lfs_rename.c revision 1.7.6.3
1 1.7.6.2 tls /* $NetBSD: lfs_rename.c,v 1.7.6.3 2017/12/03 11:39:22 jdolecek Exp $ */ 2 1.7.6.3 jdolecek /* from NetBSD: ufs_rename.c,v 1.12 2015/03/27 17:27:56 riastradh Exp */ 3 1.7.6.2 tls 4 1.7.6.2 tls /*- 5 1.7.6.2 tls * Copyright (c) 2012 The NetBSD Foundation, Inc. 6 1.7.6.2 tls * All rights reserved. 7 1.7.6.2 tls * 8 1.7.6.2 tls * This code is derived from software contributed to The NetBSD Foundation 9 1.7.6.2 tls * by Taylor R Campbell. 10 1.7.6.2 tls * 11 1.7.6.2 tls * Redistribution and use in source and binary forms, with or without 12 1.7.6.2 tls * modification, are permitted provided that the following conditions 13 1.7.6.2 tls * are met: 14 1.7.6.2 tls * 1. Redistributions of source code must retain the above copyright 15 1.7.6.2 tls * notice, this list of conditions and the following disclaimer. 16 1.7.6.2 tls * 2. Redistributions in binary form must reproduce the above copyright 17 1.7.6.2 tls * notice, this list of conditions and the following disclaimer in the 18 1.7.6.2 tls * documentation and/or other materials provided with the distribution. 19 1.7.6.2 tls * 20 1.7.6.2 tls * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 21 1.7.6.2 tls * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 22 1.7.6.2 tls * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 23 1.7.6.2 tls * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 24 1.7.6.2 tls * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 25 1.7.6.2 tls * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 26 1.7.6.2 tls * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 27 1.7.6.2 tls * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 28 1.7.6.2 tls * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 29 1.7.6.2 tls * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 30 1.7.6.2 tls * POSSIBILITY OF SUCH DAMAGE. 31 1.7.6.2 tls */ 32 1.7.6.2 tls /*- 33 1.7.6.2 tls * Copyright (c) 1999, 2000, 2001, 2002, 2003 The NetBSD Foundation, Inc. 34 1.7.6.2 tls * All rights reserved. 35 1.7.6.2 tls * 36 1.7.6.2 tls * This code is derived from software contributed to The NetBSD Foundation 37 1.7.6.2 tls * by Konrad E. Schroder <perseant (at) hhhh.org>. 38 1.7.6.2 tls * 39 1.7.6.2 tls * Redistribution and use in source and binary forms, with or without 40 1.7.6.2 tls * modification, are permitted provided that the following conditions 41 1.7.6.2 tls * are met: 42 1.7.6.2 tls * 1. Redistributions of source code must retain the above copyright 43 1.7.6.2 tls * notice, this list of conditions and the following disclaimer. 44 1.7.6.2 tls * 2. Redistributions in binary form must reproduce the above copyright 45 1.7.6.2 tls * notice, this list of conditions and the following disclaimer in the 46 1.7.6.2 tls * documentation and/or other materials provided with the distribution. 47 1.7.6.2 tls * 48 1.7.6.2 tls * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 49 1.7.6.2 tls * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 50 1.7.6.2 tls * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 51 1.7.6.2 tls * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 52 1.7.6.2 tls * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 53 1.7.6.2 tls * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 54 1.7.6.2 tls * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 55 1.7.6.2 tls * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 56 1.7.6.2 tls * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 57 1.7.6.2 tls * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 58 1.7.6.2 tls * POSSIBILITY OF SUCH DAMAGE. 59 1.7.6.2 tls */ 60 1.7.6.2 tls /* 61 1.7.6.2 tls * Copyright (c) 1986, 1989, 1991, 1993, 1995 62 1.7.6.2 tls * The Regents of the University of California. All rights reserved. 63 1.7.6.2 tls * 64 1.7.6.2 tls * Redistribution and use in source and binary forms, with or without 65 1.7.6.2 tls * modification, are permitted provided that the following conditions 66 1.7.6.2 tls * are met: 67 1.7.6.2 tls * 1. Redistributions of source code must retain the above copyright 68 1.7.6.2 tls * notice, this list of conditions and the following disclaimer. 69 1.7.6.2 tls * 2. Redistributions in binary form must reproduce the above copyright 70 1.7.6.2 tls * notice, this list of conditions and the following disclaimer in the 71 1.7.6.2 tls * documentation and/or other materials provided with the distribution. 72 1.7.6.2 tls * 3. Neither the name of the University nor the names of its contributors 73 1.7.6.2 tls * may be used to endorse or promote products derived from this software 74 1.7.6.2 tls * without specific prior written permission. 75 1.7.6.2 tls * 76 1.7.6.2 tls * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 77 1.7.6.2 tls * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 78 1.7.6.2 tls * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 79 1.7.6.2 tls * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 80 1.7.6.2 tls * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 81 1.7.6.2 tls * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 82 1.7.6.2 tls * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 83 1.7.6.2 tls * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 84 1.7.6.2 tls * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 85 1.7.6.2 tls * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 86 1.7.6.2 tls * SUCH DAMAGE. 87 1.7.6.2 tls * 88 1.7.6.2 tls * @(#)lfs_vnops.c 8.13 (Berkeley) 6/10/95 89 1.7.6.2 tls */ 90 1.7.6.2 tls 91 1.7.6.2 tls #include <sys/cdefs.h> 92 1.7.6.2 tls __KERNEL_RCSID(0, "$NetBSD: lfs_rename.c,v 1.7.6.3 2017/12/03 11:39:22 jdolecek Exp $"); 93 1.7.6.2 tls 94 1.7.6.2 tls #include <sys/param.h> 95 1.7.6.2 tls #include <sys/systm.h> 96 1.7.6.2 tls #include <sys/errno.h> 97 1.7.6.2 tls #include <sys/namei.h> 98 1.7.6.2 tls #include <sys/resourcevar.h> 99 1.7.6.2 tls #include <sys/kernel.h> 100 1.7.6.2 tls #include <sys/file.h> 101 1.7.6.2 tls #include <sys/stat.h> 102 1.7.6.2 tls #include <sys/buf.h> 103 1.7.6.2 tls #include <sys/proc.h> 104 1.7.6.2 tls #include <sys/mount.h> 105 1.7.6.2 tls #include <sys/vnode.h> 106 1.7.6.2 tls #include <sys/vnode_if.h> 107 1.7.6.2 tls #include <sys/pool.h> 108 1.7.6.2 tls #include <sys/signalvar.h> 109 1.7.6.2 tls #include <sys/kauth.h> 110 1.7.6.2 tls #include <sys/syslog.h> 111 1.7.6.2 tls 112 1.7.6.2 tls #include <uvm/uvm.h> 113 1.7.6.2 tls #include <uvm/uvm_pmap.h> 114 1.7.6.2 tls #include <uvm/uvm_stat.h> 115 1.7.6.2 tls #include <uvm/uvm_pager.h> 116 1.7.6.2 tls 117 1.7.6.2 tls #include <miscfs/fifofs/fifo.h> 118 1.7.6.2 tls #include <miscfs/genfs/genfs.h> 119 1.7.6.2 tls #include <miscfs/specfs/specdev.h> 120 1.7.6.2 tls 121 1.7.6.2 tls #include <ufs/lfs/ulfs_inode.h> 122 1.7.6.2 tls #include <ufs/lfs/ulfsmount.h> 123 1.7.6.2 tls #include <ufs/lfs/ulfs_bswap.h> 124 1.7.6.2 tls #include <ufs/lfs/ulfs_extern.h> 125 1.7.6.2 tls 126 1.7.6.2 tls #include <ufs/lfs/lfs.h> 127 1.7.6.3 jdolecek #include <ufs/lfs/lfs_accessors.h> 128 1.7.6.2 tls #include <ufs/lfs/lfs_extern.h> 129 1.7.6.2 tls 130 1.7.6.2 tls /* 131 1.7.6.2 tls * ulfs_gro_directory_empty_p: Return true if the directory vp is 132 1.7.6.2 tls * empty. dvp is its parent. 133 1.7.6.2 tls * 134 1.7.6.2 tls * vp and dvp must be locked and referenced. 135 1.7.6.2 tls */ 136 1.7.6.2 tls static bool 137 1.7.6.2 tls ulfs_gro_directory_empty_p(struct mount *mp, kauth_cred_t cred, 138 1.7.6.2 tls struct vnode *vp, struct vnode *dvp) 139 1.7.6.2 tls { 140 1.7.6.2 tls 141 1.7.6.2 tls (void)mp; 142 1.7.6.2 tls KASSERT(mp != NULL); 143 1.7.6.2 tls KASSERT(vp != NULL); 144 1.7.6.2 tls KASSERT(dvp != NULL); 145 1.7.6.2 tls KASSERT(vp != dvp); 146 1.7.6.2 tls KASSERT(vp->v_mount == mp); 147 1.7.6.2 tls KASSERT(dvp->v_mount == mp); 148 1.7.6.2 tls KASSERT(VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 149 1.7.6.2 tls KASSERT(VOP_ISLOCKED(dvp) == LK_EXCLUSIVE); 150 1.7.6.2 tls 151 1.7.6.2 tls return ulfs_dirempty(VTOI(vp), VTOI(dvp)->i_number, cred); 152 1.7.6.2 tls } 153 1.7.6.2 tls 154 1.7.6.2 tls /* 155 1.7.6.2 tls * ulfs_gro_rename_check_possible: Check whether a rename is possible 156 1.7.6.2 tls * independent of credentials. 157 1.7.6.2 tls */ 158 1.7.6.2 tls static int 159 1.7.6.2 tls ulfs_gro_rename_check_possible(struct mount *mp, 160 1.7.6.2 tls struct vnode *fdvp, struct vnode *fvp, 161 1.7.6.2 tls struct vnode *tdvp, struct vnode *tvp) 162 1.7.6.2 tls { 163 1.7.6.2 tls 164 1.7.6.2 tls (void)mp; 165 1.7.6.2 tls KASSERT(mp != NULL); 166 1.7.6.2 tls KASSERT(fdvp != NULL); 167 1.7.6.2 tls KASSERT(fvp != NULL); 168 1.7.6.2 tls KASSERT(tdvp != NULL); 169 1.7.6.2 tls KASSERT(fdvp != fvp); 170 1.7.6.2 tls KASSERT(fdvp != tvp); 171 1.7.6.2 tls KASSERT(tdvp != fvp); 172 1.7.6.2 tls KASSERT(tdvp != tvp); 173 1.7.6.2 tls KASSERT(fvp != tvp); 174 1.7.6.2 tls KASSERT(fdvp->v_type == VDIR); 175 1.7.6.2 tls KASSERT(tdvp->v_type == VDIR); 176 1.7.6.2 tls KASSERT(fdvp->v_mount == mp); 177 1.7.6.2 tls KASSERT(fvp->v_mount == mp); 178 1.7.6.2 tls KASSERT(tdvp->v_mount == mp); 179 1.7.6.2 tls KASSERT((tvp == NULL) || (tvp->v_mount == mp)); 180 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fdvp) == LK_EXCLUSIVE); 181 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fvp) == LK_EXCLUSIVE); 182 1.7.6.2 tls KASSERT(VOP_ISLOCKED(tdvp) == LK_EXCLUSIVE); 183 1.7.6.2 tls KASSERT((tvp == NULL) || (VOP_ISLOCKED(tvp) == LK_EXCLUSIVE)); 184 1.7.6.2 tls 185 1.7.6.2 tls return genfs_ufslike_rename_check_possible( 186 1.7.6.2 tls VTOI(fdvp)->i_flags, VTOI(fvp)->i_flags, 187 1.7.6.2 tls VTOI(tdvp)->i_flags, (tvp? VTOI(tvp)->i_flags : 0), 188 1.7.6.2 tls (tvp != NULL), 189 1.7.6.2 tls IMMUTABLE, APPEND); 190 1.7.6.2 tls } 191 1.7.6.2 tls 192 1.7.6.2 tls /* 193 1.7.6.2 tls * ulfs_gro_rename_check_permitted: Check whether a rename is permitted 194 1.7.6.2 tls * given our credentials. 195 1.7.6.2 tls */ 196 1.7.6.2 tls static int 197 1.7.6.2 tls ulfs_gro_rename_check_permitted(struct mount *mp, kauth_cred_t cred, 198 1.7.6.2 tls struct vnode *fdvp, struct vnode *fvp, 199 1.7.6.2 tls struct vnode *tdvp, struct vnode *tvp) 200 1.7.6.2 tls { 201 1.7.6.2 tls 202 1.7.6.2 tls (void)mp; 203 1.7.6.2 tls KASSERT(mp != NULL); 204 1.7.6.2 tls KASSERT(fdvp != NULL); 205 1.7.6.2 tls KASSERT(fvp != NULL); 206 1.7.6.2 tls KASSERT(tdvp != NULL); 207 1.7.6.2 tls KASSERT(fdvp != fvp); 208 1.7.6.2 tls KASSERT(fdvp != tvp); 209 1.7.6.2 tls KASSERT(tdvp != fvp); 210 1.7.6.2 tls KASSERT(tdvp != tvp); 211 1.7.6.2 tls KASSERT(fvp != tvp); 212 1.7.6.2 tls KASSERT(fdvp->v_type == VDIR); 213 1.7.6.2 tls KASSERT(tdvp->v_type == VDIR); 214 1.7.6.2 tls KASSERT(fdvp->v_mount == mp); 215 1.7.6.2 tls KASSERT(fvp->v_mount == mp); 216 1.7.6.2 tls KASSERT(tdvp->v_mount == mp); 217 1.7.6.2 tls KASSERT((tvp == NULL) || (tvp->v_mount == mp)); 218 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fdvp) == LK_EXCLUSIVE); 219 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fvp) == LK_EXCLUSIVE); 220 1.7.6.2 tls KASSERT(VOP_ISLOCKED(tdvp) == LK_EXCLUSIVE); 221 1.7.6.2 tls KASSERT((tvp == NULL) || (VOP_ISLOCKED(tvp) == LK_EXCLUSIVE)); 222 1.7.6.2 tls 223 1.7.6.2 tls return genfs_ufslike_rename_check_permitted(cred, 224 1.7.6.2 tls fdvp, VTOI(fdvp)->i_mode, VTOI(fdvp)->i_uid, 225 1.7.6.2 tls fvp, VTOI(fvp)->i_uid, 226 1.7.6.2 tls tdvp, VTOI(tdvp)->i_mode, VTOI(tdvp)->i_uid, 227 1.7.6.2 tls tvp, (tvp? VTOI(tvp)->i_uid : 0)); 228 1.7.6.2 tls } 229 1.7.6.2 tls 230 1.7.6.2 tls /* 231 1.7.6.2 tls * ulfs_gro_remove_check_possible: Check whether a remove is possible 232 1.7.6.2 tls * independent of credentials. 233 1.7.6.2 tls */ 234 1.7.6.2 tls static int 235 1.7.6.2 tls ulfs_gro_remove_check_possible(struct mount *mp, 236 1.7.6.2 tls struct vnode *dvp, struct vnode *vp) 237 1.7.6.2 tls { 238 1.7.6.2 tls 239 1.7.6.2 tls (void)mp; 240 1.7.6.2 tls KASSERT(mp != NULL); 241 1.7.6.2 tls KASSERT(dvp != NULL); 242 1.7.6.2 tls KASSERT(vp != NULL); 243 1.7.6.2 tls KASSERT(dvp != vp); 244 1.7.6.2 tls KASSERT(dvp->v_type == VDIR); 245 1.7.6.2 tls KASSERT(vp->v_type != VDIR); 246 1.7.6.2 tls KASSERT(dvp->v_mount == mp); 247 1.7.6.2 tls KASSERT(vp->v_mount == mp); 248 1.7.6.2 tls KASSERT(VOP_ISLOCKED(dvp) == LK_EXCLUSIVE); 249 1.7.6.2 tls KASSERT(VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 250 1.7.6.2 tls 251 1.7.6.2 tls return genfs_ufslike_remove_check_possible( 252 1.7.6.2 tls VTOI(dvp)->i_flags, VTOI(vp)->i_flags, 253 1.7.6.2 tls IMMUTABLE, APPEND); 254 1.7.6.2 tls } 255 1.7.6.2 tls 256 1.7.6.2 tls /* 257 1.7.6.2 tls * ulfs_gro_remove_check_permitted: Check whether a remove is permitted 258 1.7.6.2 tls * given our credentials. 