/* $NetBSD: v7fs_datablock.c,v 1.5 2011/08/14 09:02:07 apb Exp $ */
/*-
* Copyright (c) 2011 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by UCHIYAMA Yasushi.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#if HAVE_NBTOOL_CONFIG_H
#include "nbtool_config.h"
#endif
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: v7fs_datablock.c,v 1.5 2011/08/14 09:02:07 apb Exp $");
#if defined _KERNEL_OPT
#include "opt_v7fs.h"
#endif
#include <sys/types.h>
#ifdef _KERNEL
#include <sys/systm.h>
#include <sys/param.h>
#else
#include <stdio.h>
#include <string.h>
#include <errno.h>
#endif
#include "v7fs.h"
#include "v7fs_impl.h"
#include "v7fs_endian.h"
#include "v7fs_inode.h"
#include "v7fs_datablock.h"
#include "v7fs_superblock.h"
#ifdef V7FS_DATABLOCK_DEBUG
#define DPRINTF(fmt, args...) printf("%s: " fmt, __func__, ##args)
#else
#define DPRINTF(fmt, args...) ((void)0)
#endif
static int v7fs_datablock_deallocate(struct v7fs_self *, v7fs_daddr_t);
static int v7fs_loop1(struct v7fs_self *, v7fs_daddr_t, size_t *,
int (*)(struct v7fs_self *, void *, v7fs_daddr_t, size_t), void *);
static int v7fs_loop2(struct v7fs_self *, v7fs_daddr_t, size_t *,
int (*)(struct v7fs_self *, void *, v7fs_daddr_t, size_t), void *);
static v7fs_daddr_t v7fs_link(struct v7fs_self *, v7fs_daddr_t, int);
static v7fs_daddr_t v7fs_add_leaf(struct v7fs_self *, v7fs_daddr_t, int);
static v7fs_daddr_t v7fs_unlink(struct v7fs_self *, v7fs_daddr_t, int);
static v7fs_daddr_t v7fs_remove_leaf(struct v7fs_self *, v7fs_daddr_t, int);
static v7fs_daddr_t v7fs_remove_self(struct v7fs_self *, v7fs_daddr_t);
#ifdef V7FS_DATABLOCK_DEBUG
void daddr_map_dump(const struct v7fs_daddr_map *);
#else
#define daddr_map_dump(x) ((void)0)
#endif
bool
datablock_number_sanity(const struct v7fs_self *fs, v7fs_daddr_t blk)
{
const struct v7fs_superblock *sb = &fs->superblock;
bool ok = (blk >= sb->datablock_start_sector) &&
(blk < sb->volume_size);
#ifdef V7FS_DATABLOCK_DEBUG
if (!ok) {
DPRINTF("Bad data block #%d\n", blk);
}
#endif
return ok;
}
int
v7fs_datablock_allocate(struct v7fs_self *fs, v7fs_daddr_t *block_number)
{
struct v7fs_superblock *sb = &fs->superblock;
v7fs_daddr_t blk;
int error = 0;
*block_number = 0;
SUPERB_LOCK(fs);
do {
if (!sb->total_freeblock) {
DPRINTF("free block exhausted!!!\n");
SUPERB_UNLOCK(fs);
return ENOSPC;
}
/* Get free block from superblock cache. */
blk = sb->freeblock[--sb->nfreeblock];
sb->total_freeblock--;
sb->modified = 1;
/* If nfreeblock is zero, it block is next freeblock link. */
if (sb->nfreeblock == 0) {
if ((error = v7fs_freeblock_update(fs, blk))) {
DPRINTF("no freeblock!!!\n");
SUPERB_UNLOCK(fs);
return error;
}
