alloc.c
187 KB
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/* -*- mode: c; c-basic-offset: 8; -*-
* vim: noexpandtab sw=8 ts=8 sts=0:
*
* alloc.c
*
* Extent allocs and frees
*
* Copyright (C) 2002, 2004 Oracle. All rights reserved.
*
* 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 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, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 021110-1307, USA.
*/
#include <linux/fs.h>
#include <linux/types.h>
#include <linux/slab.h>
#include <linux/highmem.h>
#include <linux/swap.h>
#include <linux/quotaops.h>
#include <linux/blkdev.h>
#include <cluster/masklog.h>
#include "ocfs2.h"
#include "alloc.h"
#include "aops.h"
#include "blockcheck.h"
#include "dlmglue.h"
#include "extent_map.h"
#include "inode.h"
#include "journal.h"
#include "localalloc.h"
#include "suballoc.h"
#include "sysfile.h"
#include "file.h"
#include "super.h"
#include "uptodate.h"
#include "xattr.h"
#include "refcounttree.h"
#include "ocfs2_trace.h"
#include "buffer_head_io.h"
enum ocfs2_contig_type {
CONTIG_NONE = 0,
CONTIG_LEFT,
CONTIG_RIGHT,
CONTIG_LEFTRIGHT,
};
static enum ocfs2_contig_type
ocfs2_extent_rec_contig(struct super_block *sb,
struct ocfs2_extent_rec *ext,
struct ocfs2_extent_rec *insert_rec);
/*
* Operations for a specific extent tree type.
*
* To implement an on-disk btree (extent tree) type in ocfs2, add
* an ocfs2_extent_tree_operations structure and the matching
* ocfs2_init_<thingy>_extent_tree() function. That's pretty much it
* for the allocation portion of the extent tree.
*/
struct ocfs2_extent_tree_operations {
/*
* last_eb_blk is the block number of the right most leaf extent
* block. Most on-disk structures containing an extent tree store
* this value for fast access. The ->eo_set_last_eb_blk() and
* ->eo_get_last_eb_blk() operations access this value. They are
* both required.
*/
void (*eo_set_last_eb_blk)(struct ocfs2_extent_tree *et,
u64 blkno);
u64 (*eo_get_last_eb_blk)(struct ocfs2_extent_tree *et);
/*
* The on-disk structure usually keeps track of how many total
* clusters are stored in this extent tree. This function updates
* that value. new_clusters is the delta, and must be
* added to the total. Required.
*/
void (*eo_update_clusters)(struct ocfs2_extent_tree *et,
u32 new_clusters);
/*
* If this extent tree is supported by an extent map, insert
* a record into the map.
*/
void (*eo_extent_map_insert)(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec);
/*
* If this extent tree is supported by an extent map, truncate the
* map to clusters,
*/
void (*eo_extent_map_truncate)(struct ocfs2_extent_tree *et,
u32 clusters);
/*
* If ->eo_insert_check() exists, it is called before rec is
* inserted into the extent tree. It is optional.
*/
int (*eo_insert_check)(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec);
int (*eo_sanity_check)(struct ocfs2_extent_tree *et);
/*
* --------------------------------------------------------------
* The remaining are internal to ocfs2_extent_tree and don't have
* accessor functions
*/
/*
* ->eo_fill_root_el() takes et->et_object and sets et->et_root_el.
* It is required.
*/
void (*eo_fill_root_el)(struct ocfs2_extent_tree *et);
/*
* ->eo_fill_max_leaf_clusters sets et->et_max_leaf_clusters if
* it exists. If it does not, et->et_max_leaf_clusters is set
* to 0 (unlimited). Optional.
*/
void (*eo_fill_max_leaf_clusters)(struct ocfs2_extent_tree *et);
/*
* ->eo_extent_contig test whether the 2 ocfs2_extent_rec
* are contiguous or not. Optional. Don't need to set it if use
* ocfs2_extent_rec as the tree leaf.
*/
enum ocfs2_contig_type
(*eo_extent_contig)(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *ext,
struct ocfs2_extent_rec *insert_rec);
};
/*
* Pre-declare ocfs2_dinode_et_ops so we can use it as a sanity check
* in the methods.
*/
static u64 ocfs2_dinode_get_last_eb_blk(struct ocfs2_extent_tree *et);
static void ocfs2_dinode_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 blkno);
static void ocfs2_dinode_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters);
static void ocfs2_dinode_extent_map_insert(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec);
static void ocfs2_dinode_extent_map_truncate(struct ocfs2_extent_tree *et,
u32 clusters);
static int ocfs2_dinode_insert_check(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec);
static int ocfs2_dinode_sanity_check(struct ocfs2_extent_tree *et);
static void ocfs2_dinode_fill_root_el(struct ocfs2_extent_tree *et);
static struct ocfs2_extent_tree_operations ocfs2_dinode_et_ops = {
.eo_set_last_eb_blk = ocfs2_dinode_set_last_eb_blk,
.eo_get_last_eb_blk = ocfs2_dinode_get_last_eb_blk,
.eo_update_clusters = ocfs2_dinode_update_clusters,
.eo_extent_map_insert = ocfs2_dinode_extent_map_insert,
.eo_extent_map_truncate = ocfs2_dinode_extent_map_truncate,
.eo_insert_check = ocfs2_dinode_insert_check,
.eo_sanity_check = ocfs2_dinode_sanity_check,
.eo_fill_root_el = ocfs2_dinode_fill_root_el,
};
static void ocfs2_dinode_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 blkno)
{
struct ocfs2_dinode *di = et->et_object;
BUG_ON(et->et_ops != &ocfs2_dinode_et_ops);
di->i_last_eb_blk = cpu_to_le64(blkno);
}
static u64 ocfs2_dinode_get_last_eb_blk(struct ocfs2_extent_tree *et)
{
struct ocfs2_dinode *di = et->et_object;
BUG_ON(et->et_ops != &ocfs2_dinode_et_ops);
return le64_to_cpu(di->i_last_eb_blk);
}
static void ocfs2_dinode_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters)
{
struct ocfs2_inode_info *oi = cache_info_to_inode(et->et_ci);
struct ocfs2_dinode *di = et->et_object;
le32_add_cpu(&di->i_clusters, clusters);
spin_lock(&oi->ip_lock);
oi->ip_clusters = le32_to_cpu(di->i_clusters);
spin_unlock(&oi->ip_lock);
}
static void ocfs2_dinode_extent_map_insert(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec)
{
struct inode *inode = &cache_info_to_inode(et->et_ci)->vfs_inode;
ocfs2_extent_map_insert_rec(inode, rec);
}
static void ocfs2_dinode_extent_map_truncate(struct ocfs2_extent_tree *et,
u32 clusters)
{
struct inode *inode = &cache_info_to_inode(et->et_ci)->vfs_inode;
ocfs2_extent_map_trunc(inode, clusters);
}
static int ocfs2_dinode_insert_check(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec)
{
struct ocfs2_inode_info *oi = cache_info_to_inode(et->et_ci);
struct ocfs2_super *osb = OCFS2_SB(oi->vfs_inode.i_sb);
BUG_ON(oi->ip_dyn_features & OCFS2_INLINE_DATA_FL);
mlog_bug_on_msg(!ocfs2_sparse_alloc(osb) &&
(oi->ip_clusters != le32_to_cpu(rec->e_cpos)),
"Device %s, asking for sparse allocation: inode %llu, "
"cpos %u, clusters %u\n",
osb->dev_str,
(unsigned long long)oi->ip_blkno,
rec->e_cpos, oi->ip_clusters);
return 0;
}
static int ocfs2_dinode_sanity_check(struct ocfs2_extent_tree *et)
{
struct ocfs2_dinode *di = et->et_object;
BUG_ON(et->et_ops != &ocfs2_dinode_et_ops);
BUG_ON(!OCFS2_IS_VALID_DINODE(di));
return 0;
}
static void ocfs2_dinode_fill_root_el(struct ocfs2_extent_tree *et)
{
struct ocfs2_dinode *di = et->et_object;
et->et_root_el = &di->id2.i_list;
}
static void ocfs2_xattr_value_fill_root_el(struct ocfs2_extent_tree *et)
{
struct ocfs2_xattr_value_buf *vb = et->et_object;
et->et_root_el = &vb->vb_xv->xr_list;
}
static void ocfs2_xattr_value_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 blkno)
{
struct ocfs2_xattr_value_buf *vb = et->et_object;
vb->vb_xv->xr_last_eb_blk = cpu_to_le64(blkno);
}
static u64 ocfs2_xattr_value_get_last_eb_blk(struct ocfs2_extent_tree *et)
{
struct ocfs2_xattr_value_buf *vb = et->et_object;
return le64_to_cpu(vb->vb_xv->xr_last_eb_blk);
}
static void ocfs2_xattr_value_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters)
{
struct ocfs2_xattr_value_buf *vb = et->et_object;
le32_add_cpu(&vb->vb_xv->xr_clusters, clusters);
}
static struct ocfs2_extent_tree_operations ocfs2_xattr_value_et_ops = {
.eo_set_last_eb_blk = ocfs2_xattr_value_set_last_eb_blk,
.eo_get_last_eb_blk = ocfs2_xattr_value_get_last_eb_blk,
.eo_update_clusters = ocfs2_xattr_value_update_clusters,
.eo_fill_root_el = ocfs2_xattr_value_fill_root_el,
};
static void ocfs2_xattr_tree_fill_root_el(struct ocfs2_extent_tree *et)
{
struct ocfs2_xattr_block *xb = et->et_object;
et->et_root_el = &xb->xb_attrs.xb_root.xt_list;
}
static void ocfs2_xattr_tree_fill_max_leaf_clusters(struct ocfs2_extent_tree *et)
{
struct super_block *sb = ocfs2_metadata_cache_get_super(et->et_ci);
et->et_max_leaf_clusters =
ocfs2_clusters_for_bytes(sb, OCFS2_MAX_XATTR_TREE_LEAF_SIZE);
}
static void ocfs2_xattr_tree_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 blkno)
{
struct ocfs2_xattr_block *xb = et->et_object;
struct ocfs2_xattr_tree_root *xt = &xb->xb_attrs.xb_root;
xt->xt_last_eb_blk = cpu_to_le64(blkno);
}
static u64 ocfs2_xattr_tree_get_last_eb_blk(struct ocfs2_extent_tree *et)
{
struct ocfs2_xattr_block *xb = et->et_object;
struct ocfs2_xattr_tree_root *xt = &xb->xb_attrs.xb_root;
return le64_to_cpu(xt->xt_last_eb_blk);
}
static void ocfs2_xattr_tree_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters)
{
struct ocfs2_xattr_block *xb = et->et_object;
le32_add_cpu(&xb->xb_attrs.xb_root.xt_clusters, clusters);
}
static struct ocfs2_extent_tree_operations ocfs2_xattr_tree_et_ops = {
.eo_set_last_eb_blk = ocfs2_xattr_tree_set_last_eb_blk,
.eo_get_last_eb_blk = ocfs2_xattr_tree_get_last_eb_blk,
.eo_update_clusters = ocfs2_xattr_tree_update_clusters,
.eo_fill_root_el = ocfs2_xattr_tree_fill_root_el,
.eo_fill_max_leaf_clusters = ocfs2_xattr_tree_fill_max_leaf_clusters,
};
static void ocfs2_dx_root_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 blkno)
{
struct ocfs2_dx_root_block *dx_root = et->et_object;
dx_root->dr_last_eb_blk = cpu_to_le64(blkno);
}
static u64 ocfs2_dx_root_get_last_eb_blk(struct ocfs2_extent_tree *et)
{
struct ocfs2_dx_root_block *dx_root = et->et_object;
return le64_to_cpu(dx_root->dr_last_eb_blk);
}
static void ocfs2_dx_root_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters)
{
struct ocfs2_dx_root_block *dx_root = et->et_object;
le32_add_cpu(&dx_root->dr_clusters, clusters);
}
static int ocfs2_dx_root_sanity_check(struct ocfs2_extent_tree *et)
{
struct ocfs2_dx_root_block *dx_root = et->et_object;
BUG_ON(!OCFS2_IS_VALID_DX_ROOT(dx_root));
return 0;
}
static void ocfs2_dx_root_fill_root_el(struct ocfs2_extent_tree *et)
{
struct ocfs2_dx_root_block *dx_root = et->et_object;
et->et_root_el = &dx_root->dr_list;
}
static struct ocfs2_extent_tree_operations ocfs2_dx_root_et_ops = {
.eo_set_last_eb_blk = ocfs2_dx_root_set_last_eb_blk,
.eo_get_last_eb_blk = ocfs2_dx_root_get_last_eb_blk,
.eo_update_clusters = ocfs2_dx_root_update_clusters,
.eo_sanity_check = ocfs2_dx_root_sanity_check,
.eo_fill_root_el = ocfs2_dx_root_fill_root_el,
};
static void ocfs2_refcount_tree_fill_root_el(struct ocfs2_extent_tree *et)
{
struct ocfs2_refcount_block *rb = et->et_object;
et->et_root_el = &rb->rf_list;
}
static void ocfs2_refcount_tree_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 blkno)
{
struct ocfs2_refcount_block *rb = et->et_object;
rb->rf_last_eb_blk = cpu_to_le64(blkno);
}
static u64 ocfs2_refcount_tree_get_last_eb_blk(struct ocfs2_extent_tree *et)
{
struct ocfs2_refcount_block *rb = et->et_object;
return le64_to_cpu(rb->rf_last_eb_blk);
}
static void ocfs2_refcount_tree_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters)
{
struct ocfs2_refcount_block *rb = et->et_object;
le32_add_cpu(&rb->rf_clusters, clusters);
}
static enum ocfs2_contig_type
ocfs2_refcount_tree_extent_contig(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *ext,
struct ocfs2_extent_rec *insert_rec)
{
return CONTIG_NONE;
}
static struct ocfs2_extent_tree_operations ocfs2_refcount_tree_et_ops = {
.eo_set_last_eb_blk = ocfs2_refcount_tree_set_last_eb_blk,
.eo_get_last_eb_blk = ocfs2_refcount_tree_get_last_eb_blk,
.eo_update_clusters = ocfs2_refcount_tree_update_clusters,
.eo_fill_root_el = ocfs2_refcount_tree_fill_root_el,
.eo_extent_contig = ocfs2_refcount_tree_extent_contig,
};
static void __ocfs2_init_extent_tree(struct ocfs2_extent_tree *et,
struct ocfs2_caching_info *ci,
struct buffer_head *bh,
ocfs2_journal_access_func access,
void *obj,
struct ocfs2_extent_tree_operations *ops)
{
et->et_ops = ops;
et->et_root_bh = bh;
et->et_ci = ci;
et->et_root_journal_access = access;
if (!obj)
obj = (void *)bh->b_data;
et->et_object = obj;
et->et_ops->eo_fill_root_el(et);
if (!et->et_ops->eo_fill_max_leaf_clusters)
et->et_max_leaf_clusters = 0;
else
et->et_ops->eo_fill_max_leaf_clusters(et);
}
void ocfs2_init_dinode_extent_tree(struct ocfs2_extent_tree *et,
struct ocfs2_caching_info *ci,
struct buffer_head *bh)
{
__ocfs2_init_extent_tree(et, ci, bh, ocfs2_journal_access_di,
NULL, &ocfs2_dinode_et_ops);
}
void ocfs2_init_xattr_tree_extent_tree(struct ocfs2_extent_tree *et,
struct ocfs2_caching_info *ci,
struct buffer_head *bh)
{
__ocfs2_init_extent_tree(et, ci, bh, ocfs2_journal_access_xb,
NULL, &ocfs2_xattr_tree_et_ops);
}
void ocfs2_init_xattr_value_extent_tree(struct ocfs2_extent_tree *et,
struct ocfs2_caching_info *ci,
struct ocfs2_xattr_value_buf *vb)
{
__ocfs2_init_extent_tree(et, ci, vb->vb_bh, vb->vb_access, vb,
&ocfs2_xattr_value_et_ops);
}
void ocfs2_init_dx_root_extent_tree(struct ocfs2_extent_tree *et,
struct ocfs2_caching_info *ci,
struct buffer_head *bh)
{
__ocfs2_init_extent_tree(et, ci, bh, ocfs2_journal_access_dr,
NULL, &ocfs2_dx_root_et_ops);
}
void ocfs2_init_refcount_extent_tree(struct ocfs2_extent_tree *et,
struct ocfs2_caching_info *ci,
struct buffer_head *bh)
{
__ocfs2_init_extent_tree(et, ci, bh, ocfs2_journal_access_rb,
NULL, &ocfs2_refcount_tree_et_ops);
}
static inline void ocfs2_et_set_last_eb_blk(struct ocfs2_extent_tree *et,
u64 new_last_eb_blk)
{
et->et_ops->eo_set_last_eb_blk(et, new_last_eb_blk);
}
static inline u64 ocfs2_et_get_last_eb_blk(struct ocfs2_extent_tree *et)
{
return et->et_ops->eo_get_last_eb_blk(et);
}
static inline void ocfs2_et_update_clusters(struct ocfs2_extent_tree *et,
u32 clusters)
{
et->et_ops->eo_update_clusters(et, clusters);
}
static inline void ocfs2_et_extent_map_insert(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec)
{
if (et->et_ops->eo_extent_map_insert)
et->et_ops->eo_extent_map_insert(et, rec);
}
static inline void ocfs2_et_extent_map_truncate(struct ocfs2_extent_tree *et,
u32 clusters)
{
if (et->et_ops->eo_extent_map_truncate)
et->et_ops->eo_extent_map_truncate(et, clusters);
}
static inline int ocfs2_et_root_journal_access(handle_t *handle,
struct ocfs2_extent_tree *et,
int type)
{
return et->et_root_journal_access(handle, et->et_ci, et->et_root_bh,
type);
}
static inline enum ocfs2_contig_type
ocfs2_et_extent_contig(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec,
struct ocfs2_extent_rec *insert_rec)
{
if (et->et_ops->eo_extent_contig)
return et->et_ops->eo_extent_contig(et, rec, insert_rec);
return ocfs2_extent_rec_contig(
ocfs2_metadata_cache_get_super(et->et_ci),
rec, insert_rec);
}
static inline int ocfs2_et_insert_check(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *rec)
{
int ret = 0;
if (et->et_ops->eo_insert_check)
ret = et->et_ops->eo_insert_check(et, rec);
return ret;
}
static inline int ocfs2_et_sanity_check(struct ocfs2_extent_tree *et)
{
int ret = 0;
if (et->et_ops->eo_sanity_check)
ret = et->et_ops->eo_sanity_check(et);
return ret;
}
static int ocfs2_cache_extent_block_free(struct ocfs2_cached_dealloc_ctxt *ctxt,
struct ocfs2_extent_block *eb);
static void ocfs2_adjust_rightmost_records(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct ocfs2_extent_rec *insert_rec);
/*
* Reset the actual path elements so that we can re-use the structure
* to build another path. Generally, this involves freeing the buffer
* heads.
*/
void ocfs2_reinit_path(struct ocfs2_path *path, int keep_root)
{
int i, start = 0, depth = 0;
struct ocfs2_path_item *node;
if (keep_root)
start = 1;
for(i = start; i < path_num_items(path); i++) {
node = &path->p_node[i];
brelse(node->bh);
node->bh = NULL;
node->el = NULL;
}
/*
* Tree depth may change during truncate, or insert. If we're
* keeping the root extent list, then make sure that our path
* structure reflects the proper depth.
*/
if (keep_root)
depth = le16_to_cpu(path_root_el(path)->l_tree_depth);
else
path_root_access(path) = NULL;
path->p_tree_depth = depth;
}
void ocfs2_free_path(struct ocfs2_path *path)
{
if (path) {
ocfs2_reinit_path(path, 0);
kfree(path);
}
}
/*
* All the elements of src into dest. After this call, src could be freed
* without affecting dest.
*
* Both paths should have the same root. Any non-root elements of dest
* will be freed.
*/
static void ocfs2_cp_path(struct ocfs2_path *dest, struct ocfs2_path *src)
{
int i;
BUG_ON(path_root_bh(dest) != path_root_bh(src));
BUG_ON(path_root_el(dest) != path_root_el(src));
BUG_ON(path_root_access(dest) != path_root_access(src));
ocfs2_reinit_path(dest, 1);
for(i = 1; i < OCFS2_MAX_PATH_DEPTH; i++) {
dest->p_node[i].bh = src->p_node[i].bh;
dest->p_node[i].el = src->p_node[i].el;
if (dest->p_node[i].bh)
get_bh(dest->p_node[i].bh);
}
}
/*
* Make the *dest path the same as src and re-initialize src path to
* have a root only.
*/
static void ocfs2_mv_path(struct ocfs2_path *dest, struct ocfs2_path *src)
{
int i;
BUG_ON(path_root_bh(dest) != path_root_bh(src));
BUG_ON(path_root_access(dest) != path_root_access(src));
for(i = 1; i < OCFS2_MAX_PATH_DEPTH; i++) {
brelse(dest->p_node[i].bh);
dest->p_node[i].bh = src->p_node[i].bh;
dest->p_node[i].el = src->p_node[i].el;
src->p_node[i].bh = NULL;
src->p_node[i].el = NULL;
}
}
/*
* Insert an extent block at given index.
*
* This will not take an additional reference on eb_bh.
*/
static inline void ocfs2_path_insert_eb(struct ocfs2_path *path, int index,
struct buffer_head *eb_bh)
{
struct ocfs2_extent_block *eb = (struct ocfs2_extent_block *)eb_bh->b_data;
/*
* Right now, no root bh is an extent block, so this helps
* catch code errors with dinode trees. The assertion can be
* safely removed if we ever need to insert extent block
* structures at the root.
*/
BUG_ON(index == 0);
path->p_node[index].bh = eb_bh;
path->p_node[index].el = &eb->h_list;
}
static struct ocfs2_path *ocfs2_new_path(struct buffer_head *root_bh,
struct ocfs2_extent_list *root_el,
ocfs2_journal_access_func access)
{
struct ocfs2_path *path;
BUG_ON(le16_to_cpu(root_el->l_tree_depth) >= OCFS2_MAX_PATH_DEPTH);
path = kzalloc(sizeof(*path), GFP_NOFS);
if (path) {
path->p_tree_depth = le16_to_cpu(root_el->l_tree_depth);
get_bh(root_bh);
path_root_bh(path) = root_bh;
path_root_el(path) = root_el;
path_root_access(path) = access;
}
return path;
}
struct ocfs2_path *ocfs2_new_path_from_path(struct ocfs2_path *path)
{
return ocfs2_new_path(path_root_bh(path), path_root_el(path),
path_root_access(path));
}
struct ocfs2_path *ocfs2_new_path_from_et(struct ocfs2_extent_tree *et)
{
return ocfs2_new_path(et->et_root_bh, et->et_root_el,
et->et_root_journal_access);
}
/*
* Journal the buffer at depth idx. All idx>0 are extent_blocks,
* otherwise it's the root_access function.
*
* I don't like the way this function's name looks next to
* ocfs2_journal_access_path(), but I don't have a better one.
*/
int ocfs2_path_bh_journal_access(handle_t *handle,
struct ocfs2_caching_info *ci,
struct ocfs2_path *path,
int idx)
{
ocfs2_journal_access_func access = path_root_access(path);
if (!access)
access = ocfs2_journal_access;
if (idx)
access = ocfs2_journal_access_eb;
return access(handle, ci, path->p_node[idx].bh,
OCFS2_JOURNAL_ACCESS_WRITE);
}
/*
* Convenience function to journal all components in a path.
*/
int ocfs2_journal_access_path(struct ocfs2_caching_info *ci,
handle_t *handle,
struct ocfs2_path *path)
{
int i, ret = 0;
if (!path)
goto out;
for(i = 0; i < path_num_items(path); i++) {
ret = ocfs2_path_bh_journal_access(handle, ci, path, i);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
}
out:
return ret;
}
/*
* Return the index of the extent record which contains cluster #v_cluster.
* -1 is returned if it was not found.
*
* Should work fine on interior and exterior nodes.
*/
int ocfs2_search_extent_list(struct ocfs2_extent_list *el, u32 v_cluster)
{
int ret = -1;
int i;
struct ocfs2_extent_rec *rec;
u32 rec_end, rec_start, clusters;
for(i = 0; i < le16_to_cpu(el->l_next_free_rec); i++) {
rec = &el->l_recs[i];
rec_start = le32_to_cpu(rec->e_cpos);
clusters = ocfs2_rec_clusters(el, rec);
rec_end = rec_start + clusters;
if (v_cluster >= rec_start && v_cluster < rec_end) {
ret = i;
break;
}
}
return ret;
}
/*
* NOTE: ocfs2_block_extent_contig(), ocfs2_extents_adjacent() and
* ocfs2_extent_rec_contig only work properly against leaf nodes!
*/
static int ocfs2_block_extent_contig(struct super_block *sb,
struct ocfs2_extent_rec *ext,
u64 blkno)
{
u64 blk_end = le64_to_cpu(ext->e_blkno);
blk_end += ocfs2_clusters_to_blocks(sb,
le16_to_cpu(ext->e_leaf_clusters));
return blkno == blk_end;
}
static int ocfs2_extents_adjacent(struct ocfs2_extent_rec *left,
struct ocfs2_extent_rec *right)
{
u32 left_range;
left_range = le32_to_cpu(left->e_cpos) +
le16_to_cpu(left->e_leaf_clusters);
return (left_range == le32_to_cpu(right->e_cpos));
}
static enum ocfs2_contig_type
ocfs2_extent_rec_contig(struct super_block *sb,
struct ocfs2_extent_rec *ext,
struct ocfs2_extent_rec *insert_rec)
{
u64 blkno = le64_to_cpu(insert_rec->e_blkno);
/*
* Refuse to coalesce extent records with different flag
* fields - we don't want to mix unwritten extents with user
* data.
