chfs_vnode.c revision 1.2.2.2
1 1.2.2.2 mrg /* $NetBSD: chfs_vnode.c,v 1.2.2.2 2012/04/29 23:05:08 mrg Exp $ */ 2 1.1 ahoka 3 1.1 ahoka /*- 4 1.1 ahoka * Copyright (c) 2010 Department of Software Engineering, 5 1.1 ahoka * University of Szeged, Hungary 6 1.1 ahoka * Copyright (C) 2010 Tamas Toth <ttoth (at) inf.u-szeged.hu> 7 1.1 ahoka * Copyright (C) 2010 Adam Hoka <ahoka (at) NetBSD.org> 8 1.1 ahoka * All rights reserved. 9 1.1 ahoka * 10 1.1 ahoka * This code is derived from software contributed to The NetBSD Foundation 11 1.1 ahoka * by the Department of Software Engineering, University of Szeged, Hungary 12 1.1 ahoka * 13 1.1 ahoka * Redistribution and use in source and binary forms, with or without 14 1.1 ahoka * modification, are permitted provided that the following conditions 15 1.1 ahoka * are met: 16 1.1 ahoka * 1. Redistributions of source code must retain the above copyright 17 1.1 ahoka * notice, this list of conditions and the following disclaimer. 18 1.1 ahoka * 2. Redistributions in binary form must reproduce the above copyright 19 1.1 ahoka * notice, this list of conditions and the following disclaimer in the 20 1.1 ahoka * documentation and/or other materials provided with the distribution. 21 1.1 ahoka * 22 1.1 ahoka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 ahoka * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 ahoka * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 ahoka * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 ahoka * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 27 1.1 ahoka * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 28 1.1 ahoka * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 29 1.1 ahoka * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 30 1.1 ahoka * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31 1.1 ahoka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 1.1 ahoka * SUCH DAMAGE. 33 1.1 ahoka */ 34 1.1 ahoka 35 1.1 ahoka #include "chfs.h" 36 1.1 ahoka #include "chfs_inode.h" 37 1.1 ahoka #include <sys/malloc.h> 38 1.1 ahoka #include <sys/kauth.h> 39 1.1 ahoka #include <sys/namei.h> 40 1.1 ahoka #include <sys/uio.h> 41 1.1 ahoka #include <sys/buf.h> 42 1.1 ahoka 43 1.2.2.1 mrg #include <miscfs/genfs/genfs.h> 44 1.2.2.1 mrg 45 1.1 ahoka struct vnode * 46 1.1 ahoka chfs_vnode_lookup(struct chfs_mount *chmp, ino_t vno) 47 1.1 ahoka { 48 1.1 ahoka struct vnode *vp; 49 1.1 ahoka struct chfs_inode *ip; 50 1.1 ahoka 51 1.1 ahoka TAILQ_FOREACH(vp, &chmp->chm_fsmp->mnt_vnodelist, v_mntvnodes) { 52 1.1 ahoka ip = VTOI(vp); 53 1.1 ahoka if (ip && ip->ino == vno) 54 1.1 ahoka return vp; 55 1.1 ahoka } 56 1.1 ahoka return NULL; 57 1.1 ahoka } 58 1.1 ahoka 59 1.1 ahoka int 60 1.1 ahoka chfs_readvnode(struct mount* mp, ino_t ino, struct vnode** vpp) 61 1.1 ahoka { 62 1.1 ahoka struct ufsmount* ump = VFSTOUFS(mp); 63 1.1 ahoka struct chfs_mount *chmp = ump->um_chfs; 64 1.1 ahoka struct chfs_vnode_cache *chvc; 65 1.1 ahoka struct chfs_flash_vnode *chfvn; 66 1.1 ahoka struct chfs_inode *ip; 67 1.1 ahoka int err; 68 1.1 ahoka char* buf; 69 1.1 ahoka size_t retlen, len; 70 1.1 ahoka struct vnode* vp = NULL; 71 1.2 agc dbg("readvnode | ino: %llu\n", (unsigned long long)ino); 72 1.1 ahoka 73 1.1 ahoka len = sizeof(struct chfs_flash_vnode); 74 1.1 ahoka 75 1.1 ahoka KASSERT(vpp != NULL); 76 1.1 ahoka 77 1.1 ahoka if (vpp != NULL) { 78 1.1 ahoka vp = *vpp; 79 1.1 ahoka } 80 1.1 ahoka 81 1.1 ahoka ip = VTOI(vp); 82 1.1 ahoka chvc = ip->chvc; 83 1.1 ahoka 84 1.1 ahoka if (chvc && ino != CHFS_ROOTINO) { 85 1.1 ahoka /* debug... */ 86 1.1 ahoka printf("readvnode; offset: %" PRIu32 ", lnr: %d\n", 87 1.1 ahoka CHFS_GET_OFS(chvc->v->nref_offset), chvc->v->nref_lnr); 88 1.1 ahoka 89 1.1 ahoka KASSERT((void *)chvc != (void *)chvc->v); 90 1.1 ahoka 91 1.1 ahoka buf = kmem_alloc(len, KM_SLEEP); 92 1.1 ahoka err = chfs_read_leb(chmp, chvc->v->nref_lnr, buf, 93 1.1 ahoka CHFS_GET_OFS(chvc->v->nref_offset), len, &retlen); 94 1.1 ahoka if (err) 95 1.1 ahoka return err; 96 1.1 ahoka if (retlen != len) { 97 1.1 ahoka chfs_err("Error reading vnode: read: %zu insted of: %zu\n", 98 1.1 ahoka len, retlen); 99 1.1 ahoka return EIO; 100 1.1 ahoka } 101 1.1 ahoka chfvn = (struct chfs_flash_vnode*)buf; 102 1.1 ahoka chfs_set_vnode_size(vp, chfvn->dn_size); 103 1.1 ahoka ip->mode = chfvn->mode; 104 1.2.2.2 mrg ip->ch_type = IFTOCHT(ip->mode); 105 1.2.2.2 mrg vp->v_type = CHTTOVT(ip->ch_type); 106 1.1 ahoka ip->version = chfvn->version; 107 1.1 ahoka //ip->chvc->highest_version = ip->version; 108 1.1 ahoka ip->uid = chfvn->uid; 109 1.1 ahoka ip->gid = chfvn->gid; 110 1.1 ahoka ip->atime = chfvn->atime; 111 1.1 ahoka ip->mtime = chfvn->mtime; 112 1.1 ahoka ip->ctime = chfvn->ctime; 113 1.1 ahoka kmem_free(buf, len); 114 1.1 ahoka } 115 1.1 ahoka 116 1.1 ahoka 117 1.1 ahoka *vpp = vp; 118 1.1 ahoka return 0; 119 1.1 ahoka } 120 1.1 ahoka 121 1.1 ahoka int 122 1.1 ahoka chfs_readdirent(struct mount *mp, struct chfs_node_ref *chnr, struct chfs_inode *pdir) 123 1.1 ahoka { 124 1.1 ahoka struct ufsmount *ump = VFSTOUFS(mp); 125 1.1 ahoka struct chfs_mount *chmp = ump->um_chfs; 126 1.1 ahoka struct