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#
# Copyright (c) 2016-2022, Arm Limited. All rights reserved.
#
# SPDX-License-Identifier: BSD-3-Clause
#
# Default, static values for build variables, listed in alphabetic order.
# Dependencies between build options, if any, are handled in the top-level
# Makefile, after this file is included. This ensures that the former is better
# poised to handle dependencies, as all build variables would have a default
# value by then.
# Use T32 by default
AARCH32_INSTRUCTION_SET := T32
# The AArch32 Secure Payload to be built as BL32 image
AARCH32_SP := none
# The Target build architecture. Supported values are: aarch64, aarch32.
ARCH := aarch64
# ARM Architecture feature modifiers: none by default
ARM_ARCH_FEATURE := none
# ARM Architecture major and minor versions: 8.0 by default.
ARM_ARCH_MAJOR := 8
ARM_ARCH_MINOR := 0
# Base commit to perform code check on
BASE_COMMIT := origin/master
# Execute BL2 at EL3
BL2_AT_EL3 := 0
# Only use SP packages if SP layout JSON is defined
BL2_ENABLE_SP_LOAD := 0
# BL2 image is stored in XIP memory, for now, this option is only supported
# when BL2_AT_EL3 is 1.
BL2_IN_XIP_MEM := 0
# Do dcache invalidate upon BL2 entry at EL3
BL2_INV_DCACHE := 1
# Select the branch protection features to use.
BRANCH_PROTECTION := 0
# By default, consider that the platform may release several CPUs out of reset.
# The platform Makefile is free to override this value.
COLD_BOOT_SINGLE_CPU := 0
# Flag to compile in coreboot support code. Exclude by default. The coreboot
# Makefile system will set this when compiling TF as part of a coreboot image.
COREBOOT := 0
# For Chain of Trust
CREATE_KEYS := 1
# Build flag to include AArch32 registers in cpu context save and restore during
# world switch. This flag must be set to 0 for AArch64-only platforms.
CTX_INCLUDE_AARCH32_REGS := 1
# Include FP registers in cpu context
CTX_INCLUDE_FPREGS := 0
# Include pointer authentication (ARMv8.3-PAuth) registers in cpu context. This
# must be set to 1 if the platform wants to use this feature in the Secure
# world. It is not needed to use it in the Non-secure world.
CTX_INCLUDE_PAUTH_REGS := 0
# Include Nested virtualization control (Armv8.4-NV) registers in cpu context.
# This must be set to 1 if architecture implements Nested Virtualization
# Extension and platform wants to use this feature in the Secure world
CTX_INCLUDE_NEVE_REGS := 0
# Debug build
DEBUG := 0
# By default disable authenticated decryption support.
DECRYPTION_SUPPORT := none
# Build platform
DEFAULT_PLAT := fvp
# Disable the generation of the binary image (ELF only).
DISABLE_BIN_GENERATION := 0
# Disable MTPMU if FEAT_MTPMU is supported. Default is 0 to keep backwards
# compatibility.
DISABLE_MTPMU := 0
# Enable capability to disable authentication dynamically. Only meant for
# development platforms.
DYN_DISABLE_AUTH := 0
# Build option to enable MPAM for lower ELs
ENABLE_MPAM_FOR_LOWER_ELS := 0
# Enable the Maximum Power Mitigation Mechanism on supporting cores.
ENABLE_MPMM := 0
# Enable MPMM configuration via FCONF.
ENABLE_MPMM_FCONF := 0
# Flag to Enable Position Independant support (PIE)
ENABLE_PIE := 0
