// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2017-2019 Junjiro R. Okajima */ /* * special handling in renaming a directory * in order to support looking-up the before-renamed name on the lower readonly * branches */ #include #include "aufs.h" static void au_dr_hino_del(struct au_dr_br *dr, struct au_dr_hino *ent) { int idx; idx = au_dr_ihash(ent->dr_h_ino); au_hbl_del(&ent->dr_hnode, dr->dr_h_ino + idx); } static int au_dr_hino_test_empty(struct au_dr_br *dr) { int ret, i; struct hlist_bl_head *hbl; ret = 1; for (i = 0; ret && i < AuDirren_NHASH; i++) { hbl = dr->dr_h_ino + i; hlist_bl_lock(hbl); ret &= hlist_bl_empty(hbl); hlist_bl_unlock(hbl); } return ret; } static struct au_dr_hino *au_dr_hino_find(struct au_dr_br *dr, ino_t ino) { struct au_dr_hino *found, *ent; struct hlist_bl_head *hbl; struct hlist_bl_node *pos; int idx; found = NULL; idx = au_dr_ihash(ino); hbl = dr->dr_h_ino + idx; hlist_bl_lock(hbl); hlist_bl_for_each_entry(ent, pos, hbl, dr_hnode) if (ent->dr_h_ino == ino) { found = ent; break; } hlist_bl_unlock(hbl); return found; } int au_dr_hino_test_add(struct au_dr_br *dr, ino_t ino, struct au_dr_hino *add_ent) { int found, idx; struct hlist_bl_head *hbl; struct hlist_bl_node *pos; struct au_dr_hino *ent; found = 0; idx = au_dr_ihash(ino); hbl = dr->dr_h_ino + idx; #if 0 { struct hlist_bl_node *tmp; hlist_bl_for_each_entry_safe(ent, pos, tmp, hbl, dr_hnode) AuDbg("hi%llu\n", (unsigned long long)ent->dr_h_ino); } #endif hlist_bl_lock(hbl); hlist_bl_for_each_entry(ent, pos, hbl, dr_hnode) if (ent->dr_h_ino == ino) { found = 1; break; } if (!found && add_ent) hlist_bl_add_head(&add_ent->dr_hnode, hbl); hlist_bl_unlock(hbl); if (!found && add_ent) AuDbg("i%llu added\n", (unsigned long long)add_ent->dr_h_ino); return found; } void au_dr_hino_free(struct au_dr_br *dr) { int i; struct hlist_bl_head *hbl; struct hlist_bl_node *pos, *tmp; struct au_dr_hino *ent; /* SiMustWriteLock(sb); */ for (i = 0; i < AuDirren_NHASH; i++) { hbl = dr->dr_h_ino + i; /* no spinlock since sbinfo must be write-locked */ hlist_bl_for_each_entry_safe(ent, pos, tmp, hbl, dr_hnode) au_kfree_rcu(ent); INIT_HLIST_BL_HEAD(hbl); } } /* returns the number of inodes or an error */ static int au_dr_hino_store(struct super_block *sb, struct au_branch *br, struct file *hinofile) { int err, i; ssize_t ssz; loff_t pos, oldsize; __be64 u64; struct inode *hinoinode; struct hlist_bl_head *hbl; struct hlist_bl_node *n1, *n2; struct au_dr_hino *ent; SiMustWriteLock(sb); AuDebugOn(!au_br_writable(br->br_perm)); hinoinode = file_inode(hinofile); oldsize = i_size_read(hinoinode); err = 0; pos = 0; hbl = br->br_dirren.dr_h_ino; for (i = 0; !err && i < AuDirren_NHASH; i++, hbl++) { /* no bit-lock since sbinfo must be write-locked */ hlist_bl_for_each_entry_safe(ent, n1, n2, hbl, dr_hnode) { AuDbg("hi%llu, %pD2\n", (unsigned long long)ent->dr_h_ino, hinofile); u64 = cpu_to_be64(ent->dr_h_ino); ssz = vfsub_write_k(hinofile, &u64, sizeof(u64), &pos); if (ssz == sizeof(u64)) continue; /* write error */ pr_err("ssz %zd, %pD2\n", ssz, hinofile); err = -ENOSPC; if (ssz < 0) err = ssz; break; } } /* regardless the error */ if (pos < oldsize) { err = vfsub_trunc(&hinofile->f_path, pos, /*attr*/0, hinofile); AuTraceErr(err); } AuTraceErr(err); return err; } static int au_dr_hino_load(struct au_dr_br *dr, struct file *hinofile) { int err, hidx; ssize_t ssz; size_t sz, n; loff_t pos; uint64_t u64; struct au_dr_hino *ent; struct inode *hinoinode; struct hlist_bl_head *hbl; err = 0; pos = 0; hbl = dr->dr_h_ino; hinoinode = file_inode(hinofile); sz = i_size_read(hinoinode); AuDebugOn(sz % sizeof(u64)); n = sz / sizeof(u64); while (n--) { ssz = vfsub_read_k(hinofile, &u64, sizeof(u64), &pos); if (unlikely(ssz != sizeof(u64))) { pr_err("ssz %zd, %pD2\n", ssz, hinofile); err = -EINVAL; if (ssz < 0) err = ssz; goto out_free; } ent = kmalloc(sizeof(*ent), GFP_NOFS); if (!ent) { err = -ENOMEM; AuTraceErr(err); goto out_free; } ent->dr_h_ino = be64_to_cpu((__force __be64)u64); AuDbg("hi%llu, %pD2\n", (unsigned long long)ent->dr_h_ino, hinofile); hidx = au_dr_ihash(ent->dr_h_ino); au_hbl_add(&ent->dr_hnode, hbl + hidx); } goto out; /* success */ out_free: au_dr_hino_free(dr); out: AuTraceErr(err); return err; } /* * @bindex/@br is a switch to distinguish whether suspending hnotify or not. * @path is a switch to distinguish load and store. */ static int au_dr_hino(struct super_block *sb, aufs_bindex_t bindex, struct au_branch *br, const struct path *path) { int err, flags; unsigned char load, suspend; struct file *hinofile; struct au_hinode *hdir; struct inode *dir, *delegated; struct path hinopath; struct qstr hinoname = QSTR_INIT(AUFS_WH_DR_BRHINO, sizeof(AUFS_WH_DR_BRHINO) - 1); AuDebugOn(bindex < 0 && !br); AuDebugOn(bindex >= 0 && br); err = -EINVAL; suspend = !br; if (suspend) br = au_sbr(sb, bindex); load = !!path; if (!load) { path = &br->br_path; AuDebugOn(!au_br_writable(br->br_perm)); if (unlikely(!au_br_writable(br->br_perm))) goto out; } hdir = NULL; if (suspend) { dir = d_inode(sb->s_root); hdir = au_hinode(au_ii(dir), bindex); dir = hdir->hi_inode; au_hn_inode_lock_nested(hdir, AuLsc_I_CHILD); } else { dir = d_inode(path->dentry); inode_lock_nested(dir, AuLsc_I_CHILD); } hinopath.dentry = vfsub_lkup_one(&hinoname, path->dentry); err = PTR_ERR(hinopath.dentry); if (IS_ERR(hinopath.dentry)) goto out_unlock; err = 0; flags = O_RDONLY; if (load) { if (d_is_negative(hinopath.dentry)) goto out_dput; /* success */ } else { if (au_dr_hino_test_empty(&br->br_dirren)) { if (d_is_positive(hinopath.dentry)) { delegated = NULL; err = vfsub_unlink(dir, &hinopath, &delegated, /*force*/0); AuTraceErr(err); if (unlikely(err)) pr_err("ignored err %d, %pd2\n", err, hinopath.dentry); if (unlikely(err == -EWOULDBLOCK)) iput(delegated); err = 0; } goto out_dput; } else if (!d_is_positive(hinopath.dentry)) { err = vfsub_create(dir, &hinopath, 