259 1.7.6.2 tls */ 260 1.7.6.2 tls static int 261 1.7.6.2 tls ulfs_gro_remove_check_permitted(struct mount *mp, kauth_cred_t cred, 262 1.7.6.2 tls struct vnode *dvp, struct vnode *vp) 263 1.7.6.2 tls { 264 1.7.6.2 tls 265 1.7.6.2 tls (void)mp; 266 1.7.6.2 tls KASSERT(mp != NULL); 267 1.7.6.2 tls KASSERT(dvp != NULL); 268 1.7.6.2 tls KASSERT(vp != NULL); 269 1.7.6.2 tls KASSERT(dvp != vp); 270 1.7.6.2 tls KASSERT(dvp->v_type == VDIR); 271 1.7.6.2 tls KASSERT(vp->v_type != VDIR); 272 1.7.6.2 tls KASSERT(dvp->v_mount == mp); 273 1.7.6.2 tls KASSERT(vp->v_mount == mp); 274 1.7.6.2 tls KASSERT(VOP_ISLOCKED(dvp) == LK_EXCLUSIVE); 275 1.7.6.2 tls KASSERT(VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 276 1.7.6.2 tls 277 1.7.6.2 tls return genfs_ufslike_remove_check_permitted(cred, 278 1.7.6.2 tls dvp, VTOI(dvp)->i_mode, VTOI(dvp)->i_uid, vp, VTOI(vp)->i_uid); 279 1.7.6.2 tls } 280 1.7.6.2 tls 281 1.7.6.2 tls /* 282 1.7.6.2 tls * ulfs_rename_ulr_overlap_p: True iff tulr overlaps with fulr so that 283 1.7.6.2 tls * entering a directory entry at tulr may move fulr. 284 1.7.6.2 tls */ 285 1.7.6.2 tls static bool 286 1.7.6.2 tls ulfs_rename_ulr_overlap_p(const struct ulfs_lookup_results *fulr, 287 1.7.6.2 tls const struct ulfs_lookup_results *tulr) 288 1.7.6.2 tls { 289 1.7.6.2 tls doff_t from_prev_start, from_prev_end, to_start, to_end; 290 1.7.6.2 tls 291 1.7.6.2 tls KASSERT(fulr != NULL); 292 1.7.6.2 tls KASSERT(tulr != NULL); 293 1.7.6.2 tls KASSERT(fulr != tulr); 294 1.7.6.2 tls 295 1.7.6.2 tls /* 296 1.7.6.2 tls * fulr is from a DELETE lookup, so fulr->ulr_count is the size 297 1.7.6.2 tls * of the preceding entry (d_reclen). 298 1.7.6.2 tls */ 299 1.7.6.2 tls from_prev_end = fulr->ulr_offset; 300 1.7.6.2 tls KASSERT(fulr->ulr_count <= from_prev_end); 301 1.7.6.2 tls from_prev_start = (from_prev_end - fulr->ulr_count); 302 1.7.6.2 tls 303 1.7.6.2 tls /* 304 1.7.6.2 tls * tulr is from a RENAME lookup, so tulr->ulr_count is the size 305 1.7.6.2 tls * of the free space for an entry that we are about to fill. 306 1.7.6.2 tls */ 307 1.7.6.2 tls to_start = tulr->ulr_offset; 308 1.7.6.2 tls KASSERT(tulr->ulr_count < (LFS_MAXDIRSIZE - to_start)); 309 1.7.6.2 tls to_end = (to_start + tulr->ulr_count); 310 1.7.6.2 tls 311 1.7.6.2 tls return 312 1.7.6.2 tls (((to_start <= from_prev_start) && (from_prev_start < to_end)) || 313 1.7.6.2 tls ((to_start <= from_prev_end) && (from_prev_end < to_end))); 314 1.7.6.2 tls } 315 1.7.6.2 tls 316 1.7.6.2 tls /* 317 1.7.6.2 tls * ulfs_direct_namlen: Return the namlen of the directory entry ep from 318 1.7.6.2 tls * the directory vp. 319 1.7.6.2 tls */ 320 1.7.6.2 tls static int /* XXX int? uint8_t? */ 321 1.7.6.3 jdolecek ulfs_direct_namlen(const LFS_DIRHEADER *ep, const struct vnode *vp) 322 1.7.6.2 tls { 323 1.7.6.3 jdolecek struct lfs *fs; 324 1.7.6.2 tls 325 1.7.6.2 tls KASSERT(ep != NULL); 326 1.7.6.2 tls KASSERT(vp != NULL); 327 1.7.6.2 tls KASSERT(VTOI(vp) != NULL); 328 1.7.6.2 tls KASSERT(VTOI(vp)->i_ump != NULL); 329 1.7.6.3 jdolecek KASSERT(VTOI(vp)->i_lfs != NULL); 330 1.7.6.3 jdolecek fs = VTOI(vp)->i_lfs; 331 1.7.6.2 tls 332 1.7.6.3 jdolecek return lfs_dir_getnamlen(fs, ep); 333 1.7.6.2 tls } 334 1.7.6.2 tls 335 1.7.6.2 tls /* 336 1.7.6.2 tls * ulfs_rename_recalculate_fulr: If we have just entered a directory into 337 1.7.6.2 tls * dvp at tulr, and we were about to remove one at fulr for an entry 338 1.7.6.2 tls * named fcnp, fulr may be invalid. So, if necessary, recalculate it. 339 1.7.6.2 tls */ 340 1.7.6.2 tls static int 341 1.7.6.2 tls ulfs_rename_recalculate_fulr(struct vnode *dvp, 342 1.7.6.2 tls struct ulfs_lookup_results *fulr, const struct ulfs_lookup_results *tulr, 343 1.7.6.2 tls const struct componentname *fcnp) 344 1.7.6.2 tls { 345 1.7.6.2 tls struct mount *mp; 346 1.7.6.2 tls struct lfs *fs; 347 1.7.6.2 tls struct ulfsmount *ump; 348 1.7.6.2 tls /* XXX int is a silly type for this; blame ulfsmount::um_dirblksiz. */ 349 1.7.6.2 tls int dirblksiz; 350 1.7.6.2 tls doff_t search_start, search_end; 351 1.7.6.2 tls doff_t offset; /* Offset of entry we're examining. */ 352 1.7.6.2 tls struct buf *bp; /* I/O block we're examining. */ 353 1.7.6.2 tls char *dirbuf; /* Pointer into directory at search_start. */ 354 1.7.6.3 jdolecek LFS_DIRHEADER *ep; /* Pointer to the entry we're examining. */ 355 1.7.6.2 tls /* XXX direct::d_reclen is 16-bit; 356 1.7.6.2 tls * ulfs_lookup_results::ulr_reclen is 32-bit. Blah. */ 357 1.7.6.2 tls uint32_t reclen; /* Length of the entry we're examining. */ 358 1.7.6.2 tls uint32_t prev_reclen; /* Length of the preceding entry. */ 359 1.7.6.2 tls int error; 360 1.7.6.2 tls 361 1.7.6.2 tls KASSERT(dvp != NULL); 362 1.7.6.2 tls KASSERT(dvp->v_mount != NULL); 363 1.7.6.2 tls KASSERT(VTOI(dvp) != NULL); 364 1.7.6.2 tls KASSERT(fulr != NULL); 365 1.7.6.2 tls KASSERT(tulr != NULL); 366 1.7.6.2 tls KASSERT(fulr != tulr); 367 1.7.6.2 tls KASSERT(ulfs_rename_ulr_overlap_p(fulr, tulr)); 368 1.7.6.2 tls 369 1.7.6.2 tls mp = dvp->v_mount; 370 1.7.6.2 tls ump = VFSTOULFS(mp); 371 1.7.6.2 tls fs = ump->um_lfs; 372 1.7.6.2 tls KASSERT(ump != NULL); 373 1.7.6.2 tls KASSERT(ump == VTOI(dvp)->i_ump); 374 1.7.6.2 tls KASSERT(fs == VTOI(dvp)->i_lfs); 375 1.7.6.2 tls 376 1.7.6.2 tls dirblksiz = fs->um_dirblksiz; 377 1.7.6.2 tls KASSERT(0 < dirblksiz); 378 1.7.6.2 tls KASSERT((dirblksiz & (dirblksiz - 1)) == 0); 379 1.7.6.2 tls 380 1.7.6.2 tls /* A directory block may not span across multiple I/O blocks. */ 381 1.7.6.2 tls KASSERT(dirblksiz <= mp->mnt_stat.f_iosize); 382 1.7.6.2 tls 383 1.7.6.2 tls /* Find the bounds of the search. */ 384 1.7.6.2 tls search_start = tulr->ulr_offset; 385 1.7.6.2 tls KASSERT(fulr->ulr_reclen < (LFS_MAXDIRSIZE - fulr->ulr_offset)); 386 1.7.6.2 tls search_end = (fulr->ulr_offset + fulr->ulr_reclen); 387 1.7.6.2 tls 388 1.7.6.2 tls /* Compaction must happen only within a directory block. (*) */ 389 1.7.6.2 tls KASSERT(search_start <= search_end); 390 1.7.6.2 tls KASSERT((search_end - (search_start &~ (dirblksiz - 1))) <= dirblksiz); 391 1.7.6.2 tls 392 1.7.6.2 tls dirbuf = NULL; 393 1.7.6.2 tls bp = NULL; 394 1.7.6.2 tls error = ulfs_blkatoff(dvp, (off_t)search_start, &dirbuf, &bp, false); 395 1.7.6.2 tls if (error) 396 1.7.6.2 tls return error; 397 1.7.6.2 tls KASSERT(dirbuf != NULL); 398 1.7.6.2 tls KASSERT(bp != NULL); 399 1.7.6.2 tls 400 1.7.6.2 tls /* 401 1.7.6.2 tls * Guarantee we sha'n't go past the end of the buffer we got. 402 1.7.6.2 tls * dirbuf is bp->b_data + (search_start & (iosize - 1)), and 403 1.7.6.2 tls * the valid range is [bp->b_data, bp->b_data + bp->b_bcount). 