platform_build/core/board_config.mk
Cole Faust 985fa48a98 Make starlark board configuration work with sdk_phone_x86_64
The main issue with board configuration up till this
cl was that it didn't have access to the product configuration
variables. Pass those in by dumping the make variables to a
temporary file, which is then converted to RBC, loaded,
and passed to the starlark board config..

Bug: 201700692
Test: build/bazel/ci/rbc_product_config.sh -pb sdk_phone_x86_64-userdebug
Change-Id: I9a4946b970ca43c5b5f53a6c507ad2c1a2eca61e
2021-11-04 16:13:24 -07:00

1003 lines
40 KiB
Makefile

#
# Copyright (C) 2019 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# ###############################################################
# This file includes BoardConfig.mk for the device being built,
# and checks the variable defined therein.
# ###############################################################
_board_strip_readonly_list :=
_board_strip_readonly_list += BOARD_BOOTLOADER_IN_UPDATE_PACKAGE
_board_strip_readonly_list += BOARD_EGL_CFG
_board_strip_readonly_list += BOARD_HAVE_BLUETOOTH
_board_strip_readonly_list += BOARD_INSTALLER_CMDLINE
_board_strip_readonly_list += BOARD_KERNEL_CMDLINE
_board_strip_readonly_list += BOARD_BOOT_HEADER_VERSION
_board_strip_readonly_list += BOARD_BOOTCONFIG
_board_strip_readonly_list += BOARD_KERNEL_BASE
_board_strip_readonly_list += BOARD_USES_GENERIC_AUDIO
_board_strip_readonly_list += BOARD_USES_RECOVERY_AS_BOOT
_board_strip_readonly_list += BOARD_VENDOR_USE_AKMD
_board_strip_readonly_list += BOARD_WPA_SUPPLICANT_DRIVER
_board_strip_readonly_list += BOARD_WLAN_DEVICE
_board_strip_readonly_list += TARGET_BOARD_PLATFORM
_board_strip_readonly_list += TARGET_BOARD_PLATFORM_GPU
_board_strip_readonly_list += TARGET_BOOTLOADER_BOARD_NAME
_board_strip_readonly_list += TARGET_FS_CONFIG_GEN
_board_strip_readonly_list += TARGET_NO_BOOTLOADER
_board_strip_readonly_list += TARGET_NO_KERNEL
_board_strip_readonly_list += TARGET_NO_RECOVERY
_board_strip_readonly_list += TARGET_NO_RADIOIMAGE
_board_strip_readonly_list += TARGET_HARDWARE_3D
_board_strip_readonly_list += WITH_DEXPREOPT
# Arch variables
_board_strip_readonly_list += TARGET_ARCH
_board_strip_readonly_list += TARGET_ARCH_VARIANT
_board_strip_readonly_list += TARGET_CPU_ABI
_board_strip_readonly_list += TARGET_CPU_ABI2
_board_strip_readonly_list += TARGET_CPU_VARIANT
_board_strip_readonly_list += TARGET_CPU_VARIANT_RUNTIME
_board_strip_readonly_list += TARGET_2ND_ARCH
_board_strip_readonly_list += TARGET_2ND_ARCH_VARIANT
_board_strip_readonly_list += TARGET_2ND_CPU_ABI
_board_strip_readonly_list += TARGET_2ND_CPU_ABI2
_board_strip_readonly_list += TARGET_2ND_CPU_VARIANT
_board_strip_readonly_list += TARGET_2ND_CPU_VARIANT_RUNTIME
# TARGET_ARCH_SUITE is an alternative arch configuration to TARGET_ARCH (and related variables),
# that can be used for soong-only builds to build for several architectures at once.
# Allowed values currently are "ndk" and "mainline_sdk".
_board_strip_readonly_list += TARGET_ARCH_SUITE
# File system variables
_board_strip_readonly_list += BOARD_FLASH_BLOCK_SIZE
_board_strip_readonly_list += BOARD_BOOTIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_RECOVERYIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_SYSTEMIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_SYSTEMIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_USERDATAIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_USERDATAIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_CACHEIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_VENDORIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_PRODUCTIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_SYSTEM_EXTIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_ODMIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_ODMIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_VENDOR_DLKMIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_ODM_DLKMIMAGE_PARTITION_SIZE
_board_strip_readonly_list += BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE
_board_strip_readonly_list += BOARD_PVMFWIMAGE_PARTITION_SIZE
# Logical partitions related variables.
_board_strip_readonly_list += BOARD_SYSTEMIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_VENDORIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_ODMIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_VENDOR_DLKMIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_ODM_DLKMIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_PRODUCTIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_SYSTEM_EXTIMAGE_PARTITION_RESERVED_SIZE
_board_strip_readonly_list += BOARD_SUPER_PARTITION_SIZE
_board_strip_readonly_list += BOARD_SUPER_PARTITION_GROUPS
# Kernel related variables
_board_strip_readonly_list += BOARD_KERNEL_BINARIES
_board_strip_readonly_list += BOARD_KERNEL_MODULE_INTERFACE_VERSIONS
# Variables related to generic kernel image (GKI) and generic boot image
# - BOARD_USES_GENERIC_KERNEL_IMAGE is the global variable that defines if the
# board uses GKI and generic boot image.
# Update mechanism of the boot image is not enforced by this variable.
# - BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE controls whether the recovery image
# contains a kernel or not.
# - BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT controls whether ramdisk
# recovery resources are built to vendor_boot.
# - BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT controls whether recovery
# resources are built as a standalone recovery ramdisk in vendor_boot.
# - BOARD_MOVE_GSI_AVB_KEYS_TO_VENDOR_BOOT controls whether GSI AVB keys are
# built to vendor_boot.
# - BOARD_COPY_BOOT_IMAGE_TO_TARGET_FILES controls whether boot images in $OUT are added
# to target files package directly.
_board_strip_readonly_list += BOARD_USES_GENERIC_KERNEL_IMAGE
_board_strip_readonly_list += BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE
_board_strip_readonly_list += BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT
_board_strip_readonly_list += BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT
_board_strip_readonly_list += BOARD_MOVE_GSI_AVB_KEYS_TO_VENDOR_BOOT
_board_strip_readonly_list += BOARD_COPY_BOOT_IMAGE_TO_TARGET_FILES
# Defines the list of logical vendor ramdisk names to build or include in vendor_boot.
_board_strip_readonly_list += BOARD_VENDOR_RAMDISK_FRAGMENTS
_build_broken_var_list := \
BUILD_BROKEN_DUP_RULES \
BUILD_BROKEN_DUP_SYSPROP \
BUILD_BROKEN_ELF_PREBUILT_PRODUCT_COPY_FILES \
BUILD_BROKEN_ENFORCE_SYSPROP_OWNER \
BUILD_BROKEN_MISSING_REQUIRED_MODULES \
BUILD_BROKEN_OUTSIDE_INCLUDE_DIRS \
BUILD_BROKEN_PREBUILT_ELF_FILES \
BUILD_BROKEN_TREBLE_SYSPROP_NEVERALLOW \
BUILD_BROKEN_USES_NETWORK \
BUILD_BROKEN_VENDOR_PROPERTY_NAMESPACE \
BUILD_BROKEN_VINTF_PRODUCT_COPY_FILES \
_build_broken_var_list += \
$(foreach m,$(AVAILABLE_BUILD_MODULE_TYPES) \
$(DEFAULT_WARNING_BUILD_MODULE_TYPES) \
$(DEFAULT_ERROR_BUILD_MODULE_TYPES), \
BUILD_BROKEN_USES_$(m))
_board_true_false_vars := $(_build_broken_var_list)
_board_strip_readonly_list += $(_build_broken_var_list) \
BUILD_BROKEN_NINJA_USES_ENV_VARS
# Conditional to building on linux, as dex2oat currently does not work on darwin.
ifeq ($(HOST_OS),linux)
WITH_DEXPREOPT := true
endif
# ###############################################################
# Broken build defaults
# ###############################################################
$(foreach v,$(_build_broken_var_list),$(eval $(v) :=))
BUILD_BROKEN_NINJA_USES_ENV_VARS :=
# Boards may be defined under $(SRC_TARGET_DIR)/board/$(TARGET_DEVICE)
# or under vendor/*/$(TARGET_DEVICE). Search in both places, but
# make sure only one exists.
# Real boards should always be associated with an OEM vendor.
ifdef TARGET_DEVICE_DIR
ifneq ($(origin TARGET_DEVICE_DIR),command line)
$(error TARGET_DEVICE_DIR may not be set manually)
endif
board_config_mk := $(TARGET_DEVICE_DIR)/BoardConfig.mk
else
board_config_mk := \
$(strip $(sort $(wildcard \
$(SRC_TARGET_DIR)/board/$(TARGET_DEVICE)/BoardConfig.mk \
$(shell test -d device && find -L device -maxdepth 4 -path '*/$(TARGET_DEVICE)/BoardConfig.mk') \
$(shell test -d vendor && find -L vendor -maxdepth 4 -path '*/$(TARGET_DEVICE)/BoardConfig.mk') \
)))
ifeq ($(board_config_mk),)
$(error No config file found for TARGET_DEVICE $(TARGET_DEVICE))
endif
ifneq ($(words $(board_config_mk)),1)
$(error Multiple board config files for TARGET_DEVICE $(TARGET_DEVICE): $(board_config_mk))
endif
TARGET_DEVICE_DIR := $(patsubst %/,%,$(dir $(board_config_mk)))
.KATI_READONLY := TARGET_DEVICE_DIR
endif
# Dumps all variables that match [A-Z][A-Z0-9_]* to the file at $(1)
# It is used to print only the variables that are likely to be relevant to the
# board configuration.
define dump-public-variables
$(file >$(OUT_DIR)/dump-public-variables-temp.txt,$(subst $(space),$(newline),$(.VARIABLES)))\
$(file >$(1),\
$(foreach v, $(shell grep -he "^[A-Z][A-Z0-9_]*$$" $(OUT_DIR)/dump-public-variables-temp.txt | grep -vhe "^SOONG_"),\
$(v) := $(strip $($(v)))$(newline)))
endef
# TODO(colefaust) change this if to RBC_PRODUCT_CONFIG when
# the board configuration is known to work on everything
# the product config works on.
ifndef RBC_BOARD_CONFIG
include $(board_config_mk)
else
$(shell mkdir -p $(OUT_DIR)/rbc)
$(call dump-public-variables, $(OUT_DIR)/rbc/make_vars_pre_board_config.mk)
$(shell $(OUT_DIR)/soong/mk2rbc \
--mode=write -r --outdir $(OUT_DIR)/rbc \
--boardlauncher=$(OUT_DIR)/rbc/boardlauncher.rbc \
--input_variables=$(OUT_DIR)/rbc/make_vars_pre_board_config.mk \
$(board_config_mk))
ifneq ($(.SHELLSTATUS),0)
$(error board configuration converter failed: $(.SHELLSTATUS))
endif
$(shell $(OUT_DIR)/soong/rbcrun \
RBC_OUT="make,global" \
$(OUT_DIR)/rbc/boardlauncher.rbc \
>$(OUT_DIR)/rbc/rbc_board_config_results.mk)
ifneq ($(.SHELLSTATUS),0)
$(error board configuration runner failed: $(.SHELLSTATUS))
endif
include $(OUT_DIR)/rbc/rbc_board_config_results.mk
endif
ifneq (,$(and $(TARGET_ARCH),$(TARGET_ARCH_SUITE)))
$(error $(board_config_mk) erroneously sets both TARGET_ARCH and TARGET_ARCH_SUITE)
endif
ifeq ($(TARGET_ARCH)$(TARGET_ARCH_SUITE),)
$(error Target architectures not defined by board config: $(board_config_mk))
endif
ifeq ($(TARGET_CPU_ABI)$(TARGET_ARCH_SUITE),)
$(error TARGET_CPU_ABI not defined by board config: $(board_config_mk))
endif
ifneq ($(MALLOC_IMPL),)
$(warning *** Unsupported option MALLOC_IMPL defined by board config: $(board_config_mk).)
