34 << 2))
#define P_AO_CPU_STAT2 (volatile uint32_t *)(0xc8100000 + (0x34 << 2))
#define AO_CPU_TIMESTAMP (0xc8100000 + (0x35 << 2))
#define SEC_AO_CPU_TIMESTAMP (0xda100000 + (0x35 << 2))
#define P_AO_CPU_TIMESTAMP (volatile uint32_t *)(0xc8100000 + (0x35 << 2))
#define AO_CPU_TIMESTAMP2 (0xc8100000 + (0x36 << 2))
#define SEC_AO_CPU_TIMESTAMP2 (0xda100000 + (0x36 << 2))
#define P_AO_CPU_TIMESTAMP2 (volatile uint32_t *)(0xc8100000 + (0x36 << 2))
#define AO_CPU_CNTL3 (0xc8100000 + (0x37 << 2))
#define SEC_AO_CPU_CNTL3 (0xda100000 + (0x37 << 2))
#define P_AO_CPU_CNTL3 (volatile uint32_t *)(0xc8100000 + (0x37 << 2))
// general Power control
#define AO_RTI_PWR_SYS_CPU_CNTL0 (0xc8100000 + (0x38 << 2))
#define SEC_AO_RTI_PWR_SYS_CPU_CNTL0 (0xda100000 + (0x38 << 2))
#define P_AO_RTI_PWR_SYS_CPU_CNTL0 (volatile uint32_t *)(0xc8100000 + (0x38 << 2))
#define AO_RTI_PWR_SYS_CPU_CNTL1 (0xc8100000 + (0x39 << 2))
#define SEC_AO_RTI_PWR_SYS_CPU_CNTL1 (0xda100000 + (0x39 << 2))
#define P_AO_RTI_PWR_SYS_CPU_CNTL1 (volatile uint32_t *)(0xc8100000 + (0x39 << 2))
#define AO_RTI_GEN_PWR_SLEEP0 (0xc8100000 + (0x3a << 2))
#define SEC_AO_RTI_GEN_PWR_SLEEP0 (0xda100000 + (0x3a << 2))
#define P_AO_RTI_GEN_PWR_SLEEP0 (volatile uint32_t *)(0xc8100000 + (0x3a << 2))
#define AO_RTI_GEN_PWR_ISO0 (0xc8100000 + (0x3b << 2))
#define SEC_AO_RTI_GEN_PWR_ISO0 (0xda100000 + (0x3b << 2))
#define P_AO_RTI_GEN_PWR_ISO0 (volatile uint32_t *)(0xc8100000 + (0x3b << 2))
#define AO_RTI_GEN_PWR_ACK0 (0xc8100000 + (0x3c << 2))
#define SEC_AO_RTI_GEN_PWR_ACK0 (0xda100000 + (0x3c << 2))
#define P_AO_RTI_GEN_PWR_ACK0 (volatile uint32_t *)(0xc8100000 + (0x3c << 2))
#define AO_RTI_PWR_SYS_CPU_MEM_PD0 (0xc8100000 + (0x3d << 2))
#define SEC_AO_RTI_PWR_SYS_CPU_MEM_PD0 (0xda100000 + (0x3d << 2))
#define P_AO_RTI_PWR_SYS_CPU_MEM_PD0 (volatile uint32_t *)(0xc8100000 + (0x3d << 2))
#define AO_RTI_PWR_SYS_CPU_MEM_PD1 (0xc8100000 + (0x3e << 2))
#define SEC_AO_RTI_PWR_SYS_CPU_MEM_PD1 (0xda100000 + (0x3e << 2))
#define P_AO_RTI_PWR_SYS_CPU_MEM_PD1 (volatile uint32_t *)(0xc8100000 + (0x3e << 2))
#define AO_CPU_CNTL4 (0xc8100000 + (0x3f << 2))
#define SEC_AO_CPU_CNTL4 (0xda100000 + (0x3f << 2))
#define P_AO_CPU_CNTL4 (volatile uint32_t *)(0xc8100000 + (0x3f << 2))
#define AO_CEC_GEN_CNTL (0xc8100000 + (0x40 << 2))
#define SEC_AO_CEC_GEN_CNTL (0xda100000 + (0x40 << 2))
#define P_AO_CEC_GEN_CNTL (volatile uint32_t *)(0xc8100000 + (0x40 << 2))
#define AO_CEC_RW_REG (0xc8100000 + (0x41 << 2))
#define SEC_AO_CEC_RW_REG (0xda100000 + (0x41 << 2))
#define P_AO_CEC_RW_REG (volatile uint32_t *)(0xc8100000 + (0x41 << 2))
#define AO_CEC_INTR_MASKN (0xc8100000 + (0x42 << 2))
#define SEC_AO_CEC_INTR_MASKN (0xda100000 + (0x42 << 2))
#define P_AO_CEC_INTR_MASKN (volatile uint32_t *)(0xc8100000 + (0x42 << 2))
#define AO_CEC_INTR_CLR (0xc8100000 + (0x43 << 2))
#define SEC_AO_CEC_INTR_CLR (0xda100000 + (0x43 << 2))
#define P_AO_CEC_INTR_CLR (volatile uint32_t *)(0xc8100000 + (0x43 << 2))
#define AO_CEC_INTR_STAT (0xc8100000 + (0x44 << 2))
#define SEC_AO_CEC_INTR_STAT (0xda100000 + (0x44 << 2))
#define P_AO_CEC_INTR_STAT (volatile uint32_t *)(0xc8100000 + (0x44 << 2))
#define AO_CPU_CNTL5 (0xc8100000 + (0x45 << 2))
#define SEC_AO_CPU_CNTL5 (0xda100000 + (0x45 << 2))
#define P_AO_CPU_CNTL5 (volatile uint32_t *)(0xc8100000 + (0x45 << 2))
#define AO_WATCHDOG_CNTL (0xc8100000 + (0x48 << 2))
#define SEC_AO_WATCHDOG_CNTL (0xda100000 + (0x48 << 2))
