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/*- * Copyright 2000 Hans Reiser * See README for licensing and copyright details * * Ported to FreeBSD by Jean-Sébastien Pédron <dumbbell@FreeBSD.org> * * $FreeBSD: release/9.1.0/sys/gnu/fs/reiserfs/reiserfs_inode.c 215548 2010-11-19 21:17:34Z kib $ */ #include <gnu/fs/reiserfs/reiserfs_fs.h> static b_strategy_t reiserfs_bufstrategy; /* * Buffer operations for ReiserFS vnodes. * We punt on VOP_BMAP, so we need to do strategy on the file's vnode * rather than the underlying device's. */ static struct buf_ops reiserfs_vnbufops = { .bop_name = "ReiserFS", .bop_strategy = reiserfs_bufstrategy, }; /* Default io size devuned in super.c */ extern int reiserfs_default_io_size; void inode_set_bytes(struct reiserfs_node *ip, off_t bytes); /* Args for the create parameter of reiserfs_get_block */ #define GET_BLOCK_NO_CREATE 0 /* Don't create new blocks or convert tails */ #define GET_BLOCK_CREATE 1 /* Add anything you need to find block */ #define GET_BLOCK_NO_HOLE 2 /* Return ENOENT for file holes */ #define GET_BLOCK_READ_DIRECT 4 /* Read the tail if indirect item not found */ #define GET_BLOCK_NO_ISEM 8 /* i_sem is not held, don't preallocate */ #define GET_BLOCK_NO_DANGLE 16 /* Don't leave any transactions running */ /* ------------------------------------------------------------------- * vnode operations * -------------------------------------------------------------------*/ int reiserfs_read(struct vop_read_args *ap) { struct uio *uio; struct vnode *vp; struct reiserfs_node *ip; struct reiserfs_sb_info *sbi; int error; long size; daddr_t lbn; off_t bytesinfile, offset; uio = ap->a_uio; vp = ap->a_vp; ip = VTOI(vp); sbi = ip->i_reiserfs; size = sbi->s_blocksize; for (error = 0; uio->uio_resid > 0;) { if ((bytesinfile = ip->i_size - uio->uio_offset) <= 0) break; /* Compute the logical block number and its offset */ lbn = uio->uio_offset / size; offset = uio->uio_offset % size; reiserfs_log(LOG_DEBUG, "logical block number: %ju\n", (intmax_t)lbn); reiserfs_log(LOG_DEBUG, "block offset: %ju\n", (intmax_t)offset); /* Read file blocks */ reiserfs_log(LOG_DEBUG, "reiserfs_get_block(%ju)\n", (intmax_t)lbn); if ((error = reiserfs_get_block(ip, lbn, offset, uio)) != 0) { reiserfs_log(LOG_DEBUG, "reiserfs_get_block returned the error %d\n", error); break; } } return (error); } static void reiserfs_bufstrategy(struct bufobj *bo, struct buf *bp) { struct vnode *vp; int rc; vp = bo->bo_private; KASSERT(bo == &vp->v_bufobj, ("BO/VP mismatch: vp %p bo %p != %p", vp, &vp->v_bufobj, bo)); rc = VOP_STRATEGY(vp, bp); KASSERT(rc == 0, ("ReiserFS VOP_STRATEGY failed: bp=%p, " "vp=%p, rc=%d", bp, vp, rc)); } int reiserfs_inactive(struct vop_inactive_args *ap) { int error; struct vnode *vp; struct thread *td; struct reiserfs_node *ip; error = 0; vp = ap->a_vp; td = ap->a_td; ip = VTOI(vp); reiserfs_log(LOG_DEBUG, "deactivating inode used %d times\n", vp->v_usecount); #if 0 /* Ignore inodes