#
# Copyright (c) 2011, 2017, 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.
#
# Create a function/macro that takes a series of named arguments. The call is
# similar to AC_DEFUN, but the setup of the function looks like this:
# BASIC_DEFUN_NAMED([MYFUNC], [FOO *BAR], [$@], [
# ... do something
# AC_MSG_NOTICE([Value of BAR is ARG_BAR])
# ])
# A star (*) in front of a named argument means that it is required and it's
# presence will be verified. To pass e.g. the first value as a normal indexed
# argument, use [m4_shift($@)] as the third argument instead of [$@]. These
# arguments are referenced in the function by their name prefixed by ARG_, e.g.
# "ARG_FOO".
#
# The generated function can be called like this:
# MYFUNC(FOO: [foo-val],
# BAR: [
# $ECHO hello world
# ])
# Note that the argument value must start on the same line as the argument name.
#
# Argument 1: Name of the function to define
# Argument 2: List of legal named arguments, with a * prefix for required arguments
# Argument 3: Argument array to treat as named, typically $@
# Argument 4: The main function body
AC_DEFUN([BASIC_DEFUN_NAMED],
[
AC_DEFUN($1, [
m4_foreach(arg, m4_split($2), [
m4_if(m4_bregexp(arg, [^\*]), -1,
[
m4_set_add(legal_named_args, arg)
],
[
m4_set_add(legal_named_args, m4_substr(arg, 1))
m4_set_add(required_named_args, m4_substr(arg, 1))
]
)
])
m4_foreach([arg], [$3], [
m4_define(arg_name, m4_substr(arg, 0, m4_bregexp(arg, [: ])))
m4_set_contains(legal_named_args, arg_name, [],[AC_MSG_ERROR([Internal error: arg_name is not a valid named argument to [$1]. Valid arguments are 'm4_set_contents(legal_named_args, [ ])'.])])
m4_set_remove(required_named_args, arg_name)
m4_set_remove(legal_named_args, arg_name)
m4_pushdef([ARG_][]arg_name, m4_substr(arg, m4_incr(m4_incr(m4_bregexp(arg, [: ])))))
m4_set_add(defined_args, arg_name)
m4_undefine([arg_name])
])
m4_set_empty(required_named_args, [], [
AC_MSG_ERROR([Internal error: Required named arguments are missing for [$1]. Missing arguments: 'm4_set_contents(required_named_args, [ ])'])
])
m4_foreach([arg], m4_indir([m4_dquote]m4_set_listc([legal_named_args])), [
m4_pushdef([ARG_][]arg, [])
m4_set_add(defined_args, arg)
])
m4_set_delete(legal_named_args)
m4_set_delete(required_named_args)
# Execute function body
$4
m4_foreach([arg], m4_indir([m4_dquote]m4_set_listc([defined_args])), [
m4_popdef([ARG_][]arg)
])
m4_set_delete(defined_args)
])
])
# Test if $1 is a valid argument to $3 (often is $JAVA passed as $3)
# If so, then append $1 to $2 \
# Also set JVM_ARG_OK to true/false depending on outcome.
AC_DEFUN([ADD_JVM_ARG_IF_OK],
[
$ECHO "Check if jvm arg is ok: $1" >&AS_MESSAGE_LOG_FD
$ECHO "Command: $3 $1 -version" >&AS_MESSAGE_LOG_FD
OUTPUT=`$3 $1 -version 2>&1`
FOUND_WARN=`$ECHO "$OUTPUT" | $GREP -i warn`
FOUND_VERSION=`$ECHO $OUTPUT | $GREP " version \""`
if test "x$FOUND_VERSION" != x && test "x$FOUND_WARN" = x; then
$2="[$]$2 $1"
JVM_ARG_OK=true
else
$ECHO "Arg failed:" >&AS_MESSAGE_LOG_FD
$ECHO "$OUTPUT" >&AS_MESSAGE_LOG_FD
JVM_ARG_OK=false
fi
])
# Appends a string to a path variable, only adding the : when needed.
AC_DEFUN([BASIC_APPEND_TO_PATH],
[
if test "x$2" != x; then
if test "x[$]$1" = x; then
$1="$2"
else
$1="[$]$1:$2"
fi
fi
])
# Prepends a string to a path variable, only adding the : when needed.
AC_DEFUN([BASIC_PREPEND_TO_PATH],
[
if test "x$2" != x; then
if test "x[$]$1" = x; then
$1="$2"
else
$1="$2:[$]$1"
fi
fi
])
# This will make sure the given variable points to a full and proper
# path. This means:
# 1) There will be no spaces in the path. On unix platforms,
# spaces in the path will result in an error. On Windows,
# the path will be rewritten using short-style to be space-free.
# 2) The path will be absolute, and it will be in unix-style (on
# cygwin).
# $1: The name of the variable to fix
AC_DEFUN([BASIC_FIXUP_PATH],
[
# Only process if variable expands to non-empty
if test "x[$]$1" != x; then
if test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.cygwin"; then
BASIC_FIXUP_PATH_CYGWIN($1)
elif test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.msys"; then
BASIC_FIXUP_PATH_MSYS($1)
else
# We're on a unix platform. Hooray! :)
path="[$]$1"
has_space=`$ECHO "$path" | $GREP " "`
if test "x$has_space" != x; then
AC_MSG_NOTICE([The path of $1, which resolves as "$path", is invalid.])
AC_MSG_ERROR([Spaces are not allowed in this path.])
fi
# Use eval to expand a potential ~
eval path="$path"
if test ! -f "$path" && test ! -d "$path"; then
AC_MSG_ERROR([The path of $1, which resolves as "$path", is not found.])
fi
if test -d "$path"; then
$1="`cd "$path"; $THEPWDCMD -L`"
else
dir="`$DIRNAME "$path"`"
base="`$BASENAME "$path"`"
$1="`cd "$dir"; $THEPWDCMD -L`/$base"
fi
fi
fi
])
# This will make sure the given variable points to a executable
# with a full and proper path. This means:
# 1) There will be no spaces in the path. On unix platforms,
# spaces in the path will result in an error. On Windows,
# the path will be rewritten using short-style to be space-free.
# 2) The path will be absolute, and it will be in unix-style (on
# cygwin).
# Any arguments given to the executable is preserved.
# If the input variable does not have a directory specification, then
# it need to be in the PATH.
# $1: The name of the variable to fix
AC_DEFUN([BASIC_FIXUP_EXECUTABLE],
[
# Only process if variable expands to non-empty
if test "x[$]$1" != x; then
if test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.cygwin"; then
BASIC_FIXUP_EXECUTABLE_CYGWIN($1)
elif test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.msys"; then
BASIC_FIXUP_EXECUTABLE_MSYS($1)
else
# We're on a unix platform. Hooray! :)
# First separate the path from the arguments. This will split at the first
# space.
complete="[$]$1"
path="${complete%% *}"
tmp="$complete EOL"
arguments="${tmp#* }"
# Cannot rely on the command "which" here since it doesn't always work.
is_absolute_path=`$ECHO "$path" | $GREP ^/`
if test -z "$is_absolute_path"; then
# Path to executable is not absolute. Find it.
IFS_save="$IFS"
IFS=:
for p in $PATH; do
if test -f "$p/$path" && test -x "$p/$path"; then
new_path="$p/$path"
break
fi
done
IFS="$IFS_save"
else
# This is an absolute path, we can use it without further modifications.
new_path="$path"
fi
if test "x$new_path" = x; then
AC_MSG_NOTICE([The path of $1, which resolves as "$complete", is not found.])
