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/*
* Copyright (c) 2015-2020, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef ARM_DEF_H
#define ARM_DEF_H
#include <arch.h>
#include <common/interrupt_props.h>
#include <common/tbbr/tbbr_img_def.h>
#include <drivers/arm/gic_common.h>
#include <lib/utils_def.h>
#include <lib/xlat_tables/xlat_tables_defs.h>
#include <plat/arm/common/smccc_def.h>
#include <plat/common/common_def.h>
/******************************************************************************
* Definitions common to all ARM standard platforms
*****************************************************************************/
/*
* Root of trust key hash lengths
*/
#define ARM_ROTPK_HEADER_LEN 19
#define ARM_ROTPK_HASH_LEN 32
/* Special value used to verify platform parameters from BL2 to BL31 */
#define ARM_BL31_PLAT_PARAM_VAL ULL(0x0f1e2d3c4b5a6978)
#define ARM_SYSTEM_COUNT U(1)
#define ARM_CACHE_WRITEBACK_SHIFT 6
/*
* Macros mapping the MPIDR Affinity levels to ARM Platform Power levels. The
* power levels have a 1:1 mapping with the MPIDR affinity levels.
*/
#define ARM_PWR_LVL0 MPIDR_AFFLVL0
#define ARM_PWR_LVL1 MPIDR_AFFLVL1
#define ARM_PWR_LVL2 MPIDR_AFFLVL2
#define ARM_PWR_LVL3 MPIDR_AFFLVL3
/*
* Macros for local power states in ARM platforms encoded by State-ID field
* within the power-state parameter.
*/
/* Local power state for power domains in Run state. */
#define ARM_LOCAL_STATE_RUN U(0)
/* Local power state for retention. Valid only for CPU power domains */
#define ARM_LOCAL_STATE_RET U(1)
/* Local power state for OFF/power-down. Valid for CPU and cluster power
domains */
#define ARM_LOCAL_STATE_OFF U(2)
/* Memory location options for TSP */
#define ARM_TRUSTED_SRAM_ID 0
#define ARM_TRUSTED_DRAM_ID 1
#define ARM_DRAM_ID 2
/* The first 4KB of Trusted SRAM are used as shared memory */
#define ARM_TRUSTED_SRAM_BASE UL(0x04000000)
#define ARM_SHARED_RAM_BASE ARM_TRUSTED_SRAM_BASE
#define ARM_SHARED_RAM_SIZE UL(0x00001000) /* 4 KB */
/* The remaining Trusted SRAM is used to load the BL images */
#define ARM_BL_RAM_BASE (ARM_SHARED_RAM_BASE + \
ARM_SHARED_RAM_SIZE)
#define ARM_BL_RAM_SIZE (PLAT_ARM_TRUSTED_SRAM_SIZE - \
ARM_SHARED_RAM_SIZE)
/*
* The top 16MB of DRAM1 is configured as secure access only using the TZC
* - SCP TZC DRAM: If present, DRAM reserved for SCP use
* - AP TZC DRAM: The remaining TZC secured DRAM reserved for AP use
*/
#define ARM_TZC_DRAM1_SIZE UL(0x01000000)
#define ARM_SCP_TZC_DRAM1_BASE (ARM_DRAM1_BASE + \
ARM_DRAM1_SIZE - \
ARM_SCP_TZC_DRAM1_SIZE)
#define ARM_SCP_TZC_DRAM1_SIZE PLAT_ARM_SCP_TZC_DRAM1_SIZE
#define ARM_SCP_TZC_DRAM1_END (ARM_SCP_TZC_DRAM1_BASE + \
ARM_SCP_TZC_DRAM1_SIZE - 1U)
/*
* Define a 2MB region within the TZC secured DRAM for use by EL3 runtime
* firmware. This region is meant to be NOLOAD and will not be zero
* initialized. Data sections with the attribute `arm_el3_tzc_dram` will be
* placed here.
