llvm-project/lldb/cmake/platforms/Android.cmake

156 lines
7.3 KiB
CMake

# Toolchain config for Android standalone NDK.
#
# Usage:
# build host llvm and clang first
# cmake -DCMAKE_TOOLCHAIN_FILE=../lldb/cmake/platforms/Android.cmake \
# -DANDROID_TOOLCHAIN_DIR=<toolchain_dir> \
# -DANDROID_ABI=<target_abi> \
# -DCMAKE_CXX_COMPILER_VERSION=<gcc_version> \
# -DLLVM_TARGET_ARCH=<llvm_target_arch> \
# -DLLVM_TARGETS_TO_BUILD=<llvm_targets_to_build> \
# -DLLVM_TABLEGEN=<path_to_llvm-tblgen> \
# -DCLANG_TABLEGEN=<path_to_clang-tblgen>
#
# Current Support:
# ANDROID_ABI = x86, x86_64
# CMAKE_CXX_COMPILER_VERSION = 4.9
# LLVM_TARGET_ARCH = X86
# LLVM_TARGETS_TO_BUILD = X86
# LLVM_TABLEGEN = path to host llvm-tblgen
# CLANG_TABLEGEN = path to host clang-tblgen
if( DEFINED CMAKE_CROSSCOMPILING )
return()
endif()
get_property( IS_IN_TRY_COMPILE GLOBAL PROPERTY IN_TRY_COMPILE )
if( IS_IN_TRY_COMPILE )
# this seems necessary and works fine but I'm unsure if it breaks anything
return()
endif()
set( CMAKE_SYSTEM_NAME Android )
include( CMakeForceCompiler )
# flags and definitions
add_definitions( -DANDROID -DLLDB_DISABLE_LIBEDIT )
set( ANDROID True )
set( LLDB_DEFAULT_DISABLE_LIBEDIT True )
# linking lldb-server statically for Android avoids the need to ship two
# binaries (pie for API 21+ and non-pie for API 16-). It's possible to use
# a non-pie shim on API 16-, but that requires lldb-server to dynamically export
# its symbols, which significantly increases the binary size. Static linking, on
# the other hand, has little to no effect on the binary size.
if( NOT DEFINED LLVM_BUILD_STATIC )
set( LLVM_BUILD_STATIC True CACHE INTERNAL "" FORCE )
set( LLVM_ENABLE_PIC FALSE CACHE INTERNAL "" FORCE )
set( BUILD_SHARED_LIBS FALSE CACHE INTERNAL "" FORCE )
endif()
set( ANDROID_ABI "${ANDROID_ABI}" CACHE INTERNAL "Android Abi" FORCE )
if( ANDROID_ABI STREQUAL "x86" )
set( CMAKE_SYSTEM_PROCESSOR "i686" )
set( ANDROID_TOOLCHAIN_NAME "i686-linux-android" )
elseif( ANDROID_ABI STREQUAL "x86_64" )
set( CMAKE_SYSTEM_PROCESSOR "x86_64" )
set( ANDROID_TOOLCHAIN_NAME "x86_64-linux-android" )
elseif( ANDROID_ABI STREQUAL "armeabi" )
set( CMAKE_SYSTEM_PROCESSOR "armv5te" )
set( ANDROID_TOOLCHAIN_NAME "arm-linux-androideabi" )
elseif( ANDROID_ABI STREQUAL "aarch64" )
set( CMAKE_SYSTEM_PROCESSOR "aarch64" )
set( ANDROID_TOOLCHAIN_NAME "aarch64-linux-android" )
elseif( ANDROID_ABI STREQUAL "mips" )
set( CMAKE_SYSTEM_PROCESSOR "mips" )
set( ANDROID_TOOLCHAIN_NAME "mipsel-linux-android" )
elseif( ANDROID_ABI STREQUAL "mips64" )
set( CMAKE_SYSTEM_PROCESSOR "mips64" )
set( ANDROID_TOOLCHAIN_NAME "mips64el-linux-android" )
else()
message( SEND_ERROR "Unknown ANDROID_ABI = \"${ANDROID_ABI}\"." )
endif()
set( ANDROID_TOOLCHAIN_DIR "${ANDROID_TOOLCHAIN_DIR}" CACHE PATH "Android standalone toolchain directory" )
set( ANDROID_SYSROOT "${ANDROID_TOOLCHAIN_DIR}/sysroot" CACHE PATH "Android Sysroot" )
# CMAKE_EXECUTABLE_SUFFIX is undefined in CMAKE_TOOLCHAIN_FILE
if( WIN32 )
set( EXECUTABLE_SUFFIX ".exe" )
endif()
set( PYTHON_EXECUTABLE "${ANDROID_TOOLCHAIN_DIR}/bin/python${EXECUTABLE_SUFFIX}" CACHE PATH "Python exec path" )
if( NOT CMAKE_C_COMPILER )
set( CMAKE_C_COMPILER "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-gcc${EXECUTABLE_SUFFIX}" CACHE PATH "C compiler" )
set( CMAKE_CXX_COMPILER "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-g++${EXECUTABLE_SUFFIX}" CACHE PATH "C++ compiler" )
set( CMAKE_ASM_COMPILER "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-gcc${EXECUTABLE_SUFFIX}" CACHE PATH "assembler" )
