# # Copyright (c) 2011, 2022, Oracle and/or its affiliates. All rights reserved. # DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. # # This code is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License version 2 only, as # published by the Free Software Foundation. Oracle designates this # particular file as subject to the "Classpath" exception as provided # by Oracle in the LICENSE file that accompanied this code. # # This code is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License # version 2 for more details (a copy is included in the LICENSE file that # accompanied this code). # # You should have received a copy of the GNU General Public License version # 2 along with this work; if not, write to the Free Software Foundation, # Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. # # Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA # or visit www.oracle.com if you need additional information or have any # questions. #
################################################################################ # The order of these defines the priority by which we try to find them.
VALID_VS_VERSIONS="2022 2019"
VS_DESCRIPTION_2019="Microsoft Visual Studio 2019"
VS_VERSION_INTERNAL_2019=142
VS_MSVCR_2019=vcruntime140.dll
VS_VCRUNTIME_1_2019=vcruntime140_1.dll
VS_MSVCP_2019=msvcp140.dll
VS_ENVVAR_2019="VS160COMNTOOLS"
VS_USE_UCRT_2019="true"
VS_VS_INSTALLDIR_2019="Microsoft Visual Studio/2019"
VS_EDITIONS_2019="BuildTools Community Professional Enterprise"
VS_SDK_INSTALLDIR_2019=
VS_VS_PLATFORM_NAME_2019="v142"
VS_SDK_PLATFORM_NAME_2019=
VS_SUPPORTED_2019=true
VS_TOOLSET_SUPPORTED_2019=true
VS_DESCRIPTION_2022="Microsoft Visual Studio 2022"
VS_VERSION_INTERNAL_2022=143
VS_MSVCR_2022=vcruntime140.dll
VS_VCRUNTIME_1_2022=vcruntime140_1.dll
VS_MSVCP_2022=msvcp140.dll
VS_ENVVAR_2022="VS170COMNTOOLS"
VS_USE_UCRT_2022="true"
VS_VS_INSTALLDIR_2022="Microsoft Visual Studio/2022"
VS_EDITIONS_2022="BuildTools Community Professional Enterprise"
VS_SDK_INSTALLDIR_2022=
VS_VS_PLATFORM_NAME_2022="v143"
VS_SDK_PLATFORM_NAME_2022=
VS_SUPPORTED_2022=true
VS_TOOLSET_SUPPORTED_2022=true
AC_DEFUN([TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT],
[ if test "x$VS_ENV_CMD" = x; then
TARGET_CPU="$1"
VS_VERSION="$2"
VS_BASE="$3"
METHOD="$4"
UTIL_FIXUP_PATH(VS_BASE, NOFAIL)
if test "x$VS_BASE" != x && test -d "$VS_BASE"; then # In VS 2019, the default installation is in a subdir named after the edition. # Find the first one present and use that. if test "x$VS_EDITIONS" != x; then for edition in $VS_EDITIONS; do if test -d "$VS_BASE/$edition"; then
VS_BASE="$VS_BASE/$edition"
break fi done fi
AC_MSG_NOTICE([Found Visual Studio installation at $VS_BASE using $METHOD]) if test "x$TARGET_CPU" = xx86; then
VCVARSFILES="vcvars32.bat vcvarsamd64_x86.bat" elif test "x$TARGET_CPU" = xx86_64; then
VCVARSFILES="vcvars64.bat vcvarsx86_amd64.bat" elif test "x$TARGET_CPU" = xaarch64; then # for host x86-64, target aarch64 # aarch64 requires Visual Studio 16.8 or higher
VCVARSFILES="vcvarsamd64_arm64.bat vcvarsx86_arm64.bat" fi
for VCVARSFILE in $VCVARSFILES; do if test -f "$VS_BASE/vc/auxiliary/build/$VCVARSFILE"; then
VS_ENV_CMD="$VS_BASE/vc/auxiliary/build/$VCVARSFILE"
break fi done
if test "x$VS_ENV_CMD" = x; then