# Flag to enable Performance Measurement Framework
ENABLE_PMF := 0
# Flag to enable PSCI STATs functionality
ENABLE_PSCI_STAT := 0
# Flag to enable Realm Management Extension (FEAT_RME)
ENABLE_RME := 0
# Flag to enable runtime instrumentation using PMF
ENABLE_RUNTIME_INSTRUMENTATION := 0
# Flag to enable stack corruption protection
ENABLE_STACK_PROTECTOR := 0
# Flag to enable exception handling in EL3
EL3_EXCEPTION_HANDLING := 0
# Flag to enable Branch Target Identification.
# Internal flag not meant for direct setting.
# Use BRANCH_PROTECTION to enable BTI.
ENABLE_BTI := 0
# Flag to enable Pointer Authentication.
# Internal flag not meant for direct setting.
# Use BRANCH_PROTECTION to enable PAUTH.
ENABLE_PAUTH := 0
# Flag to enable access to the HAFGRTR_EL2 register
ENABLE_FEAT_AMUv1 := 0
# Flag to enable AMUv1p1 extension.
ENABLE_FEAT_AMUv1p1 := 0
# Flag to enable CSV2_2 extension.
ENABLE_FEAT_CSV2_2 := 0
# Flag to enable access to the HCRX_EL2 register by setting SCR_EL3.HXEn.
ENABLE_FEAT_HCX := 0
# Flag to enable access to the HDFGRTR_EL2 register
ENABLE_FEAT_FGT := 0
# Flag to enable access to the CNTPOFF_EL2 register
ENABLE_FEAT_ECV := 0
# Flag to enable use of the DIT feature.
ENABLE_FEAT_DIT := 0
# Flag to enable access to Privileged Access Never bit of PSTATE.
ENABLE_FEAT_PAN := 0
# Flag to enable access to the Random Number Generator registers
ENABLE_FEAT_RNG := 0
# Flag to enable Speculation Barrier Instruction
ENABLE_FEAT_SB := 0
# Flag to enable Secure EL-2 feature.
ENABLE_FEAT_SEL2 := 0
# Flag to enable Virtualization Host Extensions
ENABLE_FEAT_VHE := 0
# Flag to enable delayed trapping of WFE instruction (FEAT_TWED)
ENABLE_FEAT_TWED := 0
# By default BL31 encryption disabled
ENCRYPT_BL31 := 0
# By default BL32 encryption disabled
ENCRYPT_BL32 := 0
# Default dummy firmware encryption key
ENC_KEY := 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
# Default dummy nonce for firmware encryption
ENC_NONCE := 1234567890abcdef12345678
# Build flag to treat usage of deprecated platform and framework APIs as error.
ERROR_DEPRECATED := 0
# Fault injection support
FAULT_INJECTION_SUPPORT := 0
# Flag to enable architectural features detection mechanism
FEATURE_DETECTION := 0
# Byte alignment that each component in FIP is aligned to
FIP_ALIGN := 0
# Default FIP file name
FIP_NAME := fip.bin
# Default FWU_FIP file name
FWU_FIP_NAME := fwu_fip.bin
# By default firmware encryption with SSK
FW_ENC_STATUS := 0
# For Chain of Trust
GENERATE_COT := 0
# Hint platform interrupt control layer that Group 0 interrupts are for EL3. By
# default, they are for Secure EL1.
GICV2_G0_FOR_EL3 := 0
# Route External Aborts to EL3. Disabled by default; External Aborts are handled
# by lower ELs.
HANDLE_EA_EL3_FIRST := 0
# Secure hash algorithm flag, accepts 3 values: sha256, sha384 and sha512.
# The default value is sha256.
HASH_ALG := sha256
# Whether system coherency is managed in hardware, without explicit software
# operations.
HW_ASSISTED_COHERENCY := 0
# Set the default algorithm for the generation of Trusted Board Boot keys
KEY_ALG := rsa
# Set the default key size in case KEY_ALG is rsa
ifeq ($(KEY_ALG),rsa)
