platform_build/core/binary.mk

1434 lines
59 KiB
Makefile

###########################################################
## Standard rules for building binary object files from
## asm/c/cpp/yacc/lex/etc source files.
##
## The list of object files is exported in $(all_objects).
###########################################################
#######################################
include $(BUILD_SYSTEM)/base_rules.mk
#######################################
##################################################
# Compute the dependency of the shared libraries
##################################################
# On the target, we compile with -nostdlib, so we must add in the
# default system shared libraries, unless they have requested not
# to by supplying a LOCAL_SYSTEM_SHARED_LIBRARIES value. One would
# supply that, for example, when building libc itself.
ifdef LOCAL_IS_HOST_MODULE
ifeq ($(LOCAL_SYSTEM_SHARED_LIBRARIES),none)
my_system_shared_libraries :=
else
my_system_shared_libraries := $(LOCAL_SYSTEM_SHARED_LIBRARIES)
endif
else
ifeq ($(LOCAL_SYSTEM_SHARED_LIBRARIES),none)
my_system_shared_libraries := libc libm
else
my_system_shared_libraries := $(LOCAL_SYSTEM_SHARED_LIBRARIES)
endif
endif
# The following LOCAL_ variables will be modified in this file.
# Because the same LOCAL_ variables may be used to define modules for both 1st arch and 2nd arch,
# we can't modify them in place.
my_src_files := $(LOCAL_SRC_FILES)
my_src_files_exclude := $(LOCAL_SRC_FILES_EXCLUDE)
my_static_libraries := $(LOCAL_STATIC_LIBRARIES)
my_whole_static_libraries := $(LOCAL_WHOLE_STATIC_LIBRARIES)
my_shared_libraries := $(LOCAL_SHARED_LIBRARIES)
my_cflags := $(LOCAL_CFLAGS)
my_conlyflags := $(LOCAL_CONLYFLAGS)
my_cppflags := $(LOCAL_CPPFLAGS)
my_cflags_no_override := $(GLOBAL_CFLAGS_NO_OVERRIDE)
my_cppflags_no_override := $(GLOBAL_CPPFLAGS_NO_OVERRIDE)
my_ldflags := $(LOCAL_LDFLAGS)
my_ldlibs := $(LOCAL_LDLIBS)
my_asflags := $(LOCAL_ASFLAGS)
my_cc := $(LOCAL_CC)
my_cc_wrapper := $(CC_WRAPPER)
my_cxx := $(LOCAL_CXX)
my_cxx_wrapper := $(CXX_WRAPPER)
my_c_includes := $(LOCAL_C_INCLUDES)
my_generated_sources := $(LOCAL_GENERATED_SOURCES)
my_native_coverage := $(LOCAL_NATIVE_COVERAGE)
my_additional_dependencies := $(LOCAL_MODULE_MAKEFILE_DEP) $(LOCAL_ADDITIONAL_DEPENDENCIES)
my_export_c_include_dirs := $(LOCAL_EXPORT_C_INCLUDE_DIRS)
ifdef LOCAL_IS_HOST_MODULE
my_allow_undefined_symbols := true
else
my_allow_undefined_symbols := $(strip $(LOCAL_ALLOW_UNDEFINED_SYMBOLS))
endif
my_ndk_sysroot :=
my_ndk_sysroot_include :=
my_ndk_sysroot_lib :=
ifdef LOCAL_SDK_VERSION
ifdef LOCAL_NDK_VERSION
$(error $(LOCAL_PATH): LOCAL_NDK_VERSION is now retired.)
endif
ifdef LOCAL_IS_HOST_MODULE
$(error $(LOCAL_PATH): LOCAL_SDK_VERSION cannot be used in host module)
endif
my_ndk_source_root := $(HISTORICAL_NDK_VERSIONS_ROOT)/current/sources
my_ndk_sysroot := $(HISTORICAL_NDK_VERSIONS_ROOT)/current/platforms/android-$(LOCAL_SDK_VERSION)/arch-$(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)
my_ndk_sysroot_include := $(my_ndk_sysroot)/usr/include
# x86_64 and and mips64 are both multilib toolchains, so their libraries are
# installed in /usr/lib64. Aarch64, on the other hand, is not a multilib
# compiler, so its libraries are in /usr/lib.
#
# Mips32r6 is yet another variation, with libraries installed in libr6.
#
# For the rest, the libraries are installed simply to /usr/lib.
ifneq (,$(filter x86_64 mips64,$(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)))
my_ndk_sysroot_lib := $(my_ndk_sysroot)/usr/lib64
else ifeq (mips32r6,$(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH_VARIANT))
my_ndk_sysroot_lib := $(my_ndk_sysroot)/usr/libr6
else
my_ndk_sysroot_lib := $(my_ndk_sysroot)/usr/lib
endif
# The bionic linker now has support for packed relocations and gnu style
# hashes (which are much faster!), but shipping to older devices requires
# the old style hash. Fortunately, we can build with both and it'll work
# anywhere.
#
# This is not currently supported on MIPS architectures.
ifeq (,$(filter mips mips64,$(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)))
my_ldflags += -Wl,--hash-style=both
endif
# We don't want to expose the relocation packer to the NDK just yet.
LOCAL_PACK_MODULE_RELOCATIONS := false
# Set up the NDK stl variant. Starting from NDK-r5 the c++ stl resides in a separate location.
# See ndk/docs/CPLUSPLUS-SUPPORT.html
my_ndk_stl_include_path :=
my_ndk_stl_shared_lib_fullpath :=
my_ndk_stl_shared_lib :=
my_ndk_stl_static_lib :=
my_ndk_stl_cppflags :=
my_cpu_variant := $(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)CPU_ABI)
ifeq (mips32r6,$(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH_VARIANT))
my_cpu_variant := mips32r6
endif
LOCAL_NDK_STL_VARIANT := $(strip $(LOCAL_NDK_STL_VARIANT))
ifeq (,$(LOCAL_NDK_STL_VARIANT))
LOCAL_NDK_STL_VARIANT := system
endif
ifneq (1,$(words $(filter none system stlport_static stlport_shared c++_static c++_shared gnustl_static, $(LOCAL_NDK_STL_VARIANT))))
$(error $(LOCAL_PATH): Unknown LOCAL_NDK_STL_VARIANT $(LOCAL_NDK_STL_VARIANT))
endif
ifeq (system,$(LOCAL_NDK_STL_VARIANT))
my_ndk_stl_include_path := $(my_ndk_source_root)/cxx-stl/system/include
my_system_shared_libraries += libstdc++
else # LOCAL_NDK_STL_VARIANT is not system
ifneq (,$(filter stlport_%, $(LOCAL_NDK_STL_VARIANT)))
my_ndk_stl_include_path := $(my_ndk_source_root)/cxx-stl/stlport/stlport
my_system_shared_libraries += libstdc++
ifeq (stlport_static,$(LOCAL_NDK_STL_VARIANT))
my_ndk_stl_static_lib := $(my_ndk_source_root)/cxx-stl/stlport/libs/$(my_cpu_variant)/libstlport_static.a
else
my_ndk_stl_shared_lib_fullpath := $(my_ndk_source_root)/cxx-stl/stlport/libs/$(my_cpu_variant)/libstlport_shared.so
my_ndk_stl_shared_lib := -lstlport_shared
endif
else # LOCAL_NDK_STL_VARIANT is not stlport_* either
ifneq (,$(filter c++_%, $(LOCAL_NDK_STL_VARIANT)))
my_ndk_stl_include_path := $(my_ndk_source_root)/cxx-stl/llvm-libc++/libcxx/include \
$(my_ndk_source_root)/cxx-stl/llvm-libc++/gabi++/include \
$(my_ndk_source_root)/android/support/include
ifeq (c++_static,$(LOCAL_NDK_STL_VARIANT))
my_ndk_stl_static_lib := $(my_ndk_source_root)/cxx-stl/llvm-libc++/libs/$(my_cpu_variant)/libc++_static.a
else
my_ndk_stl_shared_lib_fullpath := $(my_ndk_source_root)/cxx-stl/llvm-libc++/libs/$(my_cpu_variant)/libc++_shared.so
my_ndk_stl_shared_lib := -lc++_shared
endif
my_ndk_stl_cppflags := -std=c++11
else # LOCAL_NDK_STL_VARIANT is not c++_* either
ifneq (,$(filter gnustl_%, $(LOCAL_NDK_STL_VARIANT)))
my_ndk_stl_include_path := $(my_ndk_source_root)/cxx-stl/gnu-libstdc++/$($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_NDK_GCC_VERSION)/libs/$(my_cpu_variant)/include \
$(my_ndk_source_root)/cxx-stl/gnu-libstdc++/$($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_NDK_GCC_VERSION)/include
my_ndk_stl_static_lib := $(my_ndk_source_root)/cxx-stl/gnu-libstdc++/$($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_NDK_GCC_VERSION)/libs/$(my_cpu_variant)/libgnustl_static.a
