@@ -1003,7 +1003,7 @@ _parse_restore_args()
--no-check-quota)
do_quota_check=false
;;
- -K|-R)
+ -K|-R|-x)
restore_args="$restore_args $1"
;;
*)
@@ -1402,3 +1402,9 @@ _xfs_filter_mkfs()
print STDOUT "realtime =RDEV extsz=XXX blocks=XXX, rtextents=XXX\n";
}'
}
+
+_require_xfsrestore_xflag()
+{
+ $XFSRESTORE_PROG -h 2>&1 | grep -q -e '-x' || \
+ _notrun 'xfsrestore does not support -x flag.'
+}
@@ -19,7 +19,7 @@ TARGETS = dirstress fill fill2 getpagesize holes lstat64 \
t_ofd_locks t_mmap_collision mmap-write-concurrent \
t_get_file_time t_create_short_dirs t_create_long_dirs t_enospc \
t_mmap_writev_overlap checkpoint_journal mmap-rw-fault allocstale \
- t_mmap_cow_memory_failure
+ t_mmap_cow_memory_failure fake-dump-rootino
LINUX_TARGETS = xfsctl bstat t_mtab getdevicesize preallo_rw_pattern_reader \
preallo_rw_pattern_writer ftrunc trunc fs_perms testx looptest \
new file mode 100644
@@ -0,0 +1,224 @@
+// SPDX-License-Identifier: GPL-2.0
+/* Copyright (c) 2022 Fujitsu Limited. All Rights Reserved. */
+#define _LARGEFILE64_SOURCE
+#include <endian.h>
+#include <fcntl.h>
+#include <stdint.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <sys/mman.h>
+#include <unistd.h>
+#include <uuid/uuid.h>
+
+// Definitions from xfsdump
+#define PGSZLOG2 12
+#define PGSZ (1 << PGSZLOG2)
+#define GLOBAL_HDR_SZ PGSZ
+#define GLOBAL_HDR_MAGIC_SZ 8
+#define GLOBAL_HDR_STRING_SZ 0x100
+#define GLOBAL_HDR_TIME_SZ 4
+#define GLOBAL_HDR_UUID_SZ 0x10
+typedef int32_t time32_t;
+struct global_hdr {
+ char gh_magic[GLOBAL_HDR_MAGIC_SZ]; /* 8 8 */
+ /* unique signature of xfsdump */
+ uint32_t gh_version; /* 4 c */
+ /* header version */
+ uint32_t gh_checksum; /* 4 10 */
+ /* 32-bit unsigned additive inverse of entire header */
+ time32_t gh_timestamp; /* 4 14 */
+ /* time32_t of dump */
+ char gh_pad1[4]; /* 4 18 */
+ /* alignment */
+ uint64_t gh_ipaddr; /* 8 20 */
+ /* from gethostid(2), room for expansion */
+ uuid_t gh_dumpid; /* 10 30 */
+ /* ID of dump session */
+ char gh_pad2[0xd0]; /* d0 100 */
+ /* alignment */
+ char gh_hostname[GLOBAL_HDR_STRING_SZ]; /* 100 200 */
+ /* from gethostname(2) */
+ char gh_dumplabel[GLOBAL_HDR_STRING_SZ]; /* 100 300 */
+ /* label of dump session */
+ char gh_pad3[0x100]; /* 100 400 */
+ /* padding */
+ char gh_upper[GLOBAL_HDR_SZ - 0x400]; /* c00 1000 */
+ /* header info private to upper software layers */
+};
+typedef struct global_hdr global_hdr_t;
+
+#define sizeofmember( t, m ) sizeof( ( ( t * )0 )->m )
+
+#define DRIVE_HDR_SZ sizeofmember(global_hdr_t, gh_upper)
+struct drive_hdr {
+ uint32_t dh_drivecnt; /* 4 4 */
+ /* number of drives used to dump the fs */
+ uint32_t dh_driveix; /* 4 8 */
+ /* 0-based index of the drive used to dump this stream */
+ int32_t dh_strategyid; /* 4 c */
+ /* ID of the drive strategy used to produce this dump */
+ char dh_pad1[0x1f4]; /* 1f4 200 */
+ /* padding */
+ char dh_specific[0x200]; /* 200 400 */
+ /* drive strategy-specific info */
+ char dh_upper[DRIVE_HDR_SZ - 0x400]; /* 800 c00 */
+ /* header info private to upper software layers */
+};
+typedef struct drive_hdr drive_hdr_t;
+
+#define MEDIA_HDR_SZ sizeofmember(drive_hdr_t, dh_upper)
+struct media_hdr {
+ char mh_medialabel[GLOBAL_HDR_STRING_SZ]; /* 100 100 */
+ /* label of media object containing file */
+ char mh_prevmedialabel[GLOBAL_HDR_STRING_SZ]; /* 100 200 */
+ /* label of upstream media object */
+ char mh_pad1[GLOBAL_HDR_STRING_SZ]; /* 100 300 */
+ /* in case more labels needed */
+ uuid_t mh_mediaid; /* 10 310 */
+ /* ID of media object */
+ uuid_t mh_prevmediaid; /* 10 320 */
+ /* ID of upstream media object */
+ char mh_pad2[GLOBAL_HDR_UUID_SZ]; /* 10 330 */
+ /* in case more IDs needed */
+ uint32_t mh_mediaix; /* 4 334 */
+ /* 0-based index of this media object within the dump stream */
+ uint32_t mh_mediafileix; /* 4 338 */
+ /* 0-based index of this file within this media object */
+ uint32_t mh_dumpfileix; /* 4 33c */
+ /* 0-based index of this file within this dump stream */
+ uint32_t mh_dumpmediafileix; /* 4 340 */
+ /* 0-based index of file within dump stream and media object */
+ uint32_t mh_dumpmediaix; /* 4 344 */
+ /* 0-based index of this dump within the media object */
+ int32_t mh_strategyid; /* 4 348 */
+ /* ID of the media strategy used to produce this dump */
+ char mh_pad3[0x38]; /* 38 380 */
+ /* padding */
+ char mh_specific[0x80]; /* 80 400 */
+ /* media strategy-specific info */
+ char mh_upper[MEDIA_HDR_SZ - 0x400]; /* 400 800 */
+ /* header info private to upper software layers */
+};
+typedef struct media_hdr media_hdr_t;
+
+#define CONTENT_HDR_SZ sizeofmember(media_hdr_t, mh_upper)
+#define CONTENT_HDR_FSTYPE_SZ 16
+#define CONTENT_STATSZ 160 /* must match dlog.h DLOG_MULTI_STATSZ */
+struct content_hdr {
+ char ch_mntpnt[GLOBAL_HDR_STRING_SZ]; /* 100 100 */
+ /* full pathname of fs mount point */
+ char ch_fsdevice[GLOBAL_HDR_STRING_SZ]; /* 100 200 */
+ /* full pathname of char device containing fs */
+ char ch_pad1[GLOBAL_HDR_STRING_SZ]; /* 100 300 */
+ /* in case another label is needed */
+ char ch_fstype[CONTENT_HDR_FSTYPE_SZ]; /* 10 310 */
+ /* from fsid.h */
+ uuid_t ch_fsid; /* 10 320 */
+ /* file system uuid */
+ char ch_pad2[GLOBAL_HDR_UUID_SZ]; /* 10 330 */
+ /* in case another id is needed */
+ char ch_pad3[8]; /* 8 338 */
+ /* padding */
+ int32_t ch_strategyid; /* 4 33c */
+ /* ID of the content strategy used to produce this dump */
+ char ch_pad4[4]; /* 4 340 */
+ /* alignment */
+ char ch_specific[0xc0]; /* c0 400 */
+ /* content strategy-specific info */
+};
+typedef struct content_hdr content_hdr_t;
+
+typedef uint64_t xfs_ino_t;
+struct startpt {
+ xfs_ino_t sp_ino; /* first inode to dump */
+ off64_t sp_offset; /* bytes to skip in file data fork */
+ int32_t sp_flags;
+ int32_t sp_pad1;
+};
+typedef struct startpt startpt_t;
+
+#define CONTENT_INODE_HDR_SZ sizeofmember(content_hdr_t, ch_specific)
+struct content_inode_hdr {
+ int32_t cih_mediafiletype; /* 4 4 */
+ /* dump media file type: see #defines below */
+ int32_t cih_dumpattr; /* 4 8 */
+ /* dump attributes: see #defines below */
+ int32_t cih_level; /* 4 c */
+ /* dump level */
+ char pad1[4]; /* 4 10 */
+ /* alignment */