#define P_AO_WATCHDOG_CNTL (volatile uint32_t *)(0xc8100000 + (0x48 << 2))
#define AO_WATCHDOG_CNTL1 (0xc8100000 + (0x49 << 2))
#define SEC_AO_WATCHDOG_CNTL1 (0xda100000 + (0x49 << 2))
#define P_AO_WATCHDOG_CNTL1 (volatile uint32_t *)(0xc8100000 + (0x49 << 2))
#define AO_WATCHDOG_TCNT (0xc8100000 + (0x4a << 2))
#define SEC_AO_WATCHDOG_TCNT (0xda100000 + (0x4a << 2))
#define P_AO_WATCHDOG_TCNT (volatile uint32_t *)(0xc8100000 + (0x4a << 2))
#define AO_WATCHDOG_RESET (0xc8100000 + (0x4b << 2))
#define SEC_AO_WATCHDOG_RESET (0xda100000 + (0x4b << 2))
#define P_AO_WATCHDOG_RESET (volatile uint32_t *)(0xc8100000 + (0x4b << 2))
//
// Secure APB3 Slot 2 registers
//
#define AO_SEC_REG0 (0xc8100000 + (0x50 << 2))
#define SEC_AO_SEC_REG0 (0xda100000 + (0x50 << 2))
#define P_AO_SEC_REG0 (volatile uint32_t *)(0xc8100000 + (0x50 << 2))
#define AO_SEC_REG1 (0xc8100000 + (0x51 << 2))
#define SEC_AO_SEC_REG1 (0xda100000 + (0x51 << 2))
#define P_AO_SEC_REG1 (volatile uint32_t *)(0xc8100000 + (0x51 << 2))
#define AO_SEC_REG2 (0xc8100000 + (0x52 << 2))
#define SEC_AO_SEC_REG2 (0xda100000 + (0x52 << 2))
#define P_AO_SEC_REG2 (volatile uint32_t *)(0xc8100000 + (0x52 << 2))
#define AO_SEC_TMODE_PWD0 (0xc8100000 + (0x58 << 2))
#define SEC_AO_SEC_TMODE_PWD0 (0xda100000 + (0x58 << 2))
#define P_AO_SEC_TMODE_PWD0 (volatile uint32_t *)(0xc8100000 + (0x58 << 2))
#define AO_SEC_TMODE_PWD1 (0xc8100000 + (0x59 << 2))
#define SEC_AO_SEC_TMODE_PWD1 (0xda100000 + (0x59 << 2))
#define P_AO_SEC_TMODE_PWD1 (volatile uint32_t *)(0xc8100000 + (0x59 << 2))
#define AO_SEC_TMODE_PWD2 (0xc8100000 + (0x5a << 2))
#define SEC_AO_SEC_TMODE_PWD2 (0xda100000 + (0x5a << 2))
#define P_AO_SEC_TMODE_PWD2 (volatile uint32_t *)(0xc8100000 + (0x5a << 2))
#define AO_SEC_TMODE_PWD3 (0xc8100000 + (0x5b << 2))
#define SEC_AO_SEC_TMODE_PWD3 (0xda100000 + (0x5b << 2))
#define P_AO_SEC_TMODE_PWD3 (volatile uint32_t *)(0xc8100000 + (0x5b << 2))
#define AO_SEC_SCRATCH (0xc8100000 + (0x5f << 2))
#define SEC_AO_SEC_SCRATCH (0xda100000 + (0x5f << 2))
#define P_AO_SEC_SCRATCH (volatile uint32_t *)(0xc8100000 + (0x5f << 2))
#define AO_SEC_JTAG_PWD0 (0xc8100000 + (0x60 << 2))
#define SEC_AO_SEC_JTAG_PWD0 (0xda100000 + (0x60 << 2))
#define P_AO_SEC_JTAG_PWD0 (volatile uint32_t *)(0xc8100000 + (0x60 << 2))
#define AO_SEC_JTAG_PWD1 (0xc8100000 + (0x61 << 2))
#define SEC_AO_SEC_JTAG_PWD1 (0xda100000 + (0x61 << 2))
#define P_AO_SEC_JTAG_PWD1 (volatile uint32_t *)(0xc8100000 + (0x61 << 2))
#define AO_SEC_JTAG_PWD2 (0xc8100000 + (0x62 << 2))
#define SEC_AO_SEC_JTAG_PWD2 (0xda100000 + (0x62 << 2))
#define P_AO_SEC_JTAG_PWD2 (volatile uint32_t *)(0xc8100000 + (0x62 << 2))
#define AO_SEC_JTAG_PWD3 (0xc8100000 + (0x63 << 2))
#define SEC_AO_SEC_JTAG_PWD3 (0xda100000 + (0x63 << 2))
#define P_AO_SEC_JTAG_PWD3 (volatile uint32_t *)(0xc8100000 + (0x63 << 2))
#define AO_SEC_JTAG_SEC_CNTL (0xc8100000 + (0x64 << 2))
#define SEC_AO_SEC_JTAG_SEC_CNTL (0xda100000 + (0x64 << 2))
#define P_AO_SEC_JTAG_SEC_CNTL (volatile uint32_t *)(0xc8100000 + (0x64 << 2))
#define AO_SEC_JTAG_PWD_ADDR0 (0xc8100000 + (0x65 << 2))
#define SEC_AO_SEC_JTAG_PWD_ADDR0 (0xda100000 + (0x65 << 2))
#define P_AO_SEC_JTAG_PWD_ADDR0 (volatile uint32_t *)(0xc8100000 + (0x65 << 2))
#define AO_SEC_JTAG_PWD_ADDR1 (0xc8100000 + (0x66 << 2))
#define SEC_AO_SEC_JTAG_PWD_ADDR1 (0xda100000 + (0x66 << 2))
#define P_AO_SEC_JTAG_PWD_ADDR1 (volatile uint32_t *)(0xc8100000 + (0x66 << 2))