$(error Use `MALLOC_SVELTE := true` to configure jemalloc for low-memory)
endif
board_config_mk :=
# Clean up and verify BoardConfig variables
$(foreach var,$(_board_strip_readonly_list),$(eval $(var) := $$(strip $$($(var)))))
$(foreach var,$(_board_true_false_vars), \
$(if $(filter-out true false,$($(var))), \
$(error Valid values of $(var) are "true", "false", and "". Not "$($(var))")))
# Default *_CPU_VARIANT_RUNTIME to CPU_VARIANT if unspecified.
TARGET_CPU_VARIANT_RUNTIME := $(or $(TARGET_CPU_VARIANT_RUNTIME),$(TARGET_CPU_VARIANT))
TARGET_2ND_CPU_VARIANT_RUNTIME := $(or $(TARGET_2ND_CPU_VARIANT_RUNTIME),$(TARGET_2ND_CPU_VARIANT))
ifdef TARGET_ARCH
# The combo makefiles check and set defaults for various CPU configuration
combo_target := TARGET_
combo_2nd_arch_prefix :=
include $(BUILD_SYSTEM)/combo/select.mk
endif
ifdef TARGET_2ND_ARCH
combo_2nd_arch_prefix := $(TARGET_2ND_ARCH_VAR_PREFIX)
include $(BUILD_SYSTEM)/combo/select.mk
endif
.KATI_READONLY := $(_board_strip_readonly_list)
INTERNAL_KERNEL_CMDLINE := $(BOARD_KERNEL_CMDLINE)
ifneq (,$(BOARD_BOOTCONFIG))
INTERNAL_KERNEL_CMDLINE += bootconfig
INTERNAL_BOOTCONFIG := $(BOARD_BOOTCONFIG)
endif
ifneq ($(filter %64,$(TARGET_ARCH)),)
TARGET_IS_64_BIT := true
endif
ifeq (,$(filter true,$(TARGET_SUPPORTS_32_BIT_APPS) $(TARGET_SUPPORTS_64_BIT_APPS)))
TARGET_SUPPORTS_32_BIT_APPS := true
endif
# Quick check to warn about likely cryptic errors later in the build.
ifeq ($(TARGET_IS_64_BIT),true)
ifeq (,$(filter true false,$(TARGET_SUPPORTS_64_BIT_APPS)))
$(error Building a 32-bit-app-only product on a 64-bit device. \
If this is intentional, set TARGET_SUPPORTS_64_BIT_APPS := false)
endif
endif
# "ro.product.cpu.abilist32" and "ro.product.cpu.abilist64" are
# comma separated lists of the 32 and 64 bit ABIs (in order of
# preference) that the target supports. If TARGET_CPU_ABI_LIST_{32,64}_BIT
# are defined by the board config, we use them. Else, we construct
# these lists based on whether TARGET_IS_64_BIT is set.
#
# Note that this assumes that the 2ND_CPU_ABI for a 64 bit target
# is always 32 bits. If this isn't the case, these variables should
# be overriden in the board configuration.
#
# Similarly, TARGET_NATIVE_BRIDGE_2ND_ABI for a 64 bit target is always
# 32 bits. Note that all CPU_ABIs are preferred over all NATIVE_BRIDGE_ABIs.
_target_native_bridge_abi_list_32_bit :=
_target_native_bridge_abi_list_64_bit :=
ifeq (,$(TARGET_CPU_ABI_LIST_64_BIT))
ifeq (true|true,$(TARGET_IS_64_BIT)|$(TARGET_SUPPORTS_64_BIT_APPS))
TARGET_CPU_ABI_LIST_64_BIT := $(TARGET_CPU_ABI) $(TARGET_CPU_ABI2)
_target_native_bridge_abi_list_64_bit := $(TARGET_NATIVE_BRIDGE_ABI)
endif
endif
# "arm64-v8a-hwasan", the ABI for libraries compiled with HWASAN, is supported
# in all builds with SANITIZE_TARGET=hwaddress.
ifneq ($(filter hwaddress,$(SANITIZE_TARGET)),)
ifneq ($(filter arm64-v8a,$(TARGET_CPU_ABI_LIST_64_BIT)),)
TARGET_CPU_ABI_LIST_64_BIT := arm64-v8a-hwasan $(TARGET_CPU_ABI_LIST_64_BIT)
endif
endif
ifeq (,$(TARGET_CPU_ABI_LIST_32_BIT))
ifneq (true,$(TARGET_IS_64_BIT))
TARGET_CPU_ABI_LIST_32_BIT := $(TARGET_CPU_ABI) $(TARGET_CPU_ABI2)
_target_native_bridge_abi_list_32_bit := $(TARGET_NATIVE_BRIDGE_ABI)
else
ifeq (true,$(TARGET_SUPPORTS_32_BIT_APPS))
# For a 64 bit target, assume that the 2ND_CPU_ABI
# is a 32 bit ABI.
TARGET_CPU_ABI_LIST_32_BIT := $(TARGET_2ND_CPU_ABI) $(TARGET_2ND_CPU_ABI2)
_target_native_bridge_abi_list_32_bit := $(TARGET_NATIVE_BRIDGE_2ND_ABI)
endif
endif
endif
# "ro.product.cpu.abilist" is a comma separated list of ABIs (in order
# of preference) that the target supports. If a TARGET_CPU_ABI_LIST
# is specified by the board configuration, we use that. If not, we
# build a list out of the TARGET_CPU_ABIs specified by the config.
# Add NATIVE_BRIDGE_ABIs at the end to keep order of preference.
ifeq (,$(TARGET_CPU_ABI_LIST))
TARGET_CPU_ABI_LIST := $(TARGET_CPU_ABI_LIST_64_BIT) $(TARGET_CPU_ABI_LIST_32_BIT) \
$(_target_native_bridge_abi_list_64_bit) $(_target_native_bridge_abi_list_32_bit)
endif
# Add NATIVE_BRIDGE_ABIs at the end of 32 and 64 bit CPU_ABIs to keep order of preference.
TARGET_CPU_ABI_LIST_32_BIT += $(_target_native_bridge_abi_list_32_bit)
TARGET_CPU_ABI_LIST_64_BIT += $(_target_native_bridge_abi_list_64_bit)
# Strip whitespace from the ABI list string.
TARGET_CPU_ABI_LIST := $(subst $(space),$(comma),$(strip $(TARGET_CPU_ABI_LIST)))
TARGET_CPU_ABI_LIST_32_BIT := $(subst $(space),$(comma),$(strip $(TARGET_CPU_ABI_LIST_32_BIT)))
TARGET_CPU_ABI_LIST_64_BIT := $(subst $(space),$(comma),$(strip $(TARGET_CPU_ABI_LIST_64_BIT)))