has_space=`$ECHO "$complete" | $GREP " "`
if test "x$has_space" != x; then
AC_MSG_NOTICE([This might be caused by spaces in the path, which is not allowed.])
fi
AC_MSG_ERROR([Cannot locate the the path of $1])
fi
fi
# Now join together the path and the arguments once again
if test "x$arguments" != xEOL; then
new_complete="$new_path ${arguments% *}"
else
new_complete="$new_path"
fi
if test "x$complete" != "x$new_complete"; then
$1="$new_complete"
AC_MSG_NOTICE([Rewriting $1 to "$new_complete"])
fi
fi
])
AC_DEFUN([BASIC_REMOVE_SYMBOLIC_LINKS],
[
if test "x$OPENJDK_BUILD_OS" != xwindows; then
# Follow a chain of symbolic links. Use readlink
# where it exists, else fall back to horribly
# complicated shell code.
if test "x$READLINK_TESTED" != yes; then
# On MacOSX there is a readlink tool with a different
# purpose than the GNU readlink tool. Check the found readlink.
ISGNU=`$READLINK --version 2>&1 | $GREP GNU`
if test "x$ISGNU" = x; then
# A readlink that we do not know how to use.
# Are there other non-GNU readlinks out there?
READLINK_TESTED=yes
READLINK=
fi
fi
if test "x$READLINK" != x; then
$1=`$READLINK -f [$]$1`
else
# Save the current directory for restoring afterwards
STARTDIR=$PWD
COUNTER=0
sym_link_dir=`$DIRNAME [$]$1`
sym_link_file=`$BASENAME [$]$1`
cd $sym_link_dir
# Use -P flag to resolve symlinks in directories.
cd `$THEPWDCMD -P`
sym_link_dir=`$THEPWDCMD -P`
# Resolve file symlinks
while test $COUNTER -lt 20; do
ISLINK=`$LS -l $sym_link_dir/$sym_link_file | $GREP '\->' | $SED -e 's/.*-> \(.*\)/\1/'`
if test "x$ISLINK" == x; then
# This is not a symbolic link! We are done!
break
fi
# Again resolve directory symlinks since the target of the just found
# link could be in a different directory
cd `$DIRNAME $ISLINK`
sym_link_dir=`$THEPWDCMD -P`
sym_link_file=`$BASENAME $ISLINK`
let COUNTER=COUNTER+1
done
cd $STARTDIR
$1=$sym_link_dir/$sym_link_file
fi
fi
])
# Register a --with argument but mark it as deprecated
# $1: The name of the with argument to deprecate, not including --with-
AC_DEFUN([BASIC_DEPRECATED_ARG_WITH],
[
AC_ARG_WITH($1, [AS_HELP_STRING([--with-$1],
[Deprecated. Option is kept for backwards compatibility and is ignored])],
[AC_MSG_WARN([Option --with-$1 is deprecated and will be ignored.])])
])
# Register a --enable argument but mark it as deprecated
# $1: The name of the with argument to deprecate, not including --enable-
# $2: The name of the argument to deprecate, in shell variable style (i.e. with _ instead of -)
# $3: Messages to user.
AC_DEFUN([BASIC_DEPRECATED_ARG_ENABLE],
[
AC_ARG_ENABLE($1, [AS_HELP_STRING([--enable-$1],
[Deprecated. Option is kept for backwards compatibility and is ignored])])
if test "x$enable_$2" != x; then
AC_MSG_WARN([Option --enable-$1 is deprecated and will be ignored.])
if test "x$3" != x; then
AC_MSG_WARN([$3])
fi
fi
])
AC_DEFUN_ONCE([BASIC_INIT],
[
# Save the original command line. This is passed to us by the wrapper configure script.
AC_SUBST(CONFIGURE_COMMAND_LINE)
# Save the path variable before it gets changed
ORIGINAL_PATH="$PATH"
AC_SUBST(ORIGINAL_PATH)
DATE_WHEN_CONFIGURED=`LANG=C date`
AC_SUBST(DATE_WHEN_CONFIGURED)
AC_MSG_NOTICE([Configuration created at $DATE_WHEN_CONFIGURED.])
AC_MSG_NOTICE([configure script generated at timestamp $DATE_WHEN_GENERATED.])
])
# Test that variable $1 denoting a program is not empty. If empty, exit with an error.
# $1: variable to check
AC_DEFUN([BASIC_CHECK_NONEMPTY],
[
if test "x[$]$1" = x; then
AC_MSG_ERROR([Could not find required tool for $1])
fi
])
# Check that there are no unprocessed overridden variables left.
# If so, they are an incorrect argument and we will exit with an error.
AC_DEFUN([BASIC_CHECK_LEFTOVER_OVERRIDDEN],
[
if test "x$CONFIGURE_OVERRIDDEN_VARIABLES" != x; then
# Replace the separating ! with spaces before presenting for end user.
unknown_variables=${CONFIGURE_OVERRIDDEN_VARIABLES//!/ }
AC_MSG_WARN([The following variables might be unknown to configure: $unknown_variables])
fi
])
# Setup a tool for the given variable. If correctly specified by the user,
# use that value, otherwise search for the tool using the supplied code snippet.
# $1: variable to set
# $2: code snippet to call to look for the tool
# $3: code snippet to call if variable was used to find tool
AC_DEFUN([BASIC_SETUP_TOOL],
[
# Publish this variable in the help.
AC_ARG_VAR($1, [Override default value for $1])
if [[ -z "${$1+x}" ]]; then
# The variable is not set by user, try to locate tool using the code snippet
$2
else
# The variable is set, but is it from the command line or the environment?
# Try to remove the string !$1! from our list.
try_remove_var=${CONFIGURE_OVERRIDDEN_VARIABLES//!$1!/}
if test "x$try_remove_var" = "x$CONFIGURE_OVERRIDDEN_VARIABLES"; then
# If it failed, the variable was not from the command line. Ignore it,
# but warn the user (except for BASH, which is always set by the calling BASH).
if test "x$1" != xBASH; then
AC_MSG_WARN([Ignoring value of $1 from the environment. Use command line variables instead.])
