qt5base-lts/cmake/QtToolchainHelpers.cmake
Assam Boudjelthia db2f47337b CMake:Android: Use ANDROID_PLATFORM instead of ANDROID_NATIVE_API_LEVEL
ANDROID_NATIVE_API_LEVEL is an alias for ANDROID_PLATFORM and the
Android's CMake docs [1] uses directly ANDROID_PLATFORM so let's use
that as well. Also, NDK r23b seems to have removed the part of code from
android.toolchain.cmake that handles ANDROID_NATIVE_API_LEVEL to set
the correct value to ANDROID_PLATFORM.

With this change, CMake will pass the value from the configure argument
-android-ndk-platform as -DANDROID_PLATFORM instead of
-DANDROID_NATIVE_API_LEVEL. Otherwise, if if  -DANDROID_NATIVE_API_LEVEL
is passed directly to CMake, it should work as before.

[1] https://developer.android.com/ndk/guides/cmake#build-command

Pick-to: 6.3
Task-number: QTQAINFRA-4837
Change-Id: I5c21af53ac91e11a27c4b033313d22d1115c1abc
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-03-11 18:30:32 +02:00

255 lines
14 KiB
CMake

# Create a CMake toolchain file for convenient configuration of both internal Qt builds
# as well as CMake application projects.
# Expects various global variables to be set.
function(qt_internal_create_toolchain_file)
set(qt_host_path_required FALSE)
if(NOT "${QT_HOST_PATH}" STREQUAL "")
# If a QT_HOST_PATH is provided when configuring qtbase, we assume it's a cross build
# and thus we require the QT_HOST_PATH to be provided also when using the cross-built Qt.
# This tells the Qt toolchain file to do appropriate requirement checks.
set(qt_host_path_required TRUE)
# TODO: Figure out how to make the initial QT_HOST_PATH var relocatable in relation
# to the target CMAKE_INSTALL_DIR, if at all possible to do so in a reliable way.
get_filename_component(qt_host_path_absolute "${QT_HOST_PATH}" ABSOLUTE)
get_filename_component(qt_host_path_cmake_dir_absolute
"${Qt${PROJECT_VERSION_MAJOR}HostInfo_DIR}/.." ABSOLUTE)
endif()
if(CMAKE_TOOLCHAIN_FILE)
file(TO_CMAKE_PATH "${CMAKE_TOOLCHAIN_FILE}" __qt_chainload_toolchain_file)
set(init_original_toolchain_file
"
set(__qt_initially_configured_toolchain_file \"${__qt_chainload_toolchain_file}\")
set(__qt_chainload_toolchain_file \"\${__qt_initially_configured_toolchain_file}\")
")
endif()
if(VCPKG_CHAINLOAD_TOOLCHAIN_FILE)
file(TO_CMAKE_PATH "${VCPKG_CHAINLOAD_TOOLCHAIN_FILE}" VCPKG_CHAINLOAD_TOOLCHAIN_FILE)
list(APPEND init_vcpkg
"set(VCPKG_CHAINLOAD_TOOLCHAIN_FILE \"${VCPKG_CHAINLOAD_TOOLCHAIN_FILE}\")")
endif()
if(VCPKG_TARGET_TRIPLET)
list(APPEND init_vcpkg
"set(VCPKG_TARGET_TRIPLET \"${VCPKG_TARGET_TRIPLET}\" CACHE STRING \"\")")
endif()
if(CMAKE_SYSTEM_NAME STREQUAL "Windows" AND CMAKE_SYSTEM_PROCESSOR STREQUAL "arm64" AND CMAKE_SYSTEM_VERSION STREQUAL "10")
list(APPEND init_platform "set(CMAKE_SYSTEM_NAME Windows CACHE STRING \"\")")
list(APPEND init_platform "set(CMAKE_SYSTEM_VERSION 10 CACHE STRING \"\")")
list(APPEND init_platform "set(CMAKE_SYSTEM_PROCESSOR arm64 CACHE STRING \"\")")
endif()