AC_MSG_NOTICE([Warning: None of $VCVARSFILES were found, Visual Studio installation not recognized. Ignoring]) else # PLATFORM_TOOLSET is used during the compilation of the freetype sources # (see 'LIB_BUILD_FREETYPE' in libraries.m4) and must be one of 'v100', # 'v110' or 'v120' for VS 2010, 2012 or VS2013 eval PLATFORM_TOOLSET="\${VS_VS_PLATFORM_NAME_${VS_VERSION}}" fi fi fi
])
AC_DEFUN([TOOLCHAIN_CHECK_POSSIBLE_WIN_SDK_ROOT],
[ if test "x$VS_ENV_CMD" = x; then
TARGET_CPU="$1"
VS_VERSION="$2"
WIN_SDK_BASE="$3"
METHOD="$4"
UTIL_FIXUP_PATH(WIN_SDK_BASE, NOFAIL)
if test "x$WIN_SDK_BASE" != x && test -d "$WIN_SDK_BASE"; then # There have been cases of partial or broken SDK installations. A missing # lib dir is not going to work. if test ! -d "$WIN_SDK_BASE/lib"; then
AC_MSG_NOTICE([Found Windows SDK installation at $WIN_SDK_BASE using $METHOD])
AC_MSG_NOTICE([Warning: Installation is broken, lib dir is missing. Ignoring]) elif test -f "$WIN_SDK_BASE/bin/setenv.cmd"; then
AC_MSG_NOTICE([Found Windows SDK installation at $WIN_SDK_BASE using $METHOD])
VS_ENV_CMD="$WIN_SDK_BASE/bin/setenv.cmd" if test "x$TARGET_CPU" = xx86; then
VS_ENV_ARGS="/x86" elif test "x$TARGET_CPU" = xx86_64; then
VS_ENV_ARGS="/x64" elif test "x$TARGET_CPU" = xaarch64; then
VS_ENV_ARGS="/arm64" fi # PLATFORM_TOOLSET is used during the compilation of the freetype sources (see # 'LIB_BUILD_FREETYPE' in libraries.m4) and must be 'Windows7.1SDK' for Windows7.1SDK # TODO: improve detection for other versions of SDK eval PLATFORM_TOOLSET="\${VS_SDK_PLATFORM_NAME_${VS_VERSION}}" else
AC_MSG_NOTICE([Found Windows SDK installation at $WIN_SDK_BASE using $METHOD])
AC_MSG_NOTICE([Warning: Installation is broken, SetEnv.Cmd is missing. Ignoring]) fi fi fi
])
################################################################################ # Finds the bat or cmd file in Visual Studio or the SDK that sets up a proper # build environment and assigns it to VS_ENV_CMD
AC_DEFUN([TOOLCHAIN_FIND_VISUAL_STUDIO_BAT_FILE],
[ # Since VS2017 MS provides the option to install previous minor versions of # the toolset. In order to build with a previous minor compiler toolset # version, pass -vcvars_ver=<toolset_version> argument to vcvarsall.bat.
AC_ARG_WITH(msvc-toolset-version, [AS_HELP_STRING([--with-msvc-toolset-version],
[specific MSVC toolset version to use, passed as -vcvars_ver argument to
pass to vcvarsall.bat (Windows only)])])
# When using --with-tools-dir, assume it points to the correct and default # version of Visual Studio or that --with-toolchain-version was also set. if test "x$with_tools_dir" != x; then
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[$with_tools_dir/../..], [--with-tools-dir])
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[$with_tools_dir/../../..], [--with-tools-dir]) if test "x$VS_ENV_CMD" = x; then # Having specified an argument which is incorrect will produce an instant failure; # we should not go on looking
AC_MSG_NOTICE([The path given by --with-tools-dir does not contain a valid])
AC_MSG_NOTICE([Visual Studio installation. Please point to the VC/bin or VC/bin/amd64])
AC_MSG_NOTICE([directory within the Visual Studio installation])
AC_MSG_ERROR([Cannot locate a valid Visual Studio installation]) fi fi
if test "x$VS_COMNTOOLS" != x; then
