# Copyright (C) 2009-2010 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. # # Initialization of the NDK build system. This file is included by # several build scripts. # # Disable GNU Make implicit rules # this turns off the suffix rules built into make .SUFFIXES: # this turns off the RCS / SCCS implicit rules of GNU Make % : RCS/%,v % : RCS/% % : %,v % : s.% % : SCCS/s.% # If a rule fails, delete $@. .DELETE_ON_ERROR: # Define NDK_LOG=1 in your environment to display log traces when # using the build scripts. See also the definition of ndk_log below. # NDK_LOG := $(strip $(NDK_LOG)) ifeq ($(NDK_LOG),true) override NDK_LOG := 1 endif # Define NDK_HOST_32BIT=1 in your environment to always use toolchain in 32-bit # even if 64-bit is present. Note that toolchains in 64-bit still produce # 32-bit binaries for Android # NDK_HOST_32BIT := $(strip $(NDK_HOST_32BIT)) ifeq ($(NDK_HOST_32BIT),true) override NDK_HOST_32BIT := 1 endif # Check that we have at least GNU Make 3.81 # We do this by detecting whether 'lastword' is supported # MAKE_TEST := $(lastword a b c d e f) ifneq ($(MAKE_TEST),f) $(error Android NDK: GNU Make version $(MAKE_VERSION) is too low (should be >= 3.81)) endif ifeq ($(NDK_LOG),1) $(info Android NDK: GNU Make version $(MAKE_VERSION) detected) endif # NDK_ROOT *must* be defined and point to the root of the NDK installation NDK_ROOT := $(strip $(NDK_ROOT)) ifndef NDK_ROOT $(error ERROR while including init.mk: NDK_ROOT must be defined !) endif ifneq ($(words $(NDK_ROOT)),1) $(info,The Android NDK installation path contains spaces: '$(NDK_ROOT)') $(error,Please fix the problem by reinstalling to a different location.) endif # ==================================================================== # # Define a few useful variables and functions. # More stuff will follow in definitions.mk. # # ==================================================================== # Used to output warnings and error from the library, it's possible to # disable any warnings or errors by overriding these definitions # manually or by setting NDK_NO_WARNINGS or NDK_NO_ERRORS __ndk_name := Android NDK __ndk_info = $(info $(__ndk_name): $1 $2 $3 $4 $5) __ndk_warning = $(warning $(__ndk_name): $1 $2 $3 $4 $5) __ndk_error = $(error $(__ndk_name): $1 $2 $3 $4 $5) ifdef NDK_NO_WARNINGS __ndk_warning := endif ifdef NDK_NO_ERRORS __ndk_error := endif # ----------------------------------------------------------------------------- # Function : ndk_log # Arguments: 1: text to print when NDK_LOG is defined to 1 # Returns : None # Usage : $(call ndk_log,<some text>) # ----------------------------------------------------------------------------- ifeq ($(NDK_LOG),1) ndk_log = $(info $(__ndk_name): $1) else ndk_log := endif # ----------------------------------------------------------------------------- # Function : host-prebuilt-tag # Arguments: 1: parent path of "prebuilt" # Returns : path $1/prebuilt/(HOST_TAG64) exists and NDK_HOST_32BIT isn't defined to 1, # or $1/prebuilt/(HOST_TAG) # Usage : $(call host-prebuilt-tag, <path>) # Rationale: This function is used to proble available 64-bit toolchain or # return 32-bit one as default. Note that HOST_TAG64==HOST_TAG for # 32-bit system (or 32-bit userland in 64-bit system) # ----------------------------------------------------------------------------- ifeq ($(NDK_HOST_32BIT),1) host-prebuilt-tag = $1/prebuilt/$(HOST_TAG) else host-prebuilt-tag = \ $(if $(strip $(wildcard $1/prebuilt/$(HOST_TAG64))),$1/prebuilt/$(HOST_TAG64),$1/prebuilt/$(HOST_TAG)) endif # ==================================================================== # # Host system auto-detection. # # ==================================================================== # # Determine host system and architecture from the environment # HOST_OS := $(strip $(HOST_OS)) ifndef HOST_OS # On all modern variants of Windows (including Cygwin and Wine) # the OS environment variable is defined to 'Windows_NT' # # The value of PROCESSOR_ARCHITECTURE will be x86 or AMD64 # ifeq ($(OS),Windows_NT) HOST_OS := windows else # For other systems, use the `uname` output UNAME := $(shell uname -s) ifneq (,$(findstring Linux,$(UNAME))) HOST_OS := linux endif ifneq (,$(findstring Darwin,$(UNAME))) HOST_OS := darwin endif # We should not be there, but just in case ! ifneq (,$(findstring CYGWIN,$(UNAME))) HOST_OS := windows endif ifeq ($(HOST_OS),) $(call __ndk_info,Unable to determine HOST_OS from uname -s: $(UNAME)) $(call __ndk_info,Please define HOST_OS in your environment.) $(call __ndk_error,Aborting.) endif endif $(call ndk_log,Host OS was auto-detected: $(HOST_OS)) else $(call ndk_log,Host OS from environment: $(HOST_OS)) endif # For all systems, we will have HOST_OS_BASE defined as # $(HOST_OS), except on Cygwin where we will have: # # HOST_OS == cygwin # HOST_OS_BASE == windows # # Trying to detect that we're running from Cygwin is tricky # because we can't use $(OSTYPE): It's a Bash shell variable # that is not exported to sub-processes, and isn't defined by # other shells (for those with really weird setups). # # Instead, we assume that a program named /bin/uname.exe # that can be invoked and returns a valid value corresponds # to a Cygwin installation. # HOST_OS_BASE := $(HOST_OS) ifeq ($(HOST_OS),windows) ifneq (,$(strip $(wildcard /bin/uname.exe))) $(call ndk_log,Found /bin/uname.exe on Windows host, checking for Cygwin) # NOTE: The 2>NUL here is for the case where we're running inside the # native Windows shell. On cygwin, this will create an empty NUL file # that we're going to remove later (see below). UNAME := $(shell /bin/uname.exe -s 2>NUL) $(call ndk_log,uname -s returned: $(UNAME)) ifneq (,$(filter CYGWIN%,$(UNAME))) $(call ndk_log,Cygwin detected: $(shell uname -a)) HOST_OS := cygwin DUMMY := $(shell rm -f NUL) # Cleaning up else ifneq (,$(filter MINGW32%,$(UNAME))) $(call ndk_log,MSys detected: $(shell uname -a)) HOST_OS := cygwin else $(call ndk_log,Cygwin *not* detected!) endif endif endif endif ifneq ($(HOST_OS),$(HOST_OS_BASE)) $(call ndk_log, Host operating system detected: $(HOST_OS), base OS: $(HOST_OS_BASE)) else $(call ndk_log, Host operating system detected: $(HOST_OS)) endif # Always use /usr/bin/file on Darwin to avoid relying on broken Ports # version. See http://b.android.com/53769 . HOST_FILE_PROGRAM := file ifeq ($(HOST_OS),darwin) HOST_FILE_PROGRAM := /usr/bin/file endif HOST_ARCH := $(strip $(HOST_ARCH)) HOST_ARCH64 := ifndef HOST_ARCH ifeq ($(HOST_OS_BASE),windows) HOST_ARCH := $(PROCESSOR_ARCHITECTURE) ifeq ($(HOST_ARCH),AMD64) HOST_ARCH := x86 endif # Windows is 64-bit if either ProgramW6432 or ProgramFiles(x86) is set ifneq ("/",$(shell echo "%ProgramW6432%/%ProgramFiles(x86)%")) HOST_ARCH64 := x86_64 endif else # HOST_OS_BASE != windows UNAME := $(shell uname -m) ifneq (,$(findstring 86,$(UNAME))) HOST_ARCH := x86 ifneq (,$(shell $(HOST_FILE_PROGRAM) -L $(SHELL) | grep 'x86[_-]64')) HOST_ARCH64 := x86_64 endif endif # We should probably should not care at all ifneq (,$(findstring Power,$(UNAME))) HOST_ARCH := ppc endif ifeq ($(HOST_ARCH),) $(call __ndk_info,Unsupported host architecture: $(UNAME)) $(call __ndk_error,Aborting) endif endif # HOST_OS_BASE != windows $(call ndk_log,Host CPU was auto-detected: $(HOST_ARCH)) else $(call ndk_log,Host CPU from environment: $(HOST_ARCH)) endif ifeq (,$(HOST_ARCH64)) HOST_ARCH64 := $(HOST_ARCH) endif HOST_TAG := $(HOST_OS_BASE)-$(HOST_ARCH) HOST_TAG64 := $(HOST_OS_BASE)-$(HOST_ARCH64) # The directory separator used on this host HOST_DIRSEP := : ifeq ($(HOST_OS),windows) HOST_DIRSEP := ; endif # The host executable extension HOST_EXEEXT := ifeq ($(HOST_OS),windows) HOST_EXEEXT := .exe endif # If we are on Windows, we need to check that we are not running # Cygwin 1.5, which is deprecated and won't run our toolchain # binaries properly. # ifeq ($(HOST_TAG),windows-x86) ifeq ($(HOST_OS),cygwin) # On cygwin, 'uname -r' returns something like 1.5.23(0.225/5/3) # We recognize 1.5. as the prefix to look for then. CYGWIN_VERSION := $(shell uname -r) ifneq ($(filter XX1.5.%,XX$(CYGWIN_VERSION)),) $(call __ndk_info,You seem to be running Cygwin 1.5, which is not supported.) $(call __ndk_info,Please upgrade to Cygwin 1.7 or higher.) $(call __ndk_error,Aborting.) endif endif # special-case the host-tag HOST_TAG := windows endif $(call ndk_log,HOST_TAG set to $(HOST_TAG)) # Check for NDK-specific versions of our host tools HOST_PREBUILT_ROOT := $(call host-prebuilt-tag, $(NDK_ROOT)) HOST_PREBUILT := $(strip $(wildcard $(HOST_PREBUILT_ROOT)/bin)) HOST_AWK := $(strip $(NDK_HOST_AWK)) HOST_SED := $(strip $(NDK_HOST_SED)) HOST_MAKE := $(strip $(NDK_HOST_MAKE)) HOST_PYTHON := $(strip $(NDK_HOST_PYTHON)) ifdef HOST_PREBUILT $(call ndk_log,Host tools prebuilt directory: $(HOST_PREBUILT)) # The windows prebuilt binaries are for ndk-build.cmd # On cygwin, we must use the Cygwin version of these tools instead. ifneq ($(HOST_OS),cygwin) ifndef HOST_AWK HOST_AWK := $(wildcard $(HOST_PREBUILT)/awk$(HOST_EXEEXT)) endif ifndef HOST_SED HOST_SED := $(wildcard $(HOST_PREBUILT)/sed$(HOST_EXEEXT)) endif ifndef HOST_MAKE HOST_MAKE := $(wildcard $(HOST_PREBUILT)/make$(HOST_EXEEXT)) endif ifndef HOST_PYTHON HOST_PYTHON := $(wildcard $(HOST_PREBUILT)/python$(HOST_EXEEXT)) endif endif else $(call ndk_log,Host tools prebuilt directory not found, using system tools) endif HOST_ECHO := $(strip $(NDK_HOST_ECHO)) ifdef HOST_PREBUILT ifndef HOST_ECHO # Special case, on Cygwin, always use the host echo, not our prebuilt one # which adds \r\n at the end of lines. ifneq ($(HOST_OS),cygwin) HOST_ECHO := $(strip $(wildcard $(HOST_PREBUILT)/echo$(HOST_EXEEXT))) endif endif endif ifndef HOST_ECHO HOST_ECHO := echo endif $(call ndk_log,Host 'echo' tool: $(HOST_ECHO)) # Define HOST_ECHO_N to perform the equivalent of 'echo -n' on all platforms. ifeq ($(HOST_OS),windows) # Our custom toolbox echo binary supports -n. HOST_ECHO_N := $(HOST_ECHO) -n else # On Posix, just use bare printf. HOST_ECHO_N := printf %s endif $(call ndk_log,Host 'echo -n' tool: $(HOST_ECHO_N)) HOST_CMP := $(strip $(NDK_HOST_CMP)) ifdef HOST_PREBUILT ifndef HOST_CMP HOST_CMP := $(strip $(wildcard $(HOST_PREBUILT)/cmp$(HOST_EXEEXT))) endif endif ifndef HOST_CMP HOST_CMP := cmp endif $(call ndk_log,Host 'cmp' tool: $(HOST_CMP)) # # Verify that the 'awk' tool has the features we need. # Both Nawk and Gawk do. # HOST_AWK := $(strip $(HOST_AWK)) ifndef HOST_AWK HOST_AWK := awk endif $(call ndk_log,Host 'awk' tool: $(HOST_AWK)) # Location of all awk scripts we use BUILD_AWK := $(NDK_ROOT)/build/awk AWK_TEST := $(shell $(HOST_AWK) -f $(BUILD_AWK)/check-awk.awk) $(call ndk_log,Host 'awk' test returned: $(AWK_TEST)) ifneq ($(AWK_TEST),Pass) $(call __ndk_info,Host 'awk' tool is outdated. Please define NDK_HOST_AWK to point to Gawk or Nawk !) $(call __ndk_error,Aborting.) endif # # On Cygwin/MSys, define the 'cygwin-to-host-path' function here depending on the # environment. The rules are the following: # # 1/ If NDK_USE_CYGPATH=1 and cygpath does exist in your path, cygwin-to-host-path # calls "cygpath -m" for each host path. Since invoking 'cygpath -m' from GNU # Make for each source file is _very_ slow, this is only a backup plan in # case our automatic substitution function (described below) doesn't work. # # 2/ Generate a Make function that performs the mapping from cygwin/msys to host # paths through simple substitutions. It's really a series of nested patsubst # calls, that loo like: # # cygwin-to-host-path = $(patsubst /cygdrive/c/%,c:/%,\ # $(patsusbt /cygdrive/d/%,d:/%, \ # $1) # or in MSys: # cygwin-to-host-path = $(patsubst /c/%,c:/%,\ # $(patsusbt /d/%,d:/%, \ # $1) # # except that the actual definition is built from the list of mounted # drives as reported by "mount" and deals with drive letter cases (i.e. # '/cygdrive/c' and '/cygdrive/C') # ifeq ($(HOST_OS),cygwin) CYGPATH := $(strip $(HOST_CYGPATH)) ifndef CYGPATH $(call ndk_log, Probing for 'cygpath' program) CYGPATH := $(strip $(shell which cygpath 2>/dev/null)) ifndef CYGPATH $(call ndk_log, 'cygpath' was *not* found in your path) else $(call ndk_log, 'cygpath' found as: $(CYGPATH)) endif endif ifeq ($(NDK_USE_CYGPATH),1) ifndef CYGPATH $(call __ndk_info,No cygpath) $(call __ndk_error,Aborting) endif $(call ndk_log, Forced usage of 'cygpath -m' through NDK_USE_CYGPATH=1) cygwin-to-host-path = $(strip $(shell $(CYGPATH) -m $1)) else # Call an awk script to generate a Makefile fragment used to define a function WINDOWS_HOST_PATH_FRAGMENT := $(shell mount | tr '\\' '/' | $(HOST_AWK) -f $(BUILD_AWK)/gen-windows-host-path.awk) ifeq ($(NDK_LOG),1) $(info Using cygwin substitution rules:) $(eval $(shell mount | tr '\\' '/' | $(HOST_AWK) -f $(BUILD_AWK)/gen-windows-host-path.awk -vVERBOSE=1)) endif $(eval cygwin-to-host-path = $(WINDOWS_HOST_PATH_FRAGMENT)) endif endif # HOST_OS == cygwin # The location of the build system files BUILD_SYSTEM := $(NDK_ROOT)/build/core # Include common definitions include $(BUILD_SYSTEM)/definitions.mk # ==================================================================== # # Read all platform-specific configuration files. # # Each platform must be located in build/platforms/android-<apilevel> # where <apilevel> corresponds to an API level number, with: # 3 -> Android 1.5 # 4 -> next platform release # # ==================================================================== # The platform files were moved in the Android source tree from # $TOP/ndk/build/platforms to $TOP/development/ndk/platforms. However, # the official NDK release packages still place them under the old # location for now, so deal with this here # NDK_PLATFORMS_ROOT := $(strip $(NDK_PLATFORMS_ROOT)) ifndef NDK_PLATFORMS_ROOT NDK_PLATFORMS_ROOT := $(strip $(wildcard $(NDK_ROOT)/platforms)) ifndef NDK_PLATFORMS_ROOT NDK_PLATFORMS_ROOT := $(strip $(wildcard $(NDK_ROOT)/build/platforms)) endif ifndef NDK_PLATFORMS_ROOT $(call __ndk_info,Could not find platform files (headers and libraries)) $(if $(strip $(wildcard $(NDK_ROOT)/RELEASE.TXT)),\ $(call __ndk_info,Please define NDK_PLATFORMS_ROOT to point to a valid directory.)\ ,\ $(call __ndk_info,Please run build/tools/gen-platforms.sh to build the corresponding directory.)\ ) $(call __ndk_error,Aborting) endif $(call ndk_log,Found platform root directory: $(NDK_PLATFORMS_ROOT)) endif ifeq ($(strip $(wildcard $(NDK_PLATFORMS_ROOT)/android-*)),) $(call __ndk_info,Your NDK_PLATFORMS_ROOT points to an invalid directory) $(call __ndk_info,Current value: $(NDK_PLATFORMS_ROOT)) $(call __ndk_error,Aborting) endif NDK_ALL_PLATFORMS := $(strip $(notdir $(wildcard $(NDK_PLATFORMS_ROOT)/android-*))) $(call ndk_log,Found supported platforms: $(NDK_ALL_PLATFORMS)) $(foreach _platform,$(NDK_ALL_PLATFORMS),\ $(eval include $(BUILD_SYSTEM)/add-platform.mk)\ ) # we're going to find the maximum platform number of the form android-<number> # ignore others, which could correspond to special and experimental cases NDK_PREVIEW_LEVEL := L NDK_ALL_PLATFORM_LEVELS := $(filter android-%,$(NDK_ALL_PLATFORMS)) NDK_ALL_PLATFORM_LEVELS := $(patsubst android-%,%,$(NDK_ALL_PLATFORM_LEVELS)) $(call ndk_log,Found stable platform levels: $(NDK_ALL_PLATFORM_LEVELS)) # Hack to pull $(NDK_PREVIEW_LEVEL) ahead of all (numeric) level NDK_MAX_PLATFORM_LEVEL := 3 _max_theoretical_api_level := 99 $(foreach level,$(NDK_ALL_PLATFORM_LEVELS),\ $(eval NDK_MAX_PLATFORM_LEVEL := $$(if $$(subst $$(NDK_PREVIEW_LEVEL),,$$(level)),$$(call max,$$(NDK_MAX_PLATFORM_LEVEL),$$(level)),$(_max_theoretical_api_level)))\ ) ifeq ($(NDK_MAX_PLATFORM_LEVEL),$(_max_theoretical_api_level)) NDK_MAX_PLATFORM_LEVEL := $(NDK_PREVIEW_LEVEL) endif $(call ndk_log,Found max platform level: $(NDK_MAX_PLATFORM_LEVEL)) # ==================================================================== # # Read all toolchain-specific configuration files. # # Each toolchain must have a corresponding config.mk file located # in build/toolchains/<name>/ that will be included here. # # Each one of these files should define the following variables: # TOOLCHAIN_NAME toolchain name (e.g. arm-linux-androideabi-4.6) # TOOLCHAIN_ABIS list of target ABIs supported by the toolchain. # # Then, it should include $(ADD_TOOLCHAIN) which will perform # book-keeping for the build system. # # ==================================================================== # the build script to include in each toolchain config.mk ADD_TOOLCHAIN := $(BUILD_SYSTEM)/add-toolchain.mk # the list of known abis and archs NDK_KNOWN_DEVICE_ABI64S := arm64-v8a x86_64 mips64 NDK_KNOWN_DEVICE_ABI32S := armeabi-v7a armeabi x86 mips NDK_KNOWN_DEVICE_ABIS := $(NDK_KNOWN_DEVICE_ABI64S) $(NDK_KNOWN_DEVICE_ABI32S) NDK_KNOWN_ABIS := armeabi-v7a-hard $(NDK_KNOWN_DEVICE_ABIS) NDK_KNOWN_ABI32S := armeabi-v7a-hard $(NDK_KNOWN_DEVICE_ABI32S) NDK_KNOWN_ARCHS := arm x86 mips arm64 x86_64 mips64 _archs := $(sort $(strip $(notdir $(wildcard $(NDK_PLATFORMS_ROOT)/android-*/arch-*)))) NDK_FOUND_ARCHS := $(_archs:arch-%=%) # the list of abis 'APP_ABI=all' is expanded to ifneq (,$(filter yes all all32 all64,$(_NDK_TESTING_ALL_))) NDK_APP_ABI_ALL_EXPANDED := $(NDK_KNOWN_ABIS) NDK_APP_ABI_ALL32_EXPANDED := $(NDK_KNOWN_ABI32S) else NDK_APP_ABI_ALL_EXPANDED := $(NDK_KNOWN_DEVICE_ABIS) NDK_APP_ABI_ALL32_EXPANDED := $(NDK_KNOWN_DEVICE_ABI32S) endif NDK_APP_ABI_ALL64_EXPANDED := $(NDK_KNOWN_DEVICE_ABI64S) # For testing purpose ifeq ($(_NDK_TESTING_ALL_),all32) NDK_APP_ABI_ALL_EXPANDED := $(NDK_APP_ABI_ALL32_EXPANDED) else ifeq ($(_NDK_TESTING_ALL_),all64) NDK_APP_ABI_ALL_EXPANDED := $(NDK_APP_ABI_ALL64_EXPANDED) endif endif # The first API level ndk-build enforces -fPIE for executable NDK_PIE_PLATFORM_LEVEL := 16 # the list of all toolchains in this NDK NDK_ALL_TOOLCHAINS := NDK_ALL_ABIS := NDK_ALL_ARCHS := TOOLCHAIN_CONFIGS := $(wildcard $(NDK_ROOT)/toolchains/*/config.mk) $(foreach _config_mk,$(TOOLCHAIN_CONFIGS),\ $(eval include $(BUILD_SYSTEM)/add-toolchain.mk)\ ) NDK_ALL_TOOLCHAINS := $(sort $(NDK_ALL_TOOLCHAINS)) NDK_ALL_ABIS := $(sort $(NDK_ALL_ABIS)) NDK_ALL_ARCHS := $(sort $(NDK_ALL_ARCHS)) # Check that each ABI has a single architecture definition $(foreach _abi,$(strip $(NDK_ALL_ABIS)),\ $(if $(filter-out 1,$(words $(NDK_ABI.$(_abi).arch))),\ $(call __ndk_info,INTERNAL ERROR: The $(_abi) ABI should have exactly one architecture definitions. Found: '$(NDK_ABI.$(_abi).arch)')\ $(call __ndk_error,Aborting...)\ )\ ) # Allow the user to define NDK_TOOLCHAIN to a custom toolchain name. # This is normally used when the NDK release comes with several toolchains # for the same architecture (generally for backwards-compatibility). # NDK_TOOLCHAIN := $(strip $(NDK_TOOLCHAIN)) ifdef NDK_TOOLCHAIN # check that the toolchain name is supported $(if $(filter-out $(NDK_ALL_TOOLCHAINS),$(NDK_TOOLCHAIN)),\ $(call __ndk_info,NDK_TOOLCHAIN is defined to the unsupported value $(NDK_TOOLCHAIN)) \ $(call __ndk_info,Please use one of the following values: $(NDK_ALL_TOOLCHAINS))\ $(call __ndk_error,Aborting)\ ,) $(call ndk_log, Using specific toolchain $(NDK_TOOLCHAIN)) endif # Allow the user to define NDK_TOOLCHAIN_VERSION to override the toolchain # version number. Unlike NDK_TOOLCHAIN, this only changes the suffix of # the toolchain path we're using. # # For example, if GCC 4.6 is the default, defining NDK_TOOLCHAIN_VERSION=4.8 # will ensure that ndk-build uses the following toolchains, depending on # the target architecture: # # arm -> arm-linux-androideabi-4.8 # x86 -> x86-android-linux-4.8 # mips -> mipsel-linux-android-4.8 # # This is used in setup-toolchain.mk # NDK_TOOLCHAIN_VERSION := $(strip $(NDK_TOOLCHAIN_VERSION)) $(call ndk_log, This NDK supports the following target architectures and ABIS:) $(foreach arch,$(NDK_ALL_ARCHS),\ $(call ndk_log, $(space)$(space)$(arch): $(NDK_ARCH.$(arch).abis))\ ) $(call ndk_log, This NDK supports the following toolchains and target ABIs:) $(foreach tc,$(NDK_ALL_TOOLCHAINS),\ $(call ndk_log, $(space)$(space)$(tc): $(NDK_TOOLCHAIN.$(tc).abis))\ )