#define AO_SEC_JTAG_PWD_ADDR2 (0xc8100000 + (0x67 << 2))
#define SEC_AO_SEC_JTAG_PWD_ADDR2 (0xda100000 + (0x67 << 2))
#define P_AO_SEC_JTAG_PWD_ADDR2 (volatile uint32_t *)(0xc8100000 + (0x67 << 2))
#define AO_SEC_JTAG_PWD_ADDR3 (0xc8100000 + (0x68 << 2))
#define SEC_AO_SEC_JTAG_PWD_ADDR3 (0xda100000 + (0x68 << 2))
#define P_AO_SEC_JTAG_PWD_ADDR3 (volatile uint32_t *)(0xc8100000 + (0x68 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG0_0 (0xc8100000 + (0x70 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG0_0 (0xda100000 + (0x70 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG0_0 (volatile uint32_t *)(0xc8100000 + (0x70 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG0_1 (0xc8100000 + (0x71 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG0_1 (0xda100000 + (0x71 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG0_1 (volatile uint32_t *)(0xc8100000 + (0x71 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG0_2 (0xc8100000 + (0x72 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG0_2 (0xda100000 + (0x72 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG0_2 (volatile uint32_t *)(0xc8100000 + (0x72 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG1_0 (0xc8100000 + (0x73 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG1_0 (0xda100000 + (0x73 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG1_0 (volatile uint32_t *)(0xc8100000 + (0x73 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG1_1 (0xc8100000 + (0x74 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG1_1 (0xda100000 + (0x74 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG1_1 (volatile uint32_t *)(0xc8100000 + (0x74 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG1_2 (0xc8100000 + (0x75 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG1_2 (0xda100000 + (0x75 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG1_2 (volatile uint32_t *)(0xc8100000 + (0x75 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG2_0 (0xc8100000 + (0x76 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG2_0 (0xda100000 + (0x76 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG2_0 (volatile uint32_t *)(0xc8100000 + (0x76 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG2_1 (0xc8100000 + (0x77 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG2_1 (0xda100000 + (0x77 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG2_1 (volatile uint32_t *)(0xc8100000 + (0x77 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG2_2 (0xc8100000 + (0x78 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG2_2 (0xda100000 + (0x78 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG2_2 (volatile uint32_t *)(0xc8100000 + (0x78 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG3_0 (0xc8100000 + (0x79 << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG3_0 (0xda100000 + (0x79 << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG3_0 (volatile uint32_t *)(0xc8100000 + (0x79 << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG3_1 (0xc8100000 + (0x7a << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG3_1 (0xda100000 + (0x7a << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG3_1 (volatile uint32_t *)(0xc8100000 + (0x7a << 2))
#define AO_SEC_SHARED_AHB_SRAM_REG3_2 (0xc8100000 + (0x7b << 2))
#define SEC_AO_SEC_SHARED_AHB_SRAM_REG3_2 (0xda100000 + (0x7b << 2))
#define P_AO_SEC_SHARED_AHB_SRAM_REG3_2 (volatile uint32_t *)(0xc8100000 + (0x7b << 2))