fi
# Try to locate tool using the code snippet
$2
else
# If it succeeded, then it was overridden by the user. We will use it
# for the tool.
# First remove it from the list of overridden variables, so we can test
# for unknown variables in the end.
CONFIGURE_OVERRIDDEN_VARIABLES="$try_remove_var"
# Check if we try to supply an empty value
if test "x[$]$1" = x; then
AC_MSG_NOTICE([Setting user supplied tool $1= (no value)])
AC_MSG_CHECKING([for $1])
AC_MSG_RESULT([disabled])
else
# Check if the provided tool contains a complete path.
tool_specified="[$]$1"
tool_basename="${tool_specified##*/}"
if test "x$tool_basename" = "x$tool_specified"; then
# A command without a complete path is provided, search $PATH.
AC_MSG_NOTICE([Will search for user supplied tool $1=$tool_basename])
AC_PATH_PROG($1, $tool_basename)
if test "x[$]$1" = x; then
AC_MSG_ERROR([User supplied tool $tool_basename could not be found])
fi
else
# Otherwise we believe it is a complete path. Use it as it is.
AC_MSG_NOTICE([Will use user supplied tool $1=$tool_specified])
AC_MSG_CHECKING([for $1])
if test ! -x "$tool_specified"; then
AC_MSG_RESULT([not found])
AC_MSG_ERROR([User supplied tool $1=$tool_specified does not exist or is not executable])
fi
AC_MSG_RESULT([$tool_specified])
fi
fi
fi
$3
fi
])
# Call BASIC_SETUP_TOOL with AC_PATH_PROGS to locate the tool
# $1: variable to set
# $2: executable name (or list of names) to look for
# $3: [path]
AC_DEFUN([BASIC_PATH_PROGS],
[
BASIC_SETUP_TOOL($1, [AC_PATH_PROGS($1, $2, , $3)])
])
# Call BASIC_SETUP_TOOL with AC_CHECK_TOOLS to locate the tool
# $1: variable to set
# $2: executable name (or list of names) to look for
AC_DEFUN([BASIC_CHECK_TOOLS],
[
BASIC_SETUP_TOOL($1, [AC_CHECK_TOOLS($1, $2)])
])
# Like BASIC_PATH_PROGS but fails if no tool was found.
# $1: variable to set
# $2: executable name (or list of names) to look for
# $3: [path]
AC_DEFUN([BASIC_REQUIRE_PROGS],
[
BASIC_PATH_PROGS($1, $2, , $3)
BASIC_CHECK_NONEMPTY($1)
])
# Like BASIC_SETUP_TOOL but fails if no tool was found.
# $1: variable to set
# $2: autoconf macro to call to look for the special tool
AC_DEFUN([BASIC_REQUIRE_SPECIAL],
[
BASIC_SETUP_TOOL($1, [$2])
BASIC_CHECK_NONEMPTY($1)
])
# Setup the most fundamental tools that relies on not much else to set up,
# but is used by much of the early bootstrap code.
AC_DEFUN_ONCE([BASIC_SETUP_FUNDAMENTAL_TOOLS],
[
# Start with tools that do not need have cross compilation support
# and can be expected to be found in the default PATH. These tools are
# used by configure.
# First are all the simple required tools.
BASIC_REQUIRE_PROGS(BASENAME, basename)
BASIC_REQUIRE_PROGS(BASH, bash)
BASIC_REQUIRE_PROGS(CAT, cat)
BASIC_REQUIRE_PROGS(CHMOD, chmod)
BASIC_REQUIRE_PROGS(CMP, cmp)
BASIC_REQUIRE_PROGS(COMM, comm)
BASIC_REQUIRE_PROGS(CP, cp)
BASIC_REQUIRE_PROGS(CUT, cut)
BASIC_REQUIRE_PROGS(DATE, date)
BASIC_REQUIRE_PROGS(DIFF, [gdiff diff])
BASIC_REQUIRE_PROGS(DIRNAME, dirname)
BASIC_REQUIRE_PROGS(ECHO, echo)
BASIC_REQUIRE_PROGS(EXPR, expr)
BASIC_REQUIRE_PROGS(FILE, file)
BASIC_REQUIRE_PROGS(FIND, find)
BASIC_REQUIRE_PROGS(HEAD, head)
BASIC_REQUIRE_PROGS(GUNZIP, gunzip)
BASIC_REQUIRE_PROGS(GZIP, pigz gzip)
BASIC_REQUIRE_PROGS(LN, ln)
BASIC_REQUIRE_PROGS(LS, ls)
BASIC_REQUIRE_PROGS(MKDIR, mkdir)
BASIC_REQUIRE_PROGS(MKTEMP, mktemp)
BASIC_REQUIRE_PROGS(MV, mv)
BASIC_REQUIRE_PROGS(NAWK, [nawk gawk awk])
BASIC_REQUIRE_PROGS(PRINTF, printf)
BASIC_REQUIRE_PROGS(RM, rm)
BASIC_REQUIRE_PROGS(RMDIR, rmdir)
BASIC_REQUIRE_PROGS(SH, sh)
BASIC_REQUIRE_PROGS(SORT, sort)
BASIC_REQUIRE_PROGS(TAIL, tail)
BASIC_REQUIRE_PROGS(TAR, gtar tar)
BASIC_REQUIRE_PROGS(TEE, tee)
BASIC_REQUIRE_PROGS(TOUCH, touch)
BASIC_REQUIRE_PROGS(TR, tr)
BASIC_REQUIRE_PROGS(UNAME, uname)
BASIC_REQUIRE_PROGS(UNIQ, uniq)
BASIC_REQUIRE_PROGS(WC, wc)
BASIC_REQUIRE_PROGS(WHICH, which)
BASIC_REQUIRE_PROGS(XARGS, xargs)
# Then required tools that require some special treatment.
BASIC_REQUIRE_SPECIAL(AWK, [AC_PROG_AWK])
BASIC_REQUIRE_SPECIAL(GREP, [AC_PROG_GREP])
BASIC_REQUIRE_SPECIAL(EGREP, [AC_PROG_EGREP])
BASIC_REQUIRE_SPECIAL(FGREP, [AC_PROG_FGREP])
BASIC_REQUIRE_SPECIAL(SED, [AC_PROG_SED])
# Always force rm.
RM="$RM -f"
