diff --git a/sys/fs/fuse/fuse_vnops.c b/sys/fs/fuse/fuse_vnops.c index 5dc5ed8ed468..ada7dc1dcc81 100644 --- a/sys/fs/fuse/fuse_vnops.c +++ b/sys/fs/fuse/fuse_vnops.c @@ -1,2922 +1,2924 @@ /*- * SPDX-License-Identifier: BSD-3-Clause * * Copyright (c) 2007-2009 Google Inc. and Amit Singh * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Copyright (C) 2005 Csaba Henk. * All rights reserved. * * Copyright (c) 2019 The FreeBSD Foundation * * Portions of this software were developed by BFF Storage Systems, LLC under * sponsorship from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "fuse.h" #include "fuse_file.h" #include "fuse_internal.h" #include "fuse_ipc.h" #include "fuse_node.h" #include "fuse_io.h" #include /* Maximum number of hardlinks to a single FUSE file */ #define FUSE_LINK_MAX UINT32_MAX SDT_PROVIDER_DECLARE(fusefs); /* * Fuse trace probe: * arg0: verbosity. Higher numbers give more verbose messages * arg1: Textual message */ SDT_PROBE_DEFINE2(fusefs, , vnops, trace, "int", "char*"); /* vnode ops */ static vop_access_t fuse_vnop_access; static vop_advlock_t fuse_vnop_advlock; static vop_bmap_t fuse_vnop_bmap; static vop_close_t fuse_fifo_close; static vop_close_t fuse_vnop_close; static vop_copy_file_range_t fuse_vnop_copy_file_range; static vop_create_t fuse_vnop_create; static vop_deleteextattr_t fuse_vnop_deleteextattr; static vop_fdatasync_t fuse_vnop_fdatasync; static vop_fsync_t fuse_vnop_fsync; static vop_getattr_t fuse_vnop_getattr; static vop_getextattr_t fuse_vnop_getextattr; static vop_inactive_t fuse_vnop_inactive; static vop_ioctl_t fuse_vnop_ioctl; static vop_link_t fuse_vnop_link; static vop_listextattr_t fuse_vnop_listextattr; static vop_lookup_t fuse_vnop_lookup; static vop_mkdir_t fuse_vnop_mkdir; static vop_mknod_t fuse_vnop_mknod; static vop_open_t fuse_vnop_open; static vop_pathconf_t fuse_vnop_pathconf; static vop_read_t fuse_vnop_read; static vop_readdir_t fuse_vnop_readdir; static vop_readlink_t fuse_vnop_readlink; static vop_reclaim_t fuse_vnop_reclaim; static vop_remove_t fuse_vnop_remove; static vop_rename_t fuse_vnop_rename; static vop_rmdir_t fuse_vnop_rmdir; static vop_setattr_t fuse_vnop_setattr; static vop_setextattr_t fuse_vnop_setextattr; static vop_strategy_t fuse_vnop_strategy; static vop_symlink_t fuse_vnop_symlink; static vop_write_t fuse_vnop_write; static vop_getpages_t fuse_vnop_getpages; static vop_print_t fuse_vnop_print; static vop_vptofh_t fuse_vnop_vptofh; struct vop_vector fuse_fifoops = { .vop_default = &fifo_specops, .vop_access = fuse_vnop_access, .vop_close = fuse_fifo_close, .vop_fsync = fuse_vnop_fsync, .vop_getattr = fuse_vnop_getattr, .vop_inactive = fuse_vnop_inactive, .vop_pathconf = fuse_vnop_pathconf, .vop_print = fuse_vnop_print, .vop_read = VOP_PANIC, .vop_reclaim = fuse_vnop_reclaim, .vop_setattr = fuse_vnop_setattr, .vop_write = VOP_PANIC, .vop_vptofh = fuse_vnop_vptofh, }; VFS_VOP_VECTOR_REGISTER(fuse_fifoops); struct vop_vector fuse_vnops = { .vop_allocate = VOP_EINVAL, .vop_default = &default_vnodeops, .vop_access = fuse_vnop_access, .vop_advlock = fuse_vnop_advlock, .vop_bmap = fuse_vnop_bmap, .vop_close = fuse_vnop_close, .vop_copy_file_range = fuse_vnop_copy_file_range, .vop_create = fuse_vnop_create, .vop_deleteextattr = fuse_vnop_deleteextattr, .vop_fsync = fuse_vnop_fsync, .vop_fdatasync = fuse_vnop_fdatasync, .vop_getattr = fuse_vnop_getattr, .vop_getextattr = fuse_vnop_getextattr, .vop_inactive = fuse_vnop_inactive, .vop_ioctl = fuse_vnop_ioctl, .vop_link = fuse_vnop_link, .vop_listextattr = fuse_vnop_listextattr, .vop_lookup = fuse_vnop_lookup, .vop_mkdir = fuse_vnop_mkdir, .vop_mknod = fuse_vnop_mknod, .vop_open = fuse_vnop_open, .vop_pathconf = fuse_vnop_pathconf, /* * TODO: implement vop_poll after upgrading to protocol 7.21. * FUSE_POLL was added in protocol 7.11, but it's kind of broken until * 7.21, which adds the ability for the client to choose which poll * events it wants, and for a client to deregister a file handle */ .vop_read = fuse_vnop_read, .vop_readdir = fuse_vnop_readdir, .vop_readlink = fuse_vnop_readlink, .vop_reclaim = fuse_vnop_reclaim, .vop_remove = fuse_vnop_remove, .vop_rename = fuse_vnop_rename, .vop_rmdir = fuse_vnop_rmdir, .vop_setattr = fuse_vnop_setattr, .vop_setextattr = fuse_vnop_setextattr, .vop_strategy = fuse_vnop_strategy, .vop_symlink = fuse_vnop_symlink, .vop_write = fuse_vnop_write, .vop_getpages = fuse_vnop_getpages, .vop_print = fuse_vnop_print, .vop_vptofh = fuse_vnop_vptofh, }; VFS_VOP_VECTOR_REGISTER(fuse_vnops); uma_zone_t fuse_pbuf_zone; /* Check permission for extattr operations, much like extattr_check_cred */ static int fuse_extattr_check_cred(struct vnode *vp, int ns, struct ucred *cred, struct thread *td, accmode_t accmode) { struct mount *mp = vnode_mount(vp); struct fuse_data *data = fuse_get_mpdata(mp); int default_permissions = data->dataflags & FSESS_DEFAULT_PERMISSIONS; /* * Kernel-invoked always succeeds. */ if (cred == NOCRED) return (0); /* * Do not allow privileged processes in jail to directly manipulate * system attributes. */ switch (ns) { case EXTATTR_NAMESPACE_SYSTEM: if (default_permissions) { return (priv_check_cred(cred, PRIV_VFS_EXTATTR_SYSTEM)); } return (0); case EXTATTR_NAMESPACE_USER: if (default_permissions) { return (fuse_internal_access(vp, accmode, td, cred)); } return (0); default: return (EPERM); } } /* Get a filehandle for a directory */ static int fuse_filehandle_get_dir(struct vnode *vp, struct fuse_filehandle **fufhp, struct ucred *cred, pid_t pid) { if (fuse_filehandle_get(vp, FREAD, fufhp, cred, pid) == 0) return 0; return fuse_filehandle_get(vp, FEXEC, fufhp, cred, pid); } /* Send FUSE_FLUSH for this vnode */ static int fuse_flush(struct vnode *vp, struct ucred *cred, pid_t pid, int fflag) { struct fuse_flush_in *ffi; struct fuse_filehandle *fufh; struct fuse_dispatcher fdi; struct thread *td = curthread; struct mount *mp = vnode_mount(vp); int err; if (fsess_not_impl(vnode_mount(vp), FUSE_FLUSH)) return 0; err = fuse_filehandle_getrw(vp, fflag, &fufh, cred, pid); if (err) return err; fdisp_init(&fdi, sizeof(*ffi)); fdisp_make_vp(&fdi, FUSE_FLUSH, vp, td, cred); ffi = fdi.indata; ffi->fh = fufh->fh_id; /* * If the file has a POSIX lock then we're supposed to set lock_owner. * If not, then lock_owner is undefined. So we may as well always set * it. */ ffi->lock_owner = td->td_proc->p_pid; err = fdisp_wait_answ(&fdi); if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_FLUSH); err = 0; } fdisp_destroy(&fdi); return err; } /* Close wrapper for fifos. */ static int fuse_fifo_close(struct vop_close_args *ap) { return (fifo_specops.vop_close(ap)); } /* Invalidate a range of cached data, whether dirty of not */ static int fuse_inval_buf_range(struct vnode *vp, off_t filesize, off_t start, off_t end) { struct buf *bp; daddr_t left_lbn, end_lbn, right_lbn; off_t new_filesize; int iosize, left_on, right_on, right_blksize; iosize = fuse_iosize(vp); left_lbn = start / iosize; end_lbn = howmany(end, iosize); left_on = start & (iosize - 1); if (left_on != 0) { bp = getblk(vp, left_lbn, iosize, PCATCH, 0, 0); if ((bp->b_flags & B_CACHE) != 0 && bp->b_dirtyend >= left_on) { /* * Flush the dirty buffer, because we don't have a * byte-granular way to record which parts of the * buffer are valid. */ bwrite(bp); if (bp->b_error) return (bp->b_error); } else { brelse(bp); } } right_on = end & (iosize - 1); if (right_on != 0) { right_lbn = end / iosize; new_filesize = MAX(filesize, end); right_blksize = MIN(iosize, new_filesize - iosize * right_lbn); bp = getblk(vp, right_lbn, right_blksize, PCATCH, 0, 0); if ((bp->b_flags & B_CACHE) != 0 && bp->b_dirtyoff < right_on) { /* * Flush the dirty buffer, because we don't have a * byte-granular way to record which parts of the * buffer are valid. */ bwrite(bp); if (bp->b_error) return (bp->b_error); } else { brelse(bp); } } v_inval_buf_range(vp, left_lbn, end_lbn, iosize); return (0); } /* Send FUSE_LSEEK for this node */ static int fuse_vnop_do_lseek(struct vnode *vp, struct thread *td, struct ucred *cred, pid_t pid, off_t *offp, int whence) { struct fuse_dispatcher fdi; struct fuse_filehandle *fufh; struct fuse_lseek_in *flsi; struct fuse_lseek_out *flso; struct mount *mp = vnode_mount(vp); int err; ASSERT_VOP_LOCKED(vp, __func__); err = fuse_filehandle_getrw(vp, FREAD, &fufh, cred, pid); if (err) return (err); fdisp_init(&fdi, sizeof(*flsi)); fdisp_make_vp(&fdi, FUSE_LSEEK, vp, td, cred); flsi = fdi.indata; flsi->fh = fufh->fh_id; flsi->offset = *offp; flsi->whence = whence; err = fdisp_wait_answ(&fdi); if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_LSEEK); } else if (err == 0) { fsess_set_impl(mp, FUSE_LSEEK); flso = fdi.answ; *offp = flso->offset; } fdisp_destroy(&fdi); return (err); } /* struct vnop_access_args { struct vnode *a_vp; #if VOP_ACCESS_TAKES_ACCMODE_T accmode_t a_accmode; #else int a_mode; #endif struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_access(struct vop_access_args *ap) { struct vnode *vp = ap->a_vp; int accmode = ap->a_accmode; struct ucred *cred = ap->a_cred; struct fuse_data *data = fuse_get_mpdata(vnode_mount(vp)); int err; if (fuse_isdeadfs(vp)) { if (vnode_isvroot(vp)) { return 0; } return ENXIO; } if (!(data->dataflags & FSESS_INITED)) { if (vnode_isvroot(vp)) { if (priv_check_cred(cred, PRIV_VFS_ADMIN) || (fuse_match_cred(data->daemoncred, cred) == 0)) { return 0; } } return EBADF; } if (vnode_islnk(vp)) { return 0; } err = fuse_internal_access(vp, accmode, ap->a_td, ap->a_cred); return err; } /* * struct vop_advlock_args { * struct vop_generic_args a_gen; * struct vnode *a_vp; * void *a_id; * int a_op; * struct flock *a_fl; * int a_flags; * } */ static int fuse_vnop_advlock(struct vop_advlock_args *ap) { struct vnode *vp = ap->a_vp; struct flock *fl = ap->a_fl; struct thread *td = curthread; struct ucred *cred = td->td_ucred; pid_t pid = td->td_proc->p_pid; struct fuse_filehandle *fufh; struct fuse_dispatcher fdi; struct fuse_lk_in *fli; struct fuse_lk_out *flo; enum fuse_opcode op; int dataflags, err; int flags = ap->a_flags; dataflags = fuse_get_mpdata(vnode_mount(vp))->dataflags; if (fuse_isdeadfs(vp)) { return ENXIO; } switch(ap->a_op) { case F_GETLK: op = FUSE_GETLK; break; case F_SETLK: if (flags & F_WAIT) op = FUSE_SETLKW; else op = FUSE_SETLK; break; case F_UNLCK: op = FUSE_SETLK; break; default: return EINVAL; } if (!