else # LOCAL_NDK_STL_VARIANT must be none
# Do nothing.
endif
endif
endif
endif
endif
# MinGW spits out warnings about -fPIC even for -fpie?!) being ignored because
# all code is position independent, and then those warnings get promoted to
# errors.
ifneq ($($(my_prefix)OS),windows)
ifeq ($(LOCAL_MODULE_CLASS),EXECUTABLES)
my_cflags += -fpie
else
my_cflags += -fPIC
endif
endif
ifdef LOCAL_IS_HOST_MODULE
my_src_files += $(LOCAL_SRC_FILES_$($(my_prefix)OS)) $(LOCAL_SRC_FILES_$($(my_prefix)OS)_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH))
my_static_libraries += $(LOCAL_STATIC_LIBRARIES_$($(my_prefix)OS))
my_shared_libraries += $(LOCAL_SHARED_LIBRARIES_$($(my_prefix)OS))
my_cflags += $(LOCAL_CFLAGS_$($(my_prefix)OS))
my_cppflags += $(LOCAL_CPPFLAGS_$($(my_prefix)OS))
my_ldflags += $(LOCAL_LDFLAGS_$($(my_prefix)OS))
my_ldlibs += $(LOCAL_LDLIBS_$($(my_prefix)OS))
my_asflags += $(LOCAL_ASFLAGS_$($(my_prefix)OS))
my_c_includes += $(LOCAL_C_INCLUDES_$($(my_prefix)OS))
my_generated_sources += $(LOCAL_GENERATED_SOURCES_$($(my_prefix)OS))
endif
my_src_files += $(LOCAL_SRC_FILES_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_SRC_FILES_$(my_32_64_bit_suffix))
my_src_files_exclude += $(LOCAL_SRC_FILES_EXCLUDE_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_SRC_FILES_EXCLUDE_$(my_32_64_bit_suffix))
my_shared_libraries += $(LOCAL_SHARED_LIBRARIES_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_SHARED_LIBRARIES_$(my_32_64_bit_suffix))
my_cflags += $(LOCAL_CFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CFLAGS_$(my_32_64_bit_suffix))
my_cppflags += $(LOCAL_CPPFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CPPFLAGS_$(my_32_64_bit_suffix))
my_ldflags += $(LOCAL_LDFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_LDFLAGS_$(my_32_64_bit_suffix))
my_asflags += $(LOCAL_ASFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_ASFLAGS_$(my_32_64_bit_suffix))
my_c_includes += $(LOCAL_C_INCLUDES_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_C_INCLUDES_$(my_32_64_bit_suffix))
my_generated_sources += $(LOCAL_GENERATED_SOURCES_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_GENERATED_SOURCES_$(my_32_64_bit_suffix))
my_missing_exclude_files := $(filter-out $(my_src_files),$(my_src_files_exclude))
ifneq ($(my_missing_exclude_files),)
$(warning Files are listed in LOCAL_SRC_FILES_EXCLUDE but not LOCAL_SRC_FILES)
$(error $(my_missing_exclude_files))
endif
my_src_files := $(filter-out $(my_src_files_exclude),$(my_src_files))
my_clang := $(strip $(LOCAL_CLANG))
ifdef LOCAL_CLANG_$(my_32_64_bit_suffix)
my_clang := $(strip $(LOCAL_CLANG_$(my_32_64_bit_suffix)))
endif
ifdef LOCAL_CLANG_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)
my_clang := $(strip $(LOCAL_CLANG_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)))
endif
# clang is enabled by default for host builds
# enable it unless we've specifically disabled clang above
ifdef LOCAL_IS_HOST_MODULE
ifneq ($($(my_prefix)OS),windows)
ifeq ($(my_clang),)
my_clang := true
endif
endif
# Add option to make clang the default for device build
else ifeq ($(USE_CLANG_PLATFORM_BUILD),true)
ifeq ($(my_clang),)
my_clang := true
endif
endif
my_cpp_std_version := -std=gnu++14
ifneq ($(my_clang),true)
# GCC uses an invalid C++14 ABI (emits calls to
# __cxa_throw_bad_array_length, which is not a valid C++ RT ABI).
# http://b/25022512
my_cpp_std_version := -std=gnu++11
endif
ifdef LOCAL_SDK_VERSION
# The NDK handles this itself.
my_cpp_std_version :=
endif
ifdef LOCAL_IS_HOST_MODULE
ifneq ($(my_clang),true)
# The host GCC doesn't support C++14 (and is deprecated, so likely
# never will). Build these modules with C++11.
my_cpp_std_version := -std=gnu++11
endif
endif
my_cppflags := $(my_cpp_std_version) $(my_cppflags)
# arch-specific static libraries go first so that generic ones can depend on them
my_static_libraries := $(LOCAL_STATIC_LIBRARIES_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_STATIC_LIBRARIES_$(my_32_64_bit_suffix)) $(my_static_libraries)
my_whole_static_libraries := $(LOCAL_WHOLE_STATIC_LIBRARIES_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_WHOLE_STATIC_LIBRARIES_$(my_32_64_bit_suffix)) $(my_whole_static_libraries)
include $(BUILD_SYSTEM)/cxx_stl_setup.mk
# Add static HAL libraries
ifdef LOCAL_HAL_STATIC_LIBRARIES
$(foreach lib, $(LOCAL_HAL_STATIC_LIBRARIES), \
$(eval b_lib := $(filter $(lib).%,$(BOARD_HAL_STATIC_LIBRARIES)))\
$(if $(b_lib), $(eval my_static_libraries += $(b_lib)),\
$(eval my_static_libraries += $(lib).default)))
b_lib :=
endif
ifneq ($(strip $(CUSTOM_$(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)LINKER)),)
my_linker := $(CUSTOM_$(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)LINKER)
else
my_linker := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_LINKER)
endif
include $(BUILD_SYSTEM)/config_sanitizers.mk
# Add in libcompiler_rt for all regular device builds
ifeq (,$(LOCAL_SDK_VERSION)$(WITHOUT_LIBCOMPILER_RT))
my_static_libraries += $(COMPILER_RT_CONFIG_EXTRA_STATIC_LIBRARIES)
endif
####################################################
## Add FDO flags if FDO is turned on and supported
## Please note that we will do option filtering during FDO build.
## i.e. Os->O2, remove -fno-early-inline and -finline-limit.
##################################################################
my_fdo_build :=
ifneq ($(filter true always, $(LOCAL_FDO_SUPPORT)),)
ifeq ($(BUILD_FDO_INSTRUMENT),true)
my_cflags += $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_FDO_INSTRUMENT_CFLAGS)
my_ldflags += $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_FDO_INSTRUMENT_LDFLAGS)
my_fdo_build := true
else ifneq ($(filter true,$(BUILD_FDO_OPTIMIZE))$(filter always,$(LOCAL_FDO_SUPPORT)),)
my_cflags += $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_FDO_OPTIMIZE_CFLAGS)
