platform_build/core/main.mk
Evgenii Stepanov 70ec542342 Revert "Define ro.sanitize.<name> properties in SANITIZE_TARGET builds."
am: 69b3f82249

Change-Id: I7559f3c663e2e337b79dbee720ab63c3fa87141a
2019-10-24 21:32:24 -07:00

1815 lines
71 KiB
Makefile

ifndef KATI
$(warning Calling make directly is no longer supported.)
$(warning Either use 'envsetup.sh; m' or 'build/soong/soong_ui.bash --make-mode')
$(error done)
endif
$(info [1/1] initializing build system ...)
# Absolute path of the present working direcotry.
# This overrides the shell variable $PWD, which does not necessarily points to
# the top of the source tree, for example when "make -C" is used in m/mm/mmm.
PWD := $(shell pwd)
# This is the default target. It must be the first declared target.
.PHONY: droid
DEFAULT_GOAL := droid
$(DEFAULT_GOAL): droid_targets
.PHONY: droid_targets
droid_targets:
# Set up various standard variables based on configuration
# and host information.
include build/make/core/config.mk
ifneq ($(filter $(dont_bother_goals), $(MAKECMDGOALS)),)
dont_bother := true
endif
.KATI_READONLY := SOONG_CONFIG_NAMESPACES
.KATI_READONLY := $(foreach n,$(SOONG_CONFIG_NAMESPACES),SOONG_CONFIG_$(n))
.KATI_READONLY := $(foreach n,$(SOONG_CONFIG_NAMESPACES),$(foreach k,$(SOONG_CONFIG_$(n)),SOONG_CONFIG_$(n)_$(k)))
include $(SOONG_MAKEVARS_MK)
include $(BUILD_SYSTEM)/clang/config.mk
# Write the build number to a file so it can be read back in
# without changing the command line every time. Avoids rebuilds
# when using ninja.
$(shell mkdir -p $(OUT_DIR) && \
echo -n $(BUILD_NUMBER) > $(OUT_DIR)/build_number.txt)
BUILD_NUMBER_FILE := $(OUT_DIR)/build_number.txt
.KATI_READONLY := BUILD_NUMBER_FILE
$(KATI_obsolete_var BUILD_NUMBER,See https://android.googlesource.com/platform/build/+/master/Changes.md#BUILD_NUMBER)
DATE_FROM_FILE := date -d @$(BUILD_DATETIME_FROM_FILE)
.KATI_READONLY := DATE_FROM_FILE
# Pick a reasonable string to use to identify files.
ifeq ($(strip $(HAS_BUILD_NUMBER)),false)
# BUILD_NUMBER has a timestamp in it, which means that
# it will change every time. Pick a stable value.
FILE_NAME_TAG := eng.$(BUILD_USERNAME)
else
FILE_NAME_TAG := $(file <$(BUILD_NUMBER_FILE))
endif
.KATI_READONLY := FILE_NAME_TAG
# Make an empty directory, which can be used to make empty jars
EMPTY_DIRECTORY := $(OUT_DIR)/empty
$(shell mkdir -p $(EMPTY_DIRECTORY) && rm -rf $(EMPTY_DIRECTORY)/*)
# CTS-specific config.
-include cts/build/config.mk
# VTS-specific config.
-include test/vts/tools/vts-tradefed/build/config.mk
# device-tests-specific-config.
-include tools/tradefederation/build/suites/device-tests/config.mk
# general-tests-specific-config.
-include tools/tradefederation/build/suites/general-tests/config.mk
# STS-specific config.
-include test/sts/tools/sts-tradefed/build/config.mk
# CTS-Instant-specific config
-include test/suite_harness/tools/cts-instant-tradefed/build/config.mk
# MTS-specific config.
-include test/mts/tools/build/config.mk
# VTS-Core-specific config.
-include test/vts/tools/vts-core-tradefed/build/config.mk
# Clean rules
.PHONY: clean-dex-files
clean-dex-files:
$(hide) find $(OUT_DIR) -name "*.dex" | xargs rm -f
$(hide) for i in `find $(OUT_DIR) -name "*.jar" -o -name "*.apk"` ; do ((unzip -l $$i 2> /dev/null | \
grep -q "\.dex$$" && rm -f $$i) || continue ) ; done
@echo "All dex files and archives containing dex files have been removed."
# Include the google-specific config
-include vendor/google/build/config.mk
# These are the modifier targets that don't do anything themselves, but
# change the behavior of the build.
# (must be defined before including definitions.make)
INTERNAL_MODIFIER_TARGETS := all
# EMMA_INSTRUMENT_STATIC merges the static jacoco library to each
# jacoco-enabled module.
ifeq (true,$(EMMA_INSTRUMENT_STATIC))
EMMA_INSTRUMENT := true
endif
ifeq (true,$(EMMA_INSTRUMENT))
# Adding the jacoco library can cause the inclusion of
# some typically banned classes
# So if the user didn't specify SKIP_BOOT_JARS_CHECK, enable it here
ifndef SKIP_BOOT_JARS_CHECK
SKIP_BOOT_JARS_CHECK := true
endif
endif
#
# -----------------------------------------------------------------
# Validate ADDITIONAL_DEFAULT_PROPERTIES.
ifneq ($(ADDITIONAL_DEFAULT_PROPERTIES),)
$(error ADDITIONAL_DEFAULT_PROPERTIES must not be set before here: $(ADDITIONAL_DEFAULT_PROPERTIES))
endif
#
# -----------------------------------------------------------------
# Validate ADDITIONAL_BUILD_PROPERTIES.
ifneq ($(ADDITIONAL_BUILD_PROPERTIES),)
$(error ADDITIONAL_BUILD_PROPERTIES must not be set before here: $(ADDITIONAL_BUILD_PROPERTIES))
endif
ADDITIONAL_BUILD_PROPERTIES :=
#
# -----------------------------------------------------------------
# Validate ADDITIONAL_PRODUCT_PROPERTIES.
ifneq ($(ADDITIONAL_PRODUCT_PROPERTIES),)
$(error ADDITIONAL_PRODUCT_PROPERTIES must not be set before here: $(ADDITIONAL_PRODUCT_PROPERTIES))
endif
ADDITIONAL_PRODUCT_PROPERTIES :=
#
# -----------------------------------------------------------------
# Add the product-defined properties to the build properties.
ifdef PRODUCT_SHIPPING_API_LEVEL
ADDITIONAL_BUILD_PROPERTIES += \
ro.product.first_api_level=$(PRODUCT_SHIPPING_API_LEVEL)
endif
ifneq ($(BOARD_PROPERTY_OVERRIDES_SPLIT_ENABLED), true)
ADDITIONAL_BUILD_PROPERTIES += $(PRODUCT_PROPERTY_OVERRIDES)
else
ifndef BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE
ADDITIONAL_BUILD_PROPERTIES += $(PRODUCT_PROPERTY_OVERRIDES)
endif
endif
# Bring in standard build system definitions.
include $(BUILD_SYSTEM)/definitions.mk
# Bring in dex_preopt.mk
include $(BUILD_SYSTEM)/dex_preopt.mk
ifneq ($(filter user userdebug eng,$(MAKECMDGOALS)),)
$(info ***************************************************************)
$(info ***************************************************************)
$(info Do not pass '$(filter user userdebug eng,$(MAKECMDGOALS))' on \
the make command line.)
$(info Set TARGET_BUILD_VARIANT in buildspec.mk, or use lunch or)
$(info choosecombo.)
$(info ***************************************************************)
$(info ***************************************************************)
$(error stopping)
endif
# These are the valid values of TARGET_BUILD_VARIANT.
INTERNAL_VALID_VARIANTS := user userdebug eng
ifneq ($(filter-out $(INTERNAL_VALID_VARIANTS),$(TARGET_BUILD_VARIANT)),)
$(info ***************************************************************)
$(info ***************************************************************)
$(info Invalid variant: $(TARGET_BUILD_VARIANT))
$(info Valid values are: $(INTERNAL_VALID_VARIANTS))
$(info ***************************************************************)
$(info ***************************************************************)
$(error stopping)
endif
# -----------------------------------------------------------------
# Variable to check java support level inside PDK build.
# Not necessary if the components is not in PDK.
# not defined : not supported
# "sdk" : sdk API only
# "platform" : platform API supproted
TARGET_BUILD_JAVA_SUPPORT_LEVEL := platform
# -----------------------------------------------------------------
# The pdk (Platform Development Kit) build
include build/make/core/pdk_config.mk
# -----------------------------------------------------------------
ADDITIONAL_BUILD_PROPERTIES += ro.treble.enabled=${PRODUCT_FULL_TREBLE}
$(KATI_obsolete_var PRODUCT_FULL_TREBLE,\
Code should be written to work regardless of a device being Treble or \
variables like PRODUCT_SEPOLICY_SPLIT should be used until that is \
possible.)
# Sets ro.actionable_compatible_property.enabled to know on runtime whether the whitelist
# of actionable compatible properties is enabled or not.
ifeq ($(PRODUCT_ACTIONABLE_COMPATIBLE_PROPERTY_DISABLE),true)
ADDITIONAL_DEFAULT_PROPERTIES += ro.actionable_compatible_property.enabled=false
else
ADDITIONAL_DEFAULT_PROPERTIES += ro.actionable_compatible_property.enabled=${PRODUCT_COMPATIBLE_PROPERTY}
endif
# Add the system server compiler filter if they are specified for the product.
ifneq (,$(PRODUCT_SYSTEM_SERVER_COMPILER_FILTER))
ADDITIONAL_PRODUCT_PROPERTIES += dalvik.vm.systemservercompilerfilter=$(PRODUCT_SYSTEM_SERVER_COMPILER_FILTER)
endif
# Enable core platform API violation warnings on userdebug and eng builds.
ifneq ($(TARGET_BUILD_VARIANT),user)
ADDITIONAL_BUILD_PROPERTIES += persist.debug.dalvik.vm.core_platform_api_policy=just-warn
endif
# Sets the default value of ro.postinstall.fstab.prefix to /system.
# Device board config should override the value to /product when needed by:
#
# PRODUCT_PRODUCT_PROPERTIES += ro.postinstall.fstab.prefix=/product
#
# It then uses ${ro.postinstall.fstab.prefix}/etc/fstab.postinstall to
# mount system_other partition.
ADDITIONAL_DEFAULT_PROPERTIES += ro.postinstall.fstab.prefix=/system
# -----------------------------------------------------------------
###
### In this section we set up the things that are different
### between the build variants
###
is_sdk_build :=
ifneq ($(filter sdk win_sdk sdk_addon,$(MAKECMDGOALS)),)
is_sdk_build := true
endif
## user/userdebug ##
user_variant := $(filter user userdebug,$(TARGET_BUILD_VARIANT))
enable_target_debugging := true
tags_to_install :=
ifneq (,$(user_variant))