#define AO_SEC_AO_AHB_SRAM_REG0_0 (0xc8100000 + (0x7c << 2))
#define SEC_AO_SEC_AO_AHB_SRAM_REG0_0 (0xda100000 + (0x7c << 2))
#define P_AO_SEC_AO_AHB_SRAM_REG0_0 (volatile uint32_t *)(0xc8100000 + (0x7c << 2))
#define AO_SEC_AO_AHB_SRAM_REG0_1 (0xc8100000 + (0x7d << 2))
#define SEC_AO_SEC_AO_AHB_SRAM_REG0_1 (0xda100000 + (0x7d << 2))
#define P_AO_SEC_AO_AHB_SRAM_REG0_1 (volatile uint32_t *)(0xc8100000 + (0x7d << 2))
#define AO_SEC_AO_AHB_SRAM_REG1_0 (0xc8100000 + (0x7e << 2))
#define SEC_AO_SEC_AO_AHB_SRAM_REG1_0 (0xda100000 + (0x7e << 2))
#define P_AO_SEC_AO_AHB_SRAM_REG1_0 (volatile uint32_t *)(0xc8100000 + (0x7e << 2))
#define AO_SEC_AO_AHB_SRAM_REG1_1 (0xc8100000 + (0x7f << 2))
#define SEC_AO_SEC_AO_AHB_SRAM_REG1_1 (0xda100000 + (0x7f << 2))
#define P_AO_SEC_AO_AHB_SRAM_REG1_1 (volatile uint32_t *)(0xc8100000 + (0x7f << 2))
#define AO_SEC_SD_CFG0 (0xc8100000 + (0x80 << 2))
#define SEC_AO_SEC_SD_CFG0 (0xda100000 + (0x80 << 2))
#define P_AO_SEC_SD_CFG0 (volatile uint32_t *)(0xc8100000 + (0x80 << 2))
#define AO_SEC_SD_CFG1 (0xc8100000 + (0x81 << 2))
#define SEC_AO_SEC_SD_CFG1 (0xda100000 + (0x81 << 2))
#define P_AO_SEC_SD_CFG1 (volatile uint32_t *)(0xc8100000 + (0x81 << 2))
#define AO_SEC_SD_CFG2 (0xc8100000 + (0x82 << 2))
#define SEC_AO_SEC_SD_CFG2 (0xda100000 + (0x82 << 2))
#define P_AO_SEC_SD_CFG2 (volatile uint32_t *)(0xc8100000 + (0x82 << 2))
#define AO_SEC_SD_CFG3 (0xc8100000 + (0x83 << 2))
#define SEC_AO_SEC_SD_CFG3 (0xda100000 + (0x83 << 2))
#define P_AO_SEC_SD_CFG3 (volatile uint32_t *)(0xc8100000 + (0x83 << 2))
#define AO_SEC_SD_CFG4 (0xc8100000 + (0x84 << 2))
#define SEC_AO_SEC_SD_CFG4 (0xda100000 + (0x84 << 2))
#define P_AO_SEC_SD_CFG4 (volatile uint32_t *)(0xc8100000 + (0x84 << 2))
#define AO_SEC_SD_CFG5 (0xc8100000 + (0x85 << 2))
#define SEC_AO_SEC_SD_CFG5 (0xda100000 + (0x85 << 2))
#define P_AO_SEC_SD_CFG5 (volatile uint32_t *)(0xc8100000 + (0x85 << 2))
#define AO_SEC_SD_CFG6 (0xc8100000 + (0x86 << 2))
#define SEC_AO_SEC_SD_CFG6 (0xda100000 + (0x86 << 2))
#define P_AO_SEC_SD_CFG6 (volatile uint32_t *)(0xc8100000 + (0x86 << 2))
#define AO_SEC_SD_CFG7 (0xc8100000 + (0x87 << 2))
#define SEC_AO_SEC_SD_CFG7 (0xda100000 + (0x87 << 2))
#define P_AO_SEC_SD_CFG7 (volatile uint32_t *)(0xc8100000 + (0x87 << 2))
#define AO_SEC_SD_CFG8 (0xc8100000 + (0x88 << 2))
#define SEC_AO_SEC_SD_CFG8 (0xda100000 + (0x88 << 2))
#define P_AO_SEC_SD_CFG8 (volatile uint32_t *)(0xc8100000 + (0x88 << 2))
#define AO_SEC_SD_CFG9 (0xc8100000 + (0x89 << 2))
#define SEC_AO_SEC_SD_CFG9 (0xda100000 + (0x89 << 2))
#define P_AO_SEC_SD_CFG9 (volatile uint32_t *)(0xc8100000 + (0x89 << 2))
#define AO_SEC_SD_CFG10 (0xc8100000 + (0x8a << 2))
#define SEC_AO_SEC_SD_CFG10 (0xda100000 + (0x8a << 2))
#define P_AO_SEC_SD_CFG10 (volatile uint32_t *)(0xc8100000 + (0x8a << 2))
#define AO_SEC_SD_CFG11 (0xc8100000 + (0x8b << 2))
#define SEC_AO_SEC_SD_CFG11 (0xda100000 + (0x8b << 2))
#define P_AO_SEC_SD_CFG11 (volatile uint32_t *)(0xc8100000 + (0x8b << 2))
#define AO_SEC_SD_CFG12 (0xc8100000 + (0x8c << 2))
#define SEC_AO_SEC_SD_CFG12 (0xda100000 + (0x8c << 2))
#define P_AO_SEC_SD_CFG12 (volatile uint32_t *)(0xc8100000 + (0x8c << 2))
#define AO_SEC_SD_CFG13 (0xc8100000 + (0x8d << 2))
#define SEC_AO_SEC_SD_CFG13 (0xda100000 + (0x8d << 2))
#define P_AO_SEC_SD_CFG13 (volatile uint32_t *)(0xc8100000 + (0x8d << 2))
#define AO_SEC_SD_CFG14 (0xc8100000 + (0x8e << 2))
#define SEC_AO_SEC_SD_CFG14 (0xda100000 + (0x8e << 2))
