ceph/win32_deps_build.sh

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#!/usr/bin/env bash
set -e
SCRIPT_DIR="$(dirname "$BASH_SOURCE")"
SCRIPT_DIR="$(realpath "$SCRIPT_DIR")"
num_vcpus=$(nproc)
NUM_WORKERS=${NUM_WORKERS:-$num_vcpus}
DEPS_DIR="${DEPS_DIR:-$SCRIPT_DIR/build.deps}"
depsSrcDir="$DEPS_DIR/src"
depsToolsetDir="$DEPS_DIR/mingw"
lz4SrcDir="${depsSrcDir}/lz4"
lz4Dir="${depsToolsetDir}/lz4"
lz4Tag="v1.9.2"
sslTag="OpenSSL_1_1_1c"
sslDir="${depsToolsetDir}/openssl"
sslSrcDir="${depsSrcDir}/openssl"
# For now, we'll keep the version number within the file path when not using git.
boostUrl="https://boostorg.jfrog.io/artifactory/main/release/1.79.0/source/boost_1_79_0.tar.gz"
boostSrcDir="${depsSrcDir}/boost_1_79_0"
boostDir="${depsToolsetDir}/boost"
zlibDir="${depsToolsetDir}/zlib"
zlibSrcDir="${depsSrcDir}/zlib"
backtraceDir="${depsToolsetDir}/libbacktrace"
backtraceSrcDir="${depsSrcDir}/libbacktrace"
snappySrcDir="${depsSrcDir}/snappy"
snappyDir="${depsToolsetDir}/snappy"
snappyTag="1.1.9"
# Additional Windows libraries, which aren't provided by Mingw
winLibDir="${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
wnbdUrl="https://github.com/cloudbase/wnbd"
wnbdTag="main"
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"
cephfs: Add ceph-dokan, providing Windows support In order to expose ceph filesystems to Windows hosts, we propose including ceph-dokan[1][2] in the Ceph tree, while updating it to work with the latest CephFS and Dokany APIs. Dokany is a well maintained project (fork of the original Dokan project), allowing filesystems to be implemented in userspace, even providing a Fuse compatibility layer. One reason for not using the FUSE compatibility layer is that it's only covering the high level API while Ceph is using the low level FUSE API, which among other things is inode centric. Changes made by this patch compared to the upstream ceph-dokan: * support latest stable Dokany API. The upstream version relies on the legacy unmaintained Dokan API * return proper error codes, converting standard errno.h values to NTSTATUS * minor changes to support latest cephfs API * drop duplicated ceph code, no longer needed if we're to include it in tree. This makes it much easier to maintain. * drop redundant permission checks, leaving it up to libcephfs * use ceph argparse helpers * use ceph logging and daemon initialization * fixed unicode handling * switched to ceph coding style * made ceph.conf param optional, using the default path if available * enabled setting file timestamps * append support * configurable timeouts set once per mount * ensure that the error code is always logged * various cleanups (removed unused entry points, checks that have been moved to dokany, simplified conditional statements, unnecessary conversions in the hot path, etc). [1] https://github.com/ketor/ceph-dokan [2] https://github.com/ceph/ceph-dokan Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com>
2020-08-07 12:07:20 +00:00
dokanUrl="https://github.com/dokan-dev/dokany"
dokanTag="v2.0.5.1000"
cephfs: Add ceph-dokan, providing Windows support In order to expose ceph filesystems to Windows hosts, we propose including ceph-dokan[1][2] in the Ceph tree, while updating it to work with the latest CephFS and Dokany APIs. Dokany is a well maintained project (fork of the original Dokan project), allowing filesystems to be implemented in userspace, even providing a Fuse compatibility layer. One reason for not using the FUSE compatibility layer is that it's only covering the high level API while Ceph is using the low level FUSE API, which among other things is inode centric. Changes made by this patch compared to the upstream ceph-dokan: * support latest stable Dokany API. The upstream version relies on the legacy unmaintained Dokan API * return proper error codes, converting standard errno.h values to NTSTATUS * minor changes to support latest cephfs API * drop duplicated ceph code, no longer needed if we're to include it in tree. This makes it much easier to maintain. * drop redundant permission checks, leaving it up to libcephfs * use ceph argparse helpers * use ceph logging and daemon initialization * fixed unicode handling * switched to ceph coding style * made ceph.conf param optional, using the default path if available * enabled setting file timestamps * append support * configurable timeouts set once per mount * ensure that the error code is always logged * various cleanups (removed unused entry points, checks that have been moved to dokany, simplified conditional statements, unnecessary conversions in the hot path, etc). [1] https://github.com/ketor/ceph-dokan [2] https://github.com/ceph/ceph-dokan Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com>
2020-08-07 12:07:20 +00:00
dokanSrcDir="${depsSrcDir}/dokany"
dokanLibDir="${depsToolsetDir}/dokany/lib"