# Target is secure in user builds.
ADDITIONAL_DEFAULT_PROPERTIES += ro.secure=1
ADDITIONAL_DEFAULT_PROPERTIES += security.perf_harden=1
ifeq ($(user_variant),user)
ADDITIONAL_DEFAULT_PROPERTIES += ro.adb.secure=1
endif
ifeq ($(user_variant),userdebug)
# Pick up some extra useful tools
tags_to_install += debug
else
# Disable debugging in plain user builds.
enable_target_debugging :=
endif
# Disallow mock locations by default for user builds
ADDITIONAL_DEFAULT_PROPERTIES += ro.allow.mock.location=0
else # !user_variant
# Turn on checkjni for non-user builds.
ADDITIONAL_BUILD_PROPERTIES += ro.kernel.android.checkjni=1
# Set device insecure for non-user builds.
ADDITIONAL_DEFAULT_PROPERTIES += ro.secure=0
# Allow mock locations by default for non user builds
ADDITIONAL_DEFAULT_PROPERTIES += ro.allow.mock.location=1
endif # !user_variant
ifeq (true,$(strip $(enable_target_debugging)))
# Target is more debuggable and adbd is on by default
ADDITIONAL_DEFAULT_PROPERTIES += ro.debuggable=1
# Enable Dalvik lock contention logging.
ADDITIONAL_BUILD_PROPERTIES += dalvik.vm.lockprof.threshold=500
else # !enable_target_debugging
# Target is less debuggable and adbd is off by default
ADDITIONAL_DEFAULT_PROPERTIES += ro.debuggable=0
endif # !enable_target_debugging
## eng ##
ifeq ($(TARGET_BUILD_VARIANT),eng)
tags_to_install := debug eng
ifneq ($(filter ro.setupwizard.mode=ENABLED, $(call collapse-pairs, $(ADDITIONAL_BUILD_PROPERTIES))),)
# Don't require the setup wizard on eng builds
ADDITIONAL_BUILD_PROPERTIES := $(filter-out ro.setupwizard.mode=%,\
$(call collapse-pairs, $(ADDITIONAL_BUILD_PROPERTIES))) \
ro.setupwizard.mode=OPTIONAL
endif
ifndef is_sdk_build
# To speedup startup of non-preopted builds, don't verify or compile the boot image.
ADDITIONAL_BUILD_PROPERTIES += dalvik.vm.image-dex2oat-filter=verify-at-runtime
endif
endif
## asan ##
# Install some additional tools on ASAN builds IFF we are also installing debug tools
ifneq ($(filter address,$(SANITIZE_TARGET)),)
ifneq (,$(filter debug,$(tags_to_install)))
tags_to_install += asan
endif
endif
## java coverage ##
# Install additional tools on java coverage builds
ifeq (true,$(EMMA_INSTRUMENT))
ifneq (,$(filter debug,$(tags_to_install)))
tags_to_install += java_coverage
endif
endif
## sdk ##
ifdef is_sdk_build
# Detect if we want to build a repository for the SDK
sdk_repo_goal := $(strip $(filter sdk_repo,$(MAKECMDGOALS)))
MAKECMDGOALS := $(strip $(filter-out sdk_repo,$(MAKECMDGOALS)))
ifneq ($(words $(sort $(filter-out $(INTERNAL_MODIFIER_TARGETS) checkbuild emulator_tests target-files-package,$(MAKECMDGOALS)))),1)
$(error The 'sdk' target may not be specified with any other targets)
endif
# AUX dependencies are already added by now; remove triggers from the MAKECMDGOALS
MAKECMDGOALS := $(strip $(filter-out AUX-%,$(MAKECMDGOALS)))
# TODO: this should be eng I think. Since the sdk is built from the eng
# variant.
tags_to_install := debug eng
ADDITIONAL_BUILD_PROPERTIES += xmpp.auto-presence=true
ADDITIONAL_BUILD_PROPERTIES += ro.config.nocheckin=yes
else # !sdk
endif
BUILD_WITHOUT_PV := true
ADDITIONAL_BUILD_PROPERTIES += net.bt.name=Android
# ------------------------------------------------------------
# Define a function that, given a list of module tags, returns
# non-empty if that module should be installed in /system.
# For most goals, anything not tagged with the "tests" tag should
# be installed in /system.
define should-install-to-system
$(if $(filter tests,$(1)),,true)
endef
ifdef is_sdk_build
# For the sdk goal, anything with the "samples" tag should be
# installed in /data even if that module also has "eng"/"debug"/"user".
define should-install-to-system
$(if $(filter samples tests,$(1)),,true)
endef
endif
# If they only used the modifier goals (all, etc), we'll actually
# build the default target.
ifeq ($(filter-out $(INTERNAL_MODIFIER_TARGETS),$(MAKECMDGOALS)),)
.PHONY: $(INTERNAL_MODIFIER_TARGETS)
$(INTERNAL_MODIFIER_TARGETS): $(DEFAULT_GOAL)
endif
#
# Typical build; include any Android.mk files we can find.
#
# Strip and readonly a few more variables so they won't be modified.
$(readonly-final-product-vars)
ADDITIONAL_DEFAULT_PROPERTIES := $(strip $(ADDITIONAL_DEFAULT_PROPERTIES))
.KATI_READONLY := ADDITIONAL_DEFAULT_PROPERTIES
ADDITIONAL_BUILD_PROPERTIES := $(strip $(ADDITIONAL_BUILD_PROPERTIES))
.KATI_READONLY := ADDITIONAL_BUILD_PROPERTIES
ADDITIONAL_PRODUCT_PROPERTIES := $(strip $(ADDITIONAL_PRODUCT_PROPERTIES))
.KATI_READONLY := ADDITIONAL_PRODUCT_PROPERTIES
ifneq ($(PRODUCT_ENFORCE_RRO_TARGETS),)
ENFORCE_RRO_SOURCES :=
endif
# Color-coded warnings including current module info
# $(1): message to print
define pretty-warning
$(shell $(call echo-warning,$(LOCAL_MODULE_MAKEFILE),$(LOCAL_MODULE): $(1)))
endef
# Color-coded errors including current module info
# $(1): message to print
define pretty-error
$(shell $(call echo-error,$(LOCAL_MODULE_MAKEFILE),$(LOCAL_MODULE): $(1)))
$(error done)
endef
subdir_makefiles_inc := .
FULL_BUILD :=
ifneq ($(dont_bother),true)
FULL_BUILD := true
#
# Include all of the makefiles in the system
#
subdir_makefiles := $(SOONG_ANDROID_MK) $(file <$(OUT_DIR)/.module_paths/Android.mk.list)
subdir_makefiles_total := $(words int $(subdir_makefiles) post finish)
.KATI_READONLY := subdir_makefiles_total
$(foreach mk,$(subdir_makefiles),$(info [$(call inc_and_print,subdir_makefiles_inc)/$(subdir_makefiles_total)] including $(mk) ...)$(eval include $(mk)))
ifneq (,$(PDK_FUSION_PLATFORM_ZIP)$(PDK_FUSION_PLATFORM_DIR))
# Bring in the PDK platform.zip modules.
include $(BUILD_SYSTEM)/pdk_fusion_modules.mk
endif # PDK_FUSION_PLATFORM_ZIP || PDK_FUSION_PLATFORM_DIR
droid_targets : blueprint_tools
endif # dont_bother
ifndef subdir_makefiles_total
subdir_makefiles_total := $(words init post finish)
endif
droid_targets: no_vendor_variant_vndk_check
.PHONY: no_vendor_variant_vndk_check
no_vendor_variant_vndk_check:
$(info [$(call inc_and_print,subdir_makefiles_inc)/$(subdir_makefiles_total)] finishing build rules ...)
# -------------------------------------------------------------------
# All module makefiles have been included at this point.
# -------------------------------------------------------------------
# -------------------------------------------------------------------
# Use basic warning/error messages now that LOCAL_MODULE_MAKEFILE
# and LOCAL_MODULE aren't useful anymore.
# -------------------------------------------------------------------
define pretty-warning
$(warning $(1))
endef
define pretty-error
$(error $(1))
endef
# -------------------------------------------------------------------
# Enforce to generate all RRO packages for modules having resource
# overlays.
# -------------------------------------------------------------------
ifneq ($(PRODUCT_ENFORCE_RRO_TARGETS),)
$(call generate_all_enforce_rro_packages)
endif
# -------------------------------------------------------------------
# Fix up CUSTOM_MODULES to refer to installed files rather than
# just bare module names. Leave unknown modules alone in case
# they're actually full paths to a particular file.
known_custom_modules := $(filter $(ALL_MODULES),$(CUSTOM_MODULES))
unknown_custom_modules := $(filter-out $(ALL_MODULES),$(CUSTOM_MODULES))
CUSTOM_MODULES := \
$(call module-installed-files,$(known_custom_modules)) \
$(unknown_custom_modules)
# -------------------------------------------------------------------
# Define dependencies for modules that require other modules.
# This can only happen now, after we've read in all module makefiles.
#
# TODO: deal with the fact that a bare module name isn't
# unambiguous enough. Maybe declare short targets like
# APPS:Quake or HOST:SHARED_LIBRARIES:libutils.
# BUG: the system image won't know to depend on modules that are
# brought in as requirements of other modules.
#
# Resolve the required module name to 32-bit or 64-bit variant.
# Get a list of corresponding 32-bit module names, if one exists.
define get-32-bit-modules
$(sort $(foreach m,$(1),\
$(if $(ALL_MODULES.$(m)$(TARGET_2ND_ARCH_MODULE_SUFFIX).CLASS),\
$(m)$(TARGET_2ND_ARCH_MODULE_SUFFIX))))
endef
# Get a list of corresponding 32-bit module names, if one exists;
# otherwise return the original module name
define get-32-bit-modules-if-we-can
$(sort $(foreach m,$(1),\
$(if $(ALL_MODULES.$(m)$(TARGET_2ND_ARCH_MODULE_SUFFIX).CLASS),\
$(m)$(TARGET_2ND_ARCH_MODULE_SUFFIX), \
$(m))))
endef
# TODO: we can probably check to see if these modules are actually host
# modules
define get-host-32-bit-modules
$(sort $(foreach m,$(1),\
$(if $(ALL_MODULES.$(m)$(HOST_2ND_ARCH_MODULE_SUFFIX).CLASS),\
$(m)$(HOST_2ND_ARCH_MODULE_SUFFIX))))
endef
# Get a list of corresponding 32-bit module names, if one exists;
# otherwise return the original module name
define get-host-32-bit-modules-if-we-can
$(sort $(foreach m,$(1),\
$(if $(ALL_MODULES.$(m)$(HOST_2ND_ARCH_MODULE_SUFFIX).CLASS),\
$(m)$(HOST_2ND_ARCH_MODULE_SUFFIX),\
$(m))))