404 1.7.6.2 tls */ 405 1.7.6.2 tls KASSERT((search_end - search_start) <= 406 1.7.6.2 tls (bp->b_bcount - (search_start & (mp->mnt_stat.f_iosize - 1)))); 407 1.7.6.2 tls 408 1.7.6.2 tls prev_reclen = fulr->ulr_count; 409 1.7.6.2 tls offset = search_start; 410 1.7.6.2 tls 411 1.7.6.2 tls /* 412 1.7.6.2 tls * Search from search_start to search_end for the entry matching 413 1.7.6.2 tls * fcnp, which must be there because we found it before and it 414 1.7.6.2 tls * should only at most have moved earlier. 415 1.7.6.2 tls */ 416 1.7.6.2 tls for (;;) { 417 1.7.6.2 tls KASSERT(search_start <= offset); 418 1.7.6.2 tls KASSERT(offset < search_end); 419 1.7.6.2 tls 420 1.7.6.2 tls /* 421 1.7.6.2 tls * Examine the directory entry at offset. 422 1.7.6.2 tls */ 423 1.7.6.3 jdolecek ep = (LFS_DIRHEADER *)(dirbuf + (offset - search_start)); 424 1.7.6.3 jdolecek reclen = lfs_dir_getreclen(fs, ep); 425 1.7.6.2 tls 426 1.7.6.3 jdolecek if (lfs_dir_getino(fs, ep) == 0) 427 1.7.6.2 tls goto next; /* Entry is unused. */ 428 1.7.6.2 tls 429 1.7.6.3 jdolecek if (lfs_dir_getino(fs, ep) == ULFS_WINO) 430 1.7.6.2 tls goto next; /* Entry is whiteout. */ 431 1.7.6.2 tls 432 1.7.6.2 tls if (fcnp->cn_namelen != ulfs_direct_namlen(ep, dvp)) 433 1.7.6.2 tls goto next; /* Wrong name length. */ 434 1.7.6.2 tls 435 1.7.6.3 jdolecek if (memcmp(lfs_dir_nameptr(fs, ep), fcnp->cn_nameptr, fcnp->cn_namelen)) 436 1.7.6.2 tls goto next; /* Wrong name. */ 437 1.7.6.2 tls 438 1.7.6.2 tls /* Got it! */ 439 1.7.6.2 tls break; 440 1.7.6.2 tls 441 1.7.6.2 tls next: 442 1.7.6.2 tls if (! ((reclen < search_end) && 443 1.7.6.2 tls (offset < (search_end - reclen)))) { 444 1.7.6.2 tls brelse(bp, 0); 445 1.7.6.2 tls return EIO; /* XXX Panic? What? */ 446 1.7.6.2 tls } 447 1.7.6.2 tls 448 1.7.6.2 tls /* We may not move past the search end. */ 449 1.7.6.2 tls KASSERT(reclen < search_end); 450 1.7.6.2 tls KASSERT(offset < (search_end - reclen)); 451 1.7.6.2 tls 452 1.7.6.2 tls /* 453 1.7.6.2 tls * We may not move across a directory block boundary; 454 1.7.6.2 tls * see (*) above. 455 1.7.6.2 tls */ 456 1.7.6.2 tls KASSERT((offset &~ (dirblksiz - 1)) == 457 1.7.6.2 tls ((offset + reclen) &~ (dirblksiz - 1))); 458 1.7.6.2 tls 459 1.7.6.2 tls prev_reclen = reclen; 460 1.7.6.2 tls offset += reclen; 461 1.7.6.2 tls } 462 1.7.6.2 tls 463 1.7.6.2 tls /* 464 1.7.6.2 tls * Found the entry. Record where. 465 1.7.6.2 tls */ 466 1.7.6.2 tls fulr->ulr_offset = offset; 467 1.7.6.2 tls fulr->ulr_reclen = reclen; 468 1.7.6.2 tls 469 1.7.6.2 tls /* 470 1.7.6.2 tls * Record the preceding record length, but not if we're at the 471 1.7.6.2 tls * start of a directory block. 472 1.7.6.2 tls */ 473 1.7.6.2 tls fulr->ulr_count = ((offset & (dirblksiz - 1))? prev_reclen : 0); 474 1.7.6.2 tls 475 1.7.6.2 tls brelse(bp, 0); 476 1.7.6.2 tls return 0; 477 1.7.6.2 tls } 478 1.7.6.2 tls 479 1.7.6.2 tls /* 480 1.7.6.2 tls * ulfs_gro_remove: Rename an object over another link to itself, 481 1.7.6.2 tls * effectively removing just the original link. 482 1.7.6.2 tls */ 483 1.7.6.2 tls static int 484 1.7.6.2 tls ulfs_gro_remove(struct mount *mp, kauth_cred_t cred, 485 1.7.6.2 tls struct vnode *dvp, struct componentname *cnp, void *de, struct vnode *vp) 486 1.7.6.2 tls { 487 1.7.6.2 tls struct ulfs_lookup_results *ulr = de; 488 1.7.6.2 tls int error; 489 1.7.6.2 tls 490 1.7.6.2 tls KASSERT(mp != NULL); 491 1.7.6.2 tls KASSERT(dvp != NULL); 492 1.7.6.2 tls KASSERT(cnp != NULL); 493 1.7.6.2 tls KASSERT(ulr != NULL); 494 1.7.6.2 tls KASSERT(vp != NULL); 495 1.7.6.2 tls KASSERT(dvp != vp); 496 1.7.6.2 tls KASSERT(dvp->v_mount == mp); 497 1.7.6.2 tls KASSERT(vp->v_mount == mp); 498 1.7.6.2 tls KASSERT(dvp->v_type == VDIR); 499 1.7.6.2 tls KASSERT(vp->v_type != VDIR); 500 1.7.6.2 tls KASSERT(VOP_ISLOCKED(dvp) == LK_EXCLUSIVE); 501 1.7.6.2 tls KASSERT(VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 502 1.7.6.2 tls KASSERT(cnp->cn_nameiop == DELETE); 503 1.7.6.2 tls 504 1.7.6.2 tls /* XXX ulfs_dirremove decrements vp's link count for us. */ 505 1.7.6.2 tls error = ulfs_dirremove(dvp, ulr, VTOI(vp), cnp->cn_flags, 0); 506 1.7.6.2 tls if (error) 507 1.7.6.2 tls goto out1; 508 1.7.6.2 tls 509 1.7.6.2 tls VN_KNOTE(dvp, NOTE_WRITE); 510 1.7.6.2 tls VN_KNOTE(vp, (VTOI(vp)->i_nlink? NOTE_LINK : NOTE_DELETE)); 511 1.7.6.2 tls 512 1.7.6.2 tls out1: 513 1.7.6.2 tls return error; 514 1.7.6.2 tls } 515 1.7.6.2 tls 516 1.7.6.2 tls /* 517 1.7.6.2 tls * ulfs_gro_lookup: Look up and save the lookup results. 518 1.7.6.2 tls */ 519 1.7.6.2 tls static int 520 1.7.6.2 tls ulfs_gro_lookup(struct mount *mp, struct vnode *dvp, 521 1.7.6.2 tls struct componentname *cnp, void *de_ret, struct vnode **vp_ret) 522 1.7.6.2 tls { 523 1.7.6.2 tls struct ulfs_lookup_results *ulr_ret = de_ret; 524 1.7.6.2 tls struct vnode *vp = NULL; 525 1.7.6.2 tls int error; 526 1.7.6.2 tls 527 1.7.6.2 tls (void)mp; 528 1.7.6.2 tls KASSERT(mp != NULL); 529 1.7.6.2 tls KASSERT(dvp != NULL); 530 1.7.6.2 tls KASSERT(cnp != NULL); 531 1.7.6.2 tls KASSERT(ulr_ret != NULL); 532 1.7.6.2 tls KASSERT(vp_ret != NULL); 533 1.7.6.2 tls KASSERT(VOP_ISLOCKED(dvp) == LK_EXCLUSIVE); 534 1.7.6.2 tls 535 1.7.6.2 tls /* Kludge cargo-culted from dholland's ulfs_rename. */ 536 1.7.6.2 tls cnp->cn_flags &=~ MODMASK; 537 1.7.6.2 tls cnp->cn_flags |= (LOCKPARENT | LOCKLEAF); 538 1.7.6.2 tls 539 1.7.6.2 tls error = relookup(dvp, &vp, cnp, 0 /* dummy */); 540 1.7.6.2 tls if ((error == 0) && (vp == NULL)) { 541 1.7.6.2 tls error = ENOENT; 542 1.7.6.2 tls goto out; 543 1.7.6.2 tls } else if (error) { 544 1.7.6.2 tls return error; 545 1.7.6.2 tls } 546 1.7.6.2 tls 547 1.7.6.2 tls /* 548 1.7.6.2 tls * Thanks to VFS insanity, relookup locks vp, which screws us 549 1.7.6.2 tls * in various ways. 550 1.7.6.2 tls */ 551 1.7.6.2 tls KASSERT(vp != NULL); 552 1.7.6.2 tls VOP_UNLOCK(vp); 553 1.7.6.2 tls 554 1.7.6.2 tls out: *ulr_ret = VTOI(dvp)->i_crap; 555 1.7.6.2 tls *vp_ret = vp; 556 1.7.6.2 tls return error; 557 1.7.6.2 tls } 558 1.7.6.2 tls 559 1.7.6.2 tls /* 560 1.7.6.2 tls * ulfs_rmdired_p: Check whether the directory vp has been rmdired. 