# pwd behaves differently on various platforms and some don't support the -L flag.
# Always use the bash builtin pwd to get uniform behavior.
THEPWDCMD=pwd
# These are not required on all platforms
BASIC_PATH_PROGS(CYGPATH, cygpath)
BASIC_PATH_PROGS(READLINK, [greadlink readlink])
BASIC_PATH_PROGS(DF, df)
BASIC_PATH_PROGS(CPIO, [cpio bsdcpio])
BASIC_PATH_PROGS(NICE, nice)
])
# Setup basic configuration paths, and platform-specific stuff related to PATHs.
AC_DEFUN_ONCE([BASIC_SETUP_PATHS],
[
# Save the current directory this script was started from
CURDIR="$PWD"
# We might need to rewrite ORIGINAL_PATH, if it includes "#", to quote them
# for make. We couldn't do this when we retrieved ORIGINAL_PATH, since SED
# was not available at that time.
REWRITTEN_PATH=`$ECHO "$ORIGINAL_PATH" | $SED -e 's/#/\\\\#/g'`
if test "x$REWRITTEN_PATH" != "x$ORIGINAL_PATH"; then
ORIGINAL_PATH="$REWRITTEN_PATH"
AC_MSG_NOTICE([Rewriting ORIGINAL_PATH to $REWRITTEN_PATH])
fi
if test "x$OPENJDK_TARGET_OS" = "xwindows"; then
PATH_SEP=";"
BASIC_CHECK_PATHS_WINDOWS
else
PATH_SEP=":"
fi
AC_SUBST(PATH_SEP)
# We get the top-level directory from the supporting wrappers.
AC_MSG_CHECKING([for top-level directory])
AC_MSG_RESULT([$TOPDIR])
AC_SUBST(TOPDIR)
# Save the original version of TOPDIR for string comparisons
ORIGINAL_TOPDIR="$TOPDIR"
AC_SUBST(ORIGINAL_TOPDIR)
# We can only call BASIC_FIXUP_PATH after BASIC_CHECK_PATHS_WINDOWS.
BASIC_FIXUP_PATH(CURDIR)
BASIC_FIXUP_PATH(TOPDIR)
# SRC_ROOT is a traditional alias for TOPDIR.
SRC_ROOT=$TOPDIR
# Calculate a canonical version of TOPDIR for string comparisons
CANONICAL_TOPDIR=$TOPDIR
BASIC_REMOVE_SYMBOLIC_LINKS([CANONICAL_TOPDIR])
AC_SUBST(CANONICAL_TOPDIR)
# Locate the directory of this script.
AUTOCONF_DIR=$TOPDIR/common/autoconf
# Setup username (for use in adhoc version strings etc)
# Outer [ ] to quote m4.
[ USERNAME=`$ECHO "$USER" | $TR -d -c '[a-z][A-Z][0-9]'` ]
AC_SUBST(USERNAME)
])
# Evaluates platform specific overrides for devkit variables.
# $1: Name of variable
AC_DEFUN([BASIC_EVAL_DEVKIT_VARIABLE],
[
if test "x[$]$1" = x; then
eval $1="\${$1_${OPENJDK_TARGET_CPU}}"
fi
])
AC_DEFUN_ONCE([BASIC_SETUP_DEVKIT],
[
AC_ARG_WITH([devkit], [AS_HELP_STRING([--with-devkit],
[use this devkit for compilers, tools and resources])],
[
BASIC_FIXUP_PATH([with_devkit])
DEVKIT_ROOT="$with_devkit"
# Check for a meta data info file in the root of the devkit
if test -f "$DEVKIT_ROOT/devkit.info"; then
. $DEVKIT_ROOT/devkit.info
# This potentially sets the following:
# A descriptive name of the devkit
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_NAME])
# Corresponds to --with-extra-path
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_EXTRA_PATH])
# Corresponds to --with-toolchain-path
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_TOOLCHAIN_PATH])
# Corresponds to --with-sysroot
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_SYSROOT])
# Identifies the Visual Studio version in the devkit
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_VS_VERSION])
# The Visual Studio include environment variable
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_VS_INCLUDE])
# The Visual Studio lib environment variable
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_VS_LIB])
# Corresponds to --with-msvcr-dll
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_MSVCR_DLL])
# Corresponds to --with-msvcp-dll
BASIC_EVAL_DEVKIT_VARIABLE([DEVKIT_MSVCP_DLL])
fi
AC_MSG_CHECKING([for devkit])
if test "x$DEVKIT_NAME" != x; then
AC_MSG_RESULT([$DEVKIT_NAME in $DEVKIT_ROOT])
else
AC_MSG_RESULT([$DEVKIT_ROOT])
fi
BASIC_PREPEND_TO_PATH([EXTRA_PATH],$DEVKIT_EXTRA_PATH)
# Fallback default of just /bin if DEVKIT_PATH is not defined
if test "x$DEVKIT_TOOLCHAIN_PATH" = x; then
DEVKIT_TOOLCHAIN_PATH="$DEVKIT_ROOT/bin"
fi
BASIC_PREPEND_TO_PATH([TOOLCHAIN_PATH],$DEVKIT_TOOLCHAIN_PATH)
# If DEVKIT_SYSROOT is set, use that, otherwise try a couple of known
# places for backwards compatiblity.
if test "x$DEVKIT_SYSROOT" != x; then
SYSROOT="$DEVKIT_SYSROOT"
elif test -d "$DEVKIT_ROOT/$host_alias/libc"; then
SYSROOT="$DEVKIT_ROOT/$host_alias/libc"
elif test -d "$DEVKIT_ROOT/$host/sys-root"; then
SYSROOT="$DEVKIT_ROOT/$host/sys-root"
fi
]
)
# You can force the sysroot if the sysroot encoded into the compiler tools
# is not correct.
AC_ARG_WITH(sys-root, [AS_HELP_STRING([--with-sys-root],
[alias for --with-sysroot for backwards compatability])],
[SYSROOT=$with_sys_root]
)
AC_ARG_WITH(sysroot, [AS_HELP_STRING([--with-sysroot],
[use this directory as sysroot])],
[SYSROOT=$with_sysroot]
)
AC_ARG_WITH([tools-dir], [AS_HELP_STRING([--with-tools-dir],
[alias for --with-toolchain-path for backwards compatibility])],
[BASIC_PREPEND_TO_PATH([TOOLCHAIN_PATH],$with_tools_dir)]
)
AC_ARG_WITH([toolchain-path], [AS_HELP_STRING([--with-toolchain-path],
[prepend these directories when searching for toolchain binaries (compilers etc)])],
[BASIC_PREPEND_TO_PATH([TOOLCHAIN_PATH],$with_toolchain_path)]
)
AC_ARG_WITH([extra-path], [AS_HELP_STRING([--with-extra-path],
[prepend these directories to the default path])],
[BASIC_PREPEND_TO_PATH([EXTRA_PATH],$with_extra_path)]
)