endef
# If a module is for a cross host os, the required modules must be for
# that OS too.
# If a module is built for 32-bit, the required modules must be 32-bit too;
# Otherwise if the module is an executable or shared library,
# the required modules must be 64-bit;
# otherwise we require both 64-bit and 32-bit variant, if one exists.
define target-select-bitness-of-required-modules
$(foreach m,$(ALL_MODULES),\
$(eval r := $(ALL_MODULES.$(m).REQUIRED_FROM_TARGET))\
$(if $(r),\
$(if $(ALL_MODULES.$(m).FOR_2ND_ARCH),\
$(eval r_r := $(call get-32-bit-modules-if-we-can,$(r))),\
$(if $(filter EXECUTABLES SHARED_LIBRARIES NATIVE_TESTS,$(ALL_MODULES.$(m).CLASS)),\
$(eval r_r := $(r)),\
$(eval r_r := $(r) $(call get-32-bit-modules,$(r)))\
)\
)\
$(eval ALL_MODULES.$(m).REQUIRED_FROM_TARGET := $(strip $(r_r)))\
)\
)
endef
$(call target-select-bitness-of-required-modules)
define host-select-bitness-of-required-modules
$(foreach m,$(ALL_MODULES),\
$(eval r := $(ALL_MODULES.$(m).REQUIRED_FROM_HOST))\
$(if $(r),\
$(if $(ALL_MODULES.$(m).FOR_2ND_ARCH),\
$(eval r_r := $(call get-host-32-bit-modules-if-we-can,$(r))),\
$(if $(filter EXECUTABLES SHARED_LIBRARIES NATIVE_TESTS,$(ALL_MODULES.$(m).CLASS)),\
$(eval r_r := $(r)),\
$(eval r_r := $(r) $(call get-host-32-bit-modules,$(r)))\
)\
)\
$(eval ALL_MODULES.$(m).REQUIRED_FROM_HOST := $(strip $(r_r)))\
)\
)
endef
$(call host-select-bitness-of-required-modules)
define host-cross-select-bitness-of-required-modules
$(foreach m,$(ALL_MODULES),\
$(eval r := $(ALL_MODULES.$(m).REQUIRED_FROM_HOST_CROSS))\
$(if $(r),\
$(if $(ALL_MODULES.$(m).FOR_HOST_CROSS),,$(error Only expected REQUIRED_FROM_HOST_CROSS on FOR_HOST_CROSS modules - $(m)))\
$(eval r := $(addprefix host_cross_,$(r)))\
$(if $(ALL_MODULES.$(m).FOR_2ND_ARCH),\
$(eval r_r := $(call get-host-32-bit-modules-if-we-can,$(r))),\
$(if $(filter EXECUTABLES SHARED_LIBRARIES NATIVE_TESTS,$(ALL_MODULES.$(m).CLASS)),\
$(eval r_r := $(r)),\
$(eval r_r := $(r) $(call get-host-32-bit-modules,$(r)))\
)\
)\
$(eval ALL_MODULES.$(m).REQUIRED_FROM_HOST_CROSS := $(strip $(r_r)))\
)\
)
endef
$(call host-cross-select-bitness-of-required-modules)
r_r :=
define add-required-deps
$(1): | $(2)
endef
# Use a normal dependency instead of an order-only dependency when installing
# host dynamic binaries so that the timestamp of the final binary always
# changes, even if the toc optimization has skipped relinking the binary
# and its dependant shared libraries.
define add-required-host-so-deps
$(1): $(2)
endef
# Sets up dependencies such that whenever a host module is installed,
# any other host modules listed in $(ALL_MODULES.$(m).REQUIRED_FROM_HOST) will also be installed
define add-all-host-to-host-required-modules-deps
$(foreach m,$(ALL_MODULES), \
$(eval r := $(ALL_MODULES.$(m).REQUIRED_FROM_HOST)) \
$(if $(r), \
$(eval r := $(call module-installed-files,$(r))) \
$(eval h_m := $(filter $(HOST_OUT)/%, $(ALL_MODULES.$(m).INSTALLED))) \
$(eval h_r := $(filter $(HOST_OUT)/%, $(r))) \
$(eval h_m := $(filter-out $(h_r), $(h_m))) \
$(if $(h_m), $(eval $(call add-required-deps, $(h_m),$(h_r)))) \
) \
)
endef
$(call add-all-host-to-host-required-modules-deps)
# Sets up dependencies such that whenever a host cross module is installed,
# any other host cross modules listed in $(ALL_MODULES.$(m).REQUIRED_FROM_HOST_CROSS) will also be installed
define add-all-host-cross-to-host-cross-required-modules-deps
$(foreach m,$(ALL_MODULES), \
$(eval r := $(ALL_MODULES.$(m).REQUIRED_FROM_HOST_CROSS)) \
$(if $(r), \
$(eval r := $(call module-installed-files,$(r))) \
$(eval hc_m := $(filter $(HOST_CROSS_OUT)/%, $(ALL_MODULES.$(m).INSTALLED))) \
$(eval hc_r := $(filter $(HOST_CROSS_OUT)/%, $(r))) \
$(eval hc_m := $(filter-out $(hc_r), $(hc_m))) \
$(if $(hc_m), $(eval $(call add-required-deps, $(hc_m),$(hc_r)))) \
) \
)
endef
$(call add-all-host-cross-to-host-cross-required-modules-deps)
# Sets up dependencies such that whenever a target module is installed,
# any other target modules listed in $(ALL_MODULES.$(m).REQUIRED_FROM_TARGET) will also be installed
define add-all-target-to-target-required-modules-deps
$(foreach m,$(ALL_MODULES), \
$(eval r := $(ALL_MODULES.$(m).REQUIRED_FROM_TARGET)) \
$(if $(r), \
$(eval r := $(call module-installed-files,$(r))) \
$(eval t_m := $(filter $(TARGET_OUT_ROOT)/%, $(ALL_MODULES.$(m).INSTALLED))) \
$(eval t_r := $(filter $(TARGET_OUT_ROOT)/%, $(r))) \
$(eval t_m := $(filter-out $(t_r), $(t_m))) \
$(if $(t_m), $(eval $(call add-required-deps, $(t_m),$(t_r)))) \
) \
)
endef
$(call add-all-target-to-target-required-modules-deps)
# Sets up dependencies such that whenever a host module is installed,
# any target modules listed in $(ALL_MODULES.$(m).TARGET_REQUIRED_FROM_HOST) will also be installed
define add-all-host-to-target-required-modules-deps
$(foreach m,$(ALL_MODULES), \
$(eval req_mods := $(ALL_MODULES.$(m).TARGET_REQUIRED_FROM_HOST))\
$(if $(req_mods), \
$(eval req_files := )\
$(foreach req_mod,$(req_mods), \
$(eval req_file := $(filter $(TARGET_OUT_ROOT)/%, $(call module-installed-files,$(req_mod)))) \
$(if $(strip $(req_file)),\
,\
$(error $(m).LOCAL_TARGET_REQUIRED_MODULES : illegal value $(req_mod) : not a device module. If you want to specify host modules to be required to be installed along with your host module, add those module names to LOCAL_REQUIRED_MODULES instead)\
)\
$(eval req_files := $(req_files)$(space)$(req_file))\
)\
$(eval req_files := $(strip $(req_files)))\
$(eval mod_files := $(filter $(HOST_OUT)/%, $(call module-installed-files,$(m)))) \
$(eval mod_files := $(filter-out $(req_files),$(mod_files)))\
$(if $(mod_files),\
$(eval $(call add-required-deps, $(mod_files),$(req_files))) \
)\
)\
)
endef
$(call add-all-host-to-target-required-modules-deps)
# Sets up dependencies such that whenever a target module is installed,
# any host modules listed in $(ALL_MODULES.$(m).HOST_REQUIRED_FROM_TARGET) will also be installed
define add-all-target-to-host-required-modules-deps
$(foreach m,$(ALL_MODULES), \
$(eval req_mods := $(ALL_MODULES.$(m).HOST_REQUIRED_FROM_TARGET))\
$(if $(req_mods), \
$(eval req_files := )\
$(foreach req_mod,$(req_mods), \
$(eval req_file := $(filter $(HOST_OUT)/%, $(call module-installed-files,$(req_mod)))) \
$(if $(strip $(req_file)),\
,\
$(error $(m).LOCAL_HOST_REQUIRED_MODULES : illegal value $(req_mod) : not a host module. If you want to specify target modules to be required to be installed along with your target module, add those module names to LOCAL_REQUIRED_MODULES instead)\
)\
$(eval req_files := $(req_files)$(space)$(req_file))\
)\
$(eval req_files := $(strip $(req_files)))\
$(eval mod_files := $(filter $(TARGET_OUT_ROOT)/%, $(call module-installed-files,$(m))))\
$(eval mod_files := $(filter-out $(req_files),$(mod_files)))\
$(if $(mod_files),\
$(eval $(call add-required-deps, $(mod_files),$(req_files))) \
)\
)\
)
endef
$(call add-all-target-to-host-required-modules-deps)
t_m :=
h_m :=
hc_m :=
t_r :=
h_r :=
hc_r :=
# Establish the dependencies on the shared libraries.
# It also adds the shared library module names to ALL_MODULES.$(m).REQUIRED_FROM_(TARGET|HOST|HOST_CROSS),
# so they can be expanded to product_MODULES later.
# $(1): TARGET_ or HOST_ or HOST_CROSS_.
# $(2): non-empty for 2nd arch.
# $(3): non-empty for host cross compile.
define resolve-shared-libs-depes
$(foreach m,$($(if $(2),$($(1)2ND_ARCH_VAR_PREFIX))$(1)DEPENDENCIES_ON_SHARED_LIBRARIES),\
$(eval p := $(subst :,$(space),$(m)))\
$(eval mod := $(firstword $(p)))\
$(eval deps := $(subst $(comma),$(space),$(lastword $(p))))\
$(eval root := $(1)OUT$(if $(call streq,$(1),TARGET_),_ROOT))\
$(if $(2),$(eval deps := $(addsuffix $($(1)2ND_ARCH_MODULE_SUFFIX),$(deps))))\
$(if $(3),$(eval deps := $(addprefix host_cross_,$(deps))))\
$(eval r := $(filter $($(root))/%,$(call module-installed-files,\
$(deps))))\
$(if $(filter $(1),HOST_),\
$(eval ALL_MODULES.$(mod).HOST_SHARED_LIBRARY_FILES := $$(ALL_MODULES.$(mod).HOST_SHARED_LIBRARY_FILES) $(word 2,$(p)) $(r))\
$(eval ALL_MODULES.$(mod).HOST_SHARED_LIBRARIES := $$(ALL_MODULES.$(mod).HOST_SHARED_LIBRARIES) $(deps))\
$(eval $(call add-required-host-so-deps,$(word 2,$(p)),$(r))),\
$(eval $(call add-required-deps,$(word 2,$(p)),$(r))))\
$(eval ALL_MODULES.$(mod).REQUIRED_FROM_$(patsubst %_,%,$(1)) += $(deps)))
