ceph/win32_build.sh

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#!/usr/bin/env bash
set -e
set -o pipefail
SCRIPT_DIR="$(dirname "$BASH_SOURCE")"
SCRIPT_DIR="$(realpath "$SCRIPT_DIR")"
num_vcpus=$(nproc)
CEPH_DIR="${CEPH_DIR:-$SCRIPT_DIR}"
BUILD_DIR="${BUILD_DIR:-${CEPH_DIR}/build}"
DEPS_DIR="${DEPS_DIR:-$CEPH_DIR/build.deps}"
ZIP_DEST="${ZIP_DEST:-$BUILD_DIR/ceph.zip}"
CLEAN_BUILD=${CLEAN_BUILD:-}
SKIP_BUILD=${SKIP_BUILD:-}
# Usefull when packaging existing binaries.
SKIP_CMAKE=${SKIP_CMAKE:-}
SKIP_DLL_COPY=${SKIP_DLL_COPY:-}
SKIP_TESTS=${SKIP_TESTS:-}
SKIP_BINDIR_CLEAN=${SKIP_BINDIR_CLEAN:-}
NUM_WORKERS=${NUM_WORKERS:-$num_vcpus}
DEV_BUILD=${DEV_BUILD:-}
BUILD_ZIP=${BUILD_ZIP:-}
# By default, we'll build release binaries with debug symbols attached.
# If BUILD_ZIP and STRIP_ZIPPED are enabled, we'll strip the binaries
# that we're going to archive.
# Unfortunately we cannot use pdb symbols when cross compiling. cv2pdb
# well as llvm rely on mspdb*.dll in order to support this proprietary format.
STRIP_ZIPPED=${STRIP_ZIPPED:-}
# Allow for OS specific customizations through the OS flag.
# Valid options are currently "ubuntu" and "suse".
OS=${OS}
if [[ -z $OS ]]; then
if [[ -f /etc/os-release ]] && \
$(grep -q "^NAME=\".*SUSE.*\"" /etc/os-release); then
OS="suse"
elif [[ -f /etc/lsb-release ]] && \
$(grep -q "^DISTRIB_ID=Ubuntu" /etc/lsb-release); then
OS="ubuntu"
else
echo "Unsupported Linux distro, only SUSE and Ubuntu are currently \
supported. Set the OS variable to override"
exit 1
fi
fi
export OS="$OS"
# We'll have to be explicit here since auto-detecting doesn't work
# properly when cross compiling.
ALLOCATOR=${ALLOCATOR:-libc}
# Debug builds don't work with MINGW for the time being, failing with
# can't close <file>: File too big
# -Wa,-mbig-obj does not help.
CMAKE_BUILD_TYPE=${CMAKE_BUILD_TYPE:-RelWithDebInfo}
binDir="$BUILD_DIR/bin"
strippedBinDir="$BUILD_DIR/bin_stripped"
depsSrcDir="$DEPS_DIR/src"
depsToolsetDir="$DEPS_DIR/mingw"
generatorUsed="Unix Makefiles"
lz4Dir="${depsToolsetDir}/lz4"
sslDir="${depsToolsetDir}/openssl"
curlDir="${depsToolsetDir}/curl"
boostDir="${depsToolsetDir}/boost"
zlibDir="${depsToolsetDir}/zlib"
backtraceDir="${depsToolsetDir}/libbacktrace"
snappyDir="${depsToolsetDir}/snappy"
winLibDir="${depsToolsetDir}/windows/lib"
rbd: allow mounting images on Windows This change will allow mapping rbd images on Windows, leveraging the WNBD[1] Virtual Storport Miniport driver [2]. The behavior and CLI is similar to the Linux rbd-nbd, with a few notable differences: * device paths cannot be requested. The disk number and path will be picked by Windows. If a device path is provided by the user when mapping an image, it will be used as an identifier, which can also be used when unmapping the image. * the "show" command was added, which describes a specific mapping. This can be used for retrieving the disk path. * the "service" command was added, allowing rbd-wnbd to run as a Windows service. All mappings are currently perisistent, being recreated when the service stops, unless explicitly unmapped. The service disconnects the mappings when being stopped. * the "list" command also includes a "status" column. The purpose of the "service" mode is to ensure that mappings survive reboots and that the Windows service start order can be adjusted so that rbd images can be mapped before starting services that may depend on it, such as VMMS. The mapped images can either be consumed by the host directly or exposed to Hyper-V VMs. While at it, we'll skip building rbd-mirror as it's quite unlikely that this daemon is going to be used on Windows for now. [1] https://github.com/cloudbase/wnbd [2] https://docs.microsoft.com/en-us/windows-hardware/drivers/storage/overview-of-storage-virtual-miniport-drivers Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com> Signed-off-by: Alin Gabriel Serdean <aserdean@cloudbasesolutions.com>
2020-07-30 11:40:31 +00:00
wnbdSrcDir="${depsSrcDir}/wnbd"
wnbdLibDir="${depsToolsetDir}/wnbd/lib"
depsDirs="$lz4Dir;$curlDir;$sslDir;$boostDir;$zlibDir;$backtraceDir;$snappyDir"
depsDirs+=";$winLibDir"
lz4Lib="${lz4Dir}/lib/dll/liblz4-1.dll"
lz4Include="${lz4Dir}/lib"
curlLib="${curlDir}/lib/libcurl.dll.a"
curlInclude="${curlDir}/include"
if [[ -n $CLEAN_BUILD ]]; then
echo "Cleaning up build dir: $BUILD_DIR"
rm -rf $BUILD_DIR
rm -rf $DEPS_DIR
fi
if [[ -z $SKIP_BINDIR_CLEAN ]]; then
echo "Cleaning up bin dir: $binDir"
rm -rf $binDir
fi
if [[ ! -f ${depsToolsetDir}/completed ]]; then
echo "Preparing dependencies: $DEPS_DIR"
NUM_WORKERS=$NUM_WORKERS DEPS_DIR=$DEPS_DIR OS="$OS"\
"$SCRIPT_DIR/win32_deps_build.sh"