/* This freeblock link is no longer required. */
/* use as data block. */
}
} while (!datablock_number_sanity(fs, blk)); /* skip bogus block. */
SUPERB_UNLOCK(fs);
DPRINTF("Get freeblock %d\n", blk);
/* Zero clear datablock. */
void *buf;
if (!(buf = scratch_read(fs, blk)))
return EIO;
memset(buf, 0, V7FS_BSIZE);
if (!fs->io.write(fs->io.cookie, buf, blk))
error = EIO;
scratch_free(fs, buf);
if (error == 0)
*block_number = blk;
return error;
}
static int
v7fs_datablock_deallocate(struct v7fs_self *fs, v7fs_daddr_t blk)
{
struct v7fs_superblock *sb = &fs->superblock;
void *buf;
int error = 0;
if (!datablock_number_sanity(fs, blk))
return EIO;
/* Add to in-core freelist. */
SUPERB_LOCK(fs);
if (sb->nfreeblock < V7FS_MAX_FREEBLOCK) {
sb->freeblock[sb->nfreeblock++] = blk;
sb->total_freeblock++;
sb->modified = 1;
DPRINTF("n_freeblock=%d\n", sb->total_freeblock);
SUPERB_UNLOCK(fs);
return 0;
}
/* No space to push. */
/* Make this block to freeblock list.and current cache moved to this. */
if (!(buf = scratch_read(fs, blk))) {
SUPERB_UNLOCK(fs);
return EIO; /* Fatal */
}
struct v7fs_freeblock *fb = (struct v7fs_freeblock *)buf;
fb->nfreeblock = V7FS_MAX_FREEBLOCK;
int i;
for (i = 0; i < V7FS_MAX_FREEBLOCK; i++)
fb->freeblock[i] = V7FS_VAL32(fs, sb->freeblock[i]);
if (!fs->io.write(fs->io.cookie, (uint8_t *)fb, blk)) {
error = EIO; /* Fatal */
} else {
/* Link. on next allocate, this block is used as datablock, */
/* and swap outed freeblock list is restored. */
sb->freeblock[0] = blk;
sb->nfreeblock = 1;
sb->total_freeblock++;
sb->modified = 1;
DPRINTF("n_freeblock=%d\n", sb->total_freeblock);
}
SUPERB_UNLOCK(fs);
scratch_free(fs, buf);
return error;
}
int
v7fs_datablock_addr(size_t sz, struct v7fs_daddr_map *map)
{
#define NIDX V7FS_DADDR_PER_BLOCK
#define DIRECT_SZ (V7FS_NADDR_DIRECT * V7FS_BSIZE)
#define IDX1_SZ (NIDX * V7FS_BSIZE)
#define IDX2_SZ (NIDX * NIDX * V7FS_BSIZE)
#define ROUND(x, a) ((((x) + ((a) - 1)) & ~((a) - 1)))
if (!sz) {
map->level = 0;
map->index[0] = 0;
return 0;
}
sz = V7FS_ROUND_BSIZE(sz);
/* Direct */
if (sz <= DIRECT_SZ) {
map->level = 0;
map->index[0] = (sz >> V7FS_BSHIFT) - 1;
return 0;
}
/* Index 1 */
sz -= DIRECT_SZ;
if (sz <= IDX1_SZ) {
map->level = 1;
map->index[0] = (sz >> V7FS_BSHIFT) - 1;
return 0;
}
sz -= IDX1_SZ;
/* Index 2 */
if (sz <= IDX2_SZ) {
map->level = 2;
map->index[0] = ROUND(sz, IDX1_SZ) / IDX1_SZ - 1;
map->index[1] = ((sz - (map->index[0] * IDX1_SZ)) >>
V7FS_BSHIFT) - 1;
return 0;
}
sz -= IDX2_SZ;
/* Index 3 */
map->level = 3;
map->index[0] = ROUND(sz, IDX2_SZ) / IDX2_SZ - 1;
sz -= map->index[0] * IDX2_SZ;
map->index[1] = ROUND(sz, IDX1_SZ) / IDX1_SZ - 1;
sz -= map->index[1] * IDX1_SZ;