set( CMAKE_STRIP "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-strip${EXECUTABLE_SUFFIX}" CACHE PATH "strip" )
set( CMAKE_AR "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-ar${EXECUTABLE_SUFFIX}" CACHE PATH "archive" )
set( CMAKE_LINKER "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-ld${EXECUTABLE_SUFFIX}" CACHE PATH "linker" )
set( CMAKE_NM "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-nm${EXECUTABLE_SUFFIX}" CACHE PATH "nm" )
set( CMAKE_OBJCOPY "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-objcopy${EXECUTABLE_SUFFIX}" CACHE PATH "objcopy" )
set( CMAKE_OBJDUMP "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-objdump${EXECUTABLE_SUFFIX}" CACHE PATH "objdump" )
set( CMAKE_RANLIB "${ANDROID_TOOLCHAIN_DIR}/bin/${ANDROID_TOOLCHAIN_NAME}-ranlib${EXECUTABLE_SUFFIX}" CACHE PATH "ranlib" )
endif()
set( ANDROID_CXX_FLAGS "--sysroot=${ANDROID_SYSROOT} -funwind-tables -fsigned-char -no-canonical-prefixes" )
# TODO: different ARM abi have different flags such as neon, vfpv etc
if( X86 )
set( ANDROID_CXX_FLAGS "${ANDROID_CXX_FLAGS} -funswitch-loops -finline-limit=300" )
elseif( ANDROID_ABI STREQUAL "armeabi" )
# 64 bit atomic operations used in c++ libraries require armv7-a instructions
# armv5te and armv6 were tried but do not work.
set( ANDROID_CXX_FLAGS "${ANDROID_CXX_FLAGS} -march=armv7-a -mthumb" )
elseif( ANDROID_ABI STREQUAL "mips" )
# http://b.android.com/182094
list( FIND LLDB_SYSTEM_LIBS atomic index )
if( index EQUAL -1 )
list( APPEND LLDB_SYSTEM_LIBS atomic )
set( LLDB_SYSTEM_LIBS ${LLDB_SYSTEM_LIBS} CACHE INTERNAL "" FORCE )
endif()
endif()
# Use gold linker and enable safe ICF in case of x86, x86_64 and arm
if ( ANDROID_ABI STREQUAL "x86" OR
ANDROID_ABI STREQUAL "x86_64" OR
ANDROID_ABI STREQUAL "armeabi")
set( ANDROID_LINKER_FLAGS "${ANDROID_LINKER_FLAGS} -fuse-ld=gold -Wl,--icf=safe" )
endif()
if( NOT LLVM_BUILD_STATIC )
# PIE is required for API 21+ so we enable it if we're not statically linking
# unfortunately, it is not supported before API 16 so we need to do something
# else there see http://llvm.org/pr23457
set( ANDROID_CXX_FLAGS "${ANDROID_CXX_FLAGS} -pie -fPIE" )
endif()
# linker flags
set( ANDROID_CXX_FLAGS "${ANDROID_CXX_FLAGS} -fdata-sections -ffunction-sections" )
set( ANDROID_LINKER_FLAGS "${ANDROID_LINKER_FLAGS} -Wl,--gc-sections" )
# cache flags
set( CMAKE_CXX_FLAGS "" CACHE STRING "c++ flags" )
set( CMAKE_C_FLAGS "" CACHE STRING "c flags" )
set( CMAKE_EXE_LINKER_FLAGS "-Wl,-z,nocopyreloc" CACHE STRING "executable linker flags" )
set( ANDROID_CXX_FLAGS "${ANDROID_CXX_FLAGS}" CACHE INTERNAL "Android c/c++ flags" )
set( ANDROID_LINKER_FLAGS "${ANDROID_LINKER_FLAGS}" CACHE INTERNAL "Android c/c++ linker flags" )
# final flags
set( CMAKE_CXX_FLAGS "${ANDROID_CXX_FLAGS} ${CMAKE_CXX_FLAGS}" )
set( CMAKE_C_FLAGS "${ANDROID_CXX_FLAGS} ${CMAKE_C_FLAGS}" )
set( CMAKE_EXE_LINKER_FLAGS "${ANDROID_LINKER_FLAGS} ${CMAKE_EXE_LINKER_FLAGS}" )
# global includes and link directories
set( ANDROID_INCLUDE_DIRS "${ANDROID_TOOLCHAIN_DIR}/include/c++/${ANDROID_COMPILER_VERSION}" )
list( APPEND ANDROID_INCLUDE_DIRS "${ANDROID_TOOLCHAIN_DIR}/include/python2.7" )
include_directories( SYSTEM "${ANDROID_SYSROOT}/usr/include" ${ANDROID_INCLUDE_DIRS} )
# target environment
set( CMAKE_FIND_ROOT_PATH "${ANDROID_TOOLCHAIN_DIR}/bin" "${ANDROID_TOOLCHAIN_DIR}/${ANDROID_TOOLCHAIN_NAME}" "${ANDROID_SYSROOT}" )
# only search for libraries and includes in the ndk toolchain
set( CMAKE_FIND_ROOT_PATH_MODE_PROGRAM ONLY )
set( CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY )
set( CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY )