############################################################################### # Copyright (C) 2007-2010 Lawrence Livermore National Security, LLC. # Copyright (C) 2007 The Regents of the University of California. # Written by Brian Behlendorf . ############################################################################### # SPL_AC_CONFIG_KERNEL: Default SPL kernel configuration. ############################################################################### AC_DEFUN([SPL_AC_CONFIG_KERNEL], [ SPL_AC_KERNEL if test "${LINUX_OBJ}" != "${LINUX}"; then KERNELMAKE_PARAMS="$KERNELMAKE_PARAMS O=$LINUX_OBJ" fi AC_SUBST(KERNELMAKE_PARAMS) KERNELCPPFLAGS="$KERNELCPPFLAGS -Wstrict-prototypes" AC_SUBST(KERNELCPPFLAGS) SPL_AC_DEBUG SPL_AC_DEBUG_LOG SPL_AC_DEBUG_KMEM SPL_AC_DEBUG_KMEM_TRACKING SPL_AC_TEST_MODULE SPL_AC_ATOMIC_SPINLOCK SPL_AC_SHRINKER_CALLBACK SPL_AC_CTL_NAME SPL_AC_PDE_DATA SPL_AC_MUTEX_OWNER SPL_AC_MUTEX_OWNER_TASK_STRUCT SPL_AC_SET_FS_PWD_WITH_CONST SPL_AC_2ARGS_VFS_UNLINK SPL_AC_4ARGS_VFS_RENAME SPL_AC_VFS_FSYNC SPL_AC_2ARGS_VFS_FSYNC SPL_AC_INODE_TRUNCATE_RANGE SPL_AC_FS_STRUCT_SPINLOCK SPL_AC_KUIDGID_T SPL_AC_PUT_TASK_STRUCT SPL_AC_EXPORTED_RWSEM_IS_LOCKED SPL_AC_KERNEL_FALLOCATE SPL_AC_CONFIG_ZLIB_INFLATE SPL_AC_CONFIG_ZLIB_DEFLATE SPL_AC_2ARGS_ZLIB_DEFLATE_WORKSPACESIZE SPL_AC_SHRINK_CONTROL_STRUCT SPL_AC_RWSEM_SPINLOCK_IS_RAW SPL_AC_SCHED_RT_HEADER SPL_AC_2ARGS_VFS_GETATTR SPL_AC_USLEEP_RANGE SPL_AC_KMEM_CACHE_ALLOCFLAGS SPL_AC_WAIT_ON_BIT ]) AC_DEFUN([SPL_AC_MODULE_SYMVERS], [ modpost=$LINUX/scripts/Makefile.modpost AC_MSG_CHECKING([kernel file name for module symbols]) if test "x$enable_linux_builtin" != xyes -a -f "$modpost"; then if grep -q Modules.symvers $modpost; then LINUX_SYMBOLS=Modules.symvers else LINUX_SYMBOLS=Module.symvers fi if ! test -f "$LINUX_OBJ/$LINUX_SYMBOLS"; then AC_MSG_ERROR([ *** Please make sure the kernel devel package for your distribution *** is installed. If you are building with a custom kernel, make sure the *** kernel is configured, built, and the '--with-linux=PATH' configure *** option refers to the location of the kernel source.]) fi else LINUX_SYMBOLS=NONE fi AC_MSG_RESULT($LINUX_SYMBOLS) AC_SUBST(LINUX_SYMBOLS) ]) AC_DEFUN([SPL_AC_KERNEL], [ AC_ARG_WITH([linux], AS_HELP_STRING([--with-linux=PATH], [Path to kernel source]), [kernelsrc="$withval"]) AC_ARG_WITH([linux-obj], AS_HELP_STRING([--with-linux-obj=PATH], [Path to kernel build objects]), [kernelbuild="$withval"]) AC_MSG_CHECKING([kernel source directory]) if test -z "$kernelsrc"; then if test -e "/lib/modules/$(uname -r)/source"; then headersdir="/lib/modules/$(uname -r)/source" sourcelink=$(readlink -f "$headersdir") elif test -e "/lib/modules/$(uname -r)/build"; then headersdir="/lib/modules/$(uname -r)/build" sourcelink=$(readlink -f "$headersdir") else sourcelink=$(ls -1d /usr/src/kernels/* \ /usr/src/linux-* \ 2>/dev/null | grep -v obj | tail -1) fi if test -n "$sourcelink" && test -e ${sourcelink}; then kernelsrc=`readlink -f ${sourcelink}` else kernelsrc="[Not found]" fi else if test "$kernelsrc" = "NONE"; then kernsrcver=NONE fi fi AC_MSG_RESULT([$kernelsrc]) if test ! -d "$kernelsrc"; then AC_MSG_ERROR([ *** Please make sure the kernel devel package for your distribution *** is installed and then try again. If that fails, you can specify the *** location of the kernel source with the '--with-linux=PATH' option.]) fi AC_MSG_CHECKING([kernel build directory]) if test -z "$kernelbuild"; then if test -e "/lib/modules/$(uname -r)/build"; then kernelbuild=`readlink -f /lib/modules/$(uname -r)/build` elif test -d ${kernelsrc}-obj/${target_cpu}/${target_cpu}; then kernelbuild=${kernelsrc}-obj/${target_cpu}/${target_cpu} elif test -d ${kernelsrc}-obj/${target_cpu}/default; then kernelbuild=${kernelsrc}-obj/${target_cpu}/default elif test -d `dirname ${kernelsrc}`/build-${target_cpu}; then kernelbuild=`dirname ${kernelsrc}`/build-${target_cpu} else kernelbuild=${kernelsrc} fi fi AC_MSG_RESULT([$kernelbuild]) AC_MSG_CHECKING([kernel source version]) utsrelease1=$kernelbuild/include/linux/version.h utsrelease2=$kernelbuild/include/linux/utsrelease.h utsrelease3=$kernelbuild/include/generated/utsrelease.h if test -r $utsrelease1 && fgrep -q UTS_RELEASE $utsrelease1; then utsrelease=linux/version.h elif test -r $utsrelease2 && fgrep -q UTS_RELEASE $utsrelease2; then utsrelease=linux/utsrelease.h elif test -r $utsrelease3 && fgrep -q UTS_RELEASE $utsrelease3; then utsrelease=generated/utsrelease.h fi if test "$utsrelease"; then kernsrcver=`(echo "#include <$utsrelease>"; echo "kernsrcver=UTS_RELEASE") | cpp -I $kernelbuild/include | grep "^kernsrcver=" | cut -d \" -f 2` if test -z "$kernsrcver"; then AC_MSG_RESULT([Not found]) AC_MSG_ERROR([*** Cannot determine kernel version.]) fi else AC_MSG_RESULT([Not found]) if test "x$enable_linux_builtin" != xyes; then