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[$VS_COMNTOOLS/../..], [$VS_COMNTOOLS_VAR variable]) fi if test "x$PROGRAMFILES" != x; then
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[$PROGRAMFILES/$VS_INSTALL_DIR], [well-known name]) fi # Work around the insanely named ProgramFiles(x86) env variable
PROGRAMFILES_X86="`env | $SED -n 's/^ProgramFiles(x86)=//p'`" if test "x$PROGRAMFILES_X86" != x; then
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[$PROGRAMFILES_X86/$VS_INSTALL_DIR], [well-known name]) fi
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[c:/program files/$VS_INSTALL_DIR], [well-known name])
TOOLCHAIN_CHECK_POSSIBLE_VISUAL_STUDIO_ROOT([$TARGET_CPU], [$VS_VERSION],
[c:/program files (x86)/$VS_INSTALL_DIR], [well-known name]) if test "x$SDK_INSTALL_DIR" != x; then if test "x$ProgramW6432" != x; then
TOOLCHAIN_CHECK_POSSIBLE_WIN_SDK_ROOT([$TARGET_CPU], [$VS_VERSION],
[$ProgramW6432/$SDK_INSTALL_DIR], [well-known name]) fi if test "x$PROGRAMW6432" != x; then
TOOLCHAIN_CHECK_POSSIBLE_WIN_SDK_ROOT([$TARGET_CPU], [$VS_VERSION],
[$PROGRAMW6432/$SDK_INSTALL_DIR], [well-known name]) fi if test "x$PROGRAMFILES" != x; then
TOOLCHAIN_CHECK_POSSIBLE_WIN_SDK_ROOT([$TARGET_CPU], [$VS_VERSION],
[$PROGRAMFILES/$SDK_INSTALL_DIR], [well-known name]) fi
TOOLCHAIN_CHECK_POSSIBLE_WIN_SDK_ROOT([$TARGET_CPU], [$VS_VERSION],
[c:/program files/$SDK_INSTALL_DIR], [well-known name])
TOOLCHAIN_CHECK_POSSIBLE_WIN_SDK_ROOT([$TARGET_CPU], [$VS_VERSION],
[c:/program files (x86)/$SDK_INSTALL_DIR], [well-known name]) fi
VCVARS_VER=auto if test "x$VS_TOOLSET_SUPPORTED" != x; then if test "x$with_msvc_toolset_version" != x; then
VCVARS_VER="$with_msvc_toolset_version" fi fi
])
AC_DEFUN([TOOLCHAIN_FIND_VISUAL_STUDIO],
[
AC_ARG_WITH(toolchain-version, [AS_HELP_STRING([--with-toolchain-version],
[the version of the toolchain to look for, use '--help' to show possible values @<:@platform dependent@:>@])])
if test "x$with_toolchain_version" = xlist; then # List all toolchains
AC_MSG_NOTICE([The following toolchain versions are valid on this platform:]) for version in $VALID_VS_VERSIONS; do eval VS_DESCRIPTION=\${VS_DESCRIPTION_$version}
$PRINTF " %-10s %s\n" $version "$VS_DESCRIPTION" done
exit 0 elif test "x$DEVKIT_VS_VERSION" != x; then
VS_VERSION=$DEVKIT_VS_VERSION
TOOLCHAIN_VERSION=$VS_VERSION # If the devkit has a name, use that as description
VS_DESCRIPTION="$DEVKIT_NAME" if test "x$VS_DESCRIPTION" = x; then eval VS_DESCRIPTION="\${VS_DESCRIPTION_${VS_VERSION}}" fi eval VS_VERSION_INTERNAL="\${VS_VERSION_INTERNAL_${VS_VERSION}}" eval MSVCR_NAME="\${VS_MSVCR_${VS_VERSION}}" eval VCRUNTIME_1_NAME="\${VS_VCRUNTIME_1_${VS_VERSION}}" eval MSVCP_NAME="\${VS_MSVCP_${VS_VERSION}}" eval USE_UCRT="\${VS_USE_UCRT_${VS_VERSION}}" eval VS_SUPPORTED="\${VS_SUPPORTED_${VS_VERSION}}" eval PLATFORM_TOOLSET="\${VS_VS_PLATFORM_NAME_${VS_VERSION}}"
# For historical reasons, paths are separated by ; in devkit.info
VS_INCLUDE=${DEVKIT_VS_INCLUDE//;/:}
VS_LIB=${DEVKIT_VS_LIB//;/:}
AC_MSG_NOTICE([Found devkit $VS_DESCRIPTION])
elif test "x$with_toolchain_version" != x; then # User override; check that it is valid if test "x${VALID_VS_VERSIONS/$with_toolchain_version/}" = "x${VALID_VS_VERSIONS}"; then
AC_MSG_NOTICE([Visual Studio version $with_toolchain_version is not valid.])
