qt6windows7/cmake/QtRpathHelpers.cmake

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# Copyright (C) 2022 The Qt Company Ltd.
# SPDX-License-Identifier: BSD-3-Clause
# Returns the platform-specific relative rpath base token, if it's supported.
# If it's not supported, returns the string NO_KNOWN_RPATH_REL_BASE.
function(qt_internal_get_relative_rpath_base_token out_var)
if(APPLE)
set(rpath_rel_base "@loader_path")
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elseif(LINUX OR SOLARIS OR FREEBSD OR HURD OR OPENBSD)
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set(rpath_rel_base "$ORIGIN")
else()
set(rpath_rel_base "NO_KNOWN_RPATH_REL_BASE")
endif()
set(${out_var} "${rpath_rel_base}" PARENT_SCOPE)
endfunction()
# Computes a relative rpath between ${rpath} and ${install_location} using tokens
# like $ORIGIN / @loader_path
# Not all platforms support such tokens though, in which case the returned rpath will be invalid.
#
# install_location: a directory relative to CMAKE_INSTALL_PREFIX, where the binary will be installed
# rpath: an rpath to embed, can be either an absolute path or a path relative to
# ${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR}.
function(qt_compute_relative_rpath_base rpath install_location out_var)
set(install_lib_dir_absolute "${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR}")
get_filename_component(rpath_absolute "${rpath}"
ABSOLUTE BASE_DIR "${install_lib_dir_absolute}")
set(install_location_absolute "${install_location}")
if(NOT IS_ABSOLUTE "${install_location_absolute}")
set(install_location_absolute "${CMAKE_INSTALL_PREFIX}/${install_location}")
endif()
# Compute relative rpath from where the target will be installed, to the place where libraries
# will be placed (INSTALL_LIBDIR).
file(RELATIVE_PATH rpath_relative "${install_location_absolute}" "${rpath_absolute}")
if("${rpath_relative}" STREQUAL "")
# file(RELATIVE_PATH) returns an empty string if the given absolute paths are equal
set(rpath_relative ".")
endif()
# Prepend $ORIGIN / @loader_path style tokens (qmake's QMAKE_REL_RPATH_BASE), to make the
# relative rpaths work. qmake does this automatically when generating a project, so it wasn't
# needed in the .prf files, but for CMake we need to prepend them ourselves.
qt_internal_get_relative_rpath_base_token(rpath_rel_base)
if(rpath_rel_base STREQUAL "NO_KNOWN_RPATH_REL_BASE")
message(WARNING "No known RPATH_REL_BASE for target platform.")
endif()
if(rpath_relative STREQUAL ".")
set(rpath_relative "${rpath_rel_base}")
else()
set(rpath_relative "${rpath_rel_base}/${rpath_relative}")
endif()
set("${out_var}" "${rpath_relative}" PARENT_SCOPE)
endfunction()
# Applies necessary rpaths to a target upon target installation.
# No-op when targeting Windows, Android.
#
# Since abf72395411b135054b5820f64f93dfbcda430b8 rpaths are also applied in non-prefix builds,
# to address -rpath-link issues when cross-compiling, although this might not be needed anymore
# due to 606124c5cceba0dd4a406a9278588b58bb9f9800.
# See QTBUG-86533 for the whole saga.
#
# If no RELATIVE_RPATH option is given, embeds an absolute path rpath to
# ${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR} into the target.
# If RELATIVE_RPATH is given, the INSTALL_PATH value is used to compute the relative path from
# ${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR} to wherever the target will be installed
# (the value of INSTALL_PATH).
# INSTALL_PATH is expected to be a relative directory where the binary / library will be installed.
# RELATIVE_RPATH is the equivalent of qmake's relative_qt_rpath.
# INSTALL_PATH is used to implement the equivalent of qmake's $$qtRelativeRPathBase().
#
# QT_DISABLE_RPATH can be set to disable embedding any Qt specific rpaths.
function(qt_apply_rpaths)
# No rpath support for win32 and android.
if(WIN32 OR ANDROID)
return()
endif()
# Rpaths explicitly disabled (like for uikit), equivalent to qmake's no_qt_rpath.
# Or feature was turned OFF.
if(QT_DISABLE_RPATH OR NOT QT_FEATURE_rpath)
return()
endif()
cmake_parse_arguments(PARSE_ARGV 0 arg
"RELATIVE_RPATH"
"TARGET;INSTALL_PATH"
"")
_qt_internal_validate_all_args_are_parsed(arg)
if(NOT arg_TARGET)
message(FATAL_ERROR "No target given to qt_apply_rpaths.")
else()
set(target "${arg_TARGET}")
endif()
# If a target is not built (which can happen for tools when crosscompiling, we shouldn't try
# to apply properties.
if(NOT TARGET "${target}")
return()
endif()
# Protect against interface libraries.
get_target_property(target_type "${target}" TYPE)
if (target_type STREQUAL "INTERFACE_LIBRARY")
return()
endif()
if(NOT arg_INSTALL_PATH)
message(FATAL_ERROR "No INSTALL_PATH given to qt_apply_rpaths.")
endif()
set(rpaths "")
# Modify the install path to contain the nested structure of a framework.
get_target_property(is_framework "${target}" FRAMEWORK)
if(is_framework)
qt_internal_get_framework_info(fw ${target})
if(UIKIT)
# Shallow framework
string(APPEND arg_INSTALL_PATH "/${fw_dir}")
else()
# Full framework
string(APPEND arg_INSTALL_PATH "/${fw_dir}/Versions/Current")
endif()
endif()
# Same but for an app bundle.
get_target_property(is_bundle "${target}" MACOSX_BUNDLE)
if(is_bundle AND NOT is_framework)
if(UIKIT)
# Shallow bundle
string(APPEND arg_INSTALL_PATH "/${target}.app")
else()
# Full bundle
string(APPEND arg_INSTALL_PATH "/${target}.app/Contents/MacOS")
endif()
endif()
qt_internal_get_relative_rpath_base_token(rpath_base_token)
if(rpath_base_token STREQUAL "NO_KNOWN_RPATH_REL_BASE")
set(relative_rpath_supported FALSE)
else()
set(relative_rpath_supported TRUE)
endif()
# Somewhat similar to mkspecs/features/qt.prf
# Embed either an absolute path to the installed Qt lib dir, or a relative one, based on
# where ${target} is installed.
# Don't embed relative rpaths if the platform does not support it.
if(arg_RELATIVE_RPATH AND relative_rpath_supported)
qt_compute_relative_rpath_base(
"${_default_install_rpath}" "${arg_INSTALL_PATH}" relative_rpath)
list(APPEND rpaths "${relative_rpath}")
else()
list(APPEND rpaths "${_default_install_rpath}")
endif()
# Somewhat similar to mkspecs/features/qt_build_extra.prf.
foreach(rpath ${QT_EXTRA_RPATHS})
if(IS_ABSOLUTE "${rpath}")
list(APPEND rpaths "${rpath}")
else()
if(relative_rpath_supported)
qt_compute_relative_rpath_base("${rpath}" "${arg_INSTALL_PATH}" relative_rpath)
list(APPEND rpaths "${relative_rpath}")
else()
# Any extra relative rpaths on a platform that does not support relative rpaths,
# need to be transformed into absolute ones.
set(install_lib_dir_absolute "${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR}")
get_filename_component(rpath_absolute "${rpath}"
ABSOLUTE BASE_DIR "${install_lib_dir_absolute}")
list(APPEND rpaths "${rpath_absolute}")
endif()
endif()
endforeach()
if(rpaths)
list(REMOVE_DUPLICATES rpaths)
if(QT_WILL_INSTALL)
set(prop_name "INSTALL_RPATH")
else()
set(prop_name "BUILD_RPATH")
endif()
set_property(TARGET "${target}" APPEND PROPERTY "${prop_name}" ${rpaths})
endif()
endfunction()
# Overrides the CMAKE_STAGING_PREFIX in a subdirectory scope, to stop CMake from rewriting build
# rpaths to point into the original staging prefix, and thus breaking running executables from
# the build directory.
# See details at https://bugreports.qt.io/browse/QTBUG-102592
# and https://gitlab.kitware.com/cmake/cmake/-/issues/23421
#
# This macro is only meant to be called in functions like
# qt_internal_add_module / qt_internal_add_tool to ensure the variable is set in the
# subdirectory scope of the calling function, and not in the actual function scope (where the
# variable assignment would have no effect).
#
# This is the best workaround we can currently do, but it comes with the disadvantage that calling
# subdirectory-scoped install targets does not work anymore.
# e.g. calling ninja src/gui/install will try to install to the fake prefix and fail.
# A regular ninja install call works fine.
#
# Usage of this macro assumes there are no binaries or libraries added in the root CMakeLists.txt
# of the project because that would mean the macro is called at root level scope, which would
# break installation.
#
# The implementation has to be a macro, so we can propagate the variable into the calling
# subdirectory scope. The implementation can't use return().
macro(qt_internal_apply_staging_prefix_build_rpath_workaround)
set(__qt_internal_should_apply_staging_prefix_build_rpath_workaround TRUE)
# Allow an opt out.
if(QT_NO_STAGING_PREFIX_BUILD_RPATH_WORKAROUND)
set(__qt_internal_should_apply_staging_prefix_build_rpath_workaround FALSE)
endif()
# No need for workaround if CMAKE_STAGING_PREFIX is not set.
if(NOT CMAKE_STAGING_PREFIX)
set(__qt_internal_should_apply_staging_prefix_build_rpath_workaround FALSE)
endif()
# No rpath support for win32, android, ios, so nothing to do.
if(WIN32 OR ANDROID OR UIKIT)
set(__qt_internal_should_apply_staging_prefix_build_rpath_workaround FALSE)
endif()
# Set the staging prefix to a non-existent directory, which is unlikely to have permissions
# for installation.
# The verbose directory name is chosen to attract the user's attention in case if they end up
# calling a subdirectory-scope install file.
if(__qt_internal_should_apply_staging_prefix_build_rpath_workaround)
set_property(GLOBAL PROPERTY _qt_internal_staging_prefix_build_rpath_workaround TRUE)
set(CMAKE_STAGING_PREFIX
"/qt_fake_staging_prefix/check_qt_internal_apply_staging_prefix_build_rpath_workaround"
PARENT_SCOPE)
endif()
endmacro()