my_fdo_build := true
endif
# Disable ccache (or other compiler wrapper) except gomacc, which
# can handle -fprofile-use properly.
my_cc_wrapper := $(filter $(GOMA_CC),$(my_cc_wrapper))
my_cxx_wrapper := $(filter $(GOMA_CC),$(my_cxx_wrapper))
endif
###########################################################
## Explicitly declare assembly-only __ASSEMBLY__ macro for
## assembly source
###########################################################
my_asflags += -D__ASSEMBLY__
###########################################################
## Define PRIVATE_ variables from global vars
###########################################################
ifndef LOCAL_IS_HOST_MODULE
ifdef LOCAL_SDK_VERSION
my_target_project_includes :=
my_target_c_includes := $(my_ndk_stl_include_path) $(my_ndk_sysroot_include)
my_target_global_cppflags := $(my_ndk_stl_cppflags)
else
my_target_project_includes := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_PROJECT_INCLUDES)
my_target_c_includes := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_C_INCLUDES)
my_target_global_cppflags :=
endif # LOCAL_SDK_VERSION
ifeq ($(my_clang),true)
my_target_global_cflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_TARGET_GLOBAL_CFLAGS)
my_target_global_conlyflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_TARGET_GLOBAL_CONLYFLAGS)
my_target_global_cppflags += $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_TARGET_GLOBAL_CPPFLAGS)
my_target_global_ldflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_TARGET_GLOBAL_LDFLAGS)
else
my_target_global_cflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_GLOBAL_CFLAGS)
my_target_global_conlyflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_GLOBAL_CONLYFLAGS)
my_target_global_cppflags += $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_GLOBAL_CPPFLAGS)
my_target_global_ldflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_GLOBAL_LDFLAGS)
endif # my_clang
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_PROJECT_INCLUDES := $(my_target_project_includes)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_C_INCLUDES := $(my_target_c_includes)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_GLOBAL_CFLAGS := $(my_target_global_cflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_GLOBAL_CONLYFLAGS := $(my_target_global_conlyflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_GLOBAL_CPPFLAGS := $(my_target_global_cppflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_GLOBAL_LDFLAGS := $(my_target_global_ldflags)
else # LOCAL_IS_HOST_MODULE
ifeq ($(my_clang),true)
my_host_global_cflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_$(my_prefix)GLOBAL_CFLAGS)
my_host_global_conlyflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_$(my_prefix)GLOBAL_CONLYFLAGS)
my_host_global_cppflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_$(my_prefix)GLOBAL_CPPFLAGS)
my_host_global_ldflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)CLANG_$(my_prefix)GLOBAL_LDFLAGS)
my_host_c_includes := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)C_INCLUDES)
else
my_host_global_cflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)GLOBAL_CFLAGS)
my_host_global_conlyflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)GLOBAL_CONLYFLAGS)
my_host_global_cppflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)GLOBAL_CPPFLAGS)
my_host_global_ldflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)GLOBAL_LDFLAGS)
my_host_c_includes := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)C_INCLUDES)
endif # my_clang
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_HOST_C_INCLUDES := $(my_host_c_includes)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_HOST_GLOBAL_CFLAGS := $(my_host_global_cflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_HOST_GLOBAL_CONLYFLAGS := $(my_host_global_conlyflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_HOST_GLOBAL_CPPFLAGS := $(my_host_global_cppflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_HOST_GLOBAL_LDFLAGS := $(my_host_global_ldflags)
endif # LOCAL_IS_HOST_MODULE
# To enable coverage for a given module, set LOCAL_NATIVE_COVERAGE=true and
# build with NATIVE_COVERAGE=true in your enviornment. Note that the build
# system is not sensitive to changes to NATIVE_COVERAGE, so you should do a
# clean build of your module after toggling it.
ifeq ($(NATIVE_COVERAGE),true)
ifeq ($(my_native_coverage),true)
# Note that clang coverage doesn't play nicely with acov out of the box.
# Clang apparently generates .gcno files that aren't compatible with
# gcov-4.8. This can be solved by installing gcc-4.6 and invoking lcov
# with `--gcov-tool /usr/bin/gcov-4.6`.
#
# http://stackoverflow.com/questions/17758126/clang-code-coverage-invalid-output
my_cflags += --coverage -O0
my_ldflags += --coverage
endif
else
my_native_coverage := false
endif
ifeq ($(my_clang),true)
my_coverage_lib := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_LIBPROFILE_RT)
else
my_coverage_lib := $($(LOCAL_2ND_ARCH_VAR_PREFIX)TARGET_LIBGCOV)
endif
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_TARGET_COVERAGE_LIB := $(my_coverage_lib)
###########################################################
## Define PRIVATE_ variables used by multiple module types
###########################################################
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_NO_DEFAULT_COMPILER_FLAGS := \
$(strip $(LOCAL_NO_DEFAULT_COMPILER_FLAGS))
ifeq ($(strip $(WITH_SYNTAX_CHECK)),)
LOCAL_NO_SYNTAX_CHECK := true
endif
ifeq ($(strip $(WITH_STATIC_ANALYZER)),)
LOCAL_NO_STATIC_ANALYZER := true
endif
# Clang does not recognize all gcc flags.
# Use static analyzer only if clang is used.
ifneq ($(my_clang),true)
LOCAL_NO_STATIC_ANALYZER := true
endif
ifneq ($(strip $(LOCAL_IS_HOST_MODULE)),)
my_syntax_arch := host
else
my_syntax_arch := $(TARGET_$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)
endif
ifeq ($(strip $(my_cc)),)
ifeq ($(my_clang),true)
my_cc := $(CLANG)
else
my_cc := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)CC)
endif
my_cc := $(my_cc_wrapper) $(my_cc)
endif
ifneq ($(LOCAL_NO_STATIC_ANALYZER),true)
my_cc := CCC_CC=$(CLANG) CLANG=$(CLANG) \
$(SYNTAX_TOOLS_PREFIX)/ccc-analyzer
else
ifneq ($(LOCAL_NO_SYNTAX_CHECK),true)
my_cc := $(my_cc) -fsyntax-only
endif
endif
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CC := $(my_cc)
ifeq ($(strip $(my_cxx)),)
ifeq ($(my_clang),true)
my_cxx := $(CLANG_CXX)
else
my_cxx := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)CXX)
endif
my_cxx := $(my_cxx_wrapper) $(my_cxx)
endif
ifneq ($(LOCAL_NO_STATIC_ANALYZER),true)
my_cxx := CCC_CXX=$(CLANG_CXX) CLANG_CXX=$(CLANG_CXX) \
$(SYNTAX_TOOLS_PREFIX)/c++-analyzer
else
ifneq ($(LOCAL_NO_SYNTAX_CHECK),true)
my_cxx := $(my_cxx) -fsyntax-only
endif
endif
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_LINKER := $(my_linker)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CXX := $(my_cxx)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CLANG := $(my_clang)
# TODO: support a mix of standard extensions so that this isn't necessary
LOCAL_CPP_EXTENSION := $(strip $(LOCAL_CPP_EXTENSION))
ifeq ($(LOCAL_CPP_EXTENSION),)
LOCAL_CPP_EXTENSION := .cpp
endif
# Certain modules like libdl have to have symbols resolved at runtime and blow
# up if --no-undefined is passed to the linker.
ifeq ($(strip $(LOCAL_NO_DEFAULT_COMPILER_FLAGS)),)
ifeq ($(my_allow_undefined_symbols),)
my_ldflags += $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)NO_UNDEFINED_LDFLAGS)
endif
endif
ifeq (true,$(LOCAL_GROUP_STATIC_LIBRARIES))
$(LOCAL_BUILT_MODULE): PRIVATE_GROUP_STATIC_LIBRARIES := true
else
$(LOCAL_BUILT_MODULE): PRIVATE_GROUP_STATIC_LIBRARIES :=
endif
###########################################################
## Define arm-vs-thumb-mode flags.
###########################################################
LOCAL_ARM_MODE := $(strip $(LOCAL_ARM_MODE))
ifeq ($($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH),arm)
arm_objects_mode := $(if $(LOCAL_ARM_MODE),$(LOCAL_ARM_MODE),arm)
normal_objects_mode := $(if $(LOCAL_ARM_MODE),$(LOCAL_ARM_MODE),thumb)
# Read the values from something like TARGET_arm_CFLAGS or
# TARGET_thumb_CFLAGS. HOST_(arm|thumb)_CFLAGS values aren't
# actually used (although they are usually empty).
arm_objects_cflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)$(arm_objects_mode)_CFLAGS)
normal_objects_cflags := $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)$(normal_objects_mode)_CFLAGS)
ifeq ($(my_clang),true)
arm_objects_cflags := $(call $(LOCAL_2ND_ARCH_VAR_PREFIX)convert-to-$(my_host)clang-flags,$(arm_objects_cflags))
normal_objects_cflags := $(call $(LOCAL_2ND_ARCH_VAR_PREFIX)convert-to-$(my_host)clang-flags,$(normal_objects_cflags))
endif
else
arm_objects_mode :=
normal_objects_mode :=
arm_objects_cflags :=
normal_objects_cflags :=
endif
###########################################################
## Define per-module debugging flags. Users can turn on
## debugging for a particular module by setting DEBUG_MODULE_ModuleName
## to a non-empty value in their environment or buildspec.mk,
## and setting HOST_/TARGET_CUSTOM_DEBUG_CFLAGS to the
## debug flags that they want to use.
###########################################################
ifdef DEBUG_MODULE_$(strip $(LOCAL_MODULE))
debug_cflags := $($(my_prefix)CUSTOM_DEBUG_CFLAGS)
else
debug_cflags :=
endif
####################################################
## Keep track of src -> obj mapping
####################################################
my_tracked_gen_files :=
my_tracked_src_files :=
###########################################################
## Stuff source generated from one-off tools
###########################################################
$(my_generated_sources): PRIVATE_MODULE := $(my_register_name)
my_gen_sources_copy := $(patsubst $(generated_sources_dir)/%,$(intermediates)/%,$(filter $(generated_sources_dir)/%,$(my_generated_sources)))
$(my_gen_sources_copy): $(intermediates)/% : $(generated_sources_dir)/% | $(ACP)
@echo "Copy: $@"
$(copy-file-to-target)
my_generated_sources := $(patsubst $(generated_sources_dir)/%,$(intermediates)/%,$(my_generated_sources))