AC_MSG_NOTICE([Valid Visual Studio versions: $VALID_VS_VERSIONS.])
AC_MSG_ERROR([Cannot continue.]) fi
VS_VERSIONS_PROBE_LIST="$with_toolchain_version" else # No flag given, use default
VS_VERSIONS_PROBE_LIST="$VALID_VS_VERSIONS" fi
for VS_VERSION in $VS_VERSIONS_PROBE_LIST; do
TOOLCHAIN_FIND_VISUAL_STUDIO_BAT_FILE($OPENJDK_TARGET_CPU, [$VS_VERSION]) if test "x$VS_ENV_CMD" != x; then
TOOLCHAIN_VERSION=$VS_VERSION eval VS_DESCRIPTION="\${VS_DESCRIPTION_${VS_VERSION}}" eval VS_VERSION_INTERNAL="\${VS_VERSION_INTERNAL_${VS_VERSION}}" eval MSVCR_NAME="\${VS_MSVCR_${VS_VERSION}}" eval VCRUNTIME_1_NAME="\${VS_VCRUNTIME_1_${VS_VERSION}}" eval MSVCP_NAME="\${VS_MSVCP_${VS_VERSION}}" eval USE_UCRT="\${VS_USE_UCRT_${VS_VERSION}}" eval VS_SUPPORTED="\${VS_SUPPORTED_${VS_VERSION}}" # The rest of the variables are already evaluated while probing
AC_MSG_NOTICE([Found $VS_DESCRIPTION])
break fi done
TOOLCHAIN_DESCRIPTION="$VS_DESCRIPTION" if test "x$VS_SUPPORTED" = "xfalse"; then
UNSUPPORTED_TOOLCHAIN_VERSION=yes fi
])
# Cannot use the VS10 setup script directly (since it only updates the DOS subshell environment). # Instead create a shell script which will set the relevant variables when run.
OLDPATH="$PATH" # Make sure we only capture additions to PATH needed by VS. # Clear out path, but need system dir present for vsvars cmd file to be able to run export PATH=$WINENV_PREFIX/c/windows/system32 # The "| cat" is to stop SetEnv.Cmd to mess with system colors on some systems # We can't pass -vcvars_ver=$VCVARS_VER here because cmd.exe eats all '=' # in bat file arguments. :-(
$FIXPATH $CMD /c "$TOPDIR/make/scripts/extract-vs-env.cmd""$VS_ENV_CMD" \ "$VS_ENV_TMP_DIR/set-vs-env.sh" $VCVARS_VER $VS_ENV_ARGS \
> $VS_ENV_TMP_DIR/extract-vs-env.log | $CAT 2>&1
PATH="$OLDPATH"
if test ! -s $VS_ENV_TMP_DIR/set-vs-env.sh; then
AC_MSG_NOTICE([Could not successfully extract the environment variables needed for the VS setup.])
AC_MSG_NOTICE([Try setting --with-tools-dir to the VC/bin directory within the VS installation.])
AC_MSG_NOTICE([To analyze the problem, see extract-vs-env.log and extract-vs-env.bat in])
AC_MSG_NOTICE([$VS_ENV_TMP_DIR.])
AC_MSG_ERROR([Cannot continue]) fi
# Remove windows line endings
$SED -i -e 's|\r||g' $VS_ENV_TMP_DIR/set-vs-env.sh
# Now set all paths and other env variables by executing the generated # shell script. This will allow the rest of the configure script to find # and run the compiler in the proper way.
AC_MSG_NOTICE([Setting extracted environment variables for $TARGET_CPU])
. $VS_ENV_TMP_DIR/set-vs-env.sh
# Extract only what VS_ENV_CMD added to the PATH
VS_PATH=${PATH_AFTER/"$PATH_BEFORE"}
VS_PATH=${VS_PATH//::/:}
# Remove any paths containing # (typically F#) as that messes up make. This # is needed if visual studio was installed with F# support.