related to stale file handles. */ if (ip->i_mode == 0) goto out; out: #endif /* * If we are done with the inode, reclaim it so that it can be reused * immediately. */ if (ip->i_mode == 0) { reiserfs_log(LOG_DEBUG, "recyling\n"); vrecycle(vp, td); } return (error); } int reiserfs_reclaim(struct vop_reclaim_args *ap) { struct reiserfs_node *ip; struct vnode *vp; vp = ap->a_vp; reiserfs_log(LOG_DEBUG, "reclaiming inode used %d times\n", vp->v_usecount); ip = VTOI(vp); /* XXX Update this node (write to the disk) */ /* Remove the inode from its hash chain. */ vfs_hash_remove(vp); reiserfs_log(LOG_DEBUG, "free private data\n"); free(vp->v_data, M_REISERFSNODE); vp->v_data = NULL; vnode_destroy_vobject(vp); return (0); } /* ------------------------------------------------------------------- * Functions from linux/fs/reiserfs/inode.c * -------------------------------------------------------------------*/ static void _make_cpu_key(struct cpu_key *key, int version, uint32_t dirid, uint32_t objectid, off_t offset, int type, int length) { key->version = version; key->on_disk_key.k_dir_id = dirid; key->on_disk_key.k_objectid = objectid; set_cpu_key_k_offset(key, offset); set_cpu_key_k_type(key, type); key->key_length = length; } /* * Take base of inode_key (it comes from inode always) (dirid, objectid) * and version from an inode, set offset and type of key */ void make_cpu_key(struct cpu_key *key, struct reiserfs_node *ip, off_t offset, int type, int length) { _make_cpu_key(key, get_inode_item_key_version(ip), le32toh(INODE_PKEY(ip)->k_dir_id), le32toh(INODE_PKEY(ip)->k_objectid), offset, type, length); } int reiserfs_get_block(struct reiserfs_node *ip, long block, off_t offset, struct uio *uio) { caddr_t blk = NULL, p; struct cpu_key key; /* unsigned long offset; */ INITIALIZE_PATH(path); struct buf *bp, *blk_bp; struct item_head *ih; struct reiserfs_sb_info *sbi; int blocknr, chars, done = 0, ret = 0, args = 0; sbi = ip->i_reiserfs; /* Prepare the key to look for the 'block'-th block of file */ reiserfs_log(LOG_DEBUG, "prepare cpu key\n"); make_cpu_key(&key, ip, (off_t)block * sbi->s_blocksize + 1, TYPE_ANY, 3); /* research: */ reiserfs_log(LOG_DEBUG, "search for position\n"); if (search_for_position_by_key(sbi, &key, &path) != POSITION_FOUND) { reiserfs_log(LOG_DEBUG, "position not found\n"); pathrelse(&path); #if 0 if (blk) kunmap(bh_result->b_page); #endif /* * We do not return ENOENT if there is a hole but page is * uptodate, because it means that there is some MMAPED data * associated with it that is yet to be written to disk. */ if ((args & GET_BLOCK_NO_HOLE)/* && !PageUptodate(bh_result->b_page)*/) return (ENOENT); return (0); } reiserfs_log(LOG_DEBUG, "position found\n"); bp = get_last_bp(&path); ih = get_ih(&path); if (is_indirect_le_ih(ih)) { off_t xfersize; uint32_t *ind_item = (uint32_t *)B_I_PITEM(bp, ih); reiserfs_log(LOG_DEBUG, "item is INDIRECT\n"); blocknr = get_block_num(ind_item, path.pos_in_item); reiserfs_log(LOG_DEBUG, "block