static errno_t fuse_vfsop_mount(mount_t mp, __unused vnode_t devvp, user_addr_t udata, vfs_context_t context) { int err = 0; int mntopts = 0; bool mounted = false; uint32_t drandom = 0; uint32_t max_read = ~0; size_t len; fuse_device_t fdev = NULL; struct fuse_data *data = NULL; fuse_mount_args fusefs_args; struct vfsstatfs *vfsstatfsp = vfs_statfs(mp); kern_return_t kr; thread_t init_thread; #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_t *biglock; #endif fuse_trace_printf_vfsop(); if (vfs_isupdate(mp)) { return ENOTSUP; } err = copyin(udata, &fusefs_args, sizeof(fusefs_args)); if (err) { return EINVAL; } /* * Interesting flags that we can receive from mount or may want to * otherwise forcibly set include: * * MNT_ASYNC * MNT_AUTOMOUNTED * MNT_DEFWRITE * MNT_DONTBROWSE * MNT_IGNORE_OWNERSHIP * MNT_JOURNALED * MNT_NODEV * MNT_NOEXEC * MNT_NOSUID * MNT_NOUSERXATTR * MNT_RDONLY * MNT_SYNCHRONOUS * MNT_UNION */ #if M_OSXFUSE_ENABLE_UNSUPPORTED vfs_setlocklocal(mp); #endif /* M_OSXFUSE_ENABLE_UNSUPPORTED */ /** Option Processing. **/ if (fusefs_args.altflags & FUSE_MOPT_FSTYPENAME) { size_t typenamelen = strlen(fusefs_args.fstypename); if ((typenamelen <= 0) || (typenamelen > FUSE_FSTYPENAME_MAXLEN)) { return EINVAL; } snprintf(vfsstatfsp->f_fstypename, MFSTYPENAMELEN, "%s%s", OSXFUSE_FSTYPENAME_PREFIX, fusefs_args.fstypename); } if ((fusefs_args.daemon_timeout > FUSE_MAX_DAEMON_TIMEOUT) || (fusefs_args.daemon_timeout < FUSE_MIN_DAEMON_TIMEOUT)) { return EINVAL; } if (fusefs_args.altflags & FUSE_MOPT_SPARSE) { mntopts |= FSESS_SPARSE; } if (fusefs_args.altflags & FUSE_MOPT_SLOW_STATFS) { mntopts |= FSESS_SLOW_STATFS; } if (fusefs_args.altflags & FUSE_MOPT_AUTO_CACHE) { mntopts |= FSESS_AUTO_CACHE; } if (fusefs_args.altflags & FUSE_MOPT_AUTO_XATTR) { if (fusefs_args.altflags & FUSE_MOPT_NATIVE_XATTR) { return EINVAL; } mntopts |= FSESS_AUTO_XATTR; } else if (fusefs_args.altflags & FUSE_MOPT_NATIVE_XATTR) { mntopts |= FSESS_NATIVE_XATTR; } if (fusefs_args.altflags & FUSE_MOPT_NO_BROWSE) { vfs_setflags(mp, MNT_DONTBROWSE); } if (fusefs_args.altflags & FUSE_MOPT_JAIL_SYMLINKS) { mntopts |= FSESS_JAIL_SYMLINKS; } /* * Note that unlike Linux, which keeps allow_root in user-space and * passes allow_other in that case to the kernel, we let allow_root * reach the kernel. The 'if' ordering is important here. */ if (fusefs_args.altflags & FUSE_MOPT_ALLOW_ROOT) { int is_member = 0; if ((kauth_cred_ismember_gid(kauth_cred_get(), fuse_admin_group, &is_member) == 0) && is_member) { mntopts |= FSESS_ALLOW_ROOT; } else { IOLog("OSXFUSE: caller not a member of OSXFUSE admin group (%d)\n", fuse_admin_group); return EPERM; } } else if (fusefs_args.altflags & FUSE_MOPT_ALLOW_OTHER) { if (!fuse_allow_other && !fuse_vfs_context_issuser(context)) { int is_member = 0; if ((kauth_cred_ismember_gid(kauth_cred_get(), fuse_admin_group, &is_member) != 