#define P_AO_SEC_SD_CFG14 (volatile uint32_t *)(0xc8100000 + (0x8e << 2))
#define AO_SEC_SD_CFG15 (0xc8100000 + (0x8f << 2))
#define SEC_AO_SEC_SD_CFG15 (0xda100000 + (0x8f << 2))
#define P_AO_SEC_SD_CFG15 (volatile uint32_t *)(0xc8100000 + (0x8f << 2))
#define AO_SEC_GP_CFG0 (0xc8100000 + (0x90 << 2))
#define SEC_AO_SEC_GP_CFG0 (0xda100000 + (0x90 << 2))
#define P_AO_SEC_GP_CFG0 (volatile uint32_t *)(0xc8100000 + (0x90 << 2))
#define AO_SEC_GP_CFG1 (0xc8100000 + (0x91 << 2))
#define SEC_AO_SEC_GP_CFG1 (0xda100000 + (0x91 << 2))
#define P_AO_SEC_GP_CFG1 (volatile uint32_t *)(0xc8100000 + (0x91 << 2))
#define AO_SEC_GP_CFG2 (0xc8100000 + (0x92 << 2))
#define SEC_AO_SEC_GP_CFG2 (0xda100000 + (0x92 << 2))
#define P_AO_SEC_GP_CFG2 (volatile uint32_t *)(0xc8100000 + (0x92 << 2))
#define AO_SEC_GP_CFG3 (0xc8100000 + (0x93 << 2))
#define SEC_AO_SEC_GP_CFG3 (0xda100000 + (0x93 << 2))
#define P_AO_SEC_GP_CFG3 (volatile uint32_t *)(0xc8100000 + (0x93 << 2))
#define AO_SEC_GP_CFG4 (0xc8100000 + (0x94 << 2))
#define SEC_AO_SEC_GP_CFG4 (0xda100000 + (0x94 << 2))
#define P_AO_SEC_GP_CFG4 (volatile uint32_t *)(0xc8100000 + (0x94 << 2))
#define AO_SEC_GP_CFG5 (0xc8100000 + (0x95 << 2))
#define SEC_AO_SEC_GP_CFG5 (0xda100000 + (0x95 << 2))
#define P_AO_SEC_GP_CFG5 (volatile uint32_t *)(0xc8100000 + (0x95 << 2))
#define AO_SEC_GP_CFG6 (0xc8100000 + (0x96 << 2))
#define SEC_AO_SEC_GP_CFG6 (0xda100000 + (0x96 << 2))
#define P_AO_SEC_GP_CFG6 (volatile uint32_t *)(0xc8100000 + (0x96 << 2))
#define AO_SEC_GP_CFG7 (0xc8100000 + (0x97 << 2))
#define SEC_AO_SEC_GP_CFG7 (0xda100000 + (0x97 << 2))
#define P_AO_SEC_GP_CFG7 (volatile uint32_t *)(0xc8100000 + (0x97 << 2))
//`define AO_RTC_ADDR0 8'h70 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC
//`define AO_RTC_ADDR1 8'h71 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC
//`define AO_RTC_ADDR2 8'h72 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC
//`define AO_RTC_ADDR3 8'h73 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC
//`define AO_RTC_ADDR4 8'h74 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC
// -------------------------------------------------------------------
// PSEL #1
// -------------------------------------------------------------------
// APB4_DECODER_NON_SECURE_BASE 32'hC8100400
// APB4_DECODER_SECURE_BASE 32'hDA100400
// ----------------------------
// IR Remote (8)
// ----------------------------
#define AO_IR_DEC_LDR_ACTIVE (0xc8100400 + (0x20 << 2))
#define SEC_AO_IR_DEC_LDR_ACTIVE (0xda100400 + (0x20 << 2))
#define P_AO_IR_DEC_LDR_ACTIVE (volatile uint32_t *)(0xc8100400 + (0x20 << 2))
#define AO_IR_DEC_LDR_IDLE (0xc8100400 + (0x21 << 2))
#define SEC_AO_IR_DEC_LDR_IDLE (0xda100400 + (0x21 << 2))
#define P_AO_IR_DEC_LDR_IDLE (volatile uint32_t *)(0xc8100400 + (0x21 << 2))
#define AO_IR_DEC_LDR_REPEAT (0xc8100400 + (0x22 << 2))
#define SEC_AO_IR_DEC_LDR_REPEAT (0xda100400 + (0x22 << 2))
#define P_AO_IR_DEC_LDR_REPEAT (volatile uint32_t *)(0xc8100400 + (0x22 << 2))
#define AO_IR_DEC_BIT_0 (0xc8100400 + (0x23 << 2))
#define SEC_AO_IR_DEC_BIT_0 (0xda100400 + (0x23 << 2))
#define P_AO_IR_DEC_BIT_0 (volatile uint32_t *)(0xc8100400 + (0x23 << 2))
#define AO_IR_DEC_REG0 (0xc8100400 + (0x24 << 2))
#define SEC_AO_IR_DEC_REG0 (0xda100400 + (0x24 << 2))
#define P_AO_IR_DEC_REG0 (volatile uint32_t *)(0xc8100400 + (0x24 << 2))
#define AO_IR_DEC_FRAME (0xc8100400 + (0x25 << 2))
#define SEC_AO_IR_DEC_FRAME (0xda100400 + (0x25 << 2))