number: %d " "(ind_item=%p, pos_in_item=%u)\n", blocknr, ind_item, path.pos_in_item); xfersize = MIN(sbi->s_blocksize - offset, ip->i_size - uio->uio_offset); xfersize = MIN(xfersize, uio->uio_resid); if (blocknr) { ret = bread(sbi->s_devvp, blocknr * btodb(sbi->s_blocksize), sbi->s_blocksize, NOCRED, &blk_bp); reiserfs_log(LOG_DEBUG, "xfersize: %ju\n", (intmax_t)xfersize); ret = uiomove(blk_bp->b_data + offset, xfersize, uio); brelse(blk_bp); } else { /* * We do not return ENOENT if there is a hole but * page is uptodate, because it means That there * is some MMAPED data associated with it that * is yet to be written to disk. */ if ((args & GET_BLOCK_NO_HOLE)/* && !PageUptodate(bh_result->b_page)*/) ret = (ENOENT); /* Skip this hole */ uio->uio_resid -= xfersize; uio->uio_offset += xfersize; } pathrelse(&path); return (ret); } reiserfs_log(LOG_DEBUG, "item should be DIRECT\n"); #if 0 /* Requested data are in direct item(s) */ if (!(args & GET_BLOCK_READ_DIRECT)) { /* * We are called by bmap. FIXME: we can not map block of * file when it is stored in direct item(s) */ pathrelse(&path); #if 0 if (blk) kunmap(bh_result->b_page); #endif return (ENOENT); } #endif #if 0 /* * If we've got a direct item, and the buffer or page was uptodate, we * don't want to pull data off disk again. Skip to the end, where we * map the buffer and return */ if (buffer_uptodate(bh_result)) { goto finished; } else /* * grab_tail_page can trigger calls to reiserfs_get_block * on up to date pages without any buffers. If the page * is up to date, we don't want read old data off disk. * Set the up to date bit on the buffer instead and jump * to the end */ if (!bh_result->b_page || PageUptodate(bh_result->b_page)) { set_buffer_uptodate(bh_result); goto finished; } #endif #if 0 /* Read file tail into part of page */ offset = (cpu_key_k_offset(&key) - 1) & (PAGE_CACHE_SIZE - 1); fs_gen = get_generation(ip->i_reiserfs); copy_item_head(&tmp_ih, ih); #endif #if 0 /* * We only want to kmap if we are reading the tail into the page. this * is not the common case, so we don't kmap until we are sure we need * to. But, this means the item might move if kmap schedules */ if (!blk) { blk = (char *)kmap(bh_result->b_page); if (fs_changed (fs_gen, sbi) && item_moved(&tmp_ih, &path)) goto research; } blk += offset; memset(blk, 0, sbi->s_blocksize); #endif if (!blk) { reiserfs_log(LOG_DEBUG, "allocating buffer\n"); blk = malloc(ip->i_size, M_REISERFSNODE, M_WAITOK | M_ZERO); if (!blk) return (ENOMEM); } /* p += offset; */ p = blk; do { if (!is_direct_le_ih(ih)) { reiserfs_log(LOG_ERR, "BUG\n"); return (ENOENT); /* XXX Wrong error code */ } /* * Make sure we don't read more bytes than actually exist * in the file. This can happen in odd cases where i_size * isn't correct, and when direct item padding results in * a few extra bytes at the end of the direct item */ if ((le_ih_k_offset(ih) + path.pos_in_item) > ip->i_size) break; if ((le_ih_k_offset(ih) - 