fvp_common.c 10.2 KB
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/*
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 * Copyright (c) 2013-2018, ARM Limited and Contributors. All rights reserved.
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 *
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 * SPDX-License-Identifier: BSD-3-Clause
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 */

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#include <arm_config.h>
#include <arm_def.h>
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#include <arm_spm_def.h>
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#include <assert.h>
#include <cci.h>
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#include <ccn.h>
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#include <debug.h>
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#include <gicv2.h>
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#include <mmio.h>
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#include <plat_arm.h>
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#include <platform.h>
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#include <secure_partition.h>
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#include <v2m_def.h>
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#include <xlat_tables_compat.h>

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#include "../fvp_def.h"
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#include "fvp_private.h"
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/* Defines for GIC Driver build time selection */
#define FVP_GICV2		1
#define FVP_GICV3		2

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/*******************************************************************************
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 * arm_config holds the characteristics of the differences between the three FVP
 * platforms (Base, A53_A57 & Foundation). It will be populated during cold boot
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 * at each boot stage by the primary before enabling the MMU (to allow
 * interconnect configuration) & used thereafter. Each BL will have its own copy
 * to allow independent operation.
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 ******************************************************************************/
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arm_config_t arm_config;
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#define MAP_DEVICE0	MAP_REGION_FLAT(DEVICE0_BASE,			\
					DEVICE0_SIZE,			\
					MT_DEVICE | MT_RW | MT_SECURE)

#define MAP_DEVICE1	MAP_REGION_FLAT(DEVICE1_BASE,			\
					DEVICE1_SIZE,			\
					MT_DEVICE | MT_RW | MT_SECURE)

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/*
 * Need to be mapped with write permissions in order to set a new non-volatile
 * counter value.
 */
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#define MAP_DEVICE2	MAP_REGION_FLAT(DEVICE2_BASE,			\
					DEVICE2_SIZE,			\
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					MT_DEVICE | MT_RW | MT_SECURE)
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/*
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 * Table of memory regions for various BL stages to map using the MMU.
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 * This doesn't include Trusted SRAM as setup_page_tables() already takes care
 * of mapping it.
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 *
 * The flash needs to be mapped as writable in order to erase the FIP's Table of
 * Contents in case of unrecoverable error (see plat_error_handler()).
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 */
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#ifdef IMAGE_BL1
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const mmap_region_t plat_arm_mmap[] = {
	ARM_MAP_SHARED_RAM,
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	V2M_MAP_FLASH0_RW,
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	V2M_MAP_IOFPGA,
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	MAP_DEVICE0,
	MAP_DEVICE1,
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#if TRUSTED_BOARD_BOOT
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	/* To access the Root of Trust Public Key registers. */
	MAP_DEVICE2,
	/* Map DRAM to authenticate NS_BL2U image. */
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	ARM_MAP_NS_DRAM1,
#endif
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	{0}
};
#endif
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#ifdef IMAGE_BL2
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const mmap_region_t plat_arm_mmap[] = {
	ARM_MAP_SHARED_RAM,
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	V2M_MAP_FLASH0_RW,
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	V2M_MAP_IOFPGA,
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	MAP_DEVICE0,
	MAP_DEVICE1,
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	ARM_MAP_NS_DRAM1,
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#ifdef AARCH64
	ARM_MAP_DRAM2,
#endif
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#ifdef SPD_tspd
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	ARM_MAP_TSP_SEC_MEM,
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#endif
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#if TRUSTED_BOARD_BOOT
	/* To access the Root of Trust Public Key registers. */
	MAP_DEVICE2,
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#if !BL2_AT_EL3
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	ARM_MAP_BL1_RW,
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#endif
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#endif /* TRUSTED_BOARD_BOOT */
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#if ENABLE_SPM
	ARM_SP_IMAGE_MMAP,
#endif
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#if ARM_BL31_IN_DRAM
	ARM_MAP_BL31_SEC_DRAM,
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#endif
#ifdef SPD_opteed
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	ARM_MAP_OPTEE_CORE_MEM,
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	ARM_OPTEE_PAGEABLE_LOAD_MEM,
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#endif
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	{0}
};
#endif
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#ifdef IMAGE_BL2U
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const mmap_region_t plat_arm_mmap[] = {
	MAP_DEVICE0,
	V2M_MAP_IOFPGA,
	{0}
};
#endif
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#ifdef IMAGE_BL31
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const mmap_region_t plat_arm_mmap[] = {
	ARM_MAP_SHARED_RAM,
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	ARM_MAP_EL3_TZC_DRAM,
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	V2M_MAP_IOFPGA,
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	MAP_DEVICE0,
	MAP_DEVICE1,
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	ARM_V2M_MAP_MEM_PROTECT,
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#if ENABLE_SPM
	ARM_SPM_BUF_EL3_MMAP,
#endif
	{0}
};