AC_MSG_ERROR([*** Cannot find UTS_RELEASE definition.]) else AC_MSG_ERROR([ *** Cannot find UTS_RELEASE definition. *** Please run 'make prepare' inside the kernel source tree.]) fi fi AC_MSG_RESULT([$kernsrcver]) LINUX=${kernelsrc} LINUX_OBJ=${kernelbuild} LINUX_VERSION=${kernsrcver} AC_SUBST(LINUX) AC_SUBST(LINUX_OBJ) AC_SUBST(LINUX_VERSION) SPL_AC_MODULE_SYMVERS ]) dnl # dnl # Default SPL user configuration dnl # AC_DEFUN([SPL_AC_CONFIG_USER], []) dnl # dnl # Check for rpm+rpmbuild to build RPM packages. If these tools dnl # are missing, it is non-fatal, but you will not be able to build dnl # RPM packages and will be warned if you try too. dnl # dnl # By default, the generic spec file will be used because it requires dnl # minimal dependencies. Distribution specific spec files can be dnl # placed under the 'rpm/' directory and enabled using dnl # the --with-spec= configure option. dnl # AC_DEFUN([SPL_AC_RPM], [ RPM=rpm RPMBUILD=rpmbuild AC_MSG_CHECKING([whether $RPM is available]) AS_IF([tmp=$($RPM --version 2>/dev/null)], [ RPM_VERSION=$(echo $tmp | $AWK '/RPM/ { print $[3] }') HAVE_RPM=yes AC_MSG_RESULT([$HAVE_RPM ($RPM_VERSION)]) ],[ HAVE_RPM=no AC_MSG_RESULT([$HAVE_RPM]) ]) AC_MSG_CHECKING([whether $RPMBUILD is available]) AS_IF([tmp=$($RPMBUILD --version 2>/dev/null)], [ RPMBUILD_VERSION=$(echo $tmp | $AWK '/RPM/ { print $[3] }') HAVE_RPMBUILD=yes AC_MSG_RESULT([$HAVE_RPMBUILD ($RPMBUILD_VERSION)]) ],[ HAVE_RPMBUILD=no AC_MSG_RESULT([$HAVE_RPMBUILD]) ]) RPM_DEFINE_COMMON='--define "$(DEBUG_SPL) 1" --define "$(DEBUG_LOG) 1" --define "$(DEBUG_KMEM) 1" --define "$(DEBUG_KMEM_TRACKING) 1"' RPM_DEFINE_UTIL= RPM_DEFINE_KMOD='--define "kernels $(LINUX_VERSION)"' RPM_DEFINE_DKMS= SRPM_DEFINE_COMMON='--define "build_src_rpm 1"' SRPM_DEFINE_UTIL= SRPM_DEFINE_KMOD= SRPM_DEFINE_DKMS= RPM_SPEC_DIR="rpm/generic" AC_ARG_WITH([spec], AS_HELP_STRING([--with-spec=SPEC], [Spec files 'generic|fedora']), [RPM_SPEC_DIR="rpm/$withval"]) AC_MSG_CHECKING([whether spec files are available]) AC_MSG_RESULT([yes ($RPM_SPEC_DIR/*.spec.in)]) AC_SUBST(HAVE_RPM) AC_SUBST(RPM) AC_SUBST(RPM_VERSION) AC_SUBST(HAVE_RPMBUILD) AC_SUBST(RPMBUILD) AC_SUBST(RPMBUILD_VERSION) AC_SUBST(RPM_SPEC_DIR) AC_SUBST(RPM_DEFINE_UTIL) AC_SUBST(RPM_DEFINE_KMOD) AC_SUBST(RPM_DEFINE_DKMS) AC_SUBST(RPM_DEFINE_COMMON) AC_SUBST(SRPM_DEFINE_UTIL) AC_SUBST(SRPM_DEFINE_KMOD) AC_SUBST(SRPM_DEFINE_DKMS) AC_SUBST(SRPM_DEFINE_COMMON) ]) dnl # dnl # Check for dpkg+dpkg-buildpackage to build DEB packages. If these dnl # tools are missing it is non-fatal but you will not be able to build dnl # DEB packages and will be warned if you try too. dnl # AC_DEFUN([SPL_AC_DPKG], [ DPKG=dpkg DPKGBUILD=dpkg-buildpackage AC_MSG_CHECKING([whether $DPKG is available]) AS_IF([tmp=$($DPKG --version 2>/dev/null)], [ DPKG_VERSION=$(echo $tmp | $AWK '/Debian/ { print $[7] }') HAVE_DPKG=yes AC_MSG_RESULT([$HAVE_DPKG ($DPKG_VERSION)]) ],[ HAVE_DPKG=no AC_MSG_RESULT([$HAVE_DPKG]) ]) AC_MSG_CHECKING([whether $DPKGBUILD is available]) AS_IF([tmp=$($DPKGBUILD --version 2>/dev/null)], [ DPKGBUILD_VERSION=$(echo $tmp | \ $AWK '/Debian/ { print $[4] }' | cut -f-4 -d'.') HAVE_DPKGBUILD=yes AC_MSG_RESULT([$HAVE_DPKGBUILD ($DPKGBUILD_VERSION)]) ],[ HAVE_DPKGBUILD=no AC_MSG_RESULT([$HAVE_DPKGBUILD]) ]) AC_SUBST(HAVE_DPKG) AC_SUBST(DPKG) AC_SUBST(DPKG_VERSION) AC_SUBST(HAVE_DPKGBUILD) AC_SUBST(DPKGBUILD) AC_SUBST(DPKGBUILD_VERSION) ]) dnl # dnl # Until native packaging for various different packing systems dnl # can be added the least we can do is attempt to use alien to dnl # convert the RPM packages to the needed package type. This is dnl # a hack but so far it has worked reasonable well. dnl # AC_DEFUN([SPL_AC_ALIEN], [ ALIEN=alien AC_MSG_CHECKING([whether $ALIEN is available]) AS_IF([tmp=$($ALIEN --version 2>/dev/null)], [ ALIEN_VERSION=$(echo $tmp | $AWK '{ print $[3] }') HAVE_ALIEN=yes AC_MSG_RESULT([$HAVE_ALIEN ($ALIEN_VERSION)]) ],[ HAVE_ALIEN=no AC_MSG_RESULT([$HAVE_ALIEN]) ]) AC_SUBST(HAVE_ALIEN) AC_SUBST(ALIEN) AC_SUBST(ALIEN_VERSION) ]) dnl # dnl # Using the VENDOR tag from config.guess set the default dnl # package type for 'make pkg': (rpm | deb | tgz) dnl # AC_DEFUN([SPL_AC_DEFAULT_PACKAGE], [ AC_MSG_CHECKING([linux distribution]) if test -f /etc/toss-release ; then VENDOR=toss ; elif test -f /etc/fedora-release ; then VENDOR=fedora ; elif test -f /etc/redhat-release ; then VENDOR=redhat ; elif test -f /etc/gentoo-release ; then VENDOR=gentoo ; elif test -f /etc/arch-release ; then VENDOR=arch ; elif test -f /etc/SuSE-release ; then VENDOR=sles ; elif test -f /etc/slackware-version ; then VENDOR=slackware ; elif test -f /etc/lunar.release ; then VENDOR=lunar ; elif test -f /etc/lsb-release ; then VENDOR=ubuntu ; elif test -f /etc/debian_version ; then VENDOR=debian ; else VENDOR= ; fi AC_MSG_RESULT([$VENDOR]) AC_SUBST(VENDOR) AC_MSG_CHECKING([default package