platform_build/core/main.mk
Yifan Hong acd862aed3 Add BOARD_BUILD_SUPER_IMAGE_BY_DEFAULT flag.
If set to true,
- super.img is built from images in $PRODUCT_OUT
- super.img is built to $PRODUCT_OUT
- super.img is built when 'make'.

'make dist' still builds super image from images in target files to
intermediates directory.

This flag is useful for virtual devices, but isn't intended to be set for
actual devices. For actual devices, userspace fastboot should flash
super_empty.img and individual user images separately.

Test: on cuttlefish (flag is set),
      make            # generates $OUT/super.img
      make superimage # generates $OUT/super.img
Test: on real non-retrofit DAP device (flag is not set)
      make            # no super.img is generated
      make superimage # generates $OUT/obj/PACKAGING/.../super.img
      make dist       # generates out/dist/super.img

Bug: 113175337

Change-Id: Ieb81e4fbb663bb4b69e9962c3fa9f16b03aeb907
2019-04-25 10:51:35 -07:00

1765 lines
68 KiB
Makefile

# Only use ANDROID_BUILD_SHELL to wrap around bash.
# DO NOT use other shells such as zsh.
ifdef ANDROID_BUILD_SHELL
SHELL := $(ANDROID_BUILD_SHELL)
else
# Use bash, not whatever shell somebody has installed as /bin/sh
# This is repeated in config.mk, since envsetup.sh runs that file
# directly.
SHELL := /bin/bash
endif
ifndef KATI
host_prebuilts := linux-x86
ifeq ($(shell uname),Darwin)
host_prebuilts := darwin-x86
endif
.PHONY: run_soong_ui
run_soong_ui:
+@prebuilts/build-tools/$(host_prebuilts)/bin/makeparallel --ninja build/soong/soong_ui.bash --make-mode $(MAKECMDGOALS)
.PHONY: $(MAKECMDGOALS)
$(sort $(MAKECMDGOALS)) : run_soong_ui
@#empty
else # KATI
$(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)
TOP := .
TOPDIR :=
# 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
$(KATI_obsolete_var BUILD_NUMBER,See https://android.googlesource.com/platform/build/+/master/Changes.md#BUILD_NUMBER)
ifeq ($(HOST_OS),darwin)
DATE_FROM_FILE := date -r $(BUILD_DATETIME_FROM_FILE)
else
DATE_FROM_FILE := date -d @$(BUILD_DATETIME_FROM_FILE)
endif
.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
# 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
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
#
# -----------------------------------------------------------------
# Enable dynamic linker warnings for userdebug, eng and non-REL builds
ifneq ($(TARGET_BUILD_VARIANT),user)
ADDITIONAL_BUILD_PROPERTIES += ro.bionic.ld.warning=1
else
# Enable it for user builds as long as they are not final.
ifneq ($(PLATFORM_VERSION_CODENAME),REL)
ADDITIONAL_BUILD_PROPERTIES += ro.bionic.ld.warning=1
endif
endif
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
ifeq ($(PRODUCT_USE_DYNAMIC_PARTITIONS),true)
ADDITIONAL_PRODUCT_PROPERTIES += ro.boot.dynamic_partitions=true
endif
ifeq ($(PRODUCT_RETROFIT_DYNAMIC_PARTITIONS),true)
ADDITIONAL_PRODUCT_PROPERTIES += ro.boot.dynamic_partitions_retrofit=true
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
## 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 ($(ONE_SHOT_MAKEFILE),)
# We've probably been invoked by the "mm" shell function
# with a subdirectory's makefile.
include $(SOONG_ANDROID_MK) $(wildcard $(ONE_SHOT_MAKEFILE))
# Change CUSTOM_MODULES to include only modules that were
# defined by this makefile; this will install all of those
# modules as a side-effect. Do this after including ONE_SHOT_MAKEFILE
# so that the modules will be installed in the same place they
# would have been with a normal make.
CUSTOM_MODULES := $(sort $(call get-tagged-modules,$(ALL_MODULE_TAGS)))
# A helper goal printing out install paths
define register_module_install_path
.PHONY: GET-MODULE-INSTALL-PATH-$(1)
GET-MODULE-INSTALL-PATH-$(1):
echo 'INSTALL-PATH: $(1) $(ALL_MODULES.$(1).INSTALLED)'
endef
SORTED_ALL_MODULES := $(sort $(ALL_MODULES))
UNIQUE_ALL_MODULES :=
$(foreach m,$(SORTED_ALL_MODULES),\
$(if $(call streq,$(m),$(lastword $(UNIQUE_ALL_MODULES))),,\
$(eval UNIQUE_ALL_MODULES += $(m))))
SORTED_ALL_MODULES :=
$(foreach mod,$(UNIQUE_ALL_MODULES),$(if $(ALL_MODULES.$(mod).INSTALLED),\
$(eval $(call register_module_install_path,$(mod)))\
$(foreach path,$(ALL_MODULES.$(mod).PATH),\
$(eval my_path_prefix := GET-INSTALL-PATH-IN)\