#define P_AO_IR_DEC_FRAME (volatile uint32_t *)(0xc8100400 + (0x25 << 2))
#define AO_IR_DEC_STATUS (0xc8100400 + (0x26 << 2))
#define SEC_AO_IR_DEC_STATUS (0xda100400 + (0x26 << 2))
#define P_AO_IR_DEC_STATUS (volatile uint32_t *)(0xc8100400 + (0x26 << 2))
#define AO_IR_DEC_REG1 (0xc8100400 + (0x27 << 2))
#define SEC_AO_IR_DEC_REG1 (0xda100400 + (0x27 << 2))
#define P_AO_IR_DEC_REG1 (volatile uint32_t *)(0xc8100400 + (0x27 << 2))
// ----------------------------
// UART
// ----------------------------
#define AO_UART_WFIFO (0xc8100400 + (0x30 << 2))
#define SEC_AO_UART_WFIFO (0xda100400 + (0x30 << 2))
#define P_AO_UART_WFIFO (volatile uint32_t *)(0xc8100400 + (0x30 << 2))
#define AO_UART_RFIFO (0xc8100400 + (0x31 << 2))
#define SEC_AO_UART_RFIFO (0xda100400 + (0x31 << 2))
#define P_AO_UART_RFIFO (volatile uint32_t *)(0xc8100400 + (0x31 << 2))
#define AO_UART_CONTROL (0xc8100400 + (0x32 << 2))
#define SEC_AO_UART_CONTROL (0xda100400 + (0x32 << 2))
#define P_AO_UART_CONTROL (volatile uint32_t *)(0xc8100400 + (0x32 << 2))
#define AO_UART_STATUS (0xc8100400 + (0x33 << 2))
#define SEC_AO_UART_STATUS (0xda100400 + (0x33 << 2))
#define P_AO_UART_STATUS (volatile uint32_t *)(0xc8100400 + (0x33 << 2))
#define AO_UART_MISC (0xc8100400 + (0x34 << 2))
#define SEC_AO_UART_MISC (0xda100400 + (0x34 << 2))
#define P_AO_UART_MISC (volatile uint32_t *)(0xc8100400 + (0x34 << 2))
#define AO_UART_REG5 (0xc8100400 + (0x35 << 2))
#define SEC_AO_UART_REG5 (0xda100400 + (0x35 << 2))
#define P_AO_UART_REG5 (volatile uint32_t *)(0xc8100400 + (0x35 << 2))
// ----------------------------
// UART2
// ----------------------------
#define AO_UART2_WFIFO (0xc8100400 + (0x38 << 2))
#define SEC_AO_UART2_WFIFO (0xda100400 + (0x38 << 2))
#define P_AO_UART2_WFIFO (volatile uint32_t *)(0xc8100400 + (0x38 << 2))
#define AO_UART2_RFIFO (0xc8100400 + (0x39 << 2))
#define SEC_AO_UART2_RFIFO (0xda100400 + (0x39 << 2))
#define P_AO_UART2_RFIFO (volatile uint32_t *)(0xc8100400 + (0x39 << 2))
#define AO_UART2_CONTROL (0xc8100400 + (0x3a << 2))
#define SEC_AO_UART2_CONTROL (0xda100400 + (0x3a << 2))
#define P_AO_UART2_CONTROL (volatile uint32_t *)(0xc8100400 + (0x3a << 2))
#define AO_UART2_STATUS (0xc8100400 + (0x3b << 2))
#define SEC_AO_UART2_STATUS (0xda100400 + (0x3b << 2))
#define P_AO_UART2_STATUS (volatile uint32_t *)(0xc8100400 + (0x3b << 2))
#define AO_UART2_MISC (0xc8100400 + (0x3c << 2))
#define SEC_AO_UART2_MISC (0xda100400 + (0x3c << 2))
#define P_AO_UART2_MISC (volatile uint32_t *)(0xc8100400 + (0x3c << 2))
#define AO_UART2_REG5 (0xc8100400 + (0x3d << 2))
#define SEC_AO_UART2_REG5 (0xda100400 + (0x3d << 2))
#define P_AO_UART2_REG5 (volatile uint32_t *)(0xc8100400 + (0x3d << 2))
// ----------------------------
// I2C Master (8)
// ----------------------------
#define AO_I2C_M_0_CONTROL_REG (0xc8100400 + (0x40 << 2))
#define SEC_AO_I2C_M_0_CONTROL_REG (0xda100400 + (0x40 << 2))
#define P_AO_I2C_M_0_CONTROL_REG (volatile uint32_t *)(0xc8100400 + (0x40 << 2))
#define AO_I2C_M_0_SLAVE_ADDR (0xc8100400 + (0x41 << 2))
#define SEC_AO_I2C_M_0_SLAVE_ADDR (0xda100400 + (0x41 << 2))
#define P_AO_I2C_M_0_SLAVE_ADDR (volatile uint32_t *)(0xc8100400 + (0x41 << 2))
#define AO_I2C_M_0_TOKEN_LIST0 (0xc8100400 + (0x42 << 2))
#define SEC_AO_I2C_M_0_TOKEN_LIST0 (0xda100400 + (0x42 << 2))
#define P_AO_I2C_M_0_TOKEN_LIST0 (volatile uint32_t *)(0xc8100400 + (0x42 << 2))
