-/*
- * Copyright (C) 1994, Index Data I/S
- * All rights reserved.
- * Sebastian Hammer, Adam Dickmeiss
- *
- * $Log: physical.c,v $
- * Revision 1.3 1994-09-26 17:11:31 quinn
- * Trivial
- *
- * Revision 1.2 1994/09/26 17:06:36 quinn
- * Back again...
- *
- * Revision 1.1 1994/09/26 16:07:57 quinn
- * Most of the functionality in place.
- *
- */
+/* $Id: physical.c,v 1.18 2002-08-02 19:26:56 adam Exp $
+ Copyright (C) 1995,1996,1997,1998,1999,2000,2001,2002
+ Index Data Aps
+
+This file is part of the Zebra server.
+
+Zebra 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, or (at your option) any later
+version.
+
+Zebra 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 Zebra; see the file LICENSE.zebra. If not, write to the
+Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
+02111-1307, USA.
+*/
+
+
/*
* This module handles the representation of tables in the bfiles.
*/
#include <assert.h>
+#include <stdio.h>
+#include <string.h>
+#include <yaz/log.h>
#include <isam.h>
-#include "memory.h"
static int is_freestore_alloc(ISAM is, int type)
{
if (bf_read(is->types[type].bf, tmp, 0, sizeof(tmp),
&is->types[type].freelist) <=0)
{
- log(LOG_FATAL, "Failed to allocate block");
+ logf (LOG_FATAL, "Failed to allocate block");
exit(1);
}
}
else
tmp = is->types[type].top++;
+ logf (LOG_DEBUG, "Allocating block #%d", tmp);
return tmp;
}
{
int tmp;
+ logf (LOG_DEBUG, "Releasing block #%d", block);
tmp = is->types[type].freelist;
is->types[type].freelist = block;
if (bf_write(is->types[type].bf, block, 0, sizeof(tmp), &tmp) < 0)
{
- log(LOG_FATAL, "Failed to deallocate block.");
+ logf (LOG_FATAL, "Failed to deallocate block.");
exit(1);
}
}
is_mbuf *buf;
assert(block->state == IS_MBSTATE_UNREAD);
- block->data = buf = xmalloc_mbuf(IS_MBUF_TYPE_LARGE);
+ block->data = buf = xmalloc_mbuf(IS_MBUF_TYPE_LARGE);
toread = tab->is->types[tab->pos_type].blocksize;
if (toread > is_mbuf_size[buf->type])
{
if (bf_read(tab->is->types[tab->pos_type].bf, block->diskpos, 0, toread,
buf->data) < 0)
{
- log(LOG_FATAL, "bfread failed.");
+ logf (LOG_FATAL, "bfread failed.");
return -1;
}
/* extract header info */
buf->offset = 0;
memcpy(&block->num_records, buf->data, sizeof(block->num_records));
+ assert(block->num_records > 0);
buf->offset += sizeof(block->num_records);
memcpy(&block->nextpos, buf->data + buf->offset,
sizeof(block->nextpos));
sizeof(tab->num_records));
buf->offset +=sizeof(tab->num_records);
}
+ logf(LOG_DEBUG, "R: Block #%d: num %d nextpos %d total %d",
+ block->diskpos, block->num_records, block->nextpos,
+ block == tab->data ? tab->num_records : -1);
buf->num = (toread - buf->offset) / is_keysize(tab->is);
if (buf->num >= block->num_records)
{
block->state = IS_MBSTATE_CLEAN;
}
else
- block->bread = buf->num * is_keysize(tab->is);
+ block->bread = buf->offset + buf->num * is_keysize(tab->is);
return 0;
}
if (block->state == IS_MBSTATE_UNREAD && is_p_read_partial(tab, block) < 0)
{
- log(LOG_FATAL, "partial read failed.");
+ logf (LOG_FATAL, "partial read failed.");
return -1;
}
if (block->state == IS_MBSTATE_PARTIAL)
if (bf_read(tab->is->types[tab->pos_type].bf, block->diskpos, block->bread, toread *
is_keysize(tab->is), buf->data) < 0)
{
- log(LOG_FATAL, "bfread failed.");
+ logf (LOG_FATAL, "bfread failed.");
return -1;
}
buf->offset = 0;
dread += toread;
block->bread += toread * is_keysize(tab->is);
}
+ block->state = IS_MBSTATE_CLEAN;
}
