plat/intel/soc/common/drivers/ccu/ncore_ccu.h - filogic/atf - Gitiles

 /*
  * Copyright (c) 2019-2023, Intel Corporation. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
 #ifndef NCORE_CCU_H
 #define NCORE_CCU_H

 #include <stdbool.h>
 #include <stdint.h>

 #ifndef CCU_ACTIVATE_COH_FPGA
 #define CCU_ACTIVATE_COH_FPGA 0
 #endif
 // Address map for ccu init
 #define addr_CAIUIDR1				(0x1C000000)
 #define addr_GRBUNRRUCR				(0x1c0ffff8)
 #define base_addr_NRS_CAIU0			(0x1c000000)
 #define base_addr_NRS_NCAIU0			(0x1c001000)
 #define base_addr_NRS_NCAIU1			(0x1c002000)
 #define base_addr_NRS_NCAIU2			(0x1c003000)
 #define base_addr_NRS_NCAIU3			(0x1c004000)
 #define base_addr_NRS_DCE0			(0x1c005000)
 #define base_addr_NRS_DCE1			(0x1c006000)
 //#define base_addr_NRS_DMI0			(0x1c007000)
 //#define base_addr_NRS_DMI1			(0x1c008000)
 //DMI
 #define ALT_CCU_CCU_DMI0_DMIUSMCTCR_ADDR	0x1C007300
 #define ALT_CCU_CCU_DMI1_DMIUSMCTCR_ADDR	0x1C008300
 //DSU
 #define ALT_CCU_DSU_CAIUAMIGR_ADDR		0x1C0003C0
 #define ALT_CCU_DSU_CAIUMIFSR_ADDR		0x1C0003C4
 #define ALT_CCU_DSU_CAIUGPRBLR1_ADDR		0x1C000414
 #define ALT_CCU_DSU_CAIUGPRBHR1_ADDR		0x1C000418
 #define ALT_CCU_DSU_CAIUGPRAR1_ADDR		0x1C000410
 #define ALT_CCU_DSU_CAIUGPRBLR2_ADDR		0x1C000424
 #define ALT_CCU_DSU_CAIUGPRBHR2_ADDR		0x1C000428
 #define ALT_CCU_DSU_CAIUGPRAR2_ADDR		0x1C000420
 #define ALT_CCU_DSU_CAIUGPRBLR4_ADDR		0x1C000444
 #define ALT_CCU_DSU_CAIUGPRBHR4_ADDR		0x1C000448
 #define ALT_CCU_DSU_CAIUGPRAR4_ADDR		0x1C000440
 #define ALT_CCU_DSU_CAIUGPRBLR5_ADDR		0x1C000454
 #define ALT_CCU_DSU_CAIUGPRBHR5_ADDR		0x1C000458
 #define ALT_CCU_DSU_CAIUGPRAR5_ADDR		0x1C000450
 #define ALT_CCU_DSU_CAIUGPRBLR6_ADDR		0x1C000464
 #define ALT_CCU_DSU_CAIUGPRBHR6_ADDR		0x1C000468
 #define ALT_CCU_DSU_CAIUGPRAR6_ADDR		0x1C000460
 #define ALT_CCU_DSU_CAIUGPRBLR7_ADDR		0x1C000474
 #define ALT_CCU_DSU_CAIUGPRBHR7_ADDR		0x1C000478
 #define ALT_CCU_DSU_CAIUGPRAR7_ADDR		0x1C000470
 #define ALT_CCU_DSU_CAIUGPRBLR8_ADDR		0x1C000484
 #define ALT_CCU_DSU_CAIUGPRBHR8_ADDR		0x1C000488
 #define ALT_CCU_DSU_CAIUGPRAR8_ADDR		0x1C000480
 #define ALT_CCU_DSU_CAIUGPRBLR9_ADDR		0x1C000494
 #define ALT_CCU_DSU_CAIUGPRBHR9_ADDR		0x1C000498
 #define ALT_CCU_DSU_CAIUGPRAR9_ADDR		0x1C000490
 #define ALT_CCU_DSU_CAIUGPRBLR10_ADDR		0x1C0004A4
 #define ALT_CCU_DSU_CAIUGPRBHR10_ADDR		0x1C0004A8
 #define ALT_CCU_DSU_CAIUGPRAR10_ADDR		0x1C0004A0
 //GIC
 #define ALT_CCU_GIC_M_XAIUAMIGR_ADDR		0x1C0023C0
 #define ALT_CCU_GIC_M_XAIUMIFSR_ADDR		0x1C0023C4
 #define ALT_CCU_GIC_M_XAIUGPRBLR1_ADDR		0x1C002414
 #define ALT_CCU_GIC_M_XAIUGPRBHR1_ADDR		0x1C002418
 #define ALT_CCU_GIC_M_XAIUGPRAR1_ADDR		0x1C002410
 #define ALT_CCU_GIC_M_XAIUGPRBLR6_ADDR		0x1C002464
 #define ALT_CCU_GIC_M_XAIUGPRBHR6_ADDR		0x1C002468
 #define ALT_CCU_GIC_M_XAIUGPRAR6_ADDR		0x1C002460
 #define ALT_CCU_GIC_M_XAIUGPRBLR8_ADDR		0x1C002484
 #define ALT_CCU_GIC_M_XAIUGPRBHR8_ADDR		0x1C002488
 #define ALT_CCU_GIC_M_XAIUGPRAR8_ADDR		0x1C002480
 #define ALT_CCU_GIC_M_XAIUGPRBLR10_ADDR		0x1C0024A4
 #define ALT_CCU_GIC_M_XAIUGPRBHR10_ADDR		0x1C0024A8
 #define ALT_CCU_GIC_M_XAIUGPRAR10_ADDR		0x1C0024A0
 //FPGA2SOC
 #define ALT_CCU_FPGA2SOC_XAIUAMIGR_ADDR		0x1C0013C0
 #define ALT_CCU_FPGA2SOC_XAIUMIFSR_ADDR		0x1C0013C4
 #define ALT_CCU_FPGA2SOC_XAIUGPRBLR1_ADDR	0x1C001414
 #define ALT_CCU_FPGA2SOC_XAIUGPRBHR1_ADDR	0x1C001418
 #define ALT_CCU_FPGA2SOC_XAIUGPRAR1_ADDR	0x1C001410
 #define ALT_CCU_FPGA2SOC_XAIUGPRBLR6_ADDR	0x1C001464
 #define ALT_CCU_FPGA2SOC_XAIUGPRBHR6_ADDR	0x1C001468
 #define ALT_CCU_FPGA2SOC_XAIUGPRAR6_ADDR	0x1C001460
 #define ALT_CCU_FPGA2SOC_XAIUGPRBLR8_ADDR	0x1C001484
 #define ALT_CCU_FPGA2SOC_XAIUGPRBHR8_ADDR	0x1C001488
 #define ALT_CCU_FPGA2SOC_XAIUGPRAR8_ADDR	0x1C001480
 #define ALT_CCU_FPGA2SOC_XAIUGPRBLR10_ADDR	0x1C0014A4
 #define ALT_CCU_FPGA2SOC_XAIUGPRBHR10_ADDR	0x1C0014A8
 #define ALT_CCU_FPGA2SOC_XAIUGPRAR10_ADDR	0x1C0014A0
 //TCU
 #define ALT_CCU_TCU_BASE 0x1C003000
 #define ALT_CCU_TCU_XAIUAMIGR_ADDR		ALT_CCU_TCU_BASE + 0x03C0
 #define ALT_CCU_TCU_XAIUMIFSR_ADDR		ALT_CCU_TCU_BASE + 0x03C4
 #define ALT_CCU_TCU_XAIUGPRBLR0_ADDR		ALT_CCU_TCU_BASE + 0x0404
 #define ALT_CCU_TCU_XAIUGPRBHR0_ADDR		ALT_CCU_TCU_BASE + 0x0408
 #define ALT_CCU_TCU_XAIUGPRAR0_ADDR		ALT_CCU_TCU_BASE + 0x0400
 #define ALT_CCU_TCU_XAIUGPRBLR1_ADDR		ALT_CCU_TCU_BASE + 0x0414
 #define ALT_CCU_TCU_XAIUGPRBHR1_ADDR		ALT_CCU_TCU_BASE + 0x0418
 #define ALT_CCU_TCU_XAIUGPRAR1_ADDR		ALT_CCU_TCU_BASE + 0x0410
 #define ALT_CCU_TCU_XAIUGPRBLR2_ADDR		ALT_CCU_TCU_BASE + 0x0424
 #define ALT_CCU_TCU_XAIUGPRBHR2_ADDR		ALT_CCU_TCU_BASE + 0x0428
 #define ALT_CCU_TCU_XAIUGPRAR2_ADDR		ALT_CCU_TCU_BASE + 0x0420
 #define ALT_CCU_TCU_XAIUGPRBLR6_ADDR		0x1C003464
 #define ALT_CCU_TCU_XAIUGPRBHR6_ADDR		0x1C003468
 #define ALT_CCU_TCU_XAIUGPRAR6_ADDR		0x1C003460
 #define ALT_CCU_TCU_XAIUGPRBLR8_ADDR		0x1C003484
 #define ALT_CCU_TCU_XAIUGPRBHR8_ADDR		0x1C003488
 #define ALT_CCU_TCU_XAIUGPRAR8_ADDR		0x1C003480
 #define ALT_CCU_TCU_XAIUGPRBLR10_ADDR		0x1C0034A4
 #define ALT_CCU_TCU_XAIUGPRBHR10_ADDR		0x1C0034A8
 #define ALT_CCU_TCU_XAIUGPRAR10_ADDR		0x1C0034A0
 //IOM
 #define ALT_CCU_CCU_IOM_XAIUAMIGR_ADDR		0x1C0043C0
 #define ALT_CCU_CCU_IOM_XAIUMIFSR_ADDR		0x1C0013C4
 #define ALT_CCU_IOM_XAIUGPRBLR1_ADDR		0x1C001414
 #define ALT_CCU_IOM_XAIUGPRBHR1_ADDR		0x1C001418
 #define ALT_CCU_IOM_XAIUGPRAR1_ADDR		0x1C001410
 #define ALT_CCU_CCU_IOM_XAIUGPRBLR6_ADDR	0x1C001464
 #define ALT_CCU_CCU_IOM_XAIUGPRBHR6_ADDR	0x1C001468