*/
#define ARM_EL3_TZC_DRAM1_BASE (ARM_SCP_TZC_DRAM1_BASE - ARM_EL3_TZC_DRAM1_SIZE)
#define ARM_EL3_TZC_DRAM1_SIZE UL(0x00200000) /* 2 MB */
#define ARM_EL3_TZC_DRAM1_END (ARM_EL3_TZC_DRAM1_BASE + \
ARM_EL3_TZC_DRAM1_SIZE - 1U)
#define ARM_AP_TZC_DRAM1_BASE (ARM_DRAM1_BASE + \
ARM_DRAM1_SIZE - \
ARM_TZC_DRAM1_SIZE)
#define ARM_AP_TZC_DRAM1_SIZE (ARM_TZC_DRAM1_SIZE - \
(ARM_SCP_TZC_DRAM1_SIZE + \
ARM_EL3_TZC_DRAM1_SIZE))
#define ARM_AP_TZC_DRAM1_END (ARM_AP_TZC_DRAM1_BASE + \
ARM_AP_TZC_DRAM1_SIZE - 1U)
/* Define the Access permissions for Secure peripherals to NS_DRAM */
#if ARM_CRYPTOCELL_INTEG
/*
* Allow Secure peripheral to read NS DRAM when integrated with CryptoCell.
* This is required by CryptoCell to authenticate BL33 which is loaded
* into the Non Secure DDR.
*/
#define ARM_TZC_NS_DRAM_S_ACCESS TZC_REGION_S_RD
#else
#define ARM_TZC_NS_DRAM_S_ACCESS TZC_REGION_S_NONE
#endif
#ifdef SPD_opteed
/*
* BL2 needs to map 4MB at the end of TZC_DRAM1 in order to
* load/authenticate the trusted os extra image. The first 512KB of
* TZC_DRAM1 are reserved for trusted os (OPTEE). The extra image loading
* for OPTEE is paged image which only include the paging part using
* virtual memory but without "init" data. OPTEE will copy the "init" data
* (from pager image) to the first 512KB of TZC_DRAM, and then copy the
* extra image behind the "init" data.
*/
#define ARM_OPTEE_PAGEABLE_LOAD_BASE (ARM_AP_TZC_DRAM1_BASE + \
ARM_AP_TZC_DRAM1_SIZE - \
ARM_OPTEE_PAGEABLE_LOAD_SIZE)
#define ARM_OPTEE_PAGEABLE_LOAD_SIZE UL(0x400000)
#define ARM_OPTEE_PAGEABLE_LOAD_MEM MAP_REGION_FLAT( \
ARM_OPTEE_PAGEABLE_LOAD_BASE, \
ARM_OPTEE_PAGEABLE_LOAD_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
/*
* Map the memory for the OP-TEE core (also known as OP-TEE pager when paging
* support is enabled).
*/
#define ARM_MAP_OPTEE_CORE_MEM MAP_REGION_FLAT( \
BL32_BASE, \
BL32_LIMIT - BL32_BASE, \
MT_MEMORY | MT_RW | MT_SECURE)
#endif /* SPD_opteed */
#define ARM_NS_DRAM1_BASE ARM_DRAM1_BASE
#define ARM_NS_DRAM1_SIZE (ARM_DRAM1_SIZE - \
ARM_TZC_DRAM1_SIZE)
#define ARM_NS_DRAM1_END (ARM_NS_DRAM1_BASE + \
ARM_NS_DRAM1_SIZE - 1U)
#define ARM_DRAM1_BASE ULL(0x80000000)
#define ARM_DRAM1_SIZE ULL(0x80000000)
#define ARM_DRAM1_END (ARM_DRAM1_BASE + \
ARM_DRAM1_SIZE - 1U)
#define ARM_DRAM2_BASE PLAT_ARM_DRAM2_BASE
#define ARM_DRAM2_SIZE PLAT_ARM_DRAM2_SIZE
#define ARM_DRAM2_END (ARM_DRAM2_BASE + \
ARM_DRAM2_SIZE - 1U)
#define ARM_IRQ_SEC_PHY_TIMER 29
#define ARM_IRQ_SEC_SGI_0 8
#define ARM_IRQ_SEC_SGI_1 9
#define ARM_IRQ_SEC_SGI_2 10
#define ARM_IRQ_SEC_SGI_3 11
#define ARM_IRQ_SEC_SGI_4 12
#define ARM_IRQ_SEC_SGI_5 13
#define ARM_IRQ_SEC_SGI_6 14
#define ARM_IRQ_SEC_SGI_7 15
/*
* Define a list of Group 1 Secure and Group 0 interrupt properties as per GICv3
* terminology. On a GICv2 system or mode, the lists will be merged and treated
* as Group 0 interrupts.