# Generated sources that will actually produce object files.
# Other files (like headers) are allowed in LOCAL_GENERATED_SOURCES,
# since other compiled sources may depend on them, and we set up
# the dependencies.
my_gen_src_files := $(filter %.c %$(LOCAL_CPP_EXTENSION) %.S %.s,$(my_generated_sources))
ALL_GENERATED_SOURCES += $(my_generated_sources)
####################################################
## Compile RenderScript with reflected C++
####################################################
renderscript_sources := $(filter %.rs %.fs,$(my_src_files))
ifneq (,$(renderscript_sources))
renderscript_sources_fullpath := $(addprefix $(LOCAL_PATH)/, $(renderscript_sources))
RenderScript_file_stamp := $(intermediates)/RenderScriptCPP.stamp
renderscript_intermediate := $(intermediates)/renderscript
renderscript_target_api :=
ifneq (,$(LOCAL_RENDERSCRIPT_TARGET_API))
renderscript_target_api := $(LOCAL_RENDERSCRIPT_TARGET_API)
else
ifneq (,$(LOCAL_SDK_VERSION))
# Set target-api for LOCAL_SDK_VERSIONs other than current.
ifneq (,$(filter-out current system_current, $(LOCAL_SDK_VERSION)))
renderscript_target_api := $(LOCAL_SDK_VERSION)
endif
endif # LOCAL_SDK_VERSION is set
endif # LOCAL_RENDERSCRIPT_TARGET_API is set
ifeq ($(LOCAL_RENDERSCRIPT_CC),)
LOCAL_RENDERSCRIPT_CC := $(LLVM_RS_CC)
endif
# Turn on all warnings and warnings as errors for RS compiles.
# This can be disabled with LOCAL_RENDERSCRIPT_FLAGS := -Wno-error
renderscript_flags := -Wall -Werror
renderscript_flags += $(LOCAL_RENDERSCRIPT_FLAGS)
# -m32 or -m64
renderscript_flags += -m$(my_32_64_bit_suffix)
renderscript_includes := \
$(TOPDIR)external/clang/lib/Headers \
$(TOPDIR)frameworks/rs/scriptc \
$(LOCAL_RENDERSCRIPT_INCLUDES)
ifneq ($(LOCAL_RENDERSCRIPT_INCLUDES_OVERRIDE),)
renderscript_includes := $(LOCAL_RENDERSCRIPT_INCLUDES_OVERRIDE)
endif
bc_dep_files := $(addprefix $(renderscript_intermediate)/, \
$(patsubst %.fs,%.d, $(patsubst %.rs,%.d, $(notdir $(renderscript_sources)))))
$(RenderScript_file_stamp): PRIVATE_RS_INCLUDES := $(renderscript_includes)
$(RenderScript_file_stamp): PRIVATE_RS_CC := $(LOCAL_RENDERSCRIPT_CC)
$(RenderScript_file_stamp): PRIVATE_RS_FLAGS := $(renderscript_flags)
$(RenderScript_file_stamp): PRIVATE_RS_SOURCE_FILES := $(renderscript_sources_fullpath)
$(RenderScript_file_stamp): PRIVATE_RS_OUTPUT_DIR := $(renderscript_intermediate)
$(RenderScript_file_stamp): PRIVATE_RS_TARGET_API := $(renderscript_target_api)
$(RenderScript_file_stamp): PRIVATE_DEP_FILES := $(bc_dep_files)
$(RenderScript_file_stamp): $(renderscript_sources_fullpath) $(LOCAL_RENDERSCRIPT_CC)
$(transform-renderscripts-to-cpp-and-bc)
# include the dependency files (.d/.P) generated by llvm-rs-cc.
$(call include-depfile,$(RenderScript_file_stamp).P,$(RenderScript_file_stamp))
LOCAL_INTERMEDIATE_TARGETS += $(RenderScript_file_stamp)
rs_generated_cpps := $(addprefix \
$(renderscript_intermediate)/ScriptC_,$(patsubst %.fs,%.cpp, $(patsubst %.rs,%.cpp, \
$(notdir $(renderscript_sources)))))
$(call track-src-file-gen,$(renderscript_sources),$(rs_generated_cpps))
# This is just a dummy rule to make sure gmake doesn't skip updating the dependents.
$(rs_generated_cpps) : $(RenderScript_file_stamp)
@echo "Updated RS generated cpp file $@."
$(hide) touch $@
my_c_includes += $(renderscript_intermediate)
my_generated_sources += $(rs_generated_cpps)
endif
###########################################################
## Compile the .proto files to .cc (or .c) and then to .o
###########################################################
proto_sources := $(filter %.proto,$(my_src_files))
proto_generated_objects :=
proto_generated_headers :=
ifneq ($(proto_sources),)
proto_generated_sources_dir := $(generated_sources_dir)/proto
proto_generated_obj_dir := $(intermediates)/proto
ifneq (,$(filter nanopb-c nanopb-c-enable_malloc, $(LOCAL_PROTOC_OPTIMIZE_TYPE)))
my_proto_source_suffix := .c
my_proto_c_includes := external/nanopb-c
my_protoc_flags := --nanopb_out=$(proto_generated_sources_dir) \
--plugin=external/nanopb-c/generator/protoc-gen-nanopb
else
my_proto_source_suffix := .cc
my_proto_c_includes := external/protobuf/src
my_cflags += -DGOOGLE_PROTOBUF_NO_RTTI
my_protoc_flags := --cpp_out=$(proto_generated_sources_dir)
endif
my_proto_c_includes += $(proto_generated_sources_dir)
proto_sources_fullpath := $(addprefix $(LOCAL_PATH)/, $(proto_sources))
proto_generated_sources := $(addprefix $(proto_generated_sources_dir)/, \
$(patsubst %.proto,%.pb$(my_proto_source_suffix),$(proto_sources_fullpath)))
proto_generated_headers := $(patsubst %.pb$(my_proto_source_suffix),%.pb.h, $(proto_generated_sources))
proto_generated_objects := $(addprefix $(proto_generated_obj_dir)/, \
$(patsubst %.proto,%.pb.o,$(proto_sources_fullpath)))
$(call track-src-file-obj,$(proto_sources),$(proto_generated_objects))
# Ensure the transform-proto-to-cc rule is only defined once in multilib build.
ifndef $(my_prefix)_$(LOCAL_MODULE_CLASS)_$(LOCAL_MODULE)_proto_defined
$(proto_generated_sources): PRIVATE_PROTO_INCLUDES := $(TOP)
$(proto_generated_sources): PRIVATE_PROTOC_FLAGS := $(LOCAL_PROTOC_FLAGS) $(my_protoc_flags)
$(proto_generated_sources): $(proto_generated_sources_dir)/%.pb$(my_proto_source_suffix): %.proto $(PROTOC)
$(transform-proto-to-cc)
# This is just a dummy rule to make sure gmake doesn't skip updating the dependents.
$(proto_generated_headers): $(proto_generated_sources_dir)/%.pb.h: $(proto_generated_sources_dir)/%.pb$(my_proto_source_suffix)
@echo "Updated header file $@."
$(hide) touch $@
$(my_prefix)_$(LOCAL_MODULE_CLASS)_$(LOCAL_MODULE)_proto_defined := true
endif # transform-proto-to-cc rule included only once
$(proto_generated_objects): PRIVATE_ARM_MODE := $(normal_objects_mode)
$(proto_generated_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
$(proto_generated_objects): $(proto_generated_obj_dir)/%.o: $(proto_generated_sources_dir)/%$(my_proto_source_suffix) $(proto_generated_headers)
ifeq ($(my_proto_source_suffix),.c)
$(transform-$(PRIVATE_HOST)c-to-o)
else
$(transform-$(PRIVATE_HOST)cpp-to-o)
endif
-include $(proto_generated_objects:%.o=%.P)
my_c_includes += $(my_proto_c_includes)