561 1.7.6.2 tls * 562 1.7.6.2 tls * vp must be locked and referenced. 563 1.7.6.2 tls */ 564 1.7.6.2 tls static bool 565 1.7.6.2 tls ulfs_rmdired_p(struct vnode *vp) 566 1.7.6.2 tls { 567 1.7.6.2 tls 568 1.7.6.2 tls KASSERT(vp != NULL); 569 1.7.6.2 tls KASSERT(VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 570 1.7.6.2 tls KASSERT(vp->v_type == VDIR); 571 1.7.6.2 tls 572 1.7.6.2 tls /* XXX Is this correct? */ 573 1.7.6.2 tls return (VTOI(vp)->i_size == 0); 574 1.7.6.2 tls } 575 1.7.6.2 tls 576 1.7.6.2 tls /* 577 1.7.6.2 tls * ulfs_read_dotdot: Store in *ino_ret the inode number of the parent 578 1.7.6.2 tls * of the directory vp. 579 1.7.6.2 tls */ 580 1.7.6.2 tls static int 581 1.7.6.2 tls ulfs_read_dotdot(struct vnode *vp, kauth_cred_t cred, ino_t *ino_ret) 582 1.7.6.2 tls { 583 1.7.6.3 jdolecek struct lfs *fs; 584 1.7.6.3 jdolecek union lfs_dirtemplate dirbuf; 585 1.7.6.3 jdolecek LFS_DIRHEADER *dotdot; 586 1.7.6.3 jdolecek const char *name; 587 1.7.6.2 tls int error; 588 1.7.6.2 tls 589 1.7.6.2 tls KASSERT(vp != NULL); 590 1.7.6.2 tls KASSERT(ino_ret != NULL); 591 1.7.6.2 tls KASSERT(vp->v_type == VDIR); 592 1.7.6.2 tls 593 1.7.6.3 jdolecek KASSERT(VTOI(vp) != NULL); 594 1.7.6.3 jdolecek KASSERT(VTOI(vp)->i_lfs != NULL); 595 1.7.6.3 jdolecek fs = VTOI(vp)->i_lfs; 596 1.7.6.3 jdolecek 597 1.7.6.3 jdolecek error = ulfs_bufio(UIO_READ, vp, &dirbuf, sizeof dirbuf, (off_t)0, 598 1.7.6.3 jdolecek IO_NODELOCKED, cred, NULL, NULL); 599 1.7.6.2 tls if (error) 600 1.7.6.2 tls return error; 601 1.7.6.2 tls 602 1.7.6.3 jdolecek dotdot = lfs_dirtemplate_dotdot(fs, &dirbuf); 603 1.7.6.3 jdolecek name = lfs_dirtemplate_dotdotname(fs, &dirbuf); 604 1.7.6.3 jdolecek if (lfs_dir_getnamlen(fs, dotdot) != 2 || 605 1.7.6.3 jdolecek name[0] != '.' || 606 1.7.6.3 jdolecek name[1] != '.') 607 1.7.6.2 tls /* XXX Panic? Print warning? */ 608 1.7.6.2 tls return ENOTDIR; 609 1.7.6.2 tls 610 1.7.6.3 jdolecek *ino_ret = lfs_dir_getino(fs, dotdot); 611 1.7.6.2 tls return 0; 612 1.7.6.2 tls } 613 1.7.6.2 tls 614 1.7.6.2 tls /* 615 1.7.6.2 tls * ulfs_gro_lock_directory: Lock the directory vp, but fail if it has 616 1.7.6.2 tls * been rmdir'd. 617 1.7.6.2 tls */ 618 1.7.6.2 tls static int 619 1.7.6.2 tls ulfs_gro_lock_directory(struct mount *mp, struct vnode *vp) 620 1.7.6.2 tls { 621 1.7.6.2 tls 622 1.7.6.2 tls (void)mp; 623 1.7.6.2 tls KASSERT(mp != NULL); 624 1.7.6.2 tls KASSERT(vp != NULL); 625 1.7.6.2 tls KASSERT(vp->v_mount == mp); 626 1.7.6.2 tls 627 1.7.6.2 tls vn_lock(vp, LK_EXCLUSIVE | LK_RETRY); 628 1.7.6.2 tls 629 1.7.6.2 tls if (ulfs_rmdired_p(vp)) { 630 1.7.6.2 tls VOP_UNLOCK(vp); 631 1.7.6.2 tls return ENOENT; 632 1.7.6.2 tls } 633 1.7.6.2 tls 634 1.7.6.2 tls return 0; 635 1.7.6.2 tls } 636 1.7.6.2 tls 637 1.7.6.2 tls /* 638 1.7.6.2 tls * ulfs_gro_genealogy: Analyze the genealogy of the source and target 639 1.7.6.2 tls * directories. 640 1.7.6.2 tls */ 641 1.7.6.2 tls static int 642 1.7.6.2 tls ulfs_gro_genealogy(struct mount *mp, kauth_cred_t cred, 643 1.7.6.2 tls struct vnode *fdvp, struct vnode *tdvp, 644 1.7.6.2 tls struct vnode **intermediate_node_ret) 645 1.7.6.2 tls { 646 1.7.6.2 tls struct vnode *vp, *dvp; 647 1.7.6.2 tls ino_t dotdot_ino = -1; /* XXX gcc 4.8: maybe-uninitialized */ 648 1.7.6.2 tls int error; 649 1.7.6.2 tls 650 1.7.6.2 tls KASSERT(mp != NULL); 651 1.7.6.2 tls KASSERT(fdvp != NULL); 652 1.7.6.2 tls KASSERT(tdvp != NULL); 653 1.7.6.2 tls KASSERT(fdvp != tdvp); 654 1.7.6.2 tls KASSERT(intermediate_node_ret != NULL); 655 1.7.6.2 tls KASSERT(fdvp->v_mount == mp); 656 1.7.6.2 tls KASSERT(tdvp->v_mount == mp); 657 1.7.6.2 tls KASSERT(fdvp->v_type == VDIR); 658 1.7.6.2 tls KASSERT(tdvp->v_type == VDIR); 659 1.7.6.2 tls 660 1.7.6.2 tls /* 661 1.7.6.2 tls * We need to provisionally lock tdvp to keep rmdir from 662 1.7.6.2 tls * deleting it -- or any ancestor -- at an inopportune moment. 663 1.7.6.2 tls */ 664 1.7.6.2 tls error = ulfs_gro_lock_directory(mp, tdvp); 665 1.7.6.2 tls if (error) 666 1.7.6.2 tls return error; 667 1.7.6.2 tls 668 1.7.6.2 tls vp = tdvp; 669 1.7.6.2 tls vref(vp); 670 1.7.6.2 tls 671 1.7.6.2 tls for (;;) { 672 1.7.6.2 tls KASSERT(vp != NULL); 673 1.7.6.2 tls KASSERT(VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 674 1.7.6.2 tls KASSERT(vp->v_mount == mp); 675 1.7.6.2 tls KASSERT(vp->v_type == VDIR); 676 1.7.6.2 tls KASSERT(!ulfs_rmdired_p(vp)); 677 1.7.6.2 tls 678 1.7.6.2 tls /* Did we hit the root without finding fdvp? */ 679 1.7.6.2 tls if (VTOI(vp)->i_number == ULFS_ROOTINO) { 680 1.7.6.2 tls vput(vp); 681 1.7.6.2 tls *intermediate_node_ret = NULL; 682 1.7.6.2 tls return 0; 683 1.7.6.2 tls } 684 1.7.6.2 tls 685 1.7.6.2 tls error = ulfs_read_dotdot(vp, cred, &dotdot_ino); 686 1.7.6.2 tls if (error) { 687 1.7.6.2 tls vput(vp); 688 1.7.6.2 tls return error; 689 1.7.6.2 tls } 690 1.7.6.2 tls 691 1.7.6.2 tls /* Did we find that fdvp is an ancestor of tdvp? */ 692 1.7.6.2 tls if (VTOI(fdvp)->i_number == dotdot_ino) { 693 1.7.6.2 tls /* Unlock vp, but keep it referenced. */ 694 1.7.6.2 tls VOP_UNLOCK(vp); 695 1.7.6.2 tls *intermediate_node_ret = vp; 696 1.7.6.2 tls return 0; 697 1.7.6.2 tls } 698 1.7.6.2 tls 699 1.7.6.2 tls /* Neither -- keep ascending the family tree. */ 700 1.7.6.3 jdolecek error = vcache_get(mp, &dotdot_ino, sizeof(dotdot_ino), &dvp); 701 1.7.6.3 jdolecek vput(vp); 702 1.7.6.2 tls if (error) 703 1.7.6.2 tls return error; 704 1.7.6.3 jdolecek error = vn_lock(dvp, LK_EXCLUSIVE); 705 1.7.6.3 jdolecek if (error) { 706 1.7.6.3 jdolecek vrele(dvp); 707 1.7.6.3 jdolecek return error; 708 1.7.6.3 jdolecek } 709 1.7.6.2 tls 710 1.7.6.2 tls KASSERT(dvp != NULL); 711 1.7.6.2 tls KASSERT(VOP_ISLOCKED(dvp) == LK_EXCLUSIVE); 712 1.7.6.2 tls vp = dvp; 713 1.7.6.2 tls 714 1.7.6.2 tls if (vp->v_type != VDIR) { 715 1.7.6.2 tls /* 716 1.7.6.2 tls * XXX Panic? Print a warning? Can this 717 1.7.6.2 tls * happen if we lose the race I suspect to 718 1.7.6.2 tls * exist above, and the `..' inode number has 719 1.7.6.2 tls * been recycled? 