+ logf (LOG_DEBUG, "R: Block #%d contains %d records.", block->diskpos, block->num_records);
return 0;
}
type = &tab->is->types[tab->pos_type];
for (p = tab->data; p; p = p->next)
{
+ if (p->state < IS_MBSTATE_DIRTY)
+ continue;
/* make sure that blocks are allocated. */
if (p->diskpos < 0)
p->diskpos = is_freestore_alloc(tab->is, tab->pos_type);
else
p->nextpos = p->next->diskpos;
}
+ else
+ p->nextpos = 0;
sum = 0;
memcpy(type->dbuf, &p->num_records, sizeof(p->num_records));
sum += sizeof(p->num_records);
sizeof(tab->num_records));
sum += sizeof(tab->num_records);
}
+ logf (LOG_DEBUG, "W: Block #%d contains %d records.", p->diskpos,
+ p->num_records);
+ assert(p->num_records > 0);
for (b = p->data; b; b = b->next)
{
- memcpy(type->dbuf + sum, b->data + b->offset, v = b->num *
- is_keysize(tab->is));
+ logf(LOG_DEBUG, " buf: offset %d, keys %d, type %d, ref %d",
+ b->offset, b->num, b->type, b->refcount);
+ if ((v = b->num * is_keysize(tab->is)) > 0)
+ memcpy(type->dbuf + sum, b->data + b->offset, v);
+
sum += v;
assert(sum <= type->blocksize);
}
if (bf_write(type->bf, p->diskpos, 0, sum, type->dbuf) < 0)
{
- log(LOG_FATAL, "Failed to write block.");
+ logf (LOG_FATAL, "Failed to write block.");
exit(1);
}
}
is_mblock *p;
for (p = tab->data; p; p = p->next)
+ {
if (p->diskpos >= 0)
{
is_freestore_free(tab->is, tab->pos_type, p->diskpos);
p->diskpos = -1;
}
+ }
}
static is_mbuf *mbuf_takehead(is_mbuf **mb, int *num, int keysize)
{
- is_mbuf *p = 0, **pp = &p, *new;
+ is_mbuf *p = 0, **pp = &p, *inew;
int toget = *num;
+ if (!toget)
+ return 0;
while (*mb && toget >= (*mb)->num)
{
toget -= (*mb)->num;
}
if (toget > 0 && *mb)
{
- new = xmalloc_mbuf(IS_MBUF_TYPE_SMALL);
- new->next = (*mb)->next;
- (*mb)->next = new;
- new->data = (*mb)->data;
+ inew = xmalloc_mbuf(IS_MBUF_TYPE_SMALL);
+ inew->next = (*mb)->next;
+ (*mb)->next = inew;
+ inew->data = (*mb)->data;
(*mb)->refcount++;
- new->offset = (*mb)->offset + toget * keysize;
- new->num = (*mb)->num - toget;
+ inew->offset = (*mb)->offset + toget * keysize;
+ inew->num = (*mb)->num - toget;
(*mb)->num = toget;
*pp = *mb;
*mb = (*mb)->next;
*/
void is_p_align(is_mtable *tab)
{
- is_mblock *mblock, *new;
+ is_mblock *mblock, *inew, *last = 0, *next;
is_mbuf *mbufs, *mbp;
int blocks, recsblock;
- log(LOG_DEBUG, "Realigning table.");
- for (mblock = tab->data; mblock; mblock = mblock->next)
+ logf (LOG_DEBUG, "Realigning table.");
+ for (mblock = tab->data; mblock; mblock = next)
{
- if (mblock->state == IS_MBSTATE_DIRTY && mblock->num_records >
+ next = mblock->next;
+ if (mblock->state == IS_MBSTATE_DIRTY && mblock->num_records == 0)
+ {
+ if (last)
+ {
+ last->next = mblock->next;
+ last->state = IS_MBSTATE_DIRTY;
+ next = mblock->next;
+ }
+ else
+ {
+ next = tab->data->next;
+ if (next)
+ {
+ if (next->state < IS_MBSTATE_CLEAN)
+ {
+ if (is_p_read_full(tab, next) < 0)
+ {
+ logf(LOG_FATAL, "Error during re-alignment");
+ abort();
+ }
+ if (next->nextpos && !next->next)
+ {
+ next->next = xmalloc_mblock();
+ next->next->diskpos = next->nextpos;
+ next->next->state = IS_MBSTATE_UNREAD;
+ next->next->data = 0;
+ }
+ }
+ next->state = IS_MBSTATE_DIRTY; /* force re-process */
+ tab->data = next;
+ }
+ }
+ if (mblock->diskpos >= 0)
+ is_freestore_free(tab->is, tab->pos_type, mblock->diskpos);
+ xrelease_mblock(mblock);
+ }
+ else if (mblock->state == IS_MBSTATE_DIRTY && mblock->num_records >
(mblock == tab->data ?
