qt5base-lts/cmake/QtToolchainHelpers.cmake
Alexandru Croitor 0d8eb8a5ab CMake: Don't build cmake build tests as macOS universal
We want standalone tests added by qt_internal_add_test to be built as
universal executables, so we can build them on an intel machine and
run them on an ARM machine.

But CMake build tests will be built on the final machine that runs the
tests and it might lack a universal SDK. That's why they should be
built only targeting the architecture of the machine they're running
on.

Change the generated qt.tooclhain.cmake file to allow opting in or out
of building projects with the same architectures as Qt was configured
with.

Now standalone tests will be multi-arch, but CMake build tests will be
single-arch.

Amends e379147f95

Task-number: QTBUG-85447
Task-number: QTBUG-87580
Task-number: QTBUG-92933
Change-Id: I41ab047983115f84eb2333cc9ac2d19ca08d621f
Reviewed-by: Tor Arne Vestbø <tor.arne.vestbo@qt.io>
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
2021-05-10 11:20:44 +02:00

218 lines
12 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)
if(NOT "${QT_HOST_PATH}" STREQUAL "")
# TODO: Figure out how to make these relocatable.
get_filename_component(__qt_host_path_absolute "${QT_HOST_PATH}" ABSOLUTE)
set(init_qt_host_path "
set(__qt_initial_qt_host_path \"${__qt_host_path_absolute}\")
if(NOT DEFINED QT_HOST_PATH AND EXISTS \"\${__qt_initial_qt_host_path}\")
set(QT_HOST_PATH \"\${__qt_initial_qt_host_path}\" CACHE PATH \"\" FORCE)
endif()")
get_filename_component(__qt_host_path_cmake_dir_absolute
"${Qt${PROJECT_VERSION_MAJOR}HostInfo_DIR}/.." ABSOLUTE)
set(init_qt_host_path_cmake_dir
"
set(__qt_initial_qt_host_path_cmake_dir \"${__qt_host_path_cmake_dir_absolute}\")
if(NOT DEFINED QT_HOST_PATH_CMAKE_DIR AND EXISTS \"\${__qt_initial_qt_host_path_cmake_dir}\")
set(QT_HOST_PATH_CMAKE_DIR \"\${__qt_initial_qt_host_path_cmake_dir}\" CACHE PATH \"\" FORCE)
endif()")
set(init_qt_host_path_checks "
if(\"\${QT_HOST_PATH}\" STREQUAL \"\" OR NOT EXISTS \"\${QT_HOST_PATH}\")
message(FATAL_ERROR \"To use a cross-compiled Qt, please specify a path to a host Qt installation by setting the QT_HOST_PATH cache variable.\")
endif()
if(\"\${QT_HOST_PATH_CMAKE_DIR}\" STREQUAL \"\" OR NOT EXISTS \"\${QT_HOST_PATH_CMAKE_DIR}\")
message(FATAL_ERROR \"To use a cross-compiled Qt, please specify a path to a host Qt installation CMake directory by setting the QT_HOST_PATH_CMAKE_DIR cache variable.\")
endif()")
endif()
if(CMAKE_TOOLCHAIN_FILE)
file(TO_CMAKE_PATH "${CMAKE_TOOLCHAIN_FILE}" __qt_chainload_toolchain_file)
set(init_original_toolchain_file
"set(__qt_chainload_toolchain_file \"${__qt_chainload_toolchain_file}\")")
endif()
if(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 simulator_and_device build, we should not explicitly set the sysroot.
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_initial_cmake_osx_sysroot \"${CMAKE_OSX_SYSROOT}\")
if(NOT DEFINED CMAKE_OSX_SYSROOT AND EXISTS \"\${__qt_initial_cmake_osx_sysroot}\")
set(CMAKE_OSX_SYSROOT \"\${__qt_initial_cmake_osx_sysroot}\" CACHE PATH \"\")
endif()")
endif()
if(CMAKE_OSX_DEPLOYMENT_TARGET)
list(APPEND init_platform
"set(CMAKE_OSX_DEPLOYMENT_TARGET \"${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, don't specify a default
# 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)")
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_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 ${var})")
endforeach()
list(APPEND init_platform
"set(ANDROID_NATIVE_API_LEVEL \"${ANDROID_NATIVE_API_LEVEL}\" CACHE STRING \"\")")
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 '$\{__qt_toolchain_file_candidate\}'. \"")
list(APPEND init_platform
" \"Please specify the toolchain file with -DQT_CHAINLOAD_TOOLCHAIN_FILE=<file>.\")")
list(APPEND init_platform " endif()")
list(APPEND init_platform "endif()")
endif()
string(REPLACE ";" "\n" init_additional_used_variables
"${init_additional_used_variables}")
string(REPLACE ";" "\n" init_vcpkg "${init_vcpkg}")
string(REPLACE ";" "\n" init_platform "${init_platform}")
string(REPLACE "LITERAL_SEMICOLON" ";" init_platform "${init_platform}")
qt_compute_relative_path_from_cmake_config_dir_to_prefix()
configure_file(
"${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()