[ VS_PATH=`$ECHO"$VS_PATH" | $SED 's/[^:#]*#[^:]*://g'` ]
# Sometimes case is off if test -z "$WINDOWSSDKDIR"; then
WINDOWSSDKDIR="$WindowsSdkDir" fi # Now we have VS_PATH, VS_INCLUDE, VS_LIB. For further checking, we # also define VCINSTALLDIR and WINDOWSSDKDIR. All are in # unix style.
])
################################################################################ # Check if the VS env variables were setup prior to running configure. # If not, then find vcvarsall.bat and run it automatically, and integrate # the set env variables into the spec file.
AC_DEFUN([TOOLCHAIN_SETUP_VISUAL_STUDIO_ENV],
[ # Locate the vsvars bat file and save it as VS_ENV_CMD
TOOLCHAIN_FIND_VISUAL_STUDIO
# If we have a devkit, we don't need to run VS_ENV_CMD if test "x$DEVKIT_VS_VERSION" = x; then if test "x$VS_ENV_CMD" != x; then # We have found a Visual Studio environment on disk, let's extract variables # from the vsvars bat file into shell variables in the configure script.
TOOLCHAIN_EXTRACT_VISUAL_STUDIO_ENV($OPENJDK_TARGET_CPU)
# Now we have VS_PATH, VS_INCLUDE, VS_LIB. For further checking, we # also define VCINSTALLDIR and WINDOWSSDKDIR. All are in # unix style. else # We did not find a vsvars bat file.
AC_MSG_ERROR([Cannot locate a valid Visual Studio installation]) fi fi
# At this point, we should have correct variables in the environment
AC_MSG_CHECKING([that Visual Studio variables have been correctly extracted])
if test "x$VCINSTALLDIR" != x || test "x$WINDOWSSDKDIR" != x \
|| test "x$DEVKIT_NAME" != x; then if test "x$VS_INCLUDE" = x || test "x$VS_LIB" = x; then
AC_MSG_RESULT([no; Visual Studio present but broken])
AC_MSG_ERROR([Your VC command prompt seems broken, INCLUDE and/or LIB is missing.]) else
AC_MSG_RESULT([ok])
# Turn VS_PATH into TOOLCHAIN_PATH
TOOLCHAIN_PATH="$TOOLCHAIN_PATH:$VS_PATH"
# Convert VS_INCLUDE and VS_LIB into sysroot flags
TOOLCHAIN_SETUP_VISUAL_STUDIO_SYSROOT_FLAGS fi else
AC_MSG_RESULT([not found])
if test "x$VS_ENV_CMD" = x; then
AC_MSG_NOTICE([Cannot locate a valid Visual Studio or Windows SDK installation on disk]) else
AC_MSG_NOTICE([Running the extraction script failed]) fi
AC_MSG_NOTICE([Try setting --with-tools-dir to the VC/bin directory within the VS installation.])
AC_MSG_NOTICE([To analyze the problem, see extract-vs-env.log and extract-vs-env.bat in])
AC_MSG_NOTICE([$VS_ENV_TMP_DIR.])