*/
if (ext->e_flags != insert_rec->e_flags)
return CONTIG_NONE;
if (ocfs2_extents_adjacent(ext, insert_rec) &&
ocfs2_block_extent_contig(sb, ext, blkno))
return CONTIG_RIGHT;
blkno = le64_to_cpu(ext->e_blkno);
if (ocfs2_extents_adjacent(insert_rec, ext) &&
ocfs2_block_extent_contig(sb, insert_rec, blkno))
return CONTIG_LEFT;
return CONTIG_NONE;
}
/*
* NOTE: We can have pretty much any combination of contiguousness and
* appending.
*
* The usefulness of APPEND_TAIL is more in that it lets us know that
* we'll have to update the path to that leaf.
*/
enum ocfs2_append_type {
APPEND_NONE = 0,
APPEND_TAIL,
};
enum ocfs2_split_type {
SPLIT_NONE = 0,
SPLIT_LEFT,
SPLIT_RIGHT,
};
struct ocfs2_insert_type {
enum ocfs2_split_type ins_split;
enum ocfs2_append_type ins_appending;
enum ocfs2_contig_type ins_contig;
int ins_contig_index;
int ins_tree_depth;
};
struct ocfs2_merge_ctxt {
enum ocfs2_contig_type c_contig_type;
int c_has_empty_extent;
int c_split_covers_rec;
};
static int ocfs2_validate_extent_block(struct super_block *sb,
struct buffer_head *bh)
{
int rc;
struct ocfs2_extent_block *eb =
(struct ocfs2_extent_block *)bh->b_data;
trace_ocfs2_validate_extent_block((unsigned long long)bh->b_blocknr);
BUG_ON(!buffer_uptodate(bh));
/*
* If the ecc fails, we return the error but otherwise
* leave the filesystem running. We know any error is
* local to this block.
*/
rc = ocfs2_validate_meta_ecc(sb, bh->b_data, &eb->h_check);
if (rc) {
mlog(ML_ERROR, "Checksum failed for extent block %llu\n",
(unsigned long long)bh->b_blocknr);
return rc;
}
/*
* Errors after here are fatal.
*/
if (!OCFS2_IS_VALID_EXTENT_BLOCK(eb)) {
ocfs2_error(sb,
"Extent block #%llu has bad signature %.*s",
(unsigned long long)bh->b_blocknr, 7,
eb->h_signature);
return -EINVAL;
}
if (le64_to_cpu(eb->h_blkno) != bh->b_blocknr) {
ocfs2_error(sb,
"Extent block #%llu has an invalid h_blkno "
"of %llu",
(unsigned long long)bh->b_blocknr,
(unsigned long long)le64_to_cpu(eb->h_blkno));
return -EINVAL;
}
if (le32_to_cpu(eb->h_fs_generation) != OCFS2_SB(sb)->fs_generation) {
ocfs2_error(sb,
"Extent block #%llu has an invalid "
"h_fs_generation of #%u",
(unsigned long long)bh->b_blocknr,
le32_to_cpu(eb->h_fs_generation));
return -EINVAL;
}
return 0;
}
int ocfs2_read_extent_block(struct ocfs2_caching_info *ci, u64 eb_blkno,
struct buffer_head **bh)
{
int rc;
struct buffer_head *tmp = *bh;
rc = ocfs2_read_block(ci, eb_blkno, &tmp,
ocfs2_validate_extent_block);
/* If ocfs2_read_block() got us a new bh, pass it up. */
if (!rc && !*bh)
*bh = tmp;
return rc;
}
/*
* How many free extents have we got before we need more meta data?
*/
int ocfs2_num_free_extents(struct ocfs2_super *osb,
struct ocfs2_extent_tree *et)
{
int retval;
struct ocfs2_extent_list *el = NULL;
struct ocfs2_extent_block *eb;
struct buffer_head *eb_bh = NULL;
u64 last_eb_blk = 0;
el = et->et_root_el;
last_eb_blk = ocfs2_et_get_last_eb_blk(et);
if (last_eb_blk) {
retval = ocfs2_read_extent_block(et->et_ci, last_eb_blk,
&eb_bh);
if (retval < 0) {
mlog_errno(retval);
goto bail;
}
eb = (struct ocfs2_extent_block *) eb_bh->b_data;
el = &eb->h_list;
}
BUG_ON(el->l_tree_depth != 0);
retval = le16_to_cpu(el->l_count) - le16_to_cpu(el->l_next_free_rec);
bail:
brelse(eb_bh);
trace_ocfs2_num_free_extents(retval);
return retval;
}
/* expects array to already be allocated
*
* sets h_signature, h_blkno, h_suballoc_bit, h_suballoc_slot, and
* l_count for you
*/
static int ocfs2_create_new_meta_bhs(handle_t *handle,
struct ocfs2_extent_tree *et,
int wanted,
struct ocfs2_alloc_context *meta_ac,
struct buffer_head *bhs[])
{
int count, status, i;
u16 suballoc_bit_start;
u32 num_got;
u64 suballoc_loc, first_blkno;
struct ocfs2_super *osb =
OCFS2_SB(ocfs2_metadata_cache_get_super(et->et_ci));
struct ocfs2_extent_block *eb;
count = 0;
while (count < wanted) {
status = ocfs2_claim_metadata(handle,
meta_ac,
wanted - count,
&suballoc_loc,
&suballoc_bit_start,
&num_got,
&first_blkno);
if (status < 0) {
mlog_errno(status);
goto bail;
}
for(i = count; i < (num_got + count); i++) {
bhs[i] = sb_getblk(osb->sb, first_blkno);
if (bhs[i] == NULL) {
status = -EIO;
mlog_errno(status);
goto bail;
}
ocfs2_set_new_buffer_uptodate(et->et_ci, bhs[i]);
status = ocfs2_journal_access_eb(handle, et->et_ci,
bhs[i],
OCFS2_JOURNAL_ACCESS_CREATE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
memset(bhs[i]->b_data, 0, osb->sb->s_blocksize);
eb = (struct ocfs2_extent_block *) bhs[i]->b_data;
/* Ok, setup the minimal stuff here. */
strcpy(eb->h_signature, OCFS2_EXTENT_BLOCK_SIGNATURE);
eb->h_blkno = cpu_to_le64(first_blkno);
eb->h_fs_generation = cpu_to_le32(osb->fs_generation);
eb->h_suballoc_slot =
cpu_to_le16(meta_ac->ac_alloc_slot);
eb->h_suballoc_loc = cpu_to_le64(suballoc_loc);
eb->h_suballoc_bit = cpu_to_le16(suballoc_bit_start);
eb->h_list.l_count =
cpu_to_le16(ocfs2_extent_recs_per_eb(osb->sb));
suballoc_bit_start++;
first_blkno++;
/* We'll also be dirtied by the caller, so
* this isn't absolutely necessary. */
ocfs2_journal_dirty(handle, bhs[i]);
}
count += num_got;
}
status = 0;
bail:
if (status < 0) {
for(i = 0; i < wanted; i++) {
brelse(bhs[i]);
bhs[i] = NULL;
}
mlog_errno(status);
}
return status;
}
/*
* Helper function for ocfs2_add_branch() and ocfs2_shift_tree_depth().
*
* Returns the sum of the rightmost extent rec logical offset and
* cluster count.
*
* ocfs2_add_branch() uses this to determine what logical cluster
* value should be populated into the leftmost new branch records.
*
* ocfs2_shift_tree_depth() uses this to determine the # clusters
* value for the new topmost tree record.
*/
static inline u32 ocfs2_sum_rightmost_rec(struct ocfs2_extent_list *el)
{
int i;
i = le16_to_cpu(el->l_next_free_rec) - 1;
return le32_to_cpu(el->l_recs[i].e_cpos) +
ocfs2_rec_clusters(el, &el->l_recs[i]);
}
/*
* Change range of the branches in the right most path according to the leaf
* extent block's rightmost record.
*/
static int ocfs2_adjust_rightmost_branch(handle_t *handle,
struct ocfs2_extent_tree *et)
{
int status;
struct ocfs2_path *path = NULL;
struct ocfs2_extent_list *el;
struct ocfs2_extent_rec *rec;
path = ocfs2_new_path_from_et(et);
if (!path) {
status = -ENOMEM;
return status;
}
status = ocfs2_find_path(et->et_ci, path, UINT_MAX);
if (status < 0) {
mlog_errno(status);
goto out;
}
status = ocfs2_extend_trans(handle, path_num_items(path));
if (status < 0) {
mlog_errno(status);
goto out;
}
status = ocfs2_journal_access_path(et->et_ci, handle, path);
if (status < 0) {
mlog_errno(status);
goto out;
}
el = path_leaf_el(path);
rec = &el->l_recs[le32_to_cpu(el->l_next_free_rec) - 1];
ocfs2_adjust_rightmost_records(handle, et, path, rec);
out:
ocfs2_free_path(path);
return status;
}
/*
* Add an entire tree branch to our inode. eb_bh is the extent block
* to start at, if we don't want to start the branch at the root
* structure.
*
* last_eb_bh is required as we have to update it's next_leaf pointer
* for the new last extent block.
*
* the new branch will be 'empty' in the sense that every block will
* contain a single record with cluster count == 0.
*/
static int ocfs2_add_branch(handle_t *handle,
struct ocfs2_extent_tree *et,
struct buffer_head *eb_bh,
struct buffer_head **last_eb_bh,
struct ocfs2_alloc_context *meta_ac)
{
int status, new_blocks, i;
u64 next_blkno, new_last_eb_blk;
struct buffer_head *bh;
struct buffer_head **new_eb_bhs = NULL;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *eb_el;
struct ocfs2_extent_list *el;
u32 new_cpos, root_end;
BUG_ON(!last_eb_bh || !*last_eb_bh);
if (eb_bh) {
eb = (struct ocfs2_extent_block *) eb_bh->b_data;
el = &eb->h_list;
} else
el = et->et_root_el;
/* we never add a branch to a leaf. */
BUG_ON(!el->l_tree_depth);
new_blocks = le16_to_cpu(el->l_tree_depth);
eb = (struct ocfs2_extent_block *)(*last_eb_bh)->b_data;
new_cpos = ocfs2_sum_rightmost_rec(&eb->h_list);
root_end = ocfs2_sum_rightmost_rec(et->et_root_el);
/*
* If there is a gap before the root end and the real end
* of the righmost leaf block, we need to remove the gap
* between new_cpos and root_end first so that the tree
* is consistent after we add a new branch(it will start
* from new_cpos).
*/
if (root_end > new_cpos) {
trace_ocfs2_adjust_rightmost_branch(
(unsigned long long)
ocfs2_metadata_cache_owner(et->et_ci),
root_end, new_cpos);
status = ocfs2_adjust_rightmost_branch(handle, et);
if (status) {
mlog_errno(status);
goto bail;
}
}
/* allocate the number of new eb blocks we need */
new_eb_bhs = kcalloc(new_blocks, sizeof(struct buffer_head *),
GFP_KERNEL);
if (!new_eb_bhs) {
status = -ENOMEM;
mlog_errno(status);
goto bail;
}
status = ocfs2_create_new_meta_bhs(handle, et, new_blocks,
meta_ac, new_eb_bhs);
if (status < 0) {
mlog_errno(status);
goto bail;
}
/* Note: new_eb_bhs[new_blocks - 1] is the guy which will be
* linked with the rest of the tree.
* conversly, new_eb_bhs[0] is the new bottommost leaf.
*
* when we leave the loop, new_last_eb_blk will point to the
* newest leaf, and next_blkno will point to the topmost extent
* block. */
next_blkno = new_last_eb_blk = 0;
for(i = 0; i < new_blocks; i++) {
bh = new_eb_bhs[i];
eb = (struct ocfs2_extent_block *) bh->b_data;
/* ocfs2_create_new_meta_bhs() should create it right! */
BUG_ON(!OCFS2_IS_VALID_EXTENT_BLOCK(eb));
eb_el = &eb->h_list;
status = ocfs2_journal_access_eb(handle, et->et_ci, bh,
OCFS2_JOURNAL_ACCESS_CREATE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
eb->h_next_leaf_blk = 0;
eb_el->l_tree_depth = cpu_to_le16(i);
eb_el->l_next_free_rec = cpu_to_le16(1);
/*
* This actually counts as an empty extent as
* c_clusters == 0
*/
eb_el->l_recs[0].e_cpos = cpu_to_le32(new_cpos);
eb_el->l_recs[0].e_blkno = cpu_to_le64(next_blkno);
/*
* eb_el isn't always an interior node, but even leaf
* nodes want a zero'd flags and reserved field so
* this gets the whole 32 bits regardless of use.
*/
eb_el->l_recs[0].e_int_clusters = cpu_to_le32(0);
if (!eb_el->l_tree_depth)
new_last_eb_blk = le64_to_cpu(eb->h_blkno);
ocfs2_journal_dirty(handle, bh);
next_blkno = le64_to_cpu(eb->h_blkno);
}
/* This is a bit hairy. We want to update up to three blocks
* here without leaving any of them in an inconsistent state
* in case of error. We don't have to worry about
* journal_dirty erroring as it won't unless we've aborted the
* handle (in which case we would never be here) so reserving
* the write with journal_access is all we need to do. */
status = ocfs2_journal_access_eb(handle, et->et_ci, *last_eb_bh,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
status = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
if (eb_bh) {
status = ocfs2_journal_access_eb(handle, et->et_ci, eb_bh,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
}
/* Link the new branch into the rest of the tree (el will
* either be on the root_bh, or the extent block passed in. */
i = le16_to_cpu(el->l_next_free_rec);
el->l_recs[i].e_blkno = cpu_to_le64(next_blkno);
el->l_recs[i].e_cpos = cpu_to_le32(new_cpos);
el->l_recs[i].e_int_clusters = 0;
le16_add_cpu(&el->l_next_free_rec, 1);
/* fe needs a new last extent block pointer, as does the
* next_leaf on the previously last-extent-block. */
ocfs2_et_set_last_eb_blk(et, new_last_eb_blk);
eb = (struct ocfs2_extent_block *) (*last_eb_bh)->b_data;
eb->h_next_leaf_blk = cpu_to_le64(new_last_eb_blk);
ocfs2_journal_dirty(handle, *last_eb_bh);
ocfs2_journal_dirty(handle, et->et_root_bh);
if (eb_bh)
ocfs2_journal_dirty(handle, eb_bh);
/*
* Some callers want to track the rightmost leaf so pass it
* back here.
*/
brelse(*last_eb_bh);
get_bh(new_eb_bhs[0]);
*last_eb_bh = new_eb_bhs[0];
status = 0;
bail:
if (new_eb_bhs) {
for (i = 0; i < new_blocks; i++)
brelse(new_eb_bhs[i]);
kfree(new_eb_bhs);
}
return status;
}
/*
* adds another level to the allocation tree.
* returns back the new extent block so you can add a branch to it
* after this call.
*/
static int ocfs2_shift_tree_depth(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_alloc_context *meta_ac,
struct buffer_head **ret_new_eb_bh)
{
int status, i;
u32 new_clusters;
struct buffer_head *new_eb_bh = NULL;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *root_el;
struct ocfs2_extent_list *eb_el;
status = ocfs2_create_new_meta_bhs(handle, et, 1, meta_ac,
&new_eb_bh);
if (status < 0) {
mlog_errno(status);
goto bail;
}
eb = (struct ocfs2_extent_block *) new_eb_bh->b_data;
/* ocfs2_create_new_meta_bhs() should create it right! */
BUG_ON(!OCFS2_IS_VALID_EXTENT_BLOCK(eb));
eb_el = &eb->h_list;
root_el = et->et_root_el;
status = ocfs2_journal_access_eb(handle, et->et_ci, new_eb_bh,
OCFS2_JOURNAL_ACCESS_CREATE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
/* copy the root extent list data into the new extent block */
eb_el->l_tree_depth = root_el->l_tree_depth;
eb_el->l_next_free_rec = root_el->l_next_free_rec;
for (i = 0; i < le16_to_cpu(root_el->l_next_free_rec); i++)
eb_el->l_recs[i] = root_el->l_recs[i];
ocfs2_journal_dirty(handle, new_eb_bh);
status = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
new_clusters = ocfs2_sum_rightmost_rec(eb_el);
/* update root_bh now */
le16_add_cpu(&root_el->l_tree_depth, 1);
root_el->l_recs[0].e_cpos = 0;
root_el->l_recs[0].e_blkno = eb->h_blkno;
root_el->l_recs[0].e_int_clusters = cpu_to_le32(new_clusters);
for (i = 1; i < le16_to_cpu(root_el->l_next_free_rec); i++)
memset(&root_el->l_recs[i], 0, sizeof(struct ocfs2_extent_rec));
root_el->l_next_free_rec = cpu_to_le16(1);
/* If this is our 1st tree depth shift, then last_eb_blk
* becomes the allocated extent block */
if (root_el->l_tree_depth == cpu_to_le16(1))
ocfs2_et_set_last_eb_blk(et, le64_to_cpu(eb->h_blkno));
ocfs2_journal_dirty(handle, et->et_root_bh);
*ret_new_eb_bh = new_eb_bh;
new_eb_bh = NULL;
status = 0;
bail:
brelse(new_eb_bh);
return status;
}
/*
* Should only be called when there is no space left in any of the
* leaf nodes. What we want to do is find the lowest tree depth
* non-leaf extent block with room for new records. There are three
* valid results of this search:
*
* 1) a lowest extent block is found, then we pass it back in
* *lowest_eb_bh and return '0'
*
* 2) the search fails to find anything, but the root_el has room. We
* pass NULL back in *lowest_eb_bh, but still return '0'
*
* 3) the search fails to find anything AND the root_el is full, in
* which case we return > 0
*
* return status < 0 indicates an error.
*/
static int ocfs2_find_branch_target(struct ocfs2_extent_tree *et,
struct buffer_head **target_bh)
{
int status = 0, i;
u64 blkno;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *el;
struct buffer_head *bh = NULL;
struct buffer_head *lowest_bh = NULL;
*target_bh = NULL;
el = et->et_root_el;
while(le16_to_cpu(el->l_tree_depth) > 1) {
if (le16_to_cpu(el->l_next_free_rec) == 0) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu has empty "
"extent list (next_free_rec == 0)",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci));
status = -EIO;
goto bail;
}
i = le16_to_cpu(el->l_next_free_rec) - 1;
blkno = le64_to_cpu(el->l_recs[i].e_blkno);
if (!blkno) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu has extent "
"list where extent # %d has no physical "
"block start",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci), i);
status = -EIO;
goto bail;
}
brelse(bh);
bh = NULL;
status = ocfs2_read_extent_block(et->et_ci, blkno, &bh);
if (status < 0) {
mlog_errno(status);
goto bail;
}
eb = (struct ocfs2_extent_block *) bh->b_data;
el = &eb->h_list;
if (le16_to_cpu(el->l_next_free_rec) <
le16_to_cpu(el->l_count)) {
brelse(lowest_bh);
lowest_bh = bh;
get_bh(lowest_bh);
}
}
/* If we didn't find one and the fe doesn't have any room,
* then return '1' */
el = et->et_root_el;
if (!lowest_bh && (el->l_next_free_rec == el->l_count))
status = 1;
*target_bh = lowest_bh;
bail:
brelse(bh);
return status;
}
/*
* Grow a b-tree so that it has more records.
*
* We might shift the tree depth in which case existing paths should
* be considered invalid.
*
* Tree depth after the grow is returned via *final_depth.
*
* *last_eb_bh will be updated by ocfs2_add_branch().
*/
static int ocfs2_grow_tree(handle_t *handle, struct ocfs2_extent_tree *et,
int *final_depth, struct buffer_head **last_eb_bh,
struct ocfs2_alloc_context *meta_ac)
{
int ret, shift;
struct ocfs2_extent_list *el = et->et_root_el;
int depth = le16_to_cpu(el->l_tree_depth);
struct buffer_head *bh = NULL;
BUG_ON(meta_ac == NULL);
shift = ocfs2_find_branch_target(et, &bh);
if (shift < 0) {
ret = shift;
mlog_errno(ret);
goto out;
}
/* We traveled all the way to the bottom of the allocation tree
* and didn't find room for any more extents - we need to add
* another tree level */
if (shift) {
BUG_ON(bh);
trace_ocfs2_grow_tree(
(unsigned long long)
ocfs2_metadata_cache_owner(et->et_ci),
depth);
/* ocfs2_shift_tree_depth will return us a buffer with
* the new extent block (so we can pass that to
* ocfs2_add_branch). */
ret = ocfs2_shift_tree_depth(handle, et, meta_ac, &bh);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
depth++;
if (depth == 1) {
/*
* Special case: we have room now if we shifted from
* tree_depth 0, so no more work needs to be done.
*
* We won't be calling add_branch, so pass
* back *last_eb_bh as the new leaf. At depth
* zero, it should always be null so there's
* no reason to brelse.
*/
BUG_ON(*last_eb_bh);
get_bh(bh);
*last_eb_bh = bh;
goto out;
}
}
/* call ocfs2_add_branch to add the final part of the tree with
* the new data. */
ret = ocfs2_add_branch(handle, et, bh, last_eb_bh,
meta_ac);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
out:
if (final_depth)
*final_depth = depth;
brelse(bh);
return ret;
}
/*
* This function will discard the rightmost extent record.
*/
static void ocfs2_shift_records_right(struct ocfs2_extent_list *el)
{
int next_free = le16_to_cpu(el->l_next_free_rec);
int count = le16_to_cpu(el->l_count);
unsigned int num_bytes;
BUG_ON(!next_free);
/* This will cause us to go off the end of our extent list. */
BUG_ON(next_free >= count);
num_bytes = sizeof(struct ocfs2_extent_rec) * next_free;
memmove(&el->l_recs[1], &el->l_recs[0], num_bytes);
}
static void ocfs2_rotate_leaf(struct ocfs2_extent_list *el,
struct ocfs2_extent_rec *insert_rec)
{
int i, insert_index, next_free, has_empty, num_bytes;
u32 insert_cpos = le32_to_cpu(insert_rec->e_cpos);
struct ocfs2_extent_rec *rec;
next_free = le16_to_cpu(el->l_next_free_rec);
has_empty = ocfs2_is_empty_extent(&el->l_recs[0]);
BUG_ON(!next_free);
/* The tree code before us didn't allow enough room in the leaf. */
BUG_ON(el->l_next_free_rec == el->l_count && !has_empty);
/*
* The easiest way to approach this is to just remove the
* empty extent and temporarily decrement next_free.
*/
if (has_empty) {
/*
* If next_free was 1 (only an empty extent), this
* loop won't execute, which is fine. We still want
* the decrement above to happen.
*/
for(i = 0; i < (next_free - 1); i++)
el->l_recs[i] = el->l_recs[i+1];
next_free--;
}
/*
* Figure out what the new record index should be.
*/
for(i = 0; i < next_free; i++) {
rec = &el->l_recs[i];
if (insert_cpos < le32_to_cpu(rec->e_cpos))
break;
}
insert_index = i;
trace_ocfs2_rotate_leaf(insert_cpos, insert_index,
has_empty, next_free,
le16_to_cpu(el->l_count));
BUG_ON(insert_index < 0);
BUG_ON(insert_index >= le16_to_cpu(el->l_count));
BUG_ON(insert_index > next_free);
/*
* No need to memmove if we're just adding to the tail.
*/
if (insert_index != next_free) {
BUG_ON(next_free >= le16_to_cpu(el->l_count));
num_bytes = next_free - insert_index;
num_bytes *= sizeof(struct ocfs2_extent_rec);
memmove(&el->l_recs[insert_index + 1],
&el->l_recs[insert_index],
num_bytes);
}
/*
* Either we had an empty extent, and need to re-increment or
* there was no empty extent on a non full rightmost leaf node,
* in which case we still need to increment.
*/
next_free++;
el->l_next_free_rec = cpu_to_le16(next_free);
/*
* Make sure none of the math above just messed up our tree.
*/
BUG_ON(le16_to_cpu(el->l_next_free_rec) > le16_to_cpu(el->l_count));
el->l_recs[insert_index] = *insert_rec;
}
static void ocfs2_remove_empty_extent(struct ocfs2_extent_list *el)
{
int size, num_recs = le16_to_cpu(el->l_next_free_rec);
BUG_ON(num_recs == 0);
if (ocfs2_is_empty_extent(&el->l_recs[0])) {
num_recs--;
size = num_recs * sizeof(struct ocfs2_extent_rec);
memmove(&el->l_recs[0], &el->l_recs[1], size);
memset(&el->l_recs[num_recs], 0,
sizeof(struct ocfs2_extent_rec));
el->l_next_free_rec = cpu_to_le16(num_recs);
}
}
/*
* Create an empty extent record .
*
* l_next_free_rec may be updated.
*
* If an empty extent already exists do nothing.
*/
static void ocfs2_create_empty_extent(struct ocfs2_extent_list *el)
{
int next_free = le16_to_cpu(el->l_next_free_rec);
BUG_ON(le16_to_cpu(el->l_tree_depth) != 0);
if (next_free == 0)
goto set_and_inc;
if (ocfs2_is_empty_extent(&el->l_recs[0]))
return;
mlog_bug_on_msg(el->l_count == el->l_next_free_rec,
"Asked to create an empty extent in a full list:\n"
"count = %u, tree depth = %u",
le16_to_cpu(el->l_count),
le16_to_cpu(el->l_tree_depth));
ocfs2_shift_records_right(el);
set_and_inc:
le16_add_cpu(&el->l_next_free_rec, 1);
memset(&el->l_recs[0], 0, sizeof(struct ocfs2_extent_rec));
}
/*
* For a rotation which involves two leaf nodes, the "root node" is
* the lowest level tree node which contains a path to both leafs. This
* resulting set of information can be used to form a complete "subtree"
*
* This function is passed two full paths from the dinode down to a
* pair of adjacent leaves. It's task is to figure out which path
* index contains the subtree root - this can be the root index itself
* in a worst-case rotation.