if test "x$OPENJDK_BUILD_OS" = "xmacosx"; then
# If a devkit has been supplied, find xcodebuild in the toolchain_path.
# If not, detect if Xcode is installed by running xcodebuild -version
# if no Xcode installed, xcodebuild exits with 1
# if Xcode is installed, even if xcode-select is misconfigured, then it exits with 0
if test "x$DEVKIT_ROOT" != x || /usr/bin/xcodebuild -version >/dev/null 2>&1; then
# We need to use xcodebuild in the toolchain dir provided by the user, this will
# fall back on the stub binary in /usr/bin/xcodebuild
AC_PATH_PROG([XCODEBUILD], [xcodebuild], [/usr/bin/xcodebuild], [$TOOLCHAIN_PATH])
else
# this should result in SYSROOT being empty, unless --with-sysroot is provided
# when only the command line tools are installed there are no SDKs, so headers
# are copied into the system frameworks
XCODEBUILD=
AC_SUBST(XCODEBUILD)
fi
AC_MSG_CHECKING([for sdk name])
AC_ARG_WITH([sdk-name], [AS_HELP_STRING([--with-sdk-name],
[use the platform SDK of the given name. @<:@macosx@:>@])],
[SDKNAME=$with_sdk_name]
)
AC_MSG_RESULT([$SDKNAME])
# if toolchain path is specified then don't rely on system headers, they may not compile
HAVE_SYSTEM_FRAMEWORK_HEADERS=0
test -z "$TOOLCHAIN_PATH" && \
HAVE_SYSTEM_FRAMEWORK_HEADERS=`test ! -f /System/Library/Frameworks/Foundation.framework/Headers/Foundation.h; echo $?`
if test -z "$SYSROOT"; then
if test -n "$XCODEBUILD"; then
# if we don't have system headers, use default SDK name (last resort)
if test -z "$SDKNAME" -a $HAVE_SYSTEM_FRAMEWORK_HEADERS -eq 0; then
SDKNAME=${SDKNAME:-macosx}
fi
if test -n "$SDKNAME"; then
# Call xcodebuild to determine SYSROOT
SYSROOT=`"$XCODEBUILD" -sdk $SDKNAME -version | $GREP '^Path: ' | $SED 's/Path: //'`
fi
else
if test $HAVE_SYSTEM_FRAMEWORK_HEADERS -eq 0; then
AC_MSG_ERROR([No xcodebuild tool and no system framework headers found, use --with-sysroot or --with-sdk-name to provide a path to a valid SDK])
fi
fi
else
# warn user if --with-sdk-name was also set
if test -n "$with_sdk_name"; then
AC_MSG_WARN([Both SYSROOT and --with-sdk-name are set, only SYSROOT will be used])
fi
fi
if test $HAVE_SYSTEM_FRAMEWORK_HEADERS -eq 0 -a -z "$SYSROOT"; then
# If no system framework headers, then SYSROOT must be set, or we won't build
AC_MSG_ERROR([Unable to determine SYSROOT and no headers found in /System/Library/Frameworks. Check Xcode configuration, --with-sysroot or --with-sdk-name arguments.])
fi
# Perform a basic sanity test
if test ! -f "$SYSROOT/System/Library/Frameworks/Foundation.framework/Headers/Foundation.h"; then
if test -z "$SYSROOT"; then
AC_MSG_ERROR([Unable to find required framework headers, provide a path to an SDK via --with-sysroot or --with-sdk-name and be sure Xcode is installed properly])
else
AC_MSG_ERROR([Invalid SDK or SYSROOT path, dependent framework headers not found])
fi
fi
# set SDKROOT too, Xcode tools will pick it up
AC_SUBST(SDKROOT,$SYSROOT)
fi
# Prepend the extra path to the global path
BASIC_PREPEND_TO_PATH([PATH],$EXTRA_PATH)
AC_MSG_CHECKING([for sysroot])
AC_MSG_RESULT([$SYSROOT])
AC_MSG_CHECKING([for toolchain path])
AC_MSG_RESULT([$TOOLCHAIN_PATH])
AC_MSG_CHECKING([for extra path])
AC_MSG_RESULT([$EXTRA_PATH])
])
AC_DEFUN_ONCE([BASIC_SETUP_OUTPUT_DIR],
[
AC_ARG_WITH(conf-name, [AS_HELP_STRING([--with-conf-name],
[use this as the name of the configuration @<:@generated from important configuration options@:>@])],
[ CONF_NAME=${with_conf_name} ])
# Test from where we are running configure, in or outside of src root.
AC_MSG_CHECKING([where to store configuration])
if test "x$CURDIR" = "x$SRC_ROOT" || test "x$CURDIR" = "x$SRC_ROOT/common" \
|| test "x$CURDIR" = "x$SRC_ROOT/common/autoconf" \
|| test "x$CURDIR" = "x$SRC_ROOT/make" ; then
# We are running configure from the src root.
# Create a default ./build/target-variant-debuglevel output root.
if test "x${CONF_NAME}" = x; then
AC_MSG_RESULT([in default location])
CONF_NAME="${OPENJDK_TARGET_OS}-${OPENJDK_TARGET_CPU}-${JDK_VARIANT}-${JVM_VARIANTS_WITH_AND}-${DEBUG_LEVEL}"
else
AC_MSG_RESULT([in build directory with custom name])
fi
OUTPUT_ROOT="$SRC_ROOT/build/${CONF_NAME}"
$MKDIR -p "$OUTPUT_ROOT"
if test ! -d "$OUTPUT_ROOT"; then
AC_MSG_ERROR([Could not create build directory $OUTPUT_ROOT])
fi
else
# We are running configure from outside of the src dir.
# Then use the current directory as output dir!
# If configuration is situated in normal build directory, just use the build
# directory name as configuration name, otherwise use the complete path.
if test "x${CONF_NAME}" = x; then
CONF_NAME=`$ECHO $CURDIR | $SED -e "s!^${SRC_ROOT}/build/!!"`
fi
OUTPUT_ROOT="$CURDIR"
AC_MSG_RESULT([in current directory])
# WARNING: This might be a bad thing to do. You need to be sure you want to
# have a configuration in this directory. Do some sanity checks!
if test ! -e "$OUTPUT_ROOT/spec.gmk"; then
# If we have a spec.gmk, we have run here before and we are OK. Otherwise, check for
# other files
files_present=`$LS $OUTPUT_ROOT`
# Configure has already touched config.log and confdefs.h in the current dir when this check
# is performed.
filtered_files=`$ECHO "$files_present" \
| $SED -e 's/config.log//g' \
-e 's/configure.log//g' \
-e 's/confdefs.h//g' \
-e 's/ //g' \
| $TR -d '\n'`
if test "x$filtered_files" != x; then
AC_MSG_NOTICE([Current directory is $CURDIR.])
