/* * Copyright (C) 2005-2017 Junjiro R. Okajima * * This program, aufs 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 of the License, 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, see . */ /* * whiteout for logical deletion and opaque directory */ #include "aufs.h" #define WH_MASK S_IRUGO /* * If a directory contains this file, then it is opaque. We start with the * .wh. flag so that it is blocked by lookup. */ static struct qstr diropq_name = QSTR_INIT(AUFS_WH_DIROPQ, sizeof(AUFS_WH_DIROPQ) - 1); /* * generate whiteout name, which is NOT terminated by NULL. * @name: original d_name.name * @len: original d_name.len * @wh: whiteout qstr * returns zero when succeeds, otherwise error. * succeeded value as wh->name should be freed by kfree(). */ int au_wh_name_alloc(struct qstr *wh, const struct qstr *name) { char *p; if (unlikely(name->len > PATH_MAX - AUFS_WH_PFX_LEN)) return -ENAMETOOLONG; wh->len = name->len + AUFS_WH_PFX_LEN; p = kmalloc(wh->len, GFP_NOFS); wh->name = p; if (p) { memcpy(p, AUFS_WH_PFX, AUFS_WH_PFX_LEN); memcpy(p + AUFS_WH_PFX_LEN, name->name, name->len); /* smp_mb(); */ return 0; } return -ENOMEM; } /* ---------------------------------------------------------------------- */ /* * test if the @wh_name exists under @h_parent. * @try_sio specifies the necessary of super-io. */ int au_wh_test(struct dentry *h_parent, struct qstr *wh_name, int try_sio) { int err; struct dentry *wh_dentry; if (!try_sio) wh_dentry = vfsub_lkup_one(wh_name, h_parent); else wh_dentry = au_sio_lkup_one(wh_name, h_parent); err = PTR_ERR(wh_dentry); if (IS_ERR(wh_dentry)) { if (err == -ENAMETOOLONG) err = 0; goto out; } err = 0; if (d_is_negative(wh_dentry)) goto out_wh; /* success */ err = 1; if (d_is_reg(wh_dentry)) goto out_wh; /* success */ err = -EIO; AuIOErr("%pd Invalid whiteout entry type 0%o.\n", wh_dentry, d_inode(wh_dentry)->i_mode); out_wh: dput(wh_dentry); out: return err; } /* * test if the @h_dentry sets opaque or not. */ int au_diropq_test(struct dentry *h_dentry) { int err; struct inode *h_dir; h_dir = d_inode(h_dentry); err = au_wh_test(h_dentry, &diropq_name, au_test_h_perm_sio(h_dir, MAY_EXEC)); return err; } /* * returns a negative dentry whose name is unique and temporary. */ struct dentry *au_whtmp_lkup(struct dentry *h_parent, struct au_branch *br, struct qstr *prefix) { struct dentry *dentry; int i; char defname[NAME_MAX - AUFS_MAX_NAMELEN + DNAME_INLINE_LEN + 1], *name, *p; /* strict atomic_t is unnecessary here */ static unsigned short cnt; struct qstr qs; BUILD_BUG_ON(sizeof(cnt) * 2 > AUFS_WH_TMP_LEN); name = defname; qs.len = sizeof(defname) - DNAME_INLINE_LEN + prefix->len - 1; if (unlikely(prefix->len > DNAME_INLINE_LEN)) { dentry = ERR_PTR(-ENAMETOOLONG); if (unlikely(qs.len > NAME_MAX)) goto out; dentry = ERR_PTR(-ENOMEM); name = kmalloc(qs.len + 1, GFP_NOFS); if (unlikely(!name)) goto out; } /* doubly whiteout-ed */ memcpy(name, AUFS_WH_PFX AUFS_WH_PFX, AUFS_WH_PFX_LEN * 2); p = name + AUFS_WH_PFX_LEN * 2; memcpy(p, prefix->name, prefix->len); p += prefix->len; *p++ = '.'; AuDebugOn(name + qs.len + 1 - p <= AUFS_WH_TMP_LEN); qs.name = name; for (i = 0; i < 3; i++) { sprintf(p, "%.*x", AUFS_WH_TMP_LEN, cnt++); dentry = au_sio_lkup_one(&qs, h_parent); if (IS_ERR(dentry) || d_is_negative(dentry)) goto out_name; dput(dentry); } /* pr_warn("could not get random name\n"); */ dentry = ERR_PTR(-EEXIST); AuDbg("%.