*/
#define ARM_G1S_IRQ_PROPS(grp) \
INTR_PROP_DESC(ARM_IRQ_SEC_PHY_TIMER, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_LEVEL), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_1, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_2, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_3, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_4, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_5, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_7, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE)
#define ARM_G0_IRQ_PROPS(grp) \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_0, PLAT_SDEI_NORMAL_PRI, (grp), \
GIC_INTR_CFG_EDGE), \
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_6, GIC_HIGHEST_SEC_PRIORITY, (grp), \
GIC_INTR_CFG_EDGE)
#define ARM_MAP_SHARED_RAM MAP_REGION_FLAT( \
ARM_SHARED_RAM_BASE, \
ARM_SHARED_RAM_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
#define ARM_MAP_NS_DRAM1 MAP_REGION_FLAT( \
ARM_NS_DRAM1_BASE, \
ARM_NS_DRAM1_SIZE, \
MT_MEMORY | MT_RW | MT_NS)
#define ARM_MAP_DRAM2 MAP_REGION_FLAT( \
ARM_DRAM2_BASE, \
ARM_DRAM2_SIZE, \
MT_MEMORY | MT_RW | MT_NS)
#define ARM_MAP_TSP_SEC_MEM MAP_REGION_FLAT( \
TSP_SEC_MEM_BASE, \
TSP_SEC_MEM_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#if ARM_BL31_IN_DRAM
#define ARM_MAP_BL31_SEC_DRAM MAP_REGION_FLAT( \
BL31_BASE, \
PLAT_ARM_MAX_BL31_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#endif
#define ARM_MAP_EL3_TZC_DRAM MAP_REGION_FLAT( \
ARM_EL3_TZC_DRAM1_BASE, \
ARM_EL3_TZC_DRAM1_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#if defined(SPD_spmd)
#define ARM_MAP_TRUSTED_DRAM MAP_REGION_FLAT( \
PLAT_ARM_TRUSTED_DRAM_BASE, \
PLAT_ARM_TRUSTED_DRAM_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#endif
/*
* Mapping for the BL1 RW region. This mapping is needed by BL2 in order to
* share the Mbed TLS heap. Since the heap is allocated inside BL1, it resides
* in the BL1 RW region. Hence, BL2 needs access to the BL1 RW region in order
* to be able to access the heap.
*/
#define ARM_MAP_BL1_RW MAP_REGION_FLAT( \
BL1_RW_BASE, \
BL1_RW_LIMIT - BL1_RW_BASE, \
MT_MEMORY | MT_RW | MT_SECURE)
/*
* If SEPARATE_CODE_AND_RODATA=1 we define a region for each section
* otherwise one region is defined containing both.
*/
#if SEPARATE_CODE_AND_RODATA
#define ARM_MAP_BL_RO MAP_REGION_FLAT( \
BL_CODE_BASE, \
BL_CODE_END - BL_CODE_BASE, \
MT_CODE | MT_SECURE), \
MAP_REGION_FLAT( \
BL_RO_DATA_BASE, \
BL_RO_DATA_END \
- BL_RO_DATA_BASE, \
MT_RO_DATA | MT_SECURE)
#else
#define ARM_MAP_BL_RO MAP_REGION_FLAT( \
BL_CODE_BASE, \
BL_CODE_END - BL_CODE_BASE, \
MT_CODE | MT_SECURE)
#endif
#if USE_COHERENT_MEM
#define ARM_MAP_BL_COHERENT_RAM MAP_REGION_FLAT( \
BL_COHERENT_RAM_BASE, \
BL_COHERENT_RAM_END \
- BL_COHERENT_RAM_BASE, \
MT_DEVICE | MT_RW | MT_SECURE)
#endif
#if USE_ROMLIB
#define ARM_MAP_ROMLIB_CODE MAP_REGION_FLAT( \
ROMLIB_RO_BASE, \
ROMLIB_RO_LIMIT - ROMLIB_RO_BASE,\
MT_CODE | MT_SECURE)
#define ARM_MAP_ROMLIB_DATA MAP_REGION_FLAT( \
ROMLIB_RW_BASE, \
ROMLIB_RW_END - ROMLIB_RW_BASE,\
MT_MEMORY | MT_RW | MT_SECURE)
#endif
/*
* Map mem_protect flash region with read and write permissions
*/
#define ARM_V2M_MAP_MEM_PROTECT MAP_REGION_FLAT(PLAT_ARM_MEM_PROT_ADDR, \
V2M_FLASH_BLOCK_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
/*
* Map the region for device tree configuration with read and write permissions
*/
#define ARM_MAP_BL_CONFIG_REGION MAP_REGION_FLAT(ARM_BL_RAM_BASE, \
(ARM_FW_CONFIGS_LIMIT \
- ARM_BL_RAM_BASE), \
MT_MEMORY | MT_RW | MT_SECURE)
/*
* The max number of regions like RO(code), coherent and data required by
* different BL stages which need to be mapped in the MMU.