map->index[2] = (sz >> V7FS_BSHIFT) - 1;
return map->index[2] >= NIDX ? ENOSPC : 0;
}
int
v7fs_datablock_foreach(struct v7fs_self *fs, struct v7fs_inode *p,
int (*func)(struct v7fs_self *, void *, v7fs_daddr_t, size_t), void *ctx)
{
size_t i;
v7fs_daddr_t blk, blk2;
size_t filesize;
bool last;
int ret;
if (!(filesize = v7fs_inode_filesize(p)))
return V7FS_ITERATOR_END;
#ifdef V7FS_DATABLOCK_DEBUG
size_t sz = filesize;
#endif
/* Direct */
for (i = 0; i < V7FS_NADDR_DIRECT; i++, filesize -= V7FS_BSIZE) {
blk = p->addr[i];
if (!datablock_number_sanity(fs, blk)) {
DPRINTF("inode#%d direct=%zu filesize=%zu\n",
p->inode_number, i, sz);
return EIO;
}
last = filesize <= V7FS_BSIZE;
if ((ret = func(fs, ctx, blk, last ? filesize : V7FS_BSIZE)))
return ret;
if (last)
return V7FS_ITERATOR_END;
}
/* Index 1 */
blk = p->addr[V7FS_NADDR_INDEX1];
if (!datablock_number_sanity(fs, blk))
return EIO;
if ((ret = v7fs_loop1(fs, blk, &filesize, func, ctx)))
return ret;
/* Index 2 */
blk = p->addr[V7FS_NADDR_INDEX2];
if (!datablock_number_sanity(fs, blk))
return EIO;
if ((ret = v7fs_loop2(fs, blk, &filesize, func, ctx)))
return ret;
/* Index 3 */
blk = p->addr[V7FS_NADDR_INDEX3];
if (!datablock_number_sanity(fs, blk))
return EIO;
for (i = 0; i < V7FS_DADDR_PER_BLOCK; i++) {
blk2 = v7fs_link(fs, blk, i);
if (!datablock_number_sanity(fs, blk))
return EIO;
if ((ret = v7fs_loop2(fs, blk2, &filesize, func, ctx)))
return ret;
}
return EFBIG;
}
static int
v7fs_loop2(struct v7fs_self *fs, v7fs_daddr_t listblk, size_t *filesize,
int (*func)(struct v7fs_self *, void *, v7fs_daddr_t, size_t), void *ctx)
{
v7fs_daddr_t blk;
int ret;
size_t j;
for (j = 0; j < V7FS_DADDR_PER_BLOCK; j++) {
blk = v7fs_link(fs, listblk, j);
if (!datablock_number_sanity(fs, blk))
return EIO;
if ((ret = v7fs_loop1(fs, blk, filesize, func, ctx)))
return ret;
}
return 0;
}
static int
v7fs_loop1(struct v7fs_self *fs, v7fs_daddr_t listblk, size_t *filesize,
int (*func)(struct v7fs_self *, void *, v7fs_daddr_t, size_t), void *ctx)
{
v7fs_daddr_t blk;
bool last;
int ret;
size_t k;
for (k = 0; k < V7FS_DADDR_PER_BLOCK; k++, *filesize -= V7FS_BSIZE) {
blk = v7fs_link(fs, listblk, k);
if (!datablock_number_sanity(fs, blk))
return EIO;
last = *filesize <= V7FS_BSIZE;
if ((ret = func(fs, ctx, blk, last ? *filesize : V7FS_BSIZE)))
return ret;
if (last)
return V7FS_ITERATOR_END;
}
return 0;
}
v7fs_daddr_t
v7fs_datablock_last(struct v7fs_self *fs, struct v7fs_inode *inode,
v7fs_off_t ofs)
{
struct v7fs_daddr_map map;
v7fs_daddr_t blk = 0;
v7fs_daddr_t *addr = inode->addr;
/* Inquire last data block location. */
if (v7fs_datablock_addr(ofs, &map) != 0)
return 0;
switch (map.level)
{