# By default we don't want to allow mixing compilers for building different repositories, so we
# embed the initially chosen compilers into the toolchain.
# This is because on Windows compilers aren't easily mixed.
# We want to avoid that qtbase is built using cl.exe for example, and then for another repo
# gcc is picked up from %PATH%.
# The same goes when using a custom compiler on other platforms, such as ICC.
#
# There are a few exceptions though.
#
# When crosscompiling using Boot2Qt, the environment setup shell script sets up the CXX env var,
# which is used by CMake to determine the initial compiler that should be used.
# Unfortunately, the CXX env var contains not only the compiler name, but also a few required
# arch-specific compiler flags. This means that when building qtsvg, if the Qt created toolchain
# file sets the CMAKE_CXX_COMPILER variable, the CXX env var is ignored and thus the extra
# arch specific compiler flags are not picked up anymore, leading to a configuration failure.
#
# To avoid this issue, disable automatic embedding of the compilers into the qt toolchain when
# cross compiling. This is merely a heuristic, becacuse we don't have enough data to decide
# when to do it or not.
# For example on Linux one might want to allow mixing of clang and gcc (maybe).
#
# To allow such use cases when the default is wrong, one can provide a flag to explicitly opt-in
# or opt-out of the compiler embedding into the Qt toolchain.
#
# Passing -DQT_EMBED_TOOLCHAIN_COMPILER=ON will force embedding of the compilers.
# Passing -DQT_EMBED_TOOLCHAIN_COMPILER=OFF will disable embedding of the compilers.
set(__qt_embed_toolchain_compilers TRUE)
if(CMAKE_CROSSCOMPILING)
set(__qt_embed_toolchain_compilers FALSE)
endif()
if(DEFINED QT_EMBED_TOOLCHAIN_COMPILER)
if(QT_EMBED_TOOLCHAIN_COMPILER)
set(__qt_embed_toolchain_compilers TRUE)
else()
set(__qt_embed_toolchain_compilers FALSE)
endif()
endif()
if(__qt_embed_toolchain_compilers)
list(APPEND init_platform "
set(__qt_initial_c_compiler \"${CMAKE_C_COMPILER}\")
set(__qt_initial_cxx_compiler \"${CMAKE_CXX_COMPILER}\")
if(NOT DEFINED CMAKE_C_COMPILER AND EXISTS \"\${__qt_initial_c_compiler}\")
set(CMAKE_C_COMPILER \"\${__qt_initial_c_compiler}\" CACHE STRING \"\")
endif()
if(NOT DEFINED CMAKE_CXX_COMPILER AND EXISTS \"\${__qt_initial_cxx_compiler}\")
set(CMAKE_CXX_COMPILER \"\${__qt_initial_cxx_compiler}\" CACHE STRING \"\")
endif()")
endif()
unset(init_additional_used_variables)
if(APPLE)
# For an iOS simulator_and_device build, we should not explicitly set the sysroot, but let
# CMake do it's universal build magic to use one sysroot / sdk per-arch.
# For a single arch / sysroot iOS build, try to use the initially configured sysroot
# path if it exists, otherwise just set the name of the sdk to be used.
# The latter "name" part is important for user projects so that running 'xcodebuild' from
# the command line chooses the correct sdk.
# Also allow to opt out just in case.
#
# TODO: Figure out if the same should apply to universal macOS builds.
list(LENGTH CMAKE_OSX_ARCHITECTURES _qt_osx_architectures_count)
if(CMAKE_OSX_SYSROOT AND NOT _qt_osx_architectures_count GREATER 1 AND UIKIT)
list(APPEND init_platform "
set(__qt_uikit_sdk \"${QT_UIKIT_SDK}\")
set(__qt_initial_cmake_osx_sysroot \"${CMAKE_OSX_SYSROOT}\")
if(NOT DEFINED CMAKE_OSX_SYSROOT AND EXISTS \"\${__qt_initial_cmake_osx_sysroot}\")
set(CMAKE_OSX_SYSROOT \"\${__qt_initial_cmake_osx_sysroot}\" CACHE PATH \"\")
elseif(NOT DEFINED CMAKE_OSX_SYSROOT AND NOT QT_NO_SET_OSX_SYSROOT)
set(CMAKE_OSX_SYSROOT \"\${__qt_uikit_sdk}\" CACHE PATH \"\")
endif()")
endif()
if(CMAKE_OSX_DEPLOYMENT_TARGET)
list(APPEND init_platform
"set(CMAKE_OSX_DEPLOYMENT_TARGET \"${CMAKE_OSX_DEPLOYMENT_TARGET}\" CACHE STRING \"\")")
endif()