#define AO_I2C_M_0_TOKEN_LIST1 (0xc8100400 + (0x43 << 2))
#define SEC_AO_I2C_M_0_TOKEN_LIST1 (0xda100400 + (0x43 << 2))
#define P_AO_I2C_M_0_TOKEN_LIST1 (volatile uint32_t *)(0xc8100400 + (0x43 << 2))
#define AO_I2C_M_0_WDATA_REG0 (0xc8100400 + (0x44 << 2))
#define SEC_AO_I2C_M_0_WDATA_REG0 (0xda100400 + (0x44 << 2))
#define P_AO_I2C_M_0_WDATA_REG0 (volatile uint32_t *)(0xc8100400 + (0x44 << 2))
#define AO_I2C_M_0_WDATA_REG1 (0xc8100400 + (0x45 << 2))
#define SEC_AO_I2C_M_0_WDATA_REG1 (0xda100400 + (0x45 << 2))
#define P_AO_I2C_M_0_WDATA_REG1 (volatile uint32_t *)(0xc8100400 + (0x45 << 2))
#define AO_I2C_M_0_RDATA_REG0 (0xc8100400 + (0x46 << 2))
#define SEC_AO_I2C_M_0_RDATA_REG0 (0xda100400 + (0x46 << 2))
#define P_AO_I2C_M_0_RDATA_REG0 (volatile uint32_t *)(0xc8100400 + (0x46 << 2))
#define AO_I2C_M_0_RDATA_REG1 (0xc8100400 + (0x47 << 2))
#define SEC_AO_I2C_M_0_RDATA_REG1 (0xda100400 + (0x47 << 2))
#define P_AO_I2C_M_0_RDATA_REG1 (volatile uint32_t *)(0xc8100400 + (0x47 << 2))
// ----------------------------
// I2C Slave (3)
// ----------------------------
#define AO_I2C_S_CONTROL_REG (0xc8100400 + (0x50 << 2))
#define SEC_AO_I2C_S_CONTROL_REG (0xda100400 + (0x50 << 2))
#define P_AO_I2C_S_CONTROL_REG (volatile uint32_t *)(0xc8100400 + (0x50 << 2))
#define AO_I2C_S_SEND_REG (0xc8100400 + (0x51 << 2))
#define SEC_AO_I2C_S_SEND_REG (0xda100400 + (0x51 << 2))
#define P_AO_I2C_S_SEND_REG (volatile uint32_t *)(0xc8100400 + (0x51 << 2))
#define AO_I2C_S_RECV_REG (0xc8100400 + (0x52 << 2))
#define SEC_AO_I2C_S_RECV_REG (0xda100400 + (0x52 << 2))
#define P_AO_I2C_S_RECV_REG (volatile uint32_t *)(0xc8100400 + (0x52 << 2))
#define AO_I2C_S_CNTL1_REG (0xc8100400 + (0x53 << 2))
#define SEC_AO_I2C_S_CNTL1_REG (0xda100400 + (0x53 << 2))
#define P_AO_I2C_S_CNTL1_REG (volatile uint32_t *)(0xc8100400 + (0x53 << 2))
// ----------------------------
// PWM A-B
// ----------------------------
#define AO_PWM_PWM_A (0xc8100400 + (0x54 << 2))
#define SEC_AO_PWM_PWM_A (0xda100400 + (0x54 << 2))
#define P_AO_PWM_PWM_A (volatile uint32_t *)(0xc8100400 + (0x54 << 2))
#define AO_PWM_PWM_B (0xc8100400 + (0x55 << 2))
#define SEC_AO_PWM_PWM_B (0xda100400 + (0x55 << 2))
#define P_AO_PWM_PWM_B (volatile uint32_t *)(0xc8100400 + (0x55 << 2))
#define AO_PWM_MISC_REG_AB (0xc8100400 + (0x56 << 2))
#define SEC_AO_PWM_MISC_REG_AB (0xda100400 + (0x56 << 2))
#define P_AO_PWM_MISC_REG_AB (volatile uint32_t *)(0xc8100400 + (0x56 << 2))
#define AO_PWM_DELTA_SIGMA_AB (0xc8100400 + (0x57 << 2))
#define SEC_AO_PWM_DELTA_SIGMA_AB (0xda100400 + (0x57 << 2))
#define P_AO_PWM_DELTA_SIGMA_AB (volatile uint32_t *)(0xc8100400 + (0x57 << 2))
// ----------------------------
// Multiformat IR Remote
// ----------------------------
#define AO_MF_IR_DEC_LDR_ACTIVE (0xc8100400 + (0x60 << 2))
#define SEC_AO_MF_IR_DEC_LDR_ACTIVE (0xda100400 + (0x60 << 2))
#define P_AO_MF_IR_DEC_LDR_ACTIVE (volatile uint32_t *)(0xc8100400 + (0x60 << 2))
#define AO_MF_IR_DEC_LDR_IDLE (0xc8100400 + (0x61 << 2))
#define SEC_AO_MF_IR_DEC_LDR_IDLE (0xda100400 + (0x61 << 2))
#define P_AO_MF_IR_DEC_LDR_IDLE (volatile uint32_t *)(0xc8100400 + (0x61 << 2))
#define AO_MF_IR_DEC_LDR_REPEAT (0xc8100400 + (0x62 << 2))
#define SEC_AO_MF_IR_DEC_LDR_REPEAT (0xda100400 + (0x62 << 2))
#define P_AO_MF_IR_DEC_LDR_REPEAT (volatile uint32_t *)(0xc8100400 + (0x62 << 2))
#define AO_MF_IR_DEC_BIT_0 (0xc8100400 + (0x63 << 2))
#define SEC_AO_MF_IR_DEC_BIT_0 (0xda100400 + (0x63 << 2))