720 1.7.6.2 tls */ 721 1.7.6.2 tls vput(vp); 722 1.7.6.2 tls return ENOTDIR; 723 1.7.6.2 tls } 724 1.7.6.2 tls 725 1.7.6.2 tls if (ulfs_rmdired_p(vp)) { 726 1.7.6.2 tls vput(vp); 727 1.7.6.2 tls return ENOENT; 728 1.7.6.2 tls } 729 1.7.6.2 tls } 730 1.7.6.2 tls } 731 1.7.6.2 tls 732 1.7.6.2 tls /* 733 1.7.6.2 tls * ulfs_gro_rename: Actually perform the rename operation. 734 1.7.6.2 tls */ 735 1.7.6.2 tls static int 736 1.7.6.2 tls ulfs_gro_rename(struct mount *mp, kauth_cred_t cred, 737 1.7.6.2 tls struct vnode *fdvp, struct componentname *fcnp, 738 1.7.6.2 tls void *fde, struct vnode *fvp, 739 1.7.6.2 tls struct vnode *tdvp, struct componentname *tcnp, 740 1.7.6.2 tls void *tde, struct vnode *tvp) 741 1.7.6.2 tls { 742 1.7.6.3 jdolecek struct lfs *fs; 743 1.7.6.2 tls struct ulfs_lookup_results *fulr = fde; 744 1.7.6.2 tls struct ulfs_lookup_results *tulr = tde; 745 1.7.6.2 tls bool directory_p, reparent_p; 746 1.7.6.2 tls int error; 747 1.7.6.2 tls 748 1.7.6.2 tls KASSERT(mp != NULL); 749 1.7.6.2 tls KASSERT(fdvp != NULL); 750 1.7.6.2 tls KASSERT(fcnp != NULL); 751 1.7.6.2 tls KASSERT(fulr != NULL); 752 1.7.6.2 tls KASSERT(fvp != NULL); 753 1.7.6.2 tls KASSERT(tdvp != NULL); 754 1.7.6.2 tls KASSERT(tcnp != NULL); 755 1.7.6.2 tls KASSERT(tulr != NULL); 756 1.7.6.2 tls KASSERT(fulr != tulr); 757 1.7.6.2 tls KASSERT(fdvp != fvp); 758 1.7.6.2 tls KASSERT(fdvp != tvp); 759 1.7.6.2 tls KASSERT(tdvp != fvp); 760 1.7.6.2 tls KASSERT(tdvp != tvp); 761 1.7.6.2 tls KASSERT(fvp != tvp); 762 1.7.6.2 tls KASSERT(fdvp->v_mount == mp); 763 1.7.6.2 tls KASSERT(fvp->v_mount == mp); 764 1.7.6.2 tls KASSERT(tdvp->v_mount == mp); 765 1.7.6.2 tls KASSERT((tvp == NULL) || (tvp->v_mount == mp)); 766 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fdvp) == LK_EXCLUSIVE); 767 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fvp) == LK_EXCLUSIVE); 768 1.7.6.2 tls KASSERT(VOP_ISLOCKED(tdvp) == LK_EXCLUSIVE); 769 1.7.6.2 tls KASSERT((tvp == NULL) || (VOP_ISLOCKED(tvp) == LK_EXCLUSIVE)); 770 1.7.6.2 tls 771 1.7.6.3 jdolecek fs = VTOI(fdvp)->i_lfs; 772 1.7.6.3 jdolecek KASSERT(fs == VTOI(tdvp)->i_lfs); 773 1.7.6.3 jdolecek 774 1.7.6.2 tls /* 775 1.7.6.2 tls * We shall need to temporarily bump the link count, so make 776 1.7.6.2 tls * sure there is room to do so. 777 1.7.6.2 tls */ 778 1.7.6.2 tls if ((nlink_t)VTOI(fvp)->i_nlink >= LINK_MAX) 779 1.7.6.2 tls return EMLINK; 780 1.7.6.2 tls 781 1.7.6.2 tls directory_p = (fvp->v_type == VDIR); 782 1.7.6.2 tls KASSERT(directory_p == ((VTOI(fvp)->i_mode & LFS_IFMT) == LFS_IFDIR)); 783 1.7.6.2 tls KASSERT((tvp == NULL) || (directory_p == (tvp->v_type == VDIR))); 784 1.7.6.2 tls KASSERT((tvp == NULL) || (directory_p == 785 1.7.6.2 tls ((VTOI(tvp)->i_mode & LFS_IFMT) == LFS_IFDIR))); 786 1.7.6.2 tls 787 1.7.6.2 tls reparent_p = (fdvp != tdvp); 788 1.7.6.2 tls KASSERT(reparent_p == (VTOI(fdvp)->i_number != VTOI(tdvp)->i_number)); 789 1.7.6.2 tls 790 1.7.6.2 tls /* 791 1.7.6.2 tls * Commence hacking of the data on disk. 792 1.7.6.2 tls */ 793 1.7.6.2 tls 794 1.7.6.2 tls error = 0; 795 1.7.6.2 tls 796 1.7.6.2 tls /* 797 1.7.6.2 tls * 1) Bump link count while we're moving stuff 798 1.7.6.2 tls * around. If we crash somewhere before 799 1.7.6.2 tls * completing our work, the link count 800 1.7.6.2 tls * may be wrong, but correctable. 801 1.7.6.2 tls */ 802 1.7.6.2 tls 803 1.7.6.2 tls KASSERT((nlink_t)VTOI(fvp)->i_nlink < LINK_MAX); 804 1.7.6.2 tls VTOI(fvp)->i_nlink++; 805 1.7.6.2 tls DIP_ASSIGN(VTOI(fvp), nlink, VTOI(fvp)->i_nlink); 806 1.7.6.3 jdolecek VTOI(fvp)->i_state |= IN_CHANGE; 807 1.7.6.2 tls error = lfs_update(fvp, NULL, NULL, UPDATE_DIROP); 808 1.7.6.2 tls if (error) 809 1.7.6.2 tls goto whymustithurtsomuch; 810 1.7.6.2 tls 811 1.7.6.2 tls /* 812 1.7.6.2 tls * 2) If target doesn't exist, link the target 813 1.7.6.2 tls * to the source and unlink the source. 814 1.7.6.2 tls * Otherwise, rewrite the target directory 815 1.7.6.2 tls * entry to reference the source inode and 816 1.7.6.2 tls * expunge the original entry's existence. 817 1.7.6.2 tls */ 818 1.7.6.2 tls 819 1.7.6.2 tls if (tvp == NULL) { 820 1.7.6.2 tls /* 821 1.7.6.2 tls * Account for ".." in new directory. 822 1.7.6.2 tls * When source and destination have the same 823 1.7.6.2 tls * parent we don't fool with the link count. 824 1.7.6.2 tls */ 825 1.7.6.2 tls if (directory_p && reparent_p) { 826 1.7.6.2 tls if ((nlink_t)VTOI(tdvp)->i_nlink >= LINK_MAX) { 827 1.7.6.2 tls error = EMLINK; 828 1.7.6.2 tls goto whymustithurtsomuch; 829 1.7.6.2 tls } 830 1.7.6.2 tls KASSERT((nlink_t)VTOI(tdvp)->i_nlink < LINK_MAX); 831 1.7.6.2 tls VTOI(tdvp)->i_nlink++; 832 1.7.6.2 tls DIP_ASSIGN(VTOI(tdvp), nlink, VTOI(tdvp)->i_nlink); 833 1.7.6.3 jdolecek VTOI(tdvp)->i_state |= IN_CHANGE; 834 1.7.6.2 tls error = lfs_update(tdvp, NULL, NULL, UPDATE_DIROP); 835 1.7.6.2 tls if (error) { 836 1.7.6.2 tls /* 837 1.7.6.2 tls * Link count update didn't take -- 838 1.7.6.2 tls * back out the in-memory link count. 839 1.7.6.2 tls */ 840 1.7.6.2 tls KASSERT(0 < VTOI(tdvp)->i_nlink); 841 1.7.6.2 tls VTOI(tdvp)->i_nlink--; 842 1.7.6.2 tls DIP_ASSIGN(VTOI(tdvp), nlink, 843 1.7.6.2 tls VTOI(tdvp)->i_nlink); 844 1.7.6.3 jdolecek VTOI(tdvp)->i_state |= IN_CHANGE; 845 1.7.6.2 tls goto whymustithurtsomuch; 846 1.7.6.2 tls } 847 1.7.6.2 tls } 848 1.7.6.2 tls 849 1.7.6.3 jdolecek error = ulfs_direnter(tdvp, tulr, 850 1.7.6.3 jdolecek NULL, tcnp, VTOI(fvp)->i_number, LFS_IFTODT(VTOI(fvp)->i_mode), 851 1.7.6.3 jdolecek NULL); 852 1.7.6.2 tls if (error) { 853 1.7.6.2 tls if (directory_p && reparent_p) { 854 1.7.6.2 tls /* 855 1.7.6.2 tls * Directory update didn't take, but 856 1.7.6.2 tls * the link count update did -- back 857 1.7.6.2 tls * out the in-memory link count and the 858 1.7.6.2 tls * on-disk link count. 