#if ENABLE_SPM && defined(IMAGE_BL31)
const mmap_region_t plat_arm_secure_partition_mmap[] = {
	V2M_MAP_IOFPGA_EL0, /* for the UART */
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	MAP_REGION_FLAT(DEVICE0_BASE,				\
			DEVICE0_SIZE,				\
			MT_DEVICE | MT_RO | MT_SECURE | MT_USER),
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	ARM_SP_IMAGE_MMAP,
	ARM_SP_IMAGE_NS_BUF_MMAP,
	ARM_SP_IMAGE_RW_MMAP,
	ARM_SPM_BUF_EL0_MMAP,
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	{0}
};
#endif
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#endif
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#ifdef IMAGE_BL32
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const mmap_region_t plat_arm_mmap[] = {
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#ifdef AARCH32
	ARM_MAP_SHARED_RAM,
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	ARM_V2M_MAP_MEM_PROTECT,
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#endif
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	V2M_MAP_IOFPGA,
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	MAP_DEVICE0,
	MAP_DEVICE1,
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	{0}
};
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#endif
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ARM_CASSERT_MMAP
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#if FVP_INTERCONNECT_DRIVER != FVP_CCN
static const int fvp_cci400_map[] = {
	PLAT_FVP_CCI400_CLUS0_SL_PORT,
	PLAT_FVP_CCI400_CLUS1_SL_PORT,
};

static const int fvp_cci5xx_map[] = {
	PLAT_FVP_CCI5XX_CLUS0_SL_PORT,
	PLAT_FVP_CCI5XX_CLUS1_SL_PORT,
};

static unsigned int get_interconnect_master(void)
{
	unsigned int master;
	u_register_t mpidr;

	mpidr = read_mpidr_el1();
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	master = ((arm_config.flags & ARM_CONFIG_FVP_SHIFTED_AFF) != 0U) ?
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		MPIDR_AFFLVL2_VAL(mpidr) : MPIDR_AFFLVL1_VAL(mpidr);

	assert(master < FVP_CLUSTER_COUNT);
	return master;
}
#endif
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#if ENABLE_SPM && defined(IMAGE_BL31)
/*
 * Boot information passed to a secure partition during initialisation. Linear
 * indices in MP information will be filled at runtime.
 */
static secure_partition_mp_info_t sp_mp_info[] = {
	[0] = {0x80000000, 0},
	[1] = {0x80000001, 0},
	[2] = {0x80000002, 0},
	[3] = {0x80000003, 0},
	[4] = {0x80000100, 0},
	[5] = {0x80000101, 0},
	[6] = {0x80000102, 0},
	[7] = {0x80000103, 0},
};