*
* The array index of the subtree root is passed back.
*/
int ocfs2_find_subtree_root(struct ocfs2_extent_tree *et,
struct ocfs2_path *left,
struct ocfs2_path *right)
{
int i = 0;
/*
* Check that the caller passed in two paths from the same tree.
*/
BUG_ON(path_root_bh(left) != path_root_bh(right));
do {
i++;
/*
* The caller didn't pass two adjacent paths.
*/
mlog_bug_on_msg(i > left->p_tree_depth,
"Owner %llu, left depth %u, right depth %u\n"
"left leaf blk %llu, right leaf blk %llu\n",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
left->p_tree_depth, right->p_tree_depth,
(unsigned long long)path_leaf_bh(left)->b_blocknr,
(unsigned long long)path_leaf_bh(right)->b_blocknr);
} while (left->p_node[i].bh->b_blocknr ==
right->p_node[i].bh->b_blocknr);
return i - 1;
}
typedef void (path_insert_t)(void *, struct buffer_head *);
/*
* Traverse a btree path in search of cpos, starting at root_el.
*
* This code can be called with a cpos larger than the tree, in which
* case it will return the rightmost path.
*/
static int __ocfs2_find_path(struct ocfs2_caching_info *ci,
struct ocfs2_extent_list *root_el, u32 cpos,
path_insert_t *func, void *data)
{
int i, ret = 0;
u32 range;
u64 blkno;
struct buffer_head *bh = NULL;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *el;
struct ocfs2_extent_rec *rec;
el = root_el;
while (el->l_tree_depth) {
if (le16_to_cpu(el->l_next_free_rec) == 0) {
ocfs2_error(ocfs2_metadata_cache_get_super(ci),
"Owner %llu has empty extent list at "
"depth %u\n",
(unsigned long long)ocfs2_metadata_cache_owner(ci),
le16_to_cpu(el->l_tree_depth));
ret = -EROFS;
goto out;
}
for(i = 0; i < le16_to_cpu(el->l_next_free_rec) - 1; i++) {
rec = &el->l_recs[i];
/*
* In the case that cpos is off the allocation
* tree, this should just wind up returning the
* rightmost record.
*/
range = le32_to_cpu(rec->e_cpos) +
ocfs2_rec_clusters(el, rec);
if (cpos >= le32_to_cpu(rec->e_cpos) && cpos < range)
break;
}
blkno = le64_to_cpu(el->l_recs[i].e_blkno);
if (blkno == 0) {
ocfs2_error(ocfs2_metadata_cache_get_super(ci),
"Owner %llu has bad blkno in extent list "
"at depth %u (index %d)\n",
(unsigned long long)ocfs2_metadata_cache_owner(ci),
le16_to_cpu(el->l_tree_depth), i);
ret = -EROFS;
goto out;
}
brelse(bh);
bh = NULL;
ret = ocfs2_read_extent_block(ci, blkno, &bh);
if (ret) {
mlog_errno(ret);
goto out;
}
eb = (struct ocfs2_extent_block *) bh->b_data;
el = &eb->h_list;
if (le16_to_cpu(el->l_next_free_rec) >
le16_to_cpu(el->l_count)) {
ocfs2_error(ocfs2_metadata_cache_get_super(ci),
"Owner %llu has bad count in extent list "
"at block %llu (next free=%u, count=%u)\n",
(unsigned long long)ocfs2_metadata_cache_owner(ci),
(unsigned long long)bh->b_blocknr,
le16_to_cpu(el->l_next_free_rec),
le16_to_cpu(el->l_count));
ret = -EROFS;
goto out;
}
if (func)
func(data, bh);
}
out:
/*
* Catch any trailing bh that the loop didn't handle.
*/
brelse(bh);
return ret;
}
/*
* Given an initialized path (that is, it has a valid root extent
* list), this function will traverse the btree in search of the path
* which would contain cpos.
*
* The path traveled is recorded in the path structure.
*
* Note that this will not do any comparisons on leaf node extent
* records, so it will work fine in the case that we just added a tree
* branch.
*/
struct find_path_data {
int index;
struct ocfs2_path *path;
};
static void find_path_ins(void *data, struct buffer_head *bh)
{
struct find_path_data *fp = data;
get_bh(bh);
ocfs2_path_insert_eb(fp->path, fp->index, bh);
fp->index++;
}
int ocfs2_find_path(struct ocfs2_caching_info *ci,
struct ocfs2_path *path, u32 cpos)
{
struct find_path_data data;
data.index = 1;
data.path = path;
return __ocfs2_find_path(ci, path_root_el(path), cpos,
find_path_ins, &data);
}
static void find_leaf_ins(void *data, struct buffer_head *bh)
{
struct ocfs2_extent_block *eb =(struct ocfs2_extent_block *)bh->b_data;
struct ocfs2_extent_list *el = &eb->h_list;
struct buffer_head **ret = data;
/* We want to retain only the leaf block. */
if (le16_to_cpu(el->l_tree_depth) == 0) {
get_bh(bh);
*ret = bh;
}
}
/*
* Find the leaf block in the tree which would contain cpos. No
* checking of the actual leaf is done.
*
* Some paths want to call this instead of allocating a path structure
* and calling ocfs2_find_path().
*
* This function doesn't handle non btree extent lists.
*/
int ocfs2_find_leaf(struct ocfs2_caching_info *ci,
struct ocfs2_extent_list *root_el, u32 cpos,
struct buffer_head **leaf_bh)
{
int ret;
struct buffer_head *bh = NULL;
ret = __ocfs2_find_path(ci, root_el, cpos, find_leaf_ins, &bh);
if (ret) {
mlog_errno(ret);
goto out;
}
*leaf_bh = bh;
out:
return ret;
}
/*
* Adjust the adjacent records (left_rec, right_rec) involved in a rotation.
*
* Basically, we've moved stuff around at the bottom of the tree and
* we need to fix up the extent records above the changes to reflect
* the new changes.
*
* left_rec: the record on the left.
* left_child_el: is the child list pointed to by left_rec
* right_rec: the record to the right of left_rec
* right_child_el: is the child list pointed to by right_rec
*
* By definition, this only works on interior nodes.
*/
static void ocfs2_adjust_adjacent_records(struct ocfs2_extent_rec *left_rec,
struct ocfs2_extent_list *left_child_el,
struct ocfs2_extent_rec *right_rec,
struct ocfs2_extent_list *right_child_el)
{
u32 left_clusters, right_end;
/*
* Interior nodes never have holes. Their cpos is the cpos of
* the leftmost record in their child list. Their cluster
* count covers the full theoretical range of their child list
* - the range between their cpos and the cpos of the record
* immediately to their right.
*/
left_clusters = le32_to_cpu(right_child_el->l_recs[0].e_cpos);
if (!ocfs2_rec_clusters(right_child_el, &right_child_el->l_recs[0])) {
BUG_ON(right_child_el->l_tree_depth);
BUG_ON(le16_to_cpu(right_child_el->l_next_free_rec) <= 1);
left_clusters = le32_to_cpu(right_child_el->l_recs[1].e_cpos);
}
left_clusters -= le32_to_cpu(left_rec->e_cpos);
left_rec->e_int_clusters = cpu_to_le32(left_clusters);
/*
* Calculate the rightmost cluster count boundary before
* moving cpos - we will need to adjust clusters after
* updating e_cpos to keep the same highest cluster count.
*/
right_end = le32_to_cpu(right_rec->e_cpos);
right_end += le32_to_cpu(right_rec->e_int_clusters);
right_rec->e_cpos = left_rec->e_cpos;
le32_add_cpu(&right_rec->e_cpos, left_clusters);
right_end -= le32_to_cpu(right_rec->e_cpos);
right_rec->e_int_clusters = cpu_to_le32(right_end);
}
/*
* Adjust the adjacent root node records involved in a
* rotation. left_el_blkno is passed in as a key so that we can easily
* find it's index in the root list.
*/
static void ocfs2_adjust_root_records(struct ocfs2_extent_list *root_el,
struct ocfs2_extent_list *left_el,
struct ocfs2_extent_list *right_el,
u64 left_el_blkno)
{
int i;
BUG_ON(le16_to_cpu(root_el->l_tree_depth) <=
le16_to_cpu(left_el->l_tree_depth));
for(i = 0; i < le16_to_cpu(root_el->l_next_free_rec) - 1; i++) {
if (le64_to_cpu(root_el->l_recs[i].e_blkno) == left_el_blkno)
break;
}
/*
* The path walking code should have never returned a root and
* two paths which are not adjacent.
*/
BUG_ON(i >= (le16_to_cpu(root_el->l_next_free_rec) - 1));
ocfs2_adjust_adjacent_records(&root_el->l_recs[i], left_el,
&root_el->l_recs[i + 1], right_el);
}
/*
* We've changed a leaf block (in right_path) and need to reflect that
* change back up the subtree.
*
* This happens in multiple places:
* - When we've moved an extent record from the left path leaf to the right
* path leaf to make room for an empty extent in the left path leaf.
* - When our insert into the right path leaf is at the leftmost edge
* and requires an update of the path immediately to it's left. This
* can occur at the end of some types of rotation and appending inserts.
* - When we've adjusted the last extent record in the left path leaf and the
* 1st extent record in the right path leaf during cross extent block merge.
*/
static void ocfs2_complete_edge_insert(handle_t *handle,
struct ocfs2_path *left_path,
struct ocfs2_path *right_path,
int subtree_index)
{
int i, idx;
struct ocfs2_extent_list *el, *left_el, *right_el;
struct ocfs2_extent_rec *left_rec, *right_rec;
struct buffer_head *root_bh = left_path->p_node[subtree_index].bh;
/*
* Update the counts and position values within all the
* interior nodes to reflect the leaf rotation we just did.
*
* The root node is handled below the loop.
*
* We begin the loop with right_el and left_el pointing to the
* leaf lists and work our way up.
*
* NOTE: within this loop, left_el and right_el always refer
* to the *child* lists.
*/
left_el = path_leaf_el(left_path);
right_el = path_leaf_el(right_path);
for(i = left_path->p_tree_depth - 1; i > subtree_index; i--) {
trace_ocfs2_complete_edge_insert(i);
/*
* One nice property of knowing that all of these
* nodes are below the root is that we only deal with
* the leftmost right node record and the rightmost
* left node record.
*/
el = left_path->p_node[i].el;
idx = le16_to_cpu(left_el->l_next_free_rec) - 1;
left_rec = &el->l_recs[idx];
el = right_path->p_node[i].el;
right_rec = &el->l_recs[0];
ocfs2_adjust_adjacent_records(left_rec, left_el, right_rec,
right_el);
ocfs2_journal_dirty(handle, left_path->p_node[i].bh);
ocfs2_journal_dirty(handle, right_path->p_node[i].bh);
/*
* Setup our list pointers now so that the current
* parents become children in the next iteration.
*/
left_el = left_path->p_node[i].el;
right_el = right_path->p_node[i].el;
}
/*
* At the root node, adjust the two adjacent records which
* begin our path to the leaves.
*/
el = left_path->p_node[subtree_index].el;
left_el = left_path->p_node[subtree_index + 1].el;
right_el = right_path->p_node[subtree_index + 1].el;
ocfs2_adjust_root_records(el, left_el, right_el,
left_path->p_node[subtree_index + 1].bh->b_blocknr);
root_bh = left_path->p_node[subtree_index].bh;
ocfs2_journal_dirty(handle, root_bh);
}
static int ocfs2_rotate_subtree_right(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *left_path,
struct ocfs2_path *right_path,
int subtree_index)
{
int ret, i;
struct buffer_head *right_leaf_bh;
struct buffer_head *left_leaf_bh = NULL;
struct buffer_head *root_bh;
struct ocfs2_extent_list *right_el, *left_el;
struct ocfs2_extent_rec move_rec;
left_leaf_bh = path_leaf_bh(left_path);
left_el = path_leaf_el(left_path);
if (left_el->l_next_free_rec != left_el->l_count) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Inode %llu has non-full interior leaf node %llu"
"(next free = %u)",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
(unsigned long long)left_leaf_bh->b_blocknr,
le16_to_cpu(left_el->l_next_free_rec));
return -EROFS;
}
/*
* This extent block may already have an empty record, so we
* return early if so.
*/
if (ocfs2_is_empty_extent(&left_el->l_recs[0]))
return 0;
root_bh = left_path->p_node[subtree_index].bh;
BUG_ON(root_bh != right_path->p_node[subtree_index].bh);
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, right_path,
subtree_index);
if (ret) {
mlog_errno(ret);
goto out;
}
for(i = subtree_index + 1; i < path_num_items(right_path); i++) {
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
right_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
left_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
}
right_leaf_bh = path_leaf_bh(right_path);
right_el = path_leaf_el(right_path);
/* This is a code error, not a disk corruption. */
mlog_bug_on_msg(!right_el->l_next_free_rec, "Inode %llu: Rotate fails "
"because rightmost leaf block %llu is empty\n",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
(unsigned long long)right_leaf_bh->b_blocknr);
ocfs2_create_empty_extent(right_el);
ocfs2_journal_dirty(handle, right_leaf_bh);
/* Do the copy now. */
i = le16_to_cpu(left_el->l_next_free_rec) - 1;
move_rec = left_el->l_recs[i];
right_el->l_recs[0] = move_rec;
/*
* Clear out the record we just copied and shift everything
* over, leaving an empty extent in the left leaf.
*
* We temporarily subtract from next_free_rec so that the
* shift will lose the tail record (which is now defunct).
*/
le16_add_cpu(&left_el->l_next_free_rec, -1);
ocfs2_shift_records_right(left_el);
memset(&left_el->l_recs[0], 0, sizeof(struct ocfs2_extent_rec));
le16_add_cpu(&left_el->l_next_free_rec, 1);
ocfs2_journal_dirty(handle, left_leaf_bh);
ocfs2_complete_edge_insert(handle, left_path, right_path,
subtree_index);
out:
return ret;
}
/*
* Given a full path, determine what cpos value would return us a path
* containing the leaf immediately to the left of the current one.
*
* Will return zero if the path passed in is already the leftmost path.
*/
int ocfs2_find_cpos_for_left_leaf(struct super_block *sb,
struct ocfs2_path *path, u32 *cpos)
{
int i, j, ret = 0;
u64 blkno;
struct ocfs2_extent_list *el;
BUG_ON(path->p_tree_depth == 0);
*cpos = 0;
blkno = path_leaf_bh(path)->b_blocknr;
/* Start at the tree node just above the leaf and work our way up. */
i = path->p_tree_depth - 1;
while (i >= 0) {
el = path->p_node[i].el;
/*
* Find the extent record just before the one in our
* path.
*/
for(j = 0; j < le16_to_cpu(el->l_next_free_rec); j++) {
if (le64_to_cpu(el->l_recs[j].e_blkno) == blkno) {
if (j == 0) {
if (i == 0) {
/*
* We've determined that the
* path specified is already
* the leftmost one - return a
* cpos of zero.
*/
goto out;
}
/*
* The leftmost record points to our
* leaf - we need to travel up the
* tree one level.
*/
goto next_node;
}
*cpos = le32_to_cpu(el->l_recs[j - 1].e_cpos);
*cpos = *cpos + ocfs2_rec_clusters(el,
&el->l_recs[j - 1]);
*cpos = *cpos - 1;
goto out;
}
}
/*
* If we got here, we never found a valid node where
* the tree indicated one should be.
*/
ocfs2_error(sb,
"Invalid extent tree at extent block %llu\n",
(unsigned long long)blkno);
ret = -EROFS;
goto out;
next_node:
blkno = path->p_node[i].bh->b_blocknr;
i--;
}
out:
return ret;
}
/*
* Extend the transaction by enough credits to complete the rotation,
* and still leave at least the original number of credits allocated
* to this transaction.
*/
static int ocfs2_extend_rotate_transaction(handle_t *handle, int subtree_depth,
int op_credits,
struct ocfs2_path *path)
{
int ret = 0;
int credits = (path->p_tree_depth - subtree_depth) * 2 + 1 + op_credits;
if (handle->h_buffer_credits < credits)
ret = ocfs2_extend_trans(handle,
credits - handle->h_buffer_credits);
return ret;
}
/*
* Trap the case where we're inserting into the theoretical range past
* the _actual_ left leaf range. Otherwise, we'll rotate a record
* whose cpos is less than ours into the right leaf.
*
* It's only necessary to look at the rightmost record of the left
* leaf because the logic that calls us should ensure that the
* theoretical ranges in the path components above the leaves are
* correct.
*/
static int ocfs2_rotate_requires_path_adjustment(struct ocfs2_path *left_path,
u32 insert_cpos)
{
struct ocfs2_extent_list *left_el;
struct ocfs2_extent_rec *rec;
int next_free;
left_el = path_leaf_el(left_path);
next_free = le16_to_cpu(left_el->l_next_free_rec);
rec = &left_el->l_recs[next_free - 1];
if (insert_cpos > le32_to_cpu(rec->e_cpos))
return 1;
return 0;
}
static int ocfs2_leftmost_rec_contains(struct ocfs2_extent_list *el, u32 cpos)
{
int next_free = le16_to_cpu(el->l_next_free_rec);
unsigned int range;
struct ocfs2_extent_rec *rec;
if (next_free == 0)
return 0;
rec = &el->l_recs[0];
if (ocfs2_is_empty_extent(rec)) {
/* Empty list. */
if (next_free == 1)
return 0;
rec = &el->l_recs[1];
}
range = le32_to_cpu(rec->e_cpos) + ocfs2_rec_clusters(el, rec);
if (cpos >= le32_to_cpu(rec->e_cpos) && cpos < range)
return 1;
return 0;
}
/*
* Rotate all the records in a btree right one record, starting at insert_cpos.
*
* The path to the rightmost leaf should be passed in.
*
* The array is assumed to be large enough to hold an entire path (tree depth).
*
* Upon successful return from this function:
*
* - The 'right_path' array will contain a path to the leaf block
* whose range contains e_cpos.
* - That leaf block will have a single empty extent in list index 0.
* - In the case that the rotation requires a post-insert update,
* *ret_left_path will contain a valid path which can be passed to
* ocfs2_insert_path().
*/
static int ocfs2_rotate_tree_right(handle_t *handle,
struct ocfs2_extent_tree *et,
enum ocfs2_split_type split,
u32 insert_cpos,
struct ocfs2_path *right_path,
struct ocfs2_path **ret_left_path)
{
int ret, start, orig_credits = handle->h_buffer_credits;
u32 cpos;
struct ocfs2_path *left_path = NULL;
struct super_block *sb = ocfs2_metadata_cache_get_super(et->et_ci);
*ret_left_path = NULL;
left_path = ocfs2_new_path_from_path(right_path);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_cpos_for_left_leaf(sb, right_path, &cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
trace_ocfs2_rotate_tree_right(
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
insert_cpos, cpos);
/*
* What we want to do here is:
*
* 1) Start with the rightmost path.
*
* 2) Determine a path to the leaf block directly to the left
* of that leaf.
*
* 3) Determine the 'subtree root' - the lowest level tree node
* which contains a path to both leaves.
*
* 4) Rotate the subtree.
*
* 5) Find the next subtree by considering the left path to be
* the new right path.
*
* The check at the top of this while loop also accepts
* insert_cpos == cpos because cpos is only a _theoretical_
* value to get us the left path - insert_cpos might very well
* be filling that hole.
*
* Stop at a cpos of '0' because we either started at the
* leftmost branch (i.e., a tree with one branch and a
* rotation inside of it), or we've gone as far as we can in
* rotating subtrees.
*/
while (cpos && insert_cpos <= cpos) {
trace_ocfs2_rotate_tree_right(
(unsigned long long)
ocfs2_metadata_cache_owner(et->et_ci),
insert_cpos, cpos);
ret = ocfs2_find_path(et->et_ci, left_path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
mlog_bug_on_msg(path_leaf_bh(left_path) ==
path_leaf_bh(right_path),
"Owner %llu: error during insert of %u "
"(left path cpos %u) results in two identical "
"paths ending at %llu\n",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
insert_cpos, cpos,
(unsigned long long)
path_leaf_bh(left_path)->b_blocknr);
if (split == SPLIT_NONE &&
ocfs2_rotate_requires_path_adjustment(left_path,
insert_cpos)) {
/*
* We've rotated the tree as much as we
* should. The rest is up to
* ocfs2_insert_path() to complete, after the
* record insertion. We indicate this
* situation by returning the left path.
*
* The reason we don't adjust the records here
* before the record insert is that an error
* later might break the rule where a parent
* record e_cpos will reflect the actual
* e_cpos of the 1st nonempty record of the
* child list.
*/
*ret_left_path = left_path;
goto out_ret_path;
}
start = ocfs2_find_subtree_root(et, left_path, right_path);
trace_ocfs2_rotate_subtree(start,
(unsigned long long)
right_path->p_node[start].bh->b_blocknr,
right_path->p_tree_depth);
ret = ocfs2_extend_rotate_transaction(handle, start,
orig_credits, right_path);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_rotate_subtree_right(handle, et, left_path,
right_path, start);
if (ret) {
mlog_errno(ret);
goto out;
}
if (split != SPLIT_NONE &&
ocfs2_leftmost_rec_contains(path_leaf_el(right_path),
insert_cpos)) {
/*
* A rotate moves the rightmost left leaf
* record over to the leftmost right leaf
* slot. If we're doing an extent split
* instead of a real insert, then we have to
* check that the extent to be split wasn't
* just moved over. If it was, then we can
* exit here, passing left_path back -
* ocfs2_split_extent() is smart enough to
* search both leaves.
*/
*ret_left_path = left_path;
goto out_ret_path;
}
/*
* There is no need to re-read the next right path
* as we know that it'll be our current left
* path. Optimize by copying values instead.
*/
ocfs2_mv_path(right_path, left_path);
ret = ocfs2_find_cpos_for_left_leaf(sb, right_path, &cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
}
out:
ocfs2_free_path(left_path);
out_ret_path:
return ret;
}
static int ocfs2_update_edge_lengths(handle_t *handle,
struct ocfs2_extent_tree *et,
int subtree_index, struct ocfs2_path *path)
{
int i, idx, ret;
struct ocfs2_extent_rec *rec;
struct ocfs2_extent_list *el;
struct ocfs2_extent_block *eb;
u32 range;
/*
* In normal tree rotation process, we will never touch the
* tree branch above subtree_index and ocfs2_extend_rotate_transaction
* doesn't reserve the credits for them either.
*
* But we do have a special case here which will update the rightmost
* records for all the bh in the path.
* So we have to allocate extra credits and access them.
*/
ret = ocfs2_extend_trans(handle, subtree_index);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_path(et->et_ci, handle, path);
if (ret) {
mlog_errno(ret);
goto out;
}
/* Path should always be rightmost. */
eb = (struct ocfs2_extent_block *)path_leaf_bh(path)->b_data;
BUG_ON(eb->h_next_leaf_blk != 0ULL);
el = &eb->h_list;
BUG_ON(le16_to_cpu(el->l_next_free_rec) == 0);
idx = le16_to_cpu(el->l_next_free_rec) - 1;
rec = &el->l_recs[idx];
range = le32_to_cpu(rec->e_cpos) + ocfs2_rec_clusters(el, rec);
for (i = 0; i < path->p_tree_depth; i++) {
el = path->p_node[i].el;
idx = le16_to_cpu(el->l_next_free_rec) - 1;
rec = &el->l_recs[idx];
rec->e_int_clusters = cpu_to_le32(range);
le32_add_cpu(&rec->e_int_clusters, -le32_to_cpu(rec->e_cpos));
ocfs2_journal_dirty(handle, path->p_node[i].bh);
}
out:
return ret;
}
static void ocfs2_unlink_path(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_cached_dealloc_ctxt *dealloc,
struct ocfs2_path *path, int unlink_start)
{
int ret, i;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *el;
struct buffer_head *bh;
for(i = unlink_start; i < path_num_items(path); i++) {
bh = path->p_node[i].bh;
eb = (struct ocfs2_extent_block *)bh->b_data;
/*
* Not all nodes might have had their final count
* decremented by the caller - handle this here.