AC_MSG_NOTICE([Since this is not the source root, configure will output the configuration here])
AC_MSG_NOTICE([(as opposed to creating a configuration in <src_root>/build/<conf-name>).])
AC_MSG_NOTICE([However, this directory is not empty. This is not allowed, since it could])
AC_MSG_NOTICE([seriously mess up just about everything.])
AC_MSG_NOTICE([Try 'cd $SRC_ROOT' and restart configure])
AC_MSG_NOTICE([(or create a new empty directory and cd to it).])
AC_MSG_ERROR([Will not continue creating configuration in $CURDIR])
fi
fi
fi
AC_MSG_CHECKING([what configuration name to use])
AC_MSG_RESULT([$CONF_NAME])
BASIC_FIXUP_PATH(OUTPUT_ROOT)
CONFIGURESUPPORT_OUTPUTDIR="$OUTPUT_ROOT/configure-support"
$MKDIR -p "$CONFIGURESUPPORT_OUTPUTDIR"
AC_SUBST(SPEC, $OUTPUT_ROOT/spec.gmk)
AC_SUBST(CONF_NAME, $CONF_NAME)
AC_SUBST(OUTPUT_ROOT, $OUTPUT_ROOT)
AC_SUBST(CONFIGURESUPPORT_OUTPUTDIR)
# The spec.gmk file contains all variables for the make system.
AC_CONFIG_FILES([$OUTPUT_ROOT/spec.gmk:$AUTOCONF_DIR/spec.gmk.in])
# The bootcycle-spec.gmk file contains support for boot cycle builds.
AC_CONFIG_FILES([$OUTPUT_ROOT/bootcycle-spec.gmk:$AUTOCONF_DIR/bootcycle-spec.gmk.in])
# The buildjdk-spec.gmk file contains support for building a buildjdk when cross compiling.
AC_CONFIG_FILES([$OUTPUT_ROOT/buildjdk-spec.gmk:$AUTOCONF_DIR/buildjdk-spec.gmk.in])
# The compare.sh is used to compare the build output to other builds.
AC_CONFIG_FILES([$OUTPUT_ROOT/compare.sh:$AUTOCONF_DIR/compare.sh.in])
# The generated Makefile knows where the spec.gmk is and where the source is.
# You can run make from the OUTPUT_ROOT, or from the top-level Makefile
# which will look for generated configurations
AC_CONFIG_FILES([$OUTPUT_ROOT/Makefile:$AUTOCONF_DIR/Makefile.in])
])
#%%% Simple tools %%%
# Check if we have found a usable version of make
# $1: the path to a potential make binary (or empty)
# $2: the description on how we found this
AC_DEFUN([BASIC_CHECK_MAKE_VERSION],
[
MAKE_CANDIDATE="$1"
DESCRIPTION="$2"
# On Cygwin, we require a newer version of make than on other platforms
if test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.cygwin"; then
MAKE_VERSION_EXPR="-e 4\."
MAKE_REQUIRED_VERSION="4.0"
else
MAKE_VERSION_EXPR="-e 3\.8[[12]] -e 4\."
MAKE_REQUIRED_VERSION="3.81"
fi
if test "x$MAKE_CANDIDATE" != x; then
AC_MSG_NOTICE([Testing potential make at $MAKE_CANDIDATE, found using $DESCRIPTION])
MAKE_VERSION_STRING=`$MAKE_CANDIDATE --version | $HEAD -n 1`
IS_GNU_MAKE=`$ECHO $MAKE_VERSION_STRING | $GREP 'GNU Make'`
if test "x$IS_GNU_MAKE" = x; then
AC_MSG_NOTICE([Found potential make at $MAKE_CANDIDATE, however, this is not GNU Make. Ignoring.])
else
IS_MODERN_MAKE=`$ECHO $MAKE_VERSION_STRING | $GREP $MAKE_VERSION_EXPR`
if test "x$IS_MODERN_MAKE" = x; then
AC_MSG_NOTICE([Found GNU make at $MAKE_CANDIDATE, however this is not version $MAKE_REQUIRED_VERSION or later. (it is: $MAKE_VERSION_STRING). Ignoring.])
else
if test "x$OPENJDK_BUILD_OS" = "xwindows"; then
if test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.cygwin"; then
MAKE_EXPECTED_ENV='cygwin'
elif test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.msys"; then
MAKE_EXPECTED_ENV='msys'
else
AC_MSG_ERROR([Unknown Windows environment])
fi
MAKE_BUILT_FOR=`$MAKE_CANDIDATE --version | $GREP -i 'built for'`
IS_MAKE_CORRECT_ENV=`$ECHO $MAKE_BUILT_FOR | $GREP $MAKE_EXPECTED_ENV`
else
# Not relevant for non-Windows
IS_MAKE_CORRECT_ENV=true
fi
if test "x$IS_MAKE_CORRECT_ENV" = x; then
AC_MSG_NOTICE([Found GNU make version $MAKE_VERSION_STRING at $MAKE_CANDIDATE, but it is not for $MAKE_EXPECTED_ENV (it says: $MAKE_BUILT_FOR). Ignoring.])
else
FOUND_MAKE=$MAKE_CANDIDATE
BASIC_FIXUP_EXECUTABLE(FOUND_MAKE)
fi
fi
fi
fi
])
AC_DEFUN([BASIC_CHECK_MAKE_OUTPUT_SYNC],
[
# Check if make supports the output sync option and if so, setup using it.
AC_MSG_CHECKING([if make --output-sync is supported])
if $MAKE --version -O > /dev/null 2>&1; then
OUTPUT_SYNC_SUPPORTED=true
AC_MSG_RESULT([yes])
AC_MSG_CHECKING([for output-sync value])
AC_ARG_WITH([output-sync], [AS_HELP_STRING([--with-output-sync],
[set make output sync type if supported by make. @<:@recurse@:>@])],
[OUTPUT_SYNC=$with_output_sync])
if test "x$OUTPUT_SYNC" = "x"; then
OUTPUT_SYNC=none
fi
AC_MSG_RESULT([$OUTPUT_SYNC])
if ! $MAKE --version -O$OUTPUT_SYNC > /dev/null 2>&1; then
AC_MSG_ERROR([Make did not the support the value $OUTPUT_SYNC as output sync type.])