# Check if config about image building is valid or not.
define check_image_config
$(eval _uc_name := $(call to-upper,$(1))) \
$(eval _lc_name := $(call to-lower,$(1))) \
$(if $(filter $(_lc_name),$(TARGET_COPY_OUT_$(_uc_name))), \
$(if $(BOARD_USES_$(_uc_name)IMAGE),, \
$(error If TARGET_COPY_OUT_$(_uc_name) is '$(_lc_name)', either BOARD_PREBUILT_$(_uc_name)IMAGE or BOARD_$(_uc_name)IMAGE_FILE_SYSTEM_TYPE must be set)), \
$(if $(BOARD_USES_$(_uc_name)IMAGE), \
$(error TARGET_COPY_OUT_$(_uc_name) must be set to '$(_lc_name)' to use a $(_lc_name) image))) \
$(eval _uc_name :=) \
$(eval _lc_name :=)
endef
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_RAMDISK
ifeq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true)
TARGET_COPY_OUT_RAMDISK := $(TARGET_COPY_OUT_ROOT)
endif
###########################################
# Configure whether we're building the system image
BUILDING_SYSTEM_IMAGE := true
ifeq ($(PRODUCT_BUILD_SYSTEM_IMAGE),)
ifndef PRODUCT_USE_DYNAMIC_PARTITION_SIZE
ifndef BOARD_SYSTEMIMAGE_PARTITION_SIZE
BUILDING_SYSTEM_IMAGE :=
endif
endif
else ifeq ($(PRODUCT_BUILD_SYSTEM_IMAGE),false)
BUILDING_SYSTEM_IMAGE :=
endif
.KATI_READONLY := BUILDING_SYSTEM_IMAGE
# Are we building a system_other image
BUILDING_SYSTEM_OTHER_IMAGE :=
ifeq ($(PRODUCT_BUILD_SYSTEM_OTHER_IMAGE),)
ifdef BUILDING_SYSTEM_IMAGE
ifeq ($(BOARD_USES_SYSTEM_OTHER_ODEX),true)
BUILDING_SYSTEM_OTHER_IMAGE := true
endif
endif
else ifeq ($(PRODUCT_BUILD_SYSTEM_OTHER_IMAGE),true)
BUILDING_SYSTEM_OTHER_IMAGE := true
ifndef BUILDING_SYSTEM_IMAGE
$(error PRODUCT_BUILD_SYSTEM_OTHER_IMAGE = true requires building the system image)
endif
endif
.KATI_READONLY := BUILDING_SYSTEM_OTHER_IMAGE
# Are we building a cache image
BUILDING_CACHE_IMAGE :=
ifeq ($(PRODUCT_BUILD_CACHE_IMAGE),)
ifdef BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE
BUILDING_CACHE_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_CACHE_IMAGE),true)
BUILDING_CACHE_IMAGE := true
ifndef BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_CACHE_IMAGE set to true, but BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
.KATI_READONLY := BUILDING_CACHE_IMAGE
# Are we building a boot image
BUILDING_BOOT_IMAGE :=
ifeq ($(PRODUCT_BUILD_BOOT_IMAGE),)
ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true)
BUILDING_BOOT_IMAGE :=
else ifdef BOARD_PREBUILT_BOOTIMAGE
BUILDING_BOOT_IMAGE :=
else ifdef BOARD_BOOTIMAGE_PARTITION_SIZE
BUILDING_BOOT_IMAGE := true
else ifneq (,$(foreach kernel,$(BOARD_KERNEL_BINARIES),$(BOARD_$(call to-upper,$(kernel))_BOOTIMAGE_PARTITION_SIZE)))
BUILDING_BOOT_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_BOOT_IMAGE),true)
ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true)
$(warning *** PRODUCT_BUILD_BOOT_IMAGE is true, but so is BOARD_USES_RECOVERY_AS_BOOT.)
$(warning *** Skipping building boot image.)
BUILDING_BOOT_IMAGE :=
else
BUILDING_BOOT_IMAGE := true
endif
endif
.KATI_READONLY := BUILDING_BOOT_IMAGE
# Are we building a recovery image
BUILDING_RECOVERY_IMAGE :=
ifeq ($(PRODUCT_BUILD_RECOVERY_IMAGE),)
ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true)
BUILDING_RECOVERY_IMAGE := true
else ifeq ($(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT),true)
# Set to true to build recovery resources for vendor_boot
BUILDING_RECOVERY_IMAGE := true
else ifdef BOARD_RECOVERYIMAGE_PARTITION_SIZE
ifeq (,$(filter true, $(TARGET_NO_KERNEL) $(TARGET_NO_RECOVERY)))
BUILDING_RECOVERY_IMAGE := true
endif
endif
else ifeq ($(PRODUCT_BUILD_RECOVERY_IMAGE),true)
BUILDING_RECOVERY_IMAGE := true
endif
.KATI_READONLY := BUILDING_RECOVERY_IMAGE
# Are we building a vendor boot image
BUILDING_VENDOR_BOOT_IMAGE :=
ifdef BOARD_BOOT_HEADER_VERSION
ifneq ($(call math_gt_or_eq,$(BOARD_BOOT_HEADER_VERSION),3),)
ifeq ($(PRODUCT_BUILD_VENDOR_BOOT_IMAGE),)
BUILDING_VENDOR_BOOT_IMAGE := true
else ifeq ($(PRODUCT_BUILD_VENDOR_BOOT_IMAGE),true)
BUILDING_VENDOR_BOOT_IMAGE := true
endif
endif
endif
.KATI_READONLY := BUILDING_VENDOR_BOOT_IMAGE
# Are we building a ramdisk image
BUILDING_RAMDISK_IMAGE := true
ifeq ($(PRODUCT_BUILD_RAMDISK_IMAGE),)
# TODO: Be smarter about this. This probably only needs to happen when one of the follow is true:
# BUILDING_BOOT_IMAGE
# BUILDING_RECOVERY_IMAGE
else ifeq ($(PRODUCT_BUILD_RAMDISK_IMAGE),false)
BUILDING_RAMDISK_IMAGE :=
endif
.KATI_READONLY := BUILDING_RAMDISK_IMAGE
# Are we building a debug vendor_boot image
BUILDING_DEBUG_VENDOR_BOOT_IMAGE :=
# Can't build vendor_boot-debug.img if BOARD_BUILD_SYSTEM_ROOT_IMAGE is true,
# because building debug vendor_boot image requires a ramdisk.
ifeq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true)
ifeq ($(PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE),true)
$(warning PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE is true, but so is BOARD_BUILD_SYSTEM_ROOT_IMAGE. \
Skip building the debug vendor_boot image.)
endif
# Can't build vendor_boot-debug.img if we're not building a ramdisk.
else ifndef BUILDING_RAMDISK_IMAGE
ifeq ($(PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE),true)
$(warning PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE is true, but we're not building a ramdisk image. \
Skip building the debug vendor_boot image.)
endif
# Can't build vendor_boot-debug.img if we're not building a vendor_boot.img.
else ifndef BUILDING_VENDOR_BOOT_IMAGE
ifeq ($(PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE),true)
$(warning PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE is true, but we're not building a vendor_boot image. \
Skip building the debug vendor_boot image.)