fi
mkdir -p $BUILD_DIR
cd $BUILD_DIR
# Due to distribution specific mingw settings, the mingw.cmake file
# must be built prior to running cmake.
MINGW_CMAKE_FILE="$BUILD_DIR/mingw32.cmake"
MINGW_POSIX_FLAGS=1
source "$SCRIPT_DIR/mingw_conf.sh"
if [[ -z $SKIP_CMAKE ]]; then
# We'll need to cross compile Boost.Python before enabling
# "WITH_MGR".
echo "Generating solution. Log: ${BUILD_DIR}/cmake.log"
# This isn't propagated to some of the subprojects, we'll use an env variable
# for now.
export CMAKE_PREFIX_PATH=$depsDirs
if [[ -n $DEV_BUILD ]]; then
echo "Dev build enabled."
echo "Git versioning will be disabled."
ENABLE_GIT_VERSION="OFF"
else
ENABLE_GIT_VERSION="ON"
fi
# As opposed to Linux, Windows shared libraries can't have unresolved
# symbols. Until we fix the dependencies (which are either unspecified
# or circular), we'll have to stick to static linking.
cmake -D CMAKE_PREFIX_PATH=$depsDirs \
-D CMAKE_TOOLCHAIN_FILE="$MINGW_CMAKE_FILE" \
-D WITH_RDMA=OFF -D WITH_OPENLDAP=OFF \
-D WITH_GSSAPI=OFF -D WITH_FUSE=OFF -D WITH_XFS=OFF \
-D WITH_BLUESTORE=OFF -D WITH_LEVELDB=OFF \
-D WITH_LTTNG=OFF -D WITH_BABELTRACE=OFF \
-D WITH_SYSTEM_BOOST=ON -D WITH_MGR=OFF \
-D WITH_LIBCEPHFS=OFF -D WITH_KRBD=OFF -D WITH_RADOSGW=OFF \
-D ENABLE_SHARED=OFF -D WITH_RBD=ON -D BUILD_GMOCK=OFF \
-D WITH_CEPHFS=OFF -D WITH_MANPAGE=OFF \
-D WITH_MGR_DASHBOARD_FRONTEND=OFF -D WITH_SYSTEMD=OFF -D WITH_TESTS=OFF \
-D LZ4_INCLUDE_DIR=$lz4Include -D LZ4_LIBRARY=$lz4Lib \
-D Backtrace_INCLUDE_DIR="$backtraceDir/include" \
-D Backtrace_LIBRARY="$backtraceDir/lib/libbacktrace.a" \
-D ENABLE_GIT_VERSION=$ENABLE_GIT_VERSION \
-D ALLOCATOR="$ALLOCATOR" -D CMAKE_BUILD_TYPE=$CMAKE_BUILD_TYPE \
rbd: allow mounting images on Windows This change will allow mapping rbd images on Windows, leveraging the WNBD[1] Virtual Storport Miniport driver [2]. The behavior and CLI is similar to the Linux rbd-nbd, with a few notable differences: * device paths cannot be requested. The disk number and path will be picked by Windows. If a device path is provided by the user when mapping an image, it will be used as an identifier, which can also be used when unmapping the image. * the "show" command was added, which describes a specific mapping. This can be used for retrieving the disk path. * the "service" command was added, allowing rbd-wnbd to run as a Windows service. All mappings are currently perisistent, being recreated when the service stops, unless explicitly unmapped. The service disconnects the mappings when being stopped. * the "list" command also includes a "status" column. The purpose of the "service" mode is to ensure that mappings survive reboots and that the Windows service start order can be adjusted so that rbd images can be mapped before starting services that may depend on it, such as VMMS. The mapped images can either be consumed by the host directly or exposed to Hyper-V VMs. While at it, we'll skip building rbd-mirror as it's quite unlikely that this daemon is going to be used on Windows for now. [1] https://github.com/cloudbase/wnbd [2] https://docs.microsoft.com/en-us/windows-hardware/drivers/storage/overview-of-storage-virtual-miniport-drivers Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com> Signed-off-by: Alin Gabriel Serdean <aserdean@cloudbasesolutions.com>
2020-07-30 11:40:31 +00:00
-D WNBD_INCLUDE_DIRS="$wnbdSrcDir/include" \
-D WNBD_LIBRARIES="$wnbdLibDir/libwnbd.a" \
-G "$generatorUsed" \
$CEPH_DIR 2>&1 | tee "${BUILD_DIR}/cmake.log"
fi # [[ -z $SKIP_CMAKE ]]
if [[ -z $SKIP_BUILD ]]; then
echo "Building using $NUM_WORKERS workers. Log: ${BUILD_DIR}/build.log"
echo "" > "${BUILD_DIR}/build.log"