case 0: /*Direct */
blk = inode->addr[map.index[0]];
break;
case 1: /*Index1 */
blk = v7fs_link(fs, addr[V7FS_NADDR_INDEX1], map.index[0]);
break;
case 2: /*Index2 */
blk = v7fs_link(fs, v7fs_link(fs,
addr[V7FS_NADDR_INDEX2], map.index[0]), map.index[1]);
break;
case 3: /*Index3 */
blk = v7fs_link(fs, v7fs_link(fs, v7fs_link(fs,
addr[V7FS_NADDR_INDEX3], map.index[0]), map.index[1]),
map.index[2]);
break;
}
return blk;
}
int
v7fs_datablock_expand(struct v7fs_self *fs, struct v7fs_inode *inode, size_t sz)
{
size_t old_filesize = inode->filesize;
size_t new_filesize = old_filesize + sz;
struct v7fs_daddr_map oldmap, newmap;
v7fs_daddr_t blk, idxblk;
int error;
v7fs_daddr_t old_nblk = V7FS_ROUND_BSIZE(old_filesize) >> V7FS_BSHIFT;
v7fs_daddr_t new_nblk = V7FS_ROUND_BSIZE(new_filesize) >> V7FS_BSHIFT;
if (old_nblk == new_nblk) {
inode->filesize += sz;
v7fs_inode_writeback(fs, inode);
return 0; /* no need to expand. */
}
struct v7fs_inode backup = *inode;
v7fs_daddr_t required_blk = new_nblk - old_nblk;
DPRINTF("%zu->%zu, required block=%d\n", old_filesize, new_filesize,
required_blk);
v7fs_datablock_addr(old_filesize, &oldmap);
v7fs_daddr_t i;
for (i = 0; i < required_blk; i++) {
v7fs_datablock_addr(old_filesize + (i+1) * V7FS_BSIZE, &newmap);
daddr_map_dump(&oldmap);
daddr_map_dump(&newmap);
if (oldmap.level != newmap.level) {
/* Allocate index area */
if ((error = v7fs_datablock_allocate(fs, &idxblk)))
return error;
switch (newmap.level) {
case 1:
DPRINTF("0->1\n");
inode->addr[V7FS_NADDR_INDEX1] = idxblk;
blk = v7fs_add_leaf(fs, idxblk, 0);
break;
case 2:
DPRINTF("1->2\n");
inode->addr[V7FS_NADDR_INDEX2] = idxblk;
blk = v7fs_add_leaf(fs, v7fs_add_leaf(fs,
idxblk, 0), 0);
break;
case 3:
DPRINTF("2->3\n");
inode->addr[V7FS_NADDR_INDEX3] = idxblk;
blk = v7fs_add_leaf(fs, v7fs_add_leaf(fs,
v7fs_add_leaf(fs, idxblk, 0), 0), 0);
break;
}
} else {
switch (newmap.level) {
case 0:
if ((error = v7fs_datablock_allocate(fs, &blk)))
return error;
inode->addr[newmap.index[0]] = blk;
DPRINTF("direct index %d = blk%d\n",
newmap.index[0], blk);
break;
case 1:
idxblk = inode->addr[V7FS_NADDR_INDEX1];
blk = v7fs_add_leaf(fs, idxblk,
newmap.index[0]);
break;
case 2:
idxblk = inode->addr[V7FS_NADDR_INDEX2];
if (oldmap.index[0] != newmap.index[0]) {
v7fs_add_leaf(fs, idxblk,
newmap.index[0]);
}
blk = v7fs_add_leaf(fs, v7fs_link(fs,idxblk,
newmap.index[0]), newmap.index[1]);
break;
case 3:
idxblk = inode->addr[V7FS_NADDR_INDEX3];
if (oldmap.index[0] != newmap.index[0]) {
v7fs_add_leaf(fs, idxblk,
newmap.index[0]);
}
if (oldmap.index[1] != newmap.index[1]) {
v7fs_add_leaf(fs, v7fs_link(fs, idxblk,
newmap.index[0]), newmap.index[1]);
}