# Save list of initial architectures Qt was configured with.
set(_qt_osx_architectures_escaped "${CMAKE_OSX_ARCHITECTURES}")
string(REPLACE ";" "LITERAL_SEMICOLON"
_qt_osx_architectures_escaped "${_qt_osx_architectures_escaped}")
set(docstring "List of architectures Qt was built with")
list(APPEND init_platform
"set(QT_OSX_ARCHITECTURES \"${_qt_osx_architectures_escaped}\" CACHE STRING \"${docstring}\")")
list(APPEND init_platform "")
# When building another qt repo, ensure the same list of architectures is used by default.
# Detection of a qt repo is done by checking for QT_REPO_MODULE_VERSION which is set in
# the repo's .cmake.conf file.
# Most standalone tests will also be built with multiple architectures.
# Certain tests will be built with a single arch only (like tests/auto/cmake) to avoid
# issues in the CI when trying to build them on VMs that do not have a universal macOS
# SDK.
list(APPEND init_platform
"# Only build multiple architectures when building Qt itself. Can be explicitly enabled or disabled.")
list(APPEND init_platform "if((QT_REPO_MODULE_VERSION AND NOT QT_FORCE_SINGLE_QT_OSX_ARCHITECTURE) OR QT_FORCE_ALL_QT_OSX_ARCHITECTURES)")
list(APPEND init_platform " set(__qt_toolchain_building_qt_repo TRUE)")
list(APPEND init_platform " set(CMAKE_OSX_ARCHITECTURES \"\${QT_OSX_ARCHITECTURES}\" CACHE STRING \"\")")
list(APPEND init_platform "endif()")
list(APPEND init_platform "")
# For macOS user projects, default to not specifying any architecture. This means CMake will
# not pass an -arch flag to the compiler and the compiler will choose the default
# architecture to build for.
# On Apple Silicon, CMake will introspect whether it's running under Rosetta and will
# pass the detected architecture (x86_64 under Rosetta or arm64 natively) to the compiler.
# This is line with default CMake behavior for user projects.
#
# For iOS, we provide a bit more convenience.
# When the user project is built using the Xcode generator, we only specify the architecture
# if this is a single architecture Qt for iOS build. If we wouldn't, invoking just
# xcodebuild from the command line would try to build with the wrong architecture. Also
# provide an opt-out option just in case.
#
# For a multi-architecture build (so simulator_and_device) we don't set an explicit
# architecture and let Xcode and the developer handle it.
#
# When using the Ninja generator, specify the first architecture from QT_OSX_ARCHITECTURES
# (even with a simulator_and_device Qt build). This ensures that the default configuration
# at least tries to build something.
if(UIKIT)
qt_internal_get_first_osx_arch(osx_first_arch)
list(APPEND init_platform
"if((NOT CMAKE_GENERATOR STREQUAL \"Xcode\" AND NOT __qt_toolchain_building_qt_repo)
OR (CMAKE_GENERATOR STREQUAL \"Xcode\" AND __qt_uikit_sdk AND NOT QT_NO_SET_OSX_ARCHITECTURES))")
list(APPEND init_platform
" set(CMAKE_OSX_ARCHITECTURES \"${osx_first_arch}\" CACHE STRING \"\")")
list(APPEND init_platform "endif()")
list(APPEND init_platform "")
endif()
if(UIKIT)
list(APPEND init_platform
"set(CMAKE_SYSTEM_NAME \"${CMAKE_SYSTEM_NAME}\" CACHE STRING \"\")")
list(APPEND init_platform "if(CMAKE_GENERATOR STREQUAL \"Xcode\" AND NOT QT_NO_XCODE_EMIT_EPN)")
list(APPEND init_platform " set_property(GLOBAL PROPERTY XCODE_EMIT_EFFECTIVE_PLATFORM_NAME OFF)")