0) || !is_member) { return EPERM; } } mntopts |= FSESS_ALLOW_OTHER; } if (fusefs_args.altflags & FUSE_MOPT_NO_APPLEDOUBLE) { mntopts |= FSESS_NO_APPLEDOUBLE; } if (fusefs_args.altflags & FUSE_MOPT_NO_APPLEXATTR) { mntopts |= FSESS_NO_APPLEXATTR; } if ((fusefs_args.altflags & FUSE_MOPT_FSID) && (fusefs_args.fsid != 0)) { fsid_t fsid; mount_t other_mp; uint32_t target_dev; target_dev = FUSE_MAKEDEV(FUSE_CUSTOM_FSID_DEVICE_MAJOR, fusefs_args.fsid); fsid.val[0] = target_dev; fsid.val[1] = FUSE_CUSTOM_FSID_VAL1; other_mp = vfs_getvfs(&fsid); if (other_mp != NULL) { return EPERM; } vfsstatfsp->f_fsid.val[0] = target_dev; vfsstatfsp->f_fsid.val[1] = FUSE_CUSTOM_FSID_VAL1; } else { vfs_getnewfsid(mp); } if (fusefs_args.altflags & FUSE_MOPT_NO_LOCALCACHES) { mntopts |= FSESS_NO_ATTRCACHE; mntopts |= FSESS_NO_READAHEAD; mntopts |= FSESS_NO_UBC; mntopts |= FSESS_NO_VNCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NO_ATTRCACHE) { mntopts |= FSESS_NO_ATTRCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NO_READAHEAD) { mntopts |= FSESS_NO_READAHEAD; } if (fusefs_args.altflags & (FUSE_MOPT_NO_UBC | FUSE_MOPT_DIRECT_IO)) { mntopts |= FSESS_NO_UBC; } if (fusefs_args.altflags & FUSE_MOPT_NO_VNCACHE) { mntopts |= FSESS_NO_VNCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NEGATIVE_VNCACHE) { if (mntopts & FSESS_NO_VNCACHE) { return EINVAL; } mntopts |= FSESS_NEGATIVE_VNCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NO_SYNCWRITES) { /* Cannot mix 'nosyncwrites' with 'noubc' or 'noreadahead'. */ if (mntopts & (FSESS_NO_READAHEAD | FSESS_NO_UBC)) { return EINVAL; } mntopts |= FSESS_NO_SYNCWRITES; vfs_clearflags(mp, MNT_SYNCHRONOUS); vfs_setflags(mp, MNT_ASYNC); /* We check for this only if we have nosyncwrites in the first place. */ if (fusefs_args.altflags & FUSE_MOPT_NO_SYNCONCLOSE) { mntopts |= FSESS_NO_SYNCONCLOSE; } } else { vfs_clearflags(mp, MNT_ASYNC); vfs_setflags(mp, MNT_SYNCHRONOUS); } if (mntopts & FSESS_NO_UBC) { /* If no buffer cache, disallow exec from file system. */ vfs_setflags(mp, MNT_NOEXEC); } vfs_setauthopaque(mp); vfs_setauthopaqueaccess(mp); if ((fusefs_args.altflags & FUSE_MOPT_DEFAULT_PERMISSIONS) && (fusefs_args.altflags & FUSE_MOPT_DEFER_PERMISSIONS)) { return EINVAL; } if (fusefs_args.altflags & FUSE_MOPT_DEFAULT_PERMISSIONS) { mntopts |= FSESS_DEFAULT_PERMISSIONS; vfs_clearauthopaque(mp); } if (fusefs_args.altflags & FUSE_MOPT_DEFER_PERMISSIONS) { mntopts |= FSESS_DEFER_PERMISSIONS; } if (fusefs_args.altflags & FUSE_MOPT_EXTENDED_SECURITY) { mntopts |= FSESS_EXTENDED_SECURITY; vfs_setextendedsecurity(mp); } if (fusefs_args.altflags & FUSE_MOPT_LOCALVOL) { mntopts |= FSESS_LOCALVOL; vfs_setflags(mp, MNT_LOCAL); } /* done checking incoming option bits */ err = 0; vfs_setfsprivate(mp, NULL); fdev = fuse_device_get(fusefs_args.rdev); if (!fdev) { return