1 + ih_item_len(ih)) > ip->i_size) { chars = ip->i_size - (le_ih_k_offset(ih) - 1) - path.pos_in_item; done = 1; } else { chars = ih_item_len(ih) - path.pos_in_item; } reiserfs_log(LOG_DEBUG, "copying %d bytes\n", chars); memcpy(p, B_I_PITEM(bp, ih) + path.pos_in_item, chars); if (done) { reiserfs_log(LOG_DEBUG, "copy done\n"); break; } p += chars; if (PATH_LAST_POSITION(&path) != (B_NR_ITEMS(bp) - 1)) /* * We done, if read direct item is not the last * item of node * FIXME: we could try to check right delimiting * key to see whether direct item continues in * the right neighbor or rely on i_size */ break; /* Update key to look for the next piece */ set_cpu_key_k_offset(&key, cpu_key_k_offset(&key) + chars); if (search_for_position_by_key(sbi, &key, &path) != POSITION_FOUND) /* * We read something from tail, even if now we got * IO_ERROR */ break; bp = get_last_bp(&path); ih = get_ih(&path); } while (1); /* finished: */ pathrelse(&path); /* * This buffer has valid data, but isn't valid for io. mapping it to * block #0 tells the rest of reiserfs it just has a tail in it */ ret = uiomove(blk, ip->i_size, uio); free(blk, M_REISERFSNODE); return (ret); } /* * Compute real number of used bytes by file * Following three functions can go away when we'll have enough space in * stat item */ static int real_space_diff(struct reiserfs_node *ip, int sd_size) { int bytes; off_t blocksize = ip->i_reiserfs->s_blocksize; if (S_ISLNK(ip->i_mode) || S_ISDIR(ip->i_mode)) return (sd_size); /* End of file is also in full block with indirect reference, so round * up to the next block. * * There is just no way to know if the tail is actually packed on the * file, so we have to assume it isn't. When we pack the tail, we add * 4 bytes to pretend there really is an unformatted node pointer. */ bytes = ((ip->i_size + (blocksize - 1)) >> ip->i_reiserfs->s_blocksize_bits) * UNFM_P_SIZE + sd_size; return (bytes); } static inline off_t to_real_used_space(struct reiserfs_node *ip, unsigned long blocks, int sd_size) { if (S_ISLNK(ip->i_mode) || S_ISDIR(ip->i_mode)) { return ip->i_size + (off_t)(real_space_diff(ip, sd_size)); } return ((off_t)real_space_diff(ip, sd_size)) + (((off_t)blocks) << 9); } void inode_set_bytes(struct reiserfs_node *ip, off_t bytes) { ip->i_blocks = bytes >> 9; ip->i_bytes = bytes & 511; } /* Called by read_locked_inode */ static void init_inode(struct reiserfs_node *ip, struct path *path) { struct buf *bp; struct item_head *ih; uint32_t rdev; bp = PATH_PLAST_BUFFER(path); ih = PATH_PITEM_HEAD(path); reiserfs_log(LOG_DEBUG, "copy the key (objectid=%d, dirid=%d)\n", ih->ih_key.k_objectid, ih->ih_key.k_dir_id); copy_key(INODE_PKEY(ip), &(ih->ih_key)); /* ip->i_blksize = reiserfs_default_io_size; */ reiserfs_log(LOG_DEBUG, "reset some inode structure members\n"); REISERFS_I(ip)->i_flags = 0; #if 0 REISERFS_I(ip)->i_prealloc_block = 0; REISERFS_I(ip)->i_prealloc_count = 0; REISERFS_I(ip)->i_trans_id = 0; REISERFS_I(ip)->i_jl = NULL; REISERFS_I(ip)->i_acl_access = NULL; REISERFS_I(ip)->i_acl_default = NULL; #endif if (stat_data_v1(ih)) { reiserfs_log(LOG_DEBUG, "reiserfs/init_inode: stat data v1\n"); struct stat_data_v1 *sd; unsigned long blocks; sd = (struct stat_data_v1 *)B_I_PITEM(bp, ih); reiserfs_log(LOG_DEBUG, "reiserfs/init_inode: filling more members\n"); set_inode_item_key_version(ip, KEY_FORMAT_3_5); set_inode_sd_version(ip, STAT_DATA_V1); ip->i_mode = sd_v1_mode(sd); ip->i_nlink = sd_v1_nlink(sd); ip->i_uid = sd_v1_uid(sd); ip->i_gid = sd_v1_gid(sd); ip->i_size = sd_v1_size(sd); ip->i_atime.tv_sec = sd_v1_atime(sd); ip->i_mtime.tv_sec = sd_v1_mtime(sd); ip->i_ctime.tv_sec = sd_v1_ctime(sd); ip->i_atime.tv_nsec = 0; ip->i_ctime.tv_nsec = 0; ip->i_mtime.tv_nsec = 0; reiserfs_log(LOG_DEBUG, " mode = %08x\n", ip->i_mode); reiserfs_log(LOG_DEBUG, " nlink = %d\n", ip->i_nlink); reiserfs_log(LOG_DEBUG, " owner = %d:%d\n", ip->i_uid, ip->i_gid); reiserfs_log(LOG_DEBUG, " size = %ju\n", (intmax_t)ip->i_size); reiserfs_log(LOG_DEBUG, " atime = %jd\n", (intmax_t)ip->i_atime.tv_sec); reiserfs_log(LOG_DEBUG, " mtime = %jd\n", (intmax_t)ip->i_mtime.tv_sec); reiserfs_log(LOG_DEBUG, " ctime = %jd\n", (intmax_t)ip->i_ctime.tv_sec); ip->i_blocks = sd_v1_blocks(sd); ip->i_generation = le32toh(INODE_PKEY(ip)->k_dir_id); blocks = (ip->i_size + 511) >> 9; blocks = _ROUND_UP(blocks, ip->i_reiserfs->s_blocksize >> 9); if (ip->i_blocks > blocks) { /* * There was a bug in <= 3.5.23 when i_blocks could * take negative values. Starting from 3.5.17 this * value could even be stored in stat data. For such * files we set i_blocks based on file size. Just 2 * notes: this can be wrong for sparce files. On-disk * value will be only updated if file's inode will * ever change. */ ip->i_blocks = blocks; } rdev = sd_v1_rdev(sd); REISERFS_I(ip)->i_first_direct_byte = sd_v1_first_direct_byte(sd); /* * An early bug in the quota code can give us an odd number * for the block count. This is incorrect, fix it here. */ if (ip->i_blocks & 1) { ip->i_blocks++ ; } inode_set_bytes(ip, to_real_used_space(ip, ip->i_blocks, SD_V1_SIZE)); /* * nopack is initially zero for v1 objects. For v2 objects, * nopack is initialised from sd_attrs */ REISERFS_I(ip)->i_flags &= ~i_nopack_mask; reiserfs_log(LOG_DEBUG, "...done\n"); } else { reiserfs_log(LOG_DEBUG, "stat data v2\n"); /* * New stat data found, but object may have old items * (directories and symlinks) */ struct stat_data *sd = (struct stat_data *)B_I_PITEM(bp, ih); reiserfs_log(LOG_DEBUG, "filling more members\n"); ip->i_mode = sd_v2_mode(sd); ip->i_nlink = sd_v2_nlink(sd); ip->i_uid = sd_v2_uid(sd); ip->i_size = sd_v2_size(sd); ip->i_gid = sd_v2_gid(sd); ip->i_mtime.tv_sec = sd_v2_mtime(sd); ip->i_atime.tv_sec = sd_v2_atime(sd); ip->i_ctime.tv_sec = sd_v2_ctime(sd); ip->i_ctime.tv_nsec = 0; ip->i_mtime.tv_nsec = 0; ip->i_atime.tv_nsec = 0; reiserfs_log(LOG_DEBUG, " mode = %08x\n", ip->i_mode); reiserfs_log(LOG_DEBUG, " nlink = %d\n", ip->i_nlink); reiserfs_log(LOG_DEBUG, " owner = %d:%d\n", ip->i_uid, ip->i_gid); reiserfs_log(LOG_DEBUG, " size = %ju\n", (intmax_t)ip->i_size); reiserfs_log(LOG_DEBUG, " atime = %jd\n", (intmax_t)ip->i_atime.tv_sec); reiserfs_log(LOG_DEBUG, " mtime = %jd\n", (intmax_t)ip->i_mtime.tv_sec); reiserfs_log(LOG_DEBUG, " ctime = %jd\n", (intmax_t)ip->i_ctime.tv_sec); ip->i_blocks = sd_v2_blocks(sd); rdev = sd_v2_rdev(sd); reiserfs_log(LOG_DEBUG, " blocks = %u\n", ip->i_blocks); if (S_ISCHR(ip->i_mode) || S_ISBLK(ip->i_mode)) ip->i_generation = le32toh(INODE_PKEY(ip)->k_dir_id); else ip->i_generation = sd_v2_generation(sd); if (S_ISDIR(ip->i_mode) || S_ISLNK(ip->i_mode)) set_inode_item_key_version(ip, KEY_FORMAT_3_5); else set_inode_item_key_version(ip, KEY_FORMAT_3_6); REISERFS_I(ip)->i_first_direct_byte = 0; set_inode_sd_version(ip, STAT_DATA_V2); inode_set_bytes(ip, to_real_used_space(ip, ip->i_blocks, SD_V2_SIZE)); /* * Read persistent inode attributes from sd and initalise * generic inode flags from them */ REISERFS_I(ip)->i_attrs = sd_v2_attrs(sd); sd_attrs_to_i_attrs(sd_v2_attrs(sd), ip); reiserfs_log(LOG_DEBUG, "...done\n"); } pathrelse(path); if (S_ISREG(ip->i_mode)) { reiserfs_log(LOG_DEBUG, "this inode is a regular file\n"); //ip->i_op = &reiserfs_file_ip_operations; //ip->i_fop = &reiserfs_file_operations; //ip->i_mapping->a_ops = &reiserfs_address_space_operations ; } else if (S_ISDIR(ip->i_mode)) { reiserfs_log(LOG_DEBUG, "this inode is a directory\n"); //ip->i_op = &reiserfs_dir_ip_operations; //ip->i_fop = &reiserfs_dir_operations; } else if (S_ISLNK(ip->i_mode)) { reiserfs_log(LOG_DEBUG, "this inode is a symlink\n"); //ip->i_op = &reiserfs_symlink_ip_operations; //ip->i_mapping->a_ops = &reiserfs_address_space_operations; } else { reiserfs_log(LOG_DEBUG, "this inode is something unknown in " "this universe\n"); ip->i_blocks = 0; //ip->i_op = &reiserfs_special_ip_operations; //init_special_ip(ip, ip->i_mode, new_decode_dev(rdev)); } } /* * reiserfs_read_locked_inode is called to read the inode off disk, and * it does a make_bad_inode when things go wrong. But, we need to make * sure and clear the key in the private portion of the inode, otherwise * a corresponding iput might try to delete whatever object the inode * last represented. */ static void reiserfs_make_bad_inode(struct reiserfs_node *ip) { memset(INODE_PKEY(ip), 0, KEY_SIZE); //make_bad_inode(inode); } void reiserfs_read_locked_inode(struct reiserfs_node *ip, struct reiserfs_iget_args *args) { INITIALIZE_PATH(path_to_sd); struct cpu_key key; unsigned long dirino; int retval; dirino = args->dirid; /* * Set version 1, version 2 could be used too, because stat data * key is the same in both versions */ key.version = KEY_FORMAT_3_5; key.on_disk_key.k_dir_id = dirino; key.on_disk_key.k_objectid = ip->i_number; key.on_disk_key.u.k_offset_v1.k_offset = SD_OFFSET; key.on_disk_key.u.k_offset_v1.k_uniqueness = SD_UNIQUENESS; /* Look for the object's