(dataflags & FSESS_POSIX_LOCKS)) return vop_stdadvlock(ap); /* FUSE doesn't properly support flock until protocol 7.17 */ if (flags & F_FLOCK) return vop_stdadvlock(ap); vn_lock(vp, LK_SHARED | LK_RETRY); err = fuse_filehandle_get_anyflags(vp, &fufh, cred, pid); if (err) goto out; fdisp_init(&fdi, sizeof(*fli)); fdisp_make_vp(&fdi, op, vp, td, cred); fli = fdi.indata; fli->fh = fufh->fh_id; fli->owner = td->td_proc->p_pid; fli->lk.start = fl->l_start; if (fl->l_len != 0) fli->lk.end = fl->l_start + fl->l_len - 1; else fli->lk.end = INT64_MAX; fli->lk.type = fl->l_type; fli->lk.pid = td->td_proc->p_pid; err = fdisp_wait_answ(&fdi); fdisp_destroy(&fdi); if (err == 0 && op == FUSE_GETLK) { flo = fdi.answ; fl->l_type = flo->lk.type; fl->l_pid = flo->lk.pid; if (flo->lk.type != F_UNLCK) { fl->l_start = flo->lk.start; if (flo->lk.end == INT64_MAX) fl->l_len = 0; else fl->l_len = flo->lk.end - flo->lk.start + 1; fl->l_start = flo->lk.start; } } out: VOP_UNLOCK(vp); return err; } /* { struct vnode *a_vp; daddr_t a_bn; struct bufobj **a_bop; daddr_t *a_bnp; int *a_runp; int *a_runb; } */ static int fuse_vnop_bmap(struct vop_bmap_args *ap) { struct vnode *vp = ap->a_vp; struct bufobj **bo = ap->a_bop; struct thread *td = curthread; struct mount *mp; struct fuse_dispatcher fdi; struct fuse_bmap_in *fbi; struct fuse_bmap_out *fbo; struct fuse_data *data; struct fuse_vnode_data *fvdat = VTOFUD(vp); uint64_t biosize; off_t fsize; daddr_t lbn = ap->a_bn; daddr_t *pbn = ap->a_bnp; int *runp = ap->a_runp; int *runb = ap->a_runb; int error = 0; int maxrun; if (fuse_isdeadfs(vp)) { return ENXIO; } mp = vnode_mount(vp); data = fuse_get_mpdata(mp); biosize = fuse_iosize(vp); maxrun = MIN(vp->v_mount->mnt_iosize_max / biosize - 1, data->max_readahead_blocks); if (bo != NULL) *bo = &vp->v_bufobj; /* * The FUSE_BMAP operation does not include the runp and runb * variables, so we must guess. Report nonzero contiguous runs so * cluster_read will combine adjacent reads. It's worthwhile to reduce * upcalls even if we don't know the true physical layout of the file. * * FUSE file systems may opt out of read clustering in two ways: * * mounting with -onoclusterr * * Setting max_readahead <= maxbcachebuf during FUSE_INIT */ if (runb != NULL) *runb = MIN(lbn, maxrun); if (runp != NULL && maxrun == 0) *runp = 0; else if (runp != NULL) { /* * If the file's size is cached, use that value to calculate * runp, even if the cache is expired. runp is only advisory, * and the risk of getting it wrong is not worth the cost of * another upcall. */ if (fvdat->cached_attrs.va_size != VNOVAL) fsize = fvdat->cached_attrs.va_size; else error = fuse_vnode_size(vp, &fsize, td->td_ucred, td); if (error == 0) *runp = MIN(MAX(0, fsize / (off_t)biosize - lbn - 1), maxrun); else *runp = 0; } if (fsess_maybe_impl(mp, FUSE_BMAP)) { fdisp_init(&fdi, sizeof(*fbi)); fdisp_make_vp(&fdi, FUSE_BMAP, vp, td, td->td_ucred); fbi = fdi.indata; fbi->block = lbn; fbi->blocksize = biosize; error = fdisp_wait_answ(&fdi); if (error == ENOSYS) { fdisp_destroy(&fdi); fsess_set_notimpl(mp, FUSE_BMAP); error = 0; } else { fbo = fdi.answ; if (error == 0 && pbn != NULL) *pbn = fbo->block; fdisp_destroy(&fdi); return error; } } /* If the daemon doesn't support BMAP, make up a sensible default */ if (pbn != NULL) *pbn = lbn * btodb(biosize); return (error); } /* struct vop_close_args { struct vnode *a_vp; int a_fflag; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_close(struct vop_close_args *ap) { struct vnode *vp = ap->a_vp; struct ucred *cred = ap->a_cred; int fflag = ap->a_fflag; struct thread *td = ap->a_td; pid_t pid = td->td_proc->p_pid; struct fuse_vnode_data *fvdat = VTOFUD(vp); int err = 0; if (fuse_isdeadfs(vp)) return 0; if (vnode_isdir(vp)) return 0; if (fflag & IO_NDELAY) return 0; err = fuse_flush(vp, cred, pid, fflag); if (err == 0 && (fvdat->flag & FN_ATIMECHANGE)) { struct vattr vap; VATTR_NULL(&vap); vap.va_atime = fvdat->cached_attrs.va_atime; err = fuse_internal_setattr(vp, &vap, td, NULL); } /* TODO: close the file handle, if we're sure it's no longer used */ if ((fvdat->flag & FN_SIZECHANGE) != 0) { fuse_vnode_savesize(vp, cred, td->td_proc->p_pid); } return err; } /* struct vop_copy_file_range_args { struct vop_generic_args a_gen; struct vnode *a_invp; off_t *a_inoffp; struct vnode *a_outvp; off_t *a_outoffp; size_t *a_lenp; unsigned int a_flags; struct ucred *a_incred; struct ucred *a_outcred; struct thread *a_fsizetd; } */ static int fuse_vnop_copy_file_range(struct vop_copy_file_range_args *ap) { struct vnode *invp = ap->a_invp; struct vnode *outvp = ap->a_outvp; struct mount *mp = vnode_mount(invp); struct fuse_vnode_data *outfvdat = VTOFUD(outvp); struct fuse_dispatcher fdi; struct fuse_filehandle *infufh, *outfufh; struct fuse_copy_file_range_in *fcfri; struct ucred *incred = ap->a_incred; struct ucred *outcred = ap->a_outcred; struct fuse_write_out *fwo; struct thread *td; struct uio io; off_t outfilesize; pid_t pid; int err; if (mp != vnode_mount(outvp)) goto fallback; if (incred->cr_uid != outcred->cr_uid) goto fallback; if (incred->cr_groups[0] != outcred->cr_groups[0]) goto fallback; if (fsess_not_impl(mp, FUSE_COPY_FILE_RANGE)) goto fallback; if (ap->a_fsizetd == NULL) td = curthread; else td = ap->a_fsizetd; pid = td->td_proc->p_pid; /* Lock both vnodes, avoiding risk of deadlock. */ do { err = vn_lock(outvp, LK_EXCLUSIVE); if (invp == outvp) break; if (err == 0) { err = vn_lock(invp, LK_SHARED | LK_NOWAIT); if (err == 0) break; VOP_UNLOCK(outvp); err = vn_lock(invp, LK_SHARED); if (err == 0) VOP_UNLOCK(invp); } } while (err == 0); if (err != 0) return (err); err = fuse_filehandle_getrw(invp, FREAD, &infufh, incred, pid); if (err) goto unlock; err = fuse_filehandle_getrw(outvp, FWRITE, &outfufh, outcred, pid); if (err) goto unlock; if (ap->a_fsizetd) { io.uio_offset = *ap->a_outoffp; io.uio_resid = *ap->a_lenp; err = vn_rlimit_fsize(outvp, &io, ap->a_fsizetd); if (err) goto unlock; } err = fuse_vnode_size(outvp, &outfilesize, outcred, curthread); if (err) goto unlock; err = fuse_inval_buf_range(outvp, outfilesize, *ap->a_outoffp, *ap->a_outoffp + *ap->a_lenp); if (err) goto unlock; fdisp_init(&fdi, sizeof(*fcfri)); fdisp_make_vp(&fdi, FUSE_COPY_FILE_RANGE, invp, td, incred); fcfri = fdi.indata; fcfri->fh_in = infufh->fh_id; fcfri->off_in = *ap->a_inoffp; fcfri->nodeid_out = VTOI(outvp); fcfri->fh_out = outfufh->fh_id; fcfri->off_out = *ap->a_outoffp; fcfri->len = *ap->a_lenp; fcfri->flags = 0; err = fdisp_wait_answ(&fdi); if (err == 0) { fwo = fdi.answ; *ap->a_lenp = fwo->size; *ap->a_inoffp += fwo->size; *ap->a_outoffp += fwo->size; fuse_internal_clear_suid_on_write(outvp, outcred, td); if (*ap->a_outoffp > outfvdat->cached_attrs.va_size) { fuse_vnode_setsize(outvp, *ap->a_outoffp, false); getnanouptime(&outfvdat->last_local_modify); } + fuse_vnode_update(invp, FN_ATIMECHANGE); + fuse_vnode_update(outvp, FN_MTIMECHANGE | FN_CTIMECHANGE); } fdisp_destroy(&fdi); unlock: if (invp != outvp) VOP_UNLOCK(invp); VOP_UNLOCK(outvp); if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_COPY_FILE_RANGE); fallback: err = vn_generic_copy_file_range(ap->a_invp, ap->a_inoffp, ap->a_outvp, ap->a_outoffp, ap->a_lenp, ap->a_flags, ap->a_incred, ap->a_outcred, ap->a_fsizetd); } return (err); } static void fdisp_make_mknod_for_fallback( struct fuse_dispatcher *fdip, struct componentname *cnp, struct vnode *dvp, uint64_t parentnid, struct thread *td, struct ucred *cred, mode_t mode, enum fuse_opcode *op) { struct fuse_mknod_in *fmni; fdisp_init(fdip, sizeof(*fmni) + cnp->cn_namelen + 1); *op = FUSE_MKNOD; fdisp_make(fdip, *op, vnode_mount(dvp), parentnid, td, cred); fmni = fdip->indata; fmni->mode = mode; fmni->rdev = 0; memcpy((char *)fdip->indata + sizeof(*fmni), cnp->cn_nameptr, cnp->cn_namelen); ((char *)fdip->indata)[sizeof(*fmni) + cnp->cn_namelen] = '\0'; } /* struct vnop_create_args { struct vnode *a_dvp; struct vnode **a_vpp; struct componentname *a_cnp; struct vattr *a_vap; }; */ static int fuse_vnop_create(struct vop_create_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode **vpp = ap->a_vpp; struct componentname *cnp = ap->a_cnp; struct vattr *vap = ap->a_vap; struct thread *td = curthread; struct ucred *cred = cnp->cn_cred; struct fuse_data *data; struct fuse_create_in *fci; struct fuse_entry_out *feo; struct fuse_open_out *foo; struct fuse_dispatcher fdi, fdi2; struct fuse_dispatcher *fdip = &fdi; struct fuse_dispatcher *fdip2 = NULL; int err; struct mount *mp = vnode_mount(dvp); data = fuse_get_mpdata(mp); uint64_t parentnid = VTOFUD(dvp)->nid; mode_t mode = MAKEIMODE(vap->va_type, vap->va_mode); enum fuse_opcode op; int flags; if (fuse_isdeadfs(dvp)) return ENXIO; /* FUSE expects sockets to be created with FUSE_MKNOD */ if (vap->va_type == VSOCK) return fuse_internal_mknod(dvp, vpp, cnp, vap); /* * VOP_CREATE doesn't tell us the open(2) flags, so we guess. Only a * writable mode makes sense, and we might as well include readability * too. */ flags = O_RDWR; bzero(&fdi, sizeof(fdi)); if (vap->va_type != VREG) return (EINVAL); if (fsess_not_impl(mp, FUSE_CREATE) || vap->va_type == VSOCK) { /* Fallback to FUSE_MKNOD/FUSE_OPEN */ fdisp_make_mknod_for_fallback(fdip, cnp, dvp, parentnid, td, cred, mode, &op); } else { /* Use FUSE_CREATE */ size_t insize; op = FUSE_CREATE; fdisp_init(fdip, sizeof(*fci) + cnp->cn_namelen + 1); fdisp_make(fdip, op, vnode_mount(dvp), parentnid, td, cred); fci = fdip->indata; fci->mode = mode; fci->flags = O_CREAT | flags; if (fuse_libabi_geq(data, 7, 12)) { insize = sizeof(*fci); fci->umask = td->td_proc->p_pd->pd_cmask; } else { insize = sizeof(struct fuse_open_in); } memcpy((char *)fdip->indata + insize, cnp->cn_nameptr, cnp->cn_namelen); ((char *)fdip->indata)[insize + cnp->cn_namelen] = '\0'; } err = fdisp_wait_answ(fdip); if (err) { if (err == ENOSYS && op == FUSE_CREATE) { fsess_set_notimpl(mp, FUSE_CREATE); fdisp_destroy(fdip); fdisp_make_mknod_for_fallback(fdip, cnp, dvp, parentnid, td, cred, mode, &op); err = fdisp_wait_answ(fdip); } if (err) goto out; } feo = fdip->answ; if ((err = fuse_internal_checkentry(feo, vap->va_type))) { goto out; } if (op == FUSE_CREATE) { foo = (struct fuse_open_out*)(feo + 1); } else { /* Issue a separate FUSE_OPEN */ struct fuse_open_in *foi; fdip2 = &fdi2; fdisp_init(fdip2, sizeof(*foi)); fdisp_make(fdip2, FUSE_OPEN, vnode_mount(dvp), feo->nodeid, td, cred); foi = fdip2->indata; foi->flags = flags; err = fdisp_wait_answ(fdip2); if (err) goto out; foo = fdip2->answ; } err = fuse_vnode_get(mp, feo, feo->nodeid, dvp, vpp, cnp, vap->va_type); if (err) { struct fuse_release_in *fri; uint64_t nodeid = feo->nodeid; uint64_t fh_id = foo->fh; fdisp_init(fdip, sizeof(*fri)); fdisp_make(fdip, FUSE_RELEASE, mp, nodeid, td, cred); fri = fdip->indata; fri->fh = fh_id; fri->flags = flags; fuse_insert_callback(fdip->tick, fuse_internal_forget_callback); fuse_insert_message(fdip->tick, false); goto out; } ASSERT_VOP_ELOCKED(*vpp, "fuse_vnop_create"); fuse_internal_cache_attrs(*vpp, &feo->attr, feo->attr_valid, feo->attr_valid_nsec, NULL, true); fuse_filehandle_init(*vpp, FUFH_RDWR, NULL, td, cred, foo); fuse_vnode_open(*vpp, foo->open_flags, td); /* * Purge the parent's attribute cache because the daemon should've * updated its mtime and ctime */ fuse_vnode_clear_attr_cache(dvp); cache_purge_negative(dvp); out: if (fdip2) fdisp_destroy(fdip2); fdisp_destroy(fdip); return err; } /* struct vnop_fdatasync_args { struct vop_generic_args a_gen; struct vnode * a_vp; struct thread * a_td; }; */ static int fuse_vnop_fdatasync(struct vop_fdatasync_args *ap) { struct vnode *vp = ap->a_vp; struct thread *td = ap->a_td; int waitfor = MNT_WAIT; int err = 0; if (fuse_isdeadfs(vp)) { return 0; } if ((err = vop_stdfdatasync_buf(ap))) return err; return fuse_internal_fsync(vp, td, waitfor, true); } /* struct vnop_fsync_args { struct vop_generic_args a_gen; struct vnode * a_vp; int a_waitfor; struct thread * a_td; }; */ static int fuse_vnop_fsync(struct vop_fsync_args *ap) { struct vnode *vp = ap->a_vp; struct thread *td = ap->a_td; int waitfor = ap->a_waitfor; int err = 0; if (fuse_isdeadfs(vp)) { return 0; } if ((err = vop_stdfsync(ap))) return err; return fuse_internal_fsync(vp, td, waitfor, false); } /* struct vnop_getattr_args { struct vnode *a_vp; struct vattr *a_vap; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_getattr(struct vop_getattr_args *ap) { struct vnode *vp = ap->a_vp; struct vattr *vap = ap->a_vap; struct ucred *cred = ap->a_cred; struct thread *td = curthread; int err = 0; int dataflags; dataflags = fuse_get_mpdata(vnode_mount(vp))->dataflags; /* Note that we are not bailing out on a dead file system just yet. */ if (!(dataflags & FSESS_INITED)) { if (!vnode_isvroot(vp)) { fdata_set_dead(fuse_get_mpdata(vnode_mount(vp))); err = ENOTCONN; return err; } else { goto fake; } } err = fuse_internal_getattr(vp, vap, cred, td); if (err == ENOTCONN && vnode_isvroot(vp)) { /* see comment in fuse_vfsop_statfs() */ goto fake; } else { return err; } fake: bzero(vap, sizeof(*vap)); vap->va_type = vnode_vtype(vp); return 0; } /* struct vnop_inactive_args { struct vnode *a_vp; }; */ static int fuse_vnop_inactive(struct vop_inactive_args *ap) { struct vnode *vp = ap->a_vp; struct thread *td = curthread; struct fuse_vnode_data *fvdat = VTOFUD(vp); struct fuse_filehandle *fufh, *fufh_tmp; int need_flush = 1; LIST_FOREACH_SAFE(fufh, &fvdat->handles, next, fufh_tmp) { if (need_flush && vp->v_type == VREG) { if ((VTOFUD(vp)->flag & FN_SIZECHANGE) != 0) { fuse_vnode_savesize(vp, NULL, 0); } if ((fvdat->flag & FN_REVOKED) != 0) fuse_io_invalbuf(vp, td); else fuse_io_flushbuf(vp, MNT_WAIT, td); need_flush = 0; } fuse_filehandle_close(vp, fufh, td, NULL); } if ((fvdat->flag & FN_REVOKED) != 0) vrecycle(vp); return 0; } /* struct vnop_ioctl_args { struct vnode *a_vp; u_long a_command; caddr_t a_data; int a_fflag; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_ioctl(struct vop_ioctl_args *ap) { struct vnode *vp = ap->a_vp; struct mount *mp = vnode_mount(vp); struct ucred *cred = ap->a_cred; off_t *offp; pid_t pid = ap->a_td->td_proc->p_pid; int err; switch (ap->a_command) { case FIOSEEKDATA: case FIOSEEKHOLE: /* Call FUSE_LSEEK, if we can, or fall back to vop_stdioctl */ if (fsess_maybe_impl(mp, FUSE_LSEEK)) { int whence; offp = ap->a_data; if (ap->a_command == FIOSEEKDATA) whence = SEEK_DATA; else whence = SEEK_HOLE; vn_lock(vp, LK_SHARED | LK_RETRY); err = fuse_vnop_do_lseek(vp, ap->a_td, cred, pid, offp, whence); VOP_UNLOCK(vp); } if (fsess_not_impl(mp, FUSE_LSEEK)) err = vop_stdioctl(ap); break; default: /* TODO: implement FUSE_IOCTL */ err = ENOTTY; break; } return (err); } /* struct vnop_link_args { struct vnode *a_tdvp; struct vnode *a_vp; struct componentname *a_cnp; }; */ static int fuse_vnop_link(struct vop_link_args *ap) { struct vnode *vp = ap->a_vp; struct vnode *tdvp = ap->a_tdvp; struct componentname *cnp = ap->a_cnp; struct vattr *vap = VTOVA(vp); struct fuse_dispatcher fdi; struct fuse_entry_out *feo; struct fuse_link_in fli; int err; if (fuse_isdeadfs(vp)) { return ENXIO; } if (vnode_mount(tdvp) != vnode_mount(vp)) { return EXDEV; } /* * This is a seatbelt check to protect naive userspace filesystems from * themselves and the limitations of the FUSE IPC protocol. If a * filesystem does not allow attribute caching, assume it is capable of * validating that nlink does not overflow. */ if (vap != NULL && vap->va_nlink >= FUSE_LINK_MAX) return EMLINK; fli.oldnodeid = VTOI(vp); fdisp_init(&fdi, 0); fuse_internal_newentry_makerequest(vnode_mount(tdvp), VTOI(tdvp), cnp, FUSE_LINK, &fli, sizeof(fli), &fdi); if ((err = fdisp_wait_answ(&fdi))) { goto out; } feo = fdi.answ; err = fuse_internal_checkentry(feo, vnode_vtype(vp)); if (!err) { /* * Purge the parent's attribute cache because the daemon * should've updated its mtime and ctime */ fuse_vnode_clear_attr_cache(tdvp); fuse_internal_cache_attrs(vp, &feo->attr, feo->attr_valid, feo->attr_valid_nsec, NULL, true); } out: fdisp_destroy(&fdi); return err; } struct fuse_lookup_alloc_arg { struct fuse_entry_out *feo; struct componentname *cnp; uint64_t nid; enum vtype vtyp; }; /* Callback for vn_get_ino */ static int fuse_lookup_alloc(struct mount *mp, void *arg, int lkflags, struct vnode **vpp) { struct fuse_lookup_alloc_arg *flaa = arg; return fuse_vnode_get(mp, flaa->feo, flaa->nid, NULL, vpp, flaa->cnp, flaa->vtyp); } SDT_PROBE_DEFINE3(fusefs, , vnops, cache_lookup, "int", "struct timespec*", "struct timespec*"); /* struct vnop_lookup_args { struct vnodeop_desc *a_desc; struct vnode *a_dvp; struct vnode **a_vpp; struct componentname *a_cnp; }; */ int fuse_vnop_lookup(struct vop_lookup_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode **vpp = ap->a_vpp; struct componentname *cnp = ap->a_cnp; struct thread *td = curthread; struct ucred *cred = cnp->cn_cred; struct timespec now; int nameiop = cnp->cn_nameiop; int flags = cnp->cn_flags; int wantparent = flags & (LOCKPARENT | WANTPARENT); int islastcn = flags & ISLASTCN; struct mount *mp = vnode_mount(dvp); struct fuse_data *data = fuse_get_mpdata(mp); int default_permissions = data->dataflags & FSESS_DEFAULT_PERMISSIONS; int err = 0; int lookup_err = 0; struct vnode *vp = NULL; struct fuse_dispatcher fdi; bool did_lookup = false; struct fuse_entry_out *feo = NULL; enum vtype vtyp; /* vnode type of target */ off_t filesize; /* filesize of target */ uint64_t nid; if (fuse_isdeadfs(dvp)) { *vpp = NULL; return ENXIO; } if (!vnode_isdir(dvp)) return ENOTDIR; if (islastcn && vfs_isrdonly(mp) && (nameiop != LOOKUP)) return EROFS; if ((cnp->cn_flags & NOEXECCHECK) != 0) cnp->cn_flags &= ~NOEXECCHECK; else if ((err = fuse_internal_access(dvp, VEXEC, td, cred))) return err; if (flags & ISDOTDOT) { KASSERT(VTOFUD(dvp)->flag & FN_PARENT_NID, ("Looking up .. is TODO")); nid = VTOFUD(dvp)->parent_nid; if (nid == 0) return ENOENT; /* .. is obviously a directory */ vtyp = VDIR; filesize = 0; } else if (cnp->cn_namelen == 1 && *(cnp->cn_nameptr) == '.') { nid = VTOI(dvp); /* . is obviously a directory */ vtyp = VDIR; filesize = 0; } else { struct timespec timeout; int ncpticks; /* here to accomodate for API contract */ err = cache_lookup(dvp, vpp, cnp, &timeout, &ncpticks); getnanouptime(&now); SDT_PROBE3(fusefs, , vnops, cache_lookup, err, &timeout, &now); switch (err) { case -1: /* positive match */ if (timespeccmp(&timeout, &now, >)) { counter_u64_add(fuse_lookup_cache_hits, 1); } else { /* Cache timeout */ counter_u64_add(fuse_lookup_cache_misses, 1); bintime_clear( &VTOFUD(*vpp)->entry_cache_timeout); cache_purge(*vpp); if (dvp != *vpp) vput(*vpp); else vrele(*vpp); *vpp = NULL; break; } return 0; case 0: /* no match in cache */ counter_u64_add(fuse_lookup_cache_misses, 1); break; case ENOENT: /* negative match */ if (timespeccmp(&timeout, &now, <=)) { /* Cache timeout */ cache_purge_negative(dvp); break; } /* fall through */ default: return err; } nid = VTOI(dvp); fdisp_init(&fdi, cnp->cn_namelen + 1); fdisp_make(&fdi, FUSE_LOOKUP, mp, nid, td, cred); memcpy(fdi.indata, cnp->cn_nameptr, cnp->cn_namelen); ((char *)fdi.indata)[cnp->cn_namelen] = '\0'; lookup_err = fdisp_wait_answ(&fdi); did_lookup = true; if (!lookup_err) { /* lookup call succeeded */ feo = (struct fuse_entry_out *)fdi.answ; nid = feo->nodeid; if (nid == 0) { /* zero nodeid means ENOENT and cache it */ struct timespec timeout; fdi.answ_stat = ENOENT; lookup_err = ENOENT; if (cnp->cn_flags & MAKEENTRY) { fuse_validity_2_timespec(feo, &timeout); cache_enter_time(dvp, *vpp, cnp, &timeout, NULL); } } else if (nid == FUSE_ROOT_ID) { lookup_err = EINVAL; } vtyp = IFTOVT(feo->attr.mode); filesize = feo->attr.size; } if (lookup_err && (!fdi.answ_stat || lookup_err != ENOENT)) { fdisp_destroy(&fdi); return lookup_err; } } /* lookup_err, if non-zero, must be ENOENT at this point */ if (lookup_err) { /* Entry not found */ if ((nameiop == CREATE || nameiop == RENAME) && islastcn) { if (default_permissions) err = fuse_internal_access(dvp, VWRITE, td, cred); else err = 0; if (!err) { /* * Set the SAVENAME flag to hold onto the * pathname for use later in VOP_CREATE or * VOP_RENAME. */ cnp->cn_flags |= SAVENAME; err = EJUSTRETURN; } } else { err = ENOENT; } } else { /* Entry was found */ if (flags & ISDOTDOT) { struct fuse_lookup_alloc_arg flaa; flaa.nid = nid; flaa.feo = feo; flaa.cnp = cnp; flaa.vtyp = vtyp; err = vn_vget_ino_gen(dvp, fuse_lookup_alloc, &flaa, 0, &vp); *vpp = vp; } else if (nid == VTOI(dvp)) { vref(dvp); *vpp = dvp; } else { struct fuse_vnode_data *fvdat; err = fuse_vnode_get(vnode_mount(dvp), feo, nid, dvp, &vp, cnp, vtyp); if (err) goto out; *vpp = vp; fvdat = VTOFUD(vp); MPASS(feo != NULL); if (timespeccmp(&now, &fvdat->last_local_modify, >)) { /* * Attributes from the server are definitely * newer than the last attributes we sent to * the server, so cache them. */ fuse_internal_cache_attrs(*vpp, &feo->attr, feo->attr_valid, feo->attr_valid_nsec, NULL, true); } fuse_validity_2_bintime(feo->entry_valid, feo->entry_valid_nsec, &fvdat->entry_cache_timeout); if ((nameiop == DELETE || nameiop == RENAME) && islastcn && default_permissions) { struct vattr dvattr; err = fuse_internal_access(dvp, VWRITE, td, cred); if (err != 0) goto out; /* * if the parent's sticky bit is set, check * whether we're allowed to remove the file. * Need to figure out the vnode locking to make * this work. */ fuse_internal_getattr(dvp, &dvattr, cred, td); if ((dvattr.va_mode & S_ISTXT) && fuse_internal_access(dvp, VADMIN, td, cred) && fuse_internal_access(*vpp, VADMIN, td, cred)) { err = EPERM; goto out; } } if (islastcn && ( (nameiop == DELETE) || (nameiop == RENAME && wantparent))) { cnp->cn_flags |= SAVENAME; } } } out: if (err) { if (vp != NULL && dvp != vp) vput(vp); else if (vp != NULL) vrele(vp); *vpp = NULL; } if (did_lookup) fdisp_destroy(&fdi); return err; } /* struct vnop_mkdir_args { struct vnode *a_dvp; struct vnode **a_vpp; struct componentname *a_cnp; struct vattr *a_vap; }; */ static int fuse_vnop_mkdir(struct vop_mkdir_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode **vpp = ap->a_vpp; struct componentname *cnp = ap->a_cnp; struct vattr *vap = ap->a_vap; struct fuse_mkdir_in fmdi; if (fuse_isdeadfs(dvp)) { return ENXIO; } fmdi.mode = MAKEIMODE(vap->va_type, vap->va_mode); fmdi.umask = curthread->td_proc->p_pd->pd_cmask; return (fuse_internal_newentry(dvp, vpp, cnp, FUSE_MKDIR, &fmdi, sizeof(fmdi), VDIR)); } /* struct vnop_mknod_args { struct vnode *a_dvp; struct vnode **a_vpp; struct componentname *a_cnp; struct vattr *a_vap; }; */ static int fuse_vnop_mknod(struct vop_mknod_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode **vpp = ap->a_vpp; struct componentname *cnp = ap->a_cnp; struct vattr *vap = ap->a_vap; if (fuse_isdeadfs(dvp)) return ENXIO; return fuse_internal_mknod(dvp, vpp, cnp, vap); } /* struct vop_open_args { struct vnode *a_vp; int a_mode; struct ucred *a_cred; struct thread *a_td; int a_fdidx; / struct file *a_fp; }; */ static int fuse_vnop_open(struct vop_open_args *ap) { struct vnode *vp = ap->a_vp; int a_mode = ap->a_mode; struct thread *td = ap->a_td; struct ucred *cred = ap->a_cred; pid_t pid = td->td_proc->p_pid; struct fuse_vnode_data *fvdat; if (fuse_isdeadfs(vp)) return ENXIO; if (vp->v_type == VCHR || vp->v_type == VBLK || vp->v_type == VFIFO) return (EOPNOTSUPP); if ((a_mode & (FREAD | FWRITE | FEXEC)) == 0) return EINVAL; fvdat = VTOFUD(vp); if (fuse_filehandle_validrw(vp, a_mode, cred, pid)) { fuse_vnode_open(vp, 0, td); return 0; } return fuse_filehandle_open(vp, a_mode, NULL, td, cred); } static int fuse_vnop_pathconf(struct vop_pathconf_args *ap) { struct vnode *vp = ap->a_vp; struct mount *mp; switch (ap->a_name) { case _PC_FILESIZEBITS: *ap->a_retval = 64; return (0); case _PC_NAME_MAX: *ap->a_retval = NAME_MAX; return (0); case _PC_LINK_MAX: *ap->a_retval = MIN(LONG_MAX, FUSE_LINK_MAX); return (0); case _PC_SYMLINK_MAX: *ap->a_retval = MAXPATHLEN; return (0); case _PC_NO_TRUNC: *ap->a_retval = 1; return (0); case _PC_MIN_HOLE_SIZE: /* * The FUSE protocol provides no mechanism for a server to * report _PC_MIN_HOLE_SIZE. It's a protocol bug. Instead, * return EINVAL if the server does not support FUSE_LSEEK, or * 1 if it does. */ mp = vnode_mount(vp); if (!fsess_is_impl(mp, FUSE_LSEEK) && !fsess_not_impl(mp, FUSE_LSEEK)) { off_t offset = 0; /* Issue a FUSE_LSEEK to find out if it's implemented */ fuse_vnop_do_lseek(vp, curthread, curthread->td_ucred, curthread->td_proc->p_pid, &offset, SEEK_DATA); } if (fsess_is_impl(mp, FUSE_LSEEK)) { *ap->a_retval = 1; return (0); } else { /* * Probably FUSE_LSEEK is not implemented. It might * be, if the FUSE_LSEEK above returned an error like * EACCES, but in that case we can't tell, so it's * safest to report EINVAL anyway. */ return (EINVAL); } default: return (vop_stdpathconf(ap)); } } SDT_PROBE_DEFINE3(fusefs, , vnops, filehandles_closed, "struct vnode*", "struct uio*", "struct ucred*"); /* struct vnop_read_args { struct vnode *a_vp; struct uio *a_uio; int a_ioflag; struct ucred *a_cred; }; */ static int fuse_vnop_read(struct vop_read_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; int ioflag = ap->a_ioflag; struct ucred *cred = ap->a_cred; pid_t pid = curthread->td_proc->p_pid; struct fuse_filehandle *fufh; int err; bool closefufh = false, directio; MPASS(vp->v_type == VREG || vp->v_type == VDIR); if (fuse_isdeadfs(vp)) { return ENXIO; } if (VTOFUD(vp)->flag & FN_DIRECTIO) { ioflag |= IO_DIRECT; } err = fuse_filehandle_getrw(vp, FREAD, &fufh, cred, pid); if (err == EBADF && vnode_mount(vp)->mnt_flag & MNT_EXPORTED) { /* * nfsd will do I/O without first doing VOP_OPEN. We * must implicitly open the file here */ err = fuse_filehandle_open(vp, FREAD, &fufh, curthread, cred); closefufh = true; } if (err) { SDT_PROBE3(fusefs, , vnops, filehandles_closed, vp, uio, cred); return err; } /* * Ideally, when the daemon asks for direct io at open time, the * standard file flag should be set according to this, so that would * just change the default mode, which later on could be changed via * fcntl(2). * But this doesn't work, the O_DIRECT flag gets cleared at some point * (don't know where). So to make any use of the Fuse direct_io option, * we hardwire it into the file's private data (similarly to Linux, * btw.). */ directio = (ioflag & IO_DIRECT) || !fsess_opt_datacache(vnode_mount(vp)); fuse_vnode_update(vp, FN_ATIMECHANGE); if (directio) { SDT_PROBE2(fusefs, , vnops, trace, 1, "direct read of vnode"); err = fuse_read_directbackend(vp, uio, cred, fufh); } else { SDT_PROBE2(fusefs, , vnops, trace, 1, "buffered read of vnode"); err = fuse_read_biobackend(vp, uio, ioflag, cred, fufh, pid); } if (closefufh) fuse_filehandle_close(vp, fufh, curthread, cred); return (err); } /* struct vnop_readdir_args { struct vnode *a_vp; struct uio *a_uio; struct ucred *a_cred; int *a_eofflag; int *a_ncookies; uint64_t **a_cookies; }; */ static int fuse_vnop_readdir(struct vop_readdir_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; struct ucred *cred = ap->a_cred; struct fuse_filehandle *fufh = NULL; struct fuse_iov cookediov; int err = 0; uint64_t *cookies; off_t startoff; ssize_t tresid; int ncookies; bool closefufh = false; pid_t pid = curthread->td_proc->p_pid; if (ap->a_eofflag) *ap->a_eofflag = 0; if (fuse_isdeadfs(vp)) { return ENXIO; } if ( /* XXXIP ((uio_iovcnt(uio) > 1)) || */ (uio_resid(uio) < sizeof(struct dirent))) { return EINVAL; } tresid = uio->uio_resid; startoff = uio->uio_offset; err = fuse_filehandle_get_dir(vp, &fufh, cred, pid); if (err == EBADF && vnode_mount(vp)->mnt_flag & MNT_EXPORTED) { /* * nfsd will do VOP_READDIR without first doing VOP_OPEN. We * must implicitly open the directory here */ err = fuse_filehandle_open(vp, FREAD, &fufh, curthread, cred); if (err == 0) { /* * When a directory is opened, it must be read from * the beginning. Hopefully, the "startoff" still * exists as an offset cookie for the directory. * If not, it will read the entire directory without * returning any entries and just return eof. */ uio->uio_offset = 0; } closefufh = true; } if (err) return (err); if (ap->a_ncookies != NULL) { ncookies = uio->uio_resid / (offsetof(struct dirent, d_name) + 4) + 1; cookies = malloc(ncookies * sizeof(*cookies), M_TEMP, M_WAITOK); *ap->a_ncookies = ncookies; *ap->a_cookies = cookies; } else { ncookies = 0; cookies = NULL; } #define DIRCOOKEDSIZE FUSE_DIRENT_ALIGN(FUSE_NAME_OFFSET + MAXNAMLEN + 1) fiov_init(&cookediov, DIRCOOKEDSIZE); err = fuse_internal_readdir(vp, uio, startoff, fufh, &cookediov, &ncookies, cookies); fiov_teardown(&cookediov); if (closefufh) fuse_filehandle_close(vp, fufh, curthread, cred); if (ap->a_ncookies != NULL) { if (err == 0) { *ap->a_ncookies -= ncookies; } else { free(*ap->a_cookies, M_TEMP); *ap->a_ncookies = 0; *ap->a_cookies = NULL; } } if (err == 0 && tresid == uio->uio_resid) *ap->a_eofflag = 1; return err; } /* struct vnop_readlink_args { struct vnode *a_vp; struct uio *a_uio; struct ucred *a_cred; }; */ static int fuse_vnop_readlink(struct vop_readlink_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; struct ucred *cred = ap->a_cred; struct fuse_dispatcher fdi; int err; if (fuse_isdeadfs(vp)) { return ENXIO; } if (!vnode_islnk(vp)) { return EINVAL; } fdisp_init(&fdi, 0); err = fdisp_simple_putget_vp(&fdi, FUSE_READLINK, vp, curthread, cred); if (err) { goto out; } if (((char *)fdi.answ)[0] == '/' && fuse_get_mpdata(vnode_mount(vp))->dataflags & FSESS_PUSH_SYMLINKS_IN) { char *mpth = vnode_mount(vp)->mnt_stat.f_mntonname; err = uiomove(mpth, strlen(mpth), uio); } if (!err) { err = uiomove(fdi.answ, fdi.iosize, uio); } out: fdisp_destroy(&fdi); return err; } /* struct vnop_reclaim_args { struct vnode *a_vp; }; */ static int fuse_vnop_reclaim(struct vop_reclaim_args *ap) { struct vnode *vp = ap->a_vp; struct thread *td = curthread; struct fuse_vnode_data *fvdat = VTOFUD(vp); struct fuse_filehandle *fufh, *fufh_tmp; if (!fvdat) { panic("FUSE: no vnode data during recycling"); } LIST_FOREACH_SAFE(fufh, &fvdat->handles, next, fufh_tmp) { printf("FUSE: vnode being reclaimed with open fufh " "(type=%#x)", fufh->fufh_type); fuse_filehandle_close(vp, fufh, td, NULL); } if (!fuse_isdeadfs(vp) && fvdat->nlookup > 0) { fuse_internal_forget_send(vnode_mount(vp), td, NULL, VTOI(vp), fvdat->nlookup); } cache_purge(vp); vfs_hash_remove(vp); fuse_vnode_destroy(vp); return 0; } /* struct vnop_remove_args { struct vnode *a_dvp; struct vnode *a_vp; struct componentname *a_cnp; }; */ static int fuse_vnop_remove(struct vop_remove_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode *vp = ap->a_vp; struct componentname *cnp = ap->a_cnp; int err; if (fuse_isdeadfs(vp)) { return ENXIO; } if (vnode_isdir(vp)) { return EPERM; } err = fuse_internal_remove(dvp, vp, cnp, FUSE_UNLINK); return err; } /* struct vnop_rename_args { struct vnode *a_fdvp; struct vnode *a_fvp; struct componentname *a_fcnp; struct vnode *a_tdvp; struct vnode *a_tvp; struct componentname *a_tcnp; }; */ static int fuse_vnop_rename(struct vop_rename_args *ap) { struct vnode *fdvp = ap->a_fdvp; struct vnode *fvp = ap->a_fvp; struct componentname *fcnp = ap->a_fcnp; struct vnode *tdvp = ap->a_tdvp; struct vnode *tvp = ap->a_tvp; struct componentname *tcnp = ap->a_tcnp; struct fuse_data *data; bool newparent = fdvp != tdvp; bool isdir = fvp->v_type == VDIR; int err = 0; if (fuse_isdeadfs(fdvp)) { return ENXIO; } if (fvp->v_mount != tdvp->v_mount || (tvp && fvp->v_mount != tvp->v_mount)) { SDT_PROBE2(fusefs, , vnops, trace, 1, "cross-device rename"); err = EXDEV; goto out; } cache_purge(fvp); /* * FUSE library is expected to check if target directory is not * under the source directory in the file system tree. * Linux performs this check at VFS level. */ /* * If source is a directory, and it will get a new parent, user must * have write permission to it, so ".." can be modified. */ data = fuse_get_mpdata(vnode_mount(tdvp)); if (data->dataflags & FSESS_DEFAULT_PERMISSIONS && isdir && newparent) { err = fuse_internal_access(fvp, VWRITE, curthread, tcnp->cn_cred); if (err) goto out; } sx_xlock(&data->rename_lock); err = fuse_internal_rename(fdvp, fcnp, tdvp, tcnp); if (err == 0) { if (tdvp != fdvp) fuse_vnode_setparent(fvp, tdvp); if (tvp != NULL) fuse_vnode_setparent(tvp, NULL); } sx_unlock(&data->rename_lock); if (tvp != NULL && tvp != fvp) { cache_purge(tvp); } if (vnode_isdir(fvp)) { if ((tvp != NULL) && vnode_isdir(tvp)) { cache_purge(tdvp); } cache_purge(fdvp); } out: if (tdvp == tvp) { vrele(tdvp); } else { vput(tdvp); } if (tvp != NULL) { vput(tvp); } vrele(fdvp); vrele(fvp); return err; } /* struct vnop_rmdir_args { struct vnode *a_dvp; struct vnode *a_vp; struct componentname *a_cnp; } *ap; */ static int fuse_vnop_rmdir(struct vop_rmdir_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode *vp = ap->a_vp; int err; if (fuse_isdeadfs(vp)) { return ENXIO; } if (VTOFUD(vp) == VTOFUD(dvp)) { return EINVAL; } err = fuse_internal_remove(dvp, vp, ap->a_cnp, FUSE_RMDIR); return err; } /* struct vnop_setattr_args { struct vnode *a_vp; struct vattr *a_vap; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_setattr(struct vop_setattr_args *ap) { struct vnode *vp = ap->a_vp; struct vattr *vap = ap->a_vap; struct ucred *cred = ap->a_cred; struct thread *td = curthread; struct mount *mp; struct fuse_data *data; struct vattr old_va; int dataflags; int err = 0, err2; accmode_t accmode = 0; bool checkperm; bool drop_suid = false; gid_t cr_gid; mp = vnode_mount(vp); data = fuse_get_mpdata(mp); dataflags = data->dataflags; checkperm = dataflags & FSESS_DEFAULT_PERMISSIONS; if (cred->cr_ngroups > 0) cr_gid = cred->cr_groups[0]; else cr_gid = 0; if (fuse_isdeadfs(vp)) { return ENXIO; } if (vap->va_uid != (uid_t)VNOVAL) { if (checkperm) { /* Only root may change a file's owner */ err = priv_check_cred(cred, PRIV_VFS_CHOWN); if (err) { /* As a special case, allow the null chown */ err2 = fuse_internal_getattr(vp, &old_va, cred, td); if (err2) return (err2); if (vap->va_uid != old_va.va_uid) return err; else accmode |= VADMIN; drop_suid = true; } else accmode |= VADMIN; } else accmode |= VADMIN; } if (vap->va_gid != (gid_t)VNOVAL) { if (checkperm && priv_check_cred(cred, PRIV_VFS_CHOWN)) drop_suid = true; if (checkperm && !groupmember(vap->va_gid, cred)) { /* * Non-root users may only chgrp to one of their own * groups */ err = priv_check_cred(cred, PRIV_VFS_CHOWN); if (err) { /* As a special case, allow the null chgrp */ err2 = fuse_internal_getattr(vp, &old_va, cred, td); if (err2) return (err2); if (vap->va_gid != old_va.va_gid) return err; accmode |= VADMIN; } else accmode |= VADMIN; } else accmode |= VADMIN; } if (vap->va_size != VNOVAL) { switch (vp->v_type) { case VDIR: return (EISDIR); case VLNK: case VREG: if (vfs_isrdonly(mp)) return (EROFS); break; default: /* * According to POSIX, the result is unspecified * for file types other than regular files, * directories and shared memory objects. We * don't support shared memory objects in the file * system, and have dubious support for truncating * symlinks. Just ignore the request in other cases. */ return (0); } /* Don't set accmode. Permission to trunc is checked upstack */ } if (vap->va_atime.tv_sec != VNOVAL || vap->va_mtime.tv_sec != VNOVAL) { if (vap->va_vaflags & VA_UTIMES_NULL) accmode |= VWRITE; else accmode |= VADMIN; } if (drop_suid) { if (vap->va_mode != (mode_t)VNOVAL) vap->va_mode &= ~(S_ISUID | S_ISGID); else { err = fuse_internal_getattr(vp, &old_va, cred, td); if (err) return (err); vap->va_mode = old_va.va_mode & ~(S_ISUID | S_ISGID); } } if (vap->va_mode != (mode_t)VNOVAL) { /* Only root may set the sticky bit on non-directories */ if (checkperm && vp->v_type != VDIR && (vap->va_mode & S_ISTXT) && priv_check_cred(cred, PRIV_VFS_STICKYFILE)) return EFTYPE; if (checkperm && (vap->va_mode & S_ISGID)) { err = fuse_internal_getattr(vp, &old_va, cred, td); if (err) return (err); if (!groupmember(old_va.va_gid, cred)) { err = priv_check_cred(cred, PRIV_VFS_SETGID); if (err) return (err); } } accmode |= VADMIN; } if (vfs_isrdonly(mp)) return EROFS; if (checkperm) { err = fuse_internal_access(vp, accmode, td, cred); } else { err = 0; } if (err) return err; else return fuse_internal_setattr(vp, vap, td, cred); } /* struct vnop_strategy_args { struct vnode *a_vp; struct buf *a_bp; }; */ static int fuse_vnop_strategy(struct vop_strategy_args *ap) { struct vnode *vp = ap->a_vp; struct buf *bp = ap->a_bp; if (!vp || fuse_isdeadfs(vp)) { bp->b_ioflags |= BIO_ERROR; bp->b_error = ENXIO; bufdone(bp); return 0; } /* * VOP_STRATEGY always returns zero and signals error via bp->b_ioflags. * fuse_io_strategy sets bp's error fields */ (void)fuse_io_strategy(vp, bp); return 0; } /* struct vnop_symlink_args { struct vnode *a_dvp; struct vnode **a_vpp; struct componentname *a_cnp; struct vattr *a_vap; char *a_target; }; */ static int fuse_vnop_symlink(struct vop_symlink_args *ap) { struct vnode *dvp = ap->a_dvp; struct vnode **vpp = ap->a_vpp; struct componentname *cnp = ap->a_cnp; const char *target = ap->a_target; struct fuse_dispatcher fdi; int err; size_t len; if (fuse_isdeadfs(dvp)) { return ENXIO; } /* * Unlike the other creator type calls, here we have to create a message * where the name of the new entry comes first, and the data describing * the entry comes second. * Hence we can't rely on our handy fuse_internal_newentry() routine, * but put together the message manually and just call the core part. */ len = strlen(target) + 1; fdisp_init(&fdi, len + cnp->cn_namelen + 1); fdisp_make_vp(&fdi, FUSE_SYMLINK, dvp, curthread, NULL); memcpy(fdi.indata, cnp->cn_nameptr, cnp->cn_namelen); ((char *)fdi.indata)[cnp->cn_namelen] = '\0'; memcpy((char *)fdi.indata + cnp->cn_namelen + 1, target, len); err = fuse_internal_newentry_core(dvp, vpp, cnp, VLNK, &fdi); fdisp_destroy(&fdi); return err; } /* struct vnop_write_args { struct vnode *a_vp; struct uio *a_uio; int a_ioflag; struct ucred *a_cred; }; */ static int fuse_vnop_write(struct vop_write_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; int ioflag = ap->a_ioflag; struct ucred *cred = ap->a_cred; pid_t pid = curthread->td_proc->p_pid; struct fuse_filehandle *fufh; int err; bool closefufh = false, directio; MPASS(vp->v_type == VREG || vp->v_type == VDIR); if (fuse_isdeadfs(vp)) { return ENXIO; } if (VTOFUD(vp)->flag & FN_DIRECTIO) { ioflag |= IO_DIRECT; } err = fuse_filehandle_getrw(vp, FWRITE, &fufh, cred, pid); if (err == EBADF && vnode_mount(vp)->mnt_flag & MNT_EXPORTED) { /* * nfsd will do I/O without first doing VOP_OPEN. We * must implicitly open the file here */ err = fuse_filehandle_open(vp, FWRITE, &fufh, curthread, cred); closefufh = true; } if (err) { SDT_PROBE3(fusefs, , vnops, filehandles_closed, vp, uio, cred); return err; } /* * Ideally, when the daemon asks for direct io at open time, the * standard file flag should be set according to this, so that would * just change the default mode, which later on could be changed via * fcntl(2). * But this doesn't work, the O_DIRECT flag gets cleared at some point * (don't know where). So to make any use of the Fuse direct_io option, * we hardwire it into the file's private data (similarly to Linux, * btw.). */ directio = (ioflag & IO_DIRECT) || !fsess_opt_datacache(vnode_mount(vp)); fuse_vnode_update(vp, FN_MTIMECHANGE | FN_CTIMECHANGE); if (directio) { off_t start, end, filesize; bool pages = (ioflag & IO_VMIO) != 0; SDT_PROBE2(fusefs, , vnops, trace, 1, "direct write of vnode"); err = fuse_vnode_size(vp, &filesize, cred, curthread); if (err) goto out; start = uio->uio_offset; end = start + uio->uio_resid; if (!pages) { err = fuse_inval_buf_range(vp, filesize, start, end); if (err) goto out; } err = fuse_write_directbackend(vp, uio, cred, fufh, filesize, ioflag, pages); } else { SDT_PROBE2(fusefs, , vnops, trace, 1, "buffered write of vnode"); if (!fsess_opt_writeback(vnode_mount(vp))) ioflag |= IO_SYNC; err = fuse_write_biobackend(vp, uio, cred, fufh, ioflag, pid); } fuse_internal_clear_suid_on_write(vp, cred, uio->uio_td); out: if (closefufh) fuse_filehandle_close(vp, fufh, curthread, cred); return (err); } static daddr_t fuse_gbp_getblkno(struct vnode *vp, vm_ooffset_t off) { const int biosize = fuse_iosize(vp); return (off / biosize); } static int fuse_gbp_getblksz(struct vnode *vp, daddr_t lbn, long *blksz) { off_t filesize; int err; const int biosize = fuse_iosize(vp); err = fuse_vnode_size(vp, &filesize, NULL, NULL); if (err) { /* This will turn into a SIGBUS */ return (EIO); } else if ((off_t)lbn * biosize >= filesize) { *blksz = 0; } else if ((off_t)(lbn + 1) * biosize > filesize) { *blksz = filesize - (off_t)lbn *biosize; } else { *blksz = biosize; } return (0); } /* struct vnop_getpages_args { struct vnode *a_vp; vm_page_t *a_m; int a_count; int a_reqpage; }; */ static int fuse_vnop_getpages(struct vop_getpages_args *ap) { struct vnode *vp = ap->a_vp; if (!fsess_opt_mmap(vnode_mount(vp))) { SDT_PROBE2(fusefs, , vnops, trace, 1, "called on non-cacheable vnode??