AC_MSG_ERROR([Cannot continue]) fi
])
AC_DEFUN([TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL],
[
DLL_NAME="$1"
POSSIBLE_MSVC_DLL="$2"
METHOD="$3" if test -n "$POSSIBLE_MSVC_DLL" -a -e "$POSSIBLE_MSVC_DLL"; then
AC_MSG_NOTICE([Found $DLL_NAME at $POSSIBLE_MSVC_DLL using $METHOD])
# Need to check if the found msvcr is correct architecture
AC_MSG_CHECKING([found $DLL_NAME architecture])
MSVC_DLL_FILETYPE=`$FILE -b "$POSSIBLE_MSVC_DLL"` if test "x$OPENJDK_TARGET_CPU" = xx86; then
CORRECT_MSVCR_ARCH=386 elif test "x$OPENJDK_TARGET_CPU" = xx86_64; then
CORRECT_MSVCR_ARCH=x86-64 elif test "x$OPENJDK_TARGET_CPU" = xaarch64; then # The cygwin 'file' command only returns "PE32+ executable (DLL) (console), for MS Windows", # without specifying which architecture it is for specifically. This has been fixed upstream. # https://github.com/file/file/commit/b849b1af098ddd530094bf779b58431395db2e10#diff-ff2eced09e6860de75057dd731d092aeR142
CORRECT_MSVCR_ARCH="PE32+ executable" fi if $ECHO"$MSVC_DLL_FILETYPE" | $GREP "$CORRECT_MSVCR_ARCH" 2>&1 > /dev/null; then
AC_MSG_RESULT([ok])
MSVC_DLL="$POSSIBLE_MSVC_DLL"
AC_MSG_CHECKING([for $DLL_NAME])
AC_MSG_RESULT([$MSVC_DLL]) else
AC_MSG_RESULT([incorrect, ignoring])
AC_MSG_NOTICE([The file type of the located $DLL_NAME is $MSVC_DLL_FILETYPE]) fi fi
])
if test "x$OPENJDK_TARGET_CPU" = xx86; then
vs_target_cpu=x86 elif test "x$OPENJDK_TARGET_CPU" = xx86_64; then
vs_target_cpu=x64 elif test "x$OPENJDK_TARGET_CPU" = xaarch64; then
vs_target_cpu=arm64 fi
if test "x$MSVC_DLL" = x; then if test "x$VCINSTALLDIR" != x; then # Probe: Using well-known location
POSSIBLE_MSVC_DLL="`ls $VCToolsRedistDir/$vs_target_cpu/microsoft.vc${VS_VERSION_INTERNAL}.crt/$DLL_NAME 2> /dev/null`" # If the above finds more than one file, loop over them. for possible_msvc_dll in $POSSIBLE_MSVC_DLL; do
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL([$DLL_NAME], [$possible_msvc_dll],
[well-known location in VCINSTALLDIR]) done fi fi
if test "x$MSVC_DLL" = x; then # Probe: Check in the Boot JDK directory.
POSSIBLE_MSVC_DLL="$BOOT_JDK/bin/$DLL_NAME"
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL([$DLL_NAME], [$POSSIBLE_MSVC_DLL],
[well-known location in Boot JDK]) fi
if test "x$MSVC_DLL" = x; then # Probe: Look in the Windows system32 directory
WIN_SYSTEMROOT="$SYSTEMROOT"
UTIL_FIXUP_PATH(WIN_SYSTEMROOT, NOFAIL) if test "x$WIN_SYSTEMROOT" != x; then
POSSIBLE_MSVC_DLL="$WIN_SYSTEMROOT/system32/$DLL_NAME"
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL([$DLL_NAME], [$POSSIBLE_MSVC_DLL],
[well-known location in SYSTEMROOT]) fi fi
if test "x$MSVC_DLL" = x; then # Probe: If Visual Studio Express is installed, there is usually one with the debugger if test "x$VS100COMNTOOLS" != x; then
WIN_VS_TOOLS_DIR="$VS100COMNTOOLS/.."
UTIL_FIXUP_PATH(WIN_VS_TOOLS_DIR, NOFAIL) if test "x$WIN_VS_TOOLS_DIR" != x; then
POSSIBLE_MSVC_DLL=`$FIND "$WIN_VS_TOOLS_DIR" -name $DLL_NAME \
| $GREP -i /$vs_target_cpu/ | $HEAD --lines 1`
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL([$DLL_NAME], [$POSSIBLE_MSVC_DLL],
[search of VS100COMNTOOLS]) fi fi fi
if test "x$MSVC_DLL" = x; then # Probe: Search wildly in the VCINSTALLDIR. We've probably lost by now. # (This was the original behaviour; kept since it might turn something up) if test "x$VCINSTALLDIR" != x; then if test "x$OPENJDK_TARGET_CPU" = xx86; then
POSSIBLE_MSVC_DLL=`$FIND "$VCINSTALLDIR" -name $DLL_NAME \
| $GREP x86 | $GREP -v ia64 | $GREP -v x64 | $GREP -v arm64 | $HEAD --lines 1` if test "x$POSSIBLE_MSVC_DLL" = x; then # We're grasping at straws now...