*/
el = &eb->h_list;
if (le16_to_cpu(el->l_next_free_rec) > 1) {
mlog(ML_ERROR,
"Inode %llu, attempted to remove extent block "
"%llu with %u records\n",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
(unsigned long long)le64_to_cpu(eb->h_blkno),
le16_to_cpu(el->l_next_free_rec));
ocfs2_journal_dirty(handle, bh);
ocfs2_remove_from_cache(et->et_ci, bh);
continue;
}
el->l_next_free_rec = 0;
memset(&el->l_recs[0], 0, sizeof(struct ocfs2_extent_rec));
ocfs2_journal_dirty(handle, bh);
ret = ocfs2_cache_extent_block_free(dealloc, eb);
if (ret)
mlog_errno(ret);
ocfs2_remove_from_cache(et->et_ci, bh);
}
}
static void ocfs2_unlink_subtree(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *left_path,
struct ocfs2_path *right_path,
int subtree_index,
struct ocfs2_cached_dealloc_ctxt *dealloc)
{
int i;
struct buffer_head *root_bh = left_path->p_node[subtree_index].bh;
struct ocfs2_extent_list *root_el = left_path->p_node[subtree_index].el;
struct ocfs2_extent_list *el;
struct ocfs2_extent_block *eb;
el = path_leaf_el(left_path);
eb = (struct ocfs2_extent_block *)right_path->p_node[subtree_index + 1].bh->b_data;
for(i = 1; i < le16_to_cpu(root_el->l_next_free_rec); i++)
if (root_el->l_recs[i].e_blkno == eb->h_blkno)
break;
BUG_ON(i >= le16_to_cpu(root_el->l_next_free_rec));
memset(&root_el->l_recs[i], 0, sizeof(struct ocfs2_extent_rec));
le16_add_cpu(&root_el->l_next_free_rec, -1);
eb = (struct ocfs2_extent_block *)path_leaf_bh(left_path)->b_data;
eb->h_next_leaf_blk = 0;
ocfs2_journal_dirty(handle, root_bh);
ocfs2_journal_dirty(handle, path_leaf_bh(left_path));
ocfs2_unlink_path(handle, et, dealloc, right_path,
subtree_index + 1);
}
static int ocfs2_rotate_subtree_left(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *left_path,
struct ocfs2_path *right_path,
int subtree_index,
struct ocfs2_cached_dealloc_ctxt *dealloc,
int *deleted)
{
int ret, i, del_right_subtree = 0, right_has_empty = 0;
struct buffer_head *root_bh, *et_root_bh = path_root_bh(right_path);
struct ocfs2_extent_list *right_leaf_el, *left_leaf_el;
struct ocfs2_extent_block *eb;
*deleted = 0;
right_leaf_el = path_leaf_el(right_path);
left_leaf_el = path_leaf_el(left_path);
root_bh = left_path->p_node[subtree_index].bh;
BUG_ON(root_bh != right_path->p_node[subtree_index].bh);
if (!ocfs2_is_empty_extent(&left_leaf_el->l_recs[0]))
return 0;
eb = (struct ocfs2_extent_block *)path_leaf_bh(right_path)->b_data;
if (ocfs2_is_empty_extent(&right_leaf_el->l_recs[0])) {
/*
* It's legal for us to proceed if the right leaf is
* the rightmost one and it has an empty extent. There
* are two cases to handle - whether the leaf will be
* empty after removal or not. If the leaf isn't empty
* then just remove the empty extent up front. The
* next block will handle empty leaves by flagging
* them for unlink.
*
* Non rightmost leaves will throw -EAGAIN and the
* caller can manually move the subtree and retry.
*/
if (eb->h_next_leaf_blk != 0ULL)
return -EAGAIN;
if (le16_to_cpu(right_leaf_el->l_next_free_rec) > 1) {
ret = ocfs2_journal_access_eb(handle, et->et_ci,
path_leaf_bh(right_path),
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out;
}
ocfs2_remove_empty_extent(right_leaf_el);
} else
right_has_empty = 1;
}
if (eb->h_next_leaf_blk == 0ULL &&
le16_to_cpu(right_leaf_el->l_next_free_rec) == 1) {
/*
* We have to update i_last_eb_blk during the meta
* data delete.
*/
ret = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out;
}
del_right_subtree = 1;
}
/*
* Getting here with an empty extent in the right path implies
* that it's the rightmost path and will be deleted.
*/
BUG_ON(right_has_empty && !del_right_subtree);
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, right_path,
subtree_index);
if (ret) {
mlog_errno(ret);
goto out;
}
for(i = subtree_index + 1; i < path_num_items(right_path); i++) {
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
right_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
left_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
}
if (!right_has_empty) {
/*
* Only do this if we're moving a real
* record. Otherwise, the action is delayed until
* after removal of the right path in which case we
* can do a simple shift to remove the empty extent.
*/
ocfs2_rotate_leaf(left_leaf_el, &right_leaf_el->l_recs[0]);
memset(&right_leaf_el->l_recs[0], 0,
sizeof(struct ocfs2_extent_rec));
}
if (eb->h_next_leaf_blk == 0ULL) {
/*
* Move recs over to get rid of empty extent, decrease
* next_free. This is allowed to remove the last
* extent in our leaf (setting l_next_free_rec to
* zero) - the delete code below won't care.
*/
ocfs2_remove_empty_extent(right_leaf_el);
}
ocfs2_journal_dirty(handle, path_leaf_bh(left_path));
ocfs2_journal_dirty(handle, path_leaf_bh(right_path));
if (del_right_subtree) {
ocfs2_unlink_subtree(handle, et, left_path, right_path,
subtree_index, dealloc);
ret = ocfs2_update_edge_lengths(handle, et, subtree_index,
left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
eb = (struct ocfs2_extent_block *)path_leaf_bh(left_path)->b_data;
ocfs2_et_set_last_eb_blk(et, le64_to_cpu(eb->h_blkno));
/*
* Removal of the extent in the left leaf was skipped
* above so we could delete the right path
* 1st.
*/
if (right_has_empty)
ocfs2_remove_empty_extent(left_leaf_el);
ocfs2_journal_dirty(handle, et_root_bh);
*deleted = 1;
} else
ocfs2_complete_edge_insert(handle, left_path, right_path,
subtree_index);
out:
return ret;
}
/*
* Given a full path, determine what cpos value would return us a path
* containing the leaf immediately to the right of the current one.
*
* Will return zero if the path passed in is already the rightmost path.
*
* This looks similar, but is subtly different to
* ocfs2_find_cpos_for_left_leaf().
*/
int ocfs2_find_cpos_for_right_leaf(struct super_block *sb,
struct ocfs2_path *path, u32 *cpos)
{
int i, j, ret = 0;
u64 blkno;
struct ocfs2_extent_list *el;
*cpos = 0;
if (path->p_tree_depth == 0)
return 0;
blkno = path_leaf_bh(path)->b_blocknr;
/* Start at the tree node just above the leaf and work our way up. */
i = path->p_tree_depth - 1;
while (i >= 0) {
int next_free;
el = path->p_node[i].el;
/*
* Find the extent record just after the one in our
* path.
*/
next_free = le16_to_cpu(el->l_next_free_rec);
for(j = 0; j < le16_to_cpu(el->l_next_free_rec); j++) {
if (le64_to_cpu(el->l_recs[j].e_blkno) == blkno) {
if (j == (next_free - 1)) {
if (i == 0) {
/*
* We've determined that the
* path specified is already
* the rightmost one - return a
* cpos of zero.
*/
goto out;
}
/*
* The rightmost record points to our
* leaf - we need to travel up the
* tree one level.
*/
goto next_node;
}
*cpos = le32_to_cpu(el->l_recs[j + 1].e_cpos);
goto out;
}
}
/*
* If we got here, we never found a valid node where
* the tree indicated one should be.
*/
ocfs2_error(sb,
"Invalid extent tree at extent block %llu\n",
(unsigned long long)blkno);
ret = -EROFS;
goto out;
next_node:
blkno = path->p_node[i].bh->b_blocknr;
i--;
}
out:
return ret;
}
static int ocfs2_rotate_rightmost_leaf_left(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path)
{
int ret;
struct buffer_head *bh = path_leaf_bh(path);
struct ocfs2_extent_list *el = path_leaf_el(path);
if (!ocfs2_is_empty_extent(&el->l_recs[0]))
return 0;
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, path,
path_num_items(path) - 1);
if (ret) {
mlog_errno(ret);
goto out;
}
ocfs2_remove_empty_extent(el);
ocfs2_journal_dirty(handle, bh);
out:
return ret;
}
static int __ocfs2_rotate_tree_left(handle_t *handle,
struct ocfs2_extent_tree *et,
int orig_credits,
struct ocfs2_path *path,
struct ocfs2_cached_dealloc_ctxt *dealloc,
struct ocfs2_path **empty_extent_path)
{
int ret, subtree_root, deleted;
u32 right_cpos;
struct ocfs2_path *left_path = NULL;
struct ocfs2_path *right_path = NULL;
struct super_block *sb = ocfs2_metadata_cache_get_super(et->et_ci);
BUG_ON(!ocfs2_is_empty_extent(&(path_leaf_el(path)->l_recs[0])));
*empty_extent_path = NULL;
ret = ocfs2_find_cpos_for_right_leaf(sb, path, &right_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
left_path = ocfs2_new_path_from_path(path);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ocfs2_cp_path(left_path, path);
right_path = ocfs2_new_path_from_path(path);
if (!right_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
while (right_cpos) {
ret = ocfs2_find_path(et->et_ci, right_path, right_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
subtree_root = ocfs2_find_subtree_root(et, left_path,
right_path);
trace_ocfs2_rotate_subtree(subtree_root,
(unsigned long long)
right_path->p_node[subtree_root].bh->b_blocknr,
right_path->p_tree_depth);
ret = ocfs2_extend_rotate_transaction(handle, subtree_root,
orig_credits, left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* Caller might still want to make changes to the
* tree root, so re-add it to the journal here.
*/
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
left_path, 0);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_rotate_subtree_left(handle, et, left_path,
right_path, subtree_root,
dealloc, &deleted);
if (ret == -EAGAIN) {
/*
* The rotation has to temporarily stop due to
* the right subtree having an empty
* extent. Pass it back to the caller for a
* fixup.
*/
*empty_extent_path = right_path;
right_path = NULL;
goto out;
}
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* The subtree rotate might have removed records on
* the rightmost edge. If so, then rotation is
* complete.
*/
if (deleted)
break;
ocfs2_mv_path(left_path, right_path);
ret = ocfs2_find_cpos_for_right_leaf(sb, left_path,
&right_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
}
out:
ocfs2_free_path(right_path);
ocfs2_free_path(left_path);
return ret;
}
static int ocfs2_remove_rightmost_path(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct ocfs2_cached_dealloc_ctxt *dealloc)
{
int ret, subtree_index;
u32 cpos;
struct ocfs2_path *left_path = NULL;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *el;
ret = ocfs2_et_sanity_check(et);
if (ret)
goto out;
/*
* There's two ways we handle this depending on
* whether path is the only existing one.
*/
ret = ocfs2_extend_rotate_transaction(handle, 0,
handle->h_buffer_credits,
path);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_path(et->et_ci, handle, path);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_cpos_for_left_leaf(ocfs2_metadata_cache_get_super(et->et_ci),
path, &cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
if (cpos) {
/*
* We have a path to the left of this one - it needs
* an update too.
*/
left_path = ocfs2_new_path_from_path(path);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, left_path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_path(et->et_ci, handle, left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
subtree_index = ocfs2_find_subtree_root(et, left_path, path);
ocfs2_unlink_subtree(handle, et, left_path, path,
subtree_index, dealloc);
ret = ocfs2_update_edge_lengths(handle, et, subtree_index,
left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
eb = (struct ocfs2_extent_block *)path_leaf_bh(left_path)->b_data;
ocfs2_et_set_last_eb_blk(et, le64_to_cpu(eb->h_blkno));
} else {
/*
* 'path' is also the leftmost path which
* means it must be the only one. This gets
* handled differently because we want to
* revert the root back to having extents
* in-line.
*/
ocfs2_unlink_path(handle, et, dealloc, path, 1);
el = et->et_root_el;
el->l_tree_depth = 0;
el->l_next_free_rec = 0;
memset(&el->l_recs[0], 0, sizeof(struct ocfs2_extent_rec));
ocfs2_et_set_last_eb_blk(et, 0);
}
ocfs2_journal_dirty(handle, path_root_bh(path));
out:
ocfs2_free_path(left_path);
return ret;
}
/*
* Left rotation of btree records.
*
* In many ways, this is (unsurprisingly) the opposite of right
* rotation. We start at some non-rightmost path containing an empty
* extent in the leaf block. The code works its way to the rightmost
* path by rotating records to the left in every subtree.
*
* This is used by any code which reduces the number of extent records
* in a leaf. After removal, an empty record should be placed in the
* leftmost list position.
*
* This won't handle a length update of the rightmost path records if
* the rightmost tree leaf record is removed so the caller is
* responsible for detecting and correcting that.
*/
static int ocfs2_rotate_tree_left(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct ocfs2_cached_dealloc_ctxt *dealloc)
{
int ret, orig_credits = handle->h_buffer_credits;
struct ocfs2_path *tmp_path = NULL, *restart_path = NULL;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *el;
el = path_leaf_el(path);
if (!ocfs2_is_empty_extent(&el->l_recs[0]))
return 0;
if (path->p_tree_depth == 0) {
rightmost_no_delete:
/*
* Inline extents. This is trivially handled, so do
* it up front.
*/
ret = ocfs2_rotate_rightmost_leaf_left(handle, et, path);
if (ret)
mlog_errno(ret);
goto out;
}
/*
* Handle rightmost branch now. There's several cases:
* 1) simple rotation leaving records in there. That's trivial.
* 2) rotation requiring a branch delete - there's no more
* records left. Two cases of this:
* a) There are branches to the left.
* b) This is also the leftmost (the only) branch.
*
* 1) is handled via ocfs2_rotate_rightmost_leaf_left()
* 2a) we need the left branch so that we can update it with the unlink
* 2b) we need to bring the root back to inline extents.
*/
eb = (struct ocfs2_extent_block *)path_leaf_bh(path)->b_data;
el = &eb->h_list;
if (eb->h_next_leaf_blk == 0) {
/*
* This gets a bit tricky if we're going to delete the
* rightmost path. Get the other cases out of the way
* 1st.
*/
if (le16_to_cpu(el->l_next_free_rec) > 1)
goto rightmost_no_delete;
if (le16_to_cpu(el->l_next_free_rec) == 0) {
ret = -EIO;
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu has empty extent block at %llu",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
(unsigned long long)le64_to_cpu(eb->h_blkno));
goto out;
}
/*
* XXX: The caller can not trust "path" any more after
* this as it will have been deleted. What do we do?
*
* In theory the rotate-for-merge code will never get
* here because it'll always ask for a rotate in a
* nonempty list.
*/
ret = ocfs2_remove_rightmost_path(handle, et, path,
dealloc);
if (ret)
mlog_errno(ret);
goto out;
}
/*
* Now we can loop, remembering the path we get from -EAGAIN
* and restarting from there.
*/
try_rotate:
ret = __ocfs2_rotate_tree_left(handle, et, orig_credits, path,
dealloc, &restart_path);
if (ret && ret != -EAGAIN) {
mlog_errno(ret);
goto out;
}
while (ret == -EAGAIN) {
tmp_path = restart_path;
restart_path = NULL;
ret = __ocfs2_rotate_tree_left(handle, et, orig_credits,
tmp_path, dealloc,
&restart_path);
if (ret && ret != -EAGAIN) {
mlog_errno(ret);
goto out;
}
ocfs2_free_path(tmp_path);
tmp_path = NULL;
if (ret == 0)
goto try_rotate;
}
out:
ocfs2_free_path(tmp_path);
ocfs2_free_path(restart_path);
return ret;
}
static void ocfs2_cleanup_merge(struct ocfs2_extent_list *el,
int index)
{
struct ocfs2_extent_rec *rec = &el->l_recs[index];
unsigned int size;
if (rec->e_leaf_clusters == 0) {
/*
* We consumed all of the merged-from record. An empty
* extent cannot exist anywhere but the 1st array
* position, so move things over if the merged-from
* record doesn't occupy that position.
*
* This creates a new empty extent so the caller
* should be smart enough to have removed any existing
* ones.
*/
if (index > 0) {
BUG_ON(ocfs2_is_empty_extent(&el->l_recs[0]));
size = index * sizeof(struct ocfs2_extent_rec);
memmove(&el->l_recs[1], &el->l_recs[0], size);
}
/*
* Always memset - the caller doesn't check whether it
* created an empty extent, so there could be junk in
* the other fields.
*/
memset(&el->l_recs[0], 0, sizeof(struct ocfs2_extent_rec));
}
}
static int ocfs2_get_right_path(struct ocfs2_extent_tree *et,
struct ocfs2_path *left_path,
struct ocfs2_path **ret_right_path)
{
int ret;
u32 right_cpos;
struct ocfs2_path *right_path = NULL;
struct ocfs2_extent_list *left_el;
*ret_right_path = NULL;
/* This function shouldn't be called for non-trees. */
BUG_ON(left_path->p_tree_depth == 0);
left_el = path_leaf_el(left_path);
BUG_ON(left_el->l_next_free_rec != left_el->l_count);
ret = ocfs2_find_cpos_for_right_leaf(ocfs2_metadata_cache_get_super(et->et_ci),
left_path, &right_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
/* This function shouldn't be called for the rightmost leaf. */
BUG_ON(right_cpos == 0);
right_path = ocfs2_new_path_from_path(left_path);
if (!right_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, right_path, right_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
*ret_right_path = right_path;
out:
if (ret)
ocfs2_free_path(right_path);
return ret;
}
/*
* Remove split_rec clusters from the record at index and merge them
* onto the beginning of the record "next" to it.
* For index < l_count - 1, the next means the extent rec at index + 1.
* For index == l_count - 1, the "next" means the 1st extent rec of the
* next extent block.
*/
static int ocfs2_merge_rec_right(struct ocfs2_path *left_path,
handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *split_rec,
int index)
{
int ret, next_free, i;
unsigned int split_clusters = le16_to_cpu(split_rec->e_leaf_clusters);
struct ocfs2_extent_rec *left_rec;
struct ocfs2_extent_rec *right_rec;
struct ocfs2_extent_list *right_el;
struct ocfs2_path *right_path = NULL;
int subtree_index = 0;
struct ocfs2_extent_list *el = path_leaf_el(left_path);
struct buffer_head *bh = path_leaf_bh(left_path);
struct buffer_head *root_bh = NULL;
BUG_ON(index >= le16_to_cpu(el->l_next_free_rec));
left_rec = &el->l_recs[index];
if (index == le16_to_cpu(el->l_next_free_rec) - 1 &&
le16_to_cpu(el->l_next_free_rec) == le16_to_cpu(el->l_count)) {
/* we meet with a cross extent block merge. */
ret = ocfs2_get_right_path(et, left_path, &right_path);
if (ret) {
mlog_errno(ret);
goto out;
}
right_el = path_leaf_el(right_path);
next_free = le16_to_cpu(right_el->l_next_free_rec);
BUG_ON(next_free <= 0);
right_rec = &right_el->l_recs[0];
if (ocfs2_is_empty_extent(right_rec)) {
BUG_ON(next_free <= 1);
right_rec = &right_el->l_recs[1];
}
BUG_ON(le32_to_cpu(left_rec->e_cpos) +
le16_to_cpu(left_rec->e_leaf_clusters) !=
le32_to_cpu(right_rec->e_cpos));
subtree_index = ocfs2_find_subtree_root(et, left_path,
right_path);
ret = ocfs2_extend_rotate_transaction(handle, subtree_index,
handle->h_buffer_credits,
right_path);
if (ret) {
mlog_errno(ret);
goto out;
}
root_bh = left_path->p_node[subtree_index].bh;
BUG_ON(root_bh != right_path->p_node[subtree_index].bh);
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, right_path,
subtree_index);
if (ret) {
mlog_errno(ret);
goto out;
}
for (i = subtree_index + 1;
i < path_num_items(right_path); i++) {
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
right_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
left_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
}
} else {
BUG_ON(index == le16_to_cpu(el->l_next_free_rec) - 1);
right_rec = &el->l_recs[index + 1];
}
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, left_path,
path_num_items(left_path) - 1);
if (ret) {
mlog_errno(ret);
goto out;
}
le16_add_cpu(&left_rec->e_leaf_clusters, -split_clusters);
le32_add_cpu(&right_rec->e_cpos, -split_clusters);
le64_add_cpu(&right_rec->e_blkno,
-ocfs2_clusters_to_blocks(ocfs2_metadata_cache_get_super(et->et_ci),
split_clusters));
le16_add_cpu(&right_rec->e_leaf_clusters, split_clusters);
ocfs2_cleanup_merge(el, index);
ocfs2_journal_dirty(handle, bh);
if (right_path) {
ocfs2_journal_dirty(handle, path_leaf_bh(right_path));
ocfs2_complete_edge_insert(handle, left_path, right_path,
subtree_index);
}
out:
if (right_path)
ocfs2_free_path(right_path);
return ret;
}
static int ocfs2_get_left_path(struct ocfs2_extent_tree *et,
struct ocfs2_path *right_path,
struct ocfs2_path **ret_left_path)
{
int ret;
u32 left_cpos;
struct ocfs2_path *left_path = NULL;
*ret_left_path = NULL;
/* This function shouldn't be called for non-trees. */
BUG_ON(right_path->p_tree_depth == 0);
ret = ocfs2_find_cpos_for_left_leaf(ocfs2_metadata_cache_get_super(et->et_ci),
right_path, &left_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
/* This function shouldn't be called for the leftmost leaf. */
BUG_ON(left_cpos == 0);
left_path = ocfs2_new_path_from_path(right_path);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, left_path, left_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
*ret_left_path = left_path;
out:
if (ret)
ocfs2_free_path(left_path);
return ret;
}
/*
* Remove split_rec clusters from the record at index and merge them
* onto the tail of the record "before" it.
* For index > 0, the "before" means the extent rec at index - 1.
*
* For index == 0, the "before" means the last record of the previous
* extent block. And there is also a situation that we may need to
* remove the rightmost leaf extent block in the right_path and change
* the right path to indicate the new rightmost path.
*/
static int ocfs2_merge_rec_left(struct ocfs2_path *right_path,
handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *split_rec,
struct ocfs2_cached_dealloc_ctxt *dealloc,
int index)
{
int ret, i, subtree_index = 0, has_empty_extent = 0;
unsigned int split_clusters = le16_to_cpu(split_rec->e_leaf_clusters);
struct ocfs2_extent_rec *left_rec;
struct ocfs2_extent_rec *right_rec;
struct ocfs2_extent_list *el = path_leaf_el(right_path);
struct buffer_head *bh = path_leaf_bh(right_path);
struct buffer_head *root_bh = NULL;
struct ocfs2_path *left_path = NULL;
struct ocfs2_extent_list *left_el;
BUG_ON(index < 0);
right_rec = &el->l_recs[index];
if (index == 0) {
/* we meet with a cross extent block merge. */
ret = ocfs2_get_left_path(et, right_path, &left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
left_el = path_leaf_el(left_path);
BUG_ON(le16_to_cpu(left_el->l_next_free_rec) !=
le16_to_cpu(left_el->l_count));
left_rec = &left_el->l_recs[
le16_to_cpu(left_el->l_next_free_rec) - 1];
BUG_ON(le32_to_cpu(left_rec->e_cpos) +
le16_to_cpu(left_rec->e_leaf_clusters) !=
le32_to_cpu(split_rec->e_cpos));
subtree_index = ocfs2_find_subtree_root(et, left_path,
right_path);
ret = ocfs2_extend_rotate_transaction(handle, subtree_index,
handle->h_buffer_credits,
left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
root_bh = left_path->p_node[subtree_index].bh;
BUG_ON(root_bh != right_path->p_node[subtree_index].bh);
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, right_path,
subtree_index);
if (ret) {
mlog_errno(ret);
goto out;
}
for (i = subtree_index + 1;
i < path_num_items(right_path); i++) {
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
right_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_path_bh_journal_access(handle, et->et_ci,
left_path, i);
if (ret) {
mlog_errno(ret);
goto out;
}
}
} else {
left_rec = &el->l_recs[index - 1];
if (ocfs2_is_empty_extent(&el->l_recs[0]))
has_empty_extent = 1;
}
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, right_path,
path_num_items(right_path) - 1);
if (ret) {
mlog_errno(ret);
goto out;
}
if (has_empty_extent && index == 1) {
/*
* The easy case - we can just plop the record right in.
*/
*left_rec = *split_rec;
has_empty_extent = 0;
} else
le16_add_cpu(&left_rec->e_leaf_clusters, split_clusters);
le32_add_cpu(&right_rec->e_cpos, split_clusters);
le64_add_cpu(&right_rec->e_blkno,
ocfs2_clusters_to_blocks(ocfs2_metadata_cache_get_super(et->et_ci),
split_clusters));
le16_add_cpu(&right_rec->e_leaf_clusters, -split_clusters);
ocfs2_cleanup_merge(el, index);
ocfs2_journal_dirty(handle, bh);
if (left_path) {
ocfs2_journal_dirty(handle, path_leaf_bh(left_path));
/*
* In the situation that the right_rec is empty and the extent
* block is empty also, ocfs2_complete_edge_insert can't handle
* it and we need to delete the right extent block.
*/
if (le16_to_cpu(right_rec->e_leaf_clusters) == 0 &&
le16_to_cpu(el->l_next_free_rec) == 1) {
ret = ocfs2_remove_rightmost_path(handle, et,
right_path,
dealloc);
if (ret) {
mlog_errno(ret);
goto out;
}
/* Now the rightmost extent block has been deleted.
* So we use the new rightmost path.
*/
ocfs2_mv_path(right_path, left_path);
left_path = NULL;
} else
ocfs2_complete_edge_insert(handle, left_path,
right_path, subtree_index);
}
out:
if (left_path)
ocfs2_free_path(left_path);
return ret;
}
static int ocfs2_try_to_merge_extent(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
int split_index,
struct ocfs2_extent_rec *split_rec,
struct ocfs2_cached_dealloc_ctxt *dealloc,
struct ocfs2_merge_ctxt *ctxt)
{
int ret = 0;
struct ocfs2_extent_list *el = path_leaf_el(path);
struct ocfs2_extent_rec *rec = &el->l_recs[split_index];
BUG_ON(ctxt->c_contig_type == CONTIG_NONE);
if (ctxt->c_split_covers_rec && ctxt->c_has_empty_extent) {
/*
* The merge code will need to create an empty
* extent to take the place of the newly
* emptied slot. Remove any pre-existing empty
* extents - having more than one in a leaf is
* illegal.
*/
ret = ocfs2_rotate_tree_left(handle, et, path, dealloc);
if (ret) {
mlog_errno(ret);
goto out;
}
split_index--;
rec = &el->l_recs[split_index];
}
if (ctxt->c_contig_type == CONTIG_LEFTRIGHT) {
/*
* Left-right contig implies this.
*/
BUG_ON(!ctxt->c_split_covers_rec);
/*
* Since the leftright insert always covers the entire
* extent, this call will delete the insert record
* entirely, resulting in an empty extent record added to
* the extent block.