# Allow for OS specific customizations through the OS flag (normally
# passed through from win32_build).
# Valid options are currently "ubuntu", "rhel", and "suse".
OS=${OS:-"ubuntu"}
function _make() {
make -j $NUM_WORKERS $@
}
if [[ -d $DEPS_DIR ]]; then
echo "Cleaning up dependency build dir: $DEPS_DIR"
rm -rf $DEPS_DIR
fi
mkdir -p $DEPS_DIR
mkdir -p $depsToolsetDir
mkdir -p $depsSrcDir
echo "Installing required packages."
case "$OS" in
rhel)
# pkgconf needs https://bugzilla.redhat.com/show_bug.cgi?id=1975416
sudo yum -y --setopt=skip_missing_names_on_install=False install \
mingw64-gcc-c++ \
cmake \
pkgconf \
python3-devel \
autoconf \
libtool \
ninja-build \
zip \
python3-Cython \
python3-PyYAML \
gcc \
diffutils \
patch \
wget \
perl \
git-core
;;
ubuntu)
sudo apt-get update
sudo env DEBIAN_FRONTEND=noninteractive apt-get -y install \
mingw-w64 cmake pkg-config \
python3-dev python3-pip python3-yaml \
autoconf libtool ninja-build wget zip
sudo python3 -m pip install cython
;;
suse)
for PKG in mingw64-cross-gcc-c++ mingw64-libgcc_s_seh1 mingw64-libstdc++6 \
cmake pkgconf python3-devel autoconf libtool ninja zip \
python3-Cython python3-PyYAML \
gcc patch wget git; do
rpm -q $PKG >/dev/null || zypper -n install $PKG
done
;;
esac
MINGW_CMAKE_FILE="$DEPS_DIR/mingw.cmake"
source "$SCRIPT_DIR/mingw_conf.sh"
echo "Building zlib."
cd $depsSrcDir
if [[ ! -d $zlibSrcDir ]]; then
git clone --depth 1 https://github.com/madler/zlib
fi
cd $zlibSrcDir
# Apparently the configure script is broken...
sed -e s/"PREFIX = *$"/"PREFIX = ${MINGW_PREFIX}"/ -i win32/Makefile.gcc
_make -f win32/Makefile.gcc
_make BINARY_PATH=$zlibDir \
INCLUDE_PATH=$zlibDir/include \
LIBRARY_PATH=$zlibDir/lib \
SHARED_MODE=1 \
-f win32/Makefile.gcc install
echo "Building lz4."
cd $depsToolsetDir
if [[ ! -d $lz4Dir ]]; then
git clone --branch $lz4Tag --depth 1 https://github.com/lz4/lz4
cd $lz4Dir
fi
cd $lz4Dir
_make BUILD_STATIC=no CC=${MINGW_CC%-posix*} \
DLLTOOL=${MINGW_DLLTOOL} \
WINDRES=${MINGW_WINDRES} \
TARGET_OS=Windows_NT
echo "Building OpenSSL."
cd $depsSrcDir
if [[ ! -d $sslSrcDir ]]; then
git clone --branch $sslTag --depth 1 https://github.com/openssl/openssl
cd $sslSrcDir
fi
cd $sslSrcDir
mkdir -p $sslDir
CROSS_COMPILE="${MINGW_PREFIX}" ./Configure \
mingw64 shared --prefix=$sslDir --libdir="$sslDir/lib"
_make depend
_make
_make install_sw
echo "Building boost."
cd $depsSrcDir
if [[ ! -d $boostSrcDir ]]; then
echo "Downloading boost."
wget -qO- $boostUrl | tar xz
fi
cd $boostSrcDir
echo "using gcc : mingw32 : ${MINGW_CXX} ;" > user-config.jam
# Workaround for https://github.com/boostorg/thread/issues/156
# Older versions of mingw provided a different pthread lib.
sed -i 's/lib$(libname)GC2.a/lib$(libname).a/g' ./libs/thread/build/Jamfile.v2
sed -i 's/mthreads/pthreads/g' ./tools/build/src/tools/gcc.py
sed -i 's/mthreads/pthreads/g' ./tools/build/src/tools/gcc.jam
sed -i 's/pthreads/mthreads/g' ./tools/build/src/tools/gcc.py
sed -i 's/pthreads/mthreads/g' ./tools/build/src/tools/gcc.jam
export PTW32_INCLUDE=${PTW32Include}
export PTW32_LIB=${PTW32Lib}
echo "Patching boost."