endef
# Recursively resolve host shared library dependency for a given module.
# $(1): module name
# Returns all dependencies of shared library.
define get-all-shared-libs-deps
$(if $(_all_deps_for_$(1)_set_),$(_all_deps_for_$(1)_),\
$(eval _all_deps_for_$(1)_ :=) \
$(foreach dep,$(ALL_MODULES.$(1).HOST_SHARED_LIBRARIES),\
$(foreach m,$(call get-all-shared-libs-deps,$(dep)),\
$(eval _all_deps_for_$(1)_ := $$(_all_deps_for_$(1)_) $(m))\
$(eval _all_deps_for_$(1)_ := $(sort $(_all_deps_for_$(1)_))))\
$(eval _all_deps_for_$(1)_ := $$(_all_deps_for_$(1)_) $(dep))\
$(eval _all_deps_for_$(1)_ := $(sort $(_all_deps_for_$(1)_) $(dep)))\
$(eval _all_deps_for_$(1)_set_ := true))\
$(_all_deps_for_$(1)_))
endef
# Scan all modules in general-tests and device-tests suite and flatten the
# shared library dependencies.
define update-host-shared-libs-deps-for-suites
$(foreach suite,general-tests device-tests,\
$(foreach m,$(COMPATIBILITY.$(suite).MODULES),\
$(eval my_deps := $(call get-all-shared-libs-deps,$(m)))\
$(foreach dep,$(my_deps),\
$(foreach f,$(ALL_MODULES.$(dep).HOST_SHARED_LIBRARY_FILES),\
$(eval target := $(HOST_OUT_TESTCASES)/$(lastword $(subst /, ,$(dir $(f))))/$(notdir $(f)))\
$(eval COMPATIBILITY.$(suite).HOST_SHARED_LIBRARY.FILES := \
$$(COMPATIBILITY.$(suite).HOST_SHARED_LIBRARY.FILES) $(f):$(target))\
$(eval COMPATIBILITY.$(suite).HOST_SHARED_LIBRARY.FILES := \
$(sort $(COMPATIBILITY.$(suite).HOST_SHARED_LIBRARY.FILES)))))))
endef
$(call resolve-shared-libs-depes,TARGET_)
ifdef TARGET_2ND_ARCH
$(call resolve-shared-libs-depes,TARGET_,true)
endif
$(call resolve-shared-libs-depes,HOST_)
ifdef HOST_2ND_ARCH
$(call resolve-shared-libs-depes,HOST_,true)
endif
# Update host side shared library dependencies for tests in suite device-tests and general-tests.
# This should be called after calling resolve-shared-libs-depes for HOST_2ND_ARCH.
$(call update-host-shared-libs-deps-for-suites)
ifdef HOST_CROSS_OS
$(call resolve-shared-libs-depes,HOST_CROSS_,,true)
ifdef HOST_CROSS_2ND_ARCH
$(call resolve-shared-libs-depes,HOST_CROSS_,true,true)
endif
endif
# Pass the shared libraries dependencies to prebuilt ELF file check.
define add-elf-file-check-shared-lib
$(1): PRIVATE_SHARED_LIBRARY_FILES += $(2)
$(1): $(2)
endef
define resolve-shared-libs-for-elf-file-check
$(foreach m,$($(if $(2),$($(1)2ND_ARCH_VAR_PREFIX))$(1)DEPENDENCIES_ON_SHARED_LIBRARIES),\
$(eval p := $(subst :,$(space),$(m)))\
$(eval mod := $(firstword $(p)))\
\
$(eval deps := $(subst $(comma),$(space),$(lastword $(p))))\
$(if $(2),$(eval deps := $(addsuffix $($(1)2ND_ARCH_MODULE_SUFFIX),$(deps))))\
$(eval root := $(1)OUT$(if $(call streq,$(1),TARGET_),_ROOT))\
$(eval deps := $(filter $($(root))/%$($(1)SHLIB_SUFFIX),$(call module-built-files,$(deps))))\
\
$(eval r := $(firstword $(filter \
$($(if $(2),$($(1)2ND_ARCH_VAR_PREFIX))TARGET_OUT_INTERMEDIATES)/EXECUTABLES/%\
$($(if $(2),$($(1)2ND_ARCH_VAR_PREFIX))TARGET_OUT_INTERMEDIATES)/NATIVE_TESTS/%\
$($(if $(2),$($(1)2ND_ARCH_VAR_PREFIX))TARGET_OUT_INTERMEDIATES)/SHARED_LIBRARIES/%,\
$(call module-built-files,$(mod)))))\
\
$(if $(r),\
$(eval stamp := $(dir $(r))check_elf_files.timestamp)\
$(eval $(call add-elf-file-check-shared-lib,$(stamp),$(deps)))\
))
endef
$(call resolve-shared-libs-for-elf-file-check,TARGET_)
ifdef TARGET_2ND_ARCH
$(call resolve-shared-libs-for-elf-file-check,TARGET_,true)
endif
m :=
r :=
p :=
stamp :=
deps :=
add-required-deps :=
################################################################################
# Link type checking
#
# ALL_LINK_TYPES contains a list of all link type prefixes (generally one per
# module, but APKs can "link" to both java and native code). The link type
# prefix consists of all the information needed by intermediates-dir-for:
#
# LINK_TYPE:TARGET:_:2ND:STATIC_LIBRARIES:libfoo
#
# 1: LINK_TYPE literal
# 2: prefix
# - TARGET
# - HOST
# - HOST_CROSS
# - AUX-<variant-name>
# 3: Whether to use the common intermediates directory or not
# - _
# - COMMON
# 4: Whether it's the second arch or not
# - _
# - 2ND_
# 5: Module Class
# - STATIC_LIBRARIES
# - SHARED_LIBRARIES
# - ...
# 6: Module Name
#
# Then fields under that are separated by a period and the field name:
# - TYPE: the link types for this module
# - MAKEFILE: Where this module was defined
# - BUILT: The built module location
# - DEPS: the link type prefixes for the module's dependencies
# - ALLOWED: the link types to allow in this module's dependencies
# - WARN: the link types to warn about in this module's dependencies
#
# All of the dependency link types not listed in ALLOWED or WARN will become
# errors.
################################################################################
link_type_error :=
define link-type-prefix-base
$(word 2,$(subst :,$(space),$(1)))
endef
define link-type-prefix
$(if $(filter AUX-%,$(link-type-prefix-base)),$(patsubst AUX-%,AUX,$(link-type-prefix-base)),$(link-type-prefix-base))
endef
define link-type-aux-variant
$(if $(filter AUX-%,$(link-type-prefix-base)),$(patsubst AUX-%,%,$(link-type-prefix-base)))
endef
define link-type-common
$(patsubst _,,$(word 3,$(subst :,$(space),$(1))))
endef
define link-type-2ndarchprefix
$(patsubst _,,$(word 4,$(subst :,$(space),$(1))))
endef
define link-type-class
$(word 5,$(subst :,$(space),$(1)))
endef
define link-type-name
$(word 6,$(subst :,$(space),$(1)))
endef
define link-type-os
$(strip $(eval _p := $(link-type-prefix))\
$(if $(filter HOST HOST_CROSS,$(_p)),\
$($(_p)_OS),\
$(if $(filter AUX,$(_p)),AUX,android)))
endef
define link-type-arch
$($(link-type-prefix)_$(link-type-2ndarchprefix)ARCH)
endef
define link-type-name-variant
$(link-type-name) ($(link-type-class) $(link-type-os)-$(link-type-arch))
endef
# $(1): the prefix of the module doing the linking
# $(2): the prefix of the linked module
define link-type-warning
$(shell $(call echo-warning,$($(1).MAKEFILE),"$(call link-type-name,$(1)) ($($(1).TYPE)) should not link against $(call link-type-name,$(2)) ($(3))"))
endef
# $(1): the prefix of the module doing the linking
# $(2): the prefix of the linked module
define link-type-error
$(shell $(call echo-error,$($(1).MAKEFILE),"$(call link-type-name,$(1)) ($($(1).TYPE)) can not link against $(call link-type-name,$(2)) ($(3))"))\
$(eval link_type_error := true)
endef
link-type-missing :=
ifneq ($(ALLOW_MISSING_DEPENDENCIES),true)
# Print an error message if the linked-to module is missing
# $(1): the prefix of the module doing the linking
# $(2): the prefix of the missing module
define link-type-missing
$(shell $(call echo-error,$($(1).MAKEFILE),"$(call link-type-name-variant,$(1)) missing $(call link-type-name-variant,$(2))"))\
$(eval available_variants := $(filter %:$(call link-type-name,$(2)),$(ALL_LINK_TYPES)))\
$(if $(available_variants),\
$(info Available variants:)\
$(foreach v,$(available_variants),$(info $(space)$(space)$(call link-type-name-variant,$(v)))))\
$(info You can set ALLOW_MISSING_DEPENDENCIES=true in your environment if this is intentional, but that may defer real problems until later in the build.)\
$(eval link_type_error := true)
endef
else
define link-type-missing
$(eval $$(1).MISSING := true)
endef
endif
# Verify that $(1) can link against $(2)
# Both $(1) and $(2) are the link type prefix defined above
define verify-link-type
$(foreach t,$($(2).TYPE),\
$(if $(filter-out $($(1).ALLOWED),$(t)),\
$(if $(filter $(t),$($(1).WARN)),\
$(call link-type-warning,$(1),$(2),$(t)),\
$(call link-type-error,$(1),$(2),$(t)))))
endef
# TODO: Verify all branches/configs have reasonable warnings/errors, and remove
# this override
verify-link-type = $(eval $$(1).MISSING := true)
$(foreach lt,$(ALL_LINK_TYPES),\
$(foreach d,$($(lt).DEPS),\
$(if $($(d).TYPE),\
$(call verify-link-type,$(lt),$(d)),\
$(call link-type-missing,$(lt),$(d)))))
ifdef link_type_error
$(error exiting from previous errors)
endif
# -------------------------------------------------------------------
# Handle exported/imported includes
# Recursively calculate flags
$(foreach export,$(EXPORTS_LIST), \
$(eval EXPORTS.$$(export) = $$(EXPORTS.$(export).FLAGS) \
$(foreach dep,$(EXPORTS.$(export).REEXPORT),$$(EXPORTS.$(dep)))))
# Recursively calculate dependencies
$(foreach export,$(EXPORTS_LIST), \
$(eval EXPORT_DEPS.$$(export) = $$(EXPORTS.$(export).DEPS) \
$(foreach dep,$(EXPORTS.$(export).REEXPORT),$$(EXPORT_DEPS.$(dep)))))
# Converts the recursive variables to simple variables so that we don't have to
# evaluate them for every .o rule
$(foreach export,$(EXPORTS_LIST),$(eval EXPORTS.$$(export) := $$(strip $$(EXPORTS.$$(export)))))
$(foreach export,$(EXPORTS_LIST),$(eval EXPORT_DEPS.$$(export) := $$(sort $$(EXPORT_DEPS.$$(export)))))
# Add dependencies
$(foreach export,$(EXPORTS_LIST),$(eval $(call add-dependency,$$(EXPORTS.$$(export).USERS),$$(EXPORT_DEPS.$$(export)))))