\n"); return (VM_PAGER_ERROR); } return (vfs_bio_getpages(vp, ap->a_m, ap->a_count, ap->a_rbehind, ap->a_rahead, fuse_gbp_getblkno, fuse_gbp_getblksz)); } static const char extattr_namespace_separator = '.'; /* struct vop_getextattr_args { struct vop_generic_args a_gen; struct vnode *a_vp; int a_attrnamespace; const char *a_name; struct uio *a_uio; size_t *a_size; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_getextattr(struct vop_getextattr_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; struct fuse_dispatcher fdi; struct fuse_getxattr_in *get_xattr_in; struct fuse_getxattr_out *get_xattr_out; struct mount *mp = vnode_mount(vp); struct thread *td = ap->a_td; struct ucred *cred = ap->a_cred; char *prefix; char *attr_str; size_t len; int err; if (fuse_isdeadfs(vp)) return (ENXIO); if (fsess_not_impl(mp, FUSE_GETXATTR)) return EOPNOTSUPP; err = fuse_extattr_check_cred(vp, ap->a_attrnamespace, cred, td, VREAD); if (err) return err; /* Default to looking for user attributes. */ if (ap->a_attrnamespace == EXTATTR_NAMESPACE_SYSTEM) prefix = EXTATTR_NAMESPACE_SYSTEM_STRING; else prefix = EXTATTR_NAMESPACE_USER_STRING; len = strlen(prefix) + sizeof(extattr_namespace_separator) + strlen(ap->a_name) + 1; fdisp_init(&fdi, len + sizeof(*get_xattr_in)); fdisp_make_vp(&fdi, FUSE_GETXATTR, vp, td, cred); get_xattr_in = fdi.indata; /* * Check to see whether we're querying the available size or * issuing the actual request. If we pass in 0, we get back struct * fuse_getxattr_out. If we pass in a non-zero size, we get back * that much data, without the struct fuse_getxattr_out header. */ if (uio == NULL) get_xattr_in->size = 0; else get_xattr_in->size = uio->uio_resid; attr_str = (char *)fdi.indata + sizeof(*get_xattr_in); snprintf(attr_str, len, "%s%c%s", prefix, extattr_namespace_separator, ap->a_name); err = fdisp_wait_answ(&fdi); if (err != 0) { if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_GETXATTR); err = EOPNOTSUPP; } goto out; } get_xattr_out = fdi.answ; if (ap->a_size != NULL) *ap->a_size = get_xattr_out->size; if (uio != NULL) err = uiomove(fdi.answ, fdi.iosize, uio); out: fdisp_destroy(&fdi); return (err); } /* struct vop_setextattr_args { struct vop_generic_args a_gen; struct vnode *a_vp; int a_attrnamespace; const char *a_name; struct uio *a_uio; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_setextattr(struct vop_setextattr_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; struct fuse_dispatcher fdi; struct fuse_setxattr_in *set_xattr_in; struct mount *mp = vnode_mount(vp); struct thread *td = ap->a_td; struct ucred *cred = ap->a_cred; char *prefix; size_t len; char *attr_str; int err; if (fuse_isdeadfs(vp)) return (ENXIO); if (fsess_not_impl(mp, FUSE_SETXATTR)) return EOPNOTSUPP; if (vfs_isrdonly(mp)) return EROFS; /* Deleting xattrs must use VOP_DELETEEXTATTR instead */ if (ap->a_uio == NULL) { /* * If we got here as fallback from VOP_DELETEEXTATTR, then * return EOPNOTSUPP. */ if (fsess_not_impl(mp, FUSE_REMOVEXATTR)) return (EOPNOTSUPP); else return (EINVAL); } err = fuse_extattr_check_cred(vp, ap->a_attrnamespace, cred, td, VWRITE); if (err) return err; /* Default to looking for user attributes. */ if (ap->a_attrnamespace == EXTATTR_NAMESPACE_SYSTEM) prefix = EXTATTR_NAMESPACE_SYSTEM_STRING; else prefix = EXTATTR_NAMESPACE_USER_STRING; len = strlen(prefix) + sizeof(extattr_namespace_separator) + strlen(ap->a_name) + 1; fdisp_init(&fdi, len + sizeof(*set_xattr_in) + uio->uio_resid); fdisp_make_vp(&fdi, FUSE_SETXATTR, vp, td, cred); set_xattr_in = fdi.indata; set_xattr_in->size = uio->uio_resid; attr_str = (char *)fdi.indata + sizeof(*set_xattr_in); snprintf(attr_str, len, "%s%c%s", prefix, extattr_namespace_separator, ap->a_name); err = uiomove((char *)fdi.indata + sizeof(*set_xattr_in) + len, uio->uio_resid, uio); if (err != 0) { goto out; } err = fdisp_wait_answ(&fdi); if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_SETXATTR); err = EOPNOTSUPP; } if (err == ERESTART) { /* Can't restart after calling uiomove */ err = EINTR; } out: fdisp_destroy(&fdi); return (err); } /* * The Linux / FUSE extended attribute list is simply a collection of * NUL-terminated strings. The FreeBSD extended attribute list is a single * byte length followed by a non-NUL terminated string. So, this allows * conversion of the Linux / FUSE format to the FreeBSD format in place. * Linux attribute names are reported with the namespace as a prefix (e.g. * "user.attribute_name"), but in FreeBSD they are reported without the * namespace prefix (e.g. "attribute_name"). So, we're going from: * * user.attr_name1\0user.attr_name2\0 * * to: * * attr_name1attr_name2 * * Where "" is a single byte number of characters in the attribute name. * * Args: * prefix - exattr namespace prefix string * list, list_len - input list with namespace prefixes * bsd_list, bsd_list_len - output list compatible with bsd vfs */ static int fuse_xattrlist_convert(char *prefix, const char *list, int list_len, char *bsd_list, int *bsd_list_len) { int len, pos, dist_to_next, prefix_len; pos = 0; *bsd_list_len = 0; prefix_len = strlen(prefix); while (pos < list_len && list[pos] != '\0') { dist_to_next = strlen(&list[pos]) + 1; if (bcmp(&list[pos], prefix, prefix_len) == 0 && list[pos + prefix_len] == extattr_namespace_separator) { len = dist_to_next - (prefix_len + sizeof(extattr_namespace_separator)) - 1; if (len >= EXTATTR_MAXNAMELEN) return (ENAMETOOLONG); bsd_list[*bsd_list_len] = len; memcpy(&bsd_list[*bsd_list_len + 1], &list[pos + prefix_len + sizeof(extattr_namespace_separator)], len); *bsd_list_len += len + 1; } pos += dist_to_next; } return (0); } /* * List extended attributes * * The FUSE_LISTXATTR operation is based on Linux's listxattr(2) syscall, which * has a number of differences compared to its FreeBSD equivalent, * extattr_list_file: * * - FUSE_LISTXATTR returns all extended attributes across all namespaces, * whereas listxattr(2) only returns attributes for a single namespace * - FUSE_LISTXATTR prepends each attribute name with "namespace." * - If the provided buffer is not large enough to hold the result, * FUSE_LISTXATTR should return ERANGE, whereas listxattr is expected to * return as many results as will fit. */ /* struct vop_listextattr_args { struct vop_generic_args a_gen; struct vnode *a_vp; int a_attrnamespace; struct uio *a_uio; size_t *a_size; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_listextattr(struct vop_listextattr_args *ap) { struct vnode *vp = ap->a_vp; struct uio *uio = ap->a_uio; struct fuse_dispatcher fdi; struct fuse_listxattr_in *list_xattr_in; struct fuse_listxattr_out *list_xattr_out; struct mount *mp = vnode_mount(vp); struct thread *td = ap->a_td; struct ucred *cred = ap->a_cred; char *prefix; char *bsd_list = NULL; char *linux_list; int bsd_list_len; int linux_list_len; int err; if (fuse_isdeadfs(vp)) return (ENXIO); if (fsess_not_impl(mp, FUSE_LISTXATTR)) return EOPNOTSUPP; err = fuse_extattr_check_cred(vp, ap->a_attrnamespace, cred, td, VREAD); if (err) return err; /* * Add space for a NUL and the period separator if enabled. * Default to looking for user attributes. */ if (ap->a_attrnamespace == EXTATTR_NAMESPACE_SYSTEM) prefix = EXTATTR_NAMESPACE_SYSTEM_STRING; else prefix = EXTATTR_NAMESPACE_USER_STRING; fdisp_init(&fdi, sizeof(*list_xattr_in)); fdisp_make_vp(&fdi, FUSE_LISTXATTR, vp, td, cred); /* * Retrieve Linux / FUSE compatible list size. */ list_xattr_in = fdi.indata; list_xattr_in->size = 0; err = fdisp_wait_answ(&fdi); if (err != 0) { if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_LISTXATTR); err = EOPNOTSUPP; } goto out; } list_xattr_out = fdi.answ; linux_list_len = list_xattr_out->size; if (linux_list_len == 0) { if (ap->a_size != NULL) *ap->a_size = linux_list_len; goto out; } /* * Retrieve Linux / FUSE compatible list values. */ fdisp_refresh_vp(&fdi, FUSE_LISTXATTR, vp, td, cred); list_xattr_in = fdi.indata; list_xattr_in->size = linux_list_len; err = fdisp_wait_answ(&fdi); if (err == ERANGE) { /* * Race detected. The attribute list must've grown since the * first FUSE_LISTXATTR call. Start over. Go all the way back * to userland so we can process signals, if necessary, before * restarting. */ err = ERESTART; goto out; } else if (err != 0) goto out; linux_list = fdi.answ; /* FUSE doesn't allow the server to return more data than requested */ if (fdi.iosize > linux_list_len) { struct fuse_data *data = fuse_get_mpdata(mp); fuse_warn(data, FSESS_WARN_LSEXTATTR_LONG, "server returned " "more extended attribute data than requested; " "should've returned ERANGE instead."); } else { /* But returning less data is fine */ linux_list_len = fdi.iosize; } /* * Retrieve the BSD compatible list values. * The Linux / FUSE attribute list format isn't the same * as FreeBSD's format. So we need to transform it into * FreeBSD's format before giving it to the user. */ bsd_list = malloc(linux_list_len, M_TEMP, M_WAITOK); err = fuse_xattrlist_convert(prefix, linux_list, linux_list_len, bsd_list, &bsd_list_len); if (err != 0) goto out; if (ap->a_size != NULL) *ap->a_size = bsd_list_len; if (uio != NULL) err = uiomove(bsd_list, bsd_list_len, uio); out: free(bsd_list, M_TEMP); fdisp_destroy(&fdi); return (err); } /* struct vop_deleteextattr_args { struct vop_generic_args a_gen; struct vnode *a_vp; int a_attrnamespace; const