Makefile文件  |  311行  |  11.37 KB

#
# Copyright (C) 2006 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.
#

# Configuration for Linux on ARM.
# Included by combo/select.mk

# You can set TARGET_ARCH_VARIANT to use an arch version other
# than ARMv5TE. Each value should correspond to a file named
# $(BUILD_COMBOS)/arch/<name>.mk which must contain
# makefile variable definitions similar to the preprocessor
# defines in system/core/include/arch/<combo>/AndroidConfig.h. Their
# purpose is to allow module Android.mk files to selectively compile
# different versions of code based upon the funtionality and
# instructions available in a given architecture version.
#
# The blocks also define specific arch_variant_cflags, which
# include defines, and compiler settings for the given architecture
# version.
#
ifeq ($(strip $(TARGET_ARCH_VARIANT)),)
TARGET_ARCH_VARIANT := armv5te
endif

TARGET_ARCH_SPECIFIC_MAKEFILE := $(BUILD_COMBOS)/arch/$(TARGET_ARCH)/$(TARGET_ARCH_VARIANT).mk
ifeq ($(strip $(wildcard $(TARGET_ARCH_SPECIFIC_MAKEFILE))),)
$(error Unknown ARM architecture version: $(TARGET_ARCH_VARIANT))
endif

include $(TARGET_ARCH_SPECIFIC_MAKEFILE)

# You can set TARGET_TOOLS_PREFIX to get gcc from somewhere else
ifeq ($(strip $(TARGET_TOOLS_PREFIX)),)
TARGET_TOOLCHAIN_ROOT := prebuilts/gcc/$(HOST_PREBUILT_TAG)/arm/arm-linux-androideabi-4.6
TARGET_TOOLS_PREFIX := $(TARGET_TOOLCHAIN_ROOT)/bin/arm-linux-androideabi-
endif

# Only define these if there's actually a gcc in there.
# The gcc toolchain does not exists for windows/cygwin. In this case, do not reference it.
ifneq ($(wildcard $(TARGET_TOOLS_PREFIX)gcc$(HOST_EXECUTABLE_SUFFIX)),)
    TARGET_CC := $(TARGET_TOOLS_PREFIX)gcc$(HOST_EXECUTABLE_SUFFIX)
    TARGET_CXX := $(TARGET_TOOLS_PREFIX)g++$(HOST_EXECUTABLE_SUFFIX)
    TARGET_AR := $(TARGET_TOOLS_PREFIX)ar$(HOST_EXECUTABLE_SUFFIX)
    TARGET_OBJCOPY := $(TARGET_TOOLS_PREFIX)objcopy$(HOST_EXECUTABLE_SUFFIX)
    TARGET_LD := $(TARGET_TOOLS_PREFIX)ld$(HOST_EXECUTABLE_SUFFIX)
    TARGET_STRIP := $(TARGET_TOOLS_PREFIX)strip$(HOST_EXECUTABLE_SUFFIX)
    ifeq ($(TARGET_BUILD_VARIANT),user)
        TARGET_STRIP_COMMAND = $(TARGET_STRIP) --strip-all $< -o $@
    else
        TARGET_STRIP_COMMAND = $(TARGET_STRIP) --strip-all $< -o $@ && \
	    $(TARGET_OBJCOPY) --add-gnu-debuglink=$< $@
    endif
endif

TARGET_NO_UNDEFINED_LDFLAGS := -Wl,--no-undefined

TARGET_arm_CFLAGS :=    -O2 \
                        -fomit-frame-pointer \
                        -fstrict-aliasing    \
                        -funswitch-loops

# Modules can choose to compile some source as thumb. As
# non-thumb enabled targets are supported, this is treated
# as a 'hint'. If thumb is not enabled, these files are just
# compiled as ARM.
ifeq ($(ARCH_ARM_HAVE_THUMB_SUPPORT),true)
TARGET_thumb_CFLAGS :=  -mthumb \
                        -Os \
                        -fomit-frame-pointer \
                        -fno-strict-aliasing
else
TARGET_thumb_CFLAGS := $(TARGET_arm_CFLAGS)
endif