*/
#define ARM_BL_REGIONS 6
#define MAX_MMAP_REGIONS (PLAT_ARM_MMAP_ENTRIES + \
ARM_BL_REGIONS)
/* Memory mapped Generic timer interfaces */
#define ARM_SYS_CNTCTL_BASE UL(0x2a430000)
#define ARM_SYS_CNTREAD_BASE UL(0x2a800000)
#define ARM_SYS_TIMCTL_BASE UL(0x2a810000)
#define ARM_SYS_CNT_BASE_S UL(0x2a820000)
#define ARM_SYS_CNT_BASE_NS UL(0x2a830000)
#define ARM_CONSOLE_BAUDRATE 115200
/* Trusted Watchdog constants */
#define ARM_SP805_TWDG_BASE UL(0x2a490000)
#define ARM_SP805_TWDG_CLK_HZ 32768
/* The TBBR document specifies a watchdog timeout of 256 seconds. SP805
* asserts reset after two consecutive countdowns (2 x 128 = 256 sec) */
#define ARM_TWDG_TIMEOUT_SEC 128
#define ARM_TWDG_LOAD_VAL (ARM_SP805_TWDG_CLK_HZ * \
ARM_TWDG_TIMEOUT_SEC)
/******************************************************************************
* Required platform porting definitions common to all ARM standard platforms
*****************************************************************************/
/*
* This macro defines the deepest retention state possible. A higher state
* id will represent an invalid or a power down state.
*/
#define PLAT_MAX_RET_STATE ARM_LOCAL_STATE_RET
/*
* This macro defines the deepest power down states possible. Any state ID
* higher than this is invalid.
*/
#define PLAT_MAX_OFF_STATE ARM_LOCAL_STATE_OFF
/*
* Some data must be aligned on the biggest cache line size in the platform.
* This is known only to the platform as it might have a combination of
* integrated and external caches.
*/
#define CACHE_WRITEBACK_GRANULE (U(1) << ARM_CACHE_WRITEBACK_SHIFT)
/*
* To enable FW_CONFIG to be loaded by BL1, define the corresponding base
* and limit. Leave enough space of BL2 meminfo.
*/
#define ARM_FW_CONFIG_BASE (ARM_BL_RAM_BASE + sizeof(meminfo_t))
#define ARM_FW_CONFIG_LIMIT ((ARM_BL_RAM_BASE + PAGE_SIZE) \
+ (PAGE_SIZE / 2U))
/*
* Boot parameters passed from BL2 to BL31/BL32 are stored here
*/
#define ARM_BL2_MEM_DESC_BASE (ARM_FW_CONFIG_LIMIT)
#define ARM_BL2_MEM_DESC_LIMIT (ARM_BL2_MEM_DESC_BASE \
+ (PAGE_SIZE / 2U))
/*
* Define limit of firmware configuration memory:
* ARM_FW_CONFIG + ARM_BL2_MEM_DESC memory
*/
#define ARM_FW_CONFIGS_LIMIT (ARM_BL_RAM_BASE + (PAGE_SIZE * 2))
/*******************************************************************************
* BL1 specific defines.
* BL1 RW data is relocated from ROM to RAM at runtime so we need 2 sets of
* addresses.