# Auto-export the generated proto source dir.
my_export_c_include_dirs += $(my_proto_c_includes)
ifeq ($(LOCAL_PROTOC_OPTIMIZE_TYPE),nanopb-c-enable_malloc)
my_static_libraries += libprotobuf-c-nano-enable_malloc
else ifeq ($(LOCAL_PROTOC_OPTIMIZE_TYPE),nanopb-c)
my_static_libraries += libprotobuf-c-nano
else ifeq ($(LOCAL_PROTOC_OPTIMIZE_TYPE),full)
ifdef LOCAL_SDK_VERSION
my_static_libraries += libprotobuf-cpp-full-ndk
else
my_shared_libraries += libprotobuf-cpp-full
endif
else
ifdef LOCAL_SDK_VERSION
my_static_libraries += libprotobuf-cpp-lite-ndk
else
my_shared_libraries += libprotobuf-cpp-lite
endif
endif
endif # $(proto_sources) non-empty
###########################################################
## Compile the .dbus-xml files to c++ headers
###########################################################
dbus_definitions := $(filter %.dbus-xml,$(my_src_files))
dbus_generated_headers :=
ifneq ($(dbus_definitions),)
dbus_definition_paths := $(addprefix $(LOCAL_PATH)/,$(dbus_definitions))
dbus_service_config := $(filter %dbus-service-config.json,$(my_src_files))
dbus_service_config_path := $(addprefix $(LOCAL_PATH)/,$(dbus_service_config))
# Mark these source files as not producing objects
$(call track-src-file-obj,$(dbus_definitions) $(dbus_service_config),)
dbus_gen_dir := $(generated_sources_dir)/dbus_bindings
ifdef LOCAL_DBUS_PROXY_PREFIX
dbus_header_dir := $(dbus_gen_dir)/include/$(LOCAL_DBUS_PROXY_PREFIX)
dbus_headers := dbus-proxies.h
else
dbus_header_dir := $(dbus_gen_dir)
dbus_headers := $(patsubst %.dbus-xml,%.h,$(dbus_definitions))
endif
dbus_generated_headers := $(addprefix $(dbus_header_dir)/,$(dbus_headers))
# Ensure that we only define build rules once in multilib builds.
ifndef $(my_prefix)_$(LOCAL_MODULE_CLASS)_$(LOCAL_MODULE)_dbus_bindings_defined
$(my_prefix)_$(LOCAL_MODULE_CLASS)_$(LOCAL_MODULE)_dbus_bindings_defined := true
$(dbus_generated_headers): PRIVATE_MODULE := $(LOCAL_MODULE)
$(dbus_generated_headers): PRIVATE_DBUS_SERVICE_CONFIG := $(dbus_service_config_path)
$(dbus_generated_headers) : $(dbus_service_config_path) $(DBUS_GENERATOR)
ifdef LOCAL_DBUS_PROXY_PREFIX
$(dbus_generated_headers) : $(dbus_definition_paths)
$(generate-dbus-proxies)
else
$(dbus_generated_headers) : $(dbus_header_dir)/%.h : $(LOCAL_PATH)/%.dbus-xml
$(generate-dbus-adaptors)
endif # $(LOCAL_DBUS_PROXY_PREFIX)
endif # $(my_prefix)_$(LOCAL_MODULE_CLASS)_$(LOCAL_MODULE)_dbus_bindings_defined
ifdef LOCAL_DBUS_PROXY_PREFIX
# Auto-export the generated dbus proxy directory.
my_export_c_include_dirs += $(dbus_gen_dir)/include
my_c_includes += $(dbus_gen_dir)/include
else
my_export_c_include_dirs += $(dbus_header_dir)
my_c_includes += $(dbus_header_dir)
endif # $(LOCAL_DBUS_PROXY_PREFIX)
my_generated_sources += $(dbus_generated_headers)
endif # $(dbus_definitions) non-empty
###########################################################
## AIDL: Compile .aidl files to .cpp and .h files
###########################################################
aidl_src := $(strip $(filter %.aidl,$(my_src_files)))
aidl_gen_cpp :=
ifneq ($(aidl_src),)
# Use the intermediates directory to avoid writing our own .cpp -> .o rules.
aidl_gen_cpp_root := $(intermediates)/aidl-generated/src
aidl_gen_include_root := $(intermediates)/aidl-generated/include
# Multi-architecture builds have distinct intermediates directories.
# Thus we'll actually generate source for each architecture.
$(foreach s,$(aidl_src),\
$(eval $(call define-aidl-cpp-rule,$(s),$(aidl_gen_cpp_root),aidl_gen_cpp)))
$(foreach cpp,$(aidl_gen_cpp), \
$(call include-depfile,$(addsuffix .aidl.P,$(basename $(cpp))),$(cpp)))
$(call track-src-file-gen,$(aidl_src),$(aidl_gen_cpp))
$(aidl_gen_cpp) : PRIVATE_MODULE := $(LOCAL_MODULE)
$(aidl_gen_cpp) : PRIVATE_HEADER_OUTPUT_DIR := $(aidl_gen_include_root)
$(aidl_gen_cpp) : PRIVATE_AIDL_FLAGS := $(addprefix -I,$(LOCAL_AIDL_INCLUDES))
# Add generated headers to include paths.
my_c_includes += $(aidl_gen_include_root)
my_export_c_include_dirs += $(aidl_gen_include_root)
# Pick up the generated C++ files later for transformation to .o files.
my_generated_sources += $(aidl_gen_cpp)
endif # $(aidl_src) non-empty
###########################################################
## YACC: Compile .y/.yy files to .c/.cpp and then to .o.
###########################################################
y_yacc_sources := $(filter %.y,$(my_src_files))
y_yacc_cs := $(addprefix \
$(intermediates)/,$(y_yacc_sources:.y=.c))
ifneq ($(y_yacc_cs),)
$(y_yacc_cs): $(intermediates)/%.c: \
$(TOPDIR)$(LOCAL_PATH)/%.y \
$(my_additional_dependencies)
$(call transform-y-to-c-or-cpp)
$(call track-src-file-gen,$(y_yacc_sources),$(y_yacc_cs))
my_generated_sources += $(y_yacc_cs)
endif
yy_yacc_sources := $(filter %.yy,$(my_src_files))
yy_yacc_cpps := $(addprefix \
$(intermediates)/,$(yy_yacc_sources:.yy=$(LOCAL_CPP_EXTENSION)))
ifneq ($(yy_yacc_cpps),)
$(yy_yacc_cpps): $(intermediates)/%$(LOCAL_CPP_EXTENSION): \
$(TOPDIR)$(LOCAL_PATH)/%.yy \
$(my_additional_dependencies)
$(call transform-y-to-c-or-cpp)
$(call track-src-file-gen,$(yy_yacc_sources),$(yy_yacc_cpps))
my_generated_sources += $(yy_yacc_cpps)
endif
###########################################################
## LEX: Compile .l/.ll files to .c/.cpp and then to .o.
###########################################################
l_lex_sources := $(filter %.l,$(my_src_files))
l_lex_cs := $(addprefix \
$(intermediates)/,$(l_lex_sources:.l=.c))
ifneq ($(l_lex_cs),)
$(l_lex_cs): $(intermediates)/%.c: \
$(TOPDIR)$(LOCAL_PATH)/%.l
$(transform-l-to-c-or-cpp)
$(call track-src-file-gen,$(l_lex_sources),$(l_lex_cs))
my_generated_sources += $(l_lex_cs)
endif
ll_lex_sources := $(filter %.ll,$(my_src_files))
ll_lex_cpps := $(addprefix \
$(intermediates)/,$(ll_lex_sources:.ll=$(LOCAL_CPP_EXTENSION)))
ifneq ($(ll_lex_cpps),)
$(ll_lex_cpps): $(intermediates)/%$(LOCAL_CPP_EXTENSION): \
$(TOPDIR)$(LOCAL_PATH)/%.ll
$(transform-l-to-c-or-cpp)
$(call track-src-file-gen,$(ll_lex_sources),$(ll_lex_cpps))
my_generated_sources += $(ll_lex_cpps)
endif
###########################################################
## C++: Compile .cpp files to .o.
###########################################################
# we also do this on host modules, even though
# it's not really arm, because there are files that are shared.
cpp_arm_sources := $(patsubst %$(LOCAL_CPP_EXTENSION).arm,%$(LOCAL_CPP_EXTENSION),$(filter %$(LOCAL_CPP_EXTENSION).arm,$(my_src_files)))
dotdot_arm_sources := $(filter ../%,$(cpp_arm_sources))
cpp_arm_sources := $(filter-out ../%,$(cpp_arm_sources))
cpp_arm_objects := $(addprefix $(intermediates)/,$(cpp_arm_sources:$(LOCAL_CPP_EXTENSION)=.o))
$(call track-src-file-obj,$(patsubst %,%.arm,$(cpp_arm_sources)),$(cpp_arm_objects))