0600, /*want_excl*/false); AuTraceErr(err); if (unlikely(err)) goto out_dput; } flags = O_WRONLY; } hinopath.mnt = path->mnt; hinofile = vfsub_dentry_open(&hinopath, flags); if (suspend) au_hn_inode_unlock(hdir); else inode_unlock(dir); dput(hinopath.dentry); AuTraceErrPtr(hinofile); if (IS_ERR(hinofile)) { err = PTR_ERR(hinofile); goto out; } if (load) err = au_dr_hino_load(&br->br_dirren, hinofile); else err = au_dr_hino_store(sb, br, hinofile); fput(hinofile); goto out; out_dput: dput(hinopath.dentry); out_unlock: if (suspend) au_hn_inode_unlock(hdir); else inode_unlock(dir); out: AuTraceErr(err); return err; } /* ---------------------------------------------------------------------- */ static int au_dr_brid_init(struct au_dr_brid *brid, const struct path *path) { int err; struct kstatfs kstfs; dev_t dev; struct dentry *dentry; struct super_block *sb; err = vfs_statfs((void *)path, &kstfs); AuTraceErr(err); if (unlikely(err)) goto out; /* todo: support for UUID */ if (kstfs.f_fsid.val[0] || kstfs.f_fsid.val[1]) { brid->type = AuBrid_FSID; brid->fsid = kstfs.f_fsid; } else { dentry = path->dentry; sb = dentry->d_sb; dev = sb->s_dev; if (dev) { brid->type = AuBrid_DEV; brid->dev = dev; } } out: return err; } int au_dr_br_init(struct super_block *sb, struct au_branch *br, const struct path *path) { int err, i; struct au_dr_br *dr; struct hlist_bl_head *hbl; dr = &br->br_dirren; hbl = dr->dr_h_ino; for (i = 0; i < AuDirren_NHASH; i++, hbl++) INIT_HLIST_BL_HEAD(hbl); err = au_dr_brid_init(&dr->dr_brid, path); if (unlikely(err)) goto out; if (au_opt_test(au_mntflags(sb), DIRREN)) err = au_dr_hino(sb, /*bindex*/-1, br, path); out: AuTraceErr(err); return err; } int au_dr_br_fin(struct super_block *sb, struct au_branch *br) { int err; err = 0; if (au_br_writable(br->br_perm)) err = au_dr_hino(sb, /*bindex*/-1, br, /*path*/NULL); if (!err) au_dr_hino_free(&br->br_dirren); return err; } /* ---------------------------------------------------------------------- */ static int au_brid_str(struct au_dr_brid *brid, struct inode *h_inode, char *buf, size_t sz) { int err; unsigned int major, minor; char *p; p = buf; err = snprintf(p, sz, "%d_", brid->type); AuDebugOn(err > sz); p += err; sz -= err; switch (brid->type) { case AuBrid_Unset: return -EINVAL; case AuBrid_UUID: err = snprintf(p, sz, "%pU", brid->uuid.b); break; case AuBrid_FSID: err = snprintf(p, sz, "%08x-%08x", brid->fsid.val[0], brid->fsid.val[1]); break; case AuBrid_DEV: major = MAJOR(brid->dev); minor = MINOR(brid->dev); if (major <= 0xff && minor <= 0xff) err = snprintf(p, sz, "%02x%02x", major, minor); else err = snprintf(p, sz, "%03x:%05x", major, minor); break; } AuDebugOn(err > sz); p += err; sz -= err; err = snprintf(p, sz, "_%llu", (unsigned long long)h_inode->i_ino); AuDebugOn(err > sz); p += err; sz -= err; return p - buf; } static int au_drinfo_name(struct au_branch *br, char *name, int len) { int rlen; struct dentry *br_dentry; struct inode *br_inode; br_dentry = au_br_dentry(br); br_inode = d_inode(br_dentry); rlen = au_brid_str(&br->br_dirren.dr_brid, br_inode, name, len); AuDebugOn(rlen >= AUFS_DIRREN_ENV_VAL_SZ); AuDebugOn(rlen > len); return rlen; } /* ---------------------------------------------------------------------- */ /* * from the given @h_dentry, construct drinfo at @*fdata. * when the size of @*fdata is not enough, reallocate and return new @fdata and * @allocated. */ static int au_drinfo_construct(struct au_drinfo_fdata **fdata, struct dentry *h_dentry, unsigned char *allocated) { int err, v; struct au_drinfo_fdata *f, *p; struct au_drinfo *drinfo; struct inode *h_inode; struct qstr *qname; err = 0; f = *fdata; h_inode = d_inode(h_dentry); qname = &h_dentry->d_name; drinfo = &f->drinfo; drinfo->ino = (__force uint64_t)cpu_to_be64(h_inode->i_ino); drinfo->oldnamelen = qname->len; if (*allocated < sizeof(*f) + qname->len) { v = roundup_pow_of_two(*allocated + qname->len); p = au_krealloc(f, v, GFP_NOFS, /*may_shrink*/0); if (unlikely(!p)) { err = -ENOMEM; AuTraceErr(err); goto out; } f = p; *fdata = f; *allocated = v; drinfo = &f->drinfo; } memcpy(drinfo->oldname, qname->name, qname->len); AuDbg("i%llu, %.*s\n", be64_to_cpu((__force __be64)drinfo->ino), drinfo->oldnamelen, drinfo->oldname); out: AuTraceErr(err); return err; } /* callers have to free the return value */ static struct au_drinfo *au_drinfo_read_k(struct file *file, ino_t h_ino) { struct au_drinfo *ret, *drinfo; struct au_drinfo_fdata fdata; int len; loff_t pos; ssize_t ssz; ret = ERR_PTR(-EIO); pos = 0; ssz = vfsub_read_k(file, &fdata, sizeof(fdata), &pos); if (unlikely(ssz != sizeof(fdata))) { AuIOErr("ssz %zd, %u, %pD2\n", ssz, (unsigned int)sizeof(fdata), file); goto out; } fdata.magic = ntohl((__force __be32)fdata.magic); switch (fdata.magic) { case AUFS_DRINFO_MAGIC_V1: break; default: AuIOErr("magic-num 0x%x, 0x%x, %pD2\n", fdata.magic, AUFS_DRINFO_MAGIC_V1, file); goto out; } drinfo = &fdata.drinfo; len = drinfo->oldnamelen; if (!len) { AuIOErr("broken drinfo %pD2\n", file); goto out; } ret = NULL; drinfo->ino = be64_to_cpu((__force __be64)drinfo->ino); if (unlikely(h_ino && drinfo->ino != h_ino)) { AuDbg("ignored i%llu, i%llu, %pD2\n", (unsigned long long)drinfo->ino, (unsigned long long)h_ino, file); goto out; /* success */ } ret = kmalloc(sizeof(*ret) + len, GFP_NOFS); if (unlikely(!ret)) { ret = ERR_PTR(-ENOMEM); AuTraceErrPtr(ret); goto out; } *ret = *drinfo; ssz = vfsub_read_k(file, (void *)ret->oldname, len, &pos); if (unlikely(ssz != len)) { au_kfree_rcu(ret); ret = ERR_PTR(-EIO); AuIOErr("ssz %zd, %u, %pD2\n", ssz, len, file); goto out; } AuDbg("oldname %.