POSSIBLE_MSVC_DLL=`$FIND "$VCINSTALLDIR" -name $DLL_NAME \
| $HEAD --lines 1` fi else
POSSIBLE_MSVC_DLL=`$FIND "$VCINSTALLDIR" -name $DLL_NAME \
| $GREP x64 | $HEAD --lines 1` fi
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL([$DLL_NAME], [$POSSIBLE_MSVC_DLL],
[search of VCINSTALLDIR]) fi fi
if test "x$MSVC_DLL" = x; then
AC_MSG_CHECKING([for $DLL_NAME])
AC_MSG_RESULT([no])
AC_MSG_ERROR([Could not find $DLL_NAME. Please specify using ${DLL_HELP}.]) fi
])
AC_DEFUN([TOOLCHAIN_SETUP_VS_RUNTIME_DLLS],
[
AC_ARG_WITH(msvcr-dll, [AS_HELP_STRING([--with-msvcr-dll],
[path to microsoft C runtime dll (msvcr*.dll) (Windows only) @<:@probed@:>@])])
if test "x$with_msvcr_dll" != x; then # If given explicitly by user, do not probe. If not present, fail directly.
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL($MSVCR_NAME, [$with_msvcr_dll], [--with-msvcr-dll]) if test "x$MSVC_DLL" = x; then
AC_MSG_ERROR([Could not find a proper $MSVCR_NAME as specified by --with-msvcr-dll]) fi
MSVCR_DLL="$MSVC_DLL" elif test "x$DEVKIT_MSVCR_DLL" != x; then
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL($MSVCR_NAME, [$DEVKIT_MSVCR_DLL], [devkit]) if test "x$MSVC_DLL" = x; then
AC_MSG_ERROR([Could not find a proper $MSVCR_NAME as specified by devkit]) fi
MSVCR_DLL="$MSVC_DLL" else
TOOLCHAIN_SETUP_MSVC_DLL([${MSVCR_NAME}], [--with-msvcr-dll])
MSVCR_DLL="$MSVC_DLL" fi
AC_SUBST(MSVCR_DLL)
AC_ARG_WITH(msvcp-dll, [AS_HELP_STRING([--with-msvcp-dll],
[path to microsoft C++ runtime dll (msvcp*.dll) (Windows only) @<:@probed@:>@])])
if test "x$MSVCP_NAME" != "x"; then if test "x$with_msvcp_dll" != x; then # If given explicitly by user, do not probe. If not present, fail directly.
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL($MSVCP_NAME, [$with_msvcp_dll], [--with-msvcp-dll]) if test "x$MSVC_DLL" = x; then
AC_MSG_ERROR([Could not find a proper $MSVCP_NAME as specified by --with-msvcp-dll]) fi
MSVCP_DLL="$MSVC_DLL" elif test "x$DEVKIT_MSVCP_DLL" != x; then
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL($MSVCP_NAME, [$DEVKIT_MSVCP_DLL], [devkit]) if test "x$MSVC_DLL" = x; then
AC_MSG_ERROR([Could not find a proper $MSVCP_NAME as specified by devkit]) fi
MSVCP_DLL="$MSVC_DLL" else
TOOLCHAIN_SETUP_MSVC_DLL([${MSVCP_NAME}], [--with-msvcp-dll])
MSVCP_DLL="$MSVC_DLL" fi
AC_SUBST(MSVCP_DLL) fi
AC_ARG_WITH(vcruntime-1-dll, [AS_HELP_STRING([--with-vcruntime-1-dll],
[path to microsoft C++ runtime dll (vcruntime*_1.dll) (Windows x64 only) @<:@probed@:>@])])
if test "x$VCRUNTIME_1_NAME" != "x" && test "x$OPENJDK_TARGET_CPU" = xx86_64; then if test "x$with_vcruntime_1_dll" != x; then # If given explicitly by user, do not probe. If not present, fail directly.