# For source files starting with ../, we remove all the ../ in the object file path,
# to avoid object file escaping the intermediate directory.
dotdot_arm_objects :=
$(foreach s,$(dotdot_arm_sources),\
$(eval $(call compile-dotdot-cpp-file,$(s),\
$(yacc_cpps) $(proto_generated_headers) $(my_additional_dependencies),\
dotdot_arm_objects)))
$(call track-src-file-obj,$(patsubst %,%.arm,$(dotdot_arm_sources)),$(dotdot_arm_objects))
dotdot_sources := $(filter ../%$(LOCAL_CPP_EXTENSION),$(my_src_files))
dotdot_objects :=
$(foreach s,$(dotdot_sources),\
$(eval $(call compile-dotdot-cpp-file,$(s),\
$(yacc_cpps) $(proto_generated_headers) $(my_additional_dependencies),\
dotdot_objects)))
$(call track-src-file-obj,$(dotdot_sources),$(dotdot_objects))
cpp_normal_sources := $(filter-out ../%,$(filter %$(LOCAL_CPP_EXTENSION),$(my_src_files)))
cpp_normal_objects := $(addprefix $(intermediates)/,$(cpp_normal_sources:$(LOCAL_CPP_EXTENSION)=.o))
$(call track-src-file-obj,$(cpp_normal_sources),$(cpp_normal_objects))
$(dotdot_arm_objects) $(cpp_arm_objects): PRIVATE_ARM_MODE := $(arm_objects_mode)
$(dotdot_arm_objects) $(cpp_arm_objects): PRIVATE_ARM_CFLAGS := $(arm_objects_cflags)
$(dotdot_objects) $(cpp_normal_objects): PRIVATE_ARM_MODE := $(normal_objects_mode)
$(dotdot_objects) $(cpp_normal_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
cpp_objects := $(cpp_arm_objects) $(cpp_normal_objects)
ifneq ($(strip $(cpp_objects)),)
$(cpp_objects): $(intermediates)/%.o: \
$(TOPDIR)$(LOCAL_PATH)/%$(LOCAL_CPP_EXTENSION) \
$(yacc_cpps) $(proto_generated_headers) \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)cpp-to-o)
-include $(cpp_objects:%.o=%.P)
endif
cpp_objects += $(dotdot_arm_objects) $(dotdot_objects)
###########################################################
## C++: Compile generated .cpp files to .o.
###########################################################
gen_cpp_sources := $(filter %$(LOCAL_CPP_EXTENSION),$(my_generated_sources))
gen_cpp_objects := $(gen_cpp_sources:%$(LOCAL_CPP_EXTENSION)=%.o)
$(call track-gen-file-obj,$(gen_cpp_sources),$(gen_cpp_objects))
ifneq ($(strip $(gen_cpp_objects)),)
# Compile all generated files as thumb.
# TODO: support compiling certain generated files as arm.
$(gen_cpp_objects): PRIVATE_ARM_MODE := $(normal_objects_mode)
$(gen_cpp_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
$(gen_cpp_objects): $(intermediates)/%.o: \
$(intermediates)/%$(LOCAL_CPP_EXTENSION) $(yacc_cpps) \
$(proto_generated_headers) \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)cpp-to-o)
-include $(gen_cpp_objects:%.o=%.P)
endif
###########################################################
## S: Compile generated .S and .s files to .o.
###########################################################
gen_S_sources := $(filter %.S,$(my_generated_sources))
gen_S_objects := $(gen_S_sources:%.S=%.o)
$(call track-gen-file-obj,$(gen_S_sources),$(gen_S_objects))
ifneq ($(strip $(gen_S_sources)),)
$(gen_S_objects): $(intermediates)/%.o: $(intermediates)/%.S \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)s-to-o)
-include $(gen_S_objects:%.o=%.P)
endif
gen_s_sources := $(filter %.s,$(my_generated_sources))
gen_s_objects := $(gen_s_sources:%.s=%.o)
$(call track-gen-file-obj,$(gen_s_sources),$(gen_s_objects))
ifneq ($(strip $(gen_s_objects)),)
$(gen_s_objects): $(intermediates)/%.o: $(intermediates)/%.s \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)s-to-o-no-deps)
-include $(gen_s_objects:%.o=%.P)
endif
gen_asm_objects := $(gen_S_objects) $(gen_s_objects)
$(gen_asm_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
###########################################################
## o: Include generated .o files in output.
###########################################################
gen_o_objects := $(filter %.o,$(my_generated_sources))
###########################################################
## C: Compile .c files to .o.
###########################################################
c_arm_sources := $(patsubst %.c.arm,%.c,$(filter %.c.arm,$(my_src_files)))
dotdot_arm_sources := $(filter ../%,$(c_arm_sources))
c_arm_sources := $(filter-out ../%,$(c_arm_sources))
c_arm_objects := $(addprefix $(intermediates)/,$(c_arm_sources:.c=.o))
$(call track-src-file-obj,$(patsubst %,%.arm,$(c_arm_sources)),$(c_arm_objects))
# For source files starting with ../, we remove all the ../ in the object file path,
# to avoid object file escaping the intermediate directory.
dotdot_arm_objects :=
$(foreach s,$(dotdot_arm_sources),\
$(eval $(call compile-dotdot-c-file,$(s),\
$(yacc_cpps) $(proto_generated_headers) $(my_additional_dependencies),\
dotdot_arm_objects)))
$(call track-src-file-obj,$(patsubst %,%.arm,$(dotdot_arm_sources)),$(dotdot_arm_objects))
dotdot_sources := $(filter ../%.c, $(my_src_files))
dotdot_objects :=
$(foreach s, $(dotdot_sources),\
$(eval $(call compile-dotdot-c-file,$(s),\
$(yacc_cpps) $(proto_generated_headers) $(my_additional_dependencies),\
dotdot_objects)))
$(call track-src-file-obj,$(dotdot_sources),$(dotdot_objects))
c_normal_sources := $(filter-out ../%,$(filter %.c,$(my_src_files)))
c_normal_objects := $(addprefix $(intermediates)/,$(c_normal_sources:.c=.o))
$(call track-src-file-obj,$(c_normal_sources),$(c_normal_objects))
$(dotdot_arm_objects) $(c_arm_objects): PRIVATE_ARM_MODE := $(arm_objects_mode)
$(dotdot_arm_objects) $(c_arm_objects): PRIVATE_ARM_CFLAGS := $(arm_objects_cflags)
$(dotdot_objects) $(c_normal_objects): PRIVATE_ARM_MODE := $(normal_objects_mode)
$(dotdot_objects) $(c_normal_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
c_objects := $(c_arm_objects) $(c_normal_objects)
ifneq ($(strip $(c_objects)),)
$(c_objects): $(intermediates)/%.o: $(TOPDIR)$(LOCAL_PATH)/%.c $(yacc_cpps) $(proto_generated_headers) \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)c-to-o)
-include $(c_objects:%.o=%.P)
endif
c_objects += $(dotdot_arm_objects) $(dotdot_objects)
###########################################################
## C: Compile generated .c files to .o.
###########################################################
gen_c_sources := $(filter %.c,$(my_generated_sources))
gen_c_objects := $(gen_c_sources:%.c=%.o)
$(call track-gen-file-obj,$(gen_c_sources),$(gen_c_objects))
ifneq ($(strip $(gen_c_objects)),)
# Compile all generated files as thumb.
# TODO: support compiling certain generated files as arm.
$(gen_c_objects): PRIVATE_ARM_MODE := $(normal_objects_mode)
$(gen_c_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
$(gen_c_objects): $(intermediates)/%.o: $(intermediates)/%.c $(yacc_cpps) $(proto_generated_headers) \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)c-to-o)
-include $(gen_c_objects:%.o=%.P)
endif
###########################################################
## ObjC: Compile .m files to .o
###########################################################
objc_sources := $(filter %.m,$(my_src_files))
objc_objects := $(addprefix $(intermediates)/,$(objc_sources:.m=.o))
$(call track-src-file-obj,$(objc_sources),$(objc_objects))
ifneq ($(strip $(objc_objects)),)
$(objc_objects): $(intermediates)/%.o: $(TOPDIR)$(LOCAL_PATH)/%.m $(yacc_cpps) $(proto_generated_headers) \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)m-to-o)
-include $(objc_objects:%.o=%.P)
endif
###########################################################
## ObjC++: Compile .mm files to .o
###########################################################
objcpp_sources := $(filter %.mm,$(my_src_files))
objcpp_objects := $(addprefix $(intermediates)/,$(objcpp_sources:.mm=.o))
$(call track-src-file-obj,$(objcpp_sources),$(objcpp_objects))
ifneq ($(strip $(objcpp_objects)),)
$(objcpp_objects): $(intermediates)/%.o: $(TOPDIR)$(LOCAL_PATH)/%.mm $(yacc_cpps) $(proto_generated_headers) \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)mm-to-o)
-include $(objcpp_objects:%.o=%.P)