KEY_SIZE := 2048
endif
# Option to build TF with Measured Boot support
MEASURED_BOOT := 0
# NS timer register save and restore
NS_TIMER_SWITCH := 0
# Include lib/libc in the final image
OVERRIDE_LIBC := 0
# Build PL011 UART driver in minimal generic UART mode
PL011_GENERIC_UART := 0
# By default, consider that the platform's reset address is not programmable.
# The platform Makefile is free to override this value.
PROGRAMMABLE_RESET_ADDRESS := 0
# Flag used to choose the power state format: Extended State-ID or Original
PSCI_EXTENDED_STATE_ID := 0
# Enable RAS support
RAS_EXTENSION := 0
# By default, BL1 acts as the reset handler, not BL31
RESET_TO_BL31 := 0
# By default, clear the input registers when RESET_TO_BL31 is enabled
RESET_TO_BL31_WITH_PARAMS := 0
# For Chain of Trust
SAVE_KEYS := 0
# Software Delegated Exception support
SDEI_SUPPORT := 0
# True Random Number firmware Interface
TRNG_SUPPORT := 0
# SMCCC PCI support
SMC_PCI_SUPPORT := 0
# Whether code and read-only data should be put on separate memory pages. The
# platform Makefile is free to override this value.
SEPARATE_CODE_AND_RODATA := 0
# Put NOBITS sections (.bss, stacks, page tables, and coherent memory) in a
# separate memory region, which may be discontiguous from the rest of BL31.
SEPARATE_NOBITS_REGION := 0
# Put BL2 NOLOAD sections (.bss, stacks, page tables) in a separate memory
# region, platform Makefile is free to override this value.
SEPARATE_BL2_NOLOAD_REGION := 0
# If the BL31 image initialisation code is recalimed after use for the secondary
# cores stack
RECLAIM_INIT_CODE := 0
# SPD choice
SPD := none
# Enable the Management Mode (MM)-based Secure Partition Manager implementation
SPM_MM := 0
# Use the FF-A SPMC implementation in EL3.
SPMC_AT_EL3 := 0
# Use SPM at S-EL2 as a default config for SPMD
SPMD_SPM_AT_SEL2 := 1
# Flag to introduce an infinite loop in BL1 just before it exits into the next
# image. This is meant to help debugging the post-BL2 phase.
SPIN_ON_BL1_EXIT := 0
# Flags to build TF with Trusted Boot support
TRUSTED_BOARD_BOOT := 0
# Build option to choose whether Trusted Firmware uses Coherent memory or not.
USE_COHERENT_MEM := 1
# Build option to add debugfs support
USE_DEBUGFS := 0
# Build option to fconf based io
ARM_IO_IN_DTB := 0
# Build option to support SDEI through fconf
SDEI_IN_FCONF := 0
# Build option to support Secure Interrupt descriptors through fconf
SEC_INT_DESC_IN_FCONF := 0
# Build option to choose whether Trusted Firmware uses library at ROM
USE_ROMLIB := 0
# Build option to choose whether the xlat tables of BL images can be read-only.
# Note that this only serves as a higher level option to PLAT_RO_XLAT_TABLES,
# which is the per BL-image option that actually enables the read-only tables
# API. The reason for having this additional option is to have a common high
# level makefile where we can check for incompatible features/build options.
ALLOW_RO_XLAT_TABLES := 0
# Chain of trust.
COT := tbbr
# Use tbbr_oid.h instead of platform_oid.h
USE_TBBR_DEFS := 1
# Build verbosity
V := 0
# Whether to enable D-Cache early during warm boot. This is usually
# applicable for platforms wherein interconnect programming is not
# required to enable cache coherency after warm reset (eg: single cluster
# platforms).
WARMBOOT_ENABLE_DCACHE_EARLY := 0
# Build option to enable/disable the Statistical Profiling Extensions
ENABLE_SPE_FOR_LOWER_ELS := 1
# SPE is only supported on AArch64 so disable it on AArch32.
ifeq (${ARCH},aarch32)