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL($VCRUNTIME_1_NAME, [$with_vcruntime_1_dll],
[--with-vcruntime-1-dll]) if test "x$MSVC_DLL" = x; then
AC_MSG_ERROR([Could not find a proper $VCRUNTIME_1_NAME as specified by --with-vcruntime-1-dll]) fi
VCRUNTIME_1_DLL="$MSVC_DLL" elif test "x$DEVKIT_VCRUNTIME_1_DLL" != x; then
TOOLCHAIN_CHECK_POSSIBLE_MSVC_DLL($VCRUNTIME_1_NAME, [$DEVKIT_VCRUNTIME_1_DLL], [devkit]) if test "x$MSVC_DLL" = x; then
AC_MSG_ERROR([Could not find a proper $VCRUNTIME_1_NAME as specified by devkit]) fi
VCRUNTIME_1_DLL="$MSVC_DLL" else
TOOLCHAIN_SETUP_MSVC_DLL([${VCRUNTIME_1_NAME}], [--with-vcruntime-1-dll])
VCRUNTIME_1_DLL="$MSVC_DLL" fi fi
AC_SUBST(VCRUNTIME_1_DLL)
AC_ARG_WITH(ucrt-dll-dir, [AS_HELP_STRING([--with-ucrt-dll-dir],
[path to Microsoft Windows Kit UCRT DLL dir (Windows only) @<:@probed@:>@])])
if test "x$USE_UCRT" = "xtrue" && test "x$OPENJDK_TARGET_CPU" != xaarch64; then
AC_MSG_CHECKING([for UCRT DLL dir]) if test "x$with_ucrt_dll_dir" != x; then if test -z "$(ls -d "$with_ucrt_dll_dir/"*.dll 2> /dev/null)"; then
AC_MSG_RESULT([no])
AC_MSG_ERROR([Could not find any dlls in $with_ucrt_dll_dir]) else
AC_MSG_RESULT([$with_ucrt_dll_dir])
UCRT_DLL_DIR="$with_ucrt_dll_dir"
UTIL_FIXUP_PATH([UCRT_DLL_DIR]) fi elif test "x$DEVKIT_UCRT_DLL_DIR" != "x"; then
UCRT_DLL_DIR="$DEVKIT_UCRT_DLL_DIR"
AC_MSG_RESULT($UCRT_DLL_DIR) else
dll_subdir=$OPENJDK_TARGET_CPU if test "x$dll_subdir" = "xaarch64"; then
dll_subdir="arm64" elif test "x$dll_subdir" = "xx86_64"; then
dll_subdir="x64" fi
UCRT_DLL_DIR="$WINDOWSSDKDIR/redist/ucrt/dlls/$dll_subdir" if test -z "$(ls -d "$UCRT_DLL_DIR/"*.dll 2> /dev/null)"; then # Try with version subdir
UCRT_DLL_DIR="`ls -d $WINDOWSSDKDIR/redist/*/ucrt/dlls/$dll_subdir \
2> /dev/null | $SORT -d | $HEAD -n1`" if test -z "$UCRT_DLL_DIR" \
|| test -z "$(ls -d "$UCRT_DLL_DIR/"*.dll 2> /dev/null)"; then
AC_MSG_RESULT([no])
AC_MSG_ERROR([Could not find any dlls in $UCRT_DLL_DIR]) else
AC_MSG_RESULT($UCRT_DLL_DIR) fi else
AC_MSG_RESULT($UCRT_DLL_DIR) fi fi else
UCRT_DLL_DIR= fi
AC_SUBST(UCRT_DLL_DIR)
])
# Setup the sysroot flags and add them to global CFLAGS and LDFLAGS so # that configure can use them while detecting compilers. # TOOLCHAIN_TYPE is available here. # Param 1 - Optional prefix to SYSROOT variables. (e.g BUILD_) # Param 2 - Optional prefix to VS variables. (e.g BUILD_)
AC_DEFUN([TOOLCHAIN_SETUP_VISUAL_STUDIO_SYSROOT_FLAGS],
[
OLDIFS="$IFS"
IFS=":"
# Convert VS_INCLUDE into SYSROOT_CFLAGS for ipath in [$]$2VS_INCLUDE; do
$1SYSROOT_CFLAGS="[$]$1SYSROOT_CFLAGS -I$ipath" done
# Convert VS_LIB into SYSROOT_LDFLAGS for libpath in [$]$2VS_LIB; do
$1SYSROOT_LDFLAGS="[$]$1SYSROOT_LDFLAGS -libpath:$libpath" done
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Die Informationen auf dieser Webseite wurden
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