stat data */ retval = search_item(ip->i_reiserfs, &key, &path_to_sd); if (retval == IO_ERROR) { reiserfs_log(LOG_ERR, "I/O failure occured trying to find stat" "data %u/%u\n", key.on_disk_key.k_dir_id, key.on_disk_key.k_objectid); reiserfs_make_bad_inode(ip); return; } if (retval != ITEM_FOUND) { /* * A stale NFS handle can trigger this without it being * an error */ reiserfs_log(LOG_ERR, "item not found (objectid=%u, dirid=%u)\n", key.on_disk_key.k_objectid, key.on_disk_key.k_dir_id); pathrelse(&path_to_sd); reiserfs_make_bad_inode(ip); ip->i_nlink = 0; return; } init_inode(ip, &path_to_sd); /* * It is possible that knfsd is trying to access inode of a file * that is being removed from the disk by some other thread. As * we update sd on unlink all that is required is to check for * nlink here. This bug was first found by Sizif when debugging * SquidNG/Butterfly, forgotten, and found again after Philippe * Gramoulle <philippe.gramoulle@mmania.com> reproduced it. * * More logical fix would require changes in fs/inode.c:iput() to * remove inode from hash-table _after_ fs cleaned disk stuff up and * in iget() to return NULL if I_FREEING inode is found in hash-table. */ /* * Currently there is one place where it's ok to meet inode with * nlink == 0: processing of open-unlinked and half-truncated files * during mount (fs/reiserfs/super.c:finish_unfinished()). */ if((ip->i_nlink == 0) && !REISERFS_SB(ip->i_reiserfs)->s_is_unlinked_ok ) { reiserfs_log(LOG_WARNING, "dead inode read from disk. This is " "likely to be race with knfsd. Ignore"); reiserfs_make_bad_inode(ip); } /* Init inode should be relsing */ reiserfs_check_path(&path_to_sd); } int reiserfs_iget( struct mount *mp, const struct cpu_key *key, struct vnode **vpp, struct thread *td) { int error, flags; struct cdev *dev; struct vnode *vp; struct reiserfs_node *ip; struct reiserfs_mount *rmp; struct reiserfs_iget_args args; //restart: /* Check if the inode cache contains it */ // XXX LK_EXCLUSIVE ? flags = LK_EXCLUSIVE; error = vfs_hash_get(mp, key->on_disk_key.k_objectid, flags, td, vpp, NULL, NULL); if (error || *vpp != NULL) return (error); rmp = VFSTOREISERFS(mp); dev = rmp->rm_dev; /* * If this malloc() is performed after the getnewvnode() it might * block, leaving a vnode with a NULL v_data to be found by * reiserfs_sync() if a sync happens to fire right then, which * will cause a panic because reiserfs_sync() blindly dereferences * vp->v_data (as well it should). */ reiserfs_log(LOG_DEBUG, "malloc(struct reiserfs_node)\n"); ip = malloc(sizeof(struct reiserfs_node), M_REISERFSNODE, M_WAITOK | M_ZERO); /* Allocate a new vnode/inode. */ reiserfs_log(LOG_DEBUG, "getnewvnode\n"); if ((error = getnewvnode("reiserfs", mp, &reiserfs_vnodeops, &vp)) != 0) { *vpp = NULL; free(ip, M_REISERFSNODE); reiserfs_log(LOG_DEBUG, "getnewvnode FAILED\n"); return (error); } args.dirid = key->on_disk_key.k_dir_id; args.objectid = key->on_disk_key.k_objectid; reiserfs_log(LOG_DEBUG, "filling *ip\n"); vp->v_data = ip; ip->i_vnode = vp; ip->i_dev = dev; ip->i_number = args.objectid; ip->i_ino = args.dirid; ip->i_reiserfs = rmp->rm_reiserfs; vp->v_bufobj.bo_ops = &reiserfs_vnbufops; vp->v_bufobj.bo_private = vp; /* If this is the root node, set the VV_ROOT flag */ if (ip->i_number == REISERFS_ROOT_OBJECTID && ip->i_ino == REISERFS_ROOT_PARENT_OBJECTID) vp->v_vflag |= VV_ROOT; #if 0 if (VOP_LOCK(vp, LK_EXCLUSIVE) != 0) panic("reiserfs/iget: unexpected lock failure"); /* * Exclusively lock the vnode before adding to hash. Note, that we * must not release nor downgrade the lock (despite flags argument * says) till it is fully initialized. */ lockmgr(vp->v_vnlock, LK_EXCLUSIVE, (struct mtx *)0); #endif lockmgr(vp->v_vnlock, LK_EXCLUSIVE, NULL); error = insmntque(vp, mp); if (error != 0) { free(ip, M_REISERFSNODE); *vpp = NULL; reiserfs_log(LOG_DEBUG, "insmntque FAILED\n"); return (error); } error = vfs_hash_insert(vp, key->on_disk_key.k_objectid, flags, td, vpp, NULL, NULL); if (error || *vpp != NULL) return (error); /* Read the inode */ reiserfs_log(LOG_DEBUG, "call reiserfs_read_locked_inode (" "objectid=%d,dirid=%d)\n", args.objectid, args.dirid); reiserfs_read_locked_inode(ip, &args); ip->i_devvp = rmp->rm_devvp; switch(vp->v_type = IFTOVT(ip->i_mode)) { case VBLK: reiserfs_log(LOG_DEBUG, "vnode type VBLK\n"); vp->v_op = &reiserfs_specops; break; #if 0 case VCHR: reiserfs_log(LOG_DEBUG, "vnode type VCHR\n"); vp->v_op = &reiserfs_specops; vp = addaliasu(vp, ip->i_rdev); ip->i_vnode = vp; break; case VFIFO: reiserfs_log(LOG_DEBUG, "vnode type VFIFO\n"); vp->v_op = reiserfs_fifoop_p; break; #endif default: break; } *vpp = vp; return (0); } void sd_attrs_to_i_attrs(uint16_t sd_attrs, struct reiserfs_node *ip) { if (reiserfs_attrs(ip->i_reiserfs)) { #if 0 if (sd_attrs & REISERFS_SYNC_FL) ip->i_flags |= S_SYNC; else ip->i_flags &= ~S_SYNC; #endif if (sd_attrs & REISERFS_IMMUTABLE_FL) ip->i_flags |= IMMUTABLE; else ip->i_flags &= ~IMMUTABLE; if (sd_attrs & REISERFS_APPEND_FL) ip->i_flags |= APPEND; else ip->i_flags &= ~APPEND; #if 0 if (sd_attrs & REISERFS_NOATIME_FL) ip->i_flags |= S_NOATIME; else ip->i_flags &= ~S_NOATIME; if (sd_attrs & REISERFS_NOTAIL_FL) REISERFS_I(ip)->i_flags |= i_nopack_mask; else REISERFS_I(ip)->i_flags &= ~i_nopack_mask; #endif } } void i_attrs_to_sd_attrs(struct reiserfs_node *ip, uint16_t *sd_attrs) { if (reiserfs_attrs(ip->i_reiserfs)) { #if 0 if (ip->i_flags & S_SYNC) *sd_attrs |= REISERFS_SYNC_FL; else *sd_attrs &= ~REISERFS_SYNC_FL; #endif if (ip->i_flags & IMMUTABLE) *sd_attrs |= REISERFS_IMMUTABLE_FL; else *sd_attrs &= ~REISERFS_IMMUTABLE_FL; if (ip->i_flags & APPEND) *sd_attrs |= REISERFS_APPEND_FL; else *sd_attrs &= ~REISERFS_APPEND_FL; #if 0 if (ip->i_flags & S_NOATIME) *sd_attrs |= REISERFS_NOATIME_FL; else *sd_attrs &= ~REISERFS_NOATIME_FL; if (REISERFS_I(ip)->i_flags & i_nopack_mask) *sd_attrs |= REISERFS_NOTAIL_FL; else *sd_attrs &= ~REISERFS_NOTAIL_FL; #endif } }