*s\n", AuLNPair(&qs)); BUG(); out_name: if (name != defname) kfree(name); out: AuTraceErrPtr(dentry); return dentry; } /* * rename the @h_dentry on @br to the whiteouted temporary name. */ int au_whtmp_ren(struct dentry *h_dentry, struct au_branch *br) { int err; struct path h_path = { .mnt = au_br_mnt(br) }; struct inode *h_dir, *delegated; struct dentry *h_parent; h_parent = h_dentry->d_parent; /* dir inode is locked */ h_dir = d_inode(h_parent); IMustLock(h_dir); h_path.dentry = au_whtmp_lkup(h_parent, br, &h_dentry->d_name); err = PTR_ERR(h_path.dentry); if (IS_ERR(h_path.dentry)) goto out; /* under the same dir, no need to lock_rename() */ delegated = NULL; err = vfsub_rename(h_dir, h_dentry, h_dir, &h_path, &delegated, /*flags*/0); AuTraceErr(err); if (unlikely(err == -EWOULDBLOCK)) { pr_warn("cannot retry for NFSv4 delegation" " for an internal rename\n"); iput(delegated); } dput(h_path.dentry); out: AuTraceErr(err); return err; } /* ---------------------------------------------------------------------- */ /* * functions for removing a whiteout */ static int do_unlink_wh(struct inode *h_dir, struct path *h_path) { int err, force; struct inode *delegated; /* * forces superio when the dir has a sticky bit. * this may be a violation of unix fs semantics. */ force = (h_dir->i_mode & S_ISVTX) && !uid_eq(current_fsuid(), d_inode(h_path->dentry)->i_uid); delegated = NULL; err = vfsub_unlink(h_dir, h_path, &delegated, force); if (unlikely(err == -EWOULDBLOCK)) { pr_warn("cannot retry for NFSv4 delegation" " for an internal unlink\n"); iput(delegated); } return err; } int au_wh_unlink_dentry(struct inode *h_dir, struct path *h_path, struct dentry *dentry) { int err; err = do_unlink_wh(h_dir, h_path); if (!err && dentry) au_set_dbwh(dentry, -1); return err; } static int unlink_wh_name(struct dentry *h_parent, struct qstr *wh, struct au_branch *br) { int err; struct path h_path = { .mnt = au_br_mnt(br) }; err = 0; h_path.dentry = vfsub_lkup_one(wh, h_parent); if (IS_ERR(h_path.dentry)) err = PTR_ERR(h_path.dentry); else { if (d_is_reg(h_path.dentry)) err = do_unlink_wh(d_inode(h_parent), &h_path); dput(h_path.dentry); } return err; } /* ---------------------------------------------------------------------- */ /* * initialize/clean whiteout for a branch */ static void au_wh_clean(struct inode *h_dir, struct path *whpath, const int isdir) { int err; struct inode *delegated; if (d_is_negative(whpath->dentry)) return; if (isdir) err = vfsub_rmdir(h_dir, whpath); else { delegated = NULL; err = vfsub_unlink(h_dir, whpath, &delegated, /*force*/0); if (unlikely(err == -EWOULDBLOCK)) { pr_warn("cannot retry for NFSv4 delegation" " for an internal unlink\n"); iput(delegated); } } if (unlikely(err)) pr_warn("failed removing %pd (%d), ignored.