 #define ALT_CCU_CCU_IOM_XAIUGPRAR6_ADDR		0x1C001460
 #define ALT_CCU_CCU_IOM_XAIUGPRBLR8_ADDR	0x1C001484
 #define ALT_CCU_CCU_IOM_XAIUGPRBHR8_ADDR	0x1C001488
 #define ALT_CCU_CCU_IOM_XAIUGPRAR8_ADDR		0x1C001480
 #define ALT_CCU_CCU_IOM_XAIUGPRBLR10_ADDR	0x1C0014A4
 #define ALT_CCU_CCU_IOM_XAIUGPRBHR10_ADDR	0x1C0014A8
 #define ALT_CCU_CCU_IOM_XAIUGPRAR10_ADDR	0x1C0014A0
 //DCE
 #define ALT_CCU_DCE0_DCEUAMIGR_ADDR		0x1C0053C0
 #define ALT_CCU_DCE0_DCEUMIFSR_ADDR		0x1C0053C4
 #define ALT_CCU_DCE0_DCEUGPRBLR6_ADDR		0x1C005464
 #define ALT_CCU_DCE0_DCEUGPRBHR6_ADDR		0x1C005468
 #define ALT_CCU_DCE0_DCEUGPRAR6_ADDR		0x1C005460
 #define ALT_CCU_DCE0_DCEUGPRBLR8_ADDR		0x1C005484
 #define ALT_CCU_DCE0_DCEUGPRBHR8_ADDR		0x1C005488
 #define ALT_CCU_DCE0_DCEUGPRAR8_ADDR		0x1C005480
 #define ALT_CCU_DCE0_DCEUGPRBLR10_ADDR		0x1C0054A4
 #define ALT_CCU_DCE0_DCEUGPRBHR10_ADDR		0x1C0054A8
 #define ALT_CCU_DCE0_DCEUGPRAR10_ADDR		0x1C0054A0
 #define ALT_CCU_DCE1_DCEUAMIGR_ADDR		0x1C0063C0
 #define ALT_CCU_DCE1_DCEUMIFSR_ADDR		0x1C0063C4
 #define ALT_CCU_DCE1_DCEUGPRBLR6_ADDR		0x1C006464
 #define ALT_CCU_DCE1_DCEUGPRBHR6_ADDR		0x1C006468
 #define ALT_CCU_DCE1_DCEUGPRAR6_ADDR		0x1C006460
 #define ALT_CCU_DCE1_DCEUGPRBLR8_ADDR		0x1C006484
 #define ALT_CCU_DCE1_DCEUGPRBHR8_ADDR		0x1C006488
 #define ALT_CCU_DCE1_DCEUGPRAR8_ADDR		0x1C006480
 #define ALT_CCU_DCE1_DCEUGPRBLR10_ADDR		0x1C0064A4
 #define ALT_CCU_DCE1_DCEUGPRBHR10_ADDR		0x1C0064A8
 #define ALT_CCU_DCE1_DCEUGPRAR10_ADDR		0x1C0064A0
 #define offset_NRS_GPRAR0			(0x400)
 #define offset_NRS_GPRBLR0			(0x404)
 #define offset_NRS_GPRBHR0			(0x408)
 #define offset_NRS_GPRAR1			(0x410)
 #define offset_NRS_GPRBLR1			(0x414)
 #define offset_NRS_GPRBHR1			(0x418)
 #define offset_NRS_GPRAR2			(0x420)
 #define offset_NRS_GPRBLR2			(0x424)
 #define offset_NRS_GPRBHR2			(0x428)
 #define offset_NRS_GPRAR3			(0x430)
 #define offset_NRS_GPRBLR3			(0x434)
 #define offset_NRS_GPRBHR3			(0x438)
 #define offset_NRS_GPRAR4			(0x440)
 #define offset_NRS_GPRBLR4			(0x444)
 #define offset_NRS_GPRBHR4			(0x448)
 #define offset_NRS_GPRAR5			(0x450)
 #define offset_NRS_GPRBLR5			(0x454)
 #define offset_NRS_GPRBHR5			(0x458)
 #define offset_NRS_GPRAR6			(0x460)
 #define offset_NRS_GPRBLR6			(0x464)
 #define offset_NRS_GPRBHR6			(0x468)
 #define offset_NRS_GPRAR7			(0x470)
 #define offset_NRS_GPRBLR7			(0x474)
 #define offset_NRS_GPRBHR7			(0x478)
 #define offset_NRS_GPRAR8			(0x480)
 #define offset_NRS_GPRBLR8			(0x484)
 #define offset_NRS_GPRBHR8			(0x488)
 #define offset_NRS_GPRAR9			(0x490)
 #define offset_NRS_GPRBLR9			(0x494)
 #define offset_NRS_GPRBHR9			(0x498)
 #define offset_NRS_GPRAR10			(0x4a0)
 #define offset_NRS_GPRBLR10			(0x4a4)
 #define offset_NRS_GPRBHR10			(0x4a8)
 #define offset_NRS_AMIGR			(0x3c0)
 #define offset_NRS_MIFSR			(0x3c4)
 #define offset_NRS_DMIUSMCTCR			(0x300)
 #define base_addr_DII0_PSSPERIPHS		(0x10000)
 #define base_addr_DII0_LWHPS2FPGA		(0x20000)
 #define base_addr_DII0_HPS2FPGA_1G		(0x40000)
 #define base_addr_DII0_HPS2FPGA_15G		(0x400000)
 #define base_addr_DII0_HPS2FPGA_240G		(0x4000000)
 #define base_addr_DII1_MPFEREGS			(0x18000)
 #define base_addr_DII2_GICREGS			(0x1D000)
 #define base_addr_DII3_OCRAM			(0x0)
 #define base_addr_BHR				(0x0)
 #define base_addr_DMI_SDRAM_2G			(0x80000)
 #define base_addr_DMI_SDRAM_30G			(0x800000)
 #define base_addr_DMI_SDRAM_480G		(0x8000000)
 // ((0x0<<9) | (0xf<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII0_PSSPERIPHS			0xC0F00000
 // ((0x0<<9) | (0x11<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII0_LWHPS2FPGA			0xC1100000
 // ((0x0<<9) | (0x12<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII0_HPS2FPGA_1G			0xC1200000
 // ((0x0<<9) | (0x16<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII0_HPS2FPGA_15G			0xC1600000
 // ((0x0<<9) | (0x1a<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII0_HPS2FPGA_240G			0xC1A00000
 // ((0x1<<9) | (0xe<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII1_MPFEREGS			0xC0E00200
 // ((0x2<<9) | (0x8<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII2_GICREGS				0xC0800400
 // ((0x3<<9) | (0x9<<20) | (0x1<<30) | (0x1<<31))
 #define wr_DII3_OCRAM				0xC0900600
 // ((0x0<<9) | (0x12<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_1G_ORDERED			0x81200000
 // ((0x1<<1) | (0x1<<2) | (0x0<<9) | (0x12<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_1G				0x81200006
 // ((0x0<<9) | (0x13<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_2G_ORDERED			0x81300000
 // ((0x1<<1) | (0x1<<2) | (0x0<<9) | (0x13<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_2G				0x81300006
 // ((0x0<<9) | (0x16<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_15G_ORDERED		0x81600000
 // ((0x1<<1) | (0x1<<2) | (0x0<<9) | (0x16<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_15G			0x81600006
 // ((0x0<<9) | (0x17<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_30G_ORDERED		0x81700000
 // ((0x1<<1) | (0x1<<2) | (0x0<<9) | (0x17<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_30G			0x81700006
 // ((0x0<<9) | (0x1a<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_240G_ORDERED		0x81a00000
 // ((0x1<<1) | (0x1<<2) | (0x0<<9) | (0x1a<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_240G			0x81a00006
 // ((0x0<<9) | (0x1b<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_480G_ORDERED		0x81b00000
 // ((0x1<<1) | (0x1<<2) | (0x0<<9) | (0x1b<<20) | (0x0<<30) | (0x1<<31))
 #define wr_DMI_SDRAM_480G			0x81b00006