# -------------------------------------------------------------------
# Figure out our module sets.
#
# Of the modules defined by the component makefiles,
# determine what we actually want to build.
# Expand a list of modules to the modules that they override (if any)
# $(1): The list of modules.
define module-overrides
$(foreach m,$(1),$(PACKAGES.$(m).OVERRIDES) $(EXECUTABLES.$(m).OVERRIDES) $(SHARED_LIBRARIES.$(m).OVERRIDES))
endef
###########################################################
## Expand a module name list with REQUIRED modules
###########################################################
# $(1): The variable name that holds the initial module name list.
# the variable will be modified to hold the expanded results.
# $(2): The initial module name list.
# $(3): The list of overridden modules.
# Returns empty string (maybe with some whitespaces).
define expand-required-modules
$(eval _erm_req := $(foreach m,$(2),$(ALL_MODULES.$(m).REQUIRED_FROM_TARGET))) \
$(eval _erm_new_modules := $(sort $(filter-out $($(1)),$(_erm_req)))) \
$(eval _erm_new_overrides := $(call module-overrides,$(_erm_new_modules))) \
$(eval _erm_all_overrides := $(3) $(_erm_new_overrides)) \
$(eval _erm_new_modules := $(filter-out $(_erm_all_overrides), $(_erm_new_modules))) \
$(eval $(1) := $(filter-out $(_erm_new_overrides),$($(1)))) \
$(eval $(1) += $(_erm_new_modules)) \
$(if $(_erm_new_modules),\
$(call expand-required-modules,$(1),$(_erm_new_modules),$(_erm_all_overrides)))
endef
# Same as expand-required-modules above, but does not handle module overrides, as
# we don't intend to support them on the host.
# $(1): The variable name that holds the initial module name list.
# the variable will be modified to hold the expanded results.
# $(2): The initial module name list.
# $(3): HOST or HOST_CROSS depending on whether we're expanding host or host cross modules
# Returns empty string (maybe with some whitespaces).
define expand-required-host-modules
$(eval _erm_req := $(foreach m,$(2),$(ALL_MODULES.$(m).REQUIRED_FROM_$(3)))) \
$(eval _erm_new_modules := $(sort $(filter-out $($(1)),$(_erm_req)))) \
$(eval $(1) += $(_erm_new_modules)) \
$(if $(_erm_new_modules),\
$(call expand-required-host-modules,$(1),$(_erm_new_modules),$(3)))
endef
# Transforms paths relative to PRODUCT_OUT to absolute paths.
# $(1): list of relative paths
# $(2): optional suffix to append to paths
define resolve-product-relative-paths
$(subst $(_vendor_path_placeholder),$(TARGET_COPY_OUT_VENDOR),\
$(subst $(_product_path_placeholder),$(TARGET_COPY_OUT_PRODUCT),\
$(subst $(_system_ext_path_placeholder),$(TARGET_COPY_OUT_SYSTEM_EXT),\
$(subst $(_odm_path_placeholder),$(TARGET_COPY_OUT_ODM),\
$(foreach p,$(1),$(call append-path,$(PRODUCT_OUT),$(p)$(2)))))))
endef
# Returns modules included automatically as a result of certain BoardConfig
# variables being set.
define auto-included-modules
$(if $(BOARD_VNDK_VERSION),vndk_package) \
$(if $(DEVICE_MANIFEST_FILE),device_manifest.xml) \
$(if $(ODM_MANIFEST_FILES),odm_manifest.xml) \
$(if $(ODM_MANIFEST_SKUS),$(foreach sku, $(ODM_MANIFEST_SKUS),odm_manifest_$(sku).xml)) \
endef
# Lists most of the files a particular product installs, including:
# - PRODUCT_PACKAGES, and their LOCAL_REQUIRED_MODULES
# - PRODUCT_COPY_FILES
# The base list of modules to build for this product is specified
# by the appropriate product definition file, which was included
# by product_config.mk.
# Name resolution for PRODUCT_PACKAGES:
# foo:32 resolves to foo_32;
# foo:64 resolves to foo;
# foo resolves to both foo and foo_32 (if foo_32 is defined).
#
# Name resolution for LOCAL_REQUIRED_MODULES:
# If a module is built for 2nd arch, its required module resolves to
# 32-bit variant, if it exits. See the select-bitness-of-required-modules definition.
# $(1): product makefile
define product-installed-files
$(eval _mk := $(strip $(1))) \
$(eval _pif_modules := \
$(PRODUCTS.$(_mk).PRODUCT_PACKAGES) \
$(if $(filter eng,$(tags_to_install)),$(PRODUCTS.$(_mk).PRODUCT_PACKAGES_ENG)) \
$(if $(filter debug,$(tags_to_install)),$(PRODUCTS.$(_mk).PRODUCT_PACKAGES_DEBUG)) \
$(if $(filter tests,$(tags_to_install)),$(PRODUCTS.$(_mk).PRODUCT_PACKAGES_TESTS)) \
$(if $(filter asan,$(tags_to_install)),$(PRODUCTS.$(_mk).PRODUCT_PACKAGES_DEBUG_ASAN)) \
$(if $(filter java_coverage,$(tags_to_install)),$(PRODUCTS.$(_mk).PRODUCT_PACKAGES_DEBUG_JAVA_COVERAGE)) \
$(call auto-included-modules) \
) \
$(eval ### Filter out the overridden packages and executables before doing expansion) \
$(eval _pif_overrides := $(call module-overrides,$(_pif_modules))) \
$(eval _pif_modules := $(filter-out $(_pif_overrides), $(_pif_modules))) \
$(eval ### Resolve the :32 :64 module name) \
$(eval _pif_modules_32 := $(patsubst %:32,%,$(filter %:32, $(_pif_modules)))) \
$(eval _pif_modules_64 := $(patsubst %:64,%,$(filter %:64, $(_pif_modules)))) \
$(eval _pif_modules_rest := $(filter-out %:32 %:64,$(_pif_modules))) \
$(eval ### Note for 32-bit product, 32 and 64 will be added as their original module names.) \
$(eval _pif_modules := $(call get-32-bit-modules-if-we-can, $(_pif_modules_32))) \
$(eval _pif_modules += $(_pif_modules_64)) \
$(eval ### For the rest we add both) \
$(eval _pif_modules += $(call get-32-bit-modules, $(_pif_modules_rest))) \
$(eval _pif_modules += $(_pif_modules_rest)) \
$(call expand-required-modules,_pif_modules,$(_pif_modules),$(_pif_overrides)) \
$(filter-out $(HOST_OUT_ROOT)/%,$(call module-installed-files, $(_pif_modules))) \
$(call resolve-product-relative-paths,\
$(foreach cf,$(PRODUCTS.$(_mk).PRODUCT_COPY_FILES),$(call word-colon,2,$(cf))))
endef
# Similar to product-installed-files above, but handles PRODUCT_HOST_PACKAGES instead
# This does support the :32 / :64 syntax, but does not support module overrides.
define host-installed-files
$(eval _hif_modules := $(PRODUCTS.$(strip $(1)).PRODUCT_HOST_PACKAGES)) \
$(eval ### Resolve the :32 :64 module name) \
$(eval _hif_modules_32 := $(patsubst %:32,%,$(filter %:32, $(_hif_modules)))) \
$(eval _hif_modules_64 := $(patsubst %:64,%,$(filter %:64, $(_hif_modules)))) \
$(eval _hif_modules_rest := $(filter-out %:32 %:64,$(_hif_modules))) \
$(eval _hif_modules := $(call get-host-32-bit-modules-if-we-can, $(_hif_modules_32))) \
$(eval _hif_modules += $(_hif_modules_64)) \
$(eval ### For the rest we add both) \
$(eval _hif_modules += $(call get-host-32-bit-modules, $(_hif_modules_rest))) \
$(eval _hif_modules += $(_hif_modules_rest)) \
$(eval ### Split host vs host cross modules) \
$(eval _hcif_modules := $(filter host_cross_%,$(_hif_modules))) \
$(eval _hif_modules := $(filter-out host_cross_%,$(_hif_modules))) \
$(call expand-required-host-modules,_hif_modules,$(_hif_modules),HOST) \
$(call expand-required-host-modules,_hcif_modules,$(_hcif_modules),HOST_CROSS) \
$(filter $(HOST_OUT)/%,$(call module-installed-files, $(_hif_modules))) \
$(filter $(HOST_CROSS_OUT)/%,$(call module-installed-files, $(_hcif_modules)))
endef
# Fails the build if the given list is non-empty, and prints it entries (stripping PRODUCT_OUT).
# $(1): list of files to print
# $(2): heading to print on failure
define maybe-print-list-and-error
$(if $(strip $(1)), \
$(warning $(2)) \
$(info Offending entries:) \
$(foreach e,$(sort $(1)),$(info $(patsubst $(PRODUCT_OUT)/%,%,$(e)))) \
$(error Build failed) \
)