list(APPEND init_platform "endif()")
endif()
elseif(ANDROID)
foreach(var ANDROID_PLATFORM ANDROID_NATIVE_API_LEVEL ANDROID_STL
ANDROID_ABI ANDROID_SDK_ROOT ANDROID_NDK_ROOT)
list(APPEND init_additional_used_variables
"list(APPEND __qt_toolchain_used_variables ${var})")
endforeach()
list(APPEND init_platform
"if(NOT DEFINED ANDROID_PLATFORM AND NOT DEFINED ANDROID_NATIVE_API_LEVEL)")
list(APPEND init_platform
" set(ANDROID_PLATFORM \"${ANDROID_PLATFORM}\" CACHE STRING \"\")")
list(APPEND init_platform "endif()")
list(APPEND init_platform "set(ANDROID_STL \"${ANDROID_STL}\" CACHE STRING \"\")")
list(APPEND init_platform "set(ANDROID_ABI \"${ANDROID_ABI}\" CACHE STRING \"\")")
list(APPEND init_platform "if (NOT DEFINED ANDROID_SDK_ROOT)")
file(TO_CMAKE_PATH "${ANDROID_SDK_ROOT}" __qt_android_sdk_root)
list(APPEND init_platform
" set(ANDROID_SDK_ROOT \"${__qt_android_sdk_root}\" CACHE STRING \"\")")
list(APPEND init_platform "endif()")
list(APPEND init_platform "if(NOT \"$\{ANDROID_NDK_ROOT\}\" STREQUAL \"\")")
list(APPEND init_platform
" set(__qt_toolchain_file_candidate \"$\{ANDROID_NDK_ROOT\}/build/cmake/android.toolchain.cmake\")")
list(APPEND init_platform " if(EXISTS \"$\{__qt_toolchain_file_candidate\}\")")
list(APPEND init_platform
" message(STATUS \"Android toolchain file within NDK detected: $\{__qt_toolchain_file_candidate\}\")")
list(APPEND init_platform " set(__qt_chainload_toolchain_file \"$\{__qt_toolchain_file_candidate\}\")")
list(APPEND init_platform " else()")
list(APPEND init_platform
" message(FATAL_ERROR \"Cannot find the toolchain file '$\{__qt_toolchain_file_candidate\}'. \"")
list(APPEND init_platform
" \"Please specify the toolchain file with -DQT_CHAINLOAD_TOOLCHAIN_FILE=<file>.\")")
list(APPEND init_platform " endif()")
list(APPEND init_platform "endif()")
elseif(EMSCRIPTEN)
list(APPEND init_platform
"include(\${CMAKE_CURRENT_LIST_DIR}/QtPublicWasmToolchainHelpers.cmake)
if(DEFINED ENV{EMSDK} AND NOT \"\$ENV{EMSDK}\" STREQUAL \"\")
__qt_internal_get_emroot_path_suffix_from_emsdk_env(__qt_toolchain_emroot_path)
__qt_internal_get_emscripten_cmake_toolchain_file_path_from_emsdk_env(
\"\${__qt_toolchain_emroot_path}\" _qt_candidate_emscripten_toolchain_path)
set(__qt_chainload_toolchain_file \"\${_qt_candidate_emscripten_toolchain_path}\")
endif()
")
list(APPEND init_post_chainload_toolchain "
if(NOT __qt_chainload_toolchain_file_included)
__qt_internal_show_error_no_emscripten_toolchain_file_found_when_using_qt()
endif()
")
endif()
string(REPLACE ";" "\n" init_additional_used_variables
"${init_additional_used_variables}")
string(REPLACE ";" "\n" init_vcpkg "${init_vcpkg}")
string(REPLACE ";" "\n" init_platform "${init_platform}")
string(REPLACE "LITERAL_SEMICOLON" ";" init_platform "${init_platform}")
string(REPLACE ";" "\n" init_post_chainload_toolchain "${init_post_chainload_toolchain}")
string(REPLACE "LITERAL_SEMICOLON" ";" init_post_chainload_toolchain
"${init_post_chainload_toolchain}")
qt_compute_relative_path_from_cmake_config_dir_to_prefix()
configure_file(
"${CMAKE_CURRENT_SOURCE_DIR}/cmake/qt.toolchain.cmake.in"
"${__GlobalConfig_build_dir}/qt.toolchain.cmake" @ONLY)
qt_install(FILES "${__GlobalConfig_build_dir}/qt.toolchain.cmake"
DESTINATION "${__GlobalConfig_install_dir}" COMPONENT Devel)
endfunction()