/* Copyright (C) 1994, 1995, 1996 Free Software Foundation This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "priv.h" /* Check if source directory is in the path of the target directory. We get target locked, source unlocked but with a reference. When we return, nothing is locked, and target has lost its reference. This routine assumes that no renames of directories will happen while it is running; as a result, ufs_rename serializes all renames of directories. */ static error_t checkpath(struct node *source, struct node *target, struct protid *cred) { error_t err; struct node *np; np = target; for (np = target, err = 0; /* nothing */; /* This special lookup does a diskfs_nput on its first argument when it succeeds. */ err = diskfs_lookup (np, "..", LOOKUP | SPEC_DOTDOT, &np, 0, cred)) { if (err) { diskfs_nput (np); return err; } if (np == source) { diskfs_nput (np); return EINVAL; } if (np == diskfs_root_node) { diskfs_nput (np); return 0; } } } /* Rename directory node FNP (whose parent is FDP, and which has name FROMNAME in that directory) to have name TONAME inside directory TDP. None of these nodes are locked, and none should be locked upon return. This routine is serialized, so it doesn't have to be reentrant. Directories will never be renamed except by this routine. FROMCRED and TOCRED are the users responsible for FDP/FNP and TDP respectively. */ error_t diskfs_rename_dir (struct node *fdp, struct node *fnp, char *fromname, struct node *tdp, char *toname, struct protid *fromcred, struct protid *tocred) { error_t err; struct node *tnp, *tmpnp; void *buf = alloca (diskfs_dirstat_size); struct dirstat *ds; struct dirstat *tmpds; mutex_lock (&tdp->lock); diskfs_nref (tdp); /* reference and lock will get consumed by checkpath */ err = checkpath (fnp, tdp, tocred); if (err) return err; /* Now, lock the parent directories. This is legal because tdp is not a child of fnp (guaranteed by checkpath above). */ mutex_lock (&fdp->lock); if (fdp != tdp) mutex_lock (&tdp->lock); /* 1: Lookup target; if it exists, make sure it's an empty directory. */ ds = buf; err = diskfs_lookup (tdp, toname, RENAME, &tnp, ds, tocred); if (tnp == fnp) { diskfs_drop_dirstat (tdp, ds); diskfs_nrele (tnp); mutex_unlock (&tdp->lock); mutex_unlock (&fdp->lock); return 0; } /* Now we can safely lock fnp */ mutex_lock (&fnp->lock); if (tnp) { if (! S_ISDIR(tnp->dn_stat.st_mode)) err = ENOTDIR; else if (!diskfs_dirempty (tnp, tocred)) err = ENOTEMPTY; } if (err && err != ENOENT) goto out; /* 2: Set our .. to point to the new parent */ if (tdp->dn_stat.st_nlink == diskfs_link_max - 1) { err = EMLINK; return EMLINK; } tdp->dn_stat.st_nlink++; tdp->dn_set_ctime = 1; if (diskfs_synchronous) diskfs_node_update (tdp, 1); tmpds = alloca (diskfs_dirstat_size); err = diskfs_lookup (fnp, "..", RENAME | SPEC_DOTDOT, &tmpnp, tmpds, fromcred); assert (err != ENOENT); assert (tmpnp == fdp); if (err) { diskfs_drop_dirstat (fnp, tmpds); goto out; } diskfs_purge_cache (fnp, tdp); err = diskfs_dirrewrite (fnp, tdp, tmpds); if (diskfs_synchronous) diskfs_file_update (fnp, 1); if (err) goto out; fdp->dn_stat.st_nlink--; fdp->dn_set_ctime = 1; if (diskfs_synchronous) diskfs_node_update (fdp, 1); /* 3: Increment the link count on the node being moved and rewrite tdp. */ if (fnp->dn_stat.st_nlink == diskfs_link_max - 1) { mutex_unlock (&fnp->lock); diskfs_drop_dirstat (tdp, ds); mutex_unlock (&tdp->lock); if (tnp) diskfs_nput (tnp); return EMLINK; } fnp->dn_stat.st_nlink++; fnp->dn_set_ctime = 1; diskfs_node_update (fnp, 1); if (tnp) { diskfs_purge_cache (tdp, fnp); err = diskfs_dirrewrite (tdp, fnp, ds); ds = 0; if (!err) { tnp->dn_stat.st_nlink--; tnp->dn_set_ctime = 1; } diskfs_clear_directory (tnp, tdp, tocred); if (diskfs_synchronous) diskfs_file_update (tnp, 1); } else { err = diskfs_direnter (tdp, toname, fnp, ds, tocred); if (diskfs_synchronous) diskfs_file_update (tdp, 1); } if (err) goto out; /* 4: Remove the entry in fdp. */ ds = buf; mutex_unlock (&fnp->lock); err = diskfs_lookup (fdp, fromname, REMOVE, &tmpnp, ds, fromcred); assert (tmpnp == fnp); diskfs_nrele (tmpnp); if (err) goto out; diskfs_purge_cache_node (fdp, fnp); diskfs_dirremove (fdp, ds); ds = 0; fnp->dn_stat.st_nlink--; fnp->dn_set_ctime = 1; if (diskfs_synchronous) { diskfs_file_update (fdp, 1); diskfs_node_update (fnp, 1); } out: if (tdp) mutex_unlock (&tdp->lock); if (tnp) diskfs_nput (tnp); if (fdp) mutex_unlock (&fdp->lock); if (fnp) mutex_unlock (&fnp->lock); if (ds) diskfs_drop_dirstat (tdp, ds); return err; }