*
* Since the adding of an empty extent shifts
* everything back to the right, there's no need to
* update split_index here.
*
* When the split_index is zero, we need to merge it to the
* prevoius extent block. It is more efficient and easier
* if we do merge_right first and merge_left later.
*/
ret = ocfs2_merge_rec_right(path, handle, et, split_rec,
split_index);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* We can only get this from logic error above.
*/
BUG_ON(!ocfs2_is_empty_extent(&el->l_recs[0]));
/* The merge left us with an empty extent, remove it. */
ret = ocfs2_rotate_tree_left(handle, et, path, dealloc);
if (ret) {
mlog_errno(ret);
goto out;
}
rec = &el->l_recs[split_index];
/*
* Note that we don't pass split_rec here on purpose -
* we've merged it into the rec already.
*/
ret = ocfs2_merge_rec_left(path, handle, et, rec,
dealloc, split_index);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_rotate_tree_left(handle, et, path, dealloc);
/*
* Error from this last rotate is not critical, so
* print but don't bubble it up.
*/
if (ret)
mlog_errno(ret);
ret = 0;
} else {
/*
* Merge a record to the left or right.
*
* 'contig_type' is relative to the existing record,
* so for example, if we're "right contig", it's to
* the record on the left (hence the left merge).
*/
if (ctxt->c_contig_type == CONTIG_RIGHT) {
ret = ocfs2_merge_rec_left(path, handle, et,
split_rec, dealloc,
split_index);
if (ret) {
mlog_errno(ret);
goto out;
}
} else {
ret = ocfs2_merge_rec_right(path, handle,
et, split_rec,
split_index);
if (ret) {
mlog_errno(ret);
goto out;
}
}
if (ctxt->c_split_covers_rec) {
/*
* The merge may have left an empty extent in
* our leaf. Try to rotate it away.
*/
ret = ocfs2_rotate_tree_left(handle, et, path,
dealloc);
if (ret)
mlog_errno(ret);
ret = 0;
}
}
out:
return ret;
}
static void ocfs2_subtract_from_rec(struct super_block *sb,
enum ocfs2_split_type split,
struct ocfs2_extent_rec *rec,
struct ocfs2_extent_rec *split_rec)
{
u64 len_blocks;
len_blocks = ocfs2_clusters_to_blocks(sb,
le16_to_cpu(split_rec->e_leaf_clusters));
if (split == SPLIT_LEFT) {
/*
* Region is on the left edge of the existing
* record.
*/
le32_add_cpu(&rec->e_cpos,
le16_to_cpu(split_rec->e_leaf_clusters));
le64_add_cpu(&rec->e_blkno, len_blocks);
le16_add_cpu(&rec->e_leaf_clusters,
-le16_to_cpu(split_rec->e_leaf_clusters));
} else {
/*
* Region is on the right edge of the existing
* record.
*/
le16_add_cpu(&rec->e_leaf_clusters,
-le16_to_cpu(split_rec->e_leaf_clusters));
}
}
/*
* Do the final bits of extent record insertion at the target leaf
* list. If this leaf is part of an allocation tree, it is assumed
* that the tree above has been prepared.
*/
static void ocfs2_insert_at_leaf(struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *insert_rec,
struct ocfs2_extent_list *el,
struct ocfs2_insert_type *insert)
{
int i = insert->ins_contig_index;
unsigned int range;
struct ocfs2_extent_rec *rec;
BUG_ON(le16_to_cpu(el->l_tree_depth) != 0);
if (insert->ins_split != SPLIT_NONE) {
i = ocfs2_search_extent_list(el, le32_to_cpu(insert_rec->e_cpos));
BUG_ON(i == -1);
rec = &el->l_recs[i];
ocfs2_subtract_from_rec(ocfs2_metadata_cache_get_super(et->et_ci),
insert->ins_split, rec,
insert_rec);
goto rotate;
}
/*
* Contiguous insert - either left or right.
*/
if (insert->ins_contig != CONTIG_NONE) {
rec = &el->l_recs[i];
if (insert->ins_contig == CONTIG_LEFT) {
rec->e_blkno = insert_rec->e_blkno;
rec->e_cpos = insert_rec->e_cpos;
}
le16_add_cpu(&rec->e_leaf_clusters,
le16_to_cpu(insert_rec->e_leaf_clusters));
return;
}
/*
* Handle insert into an empty leaf.
*/
if (le16_to_cpu(el->l_next_free_rec) == 0 ||
((le16_to_cpu(el->l_next_free_rec) == 1) &&
ocfs2_is_empty_extent(&el->l_recs[0]))) {
el->l_recs[0] = *insert_rec;
el->l_next_free_rec = cpu_to_le16(1);
return;
}
/*
* Appending insert.
*/
if (insert->ins_appending == APPEND_TAIL) {
i = le16_to_cpu(el->l_next_free_rec) - 1;
rec = &el->l_recs[i];
range = le32_to_cpu(rec->e_cpos)
+ le16_to_cpu(rec->e_leaf_clusters);
BUG_ON(le32_to_cpu(insert_rec->e_cpos) < range);
mlog_bug_on_msg(le16_to_cpu(el->l_next_free_rec) >=
le16_to_cpu(el->l_count),
"owner %llu, depth %u, count %u, next free %u, "
"rec.cpos %u, rec.clusters %u, "
"insert.cpos %u, insert.clusters %u\n",
ocfs2_metadata_cache_owner(et->et_ci),
le16_to_cpu(el->l_tree_depth),
le16_to_cpu(el->l_count),
le16_to_cpu(el->l_next_free_rec),
le32_to_cpu(el->l_recs[i].e_cpos),
le16_to_cpu(el->l_recs[i].e_leaf_clusters),
le32_to_cpu(insert_rec->e_cpos),
le16_to_cpu(insert_rec->e_leaf_clusters));
i++;
el->l_recs[i] = *insert_rec;
le16_add_cpu(&el->l_next_free_rec, 1);
return;
}
rotate:
/*
* Ok, we have to rotate.
*
* At this point, it is safe to assume that inserting into an
* empty leaf and appending to a leaf have both been handled
* above.
*
* This leaf needs to have space, either by the empty 1st
* extent record, or by virtue of an l_next_rec < l_count.
*/
ocfs2_rotate_leaf(el, insert_rec);
}
static void ocfs2_adjust_rightmost_records(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct ocfs2_extent_rec *insert_rec)
{
int ret, i, next_free;
struct buffer_head *bh;
struct ocfs2_extent_list *el;
struct ocfs2_extent_rec *rec;
/*
* Update everything except the leaf block.
*/
for (i = 0; i < path->p_tree_depth; i++) {
bh = path->p_node[i].bh;
el = path->p_node[i].el;
next_free = le16_to_cpu(el->l_next_free_rec);
if (next_free == 0) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu has a bad extent list",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci));
ret = -EIO;
return;
}
rec = &el->l_recs[next_free - 1];
rec->e_int_clusters = insert_rec->e_cpos;
le32_add_cpu(&rec->e_int_clusters,
le16_to_cpu(insert_rec->e_leaf_clusters));
le32_add_cpu(&rec->e_int_clusters,
-le32_to_cpu(rec->e_cpos));
ocfs2_journal_dirty(handle, bh);
}
}
static int ocfs2_append_rec_to_path(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *insert_rec,
struct ocfs2_path *right_path,
struct ocfs2_path **ret_left_path)
{
int ret, next_free;
struct ocfs2_extent_list *el;
struct ocfs2_path *left_path = NULL;
*ret_left_path = NULL;
/*
* This shouldn't happen for non-trees. The extent rec cluster
* count manipulation below only works for interior nodes.
*/
BUG_ON(right_path->p_tree_depth == 0);
/*
* If our appending insert is at the leftmost edge of a leaf,
* then we might need to update the rightmost records of the
* neighboring path.
*/
el = path_leaf_el(right_path);
next_free = le16_to_cpu(el->l_next_free_rec);
if (next_free == 0 ||
(next_free == 1 && ocfs2_is_empty_extent(&el->l_recs[0]))) {
u32 left_cpos;
ret = ocfs2_find_cpos_for_left_leaf(ocfs2_metadata_cache_get_super(et->et_ci),
right_path, &left_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
trace_ocfs2_append_rec_to_path(
(unsigned long long)
ocfs2_metadata_cache_owner(et->et_ci),
le32_to_cpu(insert_rec->e_cpos),
left_cpos);
/*
* No need to worry if the append is already in the
* leftmost leaf.
*/
if (left_cpos) {
left_path = ocfs2_new_path_from_path(right_path);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, left_path,
left_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* ocfs2_insert_path() will pass the left_path to the
* journal for us.
*/
}
}
ret = ocfs2_journal_access_path(et->et_ci, handle, right_path);
if (ret) {
mlog_errno(ret);
goto out;
}
ocfs2_adjust_rightmost_records(handle, et, right_path, insert_rec);
*ret_left_path = left_path;
ret = 0;
out:
if (ret != 0)
ocfs2_free_path(left_path);
return ret;
}
static void ocfs2_split_record(struct ocfs2_extent_tree *et,
struct ocfs2_path *left_path,
struct ocfs2_path *right_path,
struct ocfs2_extent_rec *split_rec,
enum ocfs2_split_type split)
{
int index;
u32 cpos = le32_to_cpu(split_rec->e_cpos);
struct ocfs2_extent_list *left_el = NULL, *right_el, *insert_el, *el;
struct ocfs2_extent_rec *rec, *tmprec;
right_el = path_leaf_el(right_path);
if (left_path)
left_el = path_leaf_el(left_path);
el = right_el;
insert_el = right_el;
index = ocfs2_search_extent_list(el, cpos);
if (index != -1) {
if (index == 0 && left_path) {
BUG_ON(ocfs2_is_empty_extent(&el->l_recs[0]));
/*
* This typically means that the record
* started in the left path but moved to the
* right as a result of rotation. We either
* move the existing record to the left, or we
* do the later insert there.
*
* In this case, the left path should always
* exist as the rotate code will have passed
* it back for a post-insert update.
*/
if (split == SPLIT_LEFT) {
/*
* It's a left split. Since we know
* that the rotate code gave us an
* empty extent in the left path, we
* can just do the insert there.
*/
insert_el = left_el;
} else {
/*
* Right split - we have to move the
* existing record over to the left
* leaf. The insert will be into the
* newly created empty extent in the
* right leaf.
*/
tmprec = &right_el->l_recs[index];
ocfs2_rotate_leaf(left_el, tmprec);
el = left_el;
memset(tmprec, 0, sizeof(*tmprec));
index = ocfs2_search_extent_list(left_el, cpos);
BUG_ON(index == -1);
}
}
} else {
BUG_ON(!left_path);
BUG_ON(!ocfs2_is_empty_extent(&left_el->l_recs[0]));
/*
* Left path is easy - we can just allow the insert to
* happen.
*/
el = left_el;
insert_el = left_el;
index = ocfs2_search_extent_list(el, cpos);
BUG_ON(index == -1);
}
rec = &el->l_recs[index];
ocfs2_subtract_from_rec(ocfs2_metadata_cache_get_super(et->et_ci),
split, rec, split_rec);
ocfs2_rotate_leaf(insert_el, split_rec);
}
/*
* This function only does inserts on an allocation b-tree. For tree
* depth = 0, ocfs2_insert_at_leaf() is called directly.
*
* right_path is the path we want to do the actual insert
* in. left_path should only be passed in if we need to update that
* portion of the tree after an edge insert.
*/
static int ocfs2_insert_path(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *left_path,
struct ocfs2_path *right_path,
struct ocfs2_extent_rec *insert_rec,
struct ocfs2_insert_type *insert)
{
int ret, subtree_index;
struct buffer_head *leaf_bh = path_leaf_bh(right_path);
if (left_path) {
/*
* There's a chance that left_path got passed back to
* us without being accounted for in the
* journal. Extend our transaction here to be sure we
* can change those blocks.
*/
ret = ocfs2_extend_trans(handle, left_path->p_tree_depth);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_path(et->et_ci, handle, left_path);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
}
/*
* Pass both paths to the journal. The majority of inserts
* will be touching all components anyway.
*/
ret = ocfs2_journal_access_path(et->et_ci, handle, right_path);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
if (insert->ins_split != SPLIT_NONE) {
/*
* We could call ocfs2_insert_at_leaf() for some types
* of splits, but it's easier to just let one separate
* function sort it all out.
*/
ocfs2_split_record(et, left_path, right_path,
insert_rec, insert->ins_split);
/*
* Split might have modified either leaf and we don't
* have a guarantee that the later edge insert will
* dirty this for us.
*/
if (left_path)
ocfs2_journal_dirty(handle,
path_leaf_bh(left_path));
} else
ocfs2_insert_at_leaf(et, insert_rec, path_leaf_el(right_path),
insert);
ocfs2_journal_dirty(handle, leaf_bh);
if (left_path) {
/*
* The rotate code has indicated that we need to fix
* up portions of the tree after the insert.
*
* XXX: Should we extend the transaction here?
*/
subtree_index = ocfs2_find_subtree_root(et, left_path,
right_path);
ocfs2_complete_edge_insert(handle, left_path, right_path,
subtree_index);
}
ret = 0;
out:
return ret;
}
static int ocfs2_do_insert_extent(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_extent_rec *insert_rec,
struct ocfs2_insert_type *type)
{
int ret, rotate = 0;
u32 cpos;
struct ocfs2_path *right_path = NULL;
struct ocfs2_path *left_path = NULL;
struct ocfs2_extent_list *el;
el = et->et_root_el;
ret = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out;
}
if (le16_to_cpu(el->l_tree_depth) == 0) {
ocfs2_insert_at_leaf(et, insert_rec, el, type);
goto out_update_clusters;
}
right_path = ocfs2_new_path_from_et(et);
if (!right_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
/*
* Determine the path to start with. Rotations need the
* rightmost path, everything else can go directly to the
* target leaf.
*/
cpos = le32_to_cpu(insert_rec->e_cpos);
if (type->ins_appending == APPEND_NONE &&
type->ins_contig == CONTIG_NONE) {
rotate = 1;
cpos = UINT_MAX;
}
ret = ocfs2_find_path(et->et_ci, right_path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* Rotations and appends need special treatment - they modify
* parts of the tree's above them.
*
* Both might pass back a path immediate to the left of the
* one being inserted to. This will be cause
* ocfs2_insert_path() to modify the rightmost records of
* left_path to account for an edge insert.
*
* XXX: When modifying this code, keep in mind that an insert
* can wind up skipping both of these two special cases...
*/
if (rotate) {
ret = ocfs2_rotate_tree_right(handle, et, type->ins_split,
le32_to_cpu(insert_rec->e_cpos),
right_path, &left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* ocfs2_rotate_tree_right() might have extended the
* transaction without re-journaling our tree root.
*/
ret = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out;
}
} else if (type->ins_appending == APPEND_TAIL
&& type->ins_contig != CONTIG_LEFT) {
ret = ocfs2_append_rec_to_path(handle, et, insert_rec,
right_path, &left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
}
ret = ocfs2_insert_path(handle, et, left_path, right_path,
insert_rec, type);
if (ret) {
mlog_errno(ret);
goto out;
}
out_update_clusters:
if (type->ins_split == SPLIT_NONE)
ocfs2_et_update_clusters(et,
le16_to_cpu(insert_rec->e_leaf_clusters));
ocfs2_journal_dirty(handle, et->et_root_bh);
out:
ocfs2_free_path(left_path);
ocfs2_free_path(right_path);
return ret;
}
static enum ocfs2_contig_type
ocfs2_figure_merge_contig_type(struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct ocfs2_extent_list *el, int index,
struct ocfs2_extent_rec *split_rec)
{
int status;
enum ocfs2_contig_type ret = CONTIG_NONE;
u32 left_cpos, right_cpos;
struct ocfs2_extent_rec *rec = NULL;
struct ocfs2_extent_list *new_el;
struct ocfs2_path *left_path = NULL, *right_path = NULL;
struct buffer_head *bh;
struct ocfs2_extent_block *eb;
struct super_block *sb = ocfs2_metadata_cache_get_super(et->et_ci);
if (index > 0) {
rec = &el->l_recs[index - 1];
} else if (path->p_tree_depth > 0) {
status = ocfs2_find_cpos_for_left_leaf(sb, path, &left_cpos);
if (status)
goto out;
if (left_cpos != 0) {
left_path = ocfs2_new_path_from_path(path);
if (!left_path)
goto out;
status = ocfs2_find_path(et->et_ci, left_path,
left_cpos);
if (status)
goto out;
new_el = path_leaf_el(left_path);
if (le16_to_cpu(new_el->l_next_free_rec) !=
le16_to_cpu(new_el->l_count)) {
bh = path_leaf_bh(left_path);
eb = (struct ocfs2_extent_block *)bh->b_data;
ocfs2_error(sb,
"Extent block #%llu has an "
"invalid l_next_free_rec of "
"%d. It should have "
"matched the l_count of %d",
(unsigned long long)le64_to_cpu(eb->h_blkno),
le16_to_cpu(new_el->l_next_free_rec),
le16_to_cpu(new_el->l_count));
status = -EINVAL;
goto out;
}
rec = &new_el->l_recs[
le16_to_cpu(new_el->l_next_free_rec) - 1];
}
}
/*
* We're careful to check for an empty extent record here -
* the merge code will know what to do if it sees one.
*/
if (rec) {
if (index == 1 && ocfs2_is_empty_extent(rec)) {
if (split_rec->e_cpos == el->l_recs[index].e_cpos)
ret = CONTIG_RIGHT;
} else {
ret = ocfs2_et_extent_contig(et, rec, split_rec);
}
}
rec = NULL;
if (index < (le16_to_cpu(el->l_next_free_rec) - 1))
rec = &el->l_recs[index + 1];
else if (le16_to_cpu(el->l_next_free_rec) == le16_to_cpu(el->l_count) &&
path->p_tree_depth > 0) {
status = ocfs2_find_cpos_for_right_leaf(sb, path, &right_cpos);
if (status)
goto out;
if (right_cpos == 0)
goto out;
right_path = ocfs2_new_path_from_path(path);
if (!right_path)
goto out;
status = ocfs2_find_path(et->et_ci, right_path, right_cpos);
if (status)
goto out;
new_el = path_leaf_el(right_path);
rec = &new_el->l_recs[0];
if (ocfs2_is_empty_extent(rec)) {
if (le16_to_cpu(new_el->l_next_free_rec) <= 1) {
bh = path_leaf_bh(right_path);
eb = (struct ocfs2_extent_block *)bh->b_data;
ocfs2_error(sb,
"Extent block #%llu has an "
"invalid l_next_free_rec of %d",
(unsigned long long)le64_to_cpu(eb->h_blkno),
le16_to_cpu(new_el->l_next_free_rec));
status = -EINVAL;
goto out;
}
rec = &new_el->l_recs[1];
}
}
if (rec) {
enum ocfs2_contig_type contig_type;
contig_type = ocfs2_et_extent_contig(et, rec, split_rec);
if (contig_type == CONTIG_LEFT && ret == CONTIG_RIGHT)
ret = CONTIG_LEFTRIGHT;
else if (ret == CONTIG_NONE)
ret = contig_type;
}
out:
if (left_path)
ocfs2_free_path(left_path);
if (right_path)
ocfs2_free_path(right_path);
return ret;
}
static void ocfs2_figure_contig_type(struct ocfs2_extent_tree *et,
struct ocfs2_insert_type *insert,
struct ocfs2_extent_list *el,
struct ocfs2_extent_rec *insert_rec)
{
int i;
enum ocfs2_contig_type contig_type = CONTIG_NONE;
BUG_ON(le16_to_cpu(el->l_tree_depth) != 0);
for(i = 0; i < le16_to_cpu(el->l_next_free_rec); i++) {
contig_type = ocfs2_et_extent_contig(et, &el->l_recs[i],
insert_rec);
if (contig_type != CONTIG_NONE) {
insert->ins_contig_index = i;
break;
}
}
insert->ins_contig = contig_type;
if (insert->ins_contig != CONTIG_NONE) {
struct ocfs2_extent_rec *rec =
&el->l_recs[insert->ins_contig_index];
unsigned int len = le16_to_cpu(rec->e_leaf_clusters) +
le16_to_cpu(insert_rec->e_leaf_clusters);
/*
* Caller might want us to limit the size of extents, don't
* calculate contiguousness if we might exceed that limit.
*/
if (et->et_max_leaf_clusters &&
(len > et->et_max_leaf_clusters))
insert->ins_contig = CONTIG_NONE;
}
}
/*
* This should only be called against the righmost leaf extent list.
*
* ocfs2_figure_appending_type() will figure out whether we'll have to
* insert at the tail of the rightmost leaf.
*
* This should also work against the root extent list for tree's with 0
* depth. If we consider the root extent list to be the rightmost leaf node
* then the logic here makes sense.
*/
static void ocfs2_figure_appending_type(struct ocfs2_insert_type *insert,
struct ocfs2_extent_list *el,
struct ocfs2_extent_rec *insert_rec)
{
int i;
u32 cpos = le32_to_cpu(insert_rec->e_cpos);
struct ocfs2_extent_rec *rec;
insert->ins_appending = APPEND_NONE;
BUG_ON(le16_to_cpu(el->l_tree_depth) != 0);
if (!el->l_next_free_rec)
goto set_tail_append;
if (ocfs2_is_empty_extent(&el->l_recs[0])) {
/* Were all records empty? */
if (le16_to_cpu(el->l_next_free_rec) == 1)
goto set_tail_append;
}
i = le16_to_cpu(el->l_next_free_rec) - 1;
rec = &el->l_recs[i];
if (cpos >=
(le32_to_cpu(rec->e_cpos) + le16_to_cpu(rec->e_leaf_clusters)))
goto set_tail_append;
return;
set_tail_append:
insert->ins_appending = APPEND_TAIL;
}
/*
* Helper function called at the beginning of an insert.
*
* This computes a few things that are commonly used in the process of
* inserting into the btree:
* - Whether the new extent is contiguous with an existing one.
* - The current tree depth.
* - Whether the insert is an appending one.
* - The total # of free records in the tree.
*
* All of the information is stored on the ocfs2_insert_type
* structure.
*/
static int ocfs2_figure_insert_type(struct ocfs2_extent_tree *et,
struct buffer_head **last_eb_bh,
struct ocfs2_extent_rec *insert_rec,
int *free_records,
struct ocfs2_insert_type *insert)
{
int ret;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *el;
struct ocfs2_path *path = NULL;
struct buffer_head *bh = NULL;
insert->ins_split = SPLIT_NONE;
el = et->et_root_el;
insert->ins_tree_depth = le16_to_cpu(el->l_tree_depth);
if (el->l_tree_depth) {
/*
* If we have tree depth, we read in the
* rightmost extent block ahead of time as
* ocfs2_figure_insert_type() and ocfs2_add_branch()
* may want it later.
*/
ret = ocfs2_read_extent_block(et->et_ci,
ocfs2_et_get_last_eb_blk(et),
&bh);
if (ret) {
mlog_errno(ret);
goto out;
}
eb = (struct ocfs2_extent_block *) bh->b_data;
el = &eb->h_list;
}
/*
* Unless we have a contiguous insert, we'll need to know if
* there is room left in our allocation tree for another
* extent record.
*
* XXX: This test is simplistic, we can search for empty
* extent records too.
*/
*free_records = le16_to_cpu(el->l_count) -
le16_to_cpu(el->l_next_free_rec);
if (!insert->ins_tree_depth) {
ocfs2_figure_contig_type(et, insert, el, insert_rec);
ocfs2_figure_appending_type(insert, el, insert_rec);
return 0;
}
path = ocfs2_new_path_from_et(et);
if (!path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
/*
* In the case that we're inserting past what the tree
* currently accounts for, ocfs2_find_path() will return for
* us the rightmost tree path. This is accounted for below in
* the appending code.
*/
ret = ocfs2_find_path(et->et_ci, path, le32_to_cpu(insert_rec->e_cpos));
if (ret) {
mlog_errno(ret);
goto out;
}
el = path_leaf_el(path);
/*
* Now that we have the path, there's two things we want to determine:
* 1) Contiguousness (also set contig_index if this is so)
*
* 2) Are we doing an append? We can trivially break this up
* into two types of appends: simple record append, or a
* rotate inside the tail leaf.
*/
ocfs2_figure_contig_type(et, insert, el, insert_rec);
/*
* The insert code isn't quite ready to deal with all cases of
* left contiguousness. Specifically, if it's an insert into
* the 1st record in a leaf, it will require the adjustment of
* cluster count on the last record of the path directly to it's
* left. For now, just catch that case and fool the layers
* above us. This works just fine for tree_depth == 0, which
* is why we allow that above.
*/
if (insert->ins_contig == CONTIG_LEFT &&
insert->ins_contig_index == 0)
insert->ins_contig = CONTIG_NONE;
/*
* Ok, so we can simply compare against last_eb to figure out
* whether the path doesn't exist. This will only happen in
* the case that we're doing a tail append, so maybe we can
* take advantage of that information somehow.
*/
if (ocfs2_et_get_last_eb_blk(et) ==
path_leaf_bh(path)->b_blocknr) {
/*
* Ok, ocfs2_find_path() returned us the rightmost
* tree path. This might be an appending insert. There are
* two cases:
* 1) We're doing a true append at the tail:
* -This might even be off the end of the leaf
* 2) We're "appending" by rotating in the tail
*/
ocfs2_figure_appending_type(insert, el, insert_rec);
}
out:
ocfs2_free_path(path);
if (ret == 0)
*last_eb_bh = bh;
else
brelse(bh);
return ret;
}
/*
* Insert an extent into a btree.
*
* The caller needs to update the owning btree's cluster count.