endef
# Check that libraries that should only be in APEXes don't end up in the system
# image. For the Runtime APEX this complements the checks in
# art/build/apex/art_apex_test.py.
# TODO(b/128708192): Implement this restriction in Soong instead.
# Runtime APEX libraries
APEX_MODULE_LIBS := \
libadbconnection.so \
libadbconnectiond.so \
libandroidicu.so \
libandroidio.so \
libart-compiler.so \
libart-dexlayout.so \
libart-disassembler.so \
libart.so \
libartbase.so \
libartbased.so \
libartd-compiler.so \
libartd-dexlayout.so \
libartd.so \
libartpalette.so \
libc.so \
libc_malloc_debug.so \
libc_malloc_hooks.so \
libdexfile.so \
libdexfile_external.so \
libdexfiled.so \
libdexfiled_external.so \
libdl.so \
libdt_fd_forward.so \
libdt_socket.so \
libicui18n.so \
libicuuc.so \
libicu_jni.so \
libjavacore.so \
libjdwp.so \
libm.so \
libnativebridge.so \
libnativehelper.so \
libnativeloader.so \
libneuralnetworks.so \
libnpt.so \
libopenjdk.so \
libopenjdkjvm.so \
libopenjdkjvmd.so \
libopenjdkjvmti.so \
libopenjdkjvmtid.so \
libpac.so \
libprofile.so \
libprofiled.so \
libsigchain.so \
# Conscrypt APEX libraries
APEX_MODULE_LIBS += \
libjavacrypto.so \
# An option to disable the check below, for local use since some build targets
# still may create these libraries in /system (b/129006418).
DISABLE_APEX_LIBS_ABSENCE_CHECK ?=
# Bionic should not be in /system, except for the bootstrap instance.
APEX_LIBS_ABSENCE_CHECK_EXCLUDE := lib/bootstrap lib64/bootstrap
# Exclude lib/arm and lib64/arm64 which contain the native bridge proxy libs. They
# are compiled for the guest architecture and used with an entirely different
# linker config. The native libs are then linked to as usual via exported
# interfaces, so the proxy libs do not violate the interface boundaries on the
# native architecture.
# TODO(b/130630776): Introduce a make variable for the appropriate directory
# when native bridge is active.
APEX_LIBS_ABSENCE_CHECK_EXCLUDE += lib/arm lib64/arm64
ifdef TARGET_NATIVE_BRIDGE_RELATIVE_PATH
APEX_LIBS_ABSENCE_CHECK_EXCLUDE += lib/$(TARGET_NATIVE_BRIDGE_RELATIVE_PATH) lib64/$(TARGET_NATIVE_BRIDGE_RELATIVE_PATH)
endif
ifdef TARGET_NATIVE_BRIDGE_2ND_RELATIVE_PATH
APEX_LIBS_ABSENCE_CHECK_EXCLUDE += lib/$(TARGET_NATIVE_BRIDGE_2ND_RELATIVE_PATH) lib64/$(TARGET_NATIVE_BRIDGE_2ND_RELATIVE_PATH)
endif
# Exclude vndk-* subdirectories which contain prebuilts from older releases.
APEX_LIBS_ABSENCE_CHECK_EXCLUDE += lib/vndk-% lib64/vndk-%
ifdef DISABLE_APEX_LIBS_ABSENCE_CHECK
check-apex-libs-absence :=
check-apex-libs-absence-on-disk :=
else
# If the check below fails, some library has ended up in system/lib or
# system/lib64 that is intended to only go into some APEX package. The likely
# cause is that a library or binary in /system has grown a dependency that
# directly or indirectly pulls in the prohibited library.
#
# To resolve this, look for the APEX package that the library belong to -
# search for it in 'native_shared_lib' properties in 'apex' build modules (see
# art/build/apex/Android.bp for an example). Then check if there is an
# exported library in that APEX package that should be used instead, i.e. one
# listed in its 'native_shared_lib' property for which the corresponding
# 'cc_library' module has a 'stubs' clause (like libdexfile_external in
# art/libdexfile/Android.bp).
#
# If you cannot find an APEX exported library that fits your needs, or you
# think that the library you want to depend on should be allowed in /system,
# then please contact the owners of the APEX package containing the library.
#
# If you get this error for a library that is exported in an APEX, then the
# APEX might be misconfigured or something is wrong in the build system.
# Please reach out to the APEX package owners and/or soong-team@, or
# android-building@googlegroups.com externally.
define check-apex-libs-absence
$(call maybe-print-list-and-error, \
$(filter $(foreach lib,$(APEX_MODULE_LIBS),%/$(lib)), \
$(filter-out $(foreach dir,$(APEX_LIBS_ABSENCE_CHECK_EXCLUDE), \
$(TARGET_OUT)/$(if $(findstring %,$(dir)),$(dir),$(dir)/%)), \
$(filter $(TARGET_OUT)/lib/% $(TARGET_OUT)/lib64/%,$(1)))), \
APEX libraries found in product_target_FILES (see comment for check-apex-libs-absence in \
build/make/core/main.mk for details))
endef
# TODO(b/129006418): The check above catches libraries through product
# dependencies visible to make, but as long as they have install rules in
# /system they may still be created there through other make targets. To catch
# that we also do a check on disk just before the system image is built.
# NB: This check may fail if you have built intermediate targets in the out
# tree earlier, e.g. "m <some lib in APEX_MODULE_LIBS>". In that case, please
# try "m installclean && m systemimage" to get a correct system image. For
# local work you can also disable the check with the
# DISABLE_APEX_LIBS_ABSENCE_CHECK environment variable.
define check-apex-libs-absence-on-disk
$(hide) ( \
cd $(TARGET_OUT) && \
findres=$$(find lib* \
$(foreach dir,$(APEX_LIBS_ABSENCE_CHECK_EXCLUDE),-path "$(subst %,*,$(dir))" -prune -o) \
-type f \( -false $(foreach lib,$(APEX_MODULE_LIBS),-o -name $(lib)) \) \
-print) && \
if [ -n "$$findres" ]; then \
echo "APEX libraries found in system image in TARGET_OUT (see comments for" 1>&2; \
echo "check-apex-libs-absence and check-apex-libs-absence-on-disk in" 1>&2; \
echo "build/make/core/main.mk for details):" 1>&2; \
echo "$$findres" | sort 1>&2; \
false; \
fi; \
)
endef
endif
# TODO(b/142944799): Implement Java library absence check for Core Libraries.
ifdef FULL_BUILD
ifneq (true,$(ALLOW_MISSING_DEPENDENCIES))
# Check to ensure that all modules in PRODUCT_PACKAGES exist (opt in per product)
ifeq (true,$(PRODUCT_ENFORCE_PACKAGES_EXIST))
_whitelist := $(PRODUCT_ENFORCE_PACKAGES_EXIST_WHITELIST)
_modules := $(PRODUCT_PACKAGES)
# Strip :32 and :64 suffixes
_modules := $(patsubst %:32,%,$(_modules))
_modules := $(patsubst %:64,%,$(_modules))
# Sanity check all modules in PRODUCT_PACKAGES exist. We check for the
# existence if either <module> or the <module>_32 variant.
_nonexistent_modules := $(filter-out $(ALL_MODULES),$(_modules))
_nonexistent_modules := $(foreach m,$(_nonexistent_modules),\
$(if $(call get-32-bit-modules,$(m)),,$(m)))
$(call maybe-print-list-and-error,$(filter-out $(_whitelist),$(_nonexistent_modules)),\
$(INTERNAL_PRODUCT) includes non-existent modules in PRODUCT_PACKAGES)
$(call maybe-print-list-and-error,$(filter-out $(_nonexistent_modules),$(_whitelist)),\
$(INTERNAL_PRODUCT) includes redundant whitelist entries for nonexistent PRODUCT_PACKAGES)
endif
# Check to ensure that all modules in PRODUCT_HOST_PACKAGES exist
#
# Many host modules are Linux-only, so skip this check on Mac. If we ever have Mac-only modules,
# maybe it would make sense to have PRODUCT_HOST_PACKAGES_LINUX/_DARWIN?
ifneq ($(HOST_OS),darwin)
_modules := $(PRODUCT_HOST_PACKAGES)
# Strip :32 and :64 suffixes
_modules := $(patsubst %:32,%,$(_modules))
_modules := $(patsubst %:64,%,$(_modules))
_nonexistent_modules := $(foreach m,$(_modules),\
$(if $(ALL_MODULES.$(m).REQUIRED_FROM_HOST)$(filter $(HOST_OUT_ROOT)/%,$(ALL_MODULES.$(m).INSTALLED)),,$(m)))
$(call maybe-print-list-and-error,$(_nonexistent_modules),\
$(INTERNAL_PRODUCT) includes non-existent modules in PRODUCT_HOST_PACKAGES)
endif
endif
# Some modules produce only host installed files when building with TARGET_BUILD_APPS
ifeq ($(TARGET_BUILD_APPS),)
_modules := $(foreach m,$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGES) \
$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGES_DEBUG) \
$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGES_DEBUG_ASAN) \
$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGES_ENG) \
$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGES_TESTS),\
$(if $(ALL_MODULES.$(m).INSTALLED),\
$(if $(filter-out $(HOST_OUT_ROOT)/%,$(ALL_MODULES.$(m).INSTALLED)),,\
$(m))))
$(call maybe-print-list-and-error,$(sort $(_modules)),\
Host modules should be in PRODUCT_HOST_PACKAGES$(comma) not PRODUCT_PACKAGES)
endif
product_host_FILES := $(call host-installed-files,$(INTERNAL_PRODUCT))
product_target_FILES := $(call product-installed-files, $(INTERNAL_PRODUCT))
# WARNING: The product_MODULES variable is depended on by external files.
product_MODULES := $(_pif_modules)
# Verify the artifact path requirements made by included products.
is_asan := $(if $(filter address,$(SANITIZE_TARGET)),true)
ifneq (true,$(or $(is_asan),$(DISABLE_ARTIFACT_PATH_REQUIREMENTS)))
# Fakes don't get installed, host files are irrelevant, and NDK stubs aren't installed to device.
static_whitelist_patterns := $(TARGET_OUT_FAKE)/% $(HOST_OUT)/% $(SOONG_OUT_DIR)/ndk/%
# RROs become REQUIRED by the source module, but are always placed on the vendor partition.
static_whitelist_patterns += %__auto_generated_rro_product.apk
static_whitelist_patterns += %__auto_generated_rro_vendor.apk
# Auto-included targets are not considered
static_whitelist_patterns += $(call module-installed-files,$(call auto-included-modules))
# $(PRODUCT_OUT)/apex is where shared libraries in APEXes get installed.
# The path can be considered as a fake path, as the shared libraries
# are installed there just to have symbols files for them under
# $(PRODUCT_OUT)/symbols/apex for debugging purpose. The /apex directory
# is never compiled into a filesystem image.
static_whitelist_patterns += $(PRODUCT_OUT)/apex/%
ifeq (true,$(BOARD_USES_SYSTEM_OTHER_ODEX))
# Allow system_other odex space optimization.
static_whitelist_patterns += \
$(TARGET_OUT_SYSTEM_OTHER)/%.odex \
$(TARGET_OUT_SYSTEM_OTHER)/%.vdex \
$(TARGET_OUT_SYSTEM_OTHER)/%.art
endif
CERTIFICATE_VIOLATION_MODULES_FILENAME := $(PRODUCT_OUT)/certificate_violation_modules.txt
$(CERTIFICATE_VIOLATION_MODULES_FILENAME):
rm -f $@
$(foreach m,$(sort $(CERTIFICATE_VIOLATION_MODULES)), echo $(m) >> $@;)
$(call dist-for-goals,droidcore,$(CERTIFICATE_VIOLATION_MODULES_FILENAME))
all_offending_files :=
$(foreach makefile,$(ARTIFACT_PATH_REQUIREMENT_PRODUCTS),\
$(eval requirements := $(PRODUCTS.$(makefile).ARTIFACT_PATH_REQUIREMENTS)) \
$(eval ### Verify that the product only produces files inside its path requirements.) \
$(eval whitelist := $(PRODUCTS.$(makefile).ARTIFACT_PATH_WHITELIST)) \
$(eval path_patterns := $(call resolve-product-relative-paths,$(requirements),%)) \
$(eval whitelist_patterns := $(call resolve-product-relative-paths,$(whitelist))) \
$(eval files := $(call product-installed-files, $(makefile))) \
$(eval offending_files := $(filter-out $(path_patterns) $(whitelist_patterns) $(static_whitelist_patterns),$(files))) \
$(call maybe-print-list-and-error,$(offending_files),\
$(makefile) produces files outside its artifact path requirement. \
Allowed paths are $(subst $(space),$(comma)$(space),$(addsuffix *,$(requirements)))) \
$(eval unused_whitelist := $(filter-out $(files),$(whitelist_patterns))) \
$(call maybe-print-list-and-error,$(unused_whitelist),$(makefile) includes redundant whitelist entries in its artifact path requirement.) \
$(eval ### Optionally verify that nothing else produces files inside this artifact path requirement.) \
$(eval extra_files := $(filter-out $(files) $(HOST_OUT)/%,$(product_target_FILES))) \
$(eval files_in_requirement := $(filter $(path_patterns),$(extra_files))) \
$(eval all_offending_files += $(files_in_requirement)) \
$(eval whitelist := $(PRODUCT_ARTIFACT_PATH_REQUIREMENT_WHITELIST)) \
$(eval whitelist_patterns := $(call resolve-product-relative-paths,$(whitelist))) \
$(eval offending_files := $(filter-out $(whitelist_patterns),$(files_in_requirement))) \
$(eval enforcement := $(PRODUCT_ENFORCE_ARTIFACT_PATH_REQUIREMENTS)) \
$(if $(enforcement),\
$(call maybe-print-list-and-error,$(offending_files),\
$(INTERNAL_PRODUCT) produces files inside $(makefile)s artifact path requirement. \
$(PRODUCT_ARTIFACT_PATH_REQUIREMENT_HINT)) \
$(eval unused_whitelist := $(if $(filter true strict,$(enforcement)),\
$(foreach p,$(whitelist_patterns),$(if $(filter $(p),$(extra_files)),,$(p))))) \
$(call maybe-print-list-and-error,$(unused_whitelist),$(INTERNAL_PRODUCT) includes redundant artifact path requirement whitelist entries.) \
) \
)
$(PRODUCT_OUT)/offending_artifacts.txt:
rm -f $@
$(foreach f,$(sort $(all_offending_files)),echo $(f) >> $@;)
endif
$(call check-apex-libs-absence,$(product_target_FILES))