char *a_name; struct ucred *a_cred; struct thread *a_td; }; */ static int fuse_vnop_deleteextattr(struct vop_deleteextattr_args *ap) { struct vnode *vp = ap->a_vp; struct fuse_dispatcher fdi; struct mount *mp = vnode_mount(vp); struct thread *td = ap->a_td; struct ucred *cred = ap->a_cred; char *prefix; size_t len; char *attr_str; int err; if (fuse_isdeadfs(vp)) return (ENXIO); if (fsess_not_impl(mp, FUSE_REMOVEXATTR)) return EOPNOTSUPP; if (vfs_isrdonly(mp)) return EROFS; err = fuse_extattr_check_cred(vp, ap->a_attrnamespace, cred, td, VWRITE); if (err) return err; /* Default to looking for user attributes. */ if (ap->a_attrnamespace == EXTATTR_NAMESPACE_SYSTEM) prefix = EXTATTR_NAMESPACE_SYSTEM_STRING; else prefix = EXTATTR_NAMESPACE_USER_STRING; len = strlen(prefix) + sizeof(extattr_namespace_separator) + strlen(ap->a_name) + 1; fdisp_init(&fdi, len); fdisp_make_vp(&fdi, FUSE_REMOVEXATTR, vp, td, cred); attr_str = fdi.indata; snprintf(attr_str, len, "%s%c%s", prefix, extattr_namespace_separator, ap->a_name); err = fdisp_wait_answ(&fdi); if (err == ENOSYS) { fsess_set_notimpl(mp, FUSE_REMOVEXATTR); err = EOPNOTSUPP; } fdisp_destroy(&fdi); return (err); } /* struct vnop_print_args { struct vnode *a_vp; }; */ static int fuse_vnop_print(struct vop_print_args *ap) { struct fuse_vnode_data *fvdat = VTOFUD(ap->a_vp); printf("nodeid: %ju, parent nodeid: %ju, nlookup: %ju, flag: %#x\n", (uintmax_t)VTOILLU(ap->a_vp), (uintmax_t)fvdat->parent_nid, (uintmax_t)fvdat->nlookup, fvdat->flag); return 0; } /* * Get an NFS filehandle for a FUSE file. * * This will only work for FUSE file systems that guarantee the uniqueness of * nodeid:generation, which most don't. */ /* vop_vptofh { IN struct vnode *a_vp; IN struct fid *a_fhp; }; */ static int fuse_vnop_vptofh(struct vop_vptofh_args *ap) { struct vnode *vp = ap->a_vp; struct fuse_vnode_data *fvdat = VTOFUD(vp); struct fuse_fid *fhp = (struct fuse_fid *)(ap->a_fhp); _Static_assert(sizeof(struct fuse_fid) <= sizeof(struct fid), "FUSE fid type is too big"); struct mount *mp = vnode_mount(vp); struct fuse_data *data = fuse_get_mpdata(mp); struct vattr va; int err; if (!(data->dataflags & FSESS_EXPORT_SUPPORT)) return EOPNOTSUPP; err = fuse_internal_getattr(vp, &va, curthread->td_ucred, curthread); if (err) return err; /*ip = VTOI(ap->a_vp);*/ /*ufhp = (struct ufid *)ap->a_fhp;*/ fhp->len = sizeof(struct fuse_fid); fhp->nid = fvdat->nid; if (fvdat->generation <= UINT32_MAX) fhp->gen = fvdat->generation; else return EOVERFLOW; return (0); } diff --git a/tests/sys/fs/fusefs/copy_file_range.cc b/tests/sys/fs/fusefs/copy_file_range.cc index a9dc9679cb6a..974dc474f77b 100644 --- a/tests/sys/fs/fusefs/copy_file_range.cc +++ b/tests/sys/fs/fusefs/copy_file_range.cc @@ -1,526 +1,668 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2020 Alan Somers * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD$ */ extern "C" { #include #include #include #include #include #include } #include "mockfs.hh" #include "utils.hh" using namespace testing; class CopyFileRange: public FuseTest { public: static sig_atomic_t s_sigxfsz; void SetUp() { s_sigxfsz = 0; FuseTest::SetUp(); } void TearDown() { struct sigaction sa; bzero(&sa, sizeof(sa)); sa.sa_handler = SIG_DFL; sigaction(SIGXFSZ, &sa, NULL); FuseTest::TearDown(); } void expect_maybe_lseek(uint64_t ino) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_LSEEK && in.header.nodeid == ino); }, Eq(true)), _) ).Times(AtMost(1)) .WillRepeatedly(Invoke(ReturnErrno(ENOSYS))); } void expect_open(uint64_t ino, uint32_t flags, int times, uint64_t fh) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_OPEN && in.header.nodeid == ino); }, Eq(true)), _) ).Times(times) .WillRepeatedly(Invoke( ReturnImmediate([=](auto in __unused, auto& out) { out.header.len = sizeof(out.header); SET_OUT_HEADER_LEN(out, open); out.body.open.fh = fh; out.body.open.open_flags = flags; }))); } void expect_write(uint64_t ino, uint64_t offset, uint64_t isize, uint64_t osize, const void *contents) { EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { const char *buf = (const char*)in.body.bytes + sizeof(struct fuse_write_in); return (in.header.opcode == FUSE_WRITE && in.header.nodeid == ino && in.body.write.offset == offset && in.body.write.size == isize && 0 == bcmp(buf, contents, isize)); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = osize; }))); } }; sig_atomic_t CopyFileRange::s_sigxfsz = 0; void sigxfsz_handler(int __unused sig) { CopyFileRange::s_sigxfsz = 1; } class CopyFileRange_7_27: public CopyFileRange { public: virtual void SetUp() { m_kernel_minor_version = 27; CopyFileRange::SetUp(); } }; +class CopyFileRangeNoAtime: public CopyFileRange { +public: +virtual void SetUp() { + m_noatime = true; + CopyFileRange::SetUp(); +} +}; + TEST_F(CopyFileRange, eio) { const char FULLPATH1[] = "mountpoint/src.txt"; const char RELPATH1[] = "src.txt"; const char FULLPATH2[] = "mountpoint/dst.txt"; const char RELPATH2[] = "dst.txt"; const uint64_t ino1 = 42; const uint64_t ino2 = 43; const uint64_t fh1 = 0xdeadbeef1a7ebabe; const uint64_t fh2 = 0xdeadc0de88c0ffee; off_t fsize1 = 1 << 20; /* 1 MiB */ off_t fsize2 = 1 << 19; /* 512 KiB */ off_t start1 = 1 << 18; off_t start2 = 3 << 17; ssize_t len = 65536; int fd1, fd2; expect_lookup(RELPATH1, ino1, S_IFREG | 0644, fsize1, 1); expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); expect_open(ino1, 0, 1, fh1); expect_open(ino2, 0, 1, fh2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE && in.header.nodeid == ino1 && in.body.copy_file_range.fh_in == fh1 && (off_t)in.body.copy_file_range.off_in == start1 && in.body.copy_file_range.nodeid_out == ino2 && in.body.copy_file_range.fh_out == fh2 && (off_t)in.body.copy_file_range.off_out == start2 && in.body.copy_file_range.len == (size_t)len && in.body.copy_file_range.flags == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(EIO))); fd1 = open(FULLPATH1, O_RDONLY); fd2 = open(FULLPATH2, O_WRONLY); ASSERT_EQ(-1, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); EXPECT_EQ(EIO, errno); } /* * copy_file_range should evict cached data for the modified region of the * destination file. */ TEST_F(CopyFileRange, evicts_cache) { const char FULLPATH1[] = "mountpoint/src.txt"; const char RELPATH1[] = "src.txt"; const char FULLPATH2[] = "mountpoint/dst.txt"; const char RELPATH2[] = "dst.txt"; void *buf0, *buf1, *buf; const uint64_t ino1 = 42; const uint64_t ino2 = 43; const uint64_t fh1 = 0xdeadbeef1a7ebabe; const uint64_t fh2 = 0xdeadc0de88c0ffee; off_t fsize1 = 1 << 20; /* 1 MiB */ off_t fsize2 = 1 << 19; /* 512 KiB */ off_t start1 = 1 << 18; off_t start2 = 3 << 17; ssize_t len = m_maxbcachebuf; int fd1, fd2; buf0 = malloc(m_maxbcachebuf); memset(buf0, 42, m_maxbcachebuf); expect_lookup(RELPATH1, ino1, S_IFREG | 0644, fsize1, 1); expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); expect_open(ino1, 0, 1, fh1); expect_open(ino2, 0, 1, fh2); expect_read(ino2, start2, m_maxbcachebuf, m_maxbcachebuf, buf0, -1, fh2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE && in.header.nodeid == ino1 && in.body.copy_file_range.fh_in == fh1 && (off_t)in.body.copy_file_range.off_in == start1 && in.body.copy_file_range.nodeid_out == ino2 && in.body.copy_file_range.fh_out == fh2 && (off_t)in.body.copy_file_range.off_out == start2 && in.body.copy_file_range.len == (size_t)len && in.body.copy_file_range.flags == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = len; }))); fd1 = open(FULLPATH1, O_RDONLY); fd2 = open(FULLPATH2, O_RDWR); // Prime cache buf = malloc(m_maxbcachebuf); ASSERT_EQ(m_maxbcachebuf, pread(fd2, buf, m_maxbcachebuf, start2)) << strerror(errno); EXPECT_EQ(0, memcmp(buf0, buf, m_maxbcachebuf)); // Tell the FUSE server overwrite the region we just read ASSERT_EQ(len, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); // Read again. This should bypass the cache and read direct from server buf1 = malloc(m_maxbcachebuf); memset(buf1, 69, m_maxbcachebuf); start2 -= len; expect_read(ino2, start2, m_maxbcachebuf, m_maxbcachebuf, buf1, -1, fh2); ASSERT_EQ(m_maxbcachebuf, pread(fd2, buf, m_maxbcachebuf, start2)) << strerror(errno); EXPECT_EQ(0, memcmp(buf1, buf, m_maxbcachebuf)); free(buf1); free(buf0); free(buf); leak(fd1); leak(fd2); } /* * If the server doesn't support FUSE_COPY_FILE_RANGE, the kernel should * fallback to a read/write based implementation. */ TEST_F(CopyFileRange, fallback) { const char FULLPATH1[] = "mountpoint/src.txt"; const char RELPATH1[] = "src.txt"; const char FULLPATH2[] = "mountpoint/dst.txt"; const char RELPATH2[] = "dst.txt"; const uint64_t ino1 = 42; const uint64_t ino2 = 43; const uint64_t fh1 = 0xdeadbeef1a7ebabe; const uint64_t fh2 = 0xdeadc0de88c0ffee; off_t fsize2 = 0; off_t start1 = 0; off_t start2 = 0; const char *contents = "Hello, world!"; ssize_t len; int fd1, fd2; len = strlen(contents); /* * Ensure that we read to EOF, just so the buffer cache's read size is * predictable. */ expect_lookup(RELPATH1, ino1, S_IFREG | 0644, start1 + len, 1); expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); expect_open(ino1, 0, 1, fh1); expect_open(ino2, 0, 1, fh2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE && in.header.nodeid == ino1 && in.body.copy_file_range.fh_in == fh1 && (off_t)in.body.copy_file_range.off_in == start1 && in.body.copy_file_range.nodeid_out == ino2 && in.body.copy_file_range.fh_out == fh2 && (off_t)in.body.copy_file_range.off_out == start2 && in.body.copy_file_range.len == (size_t)len && in.body.copy_file_range.flags == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnErrno(ENOSYS))); expect_maybe_lseek(ino1); expect_read(ino1, start1, len, len, contents, 0); expect_write(ino2, start2, len, len, contents); fd1 = open(FULLPATH1, O_RDONLY); ASSERT_GE(fd1, 0); fd2 = open(FULLPATH2, O_WRONLY); ASSERT_GE(fd2, 0); ASSERT_EQ(len, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); } /* fusefs should respect RLIMIT_FSIZE */ TEST_F(CopyFileRange, rlimit_fsize) { const char FULLPATH1[] = "mountpoint/src.txt"; const char RELPATH1[] = "src.txt"; const char FULLPATH2[] = "mountpoint/dst.txt"; const char