const secure_partition_boot_info_t plat_arm_secure_partition_boot_info = {
	.h.type              = PARAM_SP_IMAGE_BOOT_INFO,
	.h.version           = VERSION_1,
	.h.size              = sizeof(secure_partition_boot_info_t),
	.h.attr              = 0,
	.sp_mem_base         = ARM_SP_IMAGE_BASE,
	.sp_mem_limit        = ARM_SP_IMAGE_LIMIT,
	.sp_image_base       = ARM_SP_IMAGE_BASE,
	.sp_stack_base       = PLAT_SP_IMAGE_STACK_BASE,
	.sp_heap_base        = ARM_SP_IMAGE_HEAP_BASE,
	.sp_ns_comm_buf_base = ARM_SP_IMAGE_NS_BUF_BASE,
	.sp_shared_buf_base  = PLAT_SPM_BUF_BASE,
	.sp_image_size       = ARM_SP_IMAGE_SIZE,
	.sp_pcpu_stack_size  = PLAT_SP_IMAGE_STACK_PCPU_SIZE,
	.sp_heap_size        = ARM_SP_IMAGE_HEAP_SIZE,
	.sp_ns_comm_buf_size = ARM_SP_IMAGE_NS_BUF_SIZE,
	.sp_shared_buf_size  = PLAT_SPM_BUF_SIZE,
	.num_sp_mem_regions  = ARM_SP_IMAGE_NUM_MEM_REGIONS,
	.num_cpus            = PLATFORM_CORE_COUNT,
	.mp_info             = &sp_mp_info[0],
};

const struct mmap_region *plat_get_secure_partition_mmap(void *cookie)
{
	return plat_arm_secure_partition_mmap;
}

const struct secure_partition_boot_info *plat_get_secure_partition_boot_info(
		void *cookie)
{
	return &plat_arm_secure_partition_boot_info;
}

#endif

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/*******************************************************************************
 * A single boot loader stack is expected to work on both the Foundation FVP
 * models and the two flavours of the Base FVP models (AEMv8 & Cortex). The
 * SYS_ID register provides a mechanism for detecting the differences between
 * these platforms. This information is stored in a per-BL array to allow the
 * code to take the correct path.Per BL platform configuration.
 ******************************************************************************/
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void __init fvp_config_setup(void)
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{
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	unsigned int rev, hbi, bld, arch, sys_id;
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	sys_id = mmio_read_32(V2M_SYSREGS_BASE + V2M_SYS_ID);
	rev = (sys_id >> V2M_SYS_ID_REV_SHIFT) & V2M_SYS_ID_REV_MASK;
	hbi = (sys_id >> V2M_SYS_ID_HBI_SHIFT) & V2M_SYS_ID_HBI_MASK;
	bld = (sys_id >> V2M_SYS_ID_BLD_SHIFT) & V2M_SYS_ID_BLD_MASK;
	arch = (sys_id >> V2M_SYS_ID_ARCH_SHIFT) & V2M_SYS_ID_ARCH_MASK;
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	if (arch != ARCH_MODEL) {
		ERROR("This firmware is for FVP models\n");
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		panic();
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	}
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	/*
	 * The build field in the SYS_ID tells which variant of the GIC
	 * memory is implemented by the model.
	 */
	switch (bld) {
	case BLD_GIC_VE_MMAP:
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		ERROR("Legacy Versatile Express memory map for GIC peripheral"
				" is not supported\n");
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		panic();
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		break;
	case BLD_GIC_A53A57_MMAP:
		break;
	default:
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		ERROR("Unsupported board build %x\n", bld);
		panic();
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	}