******************************************************************************/
#define BL1_RO_BASE PLAT_ARM_TRUSTED_ROM_BASE
#define BL1_RO_LIMIT (PLAT_ARM_TRUSTED_ROM_BASE \
+ (PLAT_ARM_TRUSTED_ROM_SIZE - \
PLAT_ARM_MAX_ROMLIB_RO_SIZE))
/*
* Put BL1 RW at the top of the Trusted SRAM.
*/
#define BL1_RW_BASE (ARM_BL_RAM_BASE + \
ARM_BL_RAM_SIZE - \
(PLAT_ARM_MAX_BL1_RW_SIZE +\
PLAT_ARM_MAX_ROMLIB_RW_SIZE))
#define BL1_RW_LIMIT (ARM_BL_RAM_BASE + \
(ARM_BL_RAM_SIZE - PLAT_ARM_MAX_ROMLIB_RW_SIZE))
#define ROMLIB_RO_BASE BL1_RO_LIMIT
#define ROMLIB_RO_LIMIT (PLAT_ARM_TRUSTED_ROM_BASE + PLAT_ARM_TRUSTED_ROM_SIZE)
#define ROMLIB_RW_BASE (BL1_RW_BASE + PLAT_ARM_MAX_BL1_RW_SIZE)
#define ROMLIB_RW_END (ROMLIB_RW_BASE + PLAT_ARM_MAX_ROMLIB_RW_SIZE)
/*******************************************************************************
* BL2 specific defines.
******************************************************************************/
#if BL2_AT_EL3
/* Put BL2 towards the middle of the Trusted SRAM */
#define BL2_BASE (ARM_TRUSTED_SRAM_BASE + \
(PLAT_ARM_TRUSTED_SRAM_SIZE >> 1) + 0x2000)
#define BL2_LIMIT (ARM_BL_RAM_BASE + ARM_BL_RAM_SIZE)
#else
/*
* Put BL2 just below BL1.
*/
#define BL2_BASE (BL1_RW_BASE - PLAT_ARM_MAX_BL2_SIZE)
#define BL2_LIMIT BL1_RW_BASE
#endif
/*******************************************************************************
* BL31 specific defines.
******************************************************************************/
#if ARM_BL31_IN_DRAM || SEPARATE_NOBITS_REGION
/*
* Put BL31 at the bottom of TZC secured DRAM
*/
#define BL31_BASE ARM_AP_TZC_DRAM1_BASE
#define BL31_LIMIT (ARM_AP_TZC_DRAM1_BASE + \
PLAT_ARM_MAX_BL31_SIZE)
/*
* For SEPARATE_NOBITS_REGION, BL31 PROGBITS are loaded in TZC secured DRAM.
* And BL31 NOBITS are loaded in Trusted SRAM such that BL2 is overwritten.
*/
#if SEPARATE_NOBITS_REGION
#define BL31_NOBITS_BASE BL2_BASE
#define BL31_NOBITS_LIMIT BL2_LIMIT
#endif /* SEPARATE_NOBITS_REGION */
#elif (RESET_TO_BL31)
/* Ensure Position Independent support (PIE) is enabled for this config.*/
# if !ENABLE_PIE
# error "BL31 must be a PIE if RESET_TO_BL31=1."
#endif
/*
* Since this is PIE, we can define BL31_BASE to 0x0 since this macro is solely
* used for building BL31 and not used for loading BL31.
*/
# define BL31_BASE 0x0
# define BL31_LIMIT PLAT_ARM_MAX_BL31_SIZE
#else
/* Put BL31 below BL2 in the Trusted SRAM.*/
#define BL31_BASE ((ARM_BL_RAM_BASE + ARM_BL_RAM_SIZE)\
- PLAT_ARM_MAX_BL31_SIZE)
#define BL31_PROGBITS_LIMIT BL2_BASE
/*
* For BL2_AT_EL3 make sure the BL31 can grow up until BL2_BASE. This is
* because in the BL2_AT_EL3 configuration, BL2 is always resident.