type]) case "$VENDOR" in toss) DEFAULT_PACKAGE=rpm ;; redhat) DEFAULT_PACKAGE=rpm ;; fedora) DEFAULT_PACKAGE=rpm ;; gentoo) DEFAULT_PACKAGE=tgz ;; arch) DEFAULT_PACKAGE=tgz ;; sles) DEFAULT_PACKAGE=rpm ;; slackware) DEFAULT_PACKAGE=tgz ;; lunar) DEFAULT_PACKAGE=tgz ;; ubuntu) DEFAULT_PACKAGE=deb ;; debian) DEFAULT_PACKAGE=deb ;; *) DEFAULT_PACKAGE=rpm ;; esac AC_MSG_RESULT([$DEFAULT_PACKAGE]) AC_SUBST(DEFAULT_PACKAGE) ]) dnl # dnl # Default SPL user configuration dnl # AC_DEFUN([SPL_AC_PACKAGE], [ SPL_AC_DEFAULT_PACKAGE SPL_AC_RPM SPL_AC_DPKG SPL_AC_ALIEN ]) AC_DEFUN([SPL_AC_LICENSE], [ AC_MSG_CHECKING([spl author]) AC_MSG_RESULT([$SPL_META_AUTHOR]) AC_MSG_CHECKING([spl license]) AC_MSG_RESULT([$SPL_META_LICENSE]) ]) AC_DEFUN([SPL_AC_CONFIG], [ SPL_CONFIG=all AC_ARG_WITH([config], AS_HELP_STRING([--with-config=CONFIG], [Config file 'kernel|user|all|srpm']), [SPL_CONFIG="$withval"]) AC_ARG_ENABLE([linux-builtin], [AC_HELP_STRING([--enable-linux-builtin], [Configure for builtin in-tree kernel modules @<:@default=no@:>@])], [], [enable_linux_builtin=no]) AC_MSG_CHECKING([spl config]) AC_MSG_RESULT([$SPL_CONFIG]); AC_SUBST(SPL_CONFIG) case "$SPL_CONFIG" in kernel) SPL_AC_CONFIG_KERNEL ;; user) SPL_AC_CONFIG_USER ;; all) SPL_AC_CONFIG_KERNEL SPL_AC_CONFIG_USER ;; srpm) ;; *) AC_MSG_RESULT([Error!]) AC_MSG_ERROR([Bad value "$SPL_CONFIG" for --with-config, user kernel|user|all|srpm]) ;; esac AM_CONDITIONAL([CONFIG_USER], [test "$SPL_CONFIG" = user -o "$SPL_CONFIG" = all]) AM_CONDITIONAL([CONFIG_KERNEL], [test "$SPL_CONFIG" = kernel -o "$SPL_CONFIG" = all] && [test "x$enable_linux_builtin" != xyes ]) ]) dnl # dnl # Enable if the SPL should be compiled with internal debugging enabled. dnl # By default this support is disabled. dnl # AC_DEFUN([SPL_AC_DEBUG], [ AC_MSG_CHECKING([whether debugging is enabled]) AC_ARG_ENABLE([debug], [AS_HELP_STRING([--enable-debug], [Enable generic debug support @<:@default=no@:>@])], [], [enable_debug=no]) AS_IF([test "x$enable_debug" = xyes], [ KERNELCPPFLAGS="${KERNELCPPFLAGS} -DDEBUG -Werror" DEBUG_CFLAGS="-DDEBUG -Werror" DEBUG_SPL="_with_debug" ], [ KERNELCPPFLAGS="${KERNELCPPFLAGS} -DNDEBUG" DEBUG_CFLAGS="-DNDEBUG" DEBUG_SPL="_without_debug" ]) AC_SUBST(DEBUG_CFLAGS) AC_SUBST(DEBUG_SPL) AC_MSG_RESULT([$enable_debug]) ]) dnl # dnl # Enabled by default it provides a basic debug log infrastructure. dnl # Each subsystem registers itself with a name and logs messages dnl # using predefined types. If the debug mask it set to allow the dnl # message type it will be written to the internal log. The log dnl # can be dumped to a file by echoing 1 to the 'dump' proc entry, dnl # after dumping the log it must be decoded using the spl utility. dnl # dnl # echo 1 >/proc/sys/kernel/spl/debug/dump dnl # spl /tmp/spl-log.xxx.yyy /tmp/spl-log.xxx.yyy.txt dnl # AC_DEFUN([SPL_AC_DEBUG_LOG], [ AC_ARG_ENABLE([debug-log], [AS_HELP_STRING([--enable-debug-log], [Enable basic debug logging @<:@default=yes@:>@])], [], [enable_debug_log=yes]) AS_IF([test "x$enable_debug_log" = xyes], [ KERNELCPPFLAGS="${KERNELCPPFLAGS} -DDEBUG_LOG" DEBUG_LOG="_with_debug_log" AC_DEFINE([DEBUG_LOG], [1], [Define to 1 to enable basic debug logging]) ], [ DEBUG_LOG="_without_debug_log" ]) AC_SUBST(DEBUG_LOG) AC_MSG_CHECKING([whether basic debug logging is enabled]) AC_MSG_RESULT([$enable_debug_log]) ]) dnl # dnl # Enabled by default it provides a minimal level of memory tracking. dnl # A total count of bytes allocated is kept for each alloc and free. dnl # Then at module unload time a report to the console will be printed dnl # if memory was leaked. Additionally, /proc/spl/kmem/slab will exist dnl # and provide an easy way to inspect the kmem based slab. dnl # AC_DEFUN([SPL_AC_DEBUG_KMEM], [ AC_ARG_ENABLE([debug-kmem], [AS_HELP_STRING([--enable-debug-kmem], [Enable basic kmem accounting @<:@default=yes@:>@])], [], [enable_debug_kmem=yes]) AS_IF([test "x$enable_debug_kmem" = xyes], [ KERNELCPPFLAGS="${KERNELCPPFLAGS} -DDEBUG_KMEM" DEBUG_KMEM="_with_debug_kmem" AC_DEFINE([DEBUG_KMEM], [1], [Define to 1 to enable basic kmem accounting]) ], [ DEBUG_KMEM="_without_debug_kmem" ]) AC_SUBST(DEBUG_KMEM) AC_MSG_CHECKING([whether basic kmem accounting is enabled]) AC_MSG_RESULT([$enable_debug_kmem]) ]) dnl # dnl # Disabled by default it provides detailed memory tracking. This dnl # feature also requires --enable-debug-kmem to be set. When enabled dnl # not only will total bytes be tracked but also the location of every dnl # alloc and free. When the SPL module is unloaded a list of all leaked dnl # addresses and where they were allocated will be dumped to the console. dnl # Enabling this feature has a significant impact on performance but it dnl # makes finding memory leaks pretty straight forward. dnl # AC_DEFUN([SPL_AC_DEBUG_KMEM_TRACKING], [ AC_ARG_ENABLE([debug-kmem-tracking], [AS_HELP_STRING([--enable-debug-kmem-tracking], [Enable