*/
int ocfs2_insert_extent(handle_t *handle,
struct ocfs2_extent_tree *et,
u32 cpos,
u64 start_blk,
u32 new_clusters,
u8 flags,
struct ocfs2_alloc_context *meta_ac)
{
int status;
int uninitialized_var(free_records);
struct buffer_head *last_eb_bh = NULL;
struct ocfs2_insert_type insert = {0, };
struct ocfs2_extent_rec rec;
trace_ocfs2_insert_extent_start(
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
cpos, new_clusters);
memset(&rec, 0, sizeof(rec));
rec.e_cpos = cpu_to_le32(cpos);
rec.e_blkno = cpu_to_le64(start_blk);
rec.e_leaf_clusters = cpu_to_le16(new_clusters);
rec.e_flags = flags;
status = ocfs2_et_insert_check(et, &rec);
if (status) {
mlog_errno(status);
goto bail;
}
status = ocfs2_figure_insert_type(et, &last_eb_bh, &rec,
&free_records, &insert);
if (status < 0) {
mlog_errno(status);
goto bail;
}
trace_ocfs2_insert_extent(insert.ins_appending, insert.ins_contig,
insert.ins_contig_index, free_records,
insert.ins_tree_depth);
if (insert.ins_contig == CONTIG_NONE && free_records == 0) {
status = ocfs2_grow_tree(handle, et,
&insert.ins_tree_depth, &last_eb_bh,
meta_ac);
if (status) {
mlog_errno(status);
goto bail;
}
}
/* Finally, we can add clusters. This might rotate the tree for us. */
status = ocfs2_do_insert_extent(handle, et, &rec, &insert);
if (status < 0)
mlog_errno(status);
else
ocfs2_et_extent_map_insert(et, &rec);
bail:
brelse(last_eb_bh);
return status;
}
/*
* Allcate and add clusters into the extent b-tree.
* The new clusters(clusters_to_add) will be inserted at logical_offset.
* The extent b-tree's root is specified by et, and
* it is not limited to the file storage. Any extent tree can use this
* function if it implements the proper ocfs2_extent_tree.
*/
int ocfs2_add_clusters_in_btree(handle_t *handle,
struct ocfs2_extent_tree *et,
u32 *logical_offset,
u32 clusters_to_add,
int mark_unwritten,
struct ocfs2_alloc_context *data_ac,
struct ocfs2_alloc_context *meta_ac,
enum ocfs2_alloc_restarted *reason_ret)
{
int status = 0, err = 0;
int free_extents;
enum ocfs2_alloc_restarted reason = RESTART_NONE;
u32 bit_off, num_bits;
u64 block;
u8 flags = 0;
struct ocfs2_super *osb =
OCFS2_SB(ocfs2_metadata_cache_get_super(et->et_ci));
BUG_ON(!clusters_to_add);
if (mark_unwritten)
flags = OCFS2_EXT_UNWRITTEN;
free_extents = ocfs2_num_free_extents(osb, et);
if (free_extents < 0) {
status = free_extents;
mlog_errno(status);
goto leave;
}
/* there are two cases which could cause us to EAGAIN in the
* we-need-more-metadata case:
* 1) we haven't reserved *any*
* 2) we are so fragmented, we've needed to add metadata too
* many times. */
if (!free_extents && !meta_ac) {
err = -1;
status = -EAGAIN;
reason = RESTART_META;
goto leave;
} else if ((!free_extents)
&& (ocfs2_alloc_context_bits_left(meta_ac)
< ocfs2_extend_meta_needed(et->et_root_el))) {
err = -2;
status = -EAGAIN;
reason = RESTART_META;
goto leave;
}
status = __ocfs2_claim_clusters(handle, data_ac, 1,
clusters_to_add, &bit_off, &num_bits);
if (status < 0) {
if (status != -ENOSPC)
mlog_errno(status);
goto leave;
}
BUG_ON(num_bits > clusters_to_add);
/* reserve our write early -- insert_extent may update the tree root */
status = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto leave;
}
block = ocfs2_clusters_to_blocks(osb->sb, bit_off);
trace_ocfs2_add_clusters_in_btree(
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
bit_off, num_bits);
status = ocfs2_insert_extent(handle, et, *logical_offset, block,
num_bits, flags, meta_ac);
if (status < 0) {
mlog_errno(status);
goto leave;
}
ocfs2_journal_dirty(handle, et->et_root_bh);
clusters_to_add -= num_bits;
*logical_offset += num_bits;
if (clusters_to_add) {
err = clusters_to_add;
status = -EAGAIN;
reason = RESTART_TRANS;
}
leave:
if (reason_ret)
*reason_ret = reason;
trace_ocfs2_add_clusters_in_btree_ret(status, reason, err);
return status;
}
static void ocfs2_make_right_split_rec(struct super_block *sb,
struct ocfs2_extent_rec *split_rec,
u32 cpos,
struct ocfs2_extent_rec *rec)
{
u32 rec_cpos = le32_to_cpu(rec->e_cpos);
u32 rec_range = rec_cpos + le16_to_cpu(rec->e_leaf_clusters);
memset(split_rec, 0, sizeof(struct ocfs2_extent_rec));
split_rec->e_cpos = cpu_to_le32(cpos);
split_rec->e_leaf_clusters = cpu_to_le16(rec_range - cpos);
split_rec->e_blkno = rec->e_blkno;
le64_add_cpu(&split_rec->e_blkno,
ocfs2_clusters_to_blocks(sb, cpos - rec_cpos));
split_rec->e_flags = rec->e_flags;
}
static int ocfs2_split_and_insert(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct buffer_head **last_eb_bh,
int split_index,
struct ocfs2_extent_rec *orig_split_rec,
struct ocfs2_alloc_context *meta_ac)
{
int ret = 0, depth;
unsigned int insert_range, rec_range, do_leftright = 0;
struct ocfs2_extent_rec tmprec;
struct ocfs2_extent_list *rightmost_el;
struct ocfs2_extent_rec rec;
struct ocfs2_extent_rec split_rec = *orig_split_rec;
struct ocfs2_insert_type insert;
struct ocfs2_extent_block *eb;
leftright:
/*
* Store a copy of the record on the stack - it might move
* around as the tree is manipulated below.
*/
rec = path_leaf_el(path)->l_recs[split_index];
rightmost_el = et->et_root_el;
depth = le16_to_cpu(rightmost_el->l_tree_depth);
if (depth) {
BUG_ON(!(*last_eb_bh));
eb = (struct ocfs2_extent_block *) (*last_eb_bh)->b_data;
rightmost_el = &eb->h_list;
}
if (le16_to_cpu(rightmost_el->l_next_free_rec) ==
le16_to_cpu(rightmost_el->l_count)) {
ret = ocfs2_grow_tree(handle, et,
&depth, last_eb_bh, meta_ac);
if (ret) {
mlog_errno(ret);
goto out;
}
}
memset(&insert, 0, sizeof(struct ocfs2_insert_type));
insert.ins_appending = APPEND_NONE;
insert.ins_contig = CONTIG_NONE;
insert.ins_tree_depth = depth;
insert_range = le32_to_cpu(split_rec.e_cpos) +
le16_to_cpu(split_rec.e_leaf_clusters);
rec_range = le32_to_cpu(rec.e_cpos) +
le16_to_cpu(rec.e_leaf_clusters);
if (split_rec.e_cpos == rec.e_cpos) {
insert.ins_split = SPLIT_LEFT;
} else if (insert_range == rec_range) {
insert.ins_split = SPLIT_RIGHT;
} else {
/*
* Left/right split. We fake this as a right split
* first and then make a second pass as a left split.
*/
insert.ins_split = SPLIT_RIGHT;
ocfs2_make_right_split_rec(ocfs2_metadata_cache_get_super(et->et_ci),
&tmprec, insert_range, &rec);
split_rec = tmprec;
BUG_ON(do_leftright);
do_leftright = 1;
}
ret = ocfs2_do_insert_extent(handle, et, &split_rec, &insert);
if (ret) {
mlog_errno(ret);
goto out;
}
if (do_leftright == 1) {
u32 cpos;
struct ocfs2_extent_list *el;
do_leftright++;
split_rec = *orig_split_rec;
ocfs2_reinit_path(path, 1);
cpos = le32_to_cpu(split_rec.e_cpos);
ret = ocfs2_find_path(et->et_ci, path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
el = path_leaf_el(path);
split_index = ocfs2_search_extent_list(el, cpos);
goto leftright;
}
out:
return ret;
}
static int ocfs2_replace_extent_rec(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
struct ocfs2_extent_list *el,
int split_index,
struct ocfs2_extent_rec *split_rec)
{
int ret;
ret = ocfs2_path_bh_journal_access(handle, et->et_ci, path,
path_num_items(path) - 1);
if (ret) {
mlog_errno(ret);
goto out;
}
el->l_recs[split_index] = *split_rec;
ocfs2_journal_dirty(handle, path_leaf_bh(path));
out:
return ret;
}
/*
* Split part or all of the extent record at split_index in the leaf
* pointed to by path. Merge with the contiguous extent record if needed.
*
* Care is taken to handle contiguousness so as to not grow the tree.
*
* meta_ac is not strictly necessary - we only truly need it if growth
* of the tree is required. All other cases will degrade into a less
* optimal tree layout.
*
* last_eb_bh should be the rightmost leaf block for any extent
* btree. Since a split may grow the tree or a merge might shrink it,
* the caller cannot trust the contents of that buffer after this call.
*
* This code is optimized for readability - several passes might be
* made over certain portions of the tree. All of those blocks will
* have been brought into cache (and pinned via the journal), so the
* extra overhead is not expressed in terms of disk reads.
*/
int ocfs2_split_extent(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
int split_index,
struct ocfs2_extent_rec *split_rec,
struct ocfs2_alloc_context *meta_ac,
struct ocfs2_cached_dealloc_ctxt *dealloc)
{
int ret = 0;
struct ocfs2_extent_list *el = path_leaf_el(path);
struct buffer_head *last_eb_bh = NULL;
struct ocfs2_extent_rec *rec = &el->l_recs[split_index];
struct ocfs2_merge_ctxt ctxt;
struct ocfs2_extent_list *rightmost_el;
if (le32_to_cpu(rec->e_cpos) > le32_to_cpu(split_rec->e_cpos) ||
((le32_to_cpu(rec->e_cpos) + le16_to_cpu(rec->e_leaf_clusters)) <
(le32_to_cpu(split_rec->e_cpos) + le16_to_cpu(split_rec->e_leaf_clusters)))) {
ret = -EIO;
mlog_errno(ret);
goto out;
}
ctxt.c_contig_type = ocfs2_figure_merge_contig_type(et, path, el,
split_index,
split_rec);
/*
* The core merge / split code wants to know how much room is
* left in this allocation tree, so we pass the
* rightmost extent list.
*/
if (path->p_tree_depth) {
struct ocfs2_extent_block *eb;
ret = ocfs2_read_extent_block(et->et_ci,
ocfs2_et_get_last_eb_blk(et),
&last_eb_bh);
if (ret) {
mlog_errno(ret);
goto out;
}
eb = (struct ocfs2_extent_block *) last_eb_bh->b_data;
rightmost_el = &eb->h_list;
} else
rightmost_el = path_root_el(path);
if (rec->e_cpos == split_rec->e_cpos &&
rec->e_leaf_clusters == split_rec->e_leaf_clusters)
ctxt.c_split_covers_rec = 1;
else
ctxt.c_split_covers_rec = 0;
ctxt.c_has_empty_extent = ocfs2_is_empty_extent(&el->l_recs[0]);
trace_ocfs2_split_extent(split_index, ctxt.c_contig_type,
ctxt.c_has_empty_extent,
ctxt.c_split_covers_rec);
if (ctxt.c_contig_type == CONTIG_NONE) {
if (ctxt.c_split_covers_rec)
ret = ocfs2_replace_extent_rec(handle, et, path, el,
split_index, split_rec);
else
ret = ocfs2_split_and_insert(handle, et, path,
&last_eb_bh, split_index,
split_rec, meta_ac);
if (ret)
mlog_errno(ret);
} else {
ret = ocfs2_try_to_merge_extent(handle, et, path,
split_index, split_rec,
dealloc, &ctxt);
if (ret)
mlog_errno(ret);
}
out:
brelse(last_eb_bh);
return ret;
}
/*
* Change the flags of the already-existing extent at cpos for len clusters.
*
* new_flags: the flags we want to set.
* clear_flags: the flags we want to clear.
* phys: the new physical offset we want this new extent starts from.
*
* If the existing extent is larger than the request, initiate a
* split. An attempt will be made at merging with adjacent extents.
*
* The caller is responsible for passing down meta_ac if we'll need it.
*/
int ocfs2_change_extent_flag(handle_t *handle,
struct ocfs2_extent_tree *et,
u32 cpos, u32 len, u32 phys,
struct ocfs2_alloc_context *meta_ac,
struct ocfs2_cached_dealloc_ctxt *dealloc,
int new_flags, int clear_flags)
{
int ret, index;
struct super_block *sb = ocfs2_metadata_cache_get_super(et->et_ci);
u64 start_blkno = ocfs2_clusters_to_blocks(sb, phys);
struct ocfs2_extent_rec split_rec;
struct ocfs2_path *left_path = NULL;
struct ocfs2_extent_list *el;
struct ocfs2_extent_rec *rec;
left_path = ocfs2_new_path_from_et(et);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, left_path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
el = path_leaf_el(left_path);
index = ocfs2_search_extent_list(el, cpos);
if (index == -1 || index >= le16_to_cpu(el->l_next_free_rec)) {
ocfs2_error(sb,
"Owner %llu has an extent at cpos %u which can no "
"longer be found.\n",
(unsigned long long)
ocfs2_metadata_cache_owner(et->et_ci), cpos);
ret = -EROFS;
goto out;
}
ret = -EIO;
rec = &el->l_recs[index];
if (new_flags && (rec->e_flags & new_flags)) {
mlog(ML_ERROR, "Owner %llu tried to set %d flags on an "
"extent that already had them",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
new_flags);
goto out;
}
if (clear_flags && !(rec->e_flags & clear_flags)) {
mlog(ML_ERROR, "Owner %llu tried to clear %d flags on an "
"extent that didn't have them",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
clear_flags);
goto out;
}
memset(&split_rec, 0, sizeof(struct ocfs2_extent_rec));
split_rec.e_cpos = cpu_to_le32(cpos);
split_rec.e_leaf_clusters = cpu_to_le16(len);
split_rec.e_blkno = cpu_to_le64(start_blkno);
split_rec.e_flags = rec->e_flags;
if (new_flags)
split_rec.e_flags |= new_flags;
if (clear_flags)
split_rec.e_flags &= ~clear_flags;
ret = ocfs2_split_extent(handle, et, left_path,
index, &split_rec, meta_ac,
dealloc);
if (ret)
mlog_errno(ret);
out:
ocfs2_free_path(left_path);
return ret;
}
/*
* Mark the already-existing extent at cpos as written for len clusters.
* This removes the unwritten extent flag.
*
* If the existing extent is larger than the request, initiate a
* split. An attempt will be made at merging with adjacent extents.
*
* The caller is responsible for passing down meta_ac if we'll need it.
*/
int ocfs2_mark_extent_written(struct inode *inode,
struct ocfs2_extent_tree *et,
handle_t *handle, u32 cpos, u32 len, u32 phys,
struct ocfs2_alloc_context *meta_ac,
struct ocfs2_cached_dealloc_ctxt *dealloc)
{
int ret;
trace_ocfs2_mark_extent_written(
(unsigned long long)OCFS2_I(inode)->ip_blkno,
cpos, len, phys);
if (!ocfs2_writes_unwritten_extents(OCFS2_SB(inode->i_sb))) {
ocfs2_error(inode->i_sb, "Inode %llu has unwritten extents "
"that are being written to, but the feature bit "
"is not set in the super block.",
(unsigned long long)OCFS2_I(inode)->ip_blkno);
ret = -EROFS;
goto out;
}
/*
* XXX: This should be fixed up so that we just re-insert the
* next extent records.
*/
ocfs2_et_extent_map_truncate(et, 0);
ret = ocfs2_change_extent_flag(handle, et, cpos,
len, phys, meta_ac, dealloc,
0, OCFS2_EXT_UNWRITTEN);
if (ret)
mlog_errno(ret);
out:
return ret;
}
static int ocfs2_split_tree(handle_t *handle, struct ocfs2_extent_tree *et,
struct ocfs2_path *path,
int index, u32 new_range,
struct ocfs2_alloc_context *meta_ac)
{
int ret, depth, credits;
struct buffer_head *last_eb_bh = NULL;
struct ocfs2_extent_block *eb;
struct ocfs2_extent_list *rightmost_el, *el;
struct ocfs2_extent_rec split_rec;
struct ocfs2_extent_rec *rec;
struct ocfs2_insert_type insert;
/*
* Setup the record to split before we grow the tree.
*/
el = path_leaf_el(path);
rec = &el->l_recs[index];
ocfs2_make_right_split_rec(ocfs2_metadata_cache_get_super(et->et_ci),
&split_rec, new_range, rec);
depth = path->p_tree_depth;
if (depth > 0) {
ret = ocfs2_read_extent_block(et->et_ci,
ocfs2_et_get_last_eb_blk(et),
&last_eb_bh);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
eb = (struct ocfs2_extent_block *) last_eb_bh->b_data;
rightmost_el = &eb->h_list;
} else
rightmost_el = path_leaf_el(path);
credits = path->p_tree_depth +
ocfs2_extend_meta_needed(et->et_root_el);
ret = ocfs2_extend_trans(handle, credits);
if (ret) {
mlog_errno(ret);
goto out;
}
if (le16_to_cpu(rightmost_el->l_next_free_rec) ==
le16_to_cpu(rightmost_el->l_count)) {
ret = ocfs2_grow_tree(handle, et, &depth, &last_eb_bh,
meta_ac);
if (ret) {
mlog_errno(ret);
goto out;
}
}
memset(&insert, 0, sizeof(struct ocfs2_insert_type));
insert.ins_appending = APPEND_NONE;
insert.ins_contig = CONTIG_NONE;
insert.ins_split = SPLIT_RIGHT;
insert.ins_tree_depth = depth;
ret = ocfs2_do_insert_extent(handle, et, &split_rec, &insert);
if (ret)
mlog_errno(ret);
out:
brelse(last_eb_bh);
return ret;
}
static int ocfs2_truncate_rec(handle_t *handle,
struct ocfs2_extent_tree *et,
struct ocfs2_path *path, int index,
struct ocfs2_cached_dealloc_ctxt *dealloc,
u32 cpos, u32 len)
{
int ret;
u32 left_cpos, rec_range, trunc_range;
int wants_rotate = 0, is_rightmost_tree_rec = 0;
struct super_block *sb = ocfs2_metadata_cache_get_super(et->et_ci);
struct ocfs2_path *left_path = NULL;
struct ocfs2_extent_list *el = path_leaf_el(path);
struct ocfs2_extent_rec *rec;
struct ocfs2_extent_block *eb;
if (ocfs2_is_empty_extent(&el->l_recs[0]) && index > 0) {
ret = ocfs2_rotate_tree_left(handle, et, path, dealloc);
if (ret) {
mlog_errno(ret);
goto out;
}
index--;
}
if (index == (le16_to_cpu(el->l_next_free_rec) - 1) &&
path->p_tree_depth) {
/*
* Check whether this is the rightmost tree record. If
* we remove all of this record or part of its right
* edge then an update of the record lengths above it
* will be required.
*/
eb = (struct ocfs2_extent_block *)path_leaf_bh(path)->b_data;
if (eb->h_next_leaf_blk == 0)
is_rightmost_tree_rec = 1;
}
rec = &el->l_recs[index];
if (index == 0 && path->p_tree_depth &&
le32_to_cpu(rec->e_cpos) == cpos) {
/*
* Changing the leftmost offset (via partial or whole
* record truncate) of an interior (or rightmost) path
* means we have to update the subtree that is formed
* by this leaf and the one to it's left.
*
* There are two cases we can skip:
* 1) Path is the leftmost one in our btree.
* 2) The leaf is rightmost and will be empty after
* we remove the extent record - the rotate code
* knows how to update the newly formed edge.
*/
ret = ocfs2_find_cpos_for_left_leaf(sb, path, &left_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
if (left_cpos && le16_to_cpu(el->l_next_free_rec) > 1) {
left_path = ocfs2_new_path_from_path(path);
if (!left_path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, left_path,
left_cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
}
}
ret = ocfs2_extend_rotate_transaction(handle, 0,
handle->h_buffer_credits,
path);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_path(et->et_ci, handle, path);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_path(et->et_ci, handle, left_path);
if (ret) {
mlog_errno(ret);
goto out;
}
rec_range = le32_to_cpu(rec->e_cpos) + ocfs2_rec_clusters(el, rec);
trunc_range = cpos + len;
if (le32_to_cpu(rec->e_cpos) == cpos && rec_range == trunc_range) {
int next_free;
memset(rec, 0, sizeof(*rec));
ocfs2_cleanup_merge(el, index);
wants_rotate = 1;
next_free = le16_to_cpu(el->l_next_free_rec);
if (is_rightmost_tree_rec && next_free > 1) {
/*
* We skip the edge update if this path will
* be deleted by the rotate code.
*/
rec = &el->l_recs[next_free - 1];
ocfs2_adjust_rightmost_records(handle, et, path,
rec);
}
} else if (le32_to_cpu(rec->e_cpos) == cpos) {
/* Remove leftmost portion of the record. */
le32_add_cpu(&rec->e_cpos, len);
le64_add_cpu(&rec->e_blkno, ocfs2_clusters_to_blocks(sb, len));
le16_add_cpu(&rec->e_leaf_clusters, -len);
} else if (rec_range == trunc_range) {
/* Remove rightmost portion of the record */
le16_add_cpu(&rec->e_leaf_clusters, -len);
if (is_rightmost_tree_rec)
ocfs2_adjust_rightmost_records(handle, et, path, rec);
} else {
/* Caller should have trapped this. */
mlog(ML_ERROR, "Owner %llu: Invalid record truncate: (%u, %u) "
"(%u, %u)\n",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
le32_to_cpu(rec->e_cpos),
le16_to_cpu(rec->e_leaf_clusters), cpos, len);
BUG();
}
if (left_path) {
int subtree_index;
subtree_index = ocfs2_find_subtree_root(et, left_path, path);
ocfs2_complete_edge_insert(handle, left_path, path,
subtree_index);
}
ocfs2_journal_dirty(handle, path_leaf_bh(path));
ret = ocfs2_rotate_tree_left(handle, et, path, dealloc);
if (ret) {
mlog_errno(ret);
goto out;
}
out:
ocfs2_free_path(left_path);
return ret;
}
int ocfs2_remove_extent(handle_t *handle,
struct ocfs2_extent_tree *et,
u32 cpos, u32 len,
struct ocfs2_alloc_context *meta_ac,
struct ocfs2_cached_dealloc_ctxt *dealloc)
{
int ret, index;
u32 rec_range, trunc_range;
struct ocfs2_extent_rec *rec;
struct ocfs2_extent_list *el;
struct ocfs2_path *path = NULL;
/*
* XXX: Why are we truncating to 0 instead of wherever this
* affects us?
*/
ocfs2_et_extent_map_truncate(et, 0);
path = ocfs2_new_path_from_et(et);
if (!path) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_find_path(et->et_ci, path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
el = path_leaf_el(path);
index = ocfs2_search_extent_list(el, cpos);
if (index == -1 || index >= le16_to_cpu(el->l_next_free_rec)) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu has an extent at cpos %u which can no "
"longer be found.\n",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
cpos);
ret = -EROFS;
goto out;
}
/*
* We have 3 cases of extent removal:
* 1) Range covers the entire extent rec
* 2) Range begins or ends on one edge of the extent rec
* 3) Range is in the middle of the extent rec (no shared edges)
*
* For case 1 we remove the extent rec and left rotate to
* fill the hole.
*
* For case 2 we just shrink the existing extent rec, with a
* tree update if the shrinking edge is also the edge of an
* extent block.
*
* For case 3 we do a right split to turn the extent rec into
* something case 2 can handle.
*/
rec = &el->l_recs[index];
rec_range = le32_to_cpu(rec->e_cpos) + ocfs2_rec_clusters(el, rec);
trunc_range = cpos + len;
BUG_ON(cpos < le32_to_cpu(rec->e_cpos) || trunc_range > rec_range);
trace_ocfs2_remove_extent(
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
cpos, len, index, le32_to_cpu(rec->e_cpos),
ocfs2_rec_clusters(el, rec));
if (le32_to_cpu(rec->e_cpos) == cpos || rec_range == trunc_range) {
ret = ocfs2_truncate_rec(handle, et, path, index, dealloc,
cpos, len);
if (ret) {
mlog_errno(ret);
goto out;
}
} else {
ret = ocfs2_split_tree(handle, et, path, index,
trunc_range, meta_ac);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* The split could have manipulated the tree enough to
* move the record location, so we have to look for it again.
*/
ocfs2_reinit_path(path, 1);
ret = ocfs2_find_path(et->et_ci, path, cpos);
if (ret) {
mlog_errno(ret);
goto out;
}
el = path_leaf_el(path);
index = ocfs2_search_extent_list(el, cpos);
if (index == -1 || index >= le16_to_cpu(el->l_next_free_rec)) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu: split at cpos %u lost record.",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
cpos);
ret = -EROFS;
goto out;
}
/*
* Double check our values here. If anything is fishy,
* it's easier to catch it at the top level.