EINVAL; } fuse_device_lock(fdev); drandom = fuse_device_get_random(fdev); if (fusefs_args.random != drandom) { fuse_device_unlock(fdev); IOLog("OSXFUSE: failing mount because of mismatched random\n"); return EINVAL; } data = fuse_device_get_mpdata(fdev); if (!data) { fuse_device_unlock(fdev); return ENXIO; } #if M_OSXFUSE_ENABLE_BIG_LOCK biglock = data->biglock; fuse_biglock_lock(biglock); #endif if (data->mount_state != FM_NOTMOUNTED) { #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(biglock); #endif fuse_device_unlock(fdev); return EALREADY; } if (!(data->dataflags & FSESS_OPENED)) { fuse_device_unlock(fdev); err = ENXIO; goto out; } data->mount_state = FM_MOUNTED; OSAddAtomic(1, (SInt32 *)&fuse_mount_count); mounted = true; if (fdata_dead_get(data)) { fuse_device_unlock(fdev); err = ENOTCONN; goto out; } if (!data->daemoncred) { panic("OSXFUSE: daemon found but identity unknown"); } if (fuse_vfs_context_issuser(context) && kauth_cred_getuid(vfs_context_ucred(context)) != kauth_cred_getuid(data->daemoncred)) { fuse_device_unlock(fdev); err = EPERM; goto out; } data->mp = mp; data->fdev = fdev; data->dataflags |= mntopts; data->daemon_timeout.tv_sec = fusefs_args.daemon_timeout; data->daemon_timeout.tv_nsec = 0; if (data->daemon_timeout.tv_sec) { data->daemon_timeout_p = &(data->daemon_timeout); } else { data->daemon_timeout_p = (struct timespec *)0; } data->max_read = max_read; data->fssubtype = fusefs_args.fssubtype; data->mountaltflags = fusefs_args.altflags; data->noimplflags = (uint64_t)0; data->blocksize = fuse_round_size(fusefs_args.blocksize, FUSE_MIN_BLOCKSIZE, FUSE_MAX_BLOCKSIZE); data->iosize = fuse_round_size(fusefs_args.iosize, FUSE_MIN_IOSIZE, FUSE_MAX_IOSIZE); if (data->iosize < data->blocksize) { data->iosize = data->blocksize; } data->userkernel_bufsize = FUSE_DEFAULT_USERKERNEL_BUFSIZE; copystr(fusefs_args.fsname, vfsstatfsp->f_mntfromname, MNAMELEN - 1, &len); bzero(vfsstatfsp->f_mntfromname + len, MNAMELEN - len); copystr(fusefs_args.volname, data->volname, MAXPATHLEN - 1, &len); bzero(data->volname + len, MAXPATHLEN - len); /* previous location of vfs_setioattr() */ vfs_setfsprivate(mp, data); fuse_device_unlock(fdev); /* Send a handshake message to the daemon. */ kr = kernel_thread_start(fuse_internal_init, data, &init_thread); if (kr != KERN_SUCCESS) { IOLog("OSXFUSE: could not start init thread\n"); err = ENOTCONN; } else { thread_deallocate(init_thread); } out: if (err) { vfs_setfsprivate(mp, NULL); fuse_device_lock(fdev); data = fuse_device_get_mpdata(fdev); /* again */ if (mounted) { OSAddAtomic(-1, (SInt32 *)&fuse_mount_count); } if (data) { data->mount_state = FM_NOTMOUNTED; if (!