detailed kmem tracking @<:@default=no@:>@])], [], [enable_debug_kmem_tracking=no]) AS_IF([test "x$enable_debug_kmem_tracking" = xyes], [ KERNELCPPFLAGS="${KERNELCPPFLAGS} -DDEBUG_KMEM_TRACKING" DEBUG_KMEM_TRACKING="_with_debug_kmem_tracking" AC_DEFINE([DEBUG_KMEM_TRACKING], [1], [Define to 1 to enable detailed kmem tracking]) ], [ DEBUG_KMEM_TRACKING="_without_debug_kmem_tracking" ]) AC_SUBST(DEBUG_KMEM_TRACKING) AC_MSG_CHECKING([whether detailed kmem tracking is enabled]) AC_MSG_RESULT([$enable_debug_kmem_tracking]) ]) dnl # dnl # SPL_LINUX_CONFTEST dnl # AC_DEFUN([SPL_LINUX_CONFTEST], [ cat confdefs.h - <<_ACEOF >conftest.c $1 _ACEOF ]) dnl # dnl # SPL_LANG_PROGRAM(C)([PROLOGUE], [BODY]) dnl # m4_define([SPL_LANG_PROGRAM], [ $1 int main (void) { dnl Do *not* indent the following line: there may be CPP directives. dnl Don't move the `;' right after for the same reason. $2 ; return 0; } ]) dnl # dnl # SPL_LINUX_COMPILE_IFELSE / like AC_COMPILE_IFELSE dnl # AC_DEFUN([SPL_LINUX_COMPILE_IFELSE], [ m4_ifvaln([$1], [SPL_LINUX_CONFTEST([$1])]) rm -Rf build && mkdir -p build && touch build/conftest.mod.c echo "obj-m := conftest.o" >build/Makefile modpost_flag='' test "x$enable_linux_builtin" = xyes && modpost_flag='modpost=true' # fake modpost stage AS_IF( [AC_TRY_COMMAND(cp conftest.c build && make [$2] -C $LINUX_OBJ EXTRA_CFLAGS="-Werror-implicit-function-declaration $EXTRA_KCFLAGS" $ARCH_UM M=$PWD/build $modpost_flag) >/dev/null && AC_TRY_COMMAND([$3])], [$4], [_AC_MSG_LOG_CONFTEST m4_ifvaln([$5],[$5])] ) rm -Rf build ]) dnl # dnl # SPL_LINUX_TRY_COMPILE like AC_TRY_COMPILE dnl # AC_DEFUN([SPL_LINUX_TRY_COMPILE], [SPL_LINUX_COMPILE_IFELSE( [AC_LANG_SOURCE([SPL_LANG_PROGRAM([[$1]], [[$2]])])], [modules], [test -s build/conftest.o], [$3], [$4]) ]) dnl # dnl # SPL_CHECK_SYMBOL_EXPORT dnl # check symbol exported or not dnl # AC_DEFUN([SPL_CHECK_SYMBOL_EXPORT], [ grep -q -E '[[[:space:]]]$1[[[:space:]]]' \ $LINUX_OBJ/Module*.symvers 2>/dev/null rc=$? if test $rc -ne 0; then export=0 for file in $2; do grep -q -E "EXPORT_SYMBOL.*($1)" \ "$LINUX_OBJ/$file" 2>/dev/null rc=$? if test $rc -eq 0; then export=1 break; fi done if test $export -eq 0; then : $4 else : $3 fi else : $3 fi ]) dnl # dnl # SPL_LINUX_TRY_COMPILE_SYMBOL dnl # like SPL_LINUX_TRY_COMPILE, except SPL_CHECK_SYMBOL_EXPORT dnl # is called if not compiling for builtin dnl # AC_DEFUN([SPL_LINUX_TRY_COMPILE_SYMBOL], [ SPL_LINUX_TRY_COMPILE([$1], [$2], [rc=0], [rc=1]) if test $rc -ne 0; then : $6 else if test "x$enable_linux_builtin" != xyes; then SPL_CHECK_SYMBOL_EXPORT([$3], [$4], [rc=0], [rc=1]) fi if test $rc -ne 0; then : $6 else : $5 fi fi ]) dnl # dnl # SPL_CHECK_SYMBOL_HEADER dnl # check if a symbol prototype is defined in listed headers. dnl # AC_DEFUN([SPL_CHECK_SYMBOL_HEADER], [ AC_MSG_CHECKING([whether symbol $1 exists in header]) header=0 for file in $3; do grep -q "$2" "$LINUX/$file" 2>/dev/null rc=$? if test $rc -eq 0; then header=1 break; fi done if test $header -eq 0; then AC_MSG_RESULT([no]) $5 else AC_MSG_RESULT([yes]) $4 fi ]) dnl # dnl # SPL_CHECK_HEADER dnl # check whether header exists and define HAVE_$2_HEADER dnl # AC_DEFUN([SPL_CHECK_HEADER], [AC_MSG_CHECKING([whether header $1 exists]) SPL_LINUX_TRY_COMPILE([ #include <$1> ],[ return 0; ],[ AC_DEFINE(HAVE_$2_HEADER, 1, [$1 exists]) AC_MSG_RESULT(yes) $3 ],[ AC_MSG_RESULT(no) $4 ]) ]) dnl # dnl # Basic toolchain sanity check. Verify that kernel modules can dnl # be built and which symbols can be used. dnl # AC_DEFUN([SPL_AC_TEST_MODULE], [AC_MSG_CHECKING([whether modules can be built]) SPL_LINUX_TRY_COMPILE([],[],[ AC_MSG_RESULT([yes]) ],[ AC_MSG_RESULT([no]) if test "x$enable_linux_builtin" != xyes; then AC_MSG_ERROR([*** Unable to build an empty module.]) else AC_MSG_ERROR([ *** Unable to build an empty module. *** Please run 'make scripts' inside the kernel source tree.]) fi ]) AC_RUN_IFELSE([ AC_LANG_PROGRAM([ #include "$LINUX/include/linux/license.h" ], [ return !license_is_gpl_compatible("$SPL_META_LICENSE"); ]) ], [ AC_DEFINE([SPL_IS_GPL_COMPATIBLE], [1], [Define to 1 if GPL-only symbols can be used]) ], [ ]) ]) dnl # dnl # Use the atomic implemenation based on global spinlocks. This dnl # should only be needed by 32-bit kernels which do not provide dnl # the atomic64_* API. It may be optionally enabled as a fallback dnl # if problems are observed with the direct mapping to the native dnl # Linux atomic operations. You may not disable atomic spinlocks dnl # if you kernel does not an atomic64_* API. dnl # AC_DEFUN([SPL_AC_ATOMIC_SPINLOCK], [ AC_ARG_ENABLE([atomic-spinlocks], [AS_HELP_STRING([--enable-atomic-spinlocks], [Atomic types use spinlocks @<:@default=check@:>@])], [], [enable_atomic_spinlocks=check]) SPL_LINUX_TRY_COMPILE([ #include ],[ atomic64_t *ptr __attribute__ ((unused)); ],[ have_atomic64_t=yes AC_DEFINE(HAVE_ATOMIC64_T, 1, [kernel defines atomic64_t]) ],[ have_atomic64_t=no ]) AS_IF([test "x$enable_atomic_spinlocks" = xcheck], [ AS_IF([test "x$have_atomic64_t" = xyes], [ enable_atomic_spinlocks=no ],[ enable_atomic_spinlocks=yes ]) ]) AS_IF([test "x$enable_atomic_spinlocks" = xyes], [ AC_DEFINE([ATOMIC_SPINLOCK], [1], [Atomic types use spinlocks]) ],[ AS_IF([test "x$have_atomic64_t" = xno], [ AC_MSG_FAILURE( [--disable-atomic-spinlocks given but required atomic64 support is unavailable]) ]) ]) AC_MSG_CHECKING([whether atomic types use spinlocks]) AC_MSG_RESULT([$enable_atomic_spinlocks]) AC_MSG_CHECKING([whether kernel defines atomic64_t]) AC_MSG_RESULT([$have_atomic64_t]) ]) AC_DEFUN([SPL_AC_SHRINKER_CALLBACK],[ tmp_flags="$EXTRA_KCFLAGS" EXTRA_KCFLAGS="-Werror" dnl # dnl # 2.6.23 to 2.6.34 API change dnl # ->shrink(int nr_to_scan, gfp_t gfp_mask) dnl # AC_MSG_CHECKING([whether old 2-argument shrinker exists]) SPL_LINUX_TRY_COMPILE([ #include int shrinker_cb(int nr_to_scan, gfp_t gfp_mask); ],[ struct shrinker cache_shrinker = { .shrink = shrinker_cb, .seeks = DEFAULT_SEEKS, }; register_shrinker(&cache_shrinker); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_2ARGS_OLD_SHRINKER_CALLBACK, 1, [old shrinker callback wants 2 args]) ],[ AC_MSG_RESULT(no) dnl # dnl # 2.6.35 - 2.6.39 API change dnl # ->shrink(struct shrinker *, dnl # int nr_to_scan, gfp_t gfp_mask) dnl # AC_MSG_CHECKING([whether old 3-argument shrinker exists]) SPL_LINUX_TRY_COMPILE([ #include int shrinker_cb(struct shrinker *, int nr_to_scan, gfp_t gfp_mask); ],[ struct shrinker cache_shrinker = { .shrink = shrinker_cb, .seeks = DEFAULT_SEEKS, }; register_shrinker(&cache_shrinker); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_3ARGS_SHRINKER_CALLBACK, 1, [old shrinker callback wants 3 args]) ],[ AC_MSG_RESULT(no) dnl # dnl # 3.0 - 3.11 API change dnl # ->shrink(struct shrinker *, dnl # struct shrink_control *sc) dnl # AC_MSG_CHECKING( [whether new 2-argument shrinker exists]) SPL_LINUX_TRY_COMPILE([ #include int shrinker_cb(struct shrinker *, struct shrink_control *sc); ],[ struct shrinker cache_shrinker = { .shrink = shrinker_cb, .seeks = DEFAULT_SEEKS, }; register_shrinker(&cache_shrinker); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_2ARGS_NEW_SHRINKER_CALLBACK, 1, [new shrinker callback wants 2 args]) ],[ AC_MSG_RESULT(no) dnl # dnl # 3.12 API change, dnl # ->shrink() is logically split in to dnl # ->count_objects() and ->scan_objects() dnl # AC_MSG_CHECKING( [whether ->count_objects callback exists]) SPL_LINUX_TRY_COMPILE([ #include unsigned long shrinker_cb( struct shrinker *, struct shrink_control *sc); ],[ struct shrinker cache_shrinker = { .count_objects = shrinker_cb, .scan_objects = shrinker_cb, .seeks = DEFAULT_SEEKS, }; register_shrinker(&cache_shrinker); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_SPLIT_SHRINKER_CALLBACK, 1, [->count_objects exists]) ],[ AC_MSG_ERROR(error) ]) ]) ]) ]) EXTRA_KCFLAGS="$tmp_flags" ]) dnl # dnl # 2.6.33 API change, dnl # Removed .ctl_name from struct ctl_table. dnl # AC_DEFUN([SPL_AC_CTL_NAME], [ AC_MSG_CHECKING([whether struct ctl_table has ctl_name]) SPL_LINUX_TRY_COMPILE([ #include ],[ struct ctl_table ctl __attribute__ ((unused)); ctl.ctl_name = 0; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_CTL_NAME, 1, [struct ctl_table has ctl_name]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.29 API change, dnl # Adaptive mutexs were introduced which track the mutex owner. The dnl # mutex wrappers leverage this functionality to avoid tracking the dnl # owner multipe times. dnl # AC_DEFUN([SPL_AC_MUTEX_OWNER], [ AC_MSG_CHECKING([whether struct mutex has owner]) SPL_LINUX_TRY_COMPILE([ #include ],[ struct mutex mtx __attribute__ ((unused)); mtx.owner = NULL; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_MUTEX_OWNER, 1, [struct mutex has owner]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.39 API change, dnl # Owner type change. A Linux mutex prior to 2.6.39 would store dnl # the owner as a thread_info pointer when CONFIG_DEBUG_MUTEXES dnl # was defined. As of 2.6.39 this was changed to a task_struct dnl # pointer which frankly makes a lot more sense. dnl # AC_DEFUN([SPL_AC_MUTEX_OWNER_TASK_STRUCT], [ AC_MSG_CHECKING([whether struct mutex owner is a task_struct]) tmp_flags="$EXTRA_KCFLAGS" EXTRA_KCFLAGS="-Werror" SPL_LINUX_TRY_COMPILE([ #include #include ],[ struct mutex mtx __attribute__ ((unused)); mtx.owner = current; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_MUTEX_OWNER_TASK_STRUCT, 1, [struct mutex owner is a task_struct]) ],[ AC_MSG_RESULT(no) ]) EXTRA_KCFLAGS="$tmp_flags" ]) dnl # dnl # 3.10 API change, dnl # PDE is replaced by PDE_DATA dnl # AC_DEFUN([SPL_AC_PDE_DATA], [ AC_MSG_CHECKING([whether PDE_DATA() is available]) SPL_LINUX_TRY_COMPILE_SYMBOL([ #include ], [ PDE_DATA(NULL); ], [PDE_DATA], [], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_PDE_DATA, 1, [yes]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 3.9 API change dnl # set_fs_pwd takes const struct path * dnl # AC_DEFUN([SPL_AC_SET_FS_PWD_WITH_CONST], tmp_flags="$EXTRA_KCFLAGS" EXTRA_KCFLAGS="-Werror" [AC_MSG_CHECKING([whether set_fs_pwd() requires const struct path *]) SPL_LINUX_TRY_COMPILE([ #include #include #include void (*const set_fs_pwd_func) (struct fs_struct *, const struct path *) = set_fs_pwd; ],[ return 0; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_SET_FS_PWD_WITH_CONST, 1, [set_fs_pwd() needs const path *]) ],[ SPL_LINUX_TRY_COMPILE([ #include #include #include void (*const set_fs_pwd_func) (struct fs_struct *, struct path *) = set_fs_pwd; ],[ return 0; ],[ AC_MSG_RESULT(no) ],[ AC_MSG_ERROR(unknown) ]) ]) EXTRA_KCFLAGS="$tmp_flags" ]) dnl # dnl # 3.13 API change dnl # vfs_unlink() updated to take a third delegated_inode argument. dnl # AC_DEFUN([SPL_AC_2ARGS_VFS_UNLINK], [AC_MSG_CHECKING([whether vfs_unlink() wants 2 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_unlink((struct inode *) NULL, (struct dentry *) NULL); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_2ARGS_VFS_UNLINK, 1, [vfs_unlink() wants 2 args]) ],[ AC_MSG_RESULT(no) dnl # dnl # Linux 3.13 API change dnl # Added delegated inode dnl # AC_MSG_CHECKING([whether vfs_unlink() wants 3 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_unlink((struct inode *) NULL, (struct dentry *) NULL, (struct inode **) NULL); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_3ARGS_VFS_UNLINK, 1, [vfs_unlink() wants 3 args]) ],[ AC_MSG_ERROR(no) ]) ]) ]) dnl # dnl # 3.13 and 3.15 API changes dnl # Added delegated inode and flags argument. dnl # AC_DEFUN([SPL_AC_4ARGS_VFS_RENAME], [AC_MSG_CHECKING([whether vfs_rename() wants 4 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_rename((struct inode *) NULL, (struct dentry *) NULL, (struct inode *) NULL, (struct dentry *) NULL); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_4ARGS_VFS_RENAME, 1, [vfs_rename() wants 4 args]) ],[ AC_MSG_RESULT(no) dnl # dnl # Linux 3.13 API change dnl # Added delegated inode dnl # AC_MSG_CHECKING([whether vfs_rename() wants 5 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_rename((struct inode *) NULL, (struct dentry *) NULL, (struct inode *) NULL, (struct dentry *) NULL, (struct inode **) NULL); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_5ARGS_VFS_RENAME, 1, [vfs_rename() wants 5 args]) ],[ AC_MSG_RESULT(no) dnl # dnl # Linux 3.15 API change dnl # Added flags dnl # AC_MSG_CHECKING([whether vfs_rename() wants 6 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_rename((struct inode *) NULL, (struct dentry *) NULL, (struct inode *) NULL, (struct dentry *) NULL, (struct inode **) NULL, (unsigned int) 0); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_6ARGS_VFS_RENAME, 1, [vfs_rename() wants 6 args]) ],[ AC_MSG_ERROR(no) ]) ]) ]) ]) dnl # dnl # 2.6.36 API change, dnl # The 'struct fs_struct->lock' was changed from a rwlock_t to dnl # a spinlock_t to improve the fastpath performance. dnl # AC_DEFUN([SPL_AC_FS_STRUCT_SPINLOCK], [ AC_MSG_CHECKING([whether struct fs_struct uses spinlock_t]) tmp_flags="$EXTRA_KCFLAGS" EXTRA_KCFLAGS="-Werror" SPL_LINUX_TRY_COMPILE([ #include #include ],[ struct fs_struct fs; spin_lock_init(&fs.lock); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_FS_STRUCT_SPINLOCK, 1, [struct fs_struct uses spinlock_t]) ],[ AC_MSG_RESULT(no) ]) EXTRA_KCFLAGS="$tmp_flags" ]) dnl # dnl # User namespaces, use kuid_t in place of uid_t dnl # where available. Not strictly a user namespaces thing dnl # but it should prevent surprises dnl # AC_DEFUN([SPL_AC_KUIDGID_T], [ AC_MSG_CHECKING([whether kuid_t/kgid_t is available]) SPL_LINUX_TRY_COMPILE([ #include ], [ kuid_t userid = KUIDT_INIT(0); kgid_t groupid = KGIDT_INIT(0); ],[ SPL_LINUX_TRY_COMPILE([ #include ], [ kuid_t userid = 0; kgid_t groupid = 0; ],[ AC_MSG_RESULT(yes; optional) ],[ AC_MSG_RESULT(yes; mandatory) AC_DEFINE(HAVE_KUIDGID_T, 1, [kuid_t/kgid_t in use]) ]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.39 API change, dnl # __put_task_struct() was exported by the mainline kernel. dnl # AC_DEFUN([SPL_AC_PUT_TASK_STRUCT], [AC_MSG_CHECKING([whether __put_task_struct() is available]) SPL_LINUX_TRY_COMPILE_SYMBOL([ #include ], [ __put_task_struct(NULL); ], [__put_task_struct], [], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_PUT_TASK_STRUCT, 1, [__put_task_struct() is available]) ], [ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.29 API change, dnl # vfs_fsync() funcation added, prior to this use file_fsync(). dnl # AC_DEFUN([SPL_AC_VFS_FSYNC], [AC_MSG_CHECKING([whether vfs_fsync() is available]) SPL_LINUX_TRY_COMPILE_SYMBOL([ #include ], [ (void) vfs_fsync; ], [vfs_fsync], [fs/sync.c], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_VFS_FSYNC, 1, [vfs_fsync() is available]) ], [ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.35 API change, dnl # Unused 'struct dentry *' removed from vfs_fsync() prototype. dnl # AC_DEFUN([SPL_AC_2ARGS_VFS_FSYNC], [ AC_MSG_CHECKING([whether vfs_fsync() wants 2 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_fsync(NULL, 0); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_2ARGS_VFS_FSYNC, 1, [vfs_fsync() wants 2 args]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 3.5 API change, dnl # inode_operations.truncate_range removed dnl # AC_DEFUN([SPL_AC_INODE_TRUNCATE_RANGE], [ AC_MSG_CHECKING([whether truncate_range() inode operation is available]) SPL_LINUX_TRY_COMPILE([ #include ],[ struct inode_operations ops; ops.truncate_range = NULL; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_INODE_TRUNCATE_RANGE, 1, [truncate_range() inode operation is available]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # Linux 2.6.38 - 3.x API dnl # AC_DEFUN([SPL_AC_KERNEL_FILE_FALLOCATE], [ AC_MSG_CHECKING([whether fops->fallocate() exists]) SPL_LINUX_TRY_COMPILE([ #include ],[ long (*fallocate) (struct file *, int, loff_t, loff_t) = NULL; struct file_operations fops __attribute__ ((unused)) = { .fallocate = fallocate, }; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_FILE_FALLOCATE, 1, [fops->fallocate() exists]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # Linux 2.6.x - 2.6.37 API dnl # AC_DEFUN([SPL_AC_KERNEL_INODE_FALLOCATE], [ AC_MSG_CHECKING([whether iops->fallocate() exists]) SPL_LINUX_TRY_COMPILE([ #include ],[ long (*fallocate) (struct inode *, int, loff_t, loff_t) = NULL; struct inode_operations fops __attribute__ ((unused)) = { .fallocate = fallocate, }; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_INODE_FALLOCATE, 1, [fops->fallocate() exists]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # PaX Linux 2.6.38 - 3.x API dnl # AC_DEFUN([SPL_AC_PAX_KERNEL_FILE_FALLOCATE], [ AC_MSG_CHECKING([whether fops->fallocate() exists]) SPL_LINUX_TRY_COMPILE([ #include ],[ long (*fallocate) (struct file *, int, loff_t, loff_t) = NULL; struct file_operations_no_const fops __attribute__ ((unused)) = { .fallocate = fallocate, }; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_FILE_FALLOCATE, 1, [fops->fallocate() exists]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # The fallocate callback was moved from the inode_operations dnl # structure to the file_operations structure. dnl # AC_DEFUN([SPL_AC_KERNEL_FALLOCATE], [ SPL_AC_KERNEL_FILE_FALLOCATE SPL_AC_KERNEL_INODE_FALLOCATE SPL_AC_PAX_KERNEL_FILE_FALLOCATE ]) dnl # dnl # 2.6.33 API change. Also backported in RHEL5 as of 2.6.18-190.el5. dnl # Earlier versions of rwsem_is_locked() were inline and had a race dnl # condition. The fixed version is exported as a symbol. The race dnl # condition is fixed by acquiring sem->wait_lock, so we must not dnl # call that version while holding sem->wait_lock. dnl # AC_DEFUN([SPL_AC_EXPORTED_RWSEM_IS_LOCKED], [AC_MSG_CHECKING([whether rwsem_is_locked() acquires sem->wait_lock]) SPL_LINUX_TRY_COMPILE_SYMBOL([ #include int rwsem_is_locked(struct rw_semaphore *sem) { return 0; } ], [], [rwsem_is_locked], [lib/rwsem-spinlock.c], [ AC_MSG_RESULT(yes) AC_DEFINE(RWSEM_IS_LOCKED_TAKES_WAIT_LOCK, 1, [rwsem_is_locked() acquires sem->wait_lock]) ], [ AC_MSG_RESULT(no) ]) ]) dnl # dnl # zlib inflate compat, dnl # Verify the kernel has CONFIG_ZLIB_INFLATE support enabled. dnl # AC_DEFUN([SPL_AC_CONFIG_ZLIB_INFLATE], [ AC_MSG_CHECKING([whether CONFIG_ZLIB_INFLATE is defined]) SPL_LINUX_TRY_COMPILE([ #if !defined(CONFIG_ZLIB_INFLATE) && \ !defined(CONFIG_ZLIB_INFLATE_MODULE) #error CONFIG_ZLIB_INFLATE not defined #endif ],[ ],[ AC_MSG_RESULT([yes]) ],[ AC_MSG_RESULT([no]) AC_MSG_ERROR([ *** This kernel does not include the required zlib inflate support. *** Rebuild the kernel with CONFIG_ZLIB_INFLATE=y|m set.]) ]) ]) dnl # dnl # zlib deflate compat, dnl # Verify the kernel has CONFIG_ZLIB_DEFLATE support enabled. dnl # AC_DEFUN([SPL_AC_CONFIG_ZLIB_DEFLATE], [ AC_MSG_CHECKING([whether CONFIG_ZLIB_DEFLATE is defined]) SPL_LINUX_TRY_COMPILE([ #if !defined(CONFIG_ZLIB_DEFLATE) && \ !defined(CONFIG_ZLIB_DEFLATE_MODULE) #error CONFIG_ZLIB_DEFLATE not defined #endif ],[ ],[ AC_MSG_RESULT([yes]) ],[ AC_MSG_RESULT([no]) AC_MSG_ERROR([ *** This kernel does not include the required zlib deflate support. *** Rebuild the kernel with CONFIG_ZLIB_DEFLATE=y|m set.]) ]) ]) dnl # dnl # 2.6.39 API compat, dnl # The function zlib_deflate_workspacesize() now take 2 arguments. dnl # This was done to avoid always having to allocate the maximum size dnl # workspace (268K). The caller can now specific the windowBits and dnl # memLevel compression parameters to get a smaller workspace. dnl # AC_DEFUN([SPL_AC_2ARGS_ZLIB_DEFLATE_WORKSPACESIZE], [AC_MSG_CHECKING([whether zlib_deflate_workspacesize() wants 2 args]) SPL_LINUX_TRY_COMPILE([ #include ],[ return zlib_deflate_workspacesize(MAX_WBITS, MAX_MEM_LEVEL); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_2ARGS_ZLIB_DEFLATE_WORKSPACESIZE, 1, [zlib_deflate_workspacesize() wants 2 args]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.39 API change, dnl # Shrinker adjust to use common shrink_control structure. dnl # AC_DEFUN([SPL_AC_SHRINK_CONTROL_STRUCT], [ AC_MSG_CHECKING([whether struct shrink_control exists]) SPL_LINUX_TRY_COMPILE([ #include ],[ struct shrink_control sc __attribute__ ((unused)); sc.nr_to_scan = 0; sc.gfp_mask = GFP_KERNEL; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_SHRINK_CONTROL_STRUCT, 1, [struct shrink_control exists]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 3.1 API Change dnl # dnl # The rw_semaphore.wait_lock member was changed from spinlock_t to dnl # raw_spinlock_t at commit ddb6c9b58a19edcfac93ac670b066c836ff729f1. dnl # AC_DEFUN([SPL_AC_RWSEM_SPINLOCK_IS_RAW], [ AC_MSG_CHECKING([whether struct rw_semaphore member wait_lock is raw]) tmp_flags="$EXTRA_KCFLAGS" EXTRA_KCFLAGS="-Werror" SPL_LINUX_TRY_COMPILE([ #include ],[ struct rw_semaphore dummy_semaphore __attribute__ ((unused)); raw_spinlock_t dummy_lock __attribute__ ((unused)); dummy_semaphore.wait_lock = dummy_lock; ],[ AC_MSG_RESULT(yes) AC_DEFINE(RWSEM_SPINLOCK_IS_RAW, 1, [struct rw_semaphore member wait_lock is raw_spinlock_t]) ],[ AC_MSG_RESULT(no) ]) EXTRA_KCFLAGS="$tmp_flags" ]) dnl # dnl # 3.9 API change, dnl # Moved things from linux/sched.h to linux/sched/rt.h dnl # AC_DEFUN([SPL_AC_SCHED_RT_HEADER], [AC_MSG_CHECKING([whether header linux/sched/rt.h exists]) SPL_LINUX_TRY_COMPILE([ #include #include ],[ return 0; ],[ AC_DEFINE(HAVE_SCHED_RT_HEADER, 1, [linux/sched/rt.h exists]) AC_MSG_RESULT(yes) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 3.9 API change, dnl # vfs_getattr() uses 2 args dnl # It takes struct path * instead of struct vfsmount * and struct dentry * dnl # AC_DEFUN([SPL_AC_2ARGS_VFS_GETATTR], [ AC_MSG_CHECKING([whether vfs_getattr() wants]) SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_getattr((struct path *) NULL, (struct kstat *)NULL); ],[ AC_MSG_RESULT(2 args) AC_DEFINE(HAVE_2ARGS_VFS_GETATTR, 1, [vfs_getattr wants 2 args]) ],[ SPL_LINUX_TRY_COMPILE([ #include ],[ vfs_getattr((struct vfsmount *)NULL, (struct dentry *)NULL, (struct kstat *)NULL); ],[ AC_MSG_RESULT(3 args) ],[ AC_MSG_ERROR(unknown) ]) ]) ]) dnl # dnl # 2.6.36 API compatibility. dnl # Added usleep_range timer. dnl # usleep_range is a finer precision implementation of msleep dnl # designed to be a drop-in replacement for udelay where a precise dnl # sleep / busy-wait is unnecessary. dnl # AC_DEFUN([SPL_AC_USLEEP_RANGE], [ AC_MSG_CHECKING([whether usleep_range() is available]) SPL_LINUX_TRY_COMPILE([ #include ],[ usleep_range(0, 0); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_USLEEP_RANGE, 1, [usleep_range is available]) ],[ AC_MSG_RESULT(no) ]) ]) dnl # dnl # 2.6.35 API change, dnl # The cachep->gfpflags member was renamed cachep->allocflags. These are dnl # private allocation flags which are applied when allocating a new slab dnl # in kmem_getpages(). Unfortunately there is no public API for setting dnl # non-default flags. dnl # AC_DEFUN([SPL_AC_KMEM_CACHE_ALLOCFLAGS], [ AC_MSG_CHECKING([whether struct kmem_cache has allocflags]) SPL_LINUX_TRY_COMPILE([ #include ],[ struct kmem_cache cachep __attribute__ ((unused)); cachep.allocflags = GFP_KERNEL; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_KMEM_CACHE_ALLOCFLAGS, 1, [struct kmem_cache has allocflags]) ],[ AC_MSG_RESULT(no) AC_MSG_CHECKING([whether struct kmem_cache has gfpflags]) SPL_LINUX_TRY_COMPILE([ #include ],[ struct kmem_cache cachep __attribute__ ((unused)); cachep.gfpflags = GFP_KERNEL; ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_KMEM_CACHE_GFPFLAGS, 1, [struct kmem_cache has gfpflags]) ],[ AC_MSG_RESULT(no) ]) ]) ]) dnl # dnl # 3.17 API change, dnl # wait_on_bit() no longer requires an action argument. The former dnl # "wait_on_bit" interface required an 'action' function to be provided dnl # which does the actual waiting. There were over 20 such functions in the dnl # kernel, many of them identical, though most cases can be satisfied by one dnl # of just two functions: one which uses io_schedule() and one which just dnl # uses schedule(). This API change was made to consolidate all of those dnl # redundant wait functions. dnl # AC_DEFUN([SPL_AC_WAIT_ON_BIT], [ AC_MSG_CHECKING([whether wait_on_bit() takes an action]) SPL_LINUX_TRY_COMPILE([ #include ],[ int (*action)(void *) = NULL; wait_on_bit(NULL, 0, action, 0); ],[ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_WAIT_ON_BIT_ACTION, 1, [yes]) ],[ AC_MSG_RESULT(no) ]) ])