blk = v7fs_add_leaf(fs, v7fs_link(fs,
v7fs_link(fs, idxblk, newmap.index[0]),
newmap.index[1]), newmap.index[2]);
break;
}
}
if (!blk) {
*inode = backup; /* structure copy; */
return ENOSPC;
}
oldmap = newmap;
}
inode->filesize += sz;
v7fs_inode_writeback(fs, inode);
return 0;
}
static v7fs_daddr_t
v7fs_link(struct v7fs_self *fs, v7fs_daddr_t listblk, int n)
{
v7fs_daddr_t *list;
v7fs_daddr_t blk;
void *buf;
if (!datablock_number_sanity(fs, listblk))
return 0;
if (!(buf = scratch_read(fs, listblk)))
return 0;
list = (v7fs_daddr_t *)buf;
blk = V7FS_VAL32(fs, list[n]);
scratch_free(fs, buf);
if (!datablock_number_sanity(fs, blk))
return 0;
return blk;
}
static v7fs_daddr_t
v7fs_add_leaf(struct v7fs_self *fs, v7fs_daddr_t up, int idx)
{
v7fs_daddr_t newblk;
v7fs_daddr_t *daddr_list;
int error = 0;
void *buf;
if (!up)
return 0;
if (!datablock_number_sanity(fs, up))
return 0;
if ((error = v7fs_datablock_allocate(fs, &newblk)))
return 0;
if (!(buf = scratch_read(fs, up)))
return 0;
daddr_list = (v7fs_daddr_t *)buf;
daddr_list[idx] = V7FS_VAL32(fs, newblk);
if (!fs->io.write(fs->io.cookie, buf, up))
newblk = 0;
scratch_free(fs, buf);
return newblk;
}
int
v7fs_datablock_contract(struct v7fs_self *fs, struct v7fs_inode *inode,
size_t sz)
{
size_t old_filesize = inode->filesize;
size_t new_filesize = old_filesize - sz;
struct v7fs_daddr_map oldmap, newmap;
v7fs_daddr_t blk, idxblk;
int error = 0;
v7fs_daddr_t old_nblk = V7FS_ROUND_BSIZE(old_filesize) >> V7FS_BSHIFT;
v7fs_daddr_t new_nblk = V7FS_ROUND_BSIZE(new_filesize) >> V7FS_BSHIFT;
if (old_nblk == new_nblk) {
inode->filesize -= sz;
v7fs_inode_writeback(fs, inode);
return 0; /* no need to contract; */
}
v7fs_daddr_t erase_blk = old_nblk - new_nblk;
DPRINTF("%zu->%zu # of erased block=%d\n", old_filesize, new_filesize,
erase_blk);
v7fs_datablock_addr(old_filesize, &oldmap);
v7fs_daddr_t i;
for (i = 0; i < erase_blk; i++) {
v7fs_datablock_addr(old_filesize - (i+1) * V7FS_BSIZE, &newmap);
if (oldmap.level != newmap.level) {
switch (newmap.level) {
case 0: /*1->0 */
DPRINTF("1->0\n");
idxblk = inode->addr[V7FS_NADDR_INDEX1];
inode->addr[V7FS_NADDR_INDEX1] = 0;
error = v7fs_datablock_deallocate(fs,
v7fs_remove_self(fs, idxblk));
break;
case 1: /*2->1 */
DPRINTF("2->1\n");
idxblk = inode->addr[V7FS_NADDR_INDEX2];
inode->addr[V7FS_NADDR_INDEX2] = 0;
error = v7fs_datablock_deallocate(fs,
v7fs_remove_self(fs, v7fs_remove_self(fs,
idxblk)));
break;
case 2:/*3->2 */
DPRINTF("3->2\n");
idxblk = inode->addr[V7FS_NADDR_INDEX3];
inode->addr[V7FS_NADDR_INDEX3] = 0;
error = v7fs_datablock_deallocate(fs,
v7fs_remove_self(fs, v7fs_remove_self(fs,
v7fs_remove_self(fs, idxblk))));
break;
}
} else {