else
# We're not doing a full build, and are probably only including
# a subset of the module makefiles. Don't try to build any modules
# requested by the product, because we probably won't have rules
# to build them.
product_target_FILES :=
product_host_FILES :=
endif
# TODO: Remove the 3 places in the tree that use ALL_DEFAULT_INSTALLED_MODULES
# and get rid of it from this list.
modules_to_install := $(sort \
$(ALL_DEFAULT_INSTALLED_MODULES) \
$(product_target_FILES) \
$(product_host_FILES) \
$(CUSTOM_MODULES) \
)
# Don't include any GNU General Public License shared objects or static
# libraries in SDK images. GPL executables (not static/dynamic libraries)
# are okay if they don't link against any closed source libraries (directly
# or indirectly)
# It's ok (and necessary) to build the host tools, but nothing that's
# going to be installed on the target (including static libraries).
ifdef is_sdk_build
target_gnu_MODULES := \
$(filter \
$(TARGET_OUT_INTERMEDIATES)/% \
$(TARGET_OUT)/% \
$(TARGET_OUT_DATA)/%, \
$(sort $(call get-tagged-modules,gnu)))
target_gnu_MODULES := $(filter-out $(TARGET_OUT_EXECUTABLES)/%,$(target_gnu_MODULES))
target_gnu_MODULES := $(filter-out %/libopenjdkjvmti.so,$(target_gnu_MODULES))
target_gnu_MODULES := $(filter-out %/libopenjdkjvmtid.so,$(target_gnu_MODULES))
$(info Removing from sdk:)$(foreach d,$(target_gnu_MODULES),$(info : $(d)))
modules_to_install := \
$(filter-out $(target_gnu_MODULES),$(modules_to_install))
# Ensure every module listed in PRODUCT_PACKAGES* gets something installed
# TODO: Should we do this for all builds and not just the sdk?
dangling_modules :=
$(foreach m, $(PRODUCT_PACKAGES), \
$(if $(strip $(ALL_MODULES.$(m).INSTALLED) $(ALL_MODULES.$(m)$(TARGET_2ND_ARCH_MODULE_SUFFIX).INSTALLED)),,\
$(eval dangling_modules += $(m))))
ifneq ($(dangling_modules),)
$(warning: Modules '$(dangling_modules)' in PRODUCT_PACKAGES have nothing to install!)
endif
$(foreach m, $(PRODUCT_PACKAGES_DEBUG), \
$(if $(strip $(ALL_MODULES.$(m).INSTALLED)),,\
$(warning $(ALL_MODULES.$(m).MAKEFILE): Module '$(m)' in PRODUCT_PACKAGES_DEBUG has nothing to install!)))
$(foreach m, $(PRODUCT_PACKAGES_ENG), \
$(if $(strip $(ALL_MODULES.$(m).INSTALLED)),,\
$(warning $(ALL_MODULES.$(m).MAKEFILE): Module '$(m)' in PRODUCT_PACKAGES_ENG has nothing to install!)))
$(foreach m, $(PRODUCT_PACKAGES_TESTS), \
$(if $(strip $(ALL_MODULES.$(m).INSTALLED)),,\
$(warning $(ALL_MODULES.$(m).MAKEFILE): Module '$(m)' in PRODUCT_PACKAGES_TESTS has nothing to install!)))
endif
# build/make/core/Makefile contains extra stuff that we don't want to pollute this
# top-level makefile with. It expects that ALL_DEFAULT_INSTALLED_MODULES
# contains everything that's built during the current make, but it also further
# extends ALL_DEFAULT_INSTALLED_MODULES.
ALL_DEFAULT_INSTALLED_MODULES := $(modules_to_install)
include $(BUILD_SYSTEM)/Makefile
modules_to_install := $(sort $(ALL_DEFAULT_INSTALLED_MODULES))
ALL_DEFAULT_INSTALLED_MODULES :=
# These are additional goals that we build, in order to make sure that there
# is as little code as possible in the tree that doesn't build.
modules_to_check := $(foreach m,$(ALL_MODULES),$(ALL_MODULES.$(m).CHECKED))
# If you would like to build all goals, and not skip any intermediate
# steps, you can pass the "all" modifier goal on the commandline.
ifneq ($(filter all,$(MAKECMDGOALS)),)
modules_to_check += $(foreach m,$(ALL_MODULES),$(ALL_MODULES.$(m).BUILT))
endif
# Build docs as part of checkbuild to catch more breakages.
module_to_check += $(ALL_DOCS)
# for easier debugging
modules_to_check := $(sort $(modules_to_check))
#$(error modules_to_check $(modules_to_check))
# -------------------------------------------------------------------
# This is used to to get the ordering right, you can also use these,
# but they're considered undocumented, so don't complain if their
# behavior changes.
# An internal target that depends on all copied headers
# (see copy_headers.make). Other targets that need the
# headers to be copied first can depend on this target.
.PHONY: all_copied_headers
all_copied_headers: ;
$(ALL_C_CPP_ETC_OBJECTS): | all_copied_headers
# All the droid stuff, in directories
.PHONY: files
files: $(modules_to_install) \
$(INSTALLED_ANDROID_INFO_TXT_TARGET)
# -------------------------------------------------------------------
.PHONY: checkbuild
checkbuild: $(modules_to_check) droid_targets check-elf-files
ifeq (true,$(ANDROID_BUILD_EVERYTHING_BY_DEFAULT))
droid: checkbuild
endif
.PHONY: ramdisk
ramdisk: $(INSTALLED_RAMDISK_TARGET)
.PHONY: ramdisk_debug
ramdisk_debug: $(INSTALLED_DEBUG_RAMDISK_TARGET)
.PHONY: ramdisk_test_harness
ramdisk_test_harness: $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET)
.PHONY: userdataimage
userdataimage: $(INSTALLED_USERDATAIMAGE_TARGET)
ifneq (,$(filter userdataimage, $(MAKECMDGOALS)))
$(call dist-for-goals, userdataimage, $(BUILT_USERDATAIMAGE_TARGET))
endif
.PHONY: cacheimage
cacheimage: $(INSTALLED_CACHEIMAGE_TARGET)
.PHONY: bptimage
bptimage: $(INSTALLED_BPTIMAGE_TARGET)
.PHONY: vendorimage
vendorimage: $(INSTALLED_VENDORIMAGE_TARGET)
.PHONY: vendorbootimage
vendorbootimage: $(INSTALLED_VENDOR_BOOTIMAGE_TARGET)
.PHONY: productimage
productimage: $(INSTALLED_PRODUCTIMAGE_TARGET)
.PHONY: systemextimage
systemextimage: $(INSTALLED_SYSTEM_EXTIMAGE_TARGET)
.PHONY: odmimage
odmimage: $(INSTALLED_ODMIMAGE_TARGET)
.PHONY: systemotherimage
systemotherimage: $(INSTALLED_SYSTEMOTHERIMAGE_TARGET)
.PHONY: superimage_empty
superimage_empty: $(INSTALLED_SUPERIMAGE_EMPTY_TARGET)
.PHONY: bootimage
bootimage: $(INSTALLED_BOOTIMAGE_TARGET)
.PHONY: bootimage_debug
bootimage_debug: $(INSTALLED_DEBUG_BOOTIMAGE_TARGET)
.PHONY: bootimage_test_harness
bootimage_test_harness: $(INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET)
.PHONY: vbmetaimage
vbmetaimage: $(INSTALLED_VBMETAIMAGE_TARGET)
.PHONY: auxiliary
auxiliary: $(INSTALLED_AUX_TARGETS)