(data->dataflags & FSESS_OPENED)) { #if M_OSXFUSE_ENABLE_BIG_LOCK assert(biglock == data->biglock); fuse_biglock_unlock(biglock); #endif fuse_device_close_final(fdev); /* data is gone now */ } } fuse_device_unlock(fdev); } else { vnode_t fuse_rootvp = NULLVP; err = fuse_vfsop_root(mp, &fuse_rootvp, context); if (err) { goto out; /* go back and follow error path */ } err = vnode_ref(fuse_rootvp); #if M_OSXFUSE_ENABLE_BIG_LOCK /* * Even though fuse_rootvp will not be reclaimed when calling vnode_put * because we incremented its usecount by calling vnode_ref release * biglock just to be safe. */ fuse_biglock_unlock(biglock); #endif /* M_OSXFUSE_ENABLE_BIG_LOCK */ (void)vnode_put(fuse_rootvp); #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_lock(biglock); #endif if (err) { goto out; /* go back and follow error path */ } else { struct vfsioattr ioattr; vfs_ioattr(mp, &ioattr); ioattr.io_maxreadcnt = ioattr.io_maxwritecnt = data->iosize; ioattr.io_segreadcnt = ioattr.io_segwritecnt = data->iosize / PAGE_SIZE; ioattr.io_maxsegreadsize = ioattr.io_maxsegwritesize = data->iosize; ioattr.io_devblocksize = data->blocksize; vfs_setioattr(mp, &ioattr); } } #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_device_lock(fdev); data = fuse_device_get_mpdata(fdev); /* ...and again */ if(data) { assert(data->biglock == biglock); fuse_biglock_unlock(biglock); } fuse_device_unlock(fdev); #endif return err; }
static errno_t fuse_vfsop_unmount(mount_t mp, int mntflags, vfs_context_t context) { int err = 0; int flags = 0; fuse_device_t fdev; struct fuse_data *data; struct fuse_dispatcher fdi; vnode_t fuse_rootvp = NULLVP; fuse_trace_printf_vfsop(); if (mntflags & MNT_FORCE) { flags |= FORCECLOSE; } data = fuse_get_mpdata(mp); if (!data) { panic("OSXFUSE: no mount private data in vfs_unmount"); } #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_lock(data->biglock); #endif fdev = data->fdev; if (fdata_dead_get(data)) { /* * If the file system daemon is dead, it's pointless to try to do * any unmount-time operations that go out to user space. Therefore, * we pretend that this is a force unmount. However, this isn't of much * use. That's because if any non-root vnode is in use, the vflush() * that the kernel does before calling our VFS_UNMOUNT will fail * if the original unmount wasn't forcible already. That earlier * vflush is called with SKIPROOT though, so it wouldn't bail out * on the root vnode being in use. * * If we want, we could set FORCECLOSE here so that a non-forced * unmount will be "upgraded" to a forced unmount if the root vnode * is busy (you are cd'd to the mount point, for example). It's not * quite pure to do that though. * * flags |= FORCECLOSE; * IOLog("OSXFUSE: forcing unmount on a dead file system\n"); */ } else if (!(data->dataflags & FSESS_INITED)) { flags |= FORCECLOSE; IOLog("OSXFUSE: forcing unmount on not-yet-alive file system\n"); fdata_set_dead(data, false); } fuse_rootvp = data->rootvp; #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(data->biglock); #endif err = vflush(mp, fuse_rootvp, flags); #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_lock(data->biglock); #endif if (err) { #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(data->biglock); #endif return err; } if (vnode_isinuse(fuse_rootvp, 1) && !