\n", whpath->dentry, err); } static int test_linkable(struct dentry *h_root) { struct inode *h_dir = d_inode(h_root); if (h_dir->i_op->link) return 0; pr_err("%pd (%s) doesn't support link(2), use noplink and rw+nolwh\n", h_root, au_sbtype(h_root->d_sb)); return -ENOSYS; } /* todo: should this mkdir be done in /sbin/mount.aufs helper? */ static int au_whdir(struct inode *h_dir, struct path *path) { int err; err = -EEXIST; if (d_is_negative(path->dentry)) { int mode = S_IRWXU; if (au_test_nfs(path->dentry->d_sb)) mode |= S_IXUGO; err = vfsub_mkdir(h_dir, path, mode); } else if (d_is_dir(path->dentry)) err = 0; else pr_err("unknown %pd exists\n", path->dentry); return err; } struct au_wh_base { const struct qstr *name; struct dentry *dentry; }; static void au_wh_init_ro(struct inode *h_dir, struct au_wh_base base[], struct path *h_path) { h_path->dentry = base[AuBrWh_BASE].dentry; au_wh_clean(h_dir, h_path, /*isdir*/0); h_path->dentry = base[AuBrWh_PLINK].dentry; au_wh_clean(h_dir, h_path, /*isdir*/1); h_path->dentry = base[AuBrWh_ORPH].dentry; au_wh_clean(h_dir, h_path, /*isdir*/1); } /* * returns tri-state, * minus: error, caller should print the message * zero: succuess * plus: error, caller should NOT print the message */ static int au_wh_init_rw_nolink(struct dentry *h_root, struct au_wbr *wbr, int do_plink, struct au_wh_base base[], struct path *h_path) { int err; struct inode *h_dir; h_dir = d_inode(h_root); h_path->dentry = base[AuBrWh_BASE].dentry; au_wh_clean(h_dir, h_path, /*isdir*/0); h_path->dentry = base[AuBrWh_PLINK].dentry; if (do_plink) { err = test_linkable(h_root); if (unlikely(err)) { err = 1; goto out; } err = au_whdir(h_dir, h_path); if (unlikely(err)) goto out; wbr->wbr_plink = dget(base[AuBrWh_PLINK].dentry); } else au_wh_clean(h_dir, h_path, /*isdir*/1); h_path->dentry = base[AuBrWh_ORPH].dentry; err = au_whdir(h_dir, h_path); if (unlikely(err)) goto out; wbr->wbr_orph = dget(base[AuBrWh_ORPH].dentry); out: return err; } /* * for the moment, aufs supports the branch filesystem which does not support * link(2). testing on FAT which does not support i_op->setattr() fully either, * copyup failed. finally, such filesystem will not be used as the writable * branch. * * returns tri-state, see above. */ static int au_wh_init_rw(struct dentry *h_root, struct au_wbr *wbr, int do_plink, struct au_wh_base base[], struct path *h_path) { int err; struct inode *h_dir; WbrWhMustWriteLock(wbr); err = test_linkable(h_root); if (unlikely(err)) { err = 1; goto out; } /* * todo: should this create be done in /sbin/mount.aufs helper? */ err = -EEXIST; h_dir = d_inode(h_root); if (d_is_negative(base[AuBrWh_BASE].dentry)) { h_path->dentry = base[AuBrWh_BASE].dentry; err = vfsub_create(h_dir, h_path, WH_MASK, /*want_excl*/true); } else if (d_is_reg(base[AuBrWh_BASE].dentry)) err = 0; else pr_err("unknown %pd2 exists\n", base[AuBrWh_BASE].dentry); if (unlikely(err)) goto out; h_path->dentry = base[AuBrWh_PLINK].dentry; if (do_plink) { err = au_whdir(h_dir, h_path); if (unlikely(err)) goto out; wbr->wbr_plink = dget(base[AuBrWh_PLINK].dentry); } else au_wh_clean(h_dir, h_path, /*isdir*/1); wbr->wbr_whbase = dget(base[AuBrWh_BASE].dentry); h_path->dentry = base[AuBrWh_ORPH].dentry; err = au_whdir(h_dir, h_path); if (unlikely(err)) goto out; wbr->wbr_orph = dget(base[AuBrWh_ORPH].dentry); out: return err; } /* * initialize the whiteout base file/dir for @br. */ int au_wh_init(struct au_branch *br, struct super_block *sb) { int err, i; const unsigned char do_plink = !!au_opt_test(au_mntflags(sb), PLINK); struct inode *h_dir; struct path path = br->br_path; struct dentry *h_root = path.dentry; struct au_wbr *wbr = br->br_wbr; static const