# Set FORCE_ARM_DEBUGGING to "true" in your buildspec.mk
# or in your environment to force a full arm build, even for
# files that are normally built as thumb; this can make
# gdb debugging easier.  Don't forget to do a clean build.
#
# NOTE: if you try to build a -O0 build with thumb, several
# of the libraries (libpv, libwebcore, libkjs) need to be built
# with -mlong-calls.  When built at -O0, those libraries are
# too big for a thumb "BL <label>" to go from one end to the other.
ifeq ($(FORCE_ARM_DEBUGGING),true)
  TARGET_arm_CFLAGS += -fno-omit-frame-pointer -fno-strict-aliasing
  TARGET_thumb_CFLAGS += -marm -fno-omit-frame-pointer
endif

android_config_h := $(call select-android-config-h,linux-arm)
arch_include_dir := $(dir $(android_config_h))

TARGET_GLOBAL_CFLAGS += \
			-msoft-float -fpic -fPIE \
			-ffunction-sections \
			-fdata-sections \
			-funwind-tables \
			-fstack-protector \
			-Wa,--noexecstack \
			-Werror=format-security \
			-fno-short-enums \
			$(arch_variant_cflags) \
			-include $(android_config_h) \
			-I $(arch_include_dir)

# This warning causes dalvik not to build with gcc 4.6.x and -Werror.
# We cannot turn it off blindly since the option is not available
# in gcc-4.4.x.  We also want to disable sincos optimization globally
# by turning off the builtin sin function.
ifneq ($(filter 4.6.%, $(shell $(TARGET_CC) --version)),)
TARGET_GLOBAL_CFLAGS += -Wno-unused-but-set-variable -fno-builtin-sin \
			-fno-strict-volatile-bitfields
endif

# This is to avoid the dreaded warning compiler message:
#   note: the mangling of 'va_list' has changed in GCC 4.4
#
# The fact that the mangling changed does not affect the NDK ABI
# very fortunately (since none of the exposed APIs used va_list
# in their exported C++ functions). Also, GCC 4.5 has already
# removed the warning from the compiler.
#
TARGET_GLOBAL_CFLAGS += -Wno-psabi

TARGET_GLOBAL_LDFLAGS += \
			-Wl,-z,noexecstack \
			-Wl,-z,relro \
			-Wl,-z,now \
			-Wl,--icf=safe \
			$(arch_variant_ldflags)

# We only need thumb interworking in cases where thumb support
# is available in the architecture, and just to be sure, (and
# since sometimes thumb-interwork appears to be default), we
# specifically disable when thumb support is unavailable.
ifeq ($(ARCH_ARM_HAVE_THUMB_SUPPORT),true)
TARGET_GLOBAL_CFLAGS +=	-mthumb-interwork
else
TARGET_GLOBAL_CFLAGS +=	-mno-thumb-interwork
endif

TARGET_GLOBAL_CPPFLAGS += -fvisibility-inlines-hidden

# More flags/options can be added here
TARGET_RELEASE_CFLAGS := \
			-DNDEBUG \
			-g \
			-Wstrict-aliasing=2 \
			-fgcse-after-reload \
			-frerun-cse-after-loop \
			-frename-registers

libc_root := bionic/libc
libm_root := bionic/libm
libstdc++_root := bionic/libstdc++
libthread_db_root := bionic/libthread_db


## on some hosts, the target cross-compiler is not available so do not run this command
ifneq ($(wildcard $(TARGET_CC)),)
# We compile with the global cflags to ensure that
# any flags which affect libgcc are correctly taken
# into account.
TARGET_LIBGCC := $(shell $(TARGET_CC) $(TARGET_GLOBAL_CFLAGS) -print-libgcc-file-name)
endif