# We're going to use an associative array having subdirectories as keys
# and targets as values.
declare -A make_targets
make_targets["src/tools"]="ceph-conf ceph_radosacl ceph_scratchtool rados"
make_targets["src/tools/immutable_object_cache"]="all"
make_targets["src/tools/rbd"]="all"
rbd: allow mounting images on Windows This change will allow mapping rbd images on Windows, leveraging the WNBD[1] Virtual Storport Miniport driver [2]. The behavior and CLI is similar to the Linux rbd-nbd, with a few notable differences: * device paths cannot be requested. The disk number and path will be picked by Windows. If a device path is provided by the user when mapping an image, it will be used as an identifier, which can also be used when unmapping the image. * the "show" command was added, which describes a specific mapping. This can be used for retrieving the disk path. * the "service" command was added, allowing rbd-wnbd to run as a Windows service. All mappings are currently perisistent, being recreated when the service stops, unless explicitly unmapped. The service disconnects the mappings when being stopped. * the "list" command also includes a "status" column. The purpose of the "service" mode is to ensure that mappings survive reboots and that the Windows service start order can be adjusted so that rbd images can be mapped before starting services that may depend on it, such as VMMS. The mapped images can either be consumed by the host directly or exposed to Hyper-V VMs. While at it, we'll skip building rbd-mirror as it's quite unlikely that this daemon is going to be used on Windows for now. [1] https://github.com/cloudbase/wnbd [2] https://docs.microsoft.com/en-us/windows-hardware/drivers/storage/overview-of-storage-virtual-miniport-drivers Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com> Signed-off-by: Alin Gabriel Serdean <aserdean@cloudbasesolutions.com>
2020-07-30 11:40:31 +00:00
make_targets["src/tools/rbd_wnbd"]="all"
make_targets["src/compressor"]="all"
for target_subdir in "${!make_targets[@]}"; do
echo "Building $target_subdir: ${make_targets[$target_subdir]}" | tee -a "${BUILD_DIR}/build.log"
make -j $NUM_WORKERS -C $target_subdir ${make_targets[$target_subdir]} 2>&1 | tee -a "${BUILD_DIR}/build.log"
done
fi
if [[ -z $SKIP_DLL_COPY ]]; then
# To adjust mingw paths, see 'mingw_conf.sh'.
required_dlls=(
$zlibDir/zlib1.dll
$lz4Dir/lib/dll/liblz4-1.dll
$sslDir/bin/libcrypto-1_1-x64.dll
$sslDir/bin/libssl-1_1-x64.dll
$mingwTargetLibDir/libstdc++-6.dll
$mingwTargetLibDir/libgcc_s_seh-1.dll
$mingwLibpthreadDir/libwinpthread-1.dll)
echo "Copying required dlls to $binDir."
cp ${required_dlls[@]} $binDir
fi
if [[ -n $BUILD_ZIP ]]; then
# Use a temp directory, in order to create a clean zip file
ZIP_TMPDIR=$(mktemp -d win_binaries.XXXXX)
if [[ -n $STRIP_ZIPPED ]]; then
echo "Stripping debug symbols from binaries."
rm -rf $strippedBinDir; mkdir $strippedBinDir
# Strip files individually, to save time and space
for file in $binDir/*.exe $binDir/*.dll; do
$MINGW_STRIP -o $strippedBinDir/$(basename $file) $file
done
# Copy any remaining files to the stripped directory
for file in $binDir/*; do
[[ ! -f $strippedBinDir/$(basename $file) ]] && \
cp $file $strippedBinDir
done
ln -s $strippedBinDir $ZIP_TMPDIR/ceph
else
ln -s $binDir $ZIP_TMPDIR/ceph
fi
echo "Building zip archive $ZIP_DEST."
# Include the README file in the archive
ln -s $CEPH_DIR/README.windows.rst $ZIP_TMPDIR/ceph/README.windows.rst
cd $ZIP_TMPDIR
[[ -f $ZIP_DEST ]] && rm $ZIP_DEST
zip -r $ZIP_DEST ceph
cd -
rm -rf $ZIP_TMPDIR/ceph/README.windows.rst $ZIP_TMPDIR
echo -e '\n WIN32 files zipped to: '$ZIP_DEST'\n'
fi