 typedef enum CCU_REGION_SECURITY_e {
     //
     // Allow secure accesses only.
     //
 	CCU_REGION_SECURITY_SECURE_ONLY,
     //
     // Allow non-secure accesses only.
     //
 	CCU_REGION_SECURITY_NON_SECURE_ONLY,
     //
     // Allow accesses of any security state.
     //
 	CCU_REGION_SECURITY_DONT_CARE
 } CCU_REGION_SECURITY_t;
 typedef enum CCU_REGION_PRIVILEGE_e {
     //
     // Allow privileged accesses only.
     //
 	CCU_REGION_PRIVILEGE_PRIVILEGED_ONLY,
     //
     // Allow unprivileged accesses only.
     //
 	CCU_REGION_PRIVILEGE_NON_PRIVILEGED_ONLY,
     //
     // Allow accesses of any privilege.
     //
 	CCU_REGION_PRIVILEGE_DONT_CARE
 } CCU_REGION_PRIVILEGE_t;
 //
 // Initializes the CCU by enabling all regions except RAM 1 - 5.
 // This is needed because of an RTL change around 2016.02.24.
 //
 // Runtime measurement:
 //  - arm     : 14,830,000 ps (2016.05.31; sanity/printf_aarch32)
 //  - aarch64 : 14,837,500 ps (2016.05.31; sanity/printf)
 //
 // Runtime history:
 //  - arm     : 20,916,668 ps (2016.05.30; sanity/printf_aarch32)
 //  - aarch64 : 20,924,168 ps (2016.05.30; sanity/printf)
 //
 int ccu_hps_init(void);

 typedef enum ccu_hps_ram_region_e {
 	ccu_hps_ram_region_ramspace0 = 0,
 	ccu_hps_ram_region_ramspace1 = 1,
 	ccu_hps_ram_region_ramspace2 = 2,
 	ccu_hps_ram_region_ramspace3 = 3,
 	ccu_hps_ram_region_ramspace4 = 4,
 	ccu_hps_ram_region_ramspace5 = 5,
 } ccu_hps_ram_region_t;

 // Disables a RAM (OCRAM) region with the given ID.
 int ccu_hps_ram_region_disable(int id);

 // Enables a RAM (OCRAM) region with the given ID.
 int ccu_hps_ram_region_enable(int id);

 // Attempts to remap a RAM (OCRAM) region with the given ID to span the given
 // start and end address. It also assigns the security and privilege policy.
 // Regions must be a power-of-two size with a minimum size of 64B.
 int ccu_hps_ram_region_remap(int id, uintptr_t start, uintptr_t end,
 CCU_REGION_SECURITY_t security, CCU_REGION_PRIVILEGE_t privilege);

