# Copyright (C) 2008 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # Check that LOCAL_MODULE is defined, then restore its LOCAL_XXXX values $(call assert-defined,LOCAL_MODULE) $(call module-restore-locals,$(LOCAL_MODULE)) # For now, only support target (device-specific modules). # We may want to introduce support for host modules in the future # but that is too experimental for now. # my := TARGET_ # LOCAL_MAKEFILE must also exist and name the Android.mk that # included the module build script. # $(call assert-defined,LOCAL_MAKEFILE LOCAL_BUILD_SCRIPT LOCAL_BUILT_MODULE) # A list of LOCAL_XXX variables that are ignored for static libraries. # Print a warning if they are present inside a module definition to let # the user know this won't do what he/she expects. not_in_static_libs := \ LOCAL_LDFLAGS \ LOCAL_LDLIBS \ LOCAL_ALLOW_UNDEFINED_SYMBOLS ifeq ($(call module-get-class,$(LOCAL_MODULE)),STATIC_LIBRARY) $(foreach _notvar,$(not_in_static_libs),\ $(if $(strip $($(_notvar))),\ $(call __ndk_info,WARNING:$(LOCAL_MAKEFILE):$(LOCAL_MODULE): $(_notvar) is always ignored for static libraries)\ )\ ) endif # Some developers like to add library names (e.g. -lfoo) to LOCAL_LDLIBS # and LOCAL_LDFLAGS directly. This is very fragile and can lead to broken # builds and other nasty surprises, because it doesn't tell ndk-build # that the corresponding module depends on these files. Emit a warning # when we detect this case. libs_in_ldflags := $(filter -l% %.so %.a,$(LOCAL_LDLIBS) $(LOCAL_LDFLAGS)) # Remove the system libraries we know about from the warning, it's ok # (and actually expected) to link them with -l. system_libs := \ android \ c \ dl \ jnigraphics \ log \ m \ m_hard \ stdc++ \ z \ EGL \ GLESv1_CM \ GLESv2 \ GLESv3 \ OpenSLES \ OpenMAXAL \ bcc \ bcinfo \ cutils \ gui \ RScpp \ RScpp_static \ RS \ ui \ utils \ atomic libs_in_ldflags := $(filter-out $(addprefix -l,$(system_libs)), $(libs_in_ldflags)) ifneq (,$(strip $(libs_in_ldflags))) $(call __ndk_info,WARNING:$(LOCAL_MAKEFILE):$(LOCAL_MODULE): non-system libraries in linker flags: $(libs_in_ldflags)) $(call __ndk_info, This is likely to result in incorrect builds. Try using LOCAL_STATIC_LIBRARIES) $(call __ndk_info, or LOCAL_SHARED_LIBRARIES instead to list the library dependencies of the) $(call __ndk_info, current module) endif include $(BUILD_SYSTEM)/import-locals.mk # Check for LOCAL_THIN_ARCHIVE / APP_THIN_ARCHIVE and print a warning if # it is defined for non-static library modules. thin_archive := $(strip $(LOCAL_THIN_ARCHIVE)) ifdef thin_archive ifneq (STATIC_LIBRARY,$(call module-get-class,$(LOCAL_MODULE))) $(call __ndk_info,WARNING:$(LOCAL_MAKEFILE):$(LOCAL_MODULE): LOCAL_THIN_ARCHIVE is for building static libraries) endif endif ifndef thin_archive thin_archive := $(strip $(NDK_APP_THIN_ARCHIVE)) endif # Print a warning if the value is not 'true', 'false' or empty. ifneq (,$(filter-out true false,$(thin_archive))) $(call __ndk_info,WARNING:$(LOCAL_MAKEFILE):$(LOCAL_MODULE): Invalid LOCAL_THIN_ARCHIVE value '$(thin_archive)' ignored!) thin_archive := endif # # Ensure that 'make ' and 'make clean-' work # .PHONY: $(LOCAL_MODULE) $(LOCAL_MODULE): $(LOCAL_BUILT_MODULE) cleantarget := clean-$(LOCAL_MODULE)-$(TARGET_ARCH_ABI) .PHONY: $(cleantarget) clean: $(cleantarget) $(cleantarget): PRIVATE_ABI := $(TARGET_ARCH_ABI) $(cleantarget): PRIVATE_MODULE := $(LOCAL_MODULE) ifneq ($(LOCAL_BUILT_MODULE_NOT_COPIED),true) $(cleantarget): PRIVATE_CLEAN_FILES := $(LOCAL_BUILT_MODULE) \ $($(my)OBJS) else $(cleantarget): PRIVATE_CLEAN_FILES := $($(my)OBJS) endif $(cleantarget):: $(call host-echo-build-step,$(PRIVATE_ABI),Clean) "$(PRIVATE_MODULE) [$(PRIVATE_ABI)]" $(hide) $(call host-rmdir,$(PRIVATE_CLEAN_FILES)) ifeq ($(NDK_APP_DEBUGGABLE),true) $(NDK_APP_GDBSETUP): PRIVATE_SRC_DIRS += $(LOCAL_C_INCLUDES) $(LOCAL_PATH) endif # list of generated object files LOCAL_OBJECTS := # list of generated object files from RS files, subset of LOCAL_OBJECTS LOCAL_RS_OBJECTS := # always define ANDROID when building binaries # LOCAL_CFLAGS := -DANDROID $(LOCAL_CFLAGS) # # Add the default system shared libraries to the build # ifeq ($(LOCAL_SYSTEM_SHARED_LIBRARIES),none) LOCAL_SHARED_LIBRARIES += $(TARGET_DEFAULT_SYSTEM_SHARED_LIBRARIES) else LOCAL_SHARED_LIBRARIES += $(LOCAL_SYSTEM_SHARED_LIBRARIES) endif # # Check LOCAL_CPP_EXTENSION # bad_cpp_extensions := $(strip $(filter-out .%,$(LOCAL_CPP_EXTENSION))) ifdef bad_cpp_extensions $(call __ndk_info,WARNING: Invalid LOCAL_CPP_EXTENSION values: $(bad_cpp_extensions)) LOCAL_CPP_EXTENSION := $(filter $(bad_cpp_extensions),$(LOCAL_CPP_EXTENSIONS)) endif LOCAL_CPP_EXTENSION := $(strip $(LOCAL_CPP_EXTENSION)) ifeq ($(LOCAL_CPP_EXTENSION),) # Match the default GCC C++ extensions. LOCAL_CPP_EXTENSION := $(default-c++-extensions) endif LOCAL_RS_EXTENSION := $(default-rs-extensions) # # If LOCAL_ALLOW_UNDEFINED_SYMBOLS is not true, the linker will allow the generation # of a binary that uses undefined symbols. # ifneq ($(LOCAL_ALLOW_UNDEFINED_SYMBOLS),true) LOCAL_LDFLAGS += $($(my)NO_UNDEFINED_LDFLAGS) endif # Toolchain by default disallows generated code running from the heap and stack. # If LOCAL_DISABLE_NO_EXECUTE is true, we allow that # ifeq ($(LOCAL_DISABLE_NO_EXECUTE),true) LOCAL_CFLAGS += $($(my)DISABLE_NO_EXECUTE_CFLAGS) LOCAL_LDFLAGS += $($(my)DISABLE_NO_EXECUTE_LDFLAGS) else LOCAL_CFLAGS += $($(my)NO_EXECUTE_CFLAGS) LOCAL_LDFLAGS += $($(my)NO_EXECUTE_LDFLAGS) endif # Toolchain by default provides relro and GOT protections. # If LOCAL_DISABLE_RELRO is true, we disable the protections. # ifeq ($(LOCAL_DISABLE_RELRO),true) LOCAL_LDFLAGS += $($(my)DISABLE_RELRO_LDFLAGS) else LOCAL_LDFLAGS += $($(my)RELRO_LDFLAGS) endif # By default, we protect against format string vulnerabilities # If LOCAL_DISABLE_FORMAT_STRING_CHECKS is true, we disable the protections. ifeq ($(LOCAL_DISABLE_FORMAT_STRING_CHECKS),true) LOCAL_CFLAGS += $($(my)DISABLE_FORMAT_STRING_CFLAGS) else LOCAL_CFLAGS += $($(my)FORMAT_STRING_CFLAGS) endif # enable PIE for executable beyond certain API level, unless "-static" ifneq (,$(filter true,$(NDK_APP_PIE) $(TARGET_PIE))) ifeq ($(call module-get-class,$(LOCAL_MODULE)),EXECUTABLE) ifeq (,$(filter -static,$(TARGET_LDFLAGS) $(LOCAL_LDFLAGS) $(NDK_APP_LDFLAGS))) LOCAL_CFLAGS += -fPIE LOCAL_LDFLAGS += -fPIE -pie endif endif endif # # The original Android build system allows you to use the .arm prefix # to a source file name to indicate that it should be defined in either # 'thumb' or 'arm' mode, depending on the value of LOCAL_ARM_MODE # # First, check LOCAL_ARM_MODE, it should be empty, 'thumb' or 'arm' # We make the default 'thumb' # LOCAL_ARM_MODE := $(strip $(LOCAL_ARM_MODE)) ifdef LOCAL_ARM_MODE ifneq ($(words $(LOCAL_ARM_MODE)),1) $(call __ndk_info, LOCAL_ARM_MODE in $(LOCAL_MAKEFILE) must be one word, not '$(LOCAL_ARM_MODE)') $(call __ndk_error, Aborting) endif # check that LOCAL_ARM_MODE is defined to either 'arm' or 'thumb' $(if $(filter-out thumb arm, $(LOCAL_ARM_MODE)),\ $(call __ndk_info, LOCAL_ARM_MODE must be defined to either 'arm' or 'thumb' in $(LOCAL_MAKEFILE) not '$(LOCAL_ARM_MODE)')\ $(call __ndk_error, Aborting)\ ) endif # As a special case, the original Android build system # allows one to specify that certain source files can be # forced to build in ARM mode by using a '.arm' suffix # after the extension, e.g. # # LOCAL_SRC_FILES := foo.c.arm # # to build source file $(LOCAL_PATH)/foo.c as ARM # $(call clear-all-src-tags) # As a special extension, the NDK also supports the .neon extension suffix # to indicate that a single file can be compiled with ARM NEON support # We must support both foo.c.neon and foo.c.arm.neon here # # Also, if LOCAL_ARM_NEON is set to 'true', force Neon mode for all source # files # neon_sources := $(filter %.neon,$(LOCAL_SRC_FILES)) neon_sources := $(neon_sources:%.neon=%) LOCAL_ARM_NEON := $(strip $(LOCAL_ARM_NEON)) ifdef LOCAL_ARM_NEON $(if $(filter-out true false,$(LOCAL_ARM_NEON)),\ $(call __ndk_info,LOCAL_ARM_NEON must be defined either to 'true' or 'false' in $(LOCAL_MAKEFILE), not '$(LOCAL_ARM_NEON)')\ $(call __ndk_error,Aborting) \ ) endif ifeq ($(LOCAL_ARM_NEON),true) neon_sources += $(LOCAL_SRC_FILES:%.neon=%) # tag the precompiled header with 'neon' tag if it exists ifneq (,$(LOCAL_PCH)) $(call tag-src-files,$(LOCAL_PCH),neon) endif endif neon_sources := $(strip $(neon_sources)) ifdef neon_sources ifeq ($(filter $(TARGET_ARCH_ABI), armeabi-v7a armeabi-v7a-hard x86),) $(call __ndk_info,NEON support is only possible for armeabi-v7a ABI, its variant armeabi-v7a-hard and x86 ABI) $(call __ndk_info,Please add checks against TARGET_ARCH_ABI in $(LOCAL_MAKEFILE)) $(call __ndk_error,Aborting) endif $(call tag-src-files,$(neon_sources:%.arm=%),neon) endif LOCAL_SRC_FILES := $(LOCAL_SRC_FILES:%.neon=%) # strip the .arm suffix from LOCAL_SRC_FILES # and tag the relevant sources with the 