endif
else
ifeq ($(PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE),)
BUILDING_DEBUG_VENDOR_BOOT_IMAGE := true
else ifeq ($(PRODUCT_BUILD_DEBUG_VENDOR_BOOT_IMAGE),true)
BUILDING_DEBUG_VENDOR_BOOT_IMAGE := true
endif
endif
.KATI_READONLY := BUILDING_DEBUG_VENDOR_BOOT_IMAGE
_has_boot_img_artifact :=
ifneq ($(strip $(TARGET_NO_KERNEL)),true)
ifdef BUILDING_BOOT_IMAGE
_has_boot_img_artifact := true
endif
# BUILDING_RECOVERY_IMAGE && BOARD_USES_RECOVERY_AS_BOOT implies that
# recovery is being built with the file name *boot.img*, which still counts
# as "building boot.img".
ifdef BUILDING_RECOVERY_IMAGE
ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true)
_has_boot_img_artifact := true
endif
endif
endif
# Are we building a debug boot image
BUILDING_DEBUG_BOOT_IMAGE :=
# Can't build boot-debug.img if BOARD_BUILD_SYSTEM_ROOT_IMAGE is true,
# because building debug boot image requires a ramdisk.
ifeq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true)
ifeq ($(PRODUCT_BUILD_DEBUG_BOOT_IMAGE),true)
$(warning PRODUCT_BUILD_DEBUG_BOOT_IMAGE is true, but so is BOARD_BUILD_SYSTEM_ROOT_IMAGE. \
Skip building the debug boot image.)
endif
# Can't build boot-debug.img if we're not building a ramdisk.
else ifndef BUILDING_RAMDISK_IMAGE
ifeq ($(PRODUCT_BUILD_DEBUG_BOOT_IMAGE),true)
$(warning PRODUCT_BUILD_DEBUG_BOOT_IMAGE is true, but we're not building a ramdisk image. \
Skip building the debug boot image.)
endif
# Can't build boot-debug.img if we're not building a boot.img.
else ifndef _has_boot_img_artifact
ifeq ($(PRODUCT_BUILD_DEBUG_BOOT_IMAGE),true)
$(warning PRODUCT_BUILD_DEBUG_BOOT_IMAGE is true, but we're not building a boot image. \
Skip building the debug boot image.)
endif
else
ifeq ($(PRODUCT_BUILD_DEBUG_BOOT_IMAGE),)
BUILDING_DEBUG_BOOT_IMAGE := true
# Don't build boot-debug.img if we're already building vendor_boot-debug.img.
ifdef BUILDING_DEBUG_VENDOR_BOOT_IMAGE
BUILDING_DEBUG_BOOT_IMAGE :=
endif
else ifeq ($(PRODUCT_BUILD_DEBUG_BOOT_IMAGE),true)
BUILDING_DEBUG_BOOT_IMAGE := true
endif
endif
.KATI_READONLY := BUILDING_DEBUG_BOOT_IMAGE
_has_boot_img_artifact :=
# Are we building a userdata image
BUILDING_USERDATA_IMAGE :=
ifeq ($(PRODUCT_BUILD_USERDATA_IMAGE),)
ifdef BOARD_USERDATAIMAGE_PARTITION_SIZE
BUILDING_USERDATA_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_USERDATA_IMAGE),true)
BUILDING_USERDATA_IMAGE := true
endif
.KATI_READONLY := BUILDING_USERDATA_IMAGE
# Are we building a vbmeta image
BUILDING_VBMETA_IMAGE := true
ifeq ($(PRODUCT_BUILD_VBMETA_IMAGE),false)
BUILDING_VBMETA_IMAGE :=
endif
.KATI_READONLY := BUILDING_VBMETA_IMAGE
# Are we building a super_empty image
BUILDING_SUPER_EMPTY_IMAGE :=
ifeq ($(PRODUCT_BUILD_SUPER_EMPTY_IMAGE),)
ifeq (true,$(PRODUCT_USE_DYNAMIC_PARTITIONS))
ifneq ($(BOARD_SUPER_PARTITION_SIZE),)
BUILDING_SUPER_EMPTY_IMAGE := true
endif
endif
else ifeq ($(PRODUCT_BUILD_SUPER_EMPTY_IMAGE),true)
ifneq (true,$(PRODUCT_USE_DYNAMIC_PARTITIONS))
$(error PRODUCT_BUILD_SUPER_EMPTY_IMAGE set to true, but PRODUCT_USE_DYNAMIC_PARTITIONS is not true)
endif
ifeq ($(BOARD_SUPER_PARTITION_SIZE),)
$(error PRODUCT_BUILD_SUPER_EMPTY_IMAGE set to true, but BOARD_SUPER_PARTITION_SIZE is not defined)
endif
BUILDING_SUPER_EMPTY_IMAGE := true
endif
.KATI_READONLY := BUILDING_SUPER_EMPTY_IMAGE
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_VENDOR
ifeq ($(TARGET_COPY_OUT_VENDOR),$(_vendor_path_placeholder))
TARGET_COPY_OUT_VENDOR := system/vendor
else ifeq ($(filter vendor system/vendor,$(TARGET_COPY_OUT_VENDOR)),)
$(error TARGET_COPY_OUT_VENDOR must be either 'vendor' or 'system/vendor', seeing '$(TARGET_COPY_OUT_VENDOR)'.)
endif
PRODUCT_COPY_FILES := $(subst $(_vendor_path_placeholder),$(TARGET_COPY_OUT_VENDOR),$(PRODUCT_COPY_FILES))
BOARD_USES_VENDORIMAGE :=
ifdef BOARD_PREBUILT_VENDORIMAGE
BOARD_USES_VENDORIMAGE := true
endif
ifdef BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE
BOARD_USES_VENDORIMAGE := true
endif
# TODO(b/137169253): For now, some AOSP targets build with prebuilt vendor image.
# But target's BOARD_PREBUILT_VENDORIMAGE is not filled.
ifeq ($(TARGET_COPY_OUT_VENDOR),vendor)
BOARD_USES_VENDORIMAGE := true
else ifdef BOARD_USES_VENDORIMAGE
$(error TARGET_COPY_OUT_VENDOR must be set to 'vendor' to use a vendor image)
endif
.KATI_READONLY := BOARD_USES_VENDORIMAGE
BUILDING_VENDOR_IMAGE :=
ifeq ($(PRODUCT_BUILD_VENDOR_IMAGE),)
ifdef BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE
BUILDING_VENDOR_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_VENDOR_IMAGE),true)
BUILDING_VENDOR_IMAGE := true
ifndef BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_VENDOR_IMAGE set to true, but BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
ifdef BOARD_PREBUILT_VENDORIMAGE
BUILDING_VENDOR_IMAGE :=
endif
.KATI_READONLY := BUILDING_VENDOR_IMAGE
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_PRODUCT
ifeq ($(TARGET_COPY_OUT_PRODUCT),$(_product_path_placeholder))
TARGET_COPY_OUT_PRODUCT := system/product
else ifeq ($(filter product system/product,$(TARGET_COPY_OUT_PRODUCT)),)
$(error TARGET_COPY_OUT_PRODUCT must be either 'product' or 'system/product', seeing '$(TARGET_COPY_OUT_PRODUCT)'.)