 // Verifies that all enabled RAM (OCRAM) regions does not overlap.
 int ccu_hps_ram_validate(void);

 typedef enum ccu_hps_mem_region_e {
 	ccu_hps_mem_region_ddrspace0  = 0,
 	ccu_hps_mem_region_memspace0  = 1,
 	ccu_hps_mem_region_memspace1a = 2,
 	ccu_hps_mem_region_memspace1b = 3,
 	ccu_hps_mem_region_memspace1c = 4,
 	ccu_hps_mem_region_memspace1d = 5,
 	ccu_hps_mem_region_memspace1e = 6,
 } ccu_hps_mem_region_t;

 // Disables mem0 (DDR) region with the given ID.
 int ccu_hps_mem0_region_disable(int id);

 // Enables mem0 (DDR) region with the given ID.
 int ccu_hps_mem0_region_enable(int id);

 // Attempts to remap mem0 (DDR) region with the given ID to span the given
 // start and end address. It also assigns the security nad privlege policy.
 // Regions must be a power-of-two in size with a minimum size of 64B.
 int ccu_hps_mem0_region_remap(int id, uintptr_t start, uintptr_t end,
 CCU_REGION_SECURITY_t security, CCU_REGION_PRIVILEGE_t privilege);

 // Verifies that all enabled mem0 (DDR) regions does not overlap.
 int ccu_hps_mem0_validate(void);

 typedef enum ccu_hps_ios_region_e {
 	ccu_hps_ios_region_iospace0a = 0,
 	ccu_hps_ios_region_iospace0b = 1,
 	ccu_hps_ios_region_iospace1a = 2,
 	ccu_hps_ios_region_iospace1b = 3,
 	ccu_hps_ios_region_iospace1c = 4,
 	ccu_hps_ios_region_iospace1d = 5,
 	ccu_hps_ios_region_iospace1e = 6,
 	ccu_hps_ios_region_iospace1f = 7,
 	ccu_hps_ios_region_iospace1g = 8,
 	ccu_hps_ios_region_iospace2a = 9,
 	ccu_hps_ios_region_iospace2b = 10,
 	ccu_hps_ios_region_iospace2c = 11,
 } ccu_hps_ios_region_t;

 // Disables the IOS (IO Slave) region with the given ID.
 int ccu_hps_ios_region_disable(int id);

 // Enables the IOS (IO Slave) region with the given ID.
 int ccu_hps_ios_region_enable(int id);


 #define NCORE_CCU_OFFSET			0xf7000000

 /* Coherent Sub-System Address Map */
 #define NCORE_CAIU_OFFSET			0x00000
 #define NCORE_CAIU_SIZE				0x01000
 #define NCORE_NCBU_OFFSET			0x60000
 #define NCORE_NCBU_SIZE				0x01000
 #define NCORE_DIRU_OFFSET			0x80000
 #define NCORE_DIRU_SIZE				0x01000
 #define NCORE_CMIU_OFFSET			0xc0000
 #define NCORE_CMIU_SIZE				0x01000
 #define NCORE_CSR_OFFSET			0xff000
 #define NCORE_CSADSERO				0x00040
 #define NCORE_CSUIDR				0x00ff8
 #define NCORE_CSIDR				0x00ffc
 /* Directory Unit Register Map */
 #define NCORE_DIRUSFER				0x00010
 #define NCORE_DIRUMRHER				0x00070
 #define NCORE_DIRUSFMCR				0x00080
 #define NCORE_DIRUSFMAR				0x00084
 /* Coherent Agent Interface Unit Register Map */
 #define NCORE_CAIUIDR				0x00ffc
 /* Snoop Enable Register */
 #define NCORE_DIRUCASER0			0x00040
 #define NCORE_DIRUCASER1			0x00044
 #define NCORE_DIRUCASER2			0x00048
 #define NCORE_DIRUCASER3			0x0004c
 #define NCORE_CSADSER0				0x00040
 #define NCORE_CSADSER1				0x00044
 #define NCORE_CSADSER2				0x00048
 #define NCORE_CSADSER3				0x0004c
 /* Protocols Definition */
 #define ACE_W_DVM				0
 #define ACE_L_W_DVM				1
 #define ACE_WO_DVM				2
 #define ACE_L_WO_DVM				3
 /* Bypass OC Ram Firewall */
 #define NCORE_FW_OCRAM_BLK_BASE			0x100200
 #define NCORE_FW_OCRAM_BLK_CGF1			0x04
 #define NCORE_FW_OCRAM_BLK_CGF2			0x08
 #define NCORE_FW_OCRAM_BLK_CGF3			0x0c
 #define NCORE_FW_OCRAM_BLK_CGF4			0x10
 #define OCRAM_PRIVILEGED_MASK			BIT(29)
 #define OCRAM_SECURE_MASK			BIT(30)
 /* Macros */
 #define NCORE_CCU_REG(base)			(NCORE_CCU_OFFSET + (base))
 #define NCORE_CCU_CSR(reg)			(NCORE_CCU_REG(NCORE_CSR_OFFSET)\
 						+ (reg))
 #define NCORE_CCU_DIR(reg)			(NCORE_CCU_REG(NCORE_DIRU_OFFSET)\
 						+ (reg))
 #define NCORE_CCU_CAI(reg)			(NCORE_CCU_REG(NCORE_CAIU_OFFSET)\
 						+ (reg))
 #define DIRECTORY_UNIT(x, reg)			(NCORE_CCU_DIR(reg)\
 						+ NCORE_DIRU_SIZE * (x))
 #define COH_AGENT_UNIT(x, reg)			(NCORE_CCU_CAI(reg)\
 						+ NCORE_CAIU_SIZE * (x))
 #define COH_CPU0_BYPASS_REG(reg)		(NCORE_CCU_REG(NCORE_FW_OCRAM_BLK_BASE)\
 						+ (reg))
 #define CSUIDR_NUM_CMI(x)			(((x) & 0x3f000000) >> 24)
 #define CSUIDR_NUM_DIR(x)			(((x) & 0x003f0000) >> 16)
 #define CSUIDR_NUM_NCB(x)			(((x) & 0x00003f00) >> 8)
 #define CSUIDR_NUM_CAI(x)			(((x) & 0x0000007f) >> 0)
 #define CSIDR_NUM_SF(x)				(((x) & 0x007c0000) >> 18)
 #define SNOOP_FILTER_ID(x)			(((x) << 16))
 #define CACHING_AGENT_BIT(x)			(((x) & 0x08000) >> 15)
 #define CACHING_AGENT_TYPE(x)			(((x) & 0xf0000) >> 16)

 typedef struct coh_ss_id {
 	uint8_t num_coh_mem;
 	uint8_t num_directory;
 	uint8_t num_non_coh_bridge;
 	uint8_t num_coh_agent;
 	uint8_t num_snoop_filter;
 } coh_ss_id_t;

 uint32_t init_ncore_ccu(void);
 void ncore_enable_ocram_firewall(void);
 void setup_smmu_stream_id(void);