$(foreach component,$(subst /,$(space),$(path)),\
$(eval my_path_prefix := $$(my_path_prefix)-$$(component))\
$(eval .PHONY: $$(my_path_prefix))\
$(eval $$(my_path_prefix): GET-MODULE-INSTALL-PATH-$(mod))))))
UNIQUE_ALL_MODULES :=
else # ONE_SHOT_MAKEFILE
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
endif # ONE_SHOT_MAKEFILE
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.
ifneq ($(TARGET_TRANSLATE_2ND_ARCH),true)
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
else # TARGET_TRANSLATE_2ND_ARCH
# For binary translation config, by default only install the first arch.
define get-32-bit-modules
endef
define get-32-bit-modules-if-we-can
$(strip $(1))
endef
endif # TARGET_TRANSLATE_2ND_ARCH
# 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)
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
# The intermediate filename for link type rules
#
# APPS are special -- they have up to three different rules:
# 1. The COMMON rule for Java libraries
# 2. The jni_link_type rule for embedded native code
# 3. The 2ND_jni_link_type for the second architecture native code
define link-type-file
$(eval _ltf_aux_variant:=$(link-type-aux-variant))\
$(if $(_ltf_aux_variant),$(call aux-variant-load-env,$(_ltf_aux_variant)))\
$(call intermediates-dir-for,$(link-type-class),$(link-type-name),$(filter AUX HOST HOST_CROSS,$(link-type-prefix)),$(link-type-common),$(link-type-2ndarchprefix),$(filter HOST_CROSS,$(link-type-prefix)))/$(if $(filter APPS,$(link-type-class)),$(if $(link-type-common),,$(link-type-2ndarchprefix)jni_))link_type\
$(if $(_ltf_aux_variant),$(call aux-variant-load-env,none))\
$(eval _ltf_aux_variant:=)
endef
# Write out the file-based link_type rules for the ALLOW_MISSING_DEPENDENCIES
# case. We always need to write the file for mm to work, but only need to
# check it if we weren't able to check it when reading the Android.mk files.
define link-type-file-rule
my_link_type_deps := $(foreach l,$($(1).DEPS),$(call link-type-file,$(l)))
my_link_type_file := $(call link-type-file,$(1))
$($(1).BUILT): | $$(my_link_type_file)
$$(my_link_type_file): PRIVATE_DEPS := $$(my_link_type_deps)
ifeq ($($(1).MISSING),true)
$$(my_link_type_file): $(CHECK_LINK_TYPE)
endif
$$(my_link_type_file): $$(my_link_type_deps)
@echo Check module type: $$@
$$(hide) mkdir -p $$(dir $$@) && rm -f $$@
ifeq ($($(1).MISSING),true)
$$(hide) $(CHECK_LINK_TYPE) --makefile $($(1).MAKEFILE) --module $(link-type-name) \
--type "$($(1).TYPE)" $(addprefix --allowed ,$($(1).ALLOWED)) \
$(addprefix --warn ,$($(1).WARN)) $$(PRIVATE_DEPS)
endif
$$(hide) echo "$($(1).TYPE)" >$$@
endef
$(foreach lt,$(ALL_LINK_TYPES),\
$(eval $(call link-type-file-rule,$(lt))))
# -------------------------------------------------------------------
# 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 $(_product_services_path_placeholder),$(TARGET_COPY_OUT_PRODUCT_SERVICES),\
$(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)) \
$(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)))) \
$(error Build failed) \
)
endef
ifdef FULL_BUILD
ifneq (true,$(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)
# Sanity check all modules in PRODUCT_PACKAGES exist. We check for the
# existence if either <module> or the <module>_32 variant.
_nonexistant_modules := $(filter-out $(ALL_MODULES),$(_modules))
_nonexistant_modules := $(foreach m,$(_nonexistant_modules),\
$(if $(call get-32-bit-modules,$(m)),,$(m)))
$(call maybe-print-list-and-error,$(filter-out $(_whitelist),$(_nonexistant_modules)),\
$(INTERNAL_PRODUCT) includes non-existant modules in PRODUCT_PACKAGES)
$(call maybe-print-list-and-error,$(filter-out $(_nonexistant_modules),$(_whitelist)),\
$(INTERNAL_PRODUCT) includes redundant whitelist entries for nonexistant PRODUCT_PACKAGES)
endif
# Check to ensure that all modules in PRODUCT_HOST_PACKAGES exist
#
# Many host modules are Linux-only, so skip this check on Mac. If we ever have Mac-only modules,
# maybe it would make sense to have PRODUCT_HOST_PACKAGES_LINUX/_DARWIN?
ifneq ($(HOST_OS),darwin)
_modules := $(PRODUCT_HOST_PACKAGES)
_nonexistant_modules := $(foreach m,$(_modules),\
$(if $(ALL_MODULES.$(m).REQUIRED_FROM_HOST)$(filter $(HOST_OUT_ROOT)/%,$(ALL_MODULES.$(m).INSTALLED)),,$(m)))
$(call maybe-print-list-and-error,$(_nonexistant_modules),\
