#!/usr/bin/env bash set -e SCRIPT_DIR="$(dirname "${0}")" . "${SCRIPT_DIR}/shell_include.sh" USE_FUSE2FS=0 if [ "$(id -u)" != 0 ]; then if [ -x "$FUSE2FS_PATH" ] && $FUSE2FS_PATH --help 2>&1 |grep fakeroot > /dev/null; then USE_FUSE2FS=1 else set +e ${SUDO} -- sh -c "\"$0\" $* || exit 42" case $? in 1) die "this script needs to run as root" ;; 42) exit 1 ;; *) exit 0 ;; esac fi else : "${SUDO_UID:=0}" "${SUDO_GID:=0}" fi # Prepend the toolchain qemu directory so we pick up QEMU from there PATH="$SCRIPT_DIR/../Toolchain/Local/qemu/bin:$PATH" # We depend on GNU coreutils du for the --apparent-size extension. # GNU coreutils is a build dependency. if command -v gdu > /dev/null 2>&1 && gdu --version | grep -q "GNU coreutils"; then GNUDU="gdu" else GNUDU="du" fi disk_usage() { # shellcheck disable=SC2003,SC2307 expr "$(${GNUDU} -sk --apparent-size "$1" | cut -f1)" } inode_usage() { find "$1" | wc -l } INODE_SIZE=128 INODE_COUNT=$(($(inode_usage "$SERENITY_SOURCE_DIR/Base") + $(inode_usage Root))) INODE_COUNT=$((INODE_COUNT + 2000)) # Some additional inodes for toolchain files, could probably also be calculated DISK_SIZE_BYTES=$((($(disk_usage "$SERENITY_SOURCE_DIR/Base") + $(disk_usage Root)) * 1024)) DISK_SIZE_BYTES=$((DISK_SIZE_BYTES + (INODE_COUNT * INODE_SIZE))) if [ -z "$SERENITY_DISK_SIZE_BYTES" ]; then # Try to use heuristics to guess a good disk size and inode count. # The disk must notably fit: # * Data blocks (for both files and directories), # * Indirect/doubly indirect/triply indirect blocks, # * Inodes and block bitmaps for each block group, # * Plenty of extra free space and free inodes. DISK_SIZE_BYTES=$((DISK_SIZE_BYTES * 2)) INODE_COUNT=$((INODE_COUNT * 7)) else if [ "$DISK_SIZE_BYTES" -gt "$SERENITY_DISK_SIZE_BYTES" ]; then die "SERENITY_DISK_SIZE_BYTES is set to $SERENITY_DISK_SIZE_BYTES but required disk size is $DISK_SIZE_BYTES bytes" fi DISK_SIZE_BYTES="$SERENITY_DISK_SIZE_BYTES" fi nearest_power_of_2() { local n=$1 local p=1 while [ $p -lt "$n" ]; do p=$((p*2)) done echo $p } if [ "$SERENITY_ARCH" = "aarch64" ] || { [ -n "$SERENITY_USE_SDCARD" ] && [ "$SERENITY_USE_SDCARD" -eq 1 ]; }; then # SD cards must have a size that is a power of 2. The Aarch64 port loads from an SD card. DISK_SIZE_BYTES=$(nearest_power_of_2 "$DISK_SIZE_BYTES") fi USE_EXISTING=0 if [ -f _disk_image ]; then USE_EXISTING=1 echo "checking existing image" result=0 "$E2FSCK_PATH" -f -y _disk_image || result=$? if [ $result -ge 4 ]; then rm -f _disk_image USE_EXISTING=0 echo "failed, not using existing image" else echo "done" fi fi if [ $USE_EXISTING -eq 1 ]; then OLD_DISK_SIZE_BYTES=$(wc -c < _disk_image) if [ "$DISK_SIZE_BYTES" -gt "$OLD_DISK_SIZE_BYTES" ]; then echo "resizing disk image..." qemu-img resize -f raw _disk_image "$DISK_SIZE_BYTES" || die "could not resize disk image" if ! "$RESIZE2FS_PATH" _disk_image; then rm -f _disk_image USE_EXISTING=0 echo "failed, not using existing image" fi echo "done" fi fi if [ $USE_EXISTING -ne 1 ]; then printf "setting up disk image... " qemu-img create -q -f raw _disk_image "$DISK_SIZE_BYTES" || die "could not create disk image" chown "$SUDO_UID":"$SUDO_GID" _disk_image || die "could not adjust permissions on disk image" echo "done" printf "creating new filesystem... " if [ "$(uname -s)" = "OpenBSD" ]; then VND=$(vnconfig _disk_image) (echo "e 0"; echo 83; echo n; echo 0; echo "*"; echo "quit") | fdisk -e "$VND" newfs_ext2fs -D $INODE_SIZE -n $INODE_COUNT "/dev/r${VND}i" || die "could not create filesystem" else "${MKE2FS_PATH}" -q -I "${INODE_SIZE}" -N "${INODE_COUNT}" _disk_image || die "could not create filesystem" fi echo "done" fi printf "mounting filesystem... " mkdir -p mnt use_genext2fs=0 if [ $USE_FUSE2FS -eq 1 ]; then mount_cmd="$FUSE2FS_PATH _disk_image mnt/ -o fakeroot,rw" elif [ "$(uname -s)" = "Darwin" ]; then mount_cmd="fuse-ext2 _disk_image mnt -o rw+,allow_other,uid=501,gid=20" elif [ "$(uname -s)" = "OpenBSD" ]; then VND=$(vnconfig _disk_image) mount_cmd="mount -t ext2fs "/dev/${VND}i" mnt/" elif [ "$(uname -s)" = "FreeBSD" ]; then MD=$(mdconfig _disk_image) mount_cmd="fuse-ext2 -o rw+,direct_io "/dev/${MD}" mnt/" else mount_cmd="mount _disk_image mnt/" fi if ! eval "$mount_cmd"; then if command -v genext2fs 1>/dev/null ; then echo "mount failed but genext2fs exists, use it instead" use_genext2fs=1 else die "could not mount filesystem and genext2fs is missing" fi else echo "done" fi cleanup() { if [ -d mnt ]; then if [ $use_genext2fs = 0 ] ; then printf "unmounting filesystem... " if [ $USE_FUSE2FS -eq 1 ]; then fusermount -u mnt || (sleep 1 && sync && fusermount -u mnt) else umount mnt || ( sleep 1 && sync && umount mnt ) fi rmdir mnt else rm -rf mnt fi if [ "$(uname -s)" = "OpenBSD" ]; then vnconfig -u "$VND" elif [ "$(uname -s)" = "FreeBSD" ]; then mdconfig -d -u "$MD" fi echo "done" fi } trap cleanup EXIT script_path=$(cd -P -- "$(dirname -- "$0")" && pwd -P) "$script_path/build-root-filesystem.sh" if [ $use_genext2fs = 1 ]; then # regenerate new image, since genext2fs is unable to reuse the previously written image. # genext2fs is very slow in generating big images, so I use a smaller image here. size can be updated # if it's not enough. # not using "-I $INODE_SIZE" since it hangs. Serenity handles whatever default this uses instead. genext2fs -B 4096 -b $((DISK_SIZE_BYTES / 4096)) -N $INODE_COUNT -d mnt _disk_image || die "try increasing image size (genext2fs -b)" # if using docker with shared mount, file is created as root, so make it writable for users chmod 0666 _disk_image fi