 #endif
	/*
	* Copyright (c) 2019-2023, Intel Corporation. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/
	#ifndef NCORE_CCU_H
	#define NCORE_CCU_H

	#include <stdbool.h>
	#include <stdint.h>

	#ifndef CCU_ACTIVATE_COH_FPGA
	#define CCU_ACTIVATE_COH_FPGA 0
	#endif
	// Address map for ccu init
	#define addr_CAIUIDR1 (0x1C000000)
	#define addr_GRBUNRRUCR (0x1c0ffff8)
	#define base_addr_NRS_CAIU0 (0x1c000000)
	#define base_addr_NRS_NCAIU0 (0x1c001000)
	#define base_addr_NRS_NCAIU1 (0x1c002000)
	#define base_addr_NRS_NCAIU2 (0x1c003000)
	#define base_addr_NRS_NCAIU3 (0x1c004000)
	#define base_addr_NRS_DCE0 (0x1c005000)
	#define base_addr_NRS_DCE1 (0x1c006000)
	//#define base_addr_NRS_DMI0 (0x1c007000)
	//#define base_addr_NRS_DMI1 (0x1c008000)
	//DMI
	#define ALT_CCU_CCU_DMI0_DMIUSMCTCR_ADDR 0x1C007300
	#define ALT_CCU_CCU_DMI1_DMIUSMCTCR_ADDR 0x1C008300
	//DSU
	#define ALT_CCU_DSU_CAIUAMIGR_ADDR 0x1C0003C0
	#define ALT_CCU_DSU_CAIUMIFSR_ADDR 0x1C0003C4
	#define ALT_CCU_DSU_CAIUGPRBLR1_ADDR 0x1C000414
	#define ALT_CCU_DSU_CAIUGPRBHR1_ADDR 0x1C000418
	#define ALT_CCU_DSU_CAIUGPRAR1_ADDR 0x1C000410
	#define ALT_CCU_DSU_CAIUGPRBLR2_ADDR 0x1C000424
	#define ALT_CCU_DSU_CAIUGPRBHR2_ADDR 0x1C000428
	#define ALT_CCU_DSU_CAIUGPRAR2_ADDR 0x1C000420
	#define ALT_CCU_DSU_CAIUGPRBLR4_ADDR 0x1C000444
	#define ALT_CCU_DSU_CAIUGPRBHR4_ADDR 0x1C000448
	#define ALT_CCU_DSU_CAIUGPRAR4_ADDR 0x1C000440
	#define ALT_CCU_DSU_CAIUGPRBLR5_ADDR 0x1C000454
	#define ALT_CCU_DSU_CAIUGPRBHR5_ADDR 0x1C000458
	#define ALT_CCU_DSU_CAIUGPRAR5_ADDR 0x1C000450
	#define ALT_CCU_DSU_CAIUGPRBLR6_ADDR 0x1C000464
	#define ALT_CCU_DSU_CAIUGPRBHR6_ADDR 0x1C000468
	#define ALT_CCU_DSU_CAIUGPRAR6_ADDR 0x1C000460
	#define ALT_CCU_DSU_CAIUGPRBLR7_ADDR 0x1C000474
	#define ALT_CCU_DSU_CAIUGPRBHR7_ADDR 0x1C000478
	#define ALT_CCU_DSU_CAIUGPRAR7_ADDR 0x1C000470
	#define ALT_CCU_DSU_CAIUGPRBLR8_ADDR 0x1C000484
	#define ALT_CCU_DSU_CAIUGPRBHR8_ADDR 0x1C000488
	#define ALT_CCU_DSU_CAIUGPRAR8_ADDR 0x1C000480
	#define ALT_CCU_DSU_CAIUGPRBLR9_ADDR 0x1C000494
	#define ALT_CCU_DSU_CAIUGPRBHR9_ADDR 0x1C000498
	#define ALT_CCU_DSU_CAIUGPRAR9_ADDR 0x1C000490
	#define ALT_CCU_DSU_CAIUGPRBLR10_ADDR 0x1C0004A4
	#define ALT_CCU_DSU_CAIUGPRBHR10_ADDR 0x1C0004A8
	#define ALT_CCU_DSU_CAIUGPRAR10_ADDR 0x1C0004A0
	//GIC
	#define ALT_CCU_GIC_M_XAIUAMIGR_ADDR 0x1C0023C0
	#define ALT_CCU_GIC_M_XAIUMIFSR_ADDR 0x1C0023C4
	#define ALT_CCU_GIC_M_XAIUGPRBLR1_ADDR 0x1C002414
	#define ALT_CCU_GIC_M_XAIUGPRBHR1_ADDR 0x1C002418
	#define ALT_CCU_GIC_M_XAIUGPRAR1_ADDR 0x1C002410
	#define ALT_CCU_GIC_M_XAIUGPRBLR6_ADDR 0x1C002464
	#define ALT_CCU_GIC_M_XAIUGPRBHR6_ADDR 0x1C002468
	#define ALT_CCU_GIC_M_XAIUGPRAR6_ADDR 0x1C002460
	#define ALT_CCU_GIC_M_XAIUGPRBLR8_ADDR 0x1C002484
	#define ALT_CCU_GIC_M_XAIUGPRBHR8_ADDR 0x1C002488
	#define ALT_CCU_GIC_M_XAIUGPRAR8_ADDR 0x1C002480
	#define ALT_CCU_GIC_M_XAIUGPRBLR10_ADDR 0x1C0024A4
	#define ALT_CCU_GIC_M_XAIUGPRBHR10_ADDR 0x1C0024A8
	#define ALT_CCU_GIC_M_XAIUGPRAR10_ADDR 0x1C0024A0
	//FPGA2SOC
	#define ALT_CCU_FPGA2SOC_XAIUAMIGR_ADDR 0x1C0013C0
	#define ALT_CCU_FPGA2SOC_XAIUMIFSR_ADDR 0x1C0013C4
	#define ALT_CCU_FPGA2SOC_XAIUGPRBLR1_ADDR 0x1C001414
	#define ALT_CCU_FPGA2SOC_XAIUGPRBHR1_ADDR 0x1C001418
	#define ALT_CCU_FPGA2SOC_XAIUGPRAR1_ADDR 0x1C001410
	#define ALT_CCU_FPGA2SOC_XAIUGPRBLR6_ADDR 0x1C001464
	#define ALT_CCU_FPGA2SOC_XAIUGPRBHR6_ADDR 0x1C001468
	#define ALT_CCU_FPGA2SOC_XAIUGPRAR6_ADDR 0x1C001460
	#define ALT_CCU_FPGA2SOC_XAIUGPRBLR8_ADDR 0x1C001484
	#define ALT_CCU_FPGA2SOC_XAIUGPRBHR8_ADDR 0x1C001488
	#define ALT_CCU_FPGA2SOC_XAIUGPRAR8_ADDR 0x1C001480
	#define ALT_CCU_FPGA2SOC_XAIUGPRBLR10_ADDR 0x1C0014A4
	#define ALT_CCU_FPGA2SOC_XAIUGPRBHR10_ADDR 0x1C0014A8
	#define ALT_CCU_FPGA2SOC_XAIUGPRAR10_ADDR 0x1C0014A0
	//TCU
	#define ALT_CCU_TCU_BASE 0x1C003000
	#define ALT_CCU_TCU_XAIUAMIGR_ADDR ALT_CCU_TCU_BASE + 0x03C0
	#define ALT_CCU_TCU_XAIUMIFSR_ADDR ALT_CCU_TCU_BASE + 0x03C4
	#define ALT_CCU_TCU_XAIUGPRBLR0_ADDR ALT_CCU_TCU_BASE + 0x0404
	#define ALT_CCU_TCU_XAIUGPRBHR0_ADDR ALT_CCU_TCU_BASE + 0x0408
	#define ALT_CCU_TCU_XAIUGPRAR0_ADDR ALT_CCU_TCU_BASE + 0x0400
	#define ALT_CCU_TCU_XAIUGPRBLR1_ADDR ALT_CCU_TCU_BASE + 0x0414
	#define ALT_CCU_TCU_XAIUGPRBHR1_ADDR ALT_CCU_TCU_BASE + 0x0418
	#define ALT_CCU_TCU_XAIUGPRAR1_ADDR ALT_CCU_TCU_BASE + 0x0410
	#define ALT_CCU_TCU_XAIUGPRBLR2_ADDR ALT_CCU_TCU_BASE + 0x0424
	#define ALT_CCU_TCU_XAIUGPRBHR2_ADDR ALT_CCU_TCU_BASE + 0x0428
	#define ALT_CCU_TCU_XAIUGPRAR2_ADDR ALT_CCU_TCU_BASE + 0x0420
	#define ALT_CCU_TCU_XAIUGPRBLR6_ADDR 0x1C003464
	#define ALT_CCU_TCU_XAIUGPRBHR6_ADDR 0x1C003468
	#define ALT_CCU_TCU_XAIUGPRAR6_ADDR 0x1C003460
	#define ALT_CCU_TCU_XAIUGPRBLR8_ADDR 0x1C003484
	#define ALT_CCU_TCU_XAIUGPRBHR8_ADDR 0x1C003488
	#define ALT_CCU_TCU_XAIUGPRAR8_ADDR 0x1C003480
	#define ALT_CCU_TCU_XAIUGPRBLR10_ADDR 0x1C0034A4
	#define ALT_CCU_TCU_XAIUGPRBHR10_ADDR 0x1C0034A8
	#define ALT_CCU_TCU_XAIUGPRAR10_ADDR 0x1C0034A0
	//IOM
	#define ALT_CCU_CCU_IOM_XAIUAMIGR_ADDR 0x1C0043C0
	#define ALT_CCU_CCU_IOM_XAIUMIFSR_ADDR 0x1C0013C4
	#define ALT_CCU_IOM_XAIUGPRBLR1_ADDR 0x1C001414
	#define ALT_CCU_IOM_XAIUGPRBHR1_ADDR 0x1C001418
	#define ALT_CCU_IOM_XAIUGPRAR1_ADDR 0x1C001410
	#define ALT_CCU_CCU_IOM_XAIUGPRBLR6_ADDR 0x1C001464
	#define ALT_CCU_CCU_IOM_XAIUGPRBHR6_ADDR 0x1C001468
	#define ALT_CCU_CCU_IOM_XAIUGPRAR6_ADDR 0x1C001460