*/
rec = &el->l_recs[index];
rec_range = le32_to_cpu(rec->e_cpos) +
ocfs2_rec_clusters(el, rec);
if (rec_range != trunc_range) {
ocfs2_error(ocfs2_metadata_cache_get_super(et->et_ci),
"Owner %llu: error after split at cpos %u"
"trunc len %u, existing record is (%u,%u)",
(unsigned long long)ocfs2_metadata_cache_owner(et->et_ci),
cpos, len, le32_to_cpu(rec->e_cpos),
ocfs2_rec_clusters(el, rec));
ret = -EROFS;
goto out;
}
ret = ocfs2_truncate_rec(handle, et, path, index, dealloc,
cpos, len);
if (ret) {
mlog_errno(ret);
goto out;
}
}
out:
ocfs2_free_path(path);
return ret;
}
/*
* ocfs2_reserve_blocks_for_rec_trunc() would look basically the
* same as ocfs2_lock_alloctors(), except for it accepts a blocks
* number to reserve some extra blocks, and it only handles meta
* data allocations.
*
* Currently, only ocfs2_remove_btree_range() uses it for truncating
* and punching holes.
*/
static int ocfs2_reserve_blocks_for_rec_trunc(struct inode *inode,
struct ocfs2_extent_tree *et,
u32 extents_to_split,
struct ocfs2_alloc_context **ac,
int extra_blocks)
{
int ret = 0, num_free_extents;
unsigned int max_recs_needed = 2 * extents_to_split;
struct ocfs2_super *osb = OCFS2_SB(inode->i_sb);
*ac = NULL;
num_free_extents = ocfs2_num_free_extents(osb, et);
if (num_free_extents < 0) {
ret = num_free_extents;
mlog_errno(ret);
goto out;
}
if (!num_free_extents ||
(ocfs2_sparse_alloc(osb) && num_free_extents < max_recs_needed))
extra_blocks += ocfs2_extend_meta_needed(et->et_root_el);
if (extra_blocks) {
ret = ocfs2_reserve_new_metadata_blocks(osb, extra_blocks, ac);
if (ret < 0) {
if (ret != -ENOSPC)
mlog_errno(ret);
goto out;
}
}
out:
if (ret) {
if (*ac) {
ocfs2_free_alloc_context(*ac);
*ac = NULL;
}
}
return ret;
}
int ocfs2_remove_btree_range(struct inode *inode,
struct ocfs2_extent_tree *et,
u32 cpos, u32 phys_cpos, u32 len, int flags,
struct ocfs2_cached_dealloc_ctxt *dealloc,
u64 refcount_loc)
{
int ret, credits = 0, extra_blocks = 0;
u64 phys_blkno = ocfs2_clusters_to_blocks(inode->i_sb, phys_cpos);
struct ocfs2_super *osb = OCFS2_SB(inode->i_sb);
struct inode *tl_inode = osb->osb_tl_inode;
handle_t *handle;
struct ocfs2_alloc_context *meta_ac = NULL;
struct ocfs2_refcount_tree *ref_tree = NULL;
if ((flags & OCFS2_EXT_REFCOUNTED) && len) {
BUG_ON(!(OCFS2_I(inode)->ip_dyn_features &
OCFS2_HAS_REFCOUNT_FL));
ret = ocfs2_lock_refcount_tree(osb, refcount_loc, 1,
&ref_tree, NULL);
if (ret) {
mlog_errno(ret);
goto out;
}
ret = ocfs2_prepare_refcount_change_for_del(inode,
refcount_loc,
phys_blkno,
len,
&credits,
&extra_blocks);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
}
ret = ocfs2_reserve_blocks_for_rec_trunc(inode, et, 1, &meta_ac,
extra_blocks);
if (ret) {
mlog_errno(ret);
return ret;
}
mutex_lock(&tl_inode->i_mutex);
if (ocfs2_truncate_log_needs_flush(osb)) {
ret = __ocfs2_flush_truncate_log(osb);
if (ret < 0) {
mlog_errno(ret);
goto out;
}
}
handle = ocfs2_start_trans(osb,
ocfs2_remove_extent_credits(osb->sb) + credits);
if (IS_ERR(handle)) {
ret = PTR_ERR(handle);
mlog_errno(ret);
goto out;
}
ret = ocfs2_et_root_journal_access(handle, et,
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
dquot_free_space_nodirty(inode,
ocfs2_clusters_to_bytes(inode->i_sb, len));
ret = ocfs2_remove_extent(handle, et, cpos, len, meta_ac, dealloc);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
ocfs2_et_update_clusters(et, -len);
ocfs2_journal_dirty(handle, et->et_root_bh);
if (phys_blkno) {
if (flags & OCFS2_EXT_REFCOUNTED)
ret = ocfs2_decrease_refcount(inode, handle,
ocfs2_blocks_to_clusters(osb->sb,
phys_blkno),
len, meta_ac,
dealloc, 1);
else
ret = ocfs2_truncate_log_append(osb, handle,
phys_blkno, len);
if (ret)
mlog_errno(ret);
}
out_commit:
ocfs2_commit_trans(osb, handle);
out:
mutex_unlock(&tl_inode->i_mutex);
if (meta_ac)
ocfs2_free_alloc_context(meta_ac);
if (ref_tree)
ocfs2_unlock_refcount_tree(osb, ref_tree, 1);
return ret;
}
int ocfs2_truncate_log_needs_flush(struct ocfs2_super *osb)
{
struct buffer_head *tl_bh = osb->osb_tl_bh;
struct ocfs2_dinode *di;
struct ocfs2_truncate_log *tl;
di = (struct ocfs2_dinode *) tl_bh->b_data;
tl = &di->id2.i_dealloc;
mlog_bug_on_msg(le16_to_cpu(tl->tl_used) > le16_to_cpu(tl->tl_count),
"slot %d, invalid truncate log parameters: used = "
"%u, count = %u\n", osb->slot_num,
le16_to_cpu(tl->tl_used), le16_to_cpu(tl->tl_count));
return le16_to_cpu(tl->tl_used) == le16_to_cpu(tl->tl_count);
}
static int ocfs2_truncate_log_can_coalesce(struct ocfs2_truncate_log *tl,
unsigned int new_start)
{
unsigned int tail_index;
unsigned int current_tail;
/* No records, nothing to coalesce */
if (!le16_to_cpu(tl->tl_used))
return 0;
tail_index = le16_to_cpu(tl->tl_used) - 1;
current_tail = le32_to_cpu(tl->tl_recs[tail_index].t_start);
current_tail += le32_to_cpu(tl->tl_recs[tail_index].t_clusters);
return current_tail == new_start;
}
int ocfs2_truncate_log_append(struct ocfs2_super *osb,
handle_t *handle,
u64 start_blk,
unsigned int num_clusters)
{
int status, index;
unsigned int start_cluster, tl_count;
struct inode *tl_inode = osb->osb_tl_inode;
struct buffer_head *tl_bh = osb->osb_tl_bh;
struct ocfs2_dinode *di;
struct ocfs2_truncate_log *tl;
BUG_ON(mutex_trylock(&tl_inode->i_mutex));
start_cluster = ocfs2_blocks_to_clusters(osb->sb, start_blk);
di = (struct ocfs2_dinode *) tl_bh->b_data;
/* tl_bh is loaded from ocfs2_truncate_log_init(). It's validated
* by the underlying call to ocfs2_read_inode_block(), so any
* corruption is a code bug */
BUG_ON(!OCFS2_IS_VALID_DINODE(di));
tl = &di->id2.i_dealloc;
tl_count = le16_to_cpu(tl->tl_count);
mlog_bug_on_msg(tl_count > ocfs2_truncate_recs_per_inode(osb->sb) ||
tl_count == 0,
"Truncate record count on #%llu invalid "
"wanted %u, actual %u\n",
(unsigned long long)OCFS2_I(tl_inode)->ip_blkno,
ocfs2_truncate_recs_per_inode(osb->sb),
le16_to_cpu(tl->tl_count));
/* Caller should have known to flush before calling us. */
index = le16_to_cpu(tl->tl_used);
if (index >= tl_count) {
status = -ENOSPC;
mlog_errno(status);
goto bail;
}
status = ocfs2_journal_access_di(handle, INODE_CACHE(tl_inode), tl_bh,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
trace_ocfs2_truncate_log_append(
(unsigned long long)OCFS2_I(tl_inode)->ip_blkno, index,
start_cluster, num_clusters);
if (ocfs2_truncate_log_can_coalesce(tl, start_cluster)) {
/*
* Move index back to the record we are coalescing with.
* ocfs2_truncate_log_can_coalesce() guarantees nonzero
*/
index--;
num_clusters += le32_to_cpu(tl->tl_recs[index].t_clusters);
trace_ocfs2_truncate_log_append(
(unsigned long long)OCFS2_I(tl_inode)->ip_blkno,
index, le32_to_cpu(tl->tl_recs[index].t_start),
num_clusters);
} else {
tl->tl_recs[index].t_start = cpu_to_le32(start_cluster);
tl->tl_used = cpu_to_le16(index + 1);
}
tl->tl_recs[index].t_clusters = cpu_to_le32(num_clusters);
ocfs2_journal_dirty(handle, tl_bh);
osb->truncated_clusters += num_clusters;
bail:
return status;
}
static int ocfs2_replay_truncate_records(struct ocfs2_super *osb,
handle_t *handle,
struct inode *data_alloc_inode,
struct buffer_head *data_alloc_bh)
{
int status = 0;
int i;
unsigned int num_clusters;
u64 start_blk;
struct ocfs2_truncate_rec rec;
struct ocfs2_dinode *di;
struct ocfs2_truncate_log *tl;
struct inode *tl_inode = osb->osb_tl_inode;
struct buffer_head *tl_bh = osb->osb_tl_bh;
di = (struct ocfs2_dinode *) tl_bh->b_data;
tl = &di->id2.i_dealloc;
i = le16_to_cpu(tl->tl_used) - 1;
while (i >= 0) {
/* Caller has given us at least enough credits to
* update the truncate log dinode */
status = ocfs2_journal_access_di(handle, INODE_CACHE(tl_inode), tl_bh,
OCFS2_JOURNAL_ACCESS_WRITE);
if (status < 0) {
mlog_errno(status);
goto bail;
}
tl->tl_used = cpu_to_le16(i);
ocfs2_journal_dirty(handle, tl_bh);
/* TODO: Perhaps we can calculate the bulk of the
* credits up front rather than extending like
* this. */
status = ocfs2_extend_trans(handle,
OCFS2_TRUNCATE_LOG_FLUSH_ONE_REC);
if (status < 0) {
mlog_errno(status);
goto bail;
}
rec = tl->tl_recs[i];
start_blk = ocfs2_clusters_to_blocks(data_alloc_inode->i_sb,
le32_to_cpu(rec.t_start));
num_clusters = le32_to_cpu(rec.t_clusters);
/* if start_blk is not set, we ignore the record as
* invalid. */
if (start_blk) {
trace_ocfs2_replay_truncate_records(
(unsigned long long)OCFS2_I(tl_inode)->ip_blkno,
i, le32_to_cpu(rec.t_start), num_clusters);
status = ocfs2_free_clusters(handle, data_alloc_inode,
data_alloc_bh, start_blk,
num_clusters);
if (status < 0) {
mlog_errno(status);
goto bail;
}
}
i--;
}
osb->truncated_clusters = 0;
bail:
return status;
}
/* Expects you to already be holding tl_inode->i_mutex */
int __ocfs2_flush_truncate_log(struct ocfs2_super *osb)
{
int status;
unsigned int num_to_flush;
handle_t *handle;
struct inode *tl_inode = osb->osb_tl_inode;
struct inode *data_alloc_inode = NULL;
struct buffer_head *tl_bh = osb->osb_tl_bh;
struct buffer_head *data_alloc_bh = NULL;
struct ocfs2_dinode *di;
struct ocfs2_truncate_log *tl;
BUG_ON(mutex_trylock(&tl_inode->i_mutex));
di = (struct ocfs2_dinode *) tl_bh->b_data;
/* tl_bh is loaded from ocfs2_truncate_log_init(). It's validated
* by the underlying call to ocfs2_read_inode_block(), so any
* corruption is a code bug */
BUG_ON(!OCFS2_IS_VALID_DINODE(di));
tl = &di->id2.i_dealloc;
num_to_flush = le16_to_cpu(tl->tl_used);
trace_ocfs2_flush_truncate_log(
(unsigned long long)OCFS2_I(tl_inode)->ip_blkno,
num_to_flush);
if (!num_to_flush) {
status = 0;
goto out;
}
data_alloc_inode = ocfs2_get_system_file_inode(osb,
GLOBAL_BITMAP_SYSTEM_INODE,
OCFS2_INVALID_SLOT);
if (!data_alloc_inode) {
status = -EINVAL;
mlog(ML_ERROR, "Could not get bitmap inode!\n");
goto out;
}
mutex_lock(&data_alloc_inode->i_mutex);
status = ocfs2_inode_lock(data_alloc_inode, &data_alloc_bh, 1);
if (status < 0) {
mlog_errno(status);
goto out_mutex;
}
handle = ocfs2_start_trans(osb, OCFS2_TRUNCATE_LOG_UPDATE);
if (IS_ERR(handle)) {
status = PTR_ERR(handle);
mlog_errno(status);
goto out_unlock;
}
status = ocfs2_replay_truncate_records(osb, handle, data_alloc_inode,
data_alloc_bh);
if (status < 0)
mlog_errno(status);
ocfs2_commit_trans(osb, handle);
out_unlock:
brelse(data_alloc_bh);
ocfs2_inode_unlock(data_alloc_inode, 1);
out_mutex:
mutex_unlock(&data_alloc_inode->i_mutex);
iput(data_alloc_inode);
out:
return status;
}
int ocfs2_flush_truncate_log(struct ocfs2_super *osb)
{
int status;
struct inode *tl_inode = osb->osb_tl_inode;
mutex_lock(&tl_inode->i_mutex);
status = __ocfs2_flush_truncate_log(osb);
mutex_unlock(&tl_inode->i_mutex);
return status;
}
static void ocfs2_truncate_log_worker(struct work_struct *work)
{
int status;
struct ocfs2_super *osb =
container_of(work, struct ocfs2_super,
osb_truncate_log_wq.work);
status = ocfs2_flush_truncate_log(osb);
if (status < 0)
mlog_errno(status);
else
ocfs2_init_steal_slots(osb);
}
#define OCFS2_TRUNCATE_LOG_FLUSH_INTERVAL (2 * HZ)
void ocfs2_schedule_truncate_log_flush(struct ocfs2_super *osb,
int cancel)
{
if (osb->osb_tl_inode) {
/* We want to push off log flushes while truncates are
* still running. */
if (cancel)
cancel_delayed_work(&osb->osb_truncate_log_wq);
queue_delayed_work(ocfs2_wq, &osb->osb_truncate_log_wq,
OCFS2_TRUNCATE_LOG_FLUSH_INTERVAL);
}
}
static int ocfs2_get_truncate_log_info(struct ocfs2_super *osb,
int slot_num,
struct inode **tl_inode,
struct buffer_head **tl_bh)
{
int status;
struct inode *inode = NULL;
struct buffer_head *bh = NULL;
inode = ocfs2_get_system_file_inode(osb,
TRUNCATE_LOG_SYSTEM_INODE,
slot_num);
if (!inode) {
status = -EINVAL;
mlog(ML_ERROR, "Could not get load truncate log inode!\n");
goto bail;
}
status = ocfs2_read_inode_block(inode, &bh);
if (status < 0) {
iput(inode);
mlog_errno(status);
goto bail;
}
*tl_inode = inode;
*tl_bh = bh;
bail:
return status;
}
/* called during the 1st stage of node recovery. we stamp a clean
* truncate log and pass back a copy for processing later. if the
* truncate log does not require processing, a *tl_copy is set to
* NULL. */
int ocfs2_begin_truncate_log_recovery(struct ocfs2_super *osb,
int slot_num,
struct ocfs2_dinode **tl_copy)
{
int status;
struct inode *tl_inode = NULL;
struct buffer_head *tl_bh = NULL;
struct ocfs2_dinode *di;
struct ocfs2_truncate_log *tl;
*tl_copy = NULL;
trace_ocfs2_begin_truncate_log_recovery(slot_num);
status = ocfs2_get_truncate_log_info(osb, slot_num, &tl_inode, &tl_bh);
if (status < 0) {
mlog_errno(status);
goto bail;
}
di = (struct ocfs2_dinode *) tl_bh->b_data;
/* tl_bh is loaded from ocfs2_get_truncate_log_info(). It's
* validated by the underlying call to ocfs2_read_inode_block(),
* so any corruption is a code bug */
BUG_ON(!OCFS2_IS_VALID_DINODE(di));
tl = &di->id2.i_dealloc;
if (le16_to_cpu(tl->tl_used)) {
trace_ocfs2_truncate_log_recovery_num(le16_to_cpu(tl->tl_used));
*tl_copy = kmalloc(tl_bh->b_size, GFP_KERNEL);
if (!(*tl_copy)) {
status = -ENOMEM;
mlog_errno(status);
goto bail;
}
/* Assuming the write-out below goes well, this copy
* will be passed back to recovery for processing. */
memcpy(*tl_copy, tl_bh->b_data, tl_bh->b_size);
/* All we need to do to clear the truncate log is set
* tl_used. */
tl->tl_used = 0;
ocfs2_compute_meta_ecc(osb->sb, tl_bh->b_data, &di->i_check);
status = ocfs2_write_block(osb, tl_bh, INODE_CACHE(tl_inode));
if (status < 0) {
mlog_errno(status);
goto bail;
}
}
bail:
if (tl_inode)
iput(tl_inode);
brelse(tl_bh);
if (status < 0 && (*tl_copy)) {
kfree(*tl_copy);
*tl_copy = NULL;
mlog_errno(status);
}
return status;
}
int ocfs2_complete_truncate_log_recovery(struct ocfs2_super *osb,
struct ocfs2_dinode *tl_copy)
{
int status = 0;
int i;
unsigned int clusters, num_recs, start_cluster;
u64 start_blk;
handle_t *handle;
struct inode *tl_inode = osb->osb_tl_inode;
struct ocfs2_truncate_log *tl;
if (OCFS2_I(tl_inode)->ip_blkno == le64_to_cpu(tl_copy->i_blkno)) {
mlog(ML_ERROR, "Asked to recover my own truncate log!\n");
return -EINVAL;
}
tl = &tl_copy->id2.i_dealloc;
num_recs = le16_to_cpu(tl->tl_used);
trace_ocfs2_complete_truncate_log_recovery(
(unsigned long long)le64_to_cpu(tl_copy->i_blkno),
num_recs);
mutex_lock(&tl_inode->i_mutex);
for(i = 0; i < num_recs; i++) {
if (ocfs2_truncate_log_needs_flush(osb)) {
status = __ocfs2_flush_truncate_log(osb);
if (status < 0) {
mlog_errno(status);
goto bail_up;
}
}
handle = ocfs2_start_trans(osb, OCFS2_TRUNCATE_LOG_UPDATE);
if (IS_ERR(handle)) {
status = PTR_ERR(handle);
mlog_errno(status);
goto bail_up;
}
clusters = le32_to_cpu(tl->tl_recs[i].t_clusters);
start_cluster = le32_to_cpu(tl->tl_recs[i].t_start);
start_blk = ocfs2_clusters_to_blocks(osb->sb, start_cluster);
status = ocfs2_truncate_log_append(osb, handle,
start_blk, clusters);
ocfs2_commit_trans(osb, handle);
if (status < 0) {
mlog_errno(status);
goto bail_up;
}
}
bail_up:
mutex_unlock(&tl_inode->i_mutex);
return status;
}
void ocfs2_truncate_log_shutdown(struct ocfs2_super *osb)
{
int status;
struct inode *tl_inode = osb->osb_tl_inode;
if (tl_inode) {
cancel_delayed_work(&osb->osb_truncate_log_wq);
flush_workqueue(ocfs2_wq);
status = ocfs2_flush_truncate_log(osb);
if (status < 0)
mlog_errno(status);
brelse(osb->osb_tl_bh);
iput(osb->osb_tl_inode);
}
}
int ocfs2_truncate_log_init(struct ocfs2_super *osb)
{
int status;
struct inode *tl_inode = NULL;
struct buffer_head *tl_bh = NULL;
status = ocfs2_get_truncate_log_info(osb,
osb->slot_num,
&tl_inode,
&tl_bh);
if (status < 0)
mlog_errno(status);
/* ocfs2_truncate_log_shutdown keys on the existence of
* osb->osb_tl_inode so we don't set any of the osb variables
* until we're sure all is well. */
INIT_DELAYED_WORK(&osb->osb_truncate_log_wq,
ocfs2_truncate_log_worker);
osb->osb_tl_bh = tl_bh;
osb->osb_tl_inode = tl_inode;
return status;
}
/*
* Delayed de-allocation of suballocator blocks.
*
* Some sets of block de-allocations might involve multiple suballocator inodes.
*
* The locking for this can get extremely complicated, especially when
* the suballocator inodes to delete from aren't known until deep
* within an unrelated codepath.
*
* ocfs2_extent_block structures are a good example of this - an inode
* btree could have been grown by any number of nodes each allocating
* out of their own suballoc inode.
*
* These structures allow the delay of block de-allocation until a
* later time, when locking of multiple cluster inodes won't cause
* deadlock.
*/
/*
* Describe a single bit freed from a suballocator. For the block
* suballocators, it represents one block. For the global cluster
* allocator, it represents some clusters and free_bit indicates
* clusters number.