#define P_AO_MF_IR_DEC_BIT_0 (volatile uint32_t *)(0xc8100400 + (0x63 << 2))
#define AO_MF_IR_DEC_REG0 (0xc8100400 + (0x64 << 2))
#define SEC_AO_MF_IR_DEC_REG0 (0xda100400 + (0x64 << 2))
#define P_AO_MF_IR_DEC_REG0 (volatile uint32_t *)(0xc8100400 + (0x64 << 2))
#define AO_MF_IR_DEC_FRAME (0xc8100400 + (0x65 << 2))
#define SEC_AO_MF_IR_DEC_FRAME (0xda100400 + (0x65 << 2))
#define P_AO_MF_IR_DEC_FRAME (volatile uint32_t *)(0xc8100400 + (0x65 << 2))
#define AO_MF_IR_DEC_STATUS (0xc8100400 + (0x66 << 2))
#define SEC_AO_MF_IR_DEC_STATUS (0xda100400 + (0x66 << 2))
#define P_AO_MF_IR_DEC_STATUS (volatile uint32_t *)(0xc8100400 + (0x66 << 2))
#define AO_MF_IR_DEC_REG1 (0xc8100400 + (0x67 << 2))
#define SEC_AO_MF_IR_DEC_REG1 (0xda100400 + (0x67 << 2))
#define P_AO_MF_IR_DEC_REG1 (volatile uint32_t *)(0xc8100400 + (0x67 << 2))
#define AO_MF_IR_DEC_REG2 (0xc8100400 + (0x68 << 2))
#define SEC_AO_MF_IR_DEC_REG2 (0xda100400 + (0x68 << 2))
#define P_AO_MF_IR_DEC_REG2 (volatile uint32_t *)(0xc8100400 + (0x68 << 2))
#define AO_MF_IR_DEC_DURATN2 (0xc8100400 + (0x69 << 2))
#define SEC_AO_MF_IR_DEC_DURATN2 (0xda100400 + (0x69 << 2))
#define P_AO_MF_IR_DEC_DURATN2 (volatile uint32_t *)(0xc8100400 + (0x69 << 2))
#define AO_MF_IR_DEC_DURATN3 (0xc8100400 + (0x6a << 2))
#define SEC_AO_MF_IR_DEC_DURATN3 (0xda100400 + (0x6a << 2))
#define P_AO_MF_IR_DEC_DURATN3 (volatile uint32_t *)(0xc8100400 + (0x6a << 2))
#define AO_MF_IR_DEC_FRAME1 (0xc8100400 + (0x6b << 2))
#define SEC_AO_MF_IR_DEC_FRAME1 (0xda100400 + (0x6b << 2))
#define P_AO_MF_IR_DEC_FRAME1 (volatile uint32_t *)(0xc8100400 + (0x6b << 2))
#define AO_MF_IR_DEC_STATUS1 (0xc8100400 + (0x6c << 2))
#define SEC_AO_MF_IR_DEC_STATUS1 (0xda100400 + (0x6c << 2))
#define P_AO_MF_IR_DEC_STATUS1 (volatile uint32_t *)(0xc8100400 + (0x6c << 2))
#define AO_MF_IR_DEC_STATUS2 (0xc8100400 + (0x6d << 2))
#define SEC_AO_MF_IR_DEC_STATUS2 (0xda100400 + (0x6d << 2))
#define P_AO_MF_IR_DEC_STATUS2 (volatile uint32_t *)(0xc8100400 + (0x6d << 2))
#define AO_MF_IR_DEC_REG3 (0xc8100400 + (0x6e << 2))
#define SEC_AO_MF_IR_DEC_REG3 (0xda100400 + (0x6e << 2))
#define P_AO_MF_IR_DEC_REG3 (volatile uint32_t *)(0xc8100400 + (0x6e << 2))
#define AO_MF_IR_DEC_FRAME_RSV0 (0xc8100400 + (0x6f << 2))
#define SEC_AO_MF_IR_DEC_FRAME_RSV0 (0xda100400 + (0x6f << 2))
#define P_AO_MF_IR_DEC_FRAME_RSV0 (volatile uint32_t *)(0xc8100400 + (0x6f << 2))
#define AO_MF_IR_DEC_FRAME_RSV1 (0xc8100400 + (0x70 << 2))
#define SEC_AO_MF_IR_DEC_FRAME_RSV1 (0xda100400 + (0x70 << 2))
#define P_AO_MF_IR_DEC_FRAME_RSV1 (volatile uint32_t *)(0xc8100400 + (0x70 << 2))
// ---------------------------
// SAR ADC
// ---------------------------
// `define AO_SAR_ADC_REG0 8'h80
// `define AO_SAR_ADC_CHAN_LIST 8'h81
// `define AO_SAR_ADC_AVG_CNTL 8'h82
// `define AO_SAR_ADC_REG3 8'h83
// `define AO_SAR_ADC_DELAY 8'h84
// `define AO_SAR_ADC_LAST_RD 8'h85
// `define AO_SAR_ADC_FIFO_RD 8'h86
// `define AO_SAR_ADC_AUX_SW 8'h87
// `define AO_SAR_ADC_CHAN_10_SW 8'h88
// `define AO_SAR_ADC_DETECT_IDLE_SW 8'h89
// `define AO_SAR_ADC_DELTA_10 8'h8a
// `define AO_SAR_ADC_REG11 8'h8b
// `define AO_SAR_ADC_REG12 8'h8c
// ---------------------------
// RTC (4)
// ---------------------------
// Moved to the secure APB3 bus
// `define AO_RTC_ADDR0 8'hd0
// `define AO_RTC_ADDR1 8'hd1
// `define AO_RTC_ADDR2 8'hd2
// `define AO_RTC_ADDR3 8'hd3
// `define AO_RTC_ADDR4 8'hd4
//
// Closing file: ./ao_rti_reg.h
//
#endif // SECURE_APB_H