endif
PRODUCT_COPY_FILES := $(subst $(_product_path_placeholder),$(TARGET_COPY_OUT_PRODUCT),$(PRODUCT_COPY_FILES))
BOARD_USES_PRODUCTIMAGE :=
ifdef BOARD_PREBUILT_PRODUCTIMAGE
BOARD_USES_PRODUCTIMAGE := true
endif
ifdef BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE
BOARD_USES_PRODUCTIMAGE := true
endif
$(call check_image_config,product)
.KATI_READONLY := BOARD_USES_PRODUCTIMAGE
BUILDING_PRODUCT_IMAGE :=
ifeq ($(PRODUCT_BUILD_PRODUCT_IMAGE),)
ifdef BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE
BUILDING_PRODUCT_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_PRODUCT_IMAGE),true)
BUILDING_PRODUCT_IMAGE := true
ifndef BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_PRODUCT_IMAGE set to true, but BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
ifdef BOARD_PREBUILT_PRODUCTIMAGE
BUILDING_PRODUCT_IMAGE :=
endif
.KATI_READONLY := BUILDING_PRODUCT_IMAGE
###########################################
# TODO(b/135957588) TARGET_COPY_OUT_PRODUCT_SERVICES will be set to
# TARGET_COPY_OUT_PRODUCT as a workaround.
TARGET_COPY_OUT_PRODUCT_SERVICES := $(TARGET_COPY_OUT_PRODUCT)
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_SYSTEM_EXT
ifeq ($(TARGET_COPY_OUT_SYSTEM_EXT),$(_system_ext_path_placeholder))
TARGET_COPY_OUT_SYSTEM_EXT := system/system_ext
else ifeq ($(filter system_ext system/system_ext,$(TARGET_COPY_OUT_SYSTEM_EXT)),)
$(error TARGET_COPY_OUT_SYSTEM_EXT must be either 'system_ext' or 'system/system_ext', seeing '$(TARGET_COPY_OUT_SYSTEM_EXT)'.)
endif
PRODUCT_COPY_FILES := $(subst $(_system_ext_path_placeholder),$(TARGET_COPY_OUT_SYSTEM_EXT),$(PRODUCT_COPY_FILES))
BOARD_USES_SYSTEM_EXTIMAGE :=
ifdef BOARD_PREBUILT_SYSTEM_EXTIMAGE
BOARD_USES_SYSTEM_EXTIMAGE := true
endif
ifdef BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE
BOARD_USES_SYSTEM_EXTIMAGE := true
endif
$(call check_image_config,system_ext)
.KATI_READONLY := BOARD_USES_SYSTEM_EXTIMAGE
BUILDING_SYSTEM_EXT_IMAGE :=
ifeq ($(PRODUCT_BUILD_SYSTEM_EXT_IMAGE),)
ifdef BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE
BUILDING_SYSTEM_EXT_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_SYSTEM_EXT_IMAGE),true)
BUILDING_SYSTEM_EXT_IMAGE := true
ifndef BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_SYSTEM_EXT_IMAGE set to true, but BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
ifdef BOARD_PREBUILT_SYSTEM_EXTIMAGE
BUILDING_SYSTEM_EXT_IMAGE :=
endif
.KATI_READONLY := BUILDING_SYSTEM_EXT_IMAGE
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_VENDOR_DLKM
ifeq ($(TARGET_COPY_OUT_VENDOR_DLKM),$(_vendor_dlkm_path_placeholder))
TARGET_COPY_OUT_VENDOR_DLKM := $(TARGET_COPY_OUT_VENDOR)/vendor_dlkm
else ifeq ($(filter vendor_dlkm system/vendor/vendor_dlkm vendor/vendor_dlkm,$(TARGET_COPY_OUT_VENDOR_DLKM)),)
$(error TARGET_COPY_OUT_VENDOR_DLKM must be either 'vendor_dlkm', 'system/vendor/vendor_dlkm' or 'vendor/vendor_dlkm', seeing '$(TARGET_COPY_OUT_VENDOR_DLKM)'.)
endif
PRODUCT_COPY_FILES := $(subst $(_vendor_dlkm_path_placeholder),$(TARGET_COPY_OUT_VENDOR_DLKM),$(PRODUCT_COPY_FILES))
BOARD_USES_VENDOR_DLKMIMAGE :=
ifdef BOARD_PREBUILT_VENDOR_DLKMIMAGE
BOARD_USES_VENDOR_DLKMIMAGE := true
endif
ifdef BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE
BOARD_USES_VENDOR_DLKMIMAGE := true
endif
$(call check_image_config,vendor_dlkm)
BUILDING_VENDOR_DLKM_IMAGE :=
ifeq ($(PRODUCT_BUILD_VENDOR_DLKM_IMAGE),)
ifdef BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE
BUILDING_VENDOR_DLKM_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_VENDOR_DLKM_IMAGE),true)
BUILDING_VENDOR_DLKM_IMAGE := true
ifndef BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_VENDOR_DLKM_IMAGE set to true, but BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
ifdef BOARD_PREBUILT_VENDOR_DLKMIMAGE
BUILDING_VENDOR_DLKM_IMAGE :=
endif
.KATI_READONLY := BUILDING_VENDOR_DLKM_IMAGE
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_ODM
ifeq ($(TARGET_COPY_OUT_ODM),$(_odm_path_placeholder))
TARGET_COPY_OUT_ODM := $(TARGET_COPY_OUT_VENDOR)/odm
else ifeq ($(filter odm system/vendor/odm vendor/odm,$(TARGET_COPY_OUT_ODM)),)
$(error TARGET_COPY_OUT_ODM must be either 'odm', 'system/vendor/odm' or 'vendor/odm', seeing '$(TARGET_COPY_OUT_ODM)'.)