(flags & FORCECLOSE)) { #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(data->biglock); #endif return EBUSY; } #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(data->biglock); #endif vnode_rele(fuse_rootvp); /* We got this reference in fuse_vfsop_mount(). */ #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_lock(data->biglock); #endif data->rootvp = NULLVP; #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(data->biglock); #endif (void)vflush(mp, NULLVP, FORCECLOSE); #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_lock(data->biglock); #endif /* * Set mount state to FM_UNMOUNTING. * * Note: fdata_set_dead will signal VQ_DEAD if it is called for a volume, * that is still mounted. */ fuse_device_lock(fdev); data->mount_state = FM_UNMOUNTING; fuse_device_unlock(fdev); if (!fdata_dead_get(data)) { fdisp_init(&fdi, 0 /* no data to send along */); fdisp_make(&fdi, FUSE_DESTROY, mp, FUSE_ROOT_ID, context); err = fdisp_wait_answ(&fdi); if (!err) { fuse_ticket_release(fdi.tick); } /* Note that dounmount() signals a VQ_UNMOUNT VFS event */ fdata_set_dead(data, false); } fuse_device_lock(fdev); vfs_setfsprivate(mp, NULL); data->mount_state = FM_NOTMOUNTED; OSAddAtomic(-1, (SInt32 *)&fuse_mount_count); #if M_OSXFUSE_ENABLE_BIG_LOCK fuse_biglock_unlock(data->biglock); #endif if (!(data->dataflags & FSESS_OPENED)) { /* fdev->data was left for us to clean up */ fuse_device_close_final(fdev); /* fdev->data is gone now */ } fuse_device_unlock(fdev); return 0; }
static errno_t fuse_vfsop_mount(mount_t mp, __unused vnode_t devvp, user_addr_t udata, vfs_context_t context) { int err = 0; int mntopts = 0; int mounted = 0; uint32_t drandom = 0; uint32_t max_read = ~0; size_t len; fuse_device_t fdev = FUSE_DEVICE_NULL; struct fuse_data *data = NULL; fuse_mount_args fusefs_args; struct vfsstatfs *vfsstatfsp = vfs_statfs(mp); fuse_trace_printf_vfsop(); if (vfs_isupdate(mp)) { return ENOTSUP; } err = copyin(udata, &fusefs_args, sizeof(fusefs_args)); if (err) { return EINVAL; } /* * Interesting flags that we can receive from mount or may want to * otherwise forcibly set include: * * MNT_ASYNC * MNT_AUTOMOUNTED * MNT_DEFWRITE * MNT_DONTBROWSE * MNT_IGNORE_OWNERSHIP * MNT_JOURNALED * MNT_NODEV * MNT_NOEXEC * MNT_NOSUID * MNT_NOUSERXATTR * MNT_RDONLY * MNT_SYNCHRONOUS * MNT_UNION */ err = ENOTSUP; vfs_setlocklocal(mp); /** Option Processing. **/ if (fusefs_args.altflags & FUSE_MOPT_FSTYPENAME) { size_t typenamelen = strlen(fusefs_args.fstypename); if ((typenamelen <= 0) || (typenamelen > FUSE_FSTYPENAME_MAXLEN)) { return