$(INTERNAL_PRODUCT) includes non-existant modules in PRODUCT_HOST_PACKAGES)
endif
endif
# Some modules produce only host installed files when building with TARGET_BUILD_APPS
ifeq ($(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.) \
$(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
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) \
$(call get-tagged-modules,$(tags_to_install)) \
$(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: $(modules_to_check) droid_targets
ifeq (true,$(ANDROID_BUILD_EVERYTHING_BY_DEFAULT))
droid: checkbuild
endif
.PHONY: ramdisk
ramdisk: $(INSTALLED_RAMDISK_TARGET)
.PHONY: ramdisk_debug
ramdisk_debug: $(INSTALLED_DEBUG_RAMDISK_TARGET)
.PHONY: systemtarball
systemtarball: $(INSTALLED_SYSTEMTARBALL_TARGET)
.PHONY: boottarball
boottarball: $(INSTALLED_BOOTTARBALL_TARGET)
.PHONY: userdataimage
userdataimage: $(INSTALLED_USERDATAIMAGE_TARGET)
ifneq (,$(filter userdataimage, $(MAKECMDGOALS)))
$(call dist-for-goals, userdataimage, $(BUILT_USERDATAIMAGE_TARGET))
endif
.PHONY: userdatatarball
userdatatarball: $(INSTALLED_USERDATATARBALL_TARGET)
.PHONY: cacheimage
cacheimage: $(INSTALLED_CACHEIMAGE_TARGET)
.PHONY: bptimage
bptimage: $(INSTALLED_BPTIMAGE_TARGET)
.PHONY: vendorimage
vendorimage: $(INSTALLED_VENDORIMAGE_TARGET)
.PHONY: productimage
productimage: $(INSTALLED_PRODUCTIMAGE_TARGET)
.PHONY: productservicesimage
productservicesimage: $(INSTALLED_PRODUCT_SERVICESIMAGE_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: 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_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_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_PRODUCT_SERVICES) \
$(INSTALLED_FILES_JSON_PRODUCT_SERVICES) \
$(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) \
$(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_PRODUCT_SERVICES) \
$(INSTALLED_FILES_JSON_PRODUCT_SERVICES) \
$(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) \
$(PACKAGE_STATS_FILE) \
)
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) \
$(INSTALLED_DEBUG_BOOTIMAGE_TARGET) \
)
endif
ifeq ($(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) \
$(INSTALLED_BUILD_PROP_TARGET) \
)
# umbrella targets to assit engineers in verifying builds
.PHONY: java native target host java-host java-target native-host native-target \
java-host-tests java-target-tests native-host-tests native-target-tests \
java-tests native-tests host-tests target-tests tests java-dex \
native-host-cross
# some synonyms
.PHONY: host-java target-java host-native target-native \
target-java-tests target-native-tests
host-java : java-host
target-java : java-target
host-native : native-host
target-native : native-target
target-java-tests : java-target-tests
target-native-tests : native-target-tests
tests : host-tests target-tests
# Phony target to run all java compilations that use javac
.PHONY: javac-check
ifneq (,$(filter samplecode, $(MAKECMDGOALS)))
.PHONY: samplecode
sample_MODULES := $(sort $(call get-tagged-modules,samples))
sample_APKS_DEST_PATH := $(TARGET_COMMON_OUT_ROOT)/samples
sample_APKS_COLLECTION := \
$(foreach module,$(sample_MODULES),$(sample_APKS_DEST_PATH)/$(notdir $(module)))
$(foreach module,$(sample_MODULES),$(eval $(call \
copy-one-file,$(module),$(sample_APKS_DEST_PATH)/$(notdir $(module)))))
sample_ADDITIONAL_INSTALLED := \
$(filter-out $(modules_to_install) $(modules_to_check),$(sample_MODULES))
samplecode: $(sample_APKS_COLLECTION)
@echo "Collect sample code apks: $^"
# remove apks that are not intended to be installed.
rm -f $(sample_ADDITIONAL_INSTALLED)
endif # samplecode in $(MAKECMDGOALS)
.PHONY: findbugs
findbugs: $(INTERNAL_FINDBUGS_HTML_TARGET) $(INTERNAL_FINDBUGS_XML_TARGET)
LSDUMP_PATHS_FILE := $(PRODUCT_OUT)/lsdump_paths.txt
.PHONY: findlsdumps
findlsdumps: $(LSDUMP_PATHS_FILE) $(LSDUMP_PATHS)
$(LSDUMP_PATHS_FILE): PRIVATE_LSDUMP_PATHS := $(LSDUMP_PATHS)
$(LSDUMP_PATHS_FILE):
@echo "Generate $@"
@rm -rf $@ && echo "$(PRIVATE_LSDUMP_PATHS)" | sed -e 's/ /\n/g' > $@
.PHONY: check-elf-files
check-elf-files:
#xxx scrape this from ALL_MODULE_NAME_TAGS
.PHONY: modules
modules:
@echo "Available sub-modules:"
@echo "$(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 ...)
endif # KATI