# Fix getting Windows page size
# TODO: send this upstream and maybe use a fork until it merges.
# Meanwhile, we might consider moving those to ceph/cmake/modules/BuildBoost.cmake.
# This cmake module will first have to be updated to support Mingw though.
patch -N boost/thread/pthread/thread_data.hpp <<EOL
--- boost/thread/pthread/thread_data.hpp 2019-10-11 15:26:15.678703586 +0300
+++ boost/thread/pthread/thread_data.hpp.new 2019-10-11 15:26:07.321463698 +0300
@@ -32,6 +32,10 @@
# endif
#endif
+#if defined(_WIN32)
+#include <windows.h>
+#endif
+
#include <pthread.h>
#include <unistd.h>
@@ -54,6 +58,10 @@
if (size==0) return;
#ifdef BOOST_THREAD_USES_GETPAGESIZE
std::size_t page_size = getpagesize();
+#elif _WIN32
+ SYSTEM_INFO system_info;
+ ::GetSystemInfo (&system_info);
+ std::size_t page_size = system_info.dwPageSize;
#else
std::size_t page_size = ::sysconf( _SC_PAGESIZE);
#endif
EOL
./bootstrap.sh
./b2 install --user-config=user-config.jam toolset=gcc-mingw32 \
target-os=windows release \
link=static,shared \
threadapi=win32 --prefix=$boostDir \
address-model=64 architecture=x86 \
binary-format=pe abi=ms -j $NUM_WORKERS \
-sZLIB_INCLUDE=$zlibDir/include -sZLIB_LIBRARY_PATH=$zlibDir/lib \
--without-python --without-mpi --without-log --without-wave
echo "Building libbacktrace."
cd $depsSrcDir
if [[ ! -d $backtraceSrcDir ]]; then
git clone --depth 1 https://github.com/ianlancetaylor/libbacktrace
fi
mkdir -p $backtraceSrcDir/build
cd $backtraceSrcDir/build
../configure --prefix=$backtraceDir --exec-prefix=$backtraceDir \
--host ${MINGW_BASE} --enable-host-shared \
--libdir="$backtraceDir/lib"
_make LDFLAGS="-no-undefined"
_make install
echo "Building snappy."
cd $depsSrcDir
if [[ ! -d $snappySrcDir ]]; then
git clone --branch $snappyTag --depth 1 https://github.com/google/snappy
cd $snappySrcDir
fi
mkdir -p $snappySrcDir/build
cd $snappySrcDir/build
cmake -DCMAKE_INSTALL_PREFIX=$snappyDir \
-DCMAKE_BUILD_TYPE=Release \
-DBUILD_SHARED_LIBS=ON \
-DSNAPPY_BUILD_TESTS=OFF \
-DSNAPPY_BUILD_BENCHMARKS=OFF \
-DCMAKE_TOOLCHAIN_FILE=$MINGW_CMAKE_FILE \
../
_make
_make install
cmake -DCMAKE_INSTALL_PREFIX=$snappyDir \
-DCMAKE_BUILD_TYPE=Release \
-DBUILD_SHARED_LIBS=OFF \
-DSNAPPY_BUILD_TESTS=OFF \
-DCMAKE_TOOLCHAIN_FILE=$MINGW_CMAKE_FILE \
../
_make
_make install
echo "Generating mswsock.lib."
# mswsock.lib is not provided by mingw, so we'll have to generate
# it.
mkdir -p $winLibDir
cat > $winLibDir/mswsock.def <<EOF
LIBRARY MSWSOCK.DLL
EXPORTS
AcceptEx@32
EnumProtocolsA@12
EnumProtocolsW@12
GetAcceptExSockaddrs@32
GetAddressByNameA@40
GetAddressByNameW@40
GetNameByTypeA@12
GetNameByTypeW@12
GetServiceA@28
GetServiceW@28
GetTypeByNameA@8
GetTypeByNameW@8
MigrateWinsockConfiguration@12
NPLoadNameSpaces@12
SetServiceA@24
SetServiceW@24
TransmitFile@28
WSARecvEx@16
dn_expand@20
getnetbyname@4
inet_network@4
rcmd@24
rexec@24rresvport@4
s_perror@8sethostname@8
EOF
$MINGW_DLLTOOL -d $winLibDir/mswsock.def \
-l $winLibDir/libmswsock.a
echo "Fetching libwnbd."