struct qstr base_name[] = { [AuBrWh_BASE] = QSTR_INIT(AUFS_BASE_NAME, sizeof(AUFS_BASE_NAME) - 1), [AuBrWh_PLINK] = QSTR_INIT(AUFS_PLINKDIR_NAME, sizeof(AUFS_PLINKDIR_NAME) - 1), [AuBrWh_ORPH] = QSTR_INIT(AUFS_ORPHDIR_NAME, sizeof(AUFS_ORPHDIR_NAME) - 1) }; struct au_wh_base base[] = { [AuBrWh_BASE] = { .name = base_name + AuBrWh_BASE, .dentry = NULL }, [AuBrWh_PLINK] = { .name = base_name + AuBrWh_PLINK, .dentry = NULL }, [AuBrWh_ORPH] = { .name = base_name + AuBrWh_ORPH, .dentry = NULL } }; if (wbr) WbrWhMustWriteLock(wbr); for (i = 0; i < AuBrWh_Last; i++) { /* doubly whiteouted */ struct dentry *d; d = au_wh_lkup(h_root, (void *)base[i].name, br); err = PTR_ERR(d); if (IS_ERR(d)) goto out; base[i].dentry = d; AuDebugOn(wbr && wbr->wbr_wh[i] && wbr->wbr_wh[i] != base[i].dentry); } if (wbr) for (i = 0; i < AuBrWh_Last; i++) { dput(wbr->wbr_wh[i]); wbr->wbr_wh[i] = NULL; } err = 0; if (!au_br_writable(br->br_perm)) { h_dir = d_inode(h_root); au_wh_init_ro(h_dir, base, &path); } else if (!au_br_wh_linkable(br->br_perm)) { err = au_wh_init_rw_nolink(h_root, wbr, do_plink, base, &path); if (err > 0) goto out; else if (err) goto out_err; } else { err = au_wh_init_rw(h_root, wbr, do_plink, base, &path); if (err > 0) goto out; else if (err) goto out_err; } goto out; /* success */ out_err: pr_err("an error(%d) on the writable branch %pd(%s)\n", err, h_root, au_sbtype(h_root->d_sb)); out: for (i = 0; i < AuBrWh_Last; i++) dput(base[i].dentry); return err; } /* ---------------------------------------------------------------------- */ /* * whiteouts are all hard-linked usually. * when its link count reaches a ceiling, we create a new whiteout base * asynchronously. */ struct reinit_br_wh { struct super_block *sb; struct au_branch *br; }; static void reinit_br_wh(void *arg) { int err; aufs_bindex_t bindex; struct path h_path; struct reinit_br_wh *a = arg; struct au_wbr *wbr; struct inode *dir, *delegated; struct dentry *h_root; struct au_hinode *hdir; err = 0; wbr = a->br->br_wbr; /* big aufs lock */ si_noflush_write_lock(a->sb); if (!au_br_writable(a->br->br_perm)) goto out; bindex = au_br_index(a->sb, a->br->br_id); if (unlikely(bindex < 0)) goto out; di_read_lock_parent(a->sb->s_root, AuLock_IR); dir = d_inode(a->sb->s_root); hdir = au_hi(dir, bindex); h_root = au_h_dptr(a->sb->s_root, bindex); AuDebugOn(h_root != au_br_dentry(a->br)); au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT); wbr_wh_write_lock(wbr); err = au_h_verify(wbr->wbr_whbase, au_opt_udba(a->sb), hdir->hi_inode, h_root, a->br); if (!err) { h_path.dentry = wbr->wbr_whbase; h_path.mnt = au_br_mnt(a->br); delegated = NULL; err = vfsub_unlink(hdir->hi_inode, &h_path, &delegated, /*force*/0); if (unlikely(err == -EWOULDBLOCK)) { pr_warn("cannot retry for NFSv4 delegation" " for an internal unlink\n"); iput(delegated); } } else { pr_warn("%pd is moved, ignored\n", wbr->wbr_whbase); err = 0; } dput(wbr->wbr_whbase); wbr->wbr_whbase = NULL; if (!err) err = au_wh_init(a->br, a->sb); wbr_wh_write_unlock(wbr); au_hn_inode_unlock(hdir); di_read_unlock(a->sb->s_root, AuLock_IR); if (!err) au_fhsm_wrote(a->sb, bindex, /*force*/0); out: if (wbr) atomic_dec(&wbr->wbr_wh_running); au_br_put(a->br); si_write_unlock(a->sb); au_nwt_done(&au_sbi(a->sb)->si_nowait); kfree(arg); if (unlikely(err)) AuIOErr("err %d\n", err); } static void kick_reinit_br_wh(struct super_block *sb, struct au_branch *br) { int do_dec, wkq_err; struct reinit_br_wh *arg; do_dec = 1; if (atomic_inc_return(&br->br_wbr->wbr_wh_running) != 1) goto out; /* ignore ENOMEM */ arg = kmalloc(sizeof(*arg), GFP_NOFS); if (arg) { /* * dec(wh_running), kfree(arg) and dec(br_count) * in reinit function */ arg->sb = sb; arg->br = br; au_br_get(br); wkq_err = au_wkq_nowait(reinit_br_wh, arg, sb, /*flags*/0); if (unlikely(wkq_err)) { atomic_dec(&br->br_wbr->wbr_wh_running); au_br_put(br); kfree(arg); } do_dec = 0; } out: if (do_dec) atomic_dec(&br->br_wbr->wbr_wh_running); } /* ---------------------------------------------------------------------- */ /* * create the whiteout @wh. */ static int link_or_create_wh(struct super_block *sb, aufs_bindex_t bindex, struct dentry *wh) { int err; struct path h_path = { .dentry = wh }; struct au_branch *br; struct au_wbr *wbr; struct dentry *h_parent; struct inode *h_dir, *delegated; h_parent = wh->d_parent; /* dir inode is locked */ h_dir = d_inode(h_parent); IMustLock(h_dir); br = au_sbr(sb, bindex); h_path.mnt = au_br_mnt(br); wbr = br->br_wbr; wbr_wh_read_lock(wbr); if (wbr->wbr_whbase) { delegated = NULL; err = vfsub_link(wbr->wbr_whbase, h_dir, &h_path, &delegated); if (unlikely(err == -EWOULDBLOCK)) { pr_warn("cannot retry for NFSv4 delegation" " for an internal link\n"); iput(delegated); } if (!err || err != -EMLINK) goto out; /* link count full. re-initialize br_whbase. */ kick_reinit_br_wh(sb, br); } /* return this error in this context */ err = vfsub_create(h_dir, &h_path, WH_MASK, /*want_excl*/true); if (!err) au_fhsm_wrote(sb, bindex, /*force*/0); out: wbr_wh_read_unlock(wbr); return err; } /* ---------------------------------------------------------------------- */ /* * create or remove the diropq. */ static struct dentry *do_diropq(struct dentry *dentry, aufs_bindex_t bindex, unsigned int flags) { struct dentry *opq_dentry, *h_dentry; struct super_block *sb; struct au_branch *br; int err; sb = dentry->d_sb; br = au_sbr(sb, bindex); h_dentry = au_h_dptr(dentry, bindex); opq_dentry = vfsub_lkup_one(&diropq_name, h_dentry); if (IS_ERR(opq_dentry)) goto out; if (au_ftest_diropq(flags, CREATE)) { err = link_or_create_wh(sb, bindex, opq_dentry); if (!err) { au_set_dbdiropq(dentry, bindex); goto out; /* success */ } } else { struct path tmp = { .dentry = opq_dentry, .mnt = au_br_mnt(br) }; err = do_unlink_wh(au_h_iptr(d_inode(dentry), bindex), &tmp); if (!err) au_set_dbdiropq(dentry, -1); } dput(opq_dentry); opq_dentry = ERR_PTR(err); out: return opq_dentry; } struct do_diropq_args { struct dentry **errp; struct dentry *dentry; aufs_bindex_t bindex; unsigned int flags; }; static void call_do_diropq(void *args) { struct do_diropq_args *a = args; *a->errp = do_diropq(a->dentry, a->bindex, a->flags); } struct dentry *au_diropq_sio(struct dentry *dentry, aufs_bindex_t bindex, unsigned int flags) { struct dentry *diropq, *h_dentry; h_dentry = au_h_dptr(dentry, bindex); if (!au_test_h_perm_sio(d_inode(h_dentry), MAY_EXEC | MAY_WRITE)) diropq = do_diropq(dentry, bindex, flags); else { int wkq_err; struct do_diropq_args args = { .errp = &diropq, .dentry = dentry, .bindex = bindex, .flags = flags }; wkq_err = au_wkq_wait(call_do_diropq, &args); if (unlikely(wkq_err)) diropq = ERR_PTR(wkq_err); } return diropq; } /* ---------------------------------------------------------------------- */ /* * lookup whiteout dentry. * @h_parent: lower parent dentry which must exist and be locked * @base_name: name of dentry which will be whiteouted * returns dentry for whiteout. */ struct dentry *au_wh_lkup(struct dentry *h_parent, struct qstr *base_name, struct au_branch *br) { int err; struct qstr wh_name; struct dentry *wh_dentry; err = au_wh_name_alloc(&wh_name, base_name); wh_dentry = ERR_PTR(err); if (!err) { wh_dentry = vfsub_lkup_one(&wh_name, h_parent); kfree(wh_name.name); } return wh_dentry; } /* * link/create a whiteout for @dentry on @bindex. */ struct dentry *au_wh_create(struct dentry *dentry, aufs_bindex_t bindex, struct dentry *h_parent) { struct dentry *wh_dentry; struct super_block *sb; int err; sb = dentry->d_sb; wh_dentry = au_wh_lkup(h_parent, &dentry->d_name, au_sbr(sb, bindex)); if (!IS_ERR(wh_dentry) && d_is_negative(wh_dentry)) { err = link_or_create_wh(sb, bindex, wh_dentry); if (!err) { au_set_dbwh(dentry, bindex); au_fhsm_wrote(sb, bindex, /*force*/0); } else { dput(wh_dentry); wh_dentry = ERR_PTR(err); } } return wh_dentry; } /* ---------------------------------------------------------------------- */ /* Delete all whiteouts in this directory on branch bindex. */ static int del_wh_children(struct dentry *h_dentry, struct au_nhash *whlist, aufs_bindex_t bindex, struct au_branch *br) { int err; unsigned long ul, n; struct qstr wh_name; char *p; struct hlist_head *head; struct au_vdir_wh *pos; struct au_vdir_destr *str; err = -ENOMEM; p = (void *)__get_free_page(GFP_NOFS); wh_name.name = p; if (unlikely(!wh_name.name)) goto out; err = 0; memcpy(p, AUFS_WH_PFX, AUFS_WH_PFX_LEN); p += AUFS_WH_PFX_LEN; n = whlist->nh_num; head = whlist->nh_head; for (ul = 0; !err && ul < n; ul++, head++) { hlist_for_each_entry(pos, head, wh_hash) { if (pos->wh_bindex != bindex) continue; str = &pos->wh_str; if (str->len + AUFS_WH_PFX_LEN <= PATH_MAX) { memcpy(p, str->name, str->len); wh_name.len = AUFS_WH_PFX_LEN + str->len; err = unlink_wh_name(h_dentry, &wh_name, br); if (!err) continue; break; } AuIOErr("whiteout name too long %.*s\n", str->len, str->name); err = -EIO; break; } } free_page((unsigned long)wh_name.name); out: return err; } struct del_wh_children_args { int *errp; struct dentry *h_dentry; struct au_nhash *whlist; aufs_bindex_t bindex; struct au_branch *br; }; static void call_del_wh_children(void *args) { struct del_wh_children_args *a = args; *a->errp = del_wh_children(a->h_dentry, a->whlist, a->bindex, a->br); } /* ---------------------------------------------------------------------- */ struct au_whtmp_rmdir *au_whtmp_rmdir_alloc(struct super_block *sb, gfp_t gfp) { struct au_whtmp_rmdir *whtmp; int err; unsigned int rdhash; SiMustAnyLock(sb); whtmp = kzalloc(sizeof(*whtmp), gfp); if (unlikely(!whtmp)) { whtmp = ERR_PTR(-ENOMEM); goto out; } /* no estimation for dir size */ rdhash = au_sbi(sb)->si_rdhash; if (!rdhash) rdhash = AUFS_RDHASH_DEF; err = au_nhash_alloc(&whtmp->whlist, rdhash, gfp); if (unlikely(err)) { kfree(whtmp); whtmp = ERR_PTR(err); } out: return whtmp; } void au_whtmp_rmdir_free(struct au_whtmp_rmdir *whtmp) { if (whtmp->br) au_br_put(whtmp->br); dput(whtmp->wh_dentry); iput(whtmp->dir); au_nhash_wh_free(&whtmp->whlist); kfree(whtmp); } /* * rmdir the whiteouted temporary named dir @h_dentry. * @whlist: whiteouted children. */ int au_whtmp_rmdir(struct inode *dir, aufs_bindex_t bindex, struct dentry *wh_dentry, struct au_nhash *whlist) { int err; unsigned int h_nlink; struct path h_tmp; struct inode *wh_inode, *h_dir; struct au_branch *br; h_dir = d_inode(wh_dentry->d_parent); /* dir inode is locked */ IMustLock(h_dir); br = au_sbr(dir->i_sb, bindex); wh_inode = d_inode(wh_dentry); inode_lock_nested(wh_inode, AuLsc_I_CHILD); /* * someone else might change some whiteouts while we were sleeping. * it means this whlist may have an obsoleted entry. */ if (!au_test_h_perm_sio(wh_inode, MAY_EXEC | MAY_WRITE)) err = del_wh_children(wh_dentry, whlist, bindex, br); else { int wkq_err; struct del_wh_children_args args = { .errp = &err, .h_dentry = wh_dentry, .whlist = whlist, .bindex = bindex, .br = br }; wkq_err = au_wkq_wait(call_del_wh_children, &args); if (unlikely(wkq_err)) err = wkq_err; } inode_unlock(wh_inode); if (!err) { h_tmp.dentry = wh_dentry; h_tmp.mnt = au_br_mnt(br); h_nlink = h_dir->i_nlink; err = vfsub_rmdir(h_dir, &h_tmp); /* some fs doesn't change the parent nlink in some cases */ h_nlink -= h_dir->i_nlink; } if (!err) { if (au_ibtop(dir) == bindex) { /* todo: dir->i_mutex is necessary */ au_cpup_attr_timesizes(dir); if (h_nlink) vfsub_drop_nlink(dir); } return 0; /* success */ } pr_warn("failed removing %pd(%d), ignored\n", wh_dentry, err); return err; } static void call_rmdir_whtmp(void *args) { int err; aufs_bindex_t bindex; struct au_whtmp_rmdir *a = args; struct super_block *sb; struct dentry *h_parent; struct inode *h_dir; struct au_hinode *hdir; /* rmdir by nfsd may cause deadlock with this i_mutex */ /* inode_lock(a->dir); */ err = -EROFS; sb = a->dir->i_sb; si_read_lock(sb, !AuLock_FLUSH); if (!au_br_writable(a->br->br_perm)) goto out; bindex = au_br_index(sb, a->br->br_id); if (unlikely(bindex < 0)) goto out; err = -EIO; ii_write_lock_parent(a->dir); h_parent = dget_parent(a->wh_dentry); h_dir = d_inode(h_parent); hdir = au_hi(a->dir, bindex); err = vfsub_mnt_want_write(au_br_mnt(a->br)); if (unlikely(err)) goto out_mnt; au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT); err = au_h_verify(a->wh_dentry, au_opt_udba(sb), h_dir, h_parent, a->br); if (!err) err = au_whtmp_rmdir(a->dir, bindex, a->wh_dentry, &a->whlist); au_hn_inode_unlock(hdir); vfsub_mnt_drop_write(au_br_mnt(a->br)); out_mnt: dput(h_parent); ii_write_unlock(a->dir); out: /* inode_unlock(a->dir); */ au_whtmp_rmdir_free(a); si_read_unlock(sb); au_nwt_done(&au_sbi(sb)->si_nowait); if (unlikely(err)) AuIOErr("err %d\n", err); } void au_whtmp_kick_rmdir(struct inode *dir, aufs_bindex_t bindex, struct dentry *wh_dentry, struct au_whtmp_rmdir *args) { int wkq_err; struct super_block *sb; IMustLock(dir); /* all post-process will be done in do_rmdir_whtmp(). */ sb = dir->i_sb; args->dir = au_igrab(dir); args->br = au_sbr(sb, bindex); au_br_get(args->br); args->wh_dentry = dget(wh_dentry); wkq_err = au_wkq_nowait(call_rmdir_whtmp, args, sb, /*flags*/0); if (unlikely(wkq_err)) { pr_warn("rmdir error %pd (%d), ignored\n", wh_dentry, wkq_err); au_whtmp_rmdir_free(args); } }