*/
struct ocfs2_cached_block_free {
struct ocfs2_cached_block_free *free_next;
u64 free_bg;
u64 free_blk;
unsigned int free_bit;
};
struct ocfs2_per_slot_free_list {
struct ocfs2_per_slot_free_list *f_next_suballocator;
int f_inode_type;
int f_slot;
struct ocfs2_cached_block_free *f_first;
};
static int ocfs2_free_cached_blocks(struct ocfs2_super *osb,
int sysfile_type,
int slot,
struct ocfs2_cached_block_free *head)
{
int ret;
u64 bg_blkno;
handle_t *handle;
struct inode *inode;
struct buffer_head *di_bh = NULL;
struct ocfs2_cached_block_free *tmp;
inode = ocfs2_get_system_file_inode(osb, sysfile_type, slot);
if (!inode) {
ret = -EINVAL;
mlog_errno(ret);
goto out;
}
mutex_lock(&inode->i_mutex);
ret = ocfs2_inode_lock(inode, &di_bh, 1);
if (ret) {
mlog_errno(ret);
goto out_mutex;
}
handle = ocfs2_start_trans(osb, OCFS2_SUBALLOC_FREE);
if (IS_ERR(handle)) {
ret = PTR_ERR(handle);
mlog_errno(ret);
goto out_unlock;
}
while (head) {
if (head->free_bg)
bg_blkno = head->free_bg;
else
bg_blkno = ocfs2_which_suballoc_group(head->free_blk,
head->free_bit);
trace_ocfs2_free_cached_blocks(
(unsigned long long)head->free_blk, head->free_bit);
ret = ocfs2_free_suballoc_bits(handle, inode, di_bh,
head->free_bit, bg_blkno, 1);
if (ret) {
mlog_errno(ret);
goto out_journal;
}
ret = ocfs2_extend_trans(handle, OCFS2_SUBALLOC_FREE);
if (ret) {
mlog_errno(ret);
goto out_journal;
}
tmp = head;
head = head->free_next;
kfree(tmp);
}
out_journal:
ocfs2_commit_trans(osb, handle);
out_unlock:
ocfs2_inode_unlock(inode, 1);
brelse(di_bh);
out_mutex:
mutex_unlock(&inode->i_mutex);
iput(inode);
out:
while(head) {
/* Premature exit may have left some dangling items. */
tmp = head;
head = head->free_next;
kfree(tmp);
}
return ret;
}
int ocfs2_cache_cluster_dealloc(struct ocfs2_cached_dealloc_ctxt *ctxt,
u64 blkno, unsigned int bit)
{
int ret = 0;
struct ocfs2_cached_block_free *item;
item = kzalloc(sizeof(*item), GFP_NOFS);
if (item == NULL) {
ret = -ENOMEM;
mlog_errno(ret);
return ret;
}
trace_ocfs2_cache_cluster_dealloc((unsigned long long)blkno, bit);
item->free_blk = blkno;
item->free_bit = bit;
item->free_next = ctxt->c_global_allocator;
ctxt->c_global_allocator = item;
return ret;
}
static int ocfs2_free_cached_clusters(struct ocfs2_super *osb,
struct ocfs2_cached_block_free *head)
{
struct ocfs2_cached_block_free *tmp;
struct inode *tl_inode = osb->osb_tl_inode;
handle_t *handle;
int ret = 0;
mutex_lock(&tl_inode->i_mutex);
while (head) {
if (ocfs2_truncate_log_needs_flush(osb)) {
ret = __ocfs2_flush_truncate_log(osb);
if (ret < 0) {
mlog_errno(ret);
break;
}
}
handle = ocfs2_start_trans(osb, OCFS2_TRUNCATE_LOG_UPDATE);
if (IS_ERR(handle)) {
ret = PTR_ERR(handle);
mlog_errno(ret);
break;
}
ret = ocfs2_truncate_log_append(osb, handle, head->free_blk,
head->free_bit);
ocfs2_commit_trans(osb, handle);
tmp = head;
head = head->free_next;
kfree(tmp);
if (ret < 0) {
mlog_errno(ret);
break;
}
}
mutex_unlock(&tl_inode->i_mutex);
while (head) {
/* Premature exit may have left some dangling items. */
tmp = head;
head = head->free_next;
kfree(tmp);
}
return ret;
}
int ocfs2_run_deallocs(struct ocfs2_super *osb,
struct ocfs2_cached_dealloc_ctxt *ctxt)
{
int ret = 0, ret2;
struct ocfs2_per_slot_free_list *fl;
if (!ctxt)
return 0;
while (ctxt->c_first_suballocator) {
fl = ctxt->c_first_suballocator;
if (fl->f_first) {
trace_ocfs2_run_deallocs(fl->f_inode_type,
fl->f_slot);
ret2 = ocfs2_free_cached_blocks(osb,
fl->f_inode_type,
fl->f_slot,
fl->f_first);
if (ret2)
mlog_errno(ret2);
if (!ret)
ret = ret2;
}
ctxt->c_first_suballocator = fl->f_next_suballocator;
kfree(fl);
}
if (ctxt->c_global_allocator) {
ret2 = ocfs2_free_cached_clusters(osb,
ctxt->c_global_allocator);
if (ret2)
mlog_errno(ret2);
if (!ret)
ret = ret2;
ctxt->c_global_allocator = NULL;
}
return ret;
}
static struct ocfs2_per_slot_free_list *
ocfs2_find_per_slot_free_list(int type,
int slot,
struct ocfs2_cached_dealloc_ctxt *ctxt)
{
struct ocfs2_per_slot_free_list *fl = ctxt->c_first_suballocator;
while (fl) {
if (fl->f_inode_type == type && fl->f_slot == slot)
return fl;
fl = fl->f_next_suballocator;
}
fl = kmalloc(sizeof(*fl), GFP_NOFS);
if (fl) {
fl->f_inode_type = type;
fl->f_slot = slot;
fl->f_first = NULL;
fl->f_next_suballocator = ctxt->c_first_suballocator;
ctxt->c_first_suballocator = fl;
}
return fl;
}
int ocfs2_cache_block_dealloc(struct ocfs2_cached_dealloc_ctxt *ctxt,
int type, int slot, u64 suballoc,
u64 blkno, unsigned int bit)
{
int ret;
struct ocfs2_per_slot_free_list *fl;
struct ocfs2_cached_block_free *item;
fl = ocfs2_find_per_slot_free_list(type, slot, ctxt);
if (fl == NULL) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
item = kzalloc(sizeof(*item), GFP_NOFS);
if (item == NULL) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
trace_ocfs2_cache_block_dealloc(type, slot,
(unsigned long long)suballoc,
(unsigned long long)blkno, bit);
item->free_bg = suballoc;
item->free_blk = blkno;
item->free_bit = bit;
item->free_next = fl->f_first;
fl->f_first = item;
ret = 0;
out:
return ret;
}
static int ocfs2_cache_extent_block_free(struct ocfs2_cached_dealloc_ctxt *ctxt,
struct ocfs2_extent_block *eb)
{
return ocfs2_cache_block_dealloc(ctxt, EXTENT_ALLOC_SYSTEM_INODE,
le16_to_cpu(eb->h_suballoc_slot),
le64_to_cpu(eb->h_suballoc_loc),
le64_to_cpu(eb->h_blkno),
le16_to_cpu(eb->h_suballoc_bit));
}
static int ocfs2_zero_func(handle_t *handle, struct buffer_head *bh)
{
set_buffer_uptodate(bh);
mark_buffer_dirty(bh);
return 0;
}
void ocfs2_map_and_dirty_page(struct inode *inode, handle_t *handle,
unsigned int from, unsigned int to,
struct page *page, int zero, u64 *phys)
{
int ret, partial = 0;
ret = ocfs2_map_page_blocks(page, phys, inode, from, to, 0);
if (ret)
mlog_errno(ret);
if (zero)
zero_user_segment(page, from, to);
/*
* Need to set the buffers we zero'd into uptodate
* here if they aren't - ocfs2_map_page_blocks()
* might've skipped some
*/
ret = walk_page_buffers(handle, page_buffers(page),
from, to, &partial,
ocfs2_zero_func);
if (ret < 0)
mlog_errno(ret);
else if (ocfs2_should_order_data(inode)) {
ret = ocfs2_jbd2_file_inode(handle, inode);
if (ret < 0)
mlog_errno(ret);
}
if (!partial)
SetPageUptodate(page);
flush_dcache_page(page);
}
static void ocfs2_zero_cluster_pages(struct inode *inode, loff_t start,
loff_t end, struct page **pages,
int numpages, u64 phys, handle_t *handle)
{
int i;
struct page *page;
unsigned int from, to = PAGE_CACHE_SIZE;
struct super_block *sb = inode->i_sb;
BUG_ON(!ocfs2_sparse_alloc(OCFS2_SB(sb)));
if (numpages == 0)
goto out;
to = PAGE_CACHE_SIZE;
for(i = 0; i < numpages; i++) {
page = pages[i];
from = start & (PAGE_CACHE_SIZE - 1);
if ((end >> PAGE_CACHE_SHIFT) == page->index)
to = end & (PAGE_CACHE_SIZE - 1);
BUG_ON(from > PAGE_CACHE_SIZE);
BUG_ON(to > PAGE_CACHE_SIZE);
ocfs2_map_and_dirty_page(inode, handle, from, to, page, 1,
&phys);
start = (page->index + 1) << PAGE_CACHE_SHIFT;
}
out:
if (pages)
ocfs2_unlock_and_free_pages(pages, numpages);
}
int ocfs2_grab_pages(struct inode *inode, loff_t start, loff_t end,
struct page **pages, int *num)
{
int numpages, ret = 0;
struct address_space *mapping = inode->i_mapping;
unsigned long index;
loff_t last_page_bytes;
BUG_ON(start > end);
numpages = 0;
last_page_bytes = PAGE_ALIGN(end);
index = start >> PAGE_CACHE_SHIFT;
do {
pages[numpages] = find_or_create_page(mapping, index, GFP_NOFS);
if (!pages[numpages]) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
numpages++;
index++;
} while (index < (last_page_bytes >> PAGE_CACHE_SHIFT));
out:
if (ret != 0) {
if (pages)
ocfs2_unlock_and_free_pages(pages, numpages);
numpages = 0;
}
*num = numpages;
return ret;
}
static int ocfs2_grab_eof_pages(struct inode *inode, loff_t start, loff_t end,
struct page **pages, int *num)
{
struct super_block *sb = inode->i_sb;
BUG_ON(start >> OCFS2_SB(sb)->s_clustersize_bits !=
(end - 1) >> OCFS2_SB(sb)->s_clustersize_bits);
return ocfs2_grab_pages(inode, start, end, pages, num);
}
/*
* Zero the area past i_size but still within an allocated
* cluster. This avoids exposing nonzero data on subsequent file
* extends.
*
* We need to call this before i_size is updated on the inode because
* otherwise block_write_full_page() will skip writeout of pages past
* i_size. The new_i_size parameter is passed for this reason.
*/
int ocfs2_zero_range_for_truncate(struct inode *inode, handle_t *handle,
u64 range_start, u64 range_end)
{
int ret = 0, numpages;
struct page **pages = NULL;
u64 phys;
unsigned int ext_flags;
struct super_block *sb = inode->i_sb;
/*
* File systems which don't support sparse files zero on every
* extend.
*/
if (!ocfs2_sparse_alloc(OCFS2_SB(sb)))
return 0;
pages = kcalloc(ocfs2_pages_per_cluster(sb),
sizeof(struct page *), GFP_NOFS);
if (pages == NULL) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
if (range_start == range_end)
goto out;
ret = ocfs2_extent_map_get_blocks(inode,
range_start >> sb->s_blocksize_bits,
&phys, NULL, &ext_flags);
if (ret) {
mlog_errno(ret);
goto out;
}
/*
* Tail is a hole, or is marked unwritten. In either case, we
* can count on read and write to return/push zero's.
*/
if (phys == 0 || ext_flags & OCFS2_EXT_UNWRITTEN)
goto out;
ret = ocfs2_grab_eof_pages(inode, range_start, range_end, pages,
&numpages);
if (ret) {
mlog_errno(ret);
goto out;
}
ocfs2_zero_cluster_pages(inode, range_start, range_end, pages,
numpages, phys, handle);
/*
* Initiate writeout of the pages we zero'd here. We don't
* wait on them - the truncate_inode_pages() call later will
* do that for us.
*/
ret = filemap_fdatawrite_range(inode->i_mapping, range_start,
range_end - 1);
if (ret)
mlog_errno(ret);
out:
if (pages)
kfree(pages);
return ret;
}
static void ocfs2_zero_dinode_id2_with_xattr(struct inode *inode,
struct ocfs2_dinode *di)
{
unsigned int blocksize = 1 << inode->i_sb->s_blocksize_bits;
unsigned int xattrsize = le16_to_cpu(di->i_xattr_inline_size);
if (le16_to_cpu(di->i_dyn_features) & OCFS2_INLINE_XATTR_FL)
memset(&di->id2, 0, blocksize -
offsetof(struct ocfs2_dinode, id2) -
xattrsize);
else
memset(&di->id2, 0, blocksize -
offsetof(struct ocfs2_dinode, id2));
}
void ocfs2_dinode_new_extent_list(struct inode *inode,
struct ocfs2_dinode *di)
{
ocfs2_zero_dinode_id2_with_xattr(inode, di);
di->id2.i_list.l_tree_depth = 0;
di->id2.i_list.l_next_free_rec = 0;
di->id2.i_list.l_count = cpu_to_le16(
ocfs2_extent_recs_per_inode_with_xattr(inode->i_sb, di));
}
void ocfs2_set_inode_data_inline(struct inode *inode, struct ocfs2_dinode *di)
{
struct ocfs2_inode_info *oi = OCFS2_I(inode);
struct ocfs2_inline_data *idata = &di->id2.i_data;
spin_lock(&oi->ip_lock);
oi->ip_dyn_features |= OCFS2_INLINE_DATA_FL;
di->i_dyn_features = cpu_to_le16(oi->ip_dyn_features);
spin_unlock(&oi->ip_lock);
/*
* We clear the entire i_data structure here so that all
* fields can be properly initialized.
*/
ocfs2_zero_dinode_id2_with_xattr(inode, di);
idata->id_count = cpu_to_le16(
ocfs2_max_inline_data_with_xattr(inode->i_sb, di));
}
int ocfs2_convert_inline_data_to_extents(struct inode *inode,
struct buffer_head *di_bh)
{
int ret, i, has_data, num_pages = 0;
handle_t *handle;
u64 uninitialized_var(block);
struct ocfs2_inode_info *oi = OCFS2_I(inode);
struct ocfs2_super *osb = OCFS2_SB(inode->i_sb);
struct ocfs2_dinode *di = (struct ocfs2_dinode *)di_bh->b_data;
struct ocfs2_alloc_context *data_ac = NULL;
struct page **pages = NULL;
loff_t end = osb->s_clustersize;
struct ocfs2_extent_tree et;
int did_quota = 0;
has_data = i_size_read(inode) ? 1 : 0;
if (has_data) {
pages = kcalloc(ocfs2_pages_per_cluster(osb->sb),
sizeof(struct page *), GFP_NOFS);
if (pages == NULL) {
ret = -ENOMEM;
mlog_errno(ret);
goto out;
}
ret = ocfs2_reserve_clusters(osb, 1, &data_ac);
if (ret) {
mlog_errno(ret);
goto out;
}
}
handle = ocfs2_start_trans(osb,
ocfs2_inline_to_extents_credits(osb->sb));
if (IS_ERR(handle)) {
ret = PTR_ERR(handle);
mlog_errno(ret);
goto out_unlock;
}
ret = ocfs2_journal_access_di(handle, INODE_CACHE(inode), di_bh,
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
if (has_data) {
u32 bit_off, num;
unsigned int page_end;
u64 phys;
ret = dquot_alloc_space_nodirty(inode,
ocfs2_clusters_to_bytes(osb->sb, 1));
if (ret)
goto out_commit;
did_quota = 1;
data_ac->ac_resv = &OCFS2_I(inode)->ip_la_data_resv;
ret = ocfs2_claim_clusters(handle, data_ac, 1, &bit_off,
&num);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
/*
* Save two copies, one for insert, and one that can
* be changed by ocfs2_map_and_dirty_page() below.
*/
block = phys = ocfs2_clusters_to_blocks(inode->i_sb, bit_off);
/*
* Non sparse file systems zero on extend, so no need
* to do that now.
*/
if (!ocfs2_sparse_alloc(osb) &&
PAGE_CACHE_SIZE < osb->s_clustersize)
end = PAGE_CACHE_SIZE;
ret = ocfs2_grab_eof_pages(inode, 0, end, pages, &num_pages);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
/*
* This should populate the 1st page for us and mark
* it up to date.
*/
ret = ocfs2_read_inline_data(inode, pages[0], di_bh);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
page_end = PAGE_CACHE_SIZE;
if (PAGE_CACHE_SIZE > osb->s_clustersize)
page_end = osb->s_clustersize;
for (i = 0; i < num_pages; i++)
ocfs2_map_and_dirty_page(inode, handle, 0, page_end,
pages[i], i > 0, &phys);
}
spin_lock(&oi->ip_lock);
oi->ip_dyn_features &= ~OCFS2_INLINE_DATA_FL;
di->i_dyn_features = cpu_to_le16(oi->ip_dyn_features);
spin_unlock(&oi->ip_lock);
ocfs2_dinode_new_extent_list(inode, di);
ocfs2_journal_dirty(handle, di_bh);
if (has_data) {
/*
* An error at this point should be extremely rare. If
* this proves to be false, we could always re-build
* the in-inode data from our pages.
*/
ocfs2_init_dinode_extent_tree(&et, INODE_CACHE(inode), di_bh);
ret = ocfs2_insert_extent(handle, &et, 0, block, 1, 0, NULL);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
inode->i_blocks = ocfs2_inode_sector_count(inode);
}
out_commit:
if (ret < 0 && did_quota)
dquot_free_space_nodirty(inode,
ocfs2_clusters_to_bytes(osb->sb, 1));
ocfs2_commit_trans(osb, handle);
out_unlock:
if (data_ac)
ocfs2_free_alloc_context(data_ac);
out:
if (pages) {
ocfs2_unlock_and_free_pages(pages, num_pages);
kfree(pages);
}
return ret;
}
/*
* It is expected, that by the time you call this function,
* inode->i_size and fe->i_size have been adjusted.
*
* WARNING: This will kfree the truncate context
*/
int ocfs2_commit_truncate(struct ocfs2_super *osb,
struct inode *inode,
struct buffer_head *di_bh)
{
int status = 0, i, flags = 0;
u32 new_highest_cpos, range, trunc_cpos, trunc_len, phys_cpos, coff;
u64 blkno = 0;
struct ocfs2_extent_list *el;
struct ocfs2_extent_rec *rec;
struct ocfs2_path *path = NULL;
struct ocfs2_dinode *di = (struct ocfs2_dinode *)di_bh->b_data;
struct ocfs2_extent_list *root_el = &(di->id2.i_list);
u64 refcount_loc = le64_to_cpu(di->i_refcount_loc);
struct ocfs2_extent_tree et;
struct ocfs2_cached_dealloc_ctxt dealloc;
ocfs2_init_dinode_extent_tree(&et, INODE_CACHE(inode), di_bh);
ocfs2_init_dealloc_ctxt(&dealloc);
new_highest_cpos = ocfs2_clusters_for_bytes(osb->sb,
i_size_read(inode));
path = ocfs2_new_path(di_bh, &di->id2.i_list,
ocfs2_journal_access_di);
if (!path) {
status = -ENOMEM;
mlog_errno(status);
goto bail;
}
ocfs2_extent_map_trunc(inode, new_highest_cpos);
start:
/*
* Check that we still have allocation to delete.
*/
if (OCFS2_I(inode)->ip_clusters == 0) {
status = 0;
goto bail;
}
/*
* Truncate always works against the rightmost tree branch.
*/
status = ocfs2_find_path(INODE_CACHE(inode), path, UINT_MAX);
if (status) {
mlog_errno(status);
goto bail;
}
trace_ocfs2_commit_truncate(
(unsigned long long)OCFS2_I(inode)->ip_blkno,
new_highest_cpos,
OCFS2_I(inode)->ip_clusters,
path->p_tree_depth);
/*
* By now, el will point to the extent list on the bottom most
* portion of this tree. Only the tail record is considered in
* each pass.
*
* We handle the following cases, in order:
* - empty extent: delete the remaining branch
* - remove the entire record
* - remove a partial record
* - no record needs to be removed (truncate has completed)
*/
el = path_leaf_el(path);
if (le16_to_cpu(el->l_next_free_rec) == 0) {
ocfs2_error(inode->i_sb,
"Inode %llu has empty extent block at %llu\n",
(unsigned long long)OCFS2_I(inode)->ip_blkno,
(unsigned long long)path_leaf_bh(path)->b_blocknr);
status = -EROFS;
goto bail;
}
i = le16_to_cpu(el->l_next_free_rec) - 1;
rec = &el->l_recs[i];
flags = rec->e_flags;
range = le32_to_cpu(rec->e_cpos) + ocfs2_rec_clusters(el, rec);
if (i == 0 && ocfs2_is_empty_extent(rec)) {
/*
* Lower levels depend on this never happening, but it's best
* to check it up here before changing the tree.
*/
if (root_el->l_tree_depth && rec->e_int_clusters == 0) {
ocfs2_error(inode->i_sb, "Inode %lu has an empty "
"extent record, depth %u\n", inode->i_ino,
le16_to_cpu(root_el->l_tree_depth));
status = -EROFS;
goto bail;
}
trunc_cpos = le32_to_cpu(rec->e_cpos);
trunc_len = 0;
blkno = 0;
} else if (le32_to_cpu(rec->e_cpos) >= new_highest_cpos) {
/*
* Truncate entire record.
*/
trunc_cpos = le32_to_cpu(rec->e_cpos);
trunc_len = ocfs2_rec_clusters(el, rec);
blkno = le64_to_cpu(rec->e_blkno);
} else if (range > new_highest_cpos) {
/*
* Partial truncate. it also should be
* the last truncate we're doing.
*/
trunc_cpos = new_highest_cpos;
trunc_len = range - new_highest_cpos;
coff = new_highest_cpos - le32_to_cpu(rec->e_cpos);
blkno = le64_to_cpu(rec->e_blkno) +
ocfs2_clusters_to_blocks(inode->i_sb, coff);
} else {
/*
* Truncate completed, leave happily.
*/
status = 0;
goto bail;
}
phys_cpos = ocfs2_blocks_to_clusters(inode->i_sb, blkno);
status = ocfs2_remove_btree_range(inode, &et, trunc_cpos,
phys_cpos, trunc_len, flags, &dealloc,
refcount_loc);
if (status < 0) {
mlog_errno(status);
goto bail;
}
ocfs2_reinit_path(path, 1);
/*
* The check above will catch the case where we've truncated
* away all allocation.
*/
goto start;
bail:
ocfs2_schedule_truncate_log_flush(osb, 1);
ocfs2_run_deallocs(osb, &dealloc);
ocfs2_free_path(path);
return status;
}
/*
* 'start' is inclusive, 'end' is not.
*/
int ocfs2_truncate_inline(struct inode *inode, struct buffer_head *di_bh,
unsigned int start, unsigned int end, int trunc)
{
int ret;
unsigned int numbytes;
handle_t *handle;
struct ocfs2_super *osb = OCFS2_SB(inode->i_sb);
struct ocfs2_dinode *di = (struct ocfs2_dinode *)di_bh->b_data;
struct ocfs2_inline_data *idata = &di->id2.i_data;
if (end > i_size_read(inode))
end = i_size_read(inode);
BUG_ON(start >= end);
if (!(OCFS2_I(inode)->ip_dyn_features & OCFS2_INLINE_DATA_FL) ||
!(le16_to_cpu(di->i_dyn_features) & OCFS2_INLINE_DATA_FL) ||
!ocfs2_supports_inline_data(osb)) {
ocfs2_error(inode->i_sb,
"Inline data flags for inode %llu don't agree! "
"Disk: 0x%x, Memory: 0x%x, Superblock: 0x%x\n",
(unsigned long long)OCFS2_I(inode)->ip_blkno,
le16_to_cpu(di->i_dyn_features),
OCFS2_I(inode)->ip_dyn_features,
osb->s_feature_incompat);
ret = -EROFS;
goto out;
}
handle = ocfs2_start_trans(osb, OCFS2_INODE_UPDATE_CREDITS);
if (IS_ERR(handle)) {
ret = PTR_ERR(handle);
mlog_errno(ret);
goto out;
}
ret = ocfs2_journal_access_di(handle, INODE_CACHE(inode), di_bh,
OCFS2_JOURNAL_ACCESS_WRITE);
if (ret) {
mlog_errno(ret);
goto out_commit;
}
numbytes = end - start;
memset(idata->id_data + start, 0, numbytes);
/*
* No need to worry about the data page here - it's been
* truncated already and inline data doesn't need it for
* pushing zero's to disk, so we'll let readpage pick it up
* later.
*/
if (trunc) {
i_size_write(inode, start);
di->i_size = cpu_to_le64(start);
}
inode->i_blocks = ocfs2_inode_sector_count(inode);
inode->i_ctime = inode->i_mtime = CURRENT_TIME;
di->i_ctime = di->i_mtime = cpu_to_le64(inode->i_ctime.tv_sec);
di->i_ctime_nsec = di->i_mtime_nsec = cpu_to_le32(inode->i_ctime.tv_nsec);
ocfs2_journal_dirty(handle, di_bh);
out_commit:
ocfs2_commit_trans(osb, handle);
out:
return ret;
}
static int ocfs2_trim_extent(struct super_block *sb,
struct ocfs2_group_desc *gd,
u32 start, u32 count)
{
u64 discard, bcount;
bcount = ocfs2_clusters_to_blocks(sb, count);
discard = le64_to_cpu(gd->bg_blkno) +
ocfs2_clusters_to_blocks(sb, start);
trace_ocfs2_trim_extent(sb, (unsigned long long)discard, bcount);
return sb_issue_discard(sb, discard, bcount, GFP_NOFS, 0);
}
static int ocfs2_trim_group(struct super_block *sb,
struct ocfs2_group_desc *gd,
u32 start, u32 max, u32 minbits)
{
int ret = 0, count = 0, next;
void *bitmap = gd->bg_bitmap;
if (le16_to_cpu(gd->bg_free_bits_count) < minbits)
return 0;
trace_ocfs2_trim_group((unsigned long long)le64_to_cpu(gd->bg_blkno),
start, max, minbits);
while (start < max) {
start = ocfs2_find_next_zero_bit(bitmap, max, start);
if (start >= max)
break;
next = ocfs2_find_next_bit(bitmap, max, start);
if ((next - start) >= minbits) {
ret = ocfs2_trim_extent(sb, gd,
start, next - start);
if (ret < 0) {
mlog_errno(ret);
break;
}
count += next - start;
}
start = next + 1;
if (fatal_signal_pending(current)) {
count = -ERESTARTSYS;
break;
}
if ((le16_to_cpu(gd->bg_free_bits_count) - count) < minbits)
break;
}
if (ret < 0)
count = ret;
return count;
}
int ocfs2_trim_fs(struct super_block *sb, struct fstrim_range *range)
{
struct ocfs2_super *osb = OCFS2_SB(sb);
u64 start, len, trimmed, first_group, last_group, group;
int ret, cnt;
u32 first_bit, last_bit, minlen;
struct buffer_head *main_bm_bh = NULL;
struct inode *main_bm_inode = NULL;
struct buffer_head *gd_bh = NULL;
struct ocfs2_dinode *main_bm;
struct ocfs2_group_desc *gd = NULL;
start = range->start >> osb->s_clustersize_bits;
len = range->len >> osb->s_clustersize_bits;
minlen = range->minlen >> osb->s_clustersize_bits;
trimmed = 0;
if (!len) {
range->len = 0;
return 0;
}
if (minlen >= osb->bitmap_cpg)
return -EINVAL;
main_bm_inode = ocfs2_get_system_file_inode(osb,
GLOBAL_BITMAP_SYSTEM_INODE,
OCFS2_INVALID_SLOT);
if (!main_bm_inode) {
ret = -EIO;
mlog_errno(ret);
goto out;
}
mutex_lock(&main_bm_inode->i_mutex);
ret = ocfs2_inode_lock(main_bm_inode, &main_bm_bh, 0);
if (ret < 0) {
mlog_errno(ret);
goto out_mutex;
}
main_bm = (struct ocfs2_dinode *)main_bm_bh->b_data;
if (start >= le32_to_cpu(main_bm->i_clusters)) {
ret = -EINVAL;
goto out_unlock;
}
if (start + len > le32_to_cpu(main_bm->i_clusters))
len = le32_to_cpu(main_bm->i_clusters) - start;
trace_ocfs2_trim_fs(start, len, minlen);
/* Determine first and last group to examine based on start and len */
first_group = ocfs2_which_cluster_group(main_bm_inode, start);
if (first_group == osb->first_cluster_group_blkno)
first_bit = start;
else
first_bit = start - ocfs2_blocks_to_clusters(sb, first_group);
last_group = ocfs2_which_cluster_group(main_bm_inode, start + len - 1);
last_bit = osb->bitmap_cpg;
for (group = first_group; group <= last_group;) {
if (first_bit + len >= osb->bitmap_cpg)
last_bit = osb->bitmap_cpg;
else
last_bit = first_bit + len;
ret = ocfs2_read_group_descriptor(main_bm_inode,
main_bm, group,
&gd_bh);
if (ret < 0) {
mlog_errno(ret);
break;
}
gd = (struct ocfs2_group_desc *)gd_bh->b_data;
cnt = ocfs2_trim_group(sb, gd, first_bit, last_bit, minlen);
brelse(gd_bh);
gd_bh = NULL;
if (cnt < 0) {
ret = cnt;
mlog_errno(ret);
break;
}
trimmed += cnt;
len -= osb->bitmap_cpg - first_bit;
first_bit = 0;
if (group == osb->first_cluster_group_blkno)
group = ocfs2_clusters_to_blocks(sb, osb->bitmap_cpg);
else
group += ocfs2_clusters_to_blocks(sb, osb->bitmap_cpg);
}
range->len = trimmed * sb->s_blocksize;
out_unlock:
ocfs2_inode_unlock(main_bm_inode, 0);
brelse(main_bm_bh);
out_mutex:
mutex_unlock(&main_bm_inode->i_mutex);
iput(main_bm_inode);
out:
return ret;
}