tab->is->types[tab->pos_type].max_keys_block0 :
tab->is->types[tab->pos_type].max_keys_block))
recsblock = 1;
mbufs = mblock->data;
while ((mbp = mbuf_takehead(&mbufs, &recsblock,
- is_keysize(tab->is))))
+ is_keysize(tab->is))) && recsblock)
{
- new = xmalloc_mblock();
- new->diskpos = -1;
- new->state = IS_MBSTATE_DIRTY;
- new->next = mblock->next;
- mblock->next = new;
+ if (mbufs)
+ {
+ inew = xmalloc_mblock();
+ inew->diskpos = -1;
+ inew->state = IS_MBSTATE_DIRTY;
+ inew->next = mblock->next;
+ mblock->next = inew;
+ }
mblock->data = mbp;
mblock->num_records = recsblock;
+ last = mblock;
mblock = mblock->next;
}
+ next = mblock;
}
+ else
+ last = mblock;
}
}
is_mblock *blockp, **blockpp;
int recsblock, blocks;
- log(LOG_DEBUG, "Remapping table.");
+ logf (LOG_DEBUG, "Remapping table.");
/* collect all data */
bufpp = &mbufs;
for (blockp = tab->data; blockp; blockp = blockp->next)
{
+ if (blockp->state < IS_MBSTATE_CLEAN && is_m_read_full(tab, blockp) < 0)
+ {
+ logf (LOG_FATAL, "Read-full failed in remap.");
+ exit(1);
+ }
*bufpp = blockp->data;
while (*bufpp)
bufpp = &(*bufpp)->next;
blocks = tab->num_records / tab->is->types[tab->pos_type].nice_keys_block;
if (tab->num_records % tab->is->types[tab->pos_type].nice_keys_block)
blocks++;
- recsblock = tab->num_records / blocks;
- if (recsblock < 1)
- recsblock = 1;
+ if (blocks == 0)
+ blocks = 1;
+ recsblock = tab->num_records / blocks + 1;
+ if (recsblock > tab->is->types[tab->pos_type].nice_keys_block)
+ recsblock--;
blockpp = &tab->data;
- while ((mbp = mbuf_takehead(&mbufs, &recsblock, is_keysize(tab->is))))
+ while ((mbp = mbuf_takehead(&mbufs, &recsblock, is_keysize(tab->is))) &&
+ recsblock)
{
if (!*blockpp)
{
(*blockpp)->state = IS_MBSTATE_DIRTY;
blockpp = &(*blockpp)->next;
}
+ if (mbp)
+ xfree_mbufs(mbp);
+ if (*blockpp)
+ {
+ for (blockp = *blockpp; blockp; blockp = blockp->next)
+ if (blockp->diskpos >= 0)
+ is_freestore_free(tab->is, tab->pos_type, blockp->diskpos);
+ xfree_mblocks(*blockpp);
+ *blockpp = 0;
+ }
}