switch (newmap.level) {
case 0:
DPRINTF("[0] %d\n", oldmap.index[0]);
blk = inode->addr[oldmap.index[0]];
error = v7fs_datablock_deallocate(fs, blk);
break;
case 1:
DPRINTF("[1] %d\n", oldmap.index[0]);
idxblk = inode->addr[V7FS_NADDR_INDEX1];
v7fs_remove_leaf(fs, idxblk, oldmap.index[0]);
break;
case 2:
DPRINTF("[2] %d %d\n", oldmap.index[0],
oldmap.index[1]);
idxblk = inode->addr[V7FS_NADDR_INDEX2];
v7fs_remove_leaf(fs, v7fs_link(fs, idxblk,
oldmap.index[0]), oldmap.index[1]);
if (oldmap.index[0] != newmap.index[0]) {
v7fs_remove_leaf(fs, idxblk,
oldmap.index[0]);
}
break;
case 3:
DPRINTF("[2] %d %d %d\n", oldmap.index[0],
oldmap.index[1], oldmap.index[2]);
idxblk = inode->addr[V7FS_NADDR_INDEX3];
v7fs_remove_leaf(fs, v7fs_link(fs,
v7fs_link(fs, idxblk, oldmap.index[0]),
oldmap.index[1]), oldmap.index[2]);
if (oldmap.index[1] != newmap.index[1]) {
v7fs_remove_leaf(fs, v7fs_link(fs,
idxblk, oldmap.index[0]),
oldmap.index[1]);
}
if (oldmap.index[0] != newmap.index[0]) {
v7fs_remove_leaf(fs, idxblk,
oldmap.index[0]);
}
break;
}
}
oldmap = newmap;
}
inode->filesize -= sz;
v7fs_inode_writeback(fs, inode);
return error;
}
static v7fs_daddr_t
v7fs_unlink(struct v7fs_self *fs, v7fs_daddr_t idxblk, int n)
{
v7fs_daddr_t *daddr_list;
v7fs_daddr_t blk;
void *buf;
if (!(buf = scratch_read(fs, idxblk)))
return 0;
daddr_list = (v7fs_daddr_t *)buf;
blk = V7FS_VAL32(fs, daddr_list[n]);
daddr_list[n] = 0;
fs->io.write(fs->io.cookie, buf, idxblk);
scratch_free(fs, buf);
return blk; /* unlinked block. */
}
static v7fs_daddr_t
v7fs_remove_self(struct v7fs_self *fs, v7fs_daddr_t up)
{
v7fs_daddr_t down;
if (!datablock_number_sanity(fs, up))
return 0;
/* At 1st, remove from datablock list. */
down = v7fs_unlink(fs, up, 0);
/* link self to freelist. */
v7fs_datablock_deallocate(fs, up);
return down;
}
static v7fs_daddr_t
v7fs_remove_leaf(struct v7fs_self *fs, v7fs_daddr_t up, int n)
{
v7fs_daddr_t down;
if (!datablock_number_sanity(fs, up))
return 0;
/* At 1st, remove from datablock list. */
down = v7fs_unlink(fs, up, n);
/* link leaf to freelist. */
v7fs_datablock_deallocate(fs, down);
return down;
}
int
v7fs_datablock_size_change(struct v7fs_self *fs, size_t newsz,
struct v7fs_inode *inode)
{
ssize_t diff = newsz - v7fs_inode_filesize(inode);
int error = 0;
if (diff > 0)
error = v7fs_datablock_expand(fs, inode, diff);
else if (diff < 0)
error = v7fs_datablock_contract(fs, inode, -diff);
return error;
}
#ifdef V7FS_DATABLOCK_DEBUG
void
daddr_map_dump(const struct v7fs_daddr_map *map)
{
DPRINTF("level %d ", map->level);
int m, n = !map->level ? 1 : map->level;
for (m = 0; m < n; m++)
printf("[%d]", map->index[m]);
printf("\n");
}
#endif