*/
#if BL2_AT_EL3
#define BL31_LIMIT BL2_BASE
#else
#define BL31_LIMIT (ARM_BL_RAM_BASE + ARM_BL_RAM_SIZE)
#endif
#endif
#if !defined(__aarch64__) || JUNO_AARCH32_EL3_RUNTIME
/*******************************************************************************
* BL32 specific defines for EL3 runtime in AArch32 mode
******************************************************************************/
# if RESET_TO_SP_MIN && !JUNO_AARCH32_EL3_RUNTIME
/*
* SP_MIN is the only BL image in SRAM. Allocate the whole of SRAM (excluding
* the page reserved for fw_configs) to BL32
*/
# define BL32_BASE ARM_FW_CONFIGS_LIMIT
# define BL32_LIMIT (ARM_BL_RAM_BASE + ARM_BL_RAM_SIZE)
# else
/* Put BL32 below BL2 in the Trusted SRAM.*/
# define BL32_BASE ((ARM_BL_RAM_BASE + ARM_BL_RAM_SIZE)\
- PLAT_ARM_MAX_BL32_SIZE)
# define BL32_PROGBITS_LIMIT BL2_BASE
# define BL32_LIMIT (ARM_BL_RAM_BASE + ARM_BL_RAM_SIZE)
# endif /* RESET_TO_SP_MIN && !JUNO_AARCH32_EL3_RUNTIME */
#else
/*******************************************************************************
* BL32 specific defines for EL3 runtime in AArch64 mode
******************************************************************************/
/*
* On ARM standard platforms, the TSP can execute from Trusted SRAM,
* Trusted DRAM (if available) or the DRAM region secured by the TrustZone
* controller.
*/
# if SPM_MM
# define TSP_SEC_MEM_BASE (ARM_AP_TZC_DRAM1_BASE + ULL(0x200000))
# define TSP_SEC_MEM_SIZE (ARM_AP_TZC_DRAM1_SIZE - ULL(0x200000))
# define BL32_BASE (ARM_AP_TZC_DRAM1_BASE + ULL(0x200000))
# define BL32_LIMIT (ARM_AP_TZC_DRAM1_BASE + \
ARM_AP_TZC_DRAM1_SIZE)
# elif defined(SPD_spmd)
# define TSP_SEC_MEM_BASE (ARM_AP_TZC_DRAM1_BASE + ULL(0x200000))
# define TSP_SEC_MEM_SIZE (ARM_AP_TZC_DRAM1_SIZE - ULL(0x200000))
# define BL32_BASE PLAT_ARM_TRUSTED_DRAM_BASE
# define BL32_LIMIT (PLAT_ARM_TRUSTED_DRAM_BASE \
+ (UL(1) << 21))
# elif ARM_BL31_IN_DRAM
# define TSP_SEC_MEM_BASE (ARM_AP_TZC_DRAM1_BASE + \
PLAT_ARM_MAX_BL31_SIZE)
# define TSP_SEC_MEM_SIZE (ARM_AP_TZC_DRAM1_SIZE - \
PLAT_ARM_MAX_BL31_SIZE)
# define BL32_BASE (ARM_AP_TZC_DRAM1_BASE + \
PLAT_ARM_MAX_BL31_SIZE)
# define BL32_LIMIT (ARM_AP_TZC_DRAM1_BASE + \
ARM_AP_TZC_DRAM1_SIZE)
# elif ARM_TSP_RAM_LOCATION_ID == ARM_TRUSTED_SRAM_ID
# define TSP_SEC_MEM_BASE ARM_BL_RAM_BASE
# define TSP_SEC_MEM_SIZE ARM_BL_RAM_SIZE
# define TSP_PROGBITS_LIMIT BL31_BASE
# define BL32_BASE ARM_FW_CONFIGS_LIMIT
# define BL32_LIMIT BL31_BASE
# elif ARM_TSP_RAM_LOCATION_ID == ARM_TRUSTED_DRAM_ID
# define TSP_SEC_MEM_BASE PLAT_ARM_TRUSTED_DRAM_BASE
# define TSP_SEC_MEM_SIZE PLAT_ARM_TRUSTED_DRAM_SIZE
# define BL32_BASE PLAT_ARM_TRUSTED_DRAM_BASE
# define BL32_LIMIT (PLAT_ARM_TRUSTED_DRAM_BASE \
+ (UL(1) << 21))
# elif ARM_TSP_RAM_LOCATION_ID == ARM_DRAM_ID
# define TSP_SEC_MEM_BASE ARM_AP_TZC_DRAM1_BASE
# define TSP_SEC_MEM_SIZE ARM_AP_TZC_DRAM1_SIZE
# define BL32_BASE ARM_AP_TZC_DRAM1_BASE
# define BL32_LIMIT (ARM_AP_TZC_DRAM1_BASE + \
ARM_AP_TZC_DRAM1_SIZE)
# else
# error "Unsupported ARM_TSP_RAM_LOCATION_ID value"
# endif
#endif /* !__aarch64__ || JUNO_AARCH32_EL3_RUNTIME */
/*
* BL32 is mandatory in AArch32. In AArch64, undefine BL32_BASE if there is no
* SPD and no SPM-MM, as they are the only ones that can be used as BL32.