endif
###########################################################
## AS: Compile .S files to .o.
###########################################################
asm_sources_S := $(filter %.S,$(my_src_files))
dotdot_sources := $(filter ../%,$(asm_sources_S))
asm_sources_S := $(filter-out ../%,$(asm_sources_S))
asm_objects_S := $(addprefix $(intermediates)/,$(asm_sources_S:.S=.o))
$(call track-src-file-obj,$(asm_sources_S),$(asm_objects_S))
dotdot_objects_S :=
$(foreach s,$(dotdot_sources),\
$(eval $(call compile-dotdot-s-file,$(s),\
$(my_additional_dependencies),\
dotdot_objects_S)))
$(call track-src-file-obj,$(dotdot_sources),$(dotdot_objects_S))
ifneq ($(strip $(asm_objects_S)),)
$(asm_objects_S): $(intermediates)/%.o: $(TOPDIR)$(LOCAL_PATH)/%.S \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)s-to-o)
-include $(asm_objects_S:%.o=%.P)
endif
asm_sources_s := $(filter %.s,$(my_src_files))
dotdot_sources := $(filter ../%,$(asm_sources_s))
asm_sources_s := $(filter-out ../%,$(asm_sources_s))
asm_objects_s := $(addprefix $(intermediates)/,$(asm_sources_s:.s=.o))
$(call track-src-file-obj,$(asm_sources_s),$(asm_objects_s))
dotdot_objects_s :=
$(foreach s,$(dotdot_sources),\
$(eval $(call compile-dotdot-s-file-no-deps,$(s),\
$(my_additional_dependencies),\
dotdot_objects_s)))
$(call track-src-file-obj,$(dotdot_sources),$(dotdot_objects_s))
ifneq ($(strip $(asm_objects_s)),)
$(asm_objects_s): $(intermediates)/%.o: $(TOPDIR)$(LOCAL_PATH)/%.s \
$(my_additional_dependencies)
$(transform-$(PRIVATE_HOST)s-to-o-no-deps)
endif
asm_objects := $(dotdot_objects_S) $(dotdot_objects_s) $(asm_objects_S) $(asm_objects_s)
$(asm_objects): PRIVATE_ARM_CFLAGS := $(normal_objects_cflags)
# .asm for x86/x86_64 needs to be compiled with yasm.
asm_sources_asm := $(filter %.asm,$(my_src_files))
ifneq ($(strip $(asm_sources_asm)),)
asm_objects_asm := $(addprefix $(intermediates)/,$(asm_sources_asm:.asm=.o))
$(asm_objects_asm): $(intermediates)/%.o: $(TOPDIR)$(LOCAL_PATH)/%.asm \
$(my_additional_dependencies)
$(transform-asm-to-o)
$(call track-src-file-obj,$(asm_sources_asm),$(asm_objects_asm))
asm_objects += $(asm_objects_asm)
endif
##########################################################
## Set up installed module dependency
## We cannot compute the full path of the LOCAL_SHARED_LIBRARIES for
## they may cusomize their install path with LOCAL_MODULE_PATH
##########################################################
# Get the list of INSTALLED libraries as module names.
ifdef LOCAL_SDK_VERSION
installed_shared_library_module_names := \
$(my_shared_libraries)
else
installed_shared_library_module_names := \
$(my_shared_libraries) $(my_system_shared_libraries)
endif
# The real dependency will be added after all Android.mks are loaded and the install paths
# of the shared libraries are determined.
ifdef LOCAL_INSTALLED_MODULE
ifdef installed_shared_library_module_names
$(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)DEPENDENCIES_ON_SHARED_LIBRARIES += \
$(my_register_name):$(LOCAL_INSTALLED_MODULE):$(subst $(space),$(comma),$(sort $(installed_shared_library_module_names)))
endif
endif
####################################################
## Import includes
####################################################
import_includes := $(intermediates)/import_includes
import_includes_deps := $(strip \
$(foreach l, $(installed_shared_library_module_names), \
$(call intermediates-dir-for,SHARED_LIBRARIES,$(l),$(LOCAL_IS_HOST_MODULE),,$(LOCAL_2ND_ARCH_VAR_PREFIX),$(my_host_cross))/export_includes) \
$(foreach l, $(my_static_libraries) $(my_whole_static_libraries), \
$(call intermediates-dir-for,STATIC_LIBRARIES,$(l),$(LOCAL_IS_HOST_MODULE),,$(LOCAL_2ND_ARCH_VAR_PREFIX),$(my_host_cross))/export_includes))
$(import_includes): PRIVATE_IMPORT_EXPORT_INCLUDES := $(import_includes_deps)
$(import_includes) : $(LOCAL_MODULE_MAKEFILE_DEP) $(import_includes_deps)
@echo Import includes file: $@
$(hide) mkdir -p $(dir $@) && rm -f $@
ifdef import_includes_deps
$(hide) for f in $(PRIVATE_IMPORT_EXPORT_INCLUDES); do \
cat $$f >> $@; \
done
else
$(hide) touch $@
endif
###########################################################
## Common object handling.
###########################################################
my_unused_src_files := $(filter-out $(logtags_sources) $(my_tracked_src_files),$(my_src_files) $(my_gen_src_files))
ifneq ($(my_unused_src_files),)
$(warning $(LOCAL_MODULE_MAKEFILE): $(LOCAL_MODULE): Unused source files: $(my_unused_src_files))
endif
# some rules depend on asm_objects being first. If your code depends on
# being first, it's reasonable to require it to be assembly
normal_objects := \
$(asm_objects) \
$(cpp_objects) \
$(gen_cpp_objects) \
$(gen_asm_objects) \
$(c_objects) \
$(gen_c_objects) \
$(objc_objects) \
$(objcpp_objects) \
$(proto_generated_objects)
new_order_normal_objects := $(foreach f,$(my_src_files),$(my_src_file_obj_$(f)))
new_order_normal_objects += $(foreach f,$(my_gen_src_files),$(my_src_file_obj_$(f)))
ifneq ($(sort $(normal_objects)),$(sort $(new_order_normal_objects)))
$(warning $(LOCAL_MODULE_MAKEFILE) Internal build system warning: New object list does not match old)
$(info Only in old: $(filter-out $(new_order_normal_objects),$(sort $(normal_objects))))
$(info Only in new: $(filter-out $(normal_objects),$(sort $(new_order_normal_objects))))
endif
ifeq ($(BINARY_OBJECTS_ORDER),soong)
normal_objects := $(new_order_normal_objects)
endif
normal_objects += $(addprefix $(TOPDIR)$(LOCAL_PATH)/,$(LOCAL_PREBUILT_OBJ_FILES))
all_objects := $(normal_objects) $(gen_o_objects)
# Cleanup file tracking
$(foreach f,$(my_tracked_gen_files),$(eval my_src_file_gen_$(s):=))
my_tracked_gen_files :=
$(foreach f,$(my_tracked_src_files),$(eval my_src_file_obj_$(s):=))
my_tracked_src_files :=
my_c_includes += $(TOPDIR)$(LOCAL_PATH) $(intermediates) $(generated_sources_dir)
ifndef LOCAL_SDK_VERSION
my_c_includes += $(JNI_H_INCLUDE)
endif
# all_objects includes gen_o_objects which were part of LOCAL_GENERATED_SOURCES;
# use normal_objects here to avoid creating circular dependencies. This assumes
# that custom build rules which generate .o files don't consume other generated
# sources as input (or if they do they take care of that dependency themselves).
$(normal_objects) : | $(my_generated_sources)
ifeq ($(BUILDING_WITH_NINJA),true)
$(all_objects) : $(import_includes)
else
$(all_objects) : | $(import_includes)
endif
ALL_C_CPP_ETC_OBJECTS += $(all_objects)