override ENABLE_SPE_FOR_LOWER_ELS := 0
endif
# Include Memory Tagging Extension registers in cpu context. This must be set
# to 1 if the platform wants to use this feature in the Secure world and MTE is
# enabled at ELX.
CTX_INCLUDE_MTE_REGS := 0
ENABLE_AMU := 0
ENABLE_AMU_AUXILIARY_COUNTERS := 0
ENABLE_AMU_FCONF := 0
AMU_RESTRICT_COUNTERS := 0
# Enable SVE for non-secure world by default
ENABLE_SVE_FOR_NS := 1
# SVE is only supported on AArch64 so disable it on AArch32.
ifeq (${ARCH},aarch32)
override ENABLE_SVE_FOR_NS := 0
endif
ENABLE_SVE_FOR_SWD := 0
# Default SVE vector length to maximum architected value
SVE_VECTOR_LEN := 2048
# SME defaults to disabled
ENABLE_SME_FOR_NS := 0
ENABLE_SME_FOR_SWD := 0
# If SME is enabled then force SVE off
ifeq (${ENABLE_SME_FOR_NS},1)
override ENABLE_SVE_FOR_NS := 0
override ENABLE_SVE_FOR_SWD := 0
endif
SANITIZE_UB := off
# For ARMv8.1 (AArch64) platforms, enabling this option selects the spinlock
# implementation variant using the ARMv8.1-LSE compare-and-swap instruction.
# Default: disabled
USE_SPINLOCK_CAS := 0
# Enable Link Time Optimization
ENABLE_LTO := 0
# Build flag to include EL2 registers in cpu context save and restore during
# S-EL2 firmware entry/exit. This flag is to be used with SPD=spmd option.
# Default is 0.
CTX_INCLUDE_EL2_REGS := 0
# Enable Memory tag extension which is supported for architecture greater
# than Armv8.5-A
# By default it is set to "no"
SUPPORT_STACK_MEMTAG := no
# Select workaround for AT speculative behaviour.
ERRATA_SPECULATIVE_AT := 0
# Trap RAS error record access from lower EL
RAS_TRAP_LOWER_EL_ERR_ACCESS := 0
# Build option to create cot descriptors using fconf
COT_DESC_IN_DTB := 0
# Build option to provide openssl directory path
OPENSSL_DIR := /usr
# Select the openssl binary provided in OPENSSL_DIR variable
ifeq ("$(wildcard ${OPENSSL_DIR}/bin)", "")
OPENSSL_BIN_PATH = ${OPENSSL_DIR}/apps
else
OPENSSL_BIN_PATH = ${OPENSSL_DIR}/bin
endif
# Build option to use the SP804 timer instead of the generic one
USE_SP804_TIMER := 0
# Build option to define number of firmware banks, used in firmware update
# metadata structure.
NR_OF_FW_BANKS := 2
# Build option to define number of images in firmware bank, used in firmware
# update metadata structure.
NR_OF_IMAGES_IN_FW_BANK := 1
# Disable Firmware update support by default
PSA_FWU_SUPPORT := 0
# By default, disable access of trace buffer control registers from NS
# lower ELs i.e. NS-EL2, or NS-EL1 if NS-EL2 implemented but unused
# if FEAT_TRBE is implemented.
# Note FEAT_TRBE is only supported on AArch64 - therefore do not enable in
# AArch32.
ifneq (${ARCH},aarch32)
ENABLE_TRBE_FOR_NS := 0
else
override ENABLE_TRBE_FOR_NS := 0
endif
# By default, disable access to branch record buffer control registers from NS
# lower ELs i.e. NS-EL2, or NS-EL1 if NS-EL2 implemented but unused
# if FEAT_BRBE is implemented.
ENABLE_BRBE_FOR_NS := 0
# By default, disable access of trace system registers from NS lower
# ELs i.e. NS-EL2, or NS-EL1 if NS-EL2 implemented but unused if
# system register trace is implemented.
ENABLE_SYS_REG_TRACE_FOR_NS := 0
# By default, disable trace filter control registers access to NS
# lower ELs, i.e. NS-EL2, or NS-EL1 if NS-EL2 implemented but unused
# if FEAT_TRF is implemented.
ENABLE_TRF_FOR_NS := 0
# In v8.6+ platforms with delayed trapping of WFE being supported
# via FEAT_TWED, this flag takes the delay value to be set in the
# SCR_EL3.TWEDEL(4bit) field, when FEAT_TWED is implemented.
# By default it takes 0, and need to be updated by the platforms.
TWED_DELAY := 0
# By default, disable the mocking of RSS provided services
PLAT_RSS_NOT_SUPPORTED := 0
# Dynamic Root of Trust for Measurement support
DRTM_SUPPORT := 0