cd $depsSrcDir
if [[ ! -d $wnbdSrcDir ]]; then
git clone --branch $wnbdTag --depth 1 $wnbdUrl
fi
cd $wnbdSrcDir
mkdir -p $wnbdLibDir
$MINGW_DLLTOOL -d $wnbdSrcDir/libwnbd/libwnbd.def \
-D libwnbd.dll \
-l $wnbdLibDir/libwnbd.a
echo "Fetching dokany."
cephfs: Add ceph-dokan, providing Windows support In order to expose ceph filesystems to Windows hosts, we propose including ceph-dokan[1][2] in the Ceph tree, while updating it to work with the latest CephFS and Dokany APIs. Dokany is a well maintained project (fork of the original Dokan project), allowing filesystems to be implemented in userspace, even providing a Fuse compatibility layer. One reason for not using the FUSE compatibility layer is that it's only covering the high level API while Ceph is using the low level FUSE API, which among other things is inode centric. Changes made by this patch compared to the upstream ceph-dokan: * support latest stable Dokany API. The upstream version relies on the legacy unmaintained Dokan API * return proper error codes, converting standard errno.h values to NTSTATUS * minor changes to support latest cephfs API * drop duplicated ceph code, no longer needed if we're to include it in tree. This makes it much easier to maintain. * drop redundant permission checks, leaving it up to libcephfs * use ceph argparse helpers * use ceph logging and daemon initialization * fixed unicode handling * switched to ceph coding style * made ceph.conf param optional, using the default path if available * enabled setting file timestamps * append support * configurable timeouts set once per mount * ensure that the error code is always logged * various cleanups (removed unused entry points, checks that have been moved to dokany, simplified conditional statements, unnecessary conversions in the hot path, etc). [1] https://github.com/ketor/ceph-dokan [2] https://github.com/ceph/ceph-dokan Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com>
2020-08-07 12:07:20 +00:00
cd $depsSrcDir
if [[ ! -d $dokanSrcDir ]]; then
git clone --branch $dokanTag --depth 1 $dokanUrl
cephfs: Add ceph-dokan, providing Windows support In order to expose ceph filesystems to Windows hosts, we propose including ceph-dokan[1][2] in the Ceph tree, while updating it to work with the latest CephFS and Dokany APIs. Dokany is a well maintained project (fork of the original Dokan project), allowing filesystems to be implemented in userspace, even providing a Fuse compatibility layer. One reason for not using the FUSE compatibility layer is that it's only covering the high level API while Ceph is using the low level FUSE API, which among other things is inode centric. Changes made by this patch compared to the upstream ceph-dokan: * support latest stable Dokany API. The upstream version relies on the legacy unmaintained Dokan API * return proper error codes, converting standard errno.h values to NTSTATUS * minor changes to support latest cephfs API * drop duplicated ceph code, no longer needed if we're to include it in tree. This makes it much easier to maintain. * drop redundant permission checks, leaving it up to libcephfs * use ceph argparse helpers * use ceph logging and daemon initialization * fixed unicode handling * switched to ceph coding style * made ceph.conf param optional, using the default path if available * enabled setting file timestamps * append support * configurable timeouts set once per mount * ensure that the error code is always logged * various cleanups (removed unused entry points, checks that have been moved to dokany, simplified conditional statements, unnecessary conversions in the hot path, etc). [1] https://github.com/ketor/ceph-dokan [2] https://github.com/ceph/ceph-dokan Signed-off-by: Lucian Petrut <lpetrut@cloudbasesolutions.com>
2020-08-07 12:07:20 +00:00
fi
mkdir -p $dokanLibDir
$MINGW_DLLTOOL -d $dokanSrcDir/dokan/dokan.def \
-l $dokanLibDir/libdokan.a
# That's probably the easiest way to deal with the dokan imports.
# dokan.h is defined in both ./dokan and ./sys while both are using
# sys/public.h without the "sys" prefix.
cp $dokanSrcDir/sys/public.h $dokanSrcDir/dokan
echo "Finished building Ceph dependencies."
touch $depsToolsetDir/completed