	#define ALT_CCU_CCU_IOM_XAIUGPRBLR8_ADDR 0x1C001484
	#define ALT_CCU_CCU_IOM_XAIUGPRBHR8_ADDR 0x1C001488
	#define ALT_CCU_CCU_IOM_XAIUGPRAR8_ADDR 0x1C001480
	#define ALT_CCU_CCU_IOM_XAIUGPRBLR10_ADDR 0x1C0014A4
	#define ALT_CCU_CCU_IOM_XAIUGPRBHR10_ADDR 0x1C0014A8
	#define ALT_CCU_CCU_IOM_XAIUGPRAR10_ADDR 0x1C0014A0
	//DCE
	#define ALT_CCU_DCE0_DCEUAMIGR_ADDR 0x1C0053C0
	#define ALT_CCU_DCE0_DCEUMIFSR_ADDR 0x1C0053C4
	#define ALT_CCU_DCE0_DCEUGPRBLR6_ADDR 0x1C005464
	#define ALT_CCU_DCE0_DCEUGPRBHR6_ADDR 0x1C005468
	#define ALT_CCU_DCE0_DCEUGPRAR6_ADDR 0x1C005460
	#define ALT_CCU_DCE0_DCEUGPRBLR8_ADDR 0x1C005484
	#define ALT_CCU_DCE0_DCEUGPRBHR8_ADDR 0x1C005488
	#define ALT_CCU_DCE0_DCEUGPRAR8_ADDR 0x1C005480
	#define ALT_CCU_DCE0_DCEUGPRBLR10_ADDR 0x1C0054A4
	#define ALT_CCU_DCE0_DCEUGPRBHR10_ADDR 0x1C0054A8
	#define ALT_CCU_DCE0_DCEUGPRAR10_ADDR 0x1C0054A0
	#define ALT_CCU_DCE1_DCEUAMIGR_ADDR 0x1C0063C0
	#define ALT_CCU_DCE1_DCEUMIFSR_ADDR 0x1C0063C4
	#define ALT_CCU_DCE1_DCEUGPRBLR6_ADDR 0x1C006464
	#define ALT_CCU_DCE1_DCEUGPRBHR6_ADDR 0x1C006468
	#define ALT_CCU_DCE1_DCEUGPRAR6_ADDR 0x1C006460
	#define ALT_CCU_DCE1_DCEUGPRBLR8_ADDR 0x1C006484
	#define ALT_CCU_DCE1_DCEUGPRBHR8_ADDR 0x1C006488
	#define ALT_CCU_DCE1_DCEUGPRAR8_ADDR 0x1C006480
	#define ALT_CCU_DCE1_DCEUGPRBLR10_ADDR 0x1C0064A4
	#define ALT_CCU_DCE1_DCEUGPRBHR10_ADDR 0x1C0064A8
	#define ALT_CCU_DCE1_DCEUGPRAR10_ADDR 0x1C0064A0
	#define offset_NRS_GPRAR0 (0x400)
	#define offset_NRS_GPRBLR0 (0x404)
	#define offset_NRS_GPRBHR0 (0x408)
	#define offset_NRS_GPRAR1 (0x410)
	#define offset_NRS_GPRBLR1 (0x414)
	#define offset_NRS_GPRBHR1 (0x418)
	#define offset_NRS_GPRAR2 (0x420)
	#define offset_NRS_GPRBLR2 (0x424)
	#define offset_NRS_GPRBHR2 (0x428)
	#define offset_NRS_GPRAR3 (0x430)
	#define offset_NRS_GPRBLR3 (0x434)
	#define offset_NRS_GPRBHR3 (0x438)
	#define offset_NRS_GPRAR4 (0x440)
	#define offset_NRS_GPRBLR4 (0x444)
	#define offset_NRS_GPRBHR4 (0x448)
	#define offset_NRS_GPRAR5 (0x450)
	#define offset_NRS_GPRBLR5 (0x454)
	#define offset_NRS_GPRBHR5 (0x458)
	#define offset_NRS_GPRAR6 (0x460)
	#define offset_NRS_GPRBLR6 (0x464)
	#define offset_NRS_GPRBHR6 (0x468)
	#define offset_NRS_GPRAR7 (0x470)
	#define offset_NRS_GPRBLR7 (0x474)
	#define offset_NRS_GPRBHR7 (0x478)
	#define offset_NRS_GPRAR8 (0x480)
	#define offset_NRS_GPRBLR8 (0x484)
	#define offset_NRS_GPRBHR8 (0x488)
	#define offset_NRS_GPRAR9 (0x490)
	#define offset_NRS_GPRBLR9 (0x494)
	#define offset_NRS_GPRBHR9 (0x498)
	#define offset_NRS_GPRAR10 (0x4a0)
	#define offset_NRS_GPRBLR10 (0x4a4)
	#define offset_NRS_GPRBHR10 (0x4a8)
	#define offset_NRS_AMIGR (0x3c0)
	#define offset_NRS_MIFSR (0x3c4)
	#define offset_NRS_DMIUSMCTCR (0x300)
	#define base_addr_DII0_PSSPERIPHS (0x10000)
	#define base_addr_DII0_LWHPS2FPGA (0x20000)
	#define base_addr_DII0_HPS2FPGA_1G (0x40000)
	#define base_addr_DII0_HPS2FPGA_15G (0x400000)
	#define base_addr_DII0_HPS2FPGA_240G (0x4000000)
	#define base_addr_DII1_MPFEREGS (0x18000)
	#define base_addr_DII2_GICREGS (0x1D000)
	#define base_addr_DII3_OCRAM (0x0)
	#define base_addr_BHR (0x0)
	#define base_addr_DMI_SDRAM_2G (0x80000)
	#define base_addr_DMI_SDRAM_30G (0x800000)
	#define base_addr_DMI_SDRAM_480G (0x8000000)
	// ((0x0<<9) \| (0xf<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII0_PSSPERIPHS 0xC0F00000
	// ((0x0<<9) \| (0x11<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII0_LWHPS2FPGA 0xC1100000
	// ((0x0<<9) \| (0x12<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII0_HPS2FPGA_1G 0xC1200000
	// ((0x0<<9) \| (0x16<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII0_HPS2FPGA_15G 0xC1600000
	// ((0x0<<9) \| (0x1a<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII0_HPS2FPGA_240G 0xC1A00000
	// ((0x1<<9) \| (0xe<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII1_MPFEREGS 0xC0E00200
	// ((0x2<<9) \| (0x8<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII2_GICREGS 0xC0800400
	// ((0x3<<9) \| (0x9<<20) \| (0x1<<30) \| (0x1<<31))
	#define wr_DII3_OCRAM 0xC0900600
	// ((0x0<<9) \| (0x12<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_1G_ORDERED 0x81200000
	// ((0x1<<1) \| (0x1<<2) \| (0x0<<9) \| (0x12<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_1G 0x81200006
	// ((0x0<<9) \| (0x13<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_2G_ORDERED 0x81300000
	// ((0x1<<1) \| (0x1<<2) \| (0x0<<9) \| (0x13<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_2G 0x81300006
	// ((0x0<<9) \| (0x16<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_15G_ORDERED 0x81600000
	// ((0x1<<1) \| (0x1<<2) \| (0x0<<9) \| (0x16<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_15G 0x81600006
	// ((0x0<<9) \| (0x17<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_30G_ORDERED 0x81700000
	// ((0x1<<1) \| (0x1<<2) \| (0x0<<9) \| (0x17<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_30G 0x81700006
	// ((0x0<<9) \| (0x1a<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_240G_ORDERED 0x81a00000
	// ((0x1<<1) \| (0x1<<2) \| (0x0<<9) \| (0x1a<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_240G 0x81a00006
	// ((0x0<<9) \| (0x1b<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_480G_ORDERED 0x81b00000
	// ((0x1<<1) \| (0x1<<2) \| (0x0<<9) \| (0x1b<<20) \| (0x0<<30) \| (0x1<<31))
	#define wr_DMI_SDRAM_480G 0x81b00006