859 1.7.6.2 tls */ 860 1.7.6.2 tls KASSERT(0 < VTOI(tdvp)->i_nlink); 861 1.7.6.2 tls VTOI(tdvp)->i_nlink--; 862 1.7.6.2 tls DIP_ASSIGN(VTOI(tdvp), nlink, 863 1.7.6.2 tls VTOI(tdvp)->i_nlink); 864 1.7.6.3 jdolecek VTOI(tdvp)->i_state |= IN_CHANGE; 865 1.7.6.2 tls (void)lfs_update(tdvp, NULL, NULL, 866 1.7.6.2 tls UPDATE_WAIT | UPDATE_DIROP); 867 1.7.6.2 tls } 868 1.7.6.2 tls goto whymustithurtsomuch; 869 1.7.6.2 tls } 870 1.7.6.2 tls } else { 871 1.7.6.2 tls if (directory_p) 872 1.7.6.2 tls /* XXX WTF? Why purge here? Why not purge others? */ 873 1.7.6.2 tls cache_purge(tdvp); 874 1.7.6.2 tls 875 1.7.6.2 tls /* 876 1.7.6.2 tls * Make the target directory's entry for tcnp point at 877 1.7.6.2 tls * the source node. 878 1.7.6.2 tls * 879 1.7.6.2 tls * XXX ulfs_dirrewrite decrements tvp's link count, but 880 1.7.6.2 tls * doesn't touch the link count of the new inode. Go 881 1.7.6.2 tls * figure. 882 1.7.6.2 tls */ 883 1.7.6.2 tls error = ulfs_dirrewrite(VTOI(tdvp), tulr->ulr_offset, 884 1.7.6.2 tls VTOI(tvp), VTOI(fvp)->i_number, LFS_IFTODT(VTOI(fvp)->i_mode), 885 1.7.6.2 tls ((directory_p && reparent_p) ? reparent_p : directory_p), 886 1.7.6.2 tls IN_CHANGE | IN_UPDATE); 887 1.7.6.2 tls if (error) 888 1.7.6.2 tls goto whymustithurtsomuch; 889 1.7.6.2 tls 890 1.7.6.2 tls /* 891 1.7.6.2 tls * If the source and target are directories, and the 892 1.7.6.2 tls * target is in the same directory as the source, 893 1.7.6.2 tls * decrement the link count of the common parent 894 1.7.6.2 tls * directory, since we are removing the target from 895 1.7.6.2 tls * that directory. 896 1.7.6.2 tls */ 897 1.7.6.2 tls if (directory_p && !reparent_p) { 898 1.7.6.2 tls KASSERT(fdvp == tdvp); 899 1.7.6.2 tls /* XXX check, don't kassert */ 900 1.7.6.2 tls KASSERT(0 < VTOI(tdvp)->i_nlink); 901 1.7.6.2 tls VTOI(tdvp)->i_nlink--; 902 1.7.6.2 tls DIP_ASSIGN(VTOI(tdvp), nlink, VTOI(tdvp)->i_nlink); 903 1.7.6.3 jdolecek VTOI(tdvp)->i_state |= IN_CHANGE; 904 1.7.6.2 tls } 905 1.7.6.2 tls 906 1.7.6.2 tls if (directory_p) { 907 1.7.6.2 tls /* 908 1.7.6.2 tls * XXX I don't understand the following comment 909 1.7.6.2 tls * from ulfs_rename -- in particular, the part 910 1.7.6.2 tls * about `there may be other hard links'. 911 1.7.6.2 tls * 912 1.7.6.2 tls * Truncate inode. The only stuff left in the directory 913 1.7.6.2 tls * is "." and "..". The "." reference is inconsequential 914 1.7.6.2 tls * since we are quashing it. We have removed the "." 915 1.7.6.2 tls * reference and the reference in the parent directory, 916 1.7.6.2 tls * but there may be other hard links. 917 1.7.6.2 tls * 918 1.7.6.2 tls * XXX The ulfs_dirempty call earlier does 919 1.7.6.2 tls * not guarantee anything about nlink. 920 1.7.6.2 tls */ 921 1.7.6.2 tls if (VTOI(tvp)->i_nlink != 1) 922 1.7.6.2 tls ulfs_dirbad(VTOI(tvp), (doff_t)0, 923 1.7.6.2 tls "hard-linked directory"); 924 1.7.6.2 tls VTOI(tvp)->i_nlink = 0; 925 1.7.6.2 tls DIP_ASSIGN(VTOI(tvp), nlink, 0); 926 1.7.6.2 tls error = lfs_truncate(tvp, (off_t)0, IO_SYNC, cred); 927 1.7.6.2 tls if (error) 928 1.7.6.2 tls goto whymustithurtsomuch; 929 1.7.6.2 tls } 930 1.7.6.2 tls } 931 1.7.6.2 tls 932 1.7.6.2 tls /* 933 1.7.6.2 tls * If the source is a directory with a new parent, the link 934 1.7.6.2 tls * count of the old parent directory must be decremented and 935 1.7.6.2 tls * ".." set to point to the new parent. 936 1.7.6.2 tls * 937 1.7.6.2 tls * XXX ulfs_dirrewrite updates the link count of fdvp, but not 938 1.7.6.2 tls * the link count of fvp or the link count of tdvp. Go figure. 939 1.7.6.2 tls */ 940 1.7.6.2 tls if (directory_p && reparent_p) { 941 1.7.6.3 jdolecek off_t position; 942 1.7.6.3 jdolecek 943 1.7.6.3 jdolecek /* 944 1.7.6.3 jdolecek * The .. entry goes immediately after the . entry, so 945 1.7.6.3 jdolecek * the position is the record length of the . entry, 946 1.7.6.3 jdolecek * namely LFS_DIRECTSIZ(1). 947 1.7.6.3 jdolecek */ 948 1.7.6.3 jdolecek position = LFS_DIRECTSIZ(fs, 1); 949 1.7.6.3 jdolecek error = ulfs_dirrewrite(VTOI(fvp), position, 950 1.7.6.2 tls VTOI(fdvp), VTOI(tdvp)->i_number, LFS_DT_DIR, 0, IN_CHANGE); 951 1.7.6.2 tls #if 0 /* XXX This branch was not in ulfs_rename! */ 952 1.7.6.2 tls if (error) 953 1.7.6.2 tls goto whymustithurtsomuch; 954 1.7.6.2 tls #endif 955 1.7.6.2 tls 956 1.7.6.2 tls /* XXX WTF? Why purge here? Why not purge others? */ 957 1.7.6.2 tls cache_purge(fdvp); 958 1.7.6.2 tls } 959 1.7.6.2 tls 960 1.7.6.2 tls /* 961 1.7.6.2 tls * 3) Unlink the source. 962 1.7.6.2 tls */ 963 1.7.6.2 tls 964 1.7.6.2 tls /* 965 1.7.6.2 tls * ulfs_direnter may compact the directory in the process of 966 1.7.6.2 tls * inserting a new entry. That may invalidate fulr, which we 967 1.7.6.2 tls * need in order to remove the old entry. In that case, we 968 1.7.6.2 tls * need to recalculate what fulr should be. 969 1.7.6.2 tls */ 970 1.7.6.2 tls if (!reparent_p && (tvp == NULL) && 971 1.7.6.2 tls ulfs_rename_ulr_overlap_p(fulr, tulr)) { 972 1.7.6.2 tls error = ulfs_rename_recalculate_fulr(fdvp, fulr, tulr, fcnp); 973 1.7.6.2 tls #if 0 /* XXX */ 974 1.7.6.2 tls if (error) /* XXX Try to back out changes? */ 975 1.7.6.2 tls goto whymustithurtsomuch; 976 1.7.6.2 tls #endif 977 1.7.6.2 tls } 978 1.7.6.2 tls 979 1.7.6.2 tls /* 980 1.7.6.2 tls * XXX 0 means !isrmdir. But can't this be an rmdir? 981 1.7.6.2 tls * XXX Well, turns out that argument to ulfs_dirremove is ignored... 982 1.7.6.2 tls * XXX And it turns out ulfs_dirremove updates the link count of fvp. 983 1.7.6.2 tls * XXX But it doesn't update the link count of fdvp. Go figure. 984 1.7.6.2 tls * XXX fdvp's link count is updated in ulfs_dirrewrite instead. 985 1.7.6.2 tls * XXX Actually, sometimes it doesn't update fvp's link count. 986 1.7.6.2 tls * XXX I hate the world. 987 1.7.6.2 tls */ 988 1.7.6.2 tls error = ulfs_dirremove(fdvp, fulr, VTOI(fvp), fcnp->cn_flags, 0); 989 1.7.6.2 tls if (error) 990 1.7.6.2 tls #if 0 /* XXX */ 991 1.7.6.2 tls goto whymustithurtsomuch; 992 1.7.6.2 tls #endif 993 1.7.6.2 tls goto arghmybrainhurts; 994 1.7.6.2 tls 995 1.7.6.2 tls /* 996 1.7.6.2 tls * XXX Perhaps this should go at the top, in case the file 997 1.7.6.2 tls * system is modified but incompletely so because of an 998 1.7.6.2 tls * intermediate error. 