fi
else
OUTPUT_SYNC_SUPPORTED=false
AC_MSG_RESULT([no])
fi
AC_SUBST(OUTPUT_SYNC_SUPPORTED)
AC_SUBST(OUTPUT_SYNC)
])
# Goes looking for a usable version of GNU make.
AC_DEFUN([BASIC_CHECK_GNU_MAKE],
[
BASIC_SETUP_TOOL([MAKE],
[
# Try our hardest to locate a correct version of GNU make
AC_PATH_PROGS(CHECK_GMAKE, gmake)
BASIC_CHECK_MAKE_VERSION("$CHECK_GMAKE", [gmake in PATH])
if test "x$FOUND_MAKE" = x; then
AC_PATH_PROGS(CHECK_MAKE, make)
BASIC_CHECK_MAKE_VERSION("$CHECK_MAKE", [make in PATH])
fi
if test "x$FOUND_MAKE" = x; then
if test "x$TOOLCHAIN_PATH" != x; then
# We have a toolchain path, check that as well before giving up.
OLD_PATH=$PATH
PATH=$TOOLCHAIN_PATH:$PATH
AC_PATH_PROGS(CHECK_TOOLSDIR_GMAKE, gmake)
BASIC_CHECK_MAKE_VERSION("$CHECK_TOOLSDIR_GMAKE", [gmake in tools-dir])
if test "x$FOUND_MAKE" = x; then
AC_PATH_PROGS(CHECK_TOOLSDIR_MAKE, make)
BASIC_CHECK_MAKE_VERSION("$CHECK_TOOLSDIR_MAKE", [make in tools-dir])
fi
PATH=$OLD_PATH
fi
fi
if test "x$FOUND_MAKE" = x; then
AC_MSG_ERROR([Cannot find GNU make $MAKE_REQUIRED_VERSION or newer! Please put it in the path, or add e.g. MAKE=/opt/gmake3.81/make as argument to configure.])
fi
],[
# If MAKE was set by user, verify the version
BASIC_CHECK_MAKE_VERSION("$MAKE", [user supplied MAKE=$MAKE])
if test "x$FOUND_MAKE" = x; then
AC_MSG_ERROR([The specified make (by MAKE=$MAKE) is not GNU make $MAKE_REQUIRED_VERSION or newer.])
fi
])
MAKE=$FOUND_MAKE
AC_SUBST(MAKE)
AC_MSG_NOTICE([Using GNU make at $FOUND_MAKE (version: $MAKE_VERSION_STRING)])
BASIC_CHECK_MAKE_OUTPUT_SYNC
])
AC_DEFUN([BASIC_CHECK_FIND_DELETE],
[
# Test if find supports -delete
AC_MSG_CHECKING([if find supports -delete])
FIND_DELETE="-delete"
DELETEDIR=`$MKTEMP -d tmp.XXXXXXXXXX` || (echo Could not create temporary directory!; exit $?)
echo Hejsan > $DELETEDIR/TestIfFindSupportsDelete
TEST_DELETE=`$FIND "$DELETEDIR" -name TestIfFindSupportsDelete $FIND_DELETE 2>&1`
if test -f $DELETEDIR/TestIfFindSupportsDelete; then
# No, it does not.
$RM $DELETEDIR/TestIfFindSupportsDelete
if test "x$OPENJDK_TARGET_OS" = "xaix"; then
# AIX 'find' is buggy if called with '-exec {} \+' and an empty file list
FIND_DELETE="-print | $XARGS $RM"
else
FIND_DELETE="-exec $RM \{\} \+"
fi
AC_MSG_RESULT([no])
else
AC_MSG_RESULT([yes])
fi
$RMDIR $DELETEDIR
AC_SUBST(FIND_DELETE)
])
AC_DEFUN([BASIC_CHECK_TAR],
[
# Test which kind of tar was found
if test "x$($TAR --version | $GREP "GNU tar")" != "x"; then
TAR_TYPE="gnu"
elif test "x$($TAR --version | $GREP "bsdtar")" != "x"; then
TAR_TYPE="bsd"
elif test "x$($TAR -v | $GREP "bsdtar")" != "x"; then
TAR_TYPE="bsd"
elif test "x$OPENJDK_BUILD_OS" = "xsolaris"; then
TAR_TYPE="solaris"
fi
AC_MSG_CHECKING([what type of tar was found])
AC_MSG_RESULT([$TAR_TYPE])
TAR_CREATE_FILE_PARAM=""
if test "x$TAR_TYPE" = "xgnu"; then
TAR_INCLUDE_PARAM="T"
TAR_SUPPORTS_TRANSFORM="true"
if test "x$OPENJDK_TARGET_OS" = "xsolaris"; then
# When using gnu tar for Solaris targets, need to use compatibility mode
TAR_CREATE_EXTRA_PARAM="--format=ustar"
fi
else
TAR_INCLUDE_PARAM="I"
TAR_SUPPORTS_TRANSFORM="false"
fi
AC_SUBST(TAR_TYPE)
AC_SUBST(TAR_CREATE_EXTRA_PARAM)
AC_SUBST(TAR_INCLUDE_PARAM)
AC_SUBST(TAR_SUPPORTS_TRANSFORM)
])
AC_DEFUN([BASIC_CHECK_GREP],
[
# Test that grep supports -Fx with a list of pattern which includes null pattern.
# This is a problem for the grep resident on AIX.
AC_MSG_CHECKING([that grep ($GREP) -Fx handles empty lines in the pattern list correctly])
# Multiple subsequent spaces..
STACK_SPACES='aaa bbb ccc'
# ..converted to subsequent newlines, causes STACK_LIST to be a list with some empty
# patterns in it.
STACK_LIST=${STACK_SPACES// /$'\n'}
NEEDLE_SPACES='ccc bbb aaa'
NEEDLE_LIST=${NEEDLE_SPACES// /$'\n'}
RESULT="$($GREP -Fvx "$STACK_LIST" <<< "$NEEDLE_LIST")"
if test "x$RESULT" == "x"; then
AC_MSG_RESULT([yes])
else
if test "x$OPENJDK_TARGET_OS" = "xaix"; then
ADDINFO="Please make sure you use GNU grep, usually found at /opt/freeware/bin."