+ time32_t cih_last_time; /* 4 14 */
+ /* if an incremental, time of previous dump at a lesser level */
+ time32_t cih_resume_time; /* 4 18 */
+ /* if a resumed dump, time of interrupted dump */
+ xfs_ino_t cih_rootino; /* 8 20 */
+ /* root inode number */
+ uuid_t cih_last_id; /* 10 30 */
+ /* if an incremental, uuid of prev dump */
+ uuid_t cih_resume_id; /* 10 40 */
+ /* if a resumed dump, uuid of interrupted dump */
+ startpt_t cih_startpt; /* 18 58 */
+ /* starting point of media file contents */
+ startpt_t cih_endpt; /* 18 70 */
+ /* starting point of next stream */
+ uint64_t cih_inomap_hnkcnt; /* 8 78 */
+
+ uint64_t cih_inomap_segcnt; /* 8 80 */
+
+ uint64_t cih_inomap_dircnt; /* 8 88 */
+
+ uint64_t cih_inomap_nondircnt; /* 8 90 */
+
+ xfs_ino_t cih_inomap_firstino; /* 8 98 */
+
+ xfs_ino_t cih_inomap_lastino; /* 8 a0 */
+
+ uint64_t cih_inomap_datasz; /* 8 a8 */
+ /* bytes of non-metadata dumped */
+ char cih_pad2[CONTENT_INODE_HDR_SZ - 0xa8]; /* 18 c0 */
+ /* padding */
+};
+typedef struct content_inode_hdr content_inode_hdr_t;
+// End of definitions from xfsdump
+
+int main(int argc, char *argv[]) {
+
+ if (argc < 3) {
+ fprintf(stderr, "Usage: %s <path/to/dumpfile> <fake rootino>\n", argv[0]);
+ exit(1);
+ }
+
+ const char *filepath = argv[1];
+ const uint64_t fake_root_ino = (uint64_t)strtol(argv[2], NULL, 10);
+
+ int fd = open(filepath, O_RDWR);
+ if (fd < 0) {
+ perror("open");
+ exit(1);
+ }
+ global_hdr_t *header = mmap(NULL, GLOBAL_HDR_SZ, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
+ if (header == MAP_FAILED) {
+ perror("mmap");
+ exit(1);
+ }
+
+ drive_hdr_t *dh = (drive_hdr_t *)header->gh_upper;
+ media_hdr_t *mh = (media_hdr_t *)dh->dh_upper;
+ content_hdr_t *ch = (content_hdr_t *)mh->mh_upper;
+ content_inode_hdr_t *cih = (content_inode_hdr_t *)ch->ch_specific;
+ uint64_t *rootino_ptr = &cih->cih_rootino;
+
+ int32_t checksum = (int32_t)be32toh(header->gh_checksum);
+ uint64_t orig_rootino = be64toh(*rootino_ptr);
+
+ // Fake root inode number
+ *rootino_ptr = htobe64(fake_root_ino);
+
+ // Update checksum along with overwriting rootino.
+ uint64_t gap = orig_rootino - fake_root_ino;
+ checksum += (gap >> 32) + (gap & 0x00000000ffffffff);
+ header->gh_checksum = htobe32(checksum);
+
+ munmap(header, GLOBAL_HDR_SZ);
+ close(fd);
+}
new file mode 100755
@@ -0,0 +1,75 @@
+#! /bin/bash
+# SPDX-License-Identifier: GPL-2.0
+# Copyright (c) 2022 Fujitsu Limited. All Rights Reserved.
+#
+# FS QA Test No. 554
+#
+# Create a filesystem which contains an inode with a lower number
+# than the root inode. Set the lower number to a dump file as the root inode
+# and ensure that 'xfsrestore -x' handles this wrong inode.
+#
+. ./common/preamble
+_begin_fstest auto quick dump
+
+# Import common functions.
+. ./common/dump
+
+_supported_fs xfs
+_fixed_by_git_commit xfsdump \
+ "XXXXXXXXXXXX xfsrestore: fix rootdir due to xfsdump bulkstat misuse"
+_require_xfs_io_command "falloc"
+_require_scratch
+_require_xfsrestore_xflag
+
+# A large stripe unit will put the root inode out quite far
+# due to alignment, leaving free blocks ahead of it.