*s\n", ret->oldnamelen, ret->oldname); out: return ret; } /* ---------------------------------------------------------------------- */ /* in order to be revertible */ struct au_drinfo_rev_elm { int created; struct dentry *info_dentry; struct au_drinfo *info_last; }; struct au_drinfo_rev { unsigned char already; aufs_bindex_t nelm; struct au_drinfo_rev_elm elm[0]; }; /* todo: isn't it too large? */ struct au_drinfo_store { struct path h_ppath; struct dentry *h_dentry; struct au_drinfo_fdata *fdata; char *infoname; /* inside of whname, just after PFX */ char whname[sizeof(AUFS_WH_DR_INFO_PFX) + AUFS_DIRREN_ENV_VAL_SZ]; aufs_bindex_t btgt, btail; unsigned char no_sio, allocated, /* current size of *fdata */ infonamelen, /* room size for p */ whnamelen, /* length of the generated name */ renameback; /* renamed back */ }; /* on rename(2) error, the caller should revert it using @elm */ static int au_drinfo_do_store(struct au_drinfo_store *w, struct au_drinfo_rev_elm *elm) { int err, len; ssize_t ssz; loff_t pos; struct path infopath = { .mnt = w->h_ppath.mnt }; struct inode *h_dir, *h_inode, *delegated; struct file *infofile; struct qstr *qname; AuDebugOn(elm && memcmp(elm, page_address(ZERO_PAGE(0)), sizeof(*elm))); infopath.dentry = vfsub_lookup_one_len(w->whname, w->h_ppath.dentry, w->whnamelen); AuTraceErrPtr(infopath.dentry); if (IS_ERR(infopath.dentry)) { err = PTR_ERR(infopath.dentry); goto out; } err = 0; h_dir = d_inode(w->h_ppath.dentry); if (elm && d_is_negative(infopath.dentry)) { err = vfsub_create(h_dir, &infopath, 0600, /*want_excl*/true); AuTraceErr(err); if (unlikely(err)) goto out_dput; elm->created = 1; elm->info_dentry = dget(infopath.dentry); } infofile = vfsub_dentry_open(&infopath, O_RDWR); AuTraceErrPtr(infofile); if (IS_ERR(infofile)) { err = PTR_ERR(infofile); goto out_dput; } h_inode = d_inode(infopath.dentry); if (elm && i_size_read(h_inode)) { h_inode = d_inode(w->h_dentry); elm->info_last = au_drinfo_read_k(infofile, h_inode->i_ino); AuTraceErrPtr(elm->info_last); if (IS_ERR(elm->info_last)) { err = PTR_ERR(elm->info_last); elm->info_last = NULL; AuDebugOn(elm->info_dentry); goto out_fput; } } if (elm && w->renameback) { delegated = NULL; err = vfsub_unlink(h_dir, &infopath, &delegated, /*force*/0); AuTraceErr(err); if (unlikely(err == -EWOULDBLOCK)) iput(delegated); goto out_fput; } pos = 0; qname = &w->h_dentry->d_name; len = sizeof(*w->fdata) + qname->len; if (!elm) len = sizeof(*w->fdata) + w->fdata->drinfo.oldnamelen; ssz = vfsub_write_k(infofile, w->fdata, len, &pos); if (ssz == len) { AuDbg("hi%llu, %.*s\n", w->fdata->drinfo.ino, w->fdata->drinfo.oldnamelen, w->fdata->drinfo.oldname); goto out_fput; /* success */ } else { err = -EIO; if (ssz < 0) err = ssz; /* the caller should revert it using @elm */ } out_fput: fput(infofile); out_dput: dput(infopath.dentry); out: AuTraceErr(err); return err; } struct au_call_drinfo_do_store_args { int *errp; struct au_drinfo_store *w; struct au_drinfo_rev_elm *elm; }; static void au_call_drinfo_do_store(void *args) { struct au_call_drinfo_do_store_args *a = args; *a->errp = au_drinfo_do_store(a->w, a->elm); } static int au_drinfo_store_sio(struct au_drinfo_store *w, struct au_drinfo_rev_elm *elm) { int err, wkq_err; if (w->no_sio) err = au_drinfo_do_store(w, elm); else { struct au_call_drinfo_do_store_args a = { .errp = &err, .w = w, .elm = elm }; wkq_err = au_wkq_wait(au_call_drinfo_do_store, &a); if (unlikely(wkq_err)) err = wkq_err; } AuTraceErr(err); return err; } static int au_drinfo_store_work_init(struct au_drinfo_store *w, aufs_bindex_t btgt) { int err; memset(w, 0, sizeof(*w)); w->allocated = roundup_pow_of_two(sizeof(*w->fdata) + 40); strcpy(w->whname, AUFS_WH_DR_INFO_PFX); w->infoname = w->whname + sizeof(AUFS_WH_DR_INFO_PFX) - 1; w->infonamelen = sizeof(w->whname) - sizeof(AUFS_WH_DR_INFO_PFX); w->btgt = btgt; w->no_sio = !!uid_eq(current_fsuid(), GLOBAL_ROOT_UID); err = -ENOMEM; w->fdata = kcalloc(1, w->allocated, GFP_NOFS); if (unlikely(!w->fdata)) { AuTraceErr(err); goto out; } w->fdata->magic = (__force uint32_t)htonl(AUFS_DRINFO_MAGIC_V1); err = 0; out: return err; } static void au_drinfo_store_work_fin(struct au_drinfo_store *w) { au_kfree_rcu(w->fdata); } static void au_drinfo_store_rev(struct au_drinfo_rev *rev, struct au_drinfo_store *w) { struct au_drinfo_rev_elm *elm; struct inode *h_dir, *delegated; int err, nelm; struct path infopath = { .mnt = w->h_ppath.mnt }; h_dir = d_inode(w->h_ppath.dentry); IMustLock(h_dir); err = 0; elm = rev->elm; for (nelm = rev->nelm; nelm > 0; nelm--, elm++) { AuDebugOn(elm->created && elm->info_last); if (elm->created) { AuDbg("here\n"); delegated = NULL; infopath.dentry = elm->info_dentry; err = vfsub_unlink(h_dir, &infopath, &delegated, !w->no_sio); AuTraceErr(err); if (unlikely(err == -EWOULDBLOCK)) iput(delegated); dput(elm->info_dentry); } else if (elm->info_last) { AuDbg("here\n"); w->fdata->drinfo = *elm->info_last; memcpy(w->fdata->drinfo.oldname, elm->info_last->oldname, elm->info_last->oldnamelen); err = au_drinfo_store_sio(w, /*elm*/NULL); au_kfree_rcu(elm->info_last); } if (unlikely(err)) AuIOErr("%d, %s\n", err, w->whname); /* go on even if err */ } } /* caller has to call au_dr_rename_fin() later */ static int au_drinfo_store(struct dentry *dentry, aufs_bindex_t btgt, struct qstr *dst_name, void *_rev) { int err, sz, nelm; aufs_bindex_t bindex, btail; struct au_drinfo_store work; struct au_drinfo_rev *rev, **p; struct au_drinfo_rev_elm *elm; struct super_block *sb; struct au_branch *br; struct au_hinode *hdir; err = au_drinfo_store_work_init(&work, btgt); AuTraceErr(err); if (unlikely(err)) goto out; err = -ENOMEM; btail = au_dbtaildir(dentry); nelm = btail - btgt; sz = sizeof(*rev) + sizeof(*elm) * nelm; rev = kcalloc(1, sz, GFP_NOFS); if (unlikely(!rev)) { AuTraceErr(err); goto out_args; } rev->nelm = nelm; elm = rev->elm; p = _rev; *p = rev; err = 0; sb = dentry->d_sb; work.h_ppath.dentry = au_h_dptr(dentry, btgt); work.h_ppath.mnt = au_sbr_mnt(sb, btgt); hdir = au_hi(d_inode(dentry), btgt); au_hn_inode_lock_nested(hdir, AuLsc_I_CHILD); for (bindex = btgt + 1; bindex <= btail; bindex++, elm++) { work.h_dentry = au_h_dptr(dentry, bindex); if (!work.h_dentry) continue; err = au_drinfo_construct(&work.fdata, work.h_dentry, &work.allocated); AuTraceErr(err); if (unlikely(err)) break; work.renameback = au_qstreq(&work.h_dentry->d_name, dst_name); br = au_sbr(sb, bindex); work.whnamelen = sizeof(AUFS_WH_DR_INFO_PFX) - 1; work.whnamelen += au_drinfo_name(br, work.infoname, work.infonamelen); AuDbg("whname %.