999 1.7.6.2 tls */ 1000 1.7.6.2 tls genfs_rename_knote(fdvp, fvp, tdvp, tvp, 1001 1.7.6.2 tls ((tvp != NULL) && (VTOI(tvp)->i_nlink == 0))); 1002 1.7.6.2 tls #if 0 /* XXX */ 1003 1.7.6.2 tls genfs_rename_cache_purge(fdvp, fvp, tdvp, tvp); 1004 1.7.6.2 tls #endif 1005 1.7.6.2 tls goto arghmybrainhurts; 1006 1.7.6.2 tls 1007 1.7.6.2 tls whymustithurtsomuch: 1008 1.7.6.2 tls KASSERT(0 < VTOI(fvp)->i_nlink); 1009 1.7.6.2 tls VTOI(fvp)->i_nlink--; 1010 1.7.6.2 tls DIP_ASSIGN(VTOI(fvp), nlink, VTOI(fvp)->i_nlink); 1011 1.7.6.3 jdolecek VTOI(fvp)->i_state |= IN_CHANGE; 1012 1.7.6.2 tls 1013 1.7.6.2 tls arghmybrainhurts: 1014 1.7.6.2 tls /*ihateyou:*/ 1015 1.7.6.2 tls return error; 1016 1.7.6.2 tls } 1017 1.7.6.2 tls 1018 1.7.6.2 tls /* 1019 1.7.6.2 tls * lfs_gro_rename: Actually perform the rename operation. Do a little 1020 1.7.6.2 tls * LFS bookkeeping and then defer to ulfs_gro_rename. 1021 1.7.6.2 tls */ 1022 1.7.6.2 tls static int 1023 1.7.6.2 tls lfs_gro_rename(struct mount *mp, kauth_cred_t cred, 1024 1.7.6.2 tls struct vnode *fdvp, struct componentname *fcnp, 1025 1.7.6.2 tls void *fde, struct vnode *fvp, 1026 1.7.6.2 tls struct vnode *tdvp, struct componentname *tcnp, 1027 1.7.6.2 tls void *tde, struct vnode *tvp) 1028 1.7.6.2 tls { 1029 1.7.6.2 tls int error; 1030 1.7.6.2 tls 1031 1.7.6.2 tls KASSERT(mp != NULL); 1032 1.7.6.2 tls KASSERT(fdvp != NULL); 1033 1.7.6.2 tls KASSERT(fcnp != NULL); 1034 1.7.6.2 tls KASSERT(fde != NULL); 1035 1.7.6.2 tls KASSERT(fvp != NULL); 1036 1.7.6.2 tls KASSERT(tdvp != NULL); 1037 1.7.6.2 tls KASSERT(tcnp != NULL); 1038 1.7.6.2 tls KASSERT(tde != NULL); 1039 1.7.6.2 tls KASSERT(fdvp != fvp); 1040 1.7.6.2 tls KASSERT(fdvp != tvp); 1041 1.7.6.2 tls KASSERT(tdvp != fvp); 1042 1.7.6.2 tls KASSERT(tdvp != tvp); 1043 1.7.6.2 tls KASSERT(fvp != tvp); 1044 1.7.6.2 tls KASSERT(fdvp->v_mount == mp); 1045 1.7.6.2 tls KASSERT(fvp->v_mount == mp); 1046 1.7.6.2 tls KASSERT(tdvp->v_mount == mp); 1047 1.7.6.2 tls KASSERT((tvp == NULL) || (tvp->v_mount == mp)); 1048 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fdvp) == LK_EXCLUSIVE); 1049 1.7.6.2 tls KASSERT(VOP_ISLOCKED(fvp) == LK_EXCLUSIVE); 1050 1.7.6.2 tls KASSERT(VOP_ISLOCKED(tdvp) == LK_EXCLUSIVE); 1051 1.7.6.2 tls KASSERT((tvp == NULL) || (VOP_ISLOCKED(tvp) == LK_EXCLUSIVE)); 1052 1.7.6.2 tls 1053 1.7.6.2 tls error = lfs_set_dirop(tdvp, tvp); 1054 1.7.6.2 tls if (error != 0) 1055 1.7.6.2 tls return error; 1056 1.7.6.2 tls 1057 1.7.6.2 tls MARK_VNODE(fdvp); 1058 1.7.6.2 tls MARK_VNODE(fvp); 1059 1.7.6.2 tls 1060 1.7.6.2 tls error = ulfs_gro_rename(mp, cred, 1061 1.7.6.2 tls fdvp, fcnp, fde, fvp, 1062 1.7.6.2 tls tdvp, tcnp, tde, tvp); 1063 1.7.6.2 tls 1064 1.7.6.2 tls UNMARK_VNODE(fdvp); 1065 1.7.6.2 tls UNMARK_VNODE(fvp); 1066 1.7.6.2 tls UNMARK_VNODE(tdvp); 1067 1.7.6.2 tls if (tvp) { 1068 1.7.6.2 tls UNMARK_VNODE(tvp); 1069 1.7.6.2 tls } 1070 1.7.6.2 tls lfs_unset_dirop(VFSTOULFS(mp)->um_lfs, tdvp, "rename"); 1071 1.7.6.2 tls vrele(tdvp); 1072 1.7.6.2 tls if (tvp) { 1073 1.7.6.2 tls vrele(tvp); 1074 1.7.6.2 tls } 1075 1.7.6.2 tls 1076 1.7.6.2 tls return error; 1077 1.7.6.2 tls } 1078 1.7.6.2 tls 1079 1.7.6.2 tls static const struct genfs_rename_ops lfs_genfs_rename_ops = { 1080 1.7.6.2 tls .gro_directory_empty_p = ulfs_gro_directory_empty_p, 1081 1.7.6.2 tls .gro_rename_check_possible = ulfs_gro_rename_check_possible, 1082 1.7.6.2 tls .gro_rename_check_permitted = ulfs_gro_rename_check_permitted, 1083 1.7.6.2 tls .gro_remove_check_possible = ulfs_gro_remove_check_possible, 1084 1.7.6.2 tls .gro_remove_check_permitted = ulfs_gro_remove_check_permitted, 1085 1.7.6.2 tls .gro_rename = lfs_gro_rename, 1086 1.7.6.2 tls .gro_remove = ulfs_gro_remove, 1087 1.7.6.2 tls .gro_lookup = ulfs_gro_lookup, 1088 1.7.6.2 tls .gro_genealogy = ulfs_gro_genealogy, 1089 1.7.6.2 tls .gro_lock_directory = ulfs_gro_lock_directory, 1090 1.7.6.2 tls }; 1091 1.7.6.2 tls 1092 1.7.6.2 tls /* 1093 1.7.6.2 tls * lfs_sane_rename: The hairiest vop, with the saner API. 1094 1.7.6.2 tls * 1095 1.7.6.2 tls * Arguments: 1096 1.7.6.2 tls * 1097 1.7.6.2 tls * . fdvp (from directory vnode), 1098 1.7.6.2 tls * . fcnp (from component name), 1099 1.7.6.2 tls * . tdvp (to directory vnode), 1100 1.7.6.2 tls * . tcnp (to component name), 1101 1.7.6.2 tls * . cred (credentials structure), and 1102 1.7.6.2 tls * . posixly_correct (flag for behaviour if target & source link same file). 1103 1.7.6.2 tls * 1104 1.7.6.2 tls * fdvp and tdvp may be the same, and must be referenced and unlocked. 1105 1.7.6.2 tls */ 1106 1.7.6.2 tls static int 1107 1.7.6.2 tls lfs_sane_rename( 1108 1.7.6.2 tls struct vnode *fdvp, struct componentname *fcnp, 1109 1.7.6.2 tls struct vnode *tdvp, struct componentname *tcnp, 1110 1.7.6.2 tls kauth_cred_t cred, bool posixly_correct) 1111 1.7.6.2 tls { 1112 1.7.6.2 tls struct ulfs_lookup_results fulr, tulr; 1113 1.7.6.2 tls 1114 1.7.6.2 tls /* 1115 1.7.6.2 tls * XXX Provisional kludge -- ulfs_lookup does not reject rename 1116 1.7.6.2 tls * of . or .. (from or to), so we hack it here. This is not 1117 1.7.6.2 tls * the right place: it should be caller's responsibility to 1118 1.7.6.2 tls * reject this case. 1119 1.7.6.2 tls */ 1120 1.7.6.2 tls KASSERT(fcnp != NULL); 1121 1.7.6.2 tls KASSERT(tcnp != NULL); 1122 1.7.6.2 tls KASSERT(fcnp != tcnp); 1123 1.7.6.2 tls KASSERT(fcnp->cn_nameptr != NULL); 1124 1.7.6.2 tls KASSERT(tcnp->cn_nameptr != NULL); 1125 1.7.6.2 tls 1126 1.7.6.2 tls if ((fcnp->cn_flags | tcnp->cn_flags) & ISDOTDOT) 1127 1.7.6.2 tls return EINVAL; /* XXX EISDIR? */ 1128 1.7.6.2 tls if ((fcnp->cn_namelen == 1) && (fcnp->cn_nameptr[0] == '.')) 1129 1.7.6.2 tls return EINVAL; 1130 1.7.6.2 tls if ((tcnp->cn_namelen == 1) && (tcnp->cn_nameptr[0] == '.')) 1131 1.7.6.2 tls return EINVAL; 1132 1.7.6.2 tls 1133 1.7.6.2 tls return genfs_sane_rename(&lfs_genfs_rename_ops, 1134 1.7.6.2 tls fdvp, fcnp, &fulr, tdvp, tcnp, &tulr, 1135 1.7.6.2 tls cred, posixly_correct); 1136 1.7.6.2 tls } 1137 1.7.6.2 tls 1138 1.7.6.2 tls /* 1139 1.7.6.2 tls * lfs_rename: The hairiest vop, with the insanest API. Defer to 1140 1.7.6.2 tls * genfs_insane_rename immediately. 1141 1.7.6.2 tls */ 1142 1.7.6.2 tls int 1143 1.7.6.2 tls lfs_rename(void *v) 1144 1.7.6.2 tls { 1145 1.7.6.2 tls 1146 1.7.6.2 tls return genfs_insane_rename(v, &lfs_sane_rename); 1147 1.7.6.2 tls } 1148
Indexes created Thu Oct 02 14:10:14 GMT 2025