	/*
	 * The hbi field in the SYS_ID is 0x020 for the Base FVP & 0x010
	 * for the Foundation FVP.
	 */
	switch (hbi) {
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	case HBI_FOUNDATION_FVP:
		arm_config.flags = 0;
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		/*
		 * Check for supported revisions of Foundation FVP
		 * Allow future revisions to run but emit warning diagnostic
		 */
		switch (rev) {
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		case REV_FOUNDATION_FVP_V2_0:
		case REV_FOUNDATION_FVP_V2_1:
		case REV_FOUNDATION_FVP_v9_1:
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		case REV_FOUNDATION_FVP_v9_6:
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			break;
		default:
			WARN("Unrecognized Foundation FVP revision %x\n", rev);
			break;
		}
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		break;
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	case HBI_BASE_FVP:
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		arm_config.flags |= (ARM_CONFIG_BASE_MMAP | ARM_CONFIG_HAS_TZC);
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		/*
		 * Check for supported revisions
		 * Allow future revisions to run but emit warning diagnostic
		 */
		switch (rev) {
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		case REV_BASE_FVP_V0:
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			arm_config.flags |= ARM_CONFIG_FVP_HAS_CCI400;
			break;
		case REV_BASE_FVP_REVC:
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			arm_config.flags |= (ARM_CONFIG_FVP_HAS_SMMUV3 |
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					ARM_CONFIG_FVP_HAS_CCI5XX);
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			break;
		default:
			WARN("Unrecognized Base FVP revision %x\n", rev);
			break;
		}
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		break;
	default:
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		ERROR("Unsupported board HBI number 0x%x\n", hbi);
		panic();
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	}
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	/*
	 * We assume that the presence of MT bit, and therefore shifted
	 * affinities, is uniform across the platform: either all CPUs, or no
	 * CPUs implement it.
	 */
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	if ((read_mpidr_el1() & MPIDR_MT_MASK) != 0U)
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		arm_config.flags |= ARM_CONFIG_FVP_SHIFTED_AFF;
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}
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void __init fvp_interconnect_init(void)
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{
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#if FVP_INTERCONNECT_DRIVER == FVP_CCN
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	if (ccn_get_part0_id(PLAT_ARM_CCN_BASE) != CCN_502_PART0_ID) {
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		ERROR("Unrecognized CCN variant detected. Only CCN-502 is supported");
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		panic();
	}

	plat_arm_interconnect_init();
#else
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	uintptr_t cci_base = 0U;
	const int *cci_map = NULL;
	unsigned int map_size = 0U;
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	/* Initialize the right interconnect */
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	if ((arm_config.flags & ARM_CONFIG_FVP_HAS_CCI5XX) != 0U) {
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		cci_base = PLAT_FVP_CCI5XX_BASE;
		cci_map = fvp_cci5xx_map;
		map_size = ARRAY_SIZE(fvp_cci5xx_map);
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	} else if ((arm_config.flags & ARM_CONFIG_FVP_HAS_CCI400) != 0U) {
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		cci_base = PLAT_FVP_CCI400_BASE;
		cci_map = fvp_cci400_map;
		map_size = ARRAY_SIZE(fvp_cci400_map);
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	} else {
		return;
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	}
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	assert(cci_base != 0U);
	assert(cci_map != NULL);
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	cci_init(cci_base, cci_map, map_size);
#endif
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}

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void fvp_interconnect_enable(void)
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{
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#if FVP_INTERCONNECT_DRIVER == FVP_CCN
	plat_arm_interconnect_enter_coherency();
#else
	unsigned int master;

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	if ((arm_config.flags & (ARM_CONFIG_FVP_HAS_CCI400 |
				 ARM_CONFIG_FVP_HAS_CCI5XX)) != 0U) {
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		master = get_interconnect_master();
		cci_enable_snoop_dvm_reqs(master);
	}
#endif
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}

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void fvp_interconnect_disable(void)
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{
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#if FVP_INTERCONNECT_DRIVER == FVP_CCN
	plat_arm_interconnect_exit_coherency();
#else
	unsigned int master;

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	if ((arm_config.flags & (ARM_CONFIG_FVP_HAS_CCI400 |
				 ARM_CONFIG_FVP_HAS_CCI5XX)) != 0U) {
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		master = get_interconnect_master();
		cci_disable_snoop_dvm_reqs(master);
	}
#endif
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}
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#if TRUSTED_BOARD_BOOT
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int plat_get_mbedtls_heap(void **heap_addr, size_t *heap_size)
{
	assert(heap_addr != NULL);
	assert(heap_size != NULL);

	return arm_get_mbedtls_heap(heap_addr, heap_size);
}
#endif