fi
AC_MSG_ERROR([grep does not handle -Fx correctly. ${ADDINFO}])
fi
])
AC_DEFUN_ONCE([BASIC_SETUP_COMPLEX_TOOLS],
[
BASIC_CHECK_GNU_MAKE
BASIC_CHECK_FIND_DELETE
BASIC_CHECK_TAR
BASIC_CHECK_GREP
# These tools might not be installed by default,
# need hint on how to install them.
BASIC_REQUIRE_PROGS(UNZIP, unzip)
# Since zip uses "ZIP" as a environment variable for passing options, we need
# to name our variable differently, hence ZIPEXE.
BASIC_REQUIRE_PROGS(ZIPEXE, zip)
# Non-required basic tools
BASIC_PATH_PROGS(LDD, ldd)
if test "x$LDD" = "x"; then
# List shared lib dependencies is used for
# debug output and checking for forbidden dependencies.
# We can build without it.
LDD="true"
fi
BASIC_PATH_PROGS(OTOOL, otool)
if test "x$OTOOL" = "x"; then
OTOOL="true"
fi
BASIC_PATH_PROGS(READELF, [greadelf readelf])
BASIC_PATH_PROGS(HG, hg)
BASIC_PATH_PROGS(STAT, stat)
BASIC_PATH_PROGS(TIME, time)
# Dtrace is usually found in /usr/sbin on Solaris, but that directory may not
# be in the user path.
BASIC_PATH_PROGS(DTRACE, dtrace, $PATH:/usr/sbin)
BASIC_PATH_PROGS(PATCH, [gpatch patch])
# Check if it's GNU time
IS_GNU_TIME=`$TIME --version 2>&1 | $GREP 'GNU time'`
if test "x$IS_GNU_TIME" != x; then
IS_GNU_TIME=yes
else
IS_GNU_TIME=no
fi
AC_SUBST(IS_GNU_TIME)
if test "x$OPENJDK_TARGET_OS" = "xmacosx"; then
BASIC_REQUIRE_PROGS(DSYMUTIL, dsymutil)
BASIC_REQUIRE_PROGS(XATTR, xattr)
BASIC_PATH_PROGS(CODESIGN, codesign)
if test "x$CODESIGN" != "x"; then
# Verify that the openjdk_codesign certificate is present
AC_MSG_CHECKING([if openjdk_codesign certificate is present])
$RM codesign-testfile
$TOUCH codesign-testfile
$CODESIGN -s openjdk_codesign codesign-testfile 2>&AS_MESSAGE_LOG_FD >&AS_MESSAGE_LOG_FD || CODESIGN=
$RM codesign-testfile
if test "x$CODESIGN" = x; then
AC_MSG_RESULT([no])
else
AC_MSG_RESULT([yes])
fi
fi
BASIC_REQUIRE_PROGS(SETFILE, SetFile)
fi
])
# Check if build directory is on local disk. If not possible to determine,
# we prefer to claim it's local.
# Argument 1: directory to test
# Argument 2: what to do if it is on local disk
# Argument 3: what to do otherwise (remote disk or failure)
AC_DEFUN([BASIC_CHECK_DIR_ON_LOCAL_DISK],
[
# df -l lists only local disks; if the given directory is not found then
# a non-zero exit code is given
if test "x$DF" = x; then
if test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.msys"; then
# msys does not have df; use Windows "net use" instead.
IS_NETWORK_DISK=`net use | grep \`pwd -W | cut -d ":" -f 1 | tr a-z A-Z\`:`
if test "x$IS_NETWORK_DISK" = x; then
$2
else
$3
fi
else
# No df here, say it's local
$2
fi
else
if $DF -l $1 > /dev/null 2>&1; then
$2
else
$3
fi
fi
])
# Check that source files have basic read permissions set. This might
# not be the case in cygwin in certain conditions.
AC_DEFUN_ONCE([BASIC_CHECK_SRC_PERMS],
[
if test "x$OPENJDK_BUILD_OS_ENV" = "xwindows.cygwin"; then
file_to_test="$SRC_ROOT/LICENSE"
if test `$STAT -c '%a' "$file_to_test"` -lt 400; then
AC_MSG_ERROR([Bad file permissions on src files. This is usually caused by cloning the repositories with a non cygwin hg in a directory not created in cygwin.])
fi
fi
])
AC_DEFUN_ONCE([BASIC_TEST_USABILITY_ISSUES],
[
# Did user specify any unknown variables?
BASIC_CHECK_LEFTOVER_OVERRIDDEN
AC_MSG_CHECKING([if build directory is on local disk])
BASIC_CHECK_DIR_ON_LOCAL_DISK($OUTPUT_ROOT,
[OUTPUT_DIR_IS_LOCAL="yes"],
[OUTPUT_DIR_IS_LOCAL="no"])
AC_MSG_RESULT($OUTPUT_DIR_IS_LOCAL)
BASIC_CHECK_SRC_PERMS
# Check if the user has any old-style ALT_ variables set.
FOUND_ALT_VARIABLES=`env | grep ^ALT_`
# Before generating output files, test if they exist. If they do, this is a reconfigure.
# Since we can't properly handle the dependencies for this, warn the user about the situation
if test -e $OUTPUT_ROOT/spec.gmk; then
IS_RECONFIGURE=yes
else
IS_RECONFIGURE=no
fi
])
# Check for support for specific options in bash
AC_DEFUN_ONCE([BASIC_CHECK_BASH_OPTIONS],
[
# Test if bash supports pipefail.
AC_MSG_CHECKING([if bash supports pipefail])
if ${BASH} -c 'set -o pipefail'; then
BASH_ARGS="$BASH_ARGS -o pipefail"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
AC_MSG_CHECKING([if bash supports errexit (-e)])
if ${BASH} -e -c 'true'; then
BASH_ARGS="$BASH_ARGS -e"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
AC_SUBST(BASH_ARGS)
])
################################################################################
#
# Default make target
#
AC_DEFUN_ONCE([BASIC_SETUP_DEFAULT_MAKE_TARGET],
[
AC_ARG_WITH(default-make-target, [AS_HELP_STRING([--with-default-make-target],
[set the default make target @<:@exploded-image@:>@])])
if test "x$with_default_make_target" = "x" \
|| test "x$with_default_make_target" = "xyes"; then
DEFAULT_MAKE_TARGET="exploded-image"
elif test "x$with_default_make_target" = "xno"; then
AC_MSG_ERROR([--without-default-make-target is not a valid option])
else
DEFAULT_MAKE_TARGET="$with_default_make_target"
fi
AC_SUBST(DEFAULT_MAKE_TARGET)
])
# Code to run after AC_OUTPUT
AC_DEFUN_ONCE([BASIC_POST_CONFIG_OUTPUT],
[
# Try to move config.log (generated by autoconf) to the configure-support directory.
if test -e ./config.log; then
$MV -f ./config.log "$CONFIGURESUPPORT_OUTPUTDIR/config.log" 2> /dev/null
fi
# Rotate our log file (configure.log)
if test -e "$OUTPUT_ROOT/configure.log.old"; then
$RM -f "$OUTPUT_ROOT/configure.log.old"
fi
if test -e "$OUTPUT_ROOT/configure.log"; then
$MV -f "$OUTPUT_ROOT/configure.log" "$OUTPUT_ROOT/configure.log.old" 2> /dev/null
fi
# Move configure.log from current directory to the build output root
if test -e ./configure.log; then
$MV -f ./configure.log "$OUTPUT_ROOT/configure.log" 2> /dev/null
fi
# Make the compare script executable
$CHMOD +x $OUTPUT_ROOT/compare.sh
])