EINVAL; } snprintf(vfsstatfsp->f_fstypename, MFSTYPENAMELEN, "%s%s", FUSE_FSTYPENAME_PREFIX, fusefs_args.fstypename); } if ((fusefs_args.daemon_timeout > FUSE_MAX_DAEMON_TIMEOUT) || (fusefs_args.daemon_timeout < FUSE_MIN_DAEMON_TIMEOUT)) { return EINVAL; } if ((fusefs_args.init_timeout > FUSE_MAX_INIT_TIMEOUT) || (fusefs_args.init_timeout < FUSE_MIN_INIT_TIMEOUT)) { return EINVAL; } if (fusefs_args.altflags & FUSE_MOPT_NO_ALERTS) { mntopts |= FSESS_NO_ALERTS; } if (fusefs_args.altflags & FUSE_MOPT_AUTO_CACHE) { mntopts |= FSESS_AUTO_CACHE; } if (fusefs_args.altflags & FUSE_MOPT_SPARSE) { mntopts |= FSESS_SPARSE; } if (fusefs_args.altflags & FUSE_MOPT_AUTO_XATTR) { mntopts |= FSESS_AUTO_XATTR; } if (fusefs_args.altflags & FUSE_MOPT_NO_BROWSE) { vfs_setflags(mp, MNT_DONTBROWSE); } if (fusefs_args.altflags & FUSE_MOPT_JAIL_SYMLINKS) { mntopts |= FSESS_JAIL_SYMLINKS; } /* * Note that unlike Linux, which keeps allow_root in user-space and * passes allow_other in that case to the kernel, we let allow_root * reach the kernel. The 'if' ordering is important here. */ if (fusefs_args.altflags & FUSE_MOPT_ALLOW_ROOT) { int is_member = 0; if ((kauth_cred_ismember_gid(kauth_cred_get(), fuse_admin_group, &is_member) == 0) && is_member) { mntopts |= FSESS_ALLOW_ROOT; } else { IOLog("MacFUSE: caller not a member of MacFUSE admin group (%d)\n", fuse_admin_group); return EPERM; } } else if (fusefs_args.altflags & FUSE_MOPT_ALLOW_OTHER) { if (!fuse_allow_other && !fuse_vfs_context_issuser(context)) { int is_member = 0; if ((kauth_cred_ismember_gid(kauth_cred_get(), fuse_admin_group, &is_member) != 0) || !is_member) { return EPERM; } } mntopts |= FSESS_ALLOW_OTHER; } if (fusefs_args.altflags & FUSE_MOPT_NO_APPLEDOUBLE) { mntopts |= FSESS_NO_APPLEDOUBLE; } if (fusefs_args.altflags & FUSE_MOPT_NO_APPLEXATTR) { mntopts |= FSESS_NO_APPLEXATTR; } if ((fusefs_args.altflags & FUSE_MOPT_FSID) && (fusefs_args.fsid != 0)) { fsid_t fsid; mount_t other_mp; uint32_t target_dev; target_dev = FUSE_MAKEDEV(FUSE_CUSTOM_FSID_DEVICE_MAJOR, fusefs_args.fsid); fsid.val[0] = target_dev; fsid.val[1] = FUSE_CUSTOM_FSID_VAL1; other_mp = vfs_getvfs(&fsid); if (other_mp != NULL) { return EPERM; } vfsstatfsp->f_fsid.val[0] = target_dev; vfsstatfsp->f_fsid.val[1] = FUSE_CUSTOM_FSID_VAL1; } else { vfs_getnewfsid(mp); } if (fusefs_args.altflags & FUSE_MOPT_KILL_ON_UNMOUNT) { mntopts |= FSESS_KILL_ON_UNMOUNT; } if (fusefs_args.altflags & FUSE_MOPT_NO_LOCALCACHES) { mntopts |= FSESS_NO_ATTRCACHE; mntopts |= FSESS_NO_READAHEAD; mntopts |= FSESS_NO_UBC; mntopts |= FSESS_NO_VNCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NO_ATTRCACHE) { mntopts |= FSESS_NO_ATTRCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NO_READAHEAD) { mntopts |= FSESS_NO_READAHEAD; } if (fusefs_args.altflags & (FUSE_MOPT_NO_UBC | FUSE_MOPT_DIRECT_IO)) { mntopts |= FSESS_NO_UBC; } if (fusefs_args.altflags & FUSE_MOPT_NO_VNCACHE) { mntopts |= FSESS_NO_VNCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NEGATIVE_VNCACHE) { if (mntopts & FSESS_NO_VNCACHE) { return EINVAL; } mntopts |= FSESS_NEGATIVE_VNCACHE; } if (fusefs_args.altflags & FUSE_MOPT_NO_SYNCWRITES) { /* Cannot mix 'nosyncwrites' with 'noubc' or 'noreadahead'. */ if (mntopts & (FSESS_NO_READAHEAD | FSESS_NO_UBC)) { return EINVAL; } mntopts |= FSESS_NO_SYNCWRITES; vfs_clearflags(mp, MNT_SYNCHRONOUS); vfs_setflags(mp, MNT_ASYNC); /* We check for this only if we have nosyncwrites in the first place. */ if (fusefs_args.altflags & FUSE_MOPT_NO_SYNCONCLOSE) { mntopts |= FSESS_NO_SYNCONCLOSE; } } else { vfs_clearflags(mp, MNT_ASYNC); vfs_setflags(mp, MNT_SYNCHRONOUS); } if (mntopts & FSESS_NO_UBC) { /* If no buffer cache, disallow exec from file system. */ vfs_setflags(mp, MNT_NOEXEC); } vfs_setauthopaque(mp); vfs_setauthopaqueaccess(mp); if ((fusefs_args.altflags & FUSE_MOPT_DEFAULT_PERMISSIONS) && (fusefs_args.altflags & FUSE_MOPT_DEFER_PERMISSIONS)) { return EINVAL; } if (fusefs_args.altflags & FUSE_MOPT_DEFAULT_PERMISSIONS) { mntopts |= FSESS_DEFAULT_PERMISSIONS; vfs_clearauthopaque(mp); } if (fusefs_args.altflags & FUSE_MOPT_DEFER_PERMISSIONS) { mntopts |= FSESS_DEFER_PERMISSIONS; } if (fusefs_args.altflags & FUSE_MOPT_EXTENDED_SECURITY) { mntopts |= FSESS_EXTENDED_SECURITY; vfs_setextendedsecurity(mp); } if (fusefs_args.altflags & FUSE_MOPT_LOCALVOL) { mntopts |= FSESS_LOCALVOL; vfs_setflags(mp, MNT_LOCAL); } /* done checking incoming option bits */ err = 0; vfs_setfsprivate(mp, NULL); fdev = fuse_device_get(fusefs_args.rdev); if (!fdev) { return EINVAL; } fuse_device_lock(fdev); drandom = fuse_device_get_random(fdev); if (fusefs_args.random != drandom) { fuse_device_unlock(fdev); IOLog("MacFUSE: failing mount because of mismatched random\n"); return EINVAL; } data = fuse_device_get_mpdata(fdev); if (!data) { fuse_device_unlock(fdev); return ENXIO; } if (data->mount_state != FM_NOTMOUNTED) { fuse_device_unlock(fdev); return EALREADY; } if (!(data->dataflags & FSESS_OPENED)) { fuse_device_unlock(fdev); err = ENXIO; goto out; } data->mount_state = FM_MOUNTED; OSAddAtomic(1, (SInt32 *)&fuse_mount_count); mounted = 1; if (fdata_dead_get(data)) { fuse_device_unlock(fdev); err = ENOTCONN; goto out; } if (!data->daemoncred) { panic("MacFUSE: daemon found but identity unknown"); } if (fuse_vfs_context_issuser(context) && vfs_context_ucred(context)->cr_uid != data->daemoncred->cr_uid) { fuse_device_unlock(fdev); err = EPERM; goto out; } data->mp = mp; data->fdev = fdev; data->dataflags |= mntopts; data->daemon_timeout.tv_sec = fusefs_args.daemon_timeout; data->daemon_timeout.tv_nsec = 0; if (data->daemon_timeout.tv_sec) { data->daemon_timeout_p = &(data->daemon_timeout); } else { data->daemon_timeout_p = (struct timespec *)0; } data->init_timeout.tv_sec = fusefs_args.init_timeout; data->init_timeout.tv_nsec = 0; data->max_read = max_read; data->fssubtype = fusefs_args.fssubtype; data->mountaltflags = fusefs_args.altflags; data->noimplflags = (uint64_t)0; data->blocksize = fuse_round_size(fusefs_args.blocksize, FUSE_MIN_BLOCKSIZE, FUSE_MAX_BLOCKSIZE); data->iosize = fuse_round_size(fusefs_args.iosize, FUSE_MIN_IOSIZE, FUSE_MAX_IOSIZE); if (data->iosize < data->blocksize) { data->iosize = data->blocksize; } data->userkernel_bufsize = FUSE_DEFAULT_USERKERNEL_BUFSIZE; copystr(fusefs_args.fsname, vfsstatfsp->f_mntfromname, MNAMELEN - 1, &len); bzero(vfsstatfsp->f_mntfromname + len, MNAMELEN - len); copystr(fusefs_args.volname, data->volname, MAXPATHLEN - 1, &len); bzero(data->volname + len, MAXPATHLEN - len); /* previous location of vfs_setioattr() */ vfs_setfsprivate(mp, data); fuse_device_unlock(fdev); /* Handshake with the daemon. Blocking. */ err = fuse_internal_send_init(data, context); if (!err) { struct vfs_attr vfs_attr; VFSATTR_INIT(&vfs_attr); /* Our vfs_getattr() doesn't look at most *_IS_ACTIVE()'s */ err = fuse_vfsop_getattr(mp, &vfs_attr, context); if (!err) { vfsstatfsp->f_bsize = vfs_attr.f_bsize; vfsstatfsp->f_iosize = vfs_attr.f_iosize; vfsstatfsp->f_blocks = vfs_attr.f_blocks; vfsstatfsp->f_bfree = vfs_attr.f_bfree; vfsstatfsp->f_bavail = vfs_attr.f_bavail; vfsstatfsp->f_bused = vfs_attr.f_bused; vfsstatfsp->f_files = vfs_attr.f_files; vfsstatfsp->f_ffree = vfs_attr.f_ffree; /* vfsstatfsp->f_fsid already handled above */ vfsstatfsp->f_owner = data->daemoncred->cr_uid; vfsstatfsp->f_flags = vfs_flags(mp); /* vfsstatfsp->f_fstypename already handled above */ /* vfsstatfsp->f_mntonname handled elsewhere */ /* vfsstatfsp->f_mnfromname already handled above */ vfsstatfsp->f_fssubtype = data->fssubtype; } if (fusefs_args.altflags & FUSE_MOPT_BLOCKSIZE) { vfsstatfsp->f_bsize = data->blocksize; } else { //data->blocksize = vfsstatfsp->f_bsize; } if (fusefs_args.altflags & FUSE_MOPT_IOSIZE) { vfsstatfsp->f_iosize = data->iosize; } else { //data->iosize = (uint32_t)vfsstatfsp->f_iosize; vfsstatfsp->f_iosize = data->iosize; } } out: if (err) { vfs_setfsprivate(mp, NULL); fuse_device_lock(fdev); data = fuse_device_get_mpdata(fdev); /* again */ if (mounted) { OSAddAtomic(-1, (SInt32 *)&fuse_mount_count); } if (data) { data->mount_state = FM_NOTMOUNTED; if (!(data->dataflags & FSESS_OPENED)) { fuse_device_close_final(fdev); /* data is gone now */ } } fuse_device_unlock(fdev); } else { vnode_t fuse_rootvp = NULLVP; err = fuse_vfsop_root(mp, &fuse_rootvp, context); if (err) { goto out; /* go back and follow error path */ } err = vnode_ref(fuse_rootvp); (void)vnode_put(fuse_rootvp); if (err) { goto out; /* go back and follow error path */ } else { struct vfsioattr ioattr; vfs_ioattr(mp, &ioattr); ioattr.io_devblocksize = data->blocksize; vfs_setioattr(mp, &ioattr); } } return err; }