*s, i%llu, %.*s\n", work.whnamelen, work.whname, be64_to_cpu((__force __be64)work.fdata->drinfo.ino), work.fdata->drinfo.oldnamelen, work.fdata->drinfo.oldname); err = au_drinfo_store_sio(&work, elm); AuTraceErr(err); if (unlikely(err)) break; } if (unlikely(err)) { /* revert all drinfo */ au_drinfo_store_rev(rev, &work); au_kfree_try_rcu(rev); *p = NULL; } au_hn_inode_unlock(hdir); out_args: au_drinfo_store_work_fin(&work); out: return err; } /* ---------------------------------------------------------------------- */ int au_dr_rename(struct dentry *src, aufs_bindex_t bindex, struct qstr *dst_name, void *_rev) { int err, already; ino_t ino; struct super_block *sb; struct au_branch *br; struct au_dr_br *dr; struct dentry *h_dentry; struct inode *h_inode; struct au_dr_hino *ent; struct au_drinfo_rev *rev, **p; AuDbg("bindex %d\n", bindex); err = -ENOMEM; ent = kmalloc(sizeof(*ent), GFP_NOFS); if (unlikely(!ent)) goto out; sb = src->d_sb; br = au_sbr(sb, bindex); dr = &br->br_dirren; h_dentry = au_h_dptr(src, bindex); h_inode = d_inode(h_dentry); ino = h_inode->i_ino; ent->dr_h_ino = ino; already = au_dr_hino_test_add(dr, ino, ent); AuDbg("b%d, hi%llu, already %d\n", bindex, (unsigned long long)ino, already); err = au_drinfo_store(src, bindex, dst_name, _rev); AuTraceErr(err); if (!err) { p = _rev; rev = *p; rev->already = already; goto out; /* success */ } /* revert */ if (!already) au_dr_hino_del(dr, ent); au_kfree_rcu(ent); out: AuTraceErr(err); return err; } void au_dr_rename_fin(struct dentry *src, aufs_bindex_t btgt, void *_rev) { struct au_drinfo_rev *rev; struct au_drinfo_rev_elm *elm; int nelm; rev = _rev; elm = rev->elm; for (nelm = rev->nelm; nelm > 0; nelm--, elm++) { dput(elm->info_dentry); au_kfree_rcu(elm->info_last); } au_kfree_try_rcu(rev); } void au_dr_rename_rev(struct dentry *src, aufs_bindex_t btgt, void *_rev) { int err; struct au_drinfo_store work; struct au_drinfo_rev *rev = _rev; struct super_block *sb; struct au_branch *br; struct inode *h_inode; struct au_dr_br *dr; struct au_dr_hino *ent; err = au_drinfo_store_work_init(&work, btgt); if (unlikely(err)) goto out; sb = src->d_sb; br = au_sbr(sb, btgt); work.h_ppath.dentry = au_h_dptr(src, btgt); work.h_ppath.mnt = au_br_mnt(br); au_drinfo_store_rev(rev, &work); au_drinfo_store_work_fin(&work); if (rev->already) goto out; dr = &br->br_dirren; h_inode = d_inode(work.h_ppath.dentry); ent = au_dr_hino_find(dr, h_inode->i_ino); BUG_ON(!ent); au_dr_hino_del(dr, ent); au_kfree_rcu(ent); out: au_kfree_try_rcu(rev); if (unlikely(err)) pr_err("failed to remove dirren info\n"); }