+_scratch_mkfs_xfs -d sunit=1024,swidth=1024 > $seqres.full 2>&1 || _fail "mkfs failed"
+
+# Mounting /without/ a stripe should allow inodes to be allocated
+# in lower free blocks, without the stripe alignment.
+_scratch_mount -o sunit=0,swidth=0
+
+root_inum=$(stat -c %i $SCRATCH_MNT)
+
+# Consume space after the root inode so that the blocks before
+# root look "close" for the next inode chunk allocation
+$XFS_IO_PROG -f -c "falloc 0 16m" $SCRATCH_MNT/fillfile
+
+# And make a bunch of inodes until we (hopefully) get one lower
+# than root, in a new inode chunk.
+echo "root_inum: $root_inum" >> $seqres.full
+for i in $(seq 0 4096) ; do
+ fname=$SCRATCH_MNT/$(printf "FILE_%03d" $i)
+ touch $fname
+ inum=$(stat -c "%i" $fname)
+ [[ $inum -lt $root_inum ]] && break
+done
+
+echo "created: $inum" >> $seqres.full
+
+[[ $inum -lt $root_inum ]] || _notrun "Could not set up test"
+
+# Now try a dump and restore. Cribbed from xfs/068
+_create_dumpdir_stress
+
+echo -n "Before: " >> $seqres.full
+_count_dumpdir_files | tee $tmp.before >> $seqres.full
+
+_do_dump_file
+
+# Set the wrong root inode number to the dump file
+# as problematic xfsdump used to do.
+$here/src/fake-dump-rootino $dump_file $inum
+
+_do_restore_file -x | \
+sed -e "s/rootino #${inum}/rootino #FAKENO/g" \
+ -e "s/# to ${root_inum}/# to ROOTNO/g" \
+ -e "/entries processed$/s/[0-9][0-9]*/NUM/g"
+
+echo -n "After: " >> $seqres.full
+_count_restoredir_files | tee $tmp.after >> $seqres.full
+diff -u $tmp.before $tmp.after
+
+# success, all done
+status=0
+exit
new file mode 100644
@@ -0,0 +1,40 @@
+QA output created by 554
+Creating directory system to dump using fsstress.
+
+-----------------------------------------------
+fsstress : -f link=10 -f creat=10 -f mkdir=10 -f truncate=5 -f symlink=10
+-----------------------------------------------
+Dumping to file...
+xfsdump -f DUMP_FILE -M stress_tape_media -L stress_554 SCRATCH_MNT
+xfsdump: using file dump (drive_simple) strategy
+xfsdump: level 0 dump of HOSTNAME:SCRATCH_MNT
+xfsdump: dump date: DATE
+xfsdump: session id: ID
+xfsdump: session label: "stress_554"
+xfsdump: ino map <PHASES>
+xfsdump: ino map construction complete
+xfsdump: estimated dump size: NUM bytes
+xfsdump: /var/xfsdump/inventory created
+xfsdump: creating dump session media file 0 (media 0, file 0)
+xfsdump: dumping ino map
+xfsdump: dumping directories
+xfsdump: dumping non-directory files
+xfsdump: ending media file
+xfsdump: media file size NUM bytes
+xfsdump: dump size (non-dir files) : NUM bytes
+xfsdump: dump complete: SECS seconds elapsed
+xfsdump: Dump Status: SUCCESS
+Restoring from file...
+xfsrestore -x -f DUMP_FILE -L stress_554 RESTORE_DIR
+xfsrestore: using file dump (drive_simple) strategy
+xfsrestore: using online session inventory
+xfsrestore: searching media for directory dump
+xfsrestore: examining media file 0
+xfsrestore: reading directories
+xfsrestore: found fake rootino #FAKENO, will fix.
+xfsrestore: fix root # to ROOTNO (bind mount?)
+xfsrestore: NUM directories and NUM entries processed
+xfsrestore: directory post-processing
+xfsrestore: restoring non-directory files
+xfsrestore: restore complete: SECS seconds elapsed
+xfsrestore: Restore Status: SUCCESS