// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2005-2019 Junjiro R. Okajima */ /* * superblock private data */ #include #include "aufs.h" /* * they are necessary regardless sysfs is disabled. */ void au_si_free(struct kobject *kobj) { int i; struct au_sbinfo *sbinfo; char *locked __maybe_unused; /* debug only */ sbinfo = container_of(kobj, struct au_sbinfo, si_kobj); for (i = 0; i < AuPlink_NHASH; i++) AuDebugOn(!hlist_bl_empty(sbinfo->si_plink + i)); AuDebugOn(atomic_read(&sbinfo->si_nowait.nw_len)); AuLCntZero(au_lcnt_read(&sbinfo->si_ninodes, /*do_rev*/0)); au_lcnt_fin(&sbinfo->si_ninodes, /*do_sync*/0); AuLCntZero(au_lcnt_read(&sbinfo->si_nfiles, /*do_rev*/0)); au_lcnt_fin(&sbinfo->si_nfiles, /*do_sync*/0); au_rw_write_lock(&sbinfo->si_rwsem); au_br_free(sbinfo); au_rw_write_unlock(&sbinfo->si_rwsem); au_kfree_try_rcu(sbinfo->si_branch); mutex_destroy(&sbinfo->si_xib_mtx); AuRwDestroy(&sbinfo->si_rwsem); au_lcnt_wait_for_fin(&sbinfo->si_ninodes); /* si_nfiles is waited too */ au_kfree_rcu(sbinfo); } int au_si_alloc(struct super_block *sb) { int err, i; struct au_sbinfo *sbinfo; err = -ENOMEM; sbinfo = kzalloc(sizeof(*sbinfo), GFP_NOFS); if (unlikely(!sbinfo)) goto out; /* will be reallocated separately */ sbinfo->si_branch = kzalloc(sizeof(*sbinfo->si_branch), GFP_NOFS); if (unlikely(!sbinfo->si_branch)) goto out_sbinfo; err = sysaufs_si_init(sbinfo); if (unlikely(err)) goto out_br; au_nwt_init(&sbinfo->si_nowait); au_rw_init_wlock(&sbinfo->si_rwsem); au_lcnt_init(&sbinfo->si_ninodes, /*release*/NULL); au_lcnt_init(&sbinfo->si_nfiles, /*release*/NULL); sbinfo->si_bbot = -1; sbinfo->si_last_br_id = AUFS_BRANCH_MAX / 2; sbinfo->si_wbr_copyup = AuWbrCopyup_Def; sbinfo->si_wbr_create = AuWbrCreate_Def; sbinfo->si_wbr_copyup_ops = au_wbr_copyup_ops + sbinfo->si_wbr_copyup; sbinfo->si_wbr_create_ops = au_wbr_create_ops + sbinfo->si_wbr_create; sbinfo->si_mntflags = au_opts_plink(AuOpt_Def); sbinfo->si_xino_jiffy = jiffies; sbinfo->si_xino_expire = msecs_to_jiffies(AUFS_XINO_DEF_SEC * MSEC_PER_SEC); mutex_init(&sbinfo->si_xib_mtx); /* leave si_xib_last_pindex and si_xib_next_bit */ INIT_HLIST_BL_HEAD(&sbinfo->si_aopen); sbinfo->si_rdcache = msecs_to_jiffies(AUFS_RDCACHE_DEF * MSEC_PER_SEC); sbinfo->si_rdblk = AUFS_RDBLK_DEF; sbinfo->si_rdhash = AUFS_RDHASH_DEF; sbinfo->si_dirwh = AUFS_DIRWH_DEF; for (i = 0; i < AuPlink_NHASH; i++) INIT_HLIST_BL_HEAD(sbinfo->si_plink + i); init_waitqueue_head(&sbinfo->si_plink_wq); spin_lock_init(&sbinfo->si_plink_maint_lock); INIT_HLIST_BL_HEAD(&sbinfo->si_files); /* with getattr by default */ sbinfo->si_iop_array = aufs_iop; /* leave other members for sysaufs and si_mnt. */ sbinfo->si_sb = sb; sb->s_fs_info = sbinfo; si_pid_set(sb); return 0; /* success */ out_br: au_kfree_try_rcu(sbinfo->si_branch); out_sbinfo: au_kfree_rcu(sbinfo); out: return err; } int au_sbr_realloc(struct au_sbinfo *sbinfo, int nbr, int may_shrink) { int err, sz; struct au_branch **brp; AuRwMustWriteLock(&sbinfo->si_rwsem); err = -ENOMEM; sz = sizeof(*brp) * (sbinfo->si_bbot + 1); if (unlikely(!sz)) sz = sizeof(*brp); brp = au_kzrealloc(sbinfo->si_branch, sz, sizeof(*brp) * nbr, GFP_NOFS, may_shrink); if (brp) { sbinfo->si_branch = brp; err = 0; } return err; } /* ---------------------------------------------------------------------- */ unsigned int au_sigen_inc(struct super_block *sb) { unsigned int gen; struct inode *inode; SiMustWriteLock(sb); gen = ++au_sbi(sb)->si_generation; au_update_digen(sb->s_root); inode = d_inode(sb->s_root); au_update_iigen(inode, /*half*/0); inode_inc_iversion(inode); return gen; } aufs_bindex_t au_new_br_id(struct super_block *sb) { aufs_bindex_t br_id; int i; struct au_sbinfo *sbinfo; SiMustWriteLock(sb); sbinfo = au_sbi(sb); for (i = 0; i <= AUFS_BRANCH_MAX; i++) { br_id = ++sbinfo->si_last_br_id; AuDebugOn(br_id < 0); if (br_id && au_br_index(sb, br_id) < 0) return br_id; } return -1; } /* ---------------------------------------------------------------------- */ /* it is ok that new 'nwt' tasks are appended while we are sleeping */ int si_read_lock(struct super_block *sb, int flags) { int err; err = 0; if (au_ftest_lock(flags, FLUSH)) au_nwt_flush(&au_sbi(sb)->si_nowait); si_noflush_read_lock(sb); err = au_plink_maint(sb, flags); if (unlikely(err)) si_read_unlock(sb); return err; } int si_write_lock(struct super_block *sb, int flags) { int err; if (au_ftest_lock(flags, FLUSH)) au_nwt_flush(&au_sbi(sb)->si_nowait); si_noflush_write_lock(sb); err = au_plink_maint(sb, flags); if (unlikely(err)) si_write_unlock(sb); return err; } /* dentry and super_block lock. call at entry point */ int aufs_read_lock(struct dentry *dentry, int flags) { int err; struct super_block *sb; sb = dentry->d_sb; err = si_read_lock(sb, flags); if (unlikely(err)) goto out; if (au_ftest_lock(flags, DW)) di_write_lock_child(dentry); else di_read_lock_child(dentry, flags); if (au_ftest_lock(flags, GEN)) { err = au_digen_test(dentry, au_sigen(sb)); if (!au_opt_test(au_mntflags(sb), UDBA_NONE)) AuDebugOn(!err && au_dbrange_test(dentry)); else if (!err) err = au_dbrange_test(dentry); if (unlikely(err)) aufs_read_unlock(dentry, flags); } out: return err; } void aufs_read_unlock(struct dentry *dentry, int flags) { if (au_ftest_lock(flags, DW)) di_write_unlock(dentry); else di_read_unlock(dentry, flags); si_read_unlock(dentry->d_sb); } void aufs_write_lock(struct dentry *dentry) { si_write_lock(dentry->d_sb, AuLock_FLUSH | AuLock_NOPLMW); di_write_lock_child(dentry); } void aufs_write_unlock(struct dentry *dentry) { di_write_unlock(dentry); si_write_unlock(dentry->d_sb); } int aufs_read_and_write_lock2(struct dentry *d1, struct dentry *d2, int flags) { int err; unsigned int sigen; struct super_block *sb; sb = d1->d_sb; err = si_read_lock(sb, flags); if (unlikely(err)) goto out; di_write_lock2_child(d1, d2, au_ftest_lock(flags, DIRS)); if (au_ftest_lock(flags, GEN)) { sigen = au_sigen(sb); err = au_digen_test(d1, sigen); AuDebugOn(!err && au_dbrange_test(d1)); if (!err) { err = au_digen_test(d2, sigen); AuDebugOn(!err && au_dbrange_test(d2)); } if (unlikely(err)) aufs_read_and_write_unlock2(d1, d2); } out: return err; } void aufs_read_and_write_unlock2(struct dentry *d1, struct dentry *d2) { di_write_unlock2(d1, d2); si_read_unlock(d1->d_sb); }