	typedef enum CCU_REGION_SECURITY_e {
	//
	// Allow secure accesses only.
	//
	CCU_REGION_SECURITY_SECURE_ONLY,
	//
	// Allow non-secure accesses only.
	//
	CCU_REGION_SECURITY_NON_SECURE_ONLY,
	//
	// Allow accesses of any security state.
	//
	CCU_REGION_SECURITY_DONT_CARE
	} CCU_REGION_SECURITY_t;
	typedef enum CCU_REGION_PRIVILEGE_e {
	//
	// Allow privileged accesses only.
	//
	CCU_REGION_PRIVILEGE_PRIVILEGED_ONLY,
	//
	// Allow unprivileged accesses only.
	//
	CCU_REGION_PRIVILEGE_NON_PRIVILEGED_ONLY,
	//
	// Allow accesses of any privilege.
	//
	CCU_REGION_PRIVILEGE_DONT_CARE
	} CCU_REGION_PRIVILEGE_t;
	//
	// Initializes the CCU by enabling all regions except RAM 1 - 5.
	// This is needed because of an RTL change around 2016.02.24.
	//
	// Runtime measurement:
	// - arm : 14,830,000 ps (2016.05.31; sanity/printf_aarch32)
	// - aarch64 : 14,837,500 ps (2016.05.31; sanity/printf)
	//
	// Runtime history:
	// - arm : 20,916,668 ps (2016.05.30; sanity/printf_aarch32)
	// - aarch64 : 20,924,168 ps (2016.05.30; sanity/printf)
	//
	int ccu_hps_init(void);

	typedef enum ccu_hps_ram_region_e {
	ccu_hps_ram_region_ramspace0 = 0,
	ccu_hps_ram_region_ramspace1 = 1,
	ccu_hps_ram_region_ramspace2 = 2,
	ccu_hps_ram_region_ramspace3 = 3,
	ccu_hps_ram_region_ramspace4 = 4,
	ccu_hps_ram_region_ramspace5 = 5,
	} ccu_hps_ram_region_t;

	// Disables a RAM (OCRAM) region with the given ID.
	int ccu_hps_ram_region_disable(int id);

	// Enables a RAM (OCRAM) region with the given ID.
	int ccu_hps_ram_region_enable(int id);

	// Attempts to remap a RAM (OCRAM) region with the given ID to span the given
	// start and end address. It also assigns the security and privilege policy.
	// Regions must be a power-of-two size with a minimum size of 64B.
	int ccu_hps_ram_region_remap(int id, uintptr_t start, uintptr_t end,
	CCU_REGION_SECURITY_t security, CCU_REGION_PRIVILEGE_t privilege);