'arm' tag # arm_sources := $(filter %.arm,$(LOCAL_SRC_FILES)) arm_sources := $(arm_sources:%.arm=%) thumb_sources := $(filter-out %.arm,$(LOCAL_SRC_FILES)) LOCAL_SRC_FILES := $(LOCAL_SRC_FILES:%.arm=%) ifeq ($(LOCAL_ARM_MODE),arm) arm_sources := $(LOCAL_SRC_FILES) # tag the precompiled header with 'arm' tag if it exists ifneq (,$(LOCAL_PCH)) $(call tag-src-files,$(LOCAL_PCH),arm) endif endif ifeq ($(LOCAL_ARM_MODE),thumb) arm_sources := $(empty) endif $(call tag-src-files,$(arm_sources),arm) # tag debug if APP_OPTIM is 'debug' # ifeq ($(APP_OPTIM),debug) $(call tag-src-files,$(LOCAL_SRC_FILES),debug) ifneq (,$(LOCAL_PCH)) $(call tag-src-files,$(LOCAL_PCH),debug) endif endif # add PCH to LOCAL_SRC_FILES so that TARGET-process-src-files-tags could process it ifneq (,$(LOCAL_PCH)) LOCAL_SRC_FILES += $(LOCAL_PCH) endif # Process all source file tags to determine toolchain-specific # target compiler flags, and text. # $(call TARGET-process-src-files-tags) # now remove PCH from LOCAL_SRC_FILES to prevent getting NDK warning about # unsupported source file extensions ifneq (,$(LOCAL_PCH)) LOCAL_SRC_FILES := $(filter-out $(LOCAL_PCH),$(LOCAL_SRC_FILES)) endif # only call dump-src-file-tags during debugging #$(dump-src-file-tags) LOCAL_DEPENDENCY_DIRS := # all_source_patterns contains the list of filename patterns that correspond # to source files recognized by our build system ifeq ($(TARGET_ARCH_ABI),x86) all_source_extensions := .c .s .S .asm $(LOCAL_CPP_EXTENSION) $(LOCAL_RS_EXTENSION) else all_source_extensions := .c .s .S $(LOCAL_CPP_EXTENSION) $(LOCAL_RS_EXTENSION) endif all_source_patterns := $(foreach _ext,$(all_source_extensions),%$(_ext)) all_cpp_patterns := $(foreach _ext,$(LOCAL_CPP_EXTENSION),%$(_ext)) all_rs_patterns := $(foreach _ext,$(LOCAL_RS_EXTENSION),%$(_ext)) unknown_sources := $(strip $(filter-out $(all_source_patterns),$(LOCAL_SRC_FILES))) ifdef unknown_sources $(call __ndk_info,WARNING: Unsupported source file extensions in $(LOCAL_MAKEFILE) for module $(LOCAL_MODULE)) $(call __ndk_info, $(unknown_sources)) endif # LOCAL_OBJECTS will list all object files corresponding to the sources # listed in LOCAL_SRC_FILES, in the *same* order. # LOCAL_OBJECTS := $(LOCAL_SRC_FILES) $(foreach _ext,$(all_source_extensions),\ $(eval LOCAL_OBJECTS := $$(LOCAL_OBJECTS:%$(_ext)=%$$(TARGET_OBJ_EXTENSION)))\ ) LOCAL_OBJECTS := $(filter %$(TARGET_OBJ_EXTENSION),$(LOCAL_OBJECTS)) LOCAL_OBJECTS := $(subst ../,__/,$(LOCAL_OBJECTS)) LOCAL_OBJECTS := $(subst :,_,$(LOCAL_OBJECTS)) LOCAL_OBJECTS := $(foreach _obj,$(LOCAL_OBJECTS),$(LOCAL_OBJS_DIR)/$(_obj)) LOCAL_RS_OBJECTS := $(filter $(all_rs_patterns),$(LOCAL_SRC_FILES)) $(foreach _ext,$(LOCAL_RS_EXTENSION),\ $(eval LOCAL_RS_OBJECTS := $$(LOCAL_RS_OBJECTS:%$(_ext)=%$$(TARGET_OBJ_EXTENSION)))\ ) LOCAL_RS_OBJECTS := $(filter %$(TARGET_OBJ_EXTENSION),$(LOCAL_RS_OBJECTS)) LOCAL_RS_OBJECTS := $(subst ../,__/,$(LOCAL_RS_OBJECTS)) LOCAL_RS_OBJECTS := $(subst :,_,$(LOCAL_RS_OBJECTS)) LOCAL_RS_OBJECTS := $(foreach _obj,$(LOCAL_RS_OBJECTS),$(LOCAL_OBJS_DIR)/$(_obj)) # If the module has any kind of C++ features, enable them in LOCAL_CPPFLAGS # ifneq (,$(call module-has-c++-features,$(LOCAL_MODULE),rtti)) LOCAL_CPPFLAGS += -frtti endif ifneq (,$(call module-has-c++-features,$(LOCAL_MODULE),exceptions)) LOCAL_CPPFLAGS += -fexceptions endif # If we're using the 'system' STL and use rtti or exceptions, then # automatically link against the GNU libsupc++ for now. # ifneq (,$(call module-has-c++-features,$(LOCAL_MODULE),rtti exceptions)) ifeq (system,$(NDK_APP_STL)) LOCAL_LDLIBS := $(LOCAL_LDLIBS) $(call host-path,$(NDK_ROOT)/sources/cxx-stl/gnu-libstdc++/$(TOOLCHAIN_VERSION)/libs/$(TARGET_ARCH_ABI)/libsupc++$(TARGET_LIB_EXTENSION)) endif endif # Set include patch for renderscript ifneq ($(LOCAL_RENDERSCRIPT_INCLUDES_OVERRIDE),) LOCAL_RENDERSCRIPT_INCLUDES := $(LOCAL_RENDERSCRIPT_INCLUDES_OVERRIDE) else LOCAL_RENDERSCRIPT_INCLUDES := \ $(RENDERSCRIPT_TOOLCHAIN_HEADER) \ $(TARGET_C_INCLUDES)/rs/scriptc \ $(LOCAL_RENDERSCRIPT_INCLUDES) endif RS_COMPAT := ifneq ($(call module-is-shared-library,$(LOCAL_MODULE)),) RS_COMPAT := true endif # Build PCH get-pch-name = $(strip \ $(subst ../,__/,\ $(eval __pch := $1)\ $(eval __pch := $(__pch:%.h=%.precompiled.h))\ $(__pch)\ )) ifneq (,$(LOCAL_PCH)) # Build PCH into obj directory LOCAL_BUILT_PCH := $(call get-pch-name,$(LOCAL_PCH)) # Build PCH $(call compile-cpp-source,$(LOCAL_PCH),$(LOCAL_BUILT_PCH).gch) # All obj files are dependent on the PCH $(foreach src,$(filter $(all_cpp_patterns),$(LOCAL_SRC_FILES)),\ $(eval $(LOCAL_OBJS_DIR)/$(call get-object-name,$(src)) : $(LOCAL_OBJS_DIR)/$(LOCAL_BUILT_PCH).gch)\ ) # Files from now on build with PCH LOCAL_CPPFLAGS += -Winvalid-pch -include $(LOCAL_BUILT_PCH) # Insert PCH dir at beginning of include search path LOCAL_C_INCLUDES := \ $(LOCAL_OBJS_DIR) \ $(LOCAL_C_INCLUDES) endif # Build the sources to object files # $(foreach src,$(filter %.c,$(LOCAL_SRC_FILES)), $(call compile-c-source,$(src),$(call get-object-name,$(src)))) $(foreach src,$(filter %.S %.s,$(LOCAL_SRC_FILES)), $(call compile-s-source,$(src),$(call get-object-name,$(src)))) $(foreach src,$(filter $(all_cpp_patterns),$(LOCAL_SRC_FILES)),\ $(call compile-cpp-source,$(src),$(call get-object-name,$(src)))\ ) $(foreach src,$(filter $(all_rs_patterns),$(LOCAL_SRC_FILES)),\ $(call compile-rs-source,$(src),$(call get-rs-scriptc-name,$(src)),$(call get-rs-bc-name,$(src)),$(call get-rs-so-name,$(src)),$(call get-object-name,$(src)),$(RS_COMPAT))\ ) ifeq ($(TARGET_ARCH_ABI),x86) $(foreach src,$(filter %.asm,$(LOCAL_SRC_FILES)), $(call compile-asm-source,$(src),$(call get-object-name,$(src)))) endif # # The compile-xxx-source calls updated LOCAL_OBJECTS and LOCAL_DEPENDENCY_DIRS # ALL_DEPENDENCY_DIRS += $(sort $(LOCAL_DEPENDENCY_DIRS)) CLEAN_OBJS_DIRS += $(LOCAL_OBJS_DIR) # # Handle the static and shared libraries this module depends on # # If LOCAL_LDLIBS