# Build files and then package it into the rom formats
.PHONY: droidcore
droidcore: $(filter $(HOST_OUT_ROOT)/%,$(modules_to_install)) \
$(INSTALLED_SYSTEMIMAGE_TARGET) \
$(INSTALLED_RAMDISK_TARGET) \
$(INSTALLED_BOOTIMAGE_TARGET) \
$(INSTALLED_RADIOIMAGE_TARGET) \
$(INSTALLED_DEBUG_RAMDISK_TARGET) \
$(INSTALLED_DEBUG_BOOTIMAGE_TARGET) \
$(INSTALLED_RECOVERYIMAGE_TARGET) \
$(INSTALLED_VBMETAIMAGE_TARGET) \
$(INSTALLED_USERDATAIMAGE_TARGET) \
$(INSTALLED_CACHEIMAGE_TARGET) \
$(INSTALLED_BPTIMAGE_TARGET) \
$(INSTALLED_VENDORIMAGE_TARGET) \
$(INSTALLED_VENDOR_BOOTIMAGE_TARGET) \
$(INSTALLED_ODMIMAGE_TARGET) \
$(INSTALLED_SUPERIMAGE_EMPTY_TARGET) \
$(INSTALLED_PRODUCTIMAGE_TARGET) \
$(INSTALLED_SYSTEMOTHERIMAGE_TARGET) \
$(INSTALLED_FILES_FILE) \
$(INSTALLED_FILES_JSON) \
$(INSTALLED_FILES_FILE_VENDOR) \
$(INSTALLED_FILES_JSON_VENDOR) \
$(INSTALLED_FILES_FILE_ODM) \
$(INSTALLED_FILES_JSON_ODM) \
$(INSTALLED_FILES_FILE_PRODUCT) \
$(INSTALLED_FILES_JSON_PRODUCT) \
$(INSTALLED_FILES_FILE_SYSTEM_EXT) \
$(INSTALLED_FILES_JSON_SYSTEM_EXT) \
$(INSTALLED_FILES_FILE_SYSTEMOTHER) \
$(INSTALLED_FILES_JSON_SYSTEMOTHER) \
$(INSTALLED_FILES_FILE_RAMDISK) \
$(INSTALLED_FILES_JSON_RAMDISK) \
$(INSTALLED_FILES_FILE_DEBUG_RAMDISK) \
$(INSTALLED_FILES_JSON_DEBUG_RAMDISK) \
$(INSTALLED_FILES_FILE_ROOT) \
$(INSTALLED_FILES_JSON_ROOT) \
$(INSTALLED_FILES_FILE_RECOVERY) \
$(INSTALLED_FILES_JSON_RECOVERY) \
$(INSTALLED_ANDROID_INFO_TXT_TARGET) \
auxiliary \
soong_docs
# dist_files only for putting your library into the dist directory with a full build.
.PHONY: dist_files
.PHONY: apps_only
ifneq ($(TARGET_BUILD_APPS),)
# If this build is just for apps, only build apps and not the full system by default.
unbundled_build_modules :=
ifneq ($(filter all,$(TARGET_BUILD_APPS)),)
# If they used the magic goal "all" then build all apps in the source tree.
unbundled_build_modules := $(foreach m,$(sort $(ALL_MODULES)),$(if $(filter APPS,$(ALL_MODULES.$(m).CLASS)),$(m)))
else
unbundled_build_modules := $(TARGET_BUILD_APPS)
endif
# Dist the installed files if they exist.
apps_only_installed_files := $(foreach m,$(unbundled_build_modules),$(ALL_MODULES.$(m).INSTALLED))
$(call dist-for-goals,apps_only, $(apps_only_installed_files))
# Dist the bundle files if they exist.
apps_only_bundle_files := $(foreach m,$(unbundled_build_modules),\
$(if $(ALL_MODULES.$(m).BUNDLE),$(ALL_MODULES.$(m).BUNDLE):$(m)-base.zip))
$(call dist-for-goals,apps_only, $(apps_only_bundle_files))
# For uninstallable modules such as static Java library, we have to dist the built file,
# as <module_name>.<suffix>
apps_only_dist_built_files := $(foreach m,$(unbundled_build_modules),$(if $(ALL_MODULES.$(m).INSTALLED),,\
$(if $(ALL_MODULES.$(m).BUILT),$(ALL_MODULES.$(m).BUILT):$(m)$(suffix $(ALL_MODULES.$(m).BUILT)))\
$(if $(ALL_MODULES.$(m).AAR),$(ALL_MODULES.$(m).AAR):$(m).aar)\
))
$(call dist-for-goals,apps_only, $(apps_only_dist_built_files))
ifeq ($(EMMA_INSTRUMENT),true)
$(JACOCO_REPORT_CLASSES_ALL) : $(apps_only_installed_files)
$(call dist-for-goals,apps_only, $(JACOCO_REPORT_CLASSES_ALL))
endif
$(PROGUARD_DICT_ZIP) : $(apps_only_installed_files)
$(call dist-for-goals,apps_only, $(PROGUARD_DICT_ZIP))
$(SYMBOLS_ZIP) : $(apps_only_installed_files)
$(call dist-for-goals,apps_only, $(SYMBOLS_ZIP))
$(COVERAGE_ZIP) : $(apps_only_installed_files)
$(call dist-for-goals,apps_only, $(COVERAGE_ZIP))
apps_only: $(unbundled_build_modules)
droid_targets: apps_only
# Combine the NOTICE files for a apps_only build
$(eval $(call combine-notice-files, html, \
$(target_notice_file_txt), \
$(target_notice_file_html_or_xml), \
"Notices for files for apps:", \
$(TARGET_OUT_NOTICE_FILES), \
$(apps_only_installed_files)))
else # TARGET_BUILD_APPS
$(call dist-for-goals, droidcore, \
$(INTERNAL_UPDATE_PACKAGE_TARGET) \
$(INTERNAL_OTA_PACKAGE_TARGET) \
$(INTERNAL_OTA_METADATA) \
$(INTERNAL_OTA_RETROFIT_DYNAMIC_PARTITIONS_PACKAGE_TARGET) \
$(BUILT_OTATOOLS_PACKAGE) \
$(SYMBOLS_ZIP) \
$(PROGUARD_DICT_ZIP) \
$(COVERAGE_ZIP) \
$(APPCOMPAT_ZIP) \
$(INSTALLED_FILES_FILE) \
$(INSTALLED_FILES_JSON) \
$(INSTALLED_FILES_FILE_VENDOR) \
$(INSTALLED_FILES_JSON_VENDOR) \
$(INSTALLED_FILES_FILE_ODM) \
$(INSTALLED_FILES_JSON_ODM) \
$(INSTALLED_FILES_FILE_PRODUCT) \
$(INSTALLED_FILES_JSON_PRODUCT) \
$(INSTALLED_FILES_FILE_SYSTEM_EXT) \
$(INSTALLED_FILES_JSON_SYSTEM_EXT) \
$(INSTALLED_FILES_FILE_SYSTEMOTHER) \
$(INSTALLED_FILES_JSON_SYSTEMOTHER) \
$(INSTALLED_FILES_FILE_RECOVERY) \
$(INSTALLED_FILES_JSON_RECOVERY) \
$(INSTALLED_BUILD_PROP_TARGET) \
$(BUILT_TARGET_FILES_PACKAGE) \
$(INSTALLED_ANDROID_INFO_TXT_TARGET) \
$(INSTALLED_RAMDISK_TARGET) \
)
# Put a copy of the radio/bootloader files in the dist dir.
$(foreach f,$(INSTALLED_RADIOIMAGE_TARGET), \
$(call dist-for-goals, droidcore, $(f)))
ifneq ($(ANDROID_BUILD_EMBEDDED),true)
ifneq ($(TARGET_BUILD_PDK),true)
$(call dist-for-goals, droidcore, \
$(APPS_ZIP) \
$(INTERNAL_EMULATOR_PACKAGE_TARGET) \
)
endif
endif
$(call dist-for-goals, droidcore, \
$(INSTALLED_FILES_FILE_ROOT) \
$(INSTALLED_FILES_JSON_ROOT) \
)
ifneq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true)
$(call dist-for-goals, droidcore, \
$(INSTALLED_FILES_FILE_RAMDISK) \
$(INSTALLED_FILES_JSON_RAMDISK) \
$(INSTALLED_FILES_FILE_DEBUG_RAMDISK) \
$(INSTALLED_FILES_JSON_DEBUG_RAMDISK) \
$(INSTALLED_DEBUG_RAMDISK_TARGET) \
$(INSTALLED_DEBUG_BOOTIMAGE_TARGET) \
)
$(call dist-for-goals, bootimage_test_harness, \
$(INSTALLED_TEST_HARNESS_RAMDISK_TARGET) \
$(INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET) \
)
endif
ifeq ($(EMMA_INSTRUMENT),true)
$(JACOCO_REPORT_CLASSES_ALL) : $(INSTALLED_SYSTEMIMAGE_TARGET)
$(call dist-for-goals, dist_files, $(JACOCO_REPORT_CLASSES_ALL))
endif
# Put XML formatted API files in the dist dir.
$(TARGET_OUT_COMMON_INTERMEDIATES)/api.xml: $(call java-lib-header-files,android_stubs_current) $(APICHECK)
$(TARGET_OUT_COMMON_INTERMEDIATES)/system-api.xml: $(call java-lib-header-files,android_system_stubs_current) $(APICHECK)
$(TARGET_OUT_COMMON_INTERMEDIATES)/test-api.xml: $(call java-lib-header-files,android_test_stubs_current) $(APICHECK)
api_xmls := $(addprefix $(TARGET_OUT_COMMON_INTERMEDIATES)/,api.xml system-api.xml test-api.xml)
$(api_xmls):
$(hide) echo "Converting API file to XML: $@"
$(hide) mkdir -p $(dir $@)
$(hide) $(APICHECK_COMMAND) --input-api-jar $< --api-xml $@
$(call dist-for-goals, dist_files, $(api_xmls))
api_xmls :=
# Building a full system-- the default is to build droidcore
droid_targets: droidcore dist_files
endif # TARGET_BUILD_APPS
.PHONY: docs
docs: $(ALL_DOCS)
.PHONY: sdk win_sdk winsdk-tools sdk_addon
ALL_SDK_TARGETS := $(INTERNAL_SDK_TARGET)
sdk: $(ALL_SDK_TARGETS)
$(call dist-for-goals,sdk win_sdk, \
$(ALL_SDK_TARGETS) \
$(SYMBOLS_ZIP) \
$(COVERAGE_ZIP) \
$(APPCOMPAT_ZIP) \
$(INSTALLED_BUILD_PROP_TARGET) \
)
# umbrella targets to assit engineers in verifying builds
.PHONY: java native target host java-host java-target native-host native-target \
java-host-tests java-target-tests native-host-tests native-target-tests \
java-tests native-tests host-tests target-tests tests java-dex \
native-host-cross
# some synonyms
.PHONY: host-java target-java host-native target-native \
target-java-tests target-native-tests
host-java : java-host
target-java : java-target
host-native : native-host
target-native : native-target
target-java-tests : java-target-tests
target-native-tests : native-target-tests
tests : host-tests target-tests
# Phony target to run all java compilations that use javac
.PHONY: javac-check
.PHONY: findbugs
findbugs: $(INTERNAL_FINDBUGS_HTML_TARGET) $(INTERNAL_FINDBUGS_XML_TARGET)
LSDUMP_PATHS_FILE := $(PRODUCT_OUT)/lsdump_paths.txt
.PHONY: findlsdumps
# LSDUMP_PATHS is a list of tag:path.
findlsdumps: $(LSDUMP_PATHS_FILE) $(foreach p,$(LSDUMP_PATHS),$(call word-colon,2,$(p)))
$(LSDUMP_PATHS_FILE): PRIVATE_LSDUMP_PATHS := $(LSDUMP_PATHS)
$(LSDUMP_PATHS_FILE):
@echo "Generate $@"
@rm -rf $@ && echo -e "$(subst :,:$(space),$(subst $(space),\n,$(PRIVATE_LSDUMP_PATHS)))" > $@
.PHONY: check-elf-files
check-elf-files:
#xxx scrape this from ALL_MODULE_NAME_TAGS
.PHONY: modules
modules:
@echo "Available sub-modules:"
@echo "$(call module-names-for-tag-list,$(ALL_MODULE_TAGS))" | \
tr -s ' ' '\n' | sort -u
.PHONY: dump-files
dump-files:
$(info product_target_FILES for $(TARGET_DEVICE) ($(INTERNAL_PRODUCT)):)
$(foreach p,$(sort $(product_target_FILES)),$(info : $(p)))
@echo Successfully dumped product file list
.PHONY: nothing
nothing:
@echo Successfully read the makefiles.
.PHONY: tidy_only
tidy_only:
@echo Successfully make tidy_only.
ndk: $(SOONG_OUT_DIR)/ndk.timestamp
.PHONY: ndk
$(call dist-write-file,$(KATI_PACKAGE_MK_DIR)/dist.mk)
$(info [$(call inc_and_print,subdir_makefiles_inc)/$(subdir_makefiles_total)] writing build rules ...)