chfs_flash_dirent_node chfdn; 127 1.1 ahoka struct chfs_dirent *fd;//, *pdents; 128 1.1 ahoka size_t len = sizeof(struct chfs_flash_dirent_node); 129 1.1 ahoka // struct chfs_vnode_cache* parent; 130 1.1 ahoka size_t retlen; 131 1.1 ahoka int err = 0; 132 1.1 ahoka 133 1.1 ahoka // parent = chfs_get_vnode_cache(chmp, pdir->ino); 134 1.1 ahoka 135 1.1 ahoka //read flash_dirent_node 136 1.1 ahoka err = chfs_read_leb(chmp, chnr->nref_lnr, (char *)&chfdn, 137 1.1 ahoka CHFS_GET_OFS(chnr->nref_offset), len, &retlen); 138 1.1 ahoka if (err) { 139 1.1 ahoka return err; 140 1.1 ahoka } 141 1.1 ahoka if (retlen != len) { 142 1.1 ahoka chfs_err("Error reading vnode: read: %zu insted of: %zu\n", 143 1.1 ahoka retlen, len); 144 1.1 ahoka return EIO; 145 1.1 ahoka } 146 1.1 ahoka 147 1.1 ahoka //set fields of dirent 148 1.1 ahoka fd = chfs_alloc_dirent(chfdn.nsize + 1); 149 1.1 ahoka fd->version = chfdn.version; 150 1.1 ahoka fd->vno = chfdn.vno; 151 1.1 ahoka fd->type = chfdn.dtype; 152 1.1 ahoka fd->nsize = chfdn.nsize; 153 1.1 ahoka // fd->next = NULL; 154 1.1 ahoka 155 1.1 ahoka err = chfs_read_leb(chmp, chnr->nref_lnr, fd->name, 156 1.1 ahoka CHFS_GET_OFS(chnr->nref_offset) + len, chfdn.nsize, &retlen); 157 1.1 ahoka if (err) { 158 1.1 ahoka return err; 159 1.1 ahoka } 160 1.1 ahoka 161 1.1 ahoka if (retlen != chfdn.nsize) { 162 1.1 ahoka chfs_err("Error reading vnode: read: %zu insted of: %zu\n", 163 1.1 ahoka len, retlen); 164 1.1 ahoka return EIO; 165 1.1 ahoka } 166 1.1 ahoka 167 1.1 ahoka fd->name[fd->nsize] = 0; 168 1.1 ahoka fd->nref = chnr; 169 1.1 ahoka 170 1.1 ahoka chfs_add_fd_to_inode(chmp, pdir, fd); 171 1.1 ahoka /* 172 1.1 ahoka pdents = pdir->i_chfs_ext.dents; 173 1.1 ahoka if (!pdents) 174 1.1 ahoka pdir->i_chfs_ext.dents = fd; 175 1.1 ahoka else { 176 1.1 ahoka while (pdents->next != NULL) { 177 1.1 ahoka pdents = pdents->next; 178 1.1 ahoka } 179 1.1 ahoka pdents->next = fd; 180 1.1 ahoka } 181 1.1 ahoka */ 182 1.1 ahoka return 0; 183 1.1 ahoka } 184 1.1 ahoka 185 1.1 ahoka /* 186 1.1 ahoka * Allocate a new inode. 187 1.1 ahoka */ 188 1.1 ahoka int 189 1.1 ahoka chfs_makeinode(int mode, struct vnode *dvp, struct vnode **vpp, 190 1.2.2.2 mrg struct componentname *cnp, enum vtype type) 191 1.1 ahoka { 192 1.1 ahoka struct chfs_inode *ip, *pdir; 193 1.1 ahoka struct vnode *vp; 194 1.1 ahoka struct ufsmount* ump = VFSTOUFS(dvp->v_mount); 195 1.1 ahoka struct chfs_mount* chmp = ump->um_chfs; 196 1.1 ahoka struct chfs_vnode_cache* chvc; 197 1.2.2.1 mrg int error; 198 1.1 ahoka ino_t vno; 199 1.1 ahoka struct chfs_dirent *nfd;//, *fd; 200 1.1 ahoka 201 1.1 ahoka dbg("makeinode\n"); 202 1.1 ahoka pdir = VTOI(dvp); 203 1.1 ahoka 204 1.1 ahoka *vpp = NULL; 205 1.1 ahoka 206 1.1 ahoka vno = ++(chmp->chm_max_vno); 207 1.1 ahoka 208 1.1 ahoka error = VFS_VGET(dvp->v_mount, vno, &vp); 209 1.1 ahoka if (error) 210 1.1 ahoka return (error); 211 1.1 ahoka 212 1.1 ahoka mutex_enter(&chmp->chm_lock_vnocache); 213 1.1 ahoka chvc = chfs_vnode_cache_get(chmp, vno); 214 1.1 ahoka mutex_exit(&chmp->chm_lock_vnocache); 215 1.1 ahoka 216 1.1 ahoka chvc->pvno = pdir->ino; 217 1.1 ahoka chvc->vno_version = kmem_alloc(sizeof(uint64_t), KM_SLEEP); 218 1.1 ahoka *(chvc->vno_version) = 1; 219 1.1 ahoka if (type != VDIR) 220 1.1 ahoka chvc->nlink = 1; 221 1.1 ahoka else 222 1.1 ahoka chvc->nlink = 2; 223 1.1 ahoka // chfs_vnode_cache_set_state(chmp, chvc, VNO_STATE_CHECKEDABSENT); 224 1.1 ahoka chvc->state = VNO_STATE_CHECKEDABSENT; 225 1.1 ahoka 226 1.1 ahoka ip = VTOI(vp); 227 1.1 ahoka ip->ino = vno; 228 1.1 ahoka 229 1.1 ahoka if (type == VDIR) 230 1.1 ahoka chfs_set_vnode_size(vp, 512); 231 1.1 ahoka else 232 1.1 ahoka chfs_set_vnode_size(vp, 0); 233 1.1 ahoka 234 1.1 ahoka ip->uid = kauth_cred_geteuid(cnp->cn_cred); 235 1.1 ahoka ip->gid = kauth_cred_getegid(cnp->cn_cred); 236 1.1 ahoka ip->version = 1; 237 1.1 ahoka ip->iflag |= (IN_ACCESS | IN_CHANGE | IN_UPDATE); 238 1.1 ahoka 239 1.1 ahoka ip->chvc = chvc; 240 1.1 ahoka //ip->chvc->highest_version = 1; 241 1.1 ahoka ip->target = NULL; 242 1.1 ahoka 243 1.1 ahoka ip->mode = mode; 244 1.2.2.2 mrg vp->v_type = type; /* Rest init'd in getnewvnode(). */ 245 1.2.2.2 mrg ip->ch_type = VTTOCHT(vp->v_type); 246 1.2.2.1 mrg 247 1.2.2.1 mrg /* Authorize setting SGID if needed. */ 248 1.2.2.1 mrg if (ip->mode & ISGID) { 249 1.2.2.1 mrg error = kauth_authorize_vnode(cnp->cn_cred, KAUTH_VNODE_WRITE_SECURITY, 250 1.2.2.1 mrg vp, NULL, genfs_can_chmod(vp->v_type, cnp->cn_cred, ip->uid, 251 1.2.2.1 mrg ip->gid, mode)); 252 1.2.2.1 mrg if (error) 253 1.2.2.1 mrg ip->mode &= ~ISGID; 254 1.2.2.1 mrg } 255 1.1 ahoka 256 1.1 ahoka chfs_update(vp, NULL, NULL, UPDATE_WAIT); 257 1.1 ahoka 258 1.1 ahoka mutex_enter(&chmp->chm_lock_mountfields); 259 1.1 ahoka 260 1.1 ahoka //write inode to flash 261 1.1 ahoka error = chfs_write_flash_vnode(chmp, ip, ALLOC_NORMAL); 262 1.1 ahoka if (error) { 263 1.1 ahoka mutex_exit(&chmp->chm_lock_mountfields); 264 1.1 ahoka vput(vp); 265 1.1 ahoka vput(dvp); 266 1.1 ahoka return error; 267 1.1 ahoka } 268 1.1 ahoka //update parent directory and write it to the flash 269 1.1 ahoka pdir->iflag |= (IN_ACCESS | IN_CHANGE | IN_MODIFY | IN_UPDATE); 270 1.1 ahoka chfs_update(dvp, NULL, NULL, UPDATE_WAIT); 271 1.1 ahoka 272 1.1 ahoka error = chfs_write_flash_vnode(chmp, pdir, ALLOC_NORMAL); 273 1.1 ahoka if (error) { 274 1.1 ahoka mutex_exit(&chmp->chm_lock_mountfields); 275 1.1 ahoka vput(vp); 276 1.1 ahoka vput(dvp); 277 1.1 ahoka return error; 278 1.1 ahoka } 279 1.1 ahoka vput(dvp); 280 1.1 ahoka 281 1.1 ahoka //set up node's full dirent 282 1.1 ahoka nfd = chfs_alloc_dirent(cnp->cn_namelen + 1); 283 1.1 ahoka nfd->vno = ip->ino; 284 1.1 ahoka nfd->version = (++pdir->chvc->highest_version); 285 1.2.2.2 mrg nfd->type = ip->ch_type; 286 1.1 ahoka // nfd->next = NULL; 287 1.1 ahoka nfd->nsize = cnp->cn_namelen; 288 1.1 ahoka memcpy(&(nfd->name), cnp->cn_nameptr, cnp->cn_namelen); 289 1.1 ahoka nfd->name[nfd->nsize] = 0; 290 1.1 ahoka nfd->nhash = hash32_buf(nfd->name, cnp->cn_namelen, HASH32_BUF_INIT); 291 1.1 ahoka 292 1.1 ahoka // write out direntry 293 1.1 ahoka error = chfs_write_flash_dirent(chmp, pdir, ip, nfd, ip->ino, ALLOC_NORMAL); 294 1.1 ahoka if (error) { 295 1.1 ahoka mutex_exit(&chmp->chm_lock_mountfields); 296 1.1 ahoka vput(vp); 297 1.1 ahoka return error; 298 1.1 ahoka } 299 1.1 ahoka 300 1.1 ahoka //TODO set parent's dir times 301 1.1 ahoka 302 1.1 ahoka chfs_add_fd_to_inode(chmp, pdir, nfd); 303 1.1 ahoka /* 304 1.1 ahoka fd = pdir->i_chfs_ext.dents; 305 1.1 ahoka if (!fd) 306 1.1 ahoka pdir->i_chfs_ext.dents = nfd; 307 1.1 ahoka else { 308 1.1 ahoka while (fd->next != NULL) { 309 1.1 ahoka fd = fd->next; 310 1.1 ahoka } 311 1.1 ahoka fd->next = nfd; 312 1.1 ahoka } 313 1.1 ahoka */ 314 1.1 ahoka //pdir->i_nlink++; 315 1.1 ahoka pdir->chvc->nlink++; 316 1.1 ahoka 317 1.1 ahoka mutex_exit(&chmp->chm_lock_mountfields); 318 1.1 ahoka 319 1.1 ahoka *vpp = vp; 320 1.1 ahoka return (0); 321 1.1 ahoka } 322 1.1 ahoka 323 1.1 ahoka void 324 1.1 ahoka chfs_set_vnode_size(struct vnode *vp, size_t size) 325 1.1 ahoka { 326 1.1 ahoka struct chfs_inode *ip; 327 1.1 ahoka 328 1.1 ahoka KASSERT(vp != NULL); 329 1.1 ahoka 330 1.1 ahoka ip = VTOI(vp); 331 1.1 ahoka KASSERT(ip != NULL); 332 1.1 ahoka 333 1.1 ahoka ip->size = size; 334 1.1 ahoka vp->v_size = vp->v_writesize = size; 335 1.1 ahoka return; 336 1.1 ahoka } 337 1.1 ahoka 338 1.1 ahoka void 339 1.1 ahoka chfs_change_size_free(struct chfs_mount *chmp, 340 1.1 ahoka struct chfs_eraseblock *cheb, int change) 341 1.1 ahoka { 342 1.1 ahoka KASSERT(mutex_owned(&chmp->chm_lock_sizes)); 343 1.1 ahoka KASSERT((int)(chmp->chm_free_size + change) >= 0); 344 1.1 ahoka KASSERT((int)(cheb->free_size + change) >= 0); 345 1.1 ahoka KASSERT((int)(cheb->free_size + change) <= chmp->chm_ebh->eb_size); 346 1.1 ahoka chmp->chm_free_size += change; 347 1.1 ahoka cheb->free_size += change; 348 1.1 ahoka return; 349 1.1 ahoka } 350 1.1 ahoka 351 1.1 ahoka void 352 1.1 ahoka chfs_change_size_dirty(struct chfs_mount *chmp, 353 1.1 ahoka struct chfs_eraseblock *cheb, int change) 354 1.1 ahoka { 355 1.1 ahoka KASSERT(mutex_owned(&chmp->chm_lock_sizes)); 356 1.1 ahoka KASSERT((int)(chmp->chm_dirty_size + change) >= 0); 357 1.1 ahoka KASSERT((int)(cheb->dirty_size + change) >= 0); 358 1.1 ahoka KASSERT((int)(cheb->dirty_size + change) <= chmp->chm_ebh->eb_size); 359 1.1 ahoka chmp->chm_dirty_size += change; 360 1.1 ahoka cheb->dirty_size += change; 361 1.1 ahoka return; 362 1.1 ahoka } 363 1.1 ahoka 364 1.1 ahoka void 365 1.1 ahoka chfs_change_size_unchecked(struct chfs_mount *chmp, 366 1.1 ahoka struct chfs_eraseblock *cheb, int change) 367 1.1 ahoka { 368 1.1 ahoka KASSERT(mutex_owned(&chmp->chm_lock_sizes)); 369 1.1 ahoka KASSERT((int)(chmp->chm_unchecked_size + change) >= 0); 370 1.1 ahoka KASSERT((int)(cheb->unchecked_size + change) >= 0); 371 1.1 ahoka KASSERT((int)(cheb->unchecked_size + change) <= chmp->chm_ebh->eb_size); 372 1.1 ahoka chmp->chm_unchecked_size += change; 373 1.1 ahoka cheb->unchecked_size += change; 374 1.1 ahoka return; 375 1.1 ahoka } 376 1.1 ahoka 377 1.1 ahoka void 378 1.1 ahoka chfs_change_size_used(struct chfs_mount *chmp, 379 1.1 ahoka struct chfs_eraseblock *cheb, int change) 380 1.1 ahoka { 381 1.1 ahoka KASSERT(mutex_owned(&chmp->chm_lock_sizes)); 382 1.1 ahoka KASSERT((int)(chmp->chm_used_size + change) >= 0); 383 1.1 ahoka KASSERT((int)(cheb->used_size + change) >= 0); 384 1.1 ahoka KASSERT((int)(cheb->used_size + change) <= chmp->chm_ebh->eb_size); 385 1.1 ahoka chmp->chm_used_size += change; 386 1.1 ahoka cheb->used_size += change; 387 1.1 ahoka return; 388 1.1 ahoka } 389 1.1 ahoka 390 1.1 ahoka void 391 1.1 ahoka chfs_change_size_wasted(struct chfs_mount *chmp, 392 1.1 ahoka struct chfs_eraseblock *cheb, int change) 393 1.1 ahoka { 394 1.1 ahoka KASSERT(mutex_owned(&chmp->chm_lock_sizes)); 395 1.1 ahoka KASSERT((int)(chmp->chm_wasted_size + change) >= 0); 396 1.1 ahoka KASSERT((int)(cheb->wasted_size + change) >= 0); 397 1.1 ahoka KASSERT((int)(cheb->wasted_size + change) <= chmp->chm_ebh->eb_size); 398 1.1 ahoka chmp->chm_wasted_size += change; 399 1.1 ahoka cheb->wasted_size += change; 400 1.1 ahoka return; 401 1.1 ahoka } 402 1.1 ahoka 403
Indexes created Wed Oct 15 07:09:58 GMT 2025