# Define FDO (Feedback Directed Optimization) options.

TARGET_FDO_CFLAGS:=
TARGET_FDO_LIB:=

target_libgcov := $(shell $(TARGET_CC) $(TARGET_GLOBAL_CFLAGS) \
        --print-file-name=libgcov.a)
ifneq ($(strip $(BUILD_FDO_INSTRUMENT)),)
  # Set BUILD_FDO_INSTRUMENT=true to turn on FDO instrumentation.
  # The profile will be generated on /data/local/tmp/profile on the device.
  TARGET_FDO_CFLAGS := -fprofile-generate=/data/local/tmp/profile -DANDROID_FDO
  TARGET_FDO_LIB := $(target_libgcov)
else
  # If BUILD_FDO_INSTRUMENT is turned off, then consider doing the FDO optimizations.
  # Set TARGET_FDO_PROFILE_PATH to set a custom profile directory for your build.
  ifeq ($(strip $(TARGET_FDO_PROFILE_PATH)),)
    TARGET_FDO_PROFILE_PATH := fdo/profiles/$(TARGET_ARCH)/$(TARGET_ARCH_VARIANT)
  else
    ifeq ($(strip $(wildcard $(TARGET_FDO_PROFILE_PATH))),)
      $(warning Custom TARGET_FDO_PROFILE_PATH supplied, but directory does not exist. Turn off FDO.)
    endif
  endif

  # If the FDO profile directory can't be found, then FDO is off.
  ifneq ($(strip $(wildcard $(TARGET_FDO_PROFILE_PATH))),)
    TARGET_FDO_CFLAGS := -fprofile-use=$(TARGET_FDO_PROFILE_PATH) -DANDROID_FDO
    TARGET_FDO_LIB := $(target_libgcov)
  endif
endif


# unless CUSTOM_KERNEL_HEADERS is defined, we're going to use
# symlinks located in out/ to point to the appropriate kernel
# headers. see 'config/kernel_headers.make' for more details
#
ifneq ($(CUSTOM_KERNEL_HEADERS),)
    KERNEL_HEADERS_COMMON := $(CUSTOM_KERNEL_HEADERS)
    KERNEL_HEADERS_ARCH   := $(CUSTOM_KERNEL_HEADERS)
else
    KERNEL_HEADERS_COMMON := $(libc_root)/kernel/common
    KERNEL_HEADERS_ARCH   := $(libc_root)/kernel/arch-$(TARGET_ARCH)
endif
KERNEL_HEADERS := $(KERNEL_HEADERS_COMMON) $(KERNEL_HEADERS_ARCH)

TARGET_C_INCLUDES := \
	$(libc_root)/arch-arm/include \
	$(libc_root)/include \
	$(libstdc++_root)/include \
	$(KERNEL_HEADERS) \
	$(libm_root)/include \
	$(libm_root)/include/arm \
	$(libthread_db_root)/include

TARGET_CRTBEGIN_STATIC_O := $(TARGET_OUT_STATIC_LIBRARIES)/crtbegin_static.o
TARGET_CRTBEGIN_DYNAMIC_O := $(TARGET_OUT_STATIC_LIBRARIES)/crtbegin_dynamic.o
TARGET_CRTEND_O := $(TARGET_OUT_STATIC_LIBRARIES)/crtend_android.o

TARGET_CRTBEGIN_SO_O := $(TARGET_OUT_STATIC_LIBRARIES)/crtbegin_so.o
TARGET_CRTEND_SO_O := $(TARGET_OUT_STATIC_LIBRARIES)/crtend_so.o