	// Verifies that all enabled RAM (OCRAM) regions does not overlap.
	int ccu_hps_ram_validate(void);

	typedef enum ccu_hps_mem_region_e {
	ccu_hps_mem_region_ddrspace0 = 0,
	ccu_hps_mem_region_memspace0 = 1,
	ccu_hps_mem_region_memspace1a = 2,
	ccu_hps_mem_region_memspace1b = 3,
	ccu_hps_mem_region_memspace1c = 4,
	ccu_hps_mem_region_memspace1d = 5,
	ccu_hps_mem_region_memspace1e = 6,
	} ccu_hps_mem_region_t;

	// Disables mem0 (DDR) region with the given ID.
	int ccu_hps_mem0_region_disable(int id);

	// Enables mem0 (DDR) region with the given ID.
	int ccu_hps_mem0_region_enable(int id);

	// Attempts to remap mem0 (DDR) region with the given ID to span the given
	// start and end address. It also assigns the security nad privlege policy.
	// Regions must be a power-of-two in size with a minimum size of 64B.
	int ccu_hps_mem0_region_remap(int id, uintptr_t start, uintptr_t end,
	CCU_REGION_SECURITY_t security, CCU_REGION_PRIVILEGE_t privilege);

	// Verifies that all enabled mem0 (DDR) regions does not overlap.
	int ccu_hps_mem0_validate(void);

	typedef enum ccu_hps_ios_region_e {
	ccu_hps_ios_region_iospace0a = 0,
	ccu_hps_ios_region_iospace0b = 1,
	ccu_hps_ios_region_iospace1a = 2,
	ccu_hps_ios_region_iospace1b = 3,
	ccu_hps_ios_region_iospace1c = 4,
	ccu_hps_ios_region_iospace1d = 5,
	ccu_hps_ios_region_iospace1e = 6,
	ccu_hps_ios_region_iospace1f = 7,
	ccu_hps_ios_region_iospace1g = 8,
	ccu_hps_ios_region_iospace2a = 9,
	ccu_hps_ios_region_iospace2b = 10,
	ccu_hps_ios_region_iospace2c = 11,
	} ccu_hps_ios_region_t;

	// Disables the IOS (IO Slave) region with the given ID.
	int ccu_hps_ios_region_disable(int id);

	// Enables the IOS (IO Slave) region with the given ID.
	int ccu_hps_ios_region_enable(int id);


	#define NCORE_CCU_OFFSET 0xf7000000

	/* Coherent Sub-System Address Map */
	#define NCORE_CAIU_OFFSET 0x00000
	#define NCORE_CAIU_SIZE 0x01000
	#define NCORE_NCBU_OFFSET 0x60000
	#define NCORE_NCBU_SIZE 0x01000
	#define NCORE_DIRU_OFFSET 0x80000
	#define NCORE_DIRU_SIZE 0x01000
	#define NCORE_CMIU_OFFSET 0xc0000
	#define NCORE_CMIU_SIZE 0x01000
	#define NCORE_CSR_OFFSET 0xff000
	#define NCORE_CSADSERO 0x00040
	#define NCORE_CSUIDR 0x00ff8
	#define NCORE_CSIDR 0x00ffc
	/* Directory Unit Register Map */
	#define NCORE_DIRUSFER 0x00010
	#define NCORE_DIRUMRHER 0x00070
	#define NCORE_DIRUSFMCR 0x00080
	#define NCORE_DIRUSFMAR 0x00084
	/* Coherent Agent Interface Unit Register Map */
	#define NCORE_CAIUIDR 0x00ffc
	/* Snoop Enable Register */
	#define NCORE_DIRUCASER0 0x00040
	#define NCORE_DIRUCASER1 0x00044
	#define NCORE_DIRUCASER2 0x00048
	#define NCORE_DIRUCASER3 0x0004c
	#define NCORE_CSADSER0 0x00040
	#define NCORE_CSADSER1 0x00044
	#define NCORE_CSADSER2 0x00048
	#define NCORE_CSADSER3 0x0004c
	/* Protocols Definition */
	#define ACE_W_DVM 0
	#define ACE_L_W_DVM 1
	#define ACE_WO_DVM 2
	#define ACE_L_WO_DVM 3
	/* Bypass OC Ram Firewall */
	#define NCORE_FW_OCRAM_BLK_BASE 0x100200
	#define NCORE_FW_OCRAM_BLK_CGF1 0x04
	#define NCORE_FW_OCRAM_BLK_CGF2 0x08
	#define NCORE_FW_OCRAM_BLK_CGF3 0x0c
	#define NCORE_FW_OCRAM_BLK_CGF4 0x10
	#define OCRAM_PRIVILEGED_MASK BIT(29)
	#define OCRAM_SECURE_MASK BIT(30)
	/* Macros */
	#define NCORE_CCU_REG(base) (NCORE_CCU_OFFSET + (base))
	#define NCORE_CCU_CSR(reg) (NCORE_CCU_REG(NCORE_CSR_OFFSET)\
	+ (reg))
	#define NCORE_CCU_DIR(reg) (NCORE_CCU_REG(NCORE_DIRU_OFFSET)\
	+ (reg))
	#define NCORE_CCU_CAI(reg) (NCORE_CCU_REG(NCORE_CAIU_OFFSET)\
	+ (reg))
	#define DIRECTORY_UNIT(x, reg) (NCORE_CCU_DIR(reg)\
	+ NCORE_DIRU_SIZE * (x))
	#define COH_AGENT_UNIT(x, reg) (NCORE_CCU_CAI(reg)\
	+ NCORE_CAIU_SIZE * (x))
	#define COH_CPU0_BYPASS_REG(reg) (NCORE_CCU_REG(NCORE_FW_OCRAM_BLK_BASE)\
	+ (reg))
	#define CSUIDR_NUM_CMI(x) (((x) & 0x3f000000) >> 24)
	#define CSUIDR_NUM_DIR(x) (((x) & 0x003f0000) >> 16)
	#define CSUIDR_NUM_NCB(x) (((x) & 0x00003f00) >> 8)
	#define CSUIDR_NUM_CAI(x) (((x) & 0x0000007f) >> 0)
	#define CSIDR_NUM_SF(x) (((x) & 0x007c0000) >> 18)
	#define SNOOP_FILTER_ID(x) (((x) << 16))
	#define CACHING_AGENT_BIT(x) (((x) & 0x08000) >> 15)
	#define CACHING_AGENT_TYPE(x) (((x) & 0xf0000) >> 16)

	typedef struct coh_ss_id {
	uint8_t num_coh_mem;
	uint8_t num_directory;
	uint8_t num_non_coh_bridge;
	uint8_t num_coh_agent;
	uint8_t num_snoop_filter;
	} coh_ss_id_t;

	uint32_t init_ncore_ccu(void);
	void ncore_enable_ocram_firewall(void);
	void setup_smmu_stream_id(void);

	#endif