###########################################################
# Standard library handling.
###########################################################
###########################################################
# The list of libraries that this module will link against are in
# these variables. Each is a list of bare module names like "libc libm".
#
# LOCAL_SHARED_LIBRARIES
# LOCAL_STATIC_LIBRARIES
# LOCAL_WHOLE_STATIC_LIBRARIES
#
# We need to convert the bare names into the dependencies that
# we'll use for LOCAL_BUILT_MODULE and LOCAL_INSTALLED_MODULE.
# LOCAL_BUILT_MODULE should depend on the BUILT versions of the
# libraries, so that simply building this module doesn't force
# an install of a library. Similarly, LOCAL_INSTALLED_MODULE
# should depend on the INSTALLED versions of the libraries so
# that they get installed when this module does.
###########################################################
# NOTE:
# WHOLE_STATIC_LIBRARIES are libraries that are pulled into the
# module without leaving anything out, which is useful for turning
# a collection of .a files into a .so file. Linking against a
# normal STATIC_LIBRARY will only pull in code/symbols that are
# referenced by the module. (see gcc/ld's --whole-archive option)
###########################################################
# Get the list of BUILT libraries, which are under
# various intermediates directories.
so_suffix := $($(my_prefix)SHLIB_SUFFIX)
a_suffix := $($(my_prefix)STATIC_LIB_SUFFIX)
ifdef LOCAL_SDK_VERSION
built_shared_libraries := \
$(addprefix $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)OUT_INTERMEDIATE_LIBRARIES)/, \
$(addsuffix $(so_suffix), \
$(my_shared_libraries)))
built_shared_library_deps := $(addsuffix .toc, $(built_shared_libraries))
# Add the NDK libraries to the built module dependency
my_system_shared_libraries_fullpath := \
$(my_ndk_stl_shared_lib_fullpath) \
$(addprefix $(my_ndk_sysroot_lib)/, \
$(addsuffix $(so_suffix), $(my_system_shared_libraries)))
built_shared_libraries += $(my_system_shared_libraries_fullpath)
else
built_shared_libraries := \
$(addprefix $($(LOCAL_2ND_ARCH_VAR_PREFIX)$(my_prefix)OUT_INTERMEDIATE_LIBRARIES)/, \
$(addsuffix $(so_suffix), \
$(installed_shared_library_module_names)))
ifdef LOCAL_IS_HOST_MODULE
# Disable .toc optimization for host modules: we may run the host binaries during the build process
# and the libraries' implementation matters.
built_shared_library_deps := $(built_shared_libraries)
else
built_shared_library_deps := $(addsuffix .toc, $(built_shared_libraries))
endif
my_system_shared_libraries_fullpath :=
endif
built_static_libraries := \
$(foreach lib,$(my_static_libraries), \
$(call intermediates-dir-for, \
STATIC_LIBRARIES,$(lib),$(LOCAL_IS_HOST_MODULE),,$(LOCAL_2ND_ARCH_VAR_PREFIX),$(my_host_cross))/$(lib)$(a_suffix))
ifdef LOCAL_SDK_VERSION
built_static_libraries += $(my_ndk_stl_static_lib)
endif
built_whole_libraries := \
$(foreach lib,$(my_whole_static_libraries), \
$(call intermediates-dir-for, \
STATIC_LIBRARIES,$(lib),$(LOCAL_IS_HOST_MODULE),,$(LOCAL_2ND_ARCH_VAR_PREFIX),$(my_host_cross))/$(lib)$(a_suffix))
# We don't care about installed static libraries, since the
# libraries have already been linked into the module at that point.
# We do, however, care about the NOTICE files for any static
# libraries that we use. (see notice_files.mk)
installed_static_library_notice_file_targets := \
$(foreach lib,$(my_static_libraries) $(my_whole_static_libraries), \
NOTICE-$(if $(LOCAL_IS_HOST_MODULE),HOST,TARGET)-STATIC_LIBRARIES-$(lib))
# Default is -fno-rtti.
ifeq ($(strip $(LOCAL_RTTI_FLAG)),)
LOCAL_RTTI_FLAG := -fno-rtti
endif
###########################################################
# Rule-specific variable definitions
###########################################################
ifeq ($(my_clang),true)
my_cflags += $(LOCAL_CLANG_CFLAGS)
my_conlyflags += $(LOCAL_CLANG_CONLYFLAGS)
my_cppflags += $(LOCAL_CLANG_CPPFLAGS)
my_cflags_no_override += $(GLOBAL_CLANG_CFLAGS_NO_OVERRIDE)
my_cppflags_no_override += $(GLOBAL_CLANG_CPPFLAGS_NO_OVERRIDE)
my_asflags += $(LOCAL_CLANG_ASFLAGS)
my_ldflags += $(LOCAL_CLANG_LDFLAGS)
my_cflags += $(LOCAL_CLANG_CFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CLANG_CFLAGS_$(my_32_64_bit_suffix))
my_conlyflags += $(LOCAL_CLANG_CONLYFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CLANG_CONLYFLAGS_$(my_32_64_bit_suffix))
my_cppflags += $(LOCAL_CLANG_CPPFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CLANG_CPPFLAGS_$(my_32_64_bit_suffix))
my_ldflags += $(LOCAL_CLANG_LDFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CLANG_LDFLAGS_$(my_32_64_bit_suffix))
my_asflags += $(LOCAL_CLANG_ASFLAGS_$($(my_prefix)$(LOCAL_2ND_ARCH_VAR_PREFIX)ARCH)) $(LOCAL_CLANG_ASFLAGS_$(my_32_64_bit_suffix))
my_cflags := $(call $(LOCAL_2ND_ARCH_VAR_PREFIX)convert-to-$(my_host)clang-flags,$(my_cflags))
my_cppflags := $(call $(LOCAL_2ND_ARCH_VAR_PREFIX)convert-to-$(my_host)clang-flags,$(my_cppflags))
my_asflags := $(call $(LOCAL_2ND_ARCH_VAR_PREFIX)convert-to-$(my_host)clang-flags,$(my_asflags))
my_ldflags := $(call $(LOCAL_2ND_ARCH_VAR_PREFIX)convert-to-$(my_host)clang-flags,$(my_ldflags))
endif
ifeq ($(my_fdo_build), true)
my_cflags := $(patsubst -Os,-O2,$(my_cflags))
fdo_incompatible_flags := -fno-early-inlining -finline-limit=%
my_cflags := $(filter-out $(fdo_incompatible_flags),$(my_cflags))
endif
# No one should ever use this flag. On GCC it's mere presence will disable all
# warnings, even those that are specified after it (contrary to typical warning
# flag behavior). This circumvents CFLAGS_NO_OVERRIDE from forcibly enabling the
# warnings that are *always* bugs.
my_illegal_flags := -w
my_cflags := $(filter-out $(my_illegal_flags),$(my_cflags))
my_cppflags := $(filter-out $(my_illegal_flags),$(my_cppflags))
my_conlyflags := $(filter-out $(my_illegal_flags),$(my_conlyflags))
# We can enforce some rules more strictly in the code we own. my_strict
# indicates if this is code that we can be stricter with. If we have rules that
# we want to apply to *our* code (but maybe can't for vendor/device specific
# things), we could extend this to be a ternary value.
my_strict := true
ifneq ($(filter external/%,$(LOCAL_PATH)),)
my_strict := false
endif
# Can be used to make some annotations stricter for code we can fix (such as
# when we mark functions as deprecated).
ifeq ($(my_strict),true)
my_cflags += -DANDROID_STRICT
endif
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_YACCFLAGS := $(LOCAL_YACCFLAGS)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_ASFLAGS := $(my_asflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CONLYFLAGS := $(my_conlyflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CFLAGS := $(my_cflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CPPFLAGS := $(my_cppflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CFLAGS_NO_OVERRIDE := $(my_cflags_no_override)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_CPPFLAGS_NO_OVERRIDE := $(my_cppflags_no_override)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_RTTI_FLAG := $(LOCAL_RTTI_FLAG)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_DEBUG_CFLAGS := $(debug_cflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_C_INCLUDES := $(my_c_includes)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_IMPORT_INCLUDES := $(import_includes)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_LDFLAGS := $(my_ldflags)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_LDLIBS := $(my_ldlibs)
# this is really the way to get the files onto the command line instead
# of using $^, because then LOCAL_ADDITIONAL_DEPENDENCIES doesn't work
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_ALL_SHARED_LIBRARIES := $(built_shared_libraries)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_ALL_STATIC_LIBRARIES := $(built_static_libraries)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_ALL_WHOLE_STATIC_LIBRARIES := $(built_whole_libraries)
$(LOCAL_INTERMEDIATE_TARGETS): PRIVATE_ALL_OBJECTS := $(all_objects)
###########################################################
# Define library dependencies.
###########################################################
# all_libraries is used for the dependencies on LOCAL_BUILT_MODULE.
all_libraries := \
$(built_shared_library_deps) \
$(my_system_shared_libraries_fullpath) \
$(built_static_libraries) \
$(built_whole_libraries)
# Also depend on the notice files for any static libraries that
# are linked into this module. This will force them to be installed
# when this module is.
$(LOCAL_INSTALLED_MODULE): | $(installed_static_library_notice_file_targets)
###########################################################
# Export includes
###########################################################
export_includes := $(intermediates)/export_includes
$(export_includes): PRIVATE_EXPORT_C_INCLUDE_DIRS := $(my_export_c_include_dirs)
# Make sure .pb.h are already generated before any dependent source files get compiled.
# Similarly, the generated DBus headers need to exist before we export their location.
# People are not going to consume the aidl generated cpp file, but the cpp file is
# generated after the headers, so this is a convenient way to ensure the headers exist.
$(export_includes) : $(LOCAL_MODULE_MAKEFILE_DEP) $(proto_generated_headers) $(dbus_generated_headers) $(aidl_gen_cpp)
@echo Export includes file: $< -- $@
$(hide) mkdir -p $(dir $@) && rm -f $@.tmp
ifdef my_export_c_include_dirs
$(hide) for d in $(PRIVATE_EXPORT_C_INCLUDE_DIRS); do \
echo "-I $$d" >> $@.tmp; \
done
else
$(hide) touch $@.tmp
endif
ifeq ($(BUILDING_WITH_NINJA),true)
$(hide) if cmp -s $@.tmp $@ ; then \
rm $@.tmp ; \
else \
mv $@.tmp $@ ; \
fi
else
mv $@.tmp $@ ;
endif
# Kati adds restat=1 to ninja. GNU make does nothing for this.
.KATI_RESTAT: $(export_includes)
# Make sure export_includes gets generated when you are running mm/mmm
$(LOCAL_BUILT_MODULE) : | $(export_includes)