endif
PRODUCT_COPY_FILES := $(subst $(_odm_path_placeholder),$(TARGET_COPY_OUT_ODM),$(PRODUCT_COPY_FILES))
BOARD_USES_ODMIMAGE :=
ifdef BOARD_PREBUILT_ODMIMAGE
BOARD_USES_ODMIMAGE := true
endif
ifdef BOARD_ODMIMAGE_FILE_SYSTEM_TYPE
BOARD_USES_ODMIMAGE := true
endif
$(call check_image_config,odm)
BUILDING_ODM_IMAGE :=
ifeq ($(PRODUCT_BUILD_ODM_IMAGE),)
ifdef BOARD_ODMIMAGE_FILE_SYSTEM_TYPE
BUILDING_ODM_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_ODM_IMAGE),true)
BUILDING_ODM_IMAGE := true
ifndef BOARD_ODMIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_ODM_IMAGE set to true, but BOARD_ODMIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
ifdef BOARD_PREBUILT_ODMIMAGE
BUILDING_ODM_IMAGE :=
endif
.KATI_READONLY := BUILDING_ODM_IMAGE
###########################################
# Now we can substitute with the real value of TARGET_COPY_OUT_ODM_DLKM
ifeq ($(TARGET_COPY_OUT_ODM_DLKM),$(_odm_dlkm_path_placeholder))
TARGET_COPY_OUT_ODM_DLKM := $(TARGET_COPY_OUT_VENDOR)/odm_dlkm
else ifeq ($(filter odm_dlkm system/vendor/odm_dlkm vendor/odm_dlkm,$(TARGET_COPY_OUT_ODM_DLKM)),)
$(error TARGET_COPY_OUT_ODM_DLKM must be either 'odm_dlkm', 'system/vendor/odm_dlkm' or 'vendor/odm_dlkm', seeing '$(TARGET_COPY_OUT_ODM_DLKM)'.)
endif
PRODUCT_COPY_FILES := $(subst $(_odm_dlkm_path_placeholder),$(TARGET_COPY_OUT_ODM_DLKM),$(PRODUCT_COPY_FILES))
BOARD_USES_ODM_DLKMIMAGE :=
ifdef BOARD_PREBUILT_ODM_DLKMIMAGE
BOARD_USES_ODM_DLKMIMAGE := true
endif
ifdef BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE
BOARD_USES_ODM_DLKMIMAGE := true
endif
$(call check_image_config,odm_dlkm)
BUILDING_ODM_DLKM_IMAGE :=
ifeq ($(PRODUCT_BUILD_ODM_DLKM_IMAGE),)
ifdef BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE
BUILDING_ODM_DLKM_IMAGE := true
endif
else ifeq ($(PRODUCT_BUILD_ODM_DLKM_IMAGE),true)
BUILDING_ODM_DLKM_IMAGE := true
ifndef BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE
$(error PRODUCT_BUILD_ODM_DLKM_IMAGE set to true, but BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE not defined)
endif
endif
ifdef BOARD_PREBUILT_ODM_DLKMIMAGE
BUILDING_ODM_DLKM_IMAGE :=
endif
.KATI_READONLY := BUILDING_ODM_DLKM_IMAGE
BOARD_USES_PVMFWIMAGE :=
ifdef BOARD_PREBUILT_PVMFWIMAGE
BOARD_USES_PVMFWIMAGE := true
endif
ifeq ($(PRODUCT_BUILD_PVMFW_IMAGE),true)
BOARD_USES_PVMFWIMAGE := true
endif
.KATI_READONLY := BOARD_USES_PVMFWIMAGE
BUILDING_PVMFW_IMAGE :=
ifeq ($(PRODUCT_BUILD_PVMFW_IMAGE),true)
BUILDING_PVMFW_IMAGE := true
endif
ifdef BOARD_PREBUILT_PVMFWIMAGE
BUILDING_PVMFW_IMAGE :=
endif
.KATI_READONLY := BUILDING_PVMFW_IMAGE
###########################################
# Ensure consistency among TARGET_RECOVERY_UPDATER_LIBS, AB_OTA_UPDATER, and PRODUCT_OTA_FORCE_NON_AB_PACKAGE.
TARGET_RECOVERY_UPDATER_LIBS ?=
AB_OTA_UPDATER ?=
.KATI_READONLY := TARGET_RECOVERY_UPDATER_LIBS AB_OTA_UPDATER
# Ensure that if PRODUCT_OTA_FORCE_NON_AB_PACKAGE == true, then AB_OTA_UPDATER must be true
ifeq ($(PRODUCT_OTA_FORCE_NON_AB_PACKAGE),true)
ifneq ($(AB_OTA_UPDATER),true)
$(error AB_OTA_UPDATER must be set to true when PRODUCT_OTA_FORCE_NON_AB_PACKAGE is true)
endif
endif
# In some configurations, A/B and non-A/B may coexist. Check TARGET_OTA_ALLOW_NON_AB
# to see if non-A/B is supported.
TARGET_OTA_ALLOW_NON_AB := false
ifneq ($(AB_OTA_UPDATER),true)
TARGET_OTA_ALLOW_NON_AB := true
else ifeq ($(PRODUCT_OTA_FORCE_NON_AB_PACKAGE),true)
TARGET_OTA_ALLOW_NON_AB := true
endif
.KATI_READONLY := TARGET_OTA_ALLOW_NON_AB
ifneq ($(TARGET_OTA_ALLOW_NON_AB),true)
ifneq ($(strip $(TARGET_RECOVERY_UPDATER_LIBS)),)
$(error Do not use TARGET_RECOVERY_UPDATER_LIBS when using TARGET_OTA_ALLOW_NON_AB)