*/
#if defined(__aarch64__) && !JUNO_AARCH32_EL3_RUNTIME
# if defined(SPD_none) && !SPM_MM
# undef BL32_BASE
# endif /* defined(SPD_none) && !SPM_MM */
#endif /* defined(__aarch64__) && !JUNO_AARCH32_EL3_RUNTIME */
/*******************************************************************************
* FWU Images: NS_BL1U, BL2U & NS_BL2U defines.
******************************************************************************/
#define BL2U_BASE BL2_BASE
#define BL2U_LIMIT BL2_LIMIT
#define NS_BL2U_BASE ARM_NS_DRAM1_BASE
#define NS_BL1U_BASE (PLAT_ARM_NVM_BASE + UL(0x03EB8000))
/*
* ID of the secure physical generic timer interrupt used by the TSP.
*/
#define TSP_IRQ_SEC_PHY_TIMER ARM_IRQ_SEC_PHY_TIMER
/*
* One cache line needed for bakery locks on ARM platforms
*/
#define PLAT_PERCPU_BAKERY_LOCK_SIZE (1 * CACHE_WRITEBACK_GRANULE)
/* Priority levels for ARM platforms */
#define PLAT_RAS_PRI 0x10
#define PLAT_SDEI_CRITICAL_PRI 0x60
#define PLAT_SDEI_NORMAL_PRI 0x70
/* ARM platforms use 3 upper bits of secure interrupt priority */
#define ARM_PRI_BITS 3
/* SGI used for SDEI signalling */
#define ARM_SDEI_SGI ARM_IRQ_SEC_SGI_0
#if SDEI_IN_FCONF
/* ARM SDEI dynamic private event max count */
#define ARM_SDEI_DP_EVENT_MAX_CNT 3
/* ARM SDEI dynamic shared event max count */
#define ARM_SDEI_DS_EVENT_MAX_CNT 3
#else
/* ARM SDEI dynamic private event numbers */
#define ARM_SDEI_DP_EVENT_0 1000
#define ARM_SDEI_DP_EVENT_1 1001
#define ARM_SDEI_DP_EVENT_2 1002
/* ARM SDEI dynamic shared event numbers */
#define ARM_SDEI_DS_EVENT_0 2000
#define ARM_SDEI_DS_EVENT_1 2001
#define ARM_SDEI_DS_EVENT_2 2002
#define ARM_SDEI_PRIVATE_EVENTS \
SDEI_DEFINE_EVENT_0(ARM_SDEI_SGI), \
SDEI_PRIVATE_EVENT(ARM_SDEI_DP_EVENT_0, SDEI_DYN_IRQ, SDEI_MAPF_DYNAMIC), \
SDEI_PRIVATE_EVENT(ARM_SDEI_DP_EVENT_1, SDEI_DYN_IRQ, SDEI_MAPF_DYNAMIC), \
SDEI_PRIVATE_EVENT(ARM_SDEI_DP_EVENT_2, SDEI_DYN_IRQ, SDEI_MAPF_DYNAMIC)
#define ARM_SDEI_SHARED_EVENTS \
SDEI_SHARED_EVENT(ARM_SDEI_DS_EVENT_0, SDEI_DYN_IRQ, SDEI_MAPF_DYNAMIC), \
SDEI_SHARED_EVENT(ARM_SDEI_DS_EVENT_1, SDEI_DYN_IRQ, SDEI_MAPF_DYNAMIC), \
SDEI_SHARED_EVENT(ARM_SDEI_DS_EVENT_2, SDEI_DYN_IRQ, SDEI_MAPF_DYNAMIC)
#endif /* SDEI_IN_FCONF */
#endif /* ARM_DEF_H */