contains anything like -l then # prepend a -L$(SYSROOT_LINK)/usr/lib to it to ensure that the linker # looks in the right location # ifneq ($(filter -l%,$(LOCAL_LDLIBS)),) LOCAL_LDLIBS := -L$(call host-path,$(SYSROOT_LINK)/usr/lib) $(LOCAL_LDLIBS) ifneq ($(filter x86_64 mips64,$(TARGET_ARCH_ABI)),) LOCAL_LDLIBS := -L$(call host-path,$(SYSROOT_LINK)/usr/lib64) $(LOCAL_LDLIBS) endif endif # When LOCAL_SHORT_COMMANDS is defined to 'true' we are going to write the # list of all object files and/or static/shared libraries that appear on the # command line to a file, then use the @ syntax to invoke it. # # This allows us to link or archive a huge number of stuff even on Windows # with its puny 8192 max character limit on its command-line. # LOCAL_SHORT_COMMANDS := $(strip $(LOCAL_SHORT_COMMANDS)) ifndef LOCAL_SHORT_COMMANDS LOCAL_SHORT_COMMANDS := $(strip $(NDK_APP_SHORT_COMMANDS)) endif $(call generate-file-dir,$(LOCAL_BUILT_MODULE)) $(LOCAL_BUILT_MODULE): PRIVATE_OBJECTS := $(LOCAL_OBJECTS) $(LOCAL_BUILT_MODULE): PRIVATE_LIBGCC := $(TARGET_LIBGCC) $(LOCAL_BUILT_MODULE): PRIVATE_LD := $(TARGET_LD) $(LOCAL_BUILT_MODULE): PRIVATE_LDFLAGS := $(TARGET_LDFLAGS) $(LOCAL_LDFLAGS) $(NDK_APP_LDFLAGS) $(LOCAL_BUILT_MODULE): PRIVATE_LDLIBS := $(LOCAL_LDLIBS) $(TARGET_LDLIBS) $(LOCAL_BUILT_MODULE): PRIVATE_NAME := $(notdir $(LOCAL_BUILT_MODULE)) $(LOCAL_BUILT_MODULE): PRIVATE_CXX := $(TARGET_CXX) $(LOCAL_BUILT_MODULE): PRIVATE_CC := $(TARGET_CC) $(LOCAL_BUILT_MODULE): PRIVATE_SYSROOT_LINK := $(SYSROOT_LINK) ifeq ($(call module-get-class,$(LOCAL_MODULE)),STATIC_LIBRARY) # # This is a static library module, things are very easy. We only need # to build the object files and archive them with 'ar'. Note that module # dependencies can be ignored here, i.e. if the module depends on other # static or shared libraries, there is no need to actually build them # before, so don't add Make dependencies to them. # # In other words, consider the following graph: # # libfoo.so -> libA.a ->libB.a # # then libA.a and libB.a can be built in parallel, only linking libfoo.so # depends on their completion. # ar_objects := $(call host-path,$(LOCAL_OBJECTS)) ifeq ($(LOCAL_SHORT_COMMANDS),true) $(call ndk_log,Building static library module '$(LOCAL_MODULE)' with linker list file) ar_list_file := $(LOCAL_OBJS_DIR)/archiver.list $(call generate-list-file,$(ar_objects),$(ar_list_file)) ar_objects := @$(call host-path,$(ar_list_file)) $(LOCAL_BUILT_MODULE): $(ar_list_file) endif # Compute 'ar' flags. Thin archives simply require 'T' here. ar_flags := $(TARGET_ARFLAGS) ifeq (true,$(thin_archive)) $(call ndk_log,$(TARGET_ARCH_ABI):Building static library '$(LOCAL_MODULE)' as thin archive) ar_flags := $(ar_flags)T endif $(LOCAL_BUILT_MODULE): PRIVATE_ABI := $(TARGET_ARCH_ABI) $(LOCAL_BUILT_MODULE): PRIVATE_AR := $(TARGET_AR) $(ar_flags) $(LOCAL_BUILT_MODULE): PRIVATE_AR_OBJECTS := $(ar_objects) $(LOCAL_BUILT_MODULE): PRIVATE_BUILD_STATIC_LIB := $(cmd-build-static-library) $(LOCAL_BUILT_MODULE): $(LOCAL_OBJECTS) $(call host-echo-build-step,$(PRIVATE_ABI),StaticLibrary) "$(PRIVATE_NAME)" $(hide) $(call host-rm,$@) $(hide) $(PRIVATE_BUILD_STATIC_LIB) ALL_STATIC_LIBRARIES += $(LOCAL_BUILT_MODULE) endif ifneq (,$(filter SHARED_LIBRARY EXECUTABLE,$(call module-get-class,$(LOCAL_MODULE)))) # # This is a shared library or an executable, so computing dependencies properly is # crucial. The general rule to apply is the following: # # - collect the list of all static libraries that need to be part # of the link, and in the right order. To do so, get the transitive # closure of LOCAL_STATIC_LIBRARIES and LOCAL_WHOLE_STATIC_LIBRARIES # and ensure they are ordered topologically. # # - collect the list of all shared libraries that need to be part of # the link. This is the transitive closure of the list of # LOCAL_SHARED_LIBRARIES for the module and all its dependent static # libraries identified in the step above. Of course, need to be # ordered topologically too. # # - add Make dependencies to ensure that all these libs are built # before the module itself too. # # A few quick examples: # # main.exe -> libA.a -> libB.a -> libfoo.so -> libC.a # # static_libs(main.exe) = libA.a libB.a (i.e. no libC.a) # shared_libs(main.exe) = libfoo.so # static_libs(libfoo.so) = libC.a # # main.exe -> libA.a ---> libB.a # | ^ # v | # libC.a ------ # # static_libs(main.exe) = libA.a libC.a libB.a # (i.e. libB.a must appear after all libraries that depend on it). # all_libs := $(call module-get-link-libs,$(LOCAL_MODULE)) shared_libs := $(call module-filter-shared-libraries,$(all_libs)) static_libs := $(call module-filter-static-libraries,$(all_libs)) whole_static_libs := $(call module-extract-whole-static-libs,$(LOCAL_MODULE),$(static_libs)) static_libs := $(filter-out $(whole_static_libs),$(static_libs)) $(call -ndk-mod-debug,module $(LOCAL_MODULE) [$(LOCAL_BUILT_MODULE)]) $(call -ndk-mod-debug,. all_libs='$(all_libs)') $(call -ndk-mod-debug,. shared_libs='$(shared_libs)') $(call -ndk-mod-debug,. static_libs='$(static_libs)') $(call -ndk-mod-debug,. whole_static_libs='$(whole_static_libs)') shared_libs := $(call map,module-get-built,$(shared_libs))\ $(TARGET_PREBUILT_SHARED_LIBRARIES) static_libs := $(call map,module-get-built,$(static_libs)) whole_static_libs := $(call map,module-get-built,$(whole_static_libs)) $(call -ndk-mod-debug,. built_shared_libs='$(shared_libs)') $(call -ndk-mod-debug,. built_static_libs='$(static_libs)') $(call -ndk-mod-debug,. built_whole_static_libs='$(whole_static_libs)') # The list of object/static/shared libraries passed to the linker when # building shared libraries and executables. order is important. # # Cannot use immediate evaluation because PRIVATE_LIBGCC may not be defined at this point. linker_objects_and_libraries = $(strip $(call TARGET-get-linker-objects-and-libraries,\ $(LOCAL_OBJECTS), \ $(static_libs), \ $(whole_static_libs), \ $(shared_libs))) ifeq ($(LOCAL_SHORT_COMMANDS),true) $(call ndk_log,Building ELF binary module '$(LOCAL_MODULE)' with linker list file) linker_options := $(linker_objects_and_libraries) linker_list_file := $(LOCAL_OBJS_DIR)/linker.list linker_objects_and_libraries := @$(call host-path,$(linker_list_file)) $(call generate-list-file,$(linker_options),$(linker_list_file)) $(LOCAL_BUILT_MODULE): $(linker_list_file) endif $(LOCAL_BUILT_MODULE): $(shared_libs) $(static_libs) $(whole_static_libs) $(LOCAL_BUILT_MODULE): PRIVATE_ABI := $(TARGET_ARCH_ABI) $(LOCAL_BUILT_MODULE): PRIVATE_LINKER_OBJECTS_AND_LIBRARIES := $(linker_objects_and_libraries) $(LOCAL_BUILT_MODULE): PRIVATE_STATIC_LIBRARIES := $(static_libs) $(LOCAL_BUILT_MODULE): PRIVATE_WHOLE_STATIC_LIBRARIES := $(whole_static_libs)) $(LOCAL_BUILT_MODULE): PRIVATE_SHARED_LIBRARIES := $(shared_libs)) endif # # If this is a shared library module # ifeq ($(call module-get-class,$(LOCAL_MODULE)),SHARED_LIBRARY) $(LOCAL_BUILT_MODULE): PRIVATE_BUILD_SHARED_LIB := $(cmd-build-shared-library) $(LOCAL_BUILT_MODULE): $(LOCAL_OBJECTS) $(call host-echo-build-step,$(PRIVATE_ABI),SharedLibrary) "$(PRIVATE_NAME)" $(hide) $(PRIVATE_BUILD_SHARED_LIB) ALL_SHARED_LIBRARIES += $(LOCAL_BUILT_MODULE) endif # # If this is an executable module # ifeq ($(call module-get-class,$(LOCAL_MODULE)),EXECUTABLE) $(LOCAL_BUILT_MODULE): PRIVATE_ABI := $(TARGET_ARCH_ABI) $(LOCAL_BUILT_MODULE): PRIVATE_BUILD_EXECUTABLE := $(cmd-build-executable) $(LOCAL_BUILT_MODULE): $(LOCAL_OBJECTS) $(call host-echo-build-step,$(PRIVATE_ABI),Executable) "$(PRIVATE_NAME)" $(hide) $(PRIVATE_BUILD_EXECUTABLE) ALL_EXECUTABLES += $(LOCAL_BUILT_MODULE) endif # # If this is a copyable prebuilt module # ifeq ($(call module-is-copyable,$(LOCAL_MODULE)),$(true)) $(LOCAL_BUILT_MODULE): $(LOCAL_OBJECTS) $(call host-echo-build-step,$(PRIVATE_ABI),Prebuilt) "$(PRIVATE_NAME) <= $(call pretty-dir,$(dir $<))" $(hide) $(call host-cp,$<,$@) endif # # If this is an installable module # ifeq ($(call module-is-installable,$(LOCAL_MODULE)),$(true)) $(LOCAL_INSTALLED): PRIVATE_ABI := $(TARGET_ARCH_ABI) $(LOCAL_INSTALLED): PRIVATE_NAME := $(notdir $(LOCAL_BUILT_MODULE)) $(LOCAL_INSTALLED): PRIVATE_SRC := $(LOCAL_BUILT_MODULE) $(LOCAL_INSTALLED): PRIVATE_DST_DIR := $(NDK_APP_DST_DIR) $(LOCAL_INSTALLED): PRIVATE_DST := $(LOCAL_INSTALLED) $(LOCAL_INSTALLED): PRIVATE_STRIP := $(TARGET_STRIP) $(LOCAL_INSTALLED): PRIVATE_STRIP_CMD := $(call cmd-strip, $(PRIVATE_DST)) $(LOCAL_INSTALLED): PRIVATE_OBJCOPY := $(TARGET_OBJCOPY) $(LOCAL_INSTALLED): PRIVATE_OBJCOPY_CMD := $(call cmd-add-gnu-debuglink, $(PRIVATE_DST), $(PRIVATE_SRC)) $(LOCAL_INSTALLED): $(LOCAL_BUILT_MODULE) clean-installed-binaries $(call host-echo-build-step,$(PRIVATE_ABI),Install) "$(PRIVATE_NAME) => $(call pretty-dir,$(PRIVATE_DST))" $(hide) $(call host-install,$(PRIVATE_SRC),$(PRIVATE_DST)) $(hide) $(PRIVATE_STRIP_CMD) #$(hide) $(PRIVATE_OBJCOPY_CMD) $(call generate-file-dir,$(LOCAL_INSTALLED)) endif