endif
endif
# Quick check for building generic OTA packages. Currently it only supports A/B OTAs.
ifeq ($(PRODUCT_BUILD_GENERIC_OTA_PACKAGE),true)
ifneq ($(AB_OTA_UPDATER),true)
$(error PRODUCT_BUILD_GENERIC_OTA_PACKAGE with 'AB_OTA_UPDATER != true' is not supported)
endif
endif
ifdef BOARD_PREBUILT_DTBIMAGE_DIR
ifneq ($(BOARD_INCLUDE_DTB_IN_BOOTIMG),true)
$(error BOARD_PREBUILT_DTBIMAGE_DIR with 'BOARD_INCLUDE_DTB_IN_BOOTIMG != true' is not supported)
endif
endif
# Check BOARD_VNDK_VERSION
define check_vndk_version
$(eval vndk_path := prebuilts/vndk/v$(1)) \
$(if $(wildcard $(vndk_path)/*/Android.bp),,$(error VNDK version $(1) not found))
endef
ifdef BOARD_VNDK_VERSION
ifeq ($(BOARD_VNDK_VERSION),$(PLATFORM_VNDK_VERSION))
$(error BOARD_VNDK_VERSION is equal to PLATFORM_VNDK_VERSION; use BOARD_VNDK_VERSION := current)
endif
ifneq ($(BOARD_VNDK_VERSION),current)
$(call check_vndk_version,$(BOARD_VNDK_VERSION))
endif
TARGET_VENDOR_TEST_SUFFIX := /vendor
else
TARGET_VENDOR_TEST_SUFFIX :=
endif
# If PRODUCT_ENFORCE_INTER_PARTITION_JAVA_SDK_LIBRARY is set,
# BOARD_VNDK_VERSION must be set because PRODUCT_ENFORCE_INTER_PARTITION_JAVA_SDK_LIBRARY
# is a enforcement of inter-partition dependency, and it doesn't have any meaning
# when BOARD_VNDK_VERSION isn't set.
ifeq ($(PRODUCT_ENFORCE_INTER_PARTITION_JAVA_SDK_LIBRARY),true)
ifeq ($(BOARD_VNDK_VERSION),)
$(error BOARD_VNDK_VERSION must be set when PRODUCT_ENFORCE_INTER_PARTITION_JAVA_SDK_LIBRARY is true)
endif
endif
###########################################
# APEXes are by default flattened, i.e. non-updatable, if not building unbundled
# apps. It can be unflattened (and updatable) by inheriting from
# updatable_apex.mk
#
# APEX flattening can also be forcibly enabled (resp. disabled) by
# setting OVERRIDE_TARGET_FLATTEN_APEX to true (resp. false), e.g. by
# setting the OVERRIDE_TARGET_FLATTEN_APEX environment variable.
ifdef OVERRIDE_TARGET_FLATTEN_APEX
TARGET_FLATTEN_APEX := $(OVERRIDE_TARGET_FLATTEN_APEX)
else
ifeq (,$(TARGET_BUILD_APPS)$(TARGET_FLATTEN_APEX))
TARGET_FLATTEN_APEX := true
endif
endif
ifeq (,$(TARGET_BUILD_UNBUNDLED))
ifdef PRODUCT_EXTRA_VNDK_VERSIONS
$(foreach v,$(PRODUCT_EXTRA_VNDK_VERSIONS),$(call check_vndk_version,$(v)))
endif
endif
# Ensure that BOARD_SYSTEMSDK_VERSIONS are all within PLATFORM_SYSTEMSDK_VERSIONS
_unsupported_systemsdk_versions := $(filter-out $(PLATFORM_SYSTEMSDK_VERSIONS),$(BOARD_SYSTEMSDK_VERSIONS))
ifneq (,$(_unsupported_systemsdk_versions))
$(error System SDK versions '$(_unsupported_systemsdk_versions)' in BOARD_SYSTEMSDK_VERSIONS are not supported.\
Supported versions are $(PLATFORM_SYSTEMSDK_VERSIONS))
endif
###########################################
# Handle BUILD_BROKEN_USES_BUILD_*
$(foreach m,$(DEFAULT_WARNING_BUILD_MODULE_TYPES),\
$(if $(filter false,$(BUILD_BROKEN_USES_$(m))),\
$(KATI_obsolete_var $(m),Please convert to Soong),\
$(KATI_deprecated_var $(m),Please convert to Soong)))
$(if $(filter true,$(BUILD_BROKEN_USES_BUILD_COPY_HEADERS)),\
$(KATI_deprecated_var BUILD_COPY_HEADERS,See $(CHANGES_URL)\#copy_headers),\
$(KATI_obsolete_var BUILD_COPY_HEADERS,See $(CHANGES_URL)\#copy_headers))
$(foreach m,$(filter-out BUILD_COPY_HEADERS,$(DEFAULT_ERROR_BUILD_MODULE_TYPES)),\
$(if $(filter true,$(BUILD_BROKEN_USES_$(m))),\
$(KATI_deprecated_var $(m),Please convert to Soong),\
$(KATI_obsolete_var $(m),Please convert to Soong)))
ifndef BUILDING_RECOVERY_IMAGE
ifeq (true,$(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE))
$(error Should not set BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE if not building recovery image)
endif
endif
ifndef BUILDING_VENDOR_BOOT_IMAGE
ifeq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT))
$(error Should not set BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT if not building vendor_boot image)
endif
ifdef BOARD_VENDOR_RAMDISK_FRAGMENTS
$(error Should not set BOARD_VENDOR_RAMDISK_FRAGMENTS if not building vendor_boot image)
endif
else # BUILDING_VENDOR_BOOT_IMAGE
ifneq (,$(call math_lt,$(BOARD_BOOT_HEADER_VERSION),4))
ifdef BOARD_VENDOR_RAMDISK_FRAGMENTS
$(error Should not set BOARD_VENDOR_RAMDISK_FRAGMENTS if \
BOARD_BOOT_HEADER_VERSION is less than 4)
endif
ifeq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT))
$(error Should not set BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT if \
BOARD_BOOT_HEADER_VERSION is less than 4)
endif
endif
endif # BUILDING_VENDOR_BOOT_IMAGE
ifneq ($(words $(BOARD_VENDOR_RAMDISK_FRAGMENTS)),$(words $(sort $(BOARD_VENDOR_RAMDISK_FRAGMENTS))))
$(error BOARD_VENDOR_RAMDISK_FRAGMENTS has duplicate entries: $(BOARD_VENDOR_RAMDISK_FRAGMENTS))
endif
ifeq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT))
ifneq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT))
$(error Should not set BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT if \
BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT is not set)
endif
endif
# If BOARD_USES_GENERIC_KERNEL_IMAGE is set, BOARD_USES_RECOVERY_AS_BOOT must not be set.
# Devices without a dedicated recovery partition uses BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT to
# build recovery into vendor_boot.
ifeq (true,$(BOARD_USES_GENERIC_KERNEL_IMAGE))
ifeq (true,$(BOARD_USES_RECOVERY_AS_BOOT))
$(error BOARD_USES_RECOVERY_AS_BOOT cannot be true if BOARD_USES_GENERIC_KERNEL_IMAGE is true. \
Use BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT instead)
endif
endif
ifeq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT))
ifeq (true,$(BOARD_USES_RECOVERY_AS_BOOT))
$(error BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT and BOARD_USES_RECOVERY_AS_BOOT cannot be \
both true. Recovery resources should be installed to either boot or vendor_boot, but not both)
endif
endif