RELPATH2[] = "dst.txt"; struct rlimit rl; const uint64_t ino1 = 42; const uint64_t ino2 = 43; const uint64_t fh1 = 0xdeadbeef1a7ebabe; const uint64_t fh2 = 0xdeadc0de88c0ffee; off_t fsize1 = 1 << 20; /* 1 MiB */ off_t fsize2 = 1 << 19; /* 512 KiB */ off_t start1 = 1 << 18; off_t start2 = fsize2; ssize_t len = 65536; int fd1, fd2; expect_lookup(RELPATH1, ino1, S_IFREG | 0644, fsize1, 1); expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); expect_open(ino1, 0, 1, fh1); expect_open(ino2, 0, 1, fh2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE); }, Eq(true)), _) ).Times(0); rl.rlim_cur = fsize2; rl.rlim_max = 10 * fsize2; ASSERT_EQ(0, setrlimit(RLIMIT_FSIZE, &rl)) << strerror(errno); ASSERT_NE(SIG_ERR, signal(SIGXFSZ, sigxfsz_handler)) << strerror(errno); fd1 = open(FULLPATH1, O_RDONLY); fd2 = open(FULLPATH2, O_WRONLY); ASSERT_EQ(-1, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); EXPECT_EQ(EFBIG, errno); EXPECT_EQ(1, s_sigxfsz); } TEST_F(CopyFileRange, ok) { const char FULLPATH1[] = "mountpoint/src.txt"; const char RELPATH1[] = "src.txt"; const char FULLPATH2[] = "mountpoint/dst.txt"; const char RELPATH2[] = "dst.txt"; const uint64_t ino1 = 42; const uint64_t ino2 = 43; const uint64_t fh1 = 0xdeadbeef1a7ebabe; const uint64_t fh2 = 0xdeadc0de88c0ffee; off_t fsize1 = 1 << 20; /* 1 MiB */ off_t fsize2 = 1 << 19; /* 512 KiB */ off_t start1 = 1 << 18; off_t start2 = 3 << 17; ssize_t len = 65536; int fd1, fd2; expect_lookup(RELPATH1, ino1, S_IFREG | 0644, fsize1, 1); expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); expect_open(ino1, 0, 1, fh1); expect_open(ino2, 0, 1, fh2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE && in.header.nodeid == ino1 && in.body.copy_file_range.fh_in == fh1 && (off_t)in.body.copy_file_range.off_in == start1 && in.body.copy_file_range.nodeid_out == ino2 && in.body.copy_file_range.fh_out == fh2 && (off_t)in.body.copy_file_range.off_out == start2 && in.body.copy_file_range.len == (size_t)len && in.body.copy_file_range.flags == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = len; }))); fd1 = open(FULLPATH1, O_RDONLY); fd2 = open(FULLPATH2, O_WRONLY); ASSERT_EQ(len, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); } /* * copy_file_range can make copies within a single file, as long as the ranges * don't overlap. * */ TEST_F(CopyFileRange, same_file) { const char FULLPATH[] = "mountpoint/src.txt"; const char RELPATH[] = "src.txt"; const uint64_t ino = 4; const uint64_t fh = 0xdeadbeefa7ebabe; off_t fsize = 1 << 20; /* 1 MiB */ off_t off_in = 1 << 18; off_t off_out = 3 << 17; ssize_t len = 65536; int fd; expect_lookup(RELPATH, ino, S_IFREG | 0644, fsize, 1); expect_open(ino, 0, 1, fh); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE && in.header.nodeid == ino && in.body.copy_file_range.fh_in == fh && (off_t)in.body.copy_file_range.off_in == off_in && in.body.copy_file_range.nodeid_out == ino && in.body.copy_file_range.fh_out == fh && (off_t)in.body.copy_file_range.off_out == off_out && in.body.copy_file_range.len == (size_t)len && in.body.copy_file_range.flags == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = len; }))); fd = open(FULLPATH, O_RDWR); ASSERT_EQ(len, copy_file_range(fd, &off_in, fd, &off_out, len, 0)); } +/* + * copy_file_range should update the destination's mtime and ctime, and + * the source's atime. + */ +TEST_F(CopyFileRange, timestamps) +{ + const char FULLPATH1[] = "mountpoint/src.txt"; + const char RELPATH1[] = "src.txt"; + const char FULLPATH2[] = "mountpoint/dst.txt"; + const char RELPATH2[] = "dst.txt"; + struct stat sb1a, sb1b, sb2a, sb2b; + const uint64_t ino1 = 42; + const uint64_t ino2 = 43; + const uint64_t fh1 = 0xdeadbeef1a7ebabe; + const uint64_t fh2 = 0xdeadc0de88c0ffee; + off_t fsize1 = 1 << 20; /* 1 MiB */ + off_t fsize2 = 1 << 19; /* 512 KiB */ + off_t start1 = 1 << 18; + off_t start2 = 3 << 17; + ssize_t len = 65536; + int fd1, fd2; + + expect_lookup(RELPATH1, ino1, S_IFREG | 0644, fsize1, 1); + expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); + expect_open(ino1, 0, 1, fh1); + expect_open(ino2, 0, 1, fh2); + EXPECT_CALL(*m_mock, process( + ResultOf([=](auto in) { + return (in.header.opcode == FUSE_COPY_FILE_RANGE && + in.header.nodeid == ino1 && + in.body.copy_file_range.fh_in == fh1 && + (off_t)in.body.copy_file_range.off_in == start1 && + in.body.copy_file_range.nodeid_out == ino2 && + in.body.copy_file_range.fh_out == fh2 && + (off_t)in.body.copy_file_range.off_out == start2 && + in.body.copy_file_range.len == (size_t)len && + in.body.copy_file_range.flags == 0); + }, Eq(true)), + _) + ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { + SET_OUT_HEADER_LEN(out, write); + out.body.write.size = len; + }))); + + fd1 = open(FULLPATH1, O_RDONLY); + ASSERT_GE(fd1, 0); + fd2 = open(FULLPATH2, O_WRONLY); + ASSERT_GE(fd2, 0); + ASSERT_EQ(0, fstat(fd1, &sb1a)) << strerror(errno); + ASSERT_EQ(0, fstat(fd2, &sb2a)) << strerror(errno); + + nap(); + + ASSERT_EQ(len, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); + ASSERT_EQ(0, fstat(fd1, &sb1b)) << strerror(errno); + ASSERT_EQ(0, fstat(fd2, &sb2b)) << strerror(errno); + + EXPECT_NE(sb1a.st_atime, sb1b.st_atime); + EXPECT_EQ(sb1a.st_mtime, sb1b.st_mtime); + EXPECT_EQ(sb1a.st_ctime, sb1b.st_ctime); + EXPECT_EQ(sb2a.st_atime, sb2b.st_atime); + EXPECT_NE(sb2a.st_mtime, sb2b.st_mtime); + EXPECT_NE(sb2a.st_ctime, sb2b.st_ctime); + + leak(fd1); + leak(fd2); +} + /* * copy_file_range can extend the size of a file * */ TEST_F(CopyFileRange, extend) { const char FULLPATH[] = "mountpoint/src.txt"; const char RELPATH[] = "src.txt"; struct stat sb; const uint64_t ino = 4; const uint64_t fh = 0xdeadbeefa7ebabe; off_t fsize = 65536; off_t off_in = 0; off_t off_out = 65536; ssize_t len = 65536; int fd; expect_lookup(RELPATH, ino, S_IFREG | 0644, fsize, 1); expect_open(ino, 0, 1, fh); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE && in.header.nodeid == ino && in.body.copy_file_range.fh_in == fh && (off_t)in.body.copy_file_range.off_in == off_in && in.body.copy_file_range.nodeid_out == ino && in.body.copy_file_range.fh_out == fh && (off_t)in.body.copy_file_range.off_out == off_out && in.body.copy_file_range.len == (size_t)len && in.body.copy_file_range.flags == 0); }, Eq(true)), _) ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { SET_OUT_HEADER_LEN(out, write); out.body.write.size = len; }))); fd = open(FULLPATH, O_RDWR); ASSERT_GE(fd, 0); ASSERT_EQ(len, copy_file_range(fd, &off_in, fd, &off_out, len, 0)); /* Check that cached attributes were updated appropriately */ ASSERT_EQ(0, fstat(fd, &sb)) << strerror(errno); EXPECT_EQ(fsize + len, sb.st_size); leak(fd); } /* With older protocol versions, no FUSE_COPY_FILE_RANGE should be attempted */ TEST_F(CopyFileRange_7_27, fallback) { const char FULLPATH1[] = "mountpoint/src.txt"; const char RELPATH1[] = "src.txt"; const char FULLPATH2[] = "mountpoint/dst.txt"; const char RELPATH2[] = "dst.txt"; const uint64_t ino1 = 42; const uint64_t ino2 = 43; const uint64_t fh1 = 0xdeadbeef1a7ebabe; const uint64_t fh2 = 0xdeadc0de88c0ffee; off_t fsize2 = 0; off_t start1 = 0; off_t start2 = 0; const char *contents = "Hello, world!"; ssize_t len; int fd1, fd2; len = strlen(contents); /* * Ensure that we read to EOF, just so the buffer cache's read size is * predictable. */ expect_lookup(RELPATH1, ino1, S_IFREG | 0644, start1 + len, 1); expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); expect_open(ino1, 0, 1, fh1); expect_open(ino2, 0, 1, fh2); EXPECT_CALL(*m_mock, process( ResultOf([=](auto in) { return (in.header.opcode == FUSE_COPY_FILE_RANGE); }, Eq(true)), _) ).Times(0); expect_maybe_lseek(ino1); expect_read(ino1, start1, len, len, contents, 0); expect_write(ino2, start2, len, len, contents); fd1 = open(FULLPATH1, O_RDONLY); ASSERT_GE(fd1, 0); fd2 = open(FULLPATH2, O_WRONLY); ASSERT_GE(fd2, 0); ASSERT_EQ(len, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); } +/* + * With -o noatime, copy_file_range should update the destination's mtime and + * ctime, but not the source's atime. + */ +TEST_F(CopyFileRangeNoAtime, timestamps) +{ + const char FULLPATH1[] = "mountpoint/src.txt"; + const char RELPATH1[] = "src.txt"; + const char FULLPATH2[] = "mountpoint/dst.txt"; + const char RELPATH2[] = "dst.txt"; + struct stat sb1a, sb1b, sb2a, sb2b; + const uint64_t ino1 = 42; + const uint64_t ino2 = 43; + const uint64_t fh1 = 0xdeadbeef1a7ebabe; + const uint64_t fh2 = 0xdeadc0de88c0ffee; + off_t fsize1 = 1 << 20; /* 1 MiB */ + off_t fsize2 = 1 << 19; /* 512 KiB */ + off_t start1 = 1 << 18; + off_t start2 = 3 << 17; + ssize_t len = 65536; + int fd1, fd2; + expect_lookup(RELPATH1, ino1, S_IFREG | 0644, fsize1, 1); + expect_lookup(RELPATH2, ino2, S_IFREG | 0644, fsize2, 1); + expect_open(ino1, 0, 1, fh1); + expect_open(ino2, 0, 1, fh2); + EXPECT_CALL(*m_mock, process( + ResultOf([=](auto in) { + return (in.header.opcode == FUSE_COPY_FILE_RANGE && + in.header.nodeid == ino1 && + in.body.copy_file_range.fh_in == fh1 && + (off_t)in.body.copy_file_range.off_in == start1 && + in.body.copy_file_range.nodeid_out == ino2 && + in.body.copy_file_range.fh_out == fh2 && + (off_t)in.body.copy_file_range.off_out == start2 && + in.body.copy_file_range.len == (size_t)len && + in.body.copy_file_range.flags == 0); + }, Eq(true)), + _) + ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) { + SET_OUT_HEADER_LEN(out, write); + out.body.write.size = len; + }))); + + fd1 = open(FULLPATH1, O_RDONLY); + ASSERT_GE(fd1, 0); + fd2 = open(FULLPATH2, O_WRONLY); + ASSERT_GE(fd2, 0); + ASSERT_EQ(0, fstat(fd1, &sb1a)) << strerror(errno); + ASSERT_EQ(0, fstat(fd2, &sb2a)) << strerror(errno); + + nap(); + + ASSERT_EQ(len, copy_file_range(fd1, &start1, fd2, &start2, len, 0)); + ASSERT_EQ(0, fstat(fd1, &sb1b)) << strerror(errno); + ASSERT_EQ(0, fstat(fd2, &sb2b)) << strerror(errno); + + EXPECT_EQ(sb1a.st_atime, sb1b.st_atime); + EXPECT_EQ(sb1a.st_mtime, sb1b.st_mtime); + EXPECT_EQ(sb1a.st_ctime, sb1b.st_ctime); + EXPECT_EQ(sb2a.st_atime, sb2b.st_atime); + EXPECT_NE(sb2a.st_mtime, sb2b.st_mtime); + EXPECT_NE(sb2a.st_ctime, sb2b.st_ctime); + + leak(fd1); + leak(fd2); +}