TARGET_STRIP_MODULE:=true

TARGET_DEFAULT_SYSTEM_SHARED_LIBRARIES := libc libstdc++ libm

TARGET_CUSTOM_LD_COMMAND := true

# Enable the Dalvik JIT compiler if not already specified.
ifeq ($(strip $(WITH_JIT)),)
    WITH_JIT := true
endif

define transform-o-to-shared-lib-inner
$(hide) $(PRIVATE_CXX) \
	-nostdlib -Wl,-soname,$(notdir $@) \
	-Wl,--gc-sections \
	-Wl,-shared,-Bsymbolic \
	$(PRIVATE_TARGET_GLOBAL_LD_DIRS) \
	$(PRIVATE_ALL_OBJECTS) \
	$(if $(filter true,$(PRIVATE_NO_CRT)),,$(PRIVATE_TARGET_CRTBEGIN_SO_O)) \
	-Wl,--whole-archive \
	$(call normalize-target-libraries,$(PRIVATE_ALL_WHOLE_STATIC_LIBRARIES)) \
	-Wl,--no-whole-archive \
	$(if $(PRIVATE_GROUP_STATIC_LIBRARIES),-Wl$(comma)--start-group) \
	$(call normalize-target-libraries,$(PRIVATE_ALL_STATIC_LIBRARIES)) \
	$(if $(PRIVATE_GROUP_STATIC_LIBRARIES),-Wl$(comma)--end-group) \
	$(call normalize-target-libraries,$(PRIVATE_ALL_SHARED_LIBRARIES)) \
	-o $@ \
	$(PRIVATE_TARGET_GLOBAL_LDFLAGS) \
	$(PRIVATE_LDFLAGS) \
	$(PRIVATE_TARGET_FDO_LIB) \
	$(PRIVATE_TARGET_LIBGCC) \
	$(if $(filter true,$(PRIVATE_NO_CRT)),,$(PRIVATE_TARGET_CRTEND_SO_O))
endef

define transform-o-to-executable-inner
$(hide) $(PRIVATE_CXX) -nostdlib -Bdynamic -fPIE -pie \
	-Wl,-dynamic-linker,/system/bin/linker \
    -Wl,--gc-sections \
	-Wl,-z,nocopyreloc \
	-o $@ \
	$(TARGET_GLOBAL_LD_DIRS) \
	-Wl,-rpath-link=$(TARGET_OUT_INTERMEDIATE_LIBRARIES) \
	$(call normalize-target-libraries,$(PRIVATE_ALL_SHARED_LIBRARIES)) \
	$(if $(filter true,$(PRIVATE_NO_CRT)),,$(TARGET_CRTBEGIN_DYNAMIC_O)) \
	$(PRIVATE_ALL_OBJECTS) \
	$(if $(PRIVATE_GROUP_STATIC_LIBRARIES),-Wl$(comma)--start-group) \
	$(call normalize-target-libraries,$(PRIVATE_ALL_STATIC_LIBRARIES)) \
	$(if $(PRIVATE_GROUP_STATIC_LIBRARIES),-Wl$(comma)--end-group) \
	$(TARGET_GLOBAL_LDFLAGS) \
	$(PRIVATE_LDFLAGS) \
	$(TARGET_FDO_LIB) \
	$(TARGET_LIBGCC) \
	$(if $(filter true,$(PRIVATE_NO_CRT)),,$(TARGET_CRTEND_O))
endef

define transform-o-to-static-executable-inner
$(hide) $(PRIVATE_CXX) -nostdlib -Bstatic \
    -Wl,--gc-sections \
	-o $@ \
	$(TARGET_GLOBAL_LD_DIRS) \
	$(if $(filter true,$(PRIVATE_NO_CRT)),,$(TARGET_CRTBEGIN_STATIC_O)) \
	$(TARGET_GLOBAL_LDFLAGS) \
	$(PRIVATE_LDFLAGS) \
	$(PRIVATE_ALL_OBJECTS) \
	$(call normalize-target-libraries,$(filter-out %libc_nomalloc.a,$(filter-out %libc.a,$(PRIVATE_ALL_STATIC_LIBRARIES)))) \
	-Wl,--start-group \
	$(call normalize-target-libraries,$(filter %libc.a,$(PRIVATE_ALL_STATIC_LIBRARIES))) \
	$(call normalize-target-libraries,$(filter %libc_nomalloc.a,$(PRIVATE_ALL_STATIC_LIBRARIES))) \
	$(TARGET_FDO_LIB) \
	$(TARGET_LIBGCC) \
	-Wl,--end-group \
	$(if $(filter true,$(PRIVATE_NO_CRT)),,$(TARGET_CRTEND_O))
endef