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/* gdbmstore.c - Add a new key/data pair to the database. */
/* This file is part of GDBM, the GNU data base manager.
Copyright (C) 1990-2023 Free Software Foundation, Inc.
GDBM 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 3, or (at your option)
any later version.
GDBM 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 GDBM. If not, see <http://www.gnu.org/licenses/>. */
/* Include system configuration before all else. */
#include "autoconf.h"
#include "gdbmdefs.h"
/* Add a new element to the database. CONTENT is keyed by KEY. The
file on disk is updated to reflect the structure of the new database
before returning from this procedure. The FLAGS define the action to
take when the KEY is already in the database. The value GDBM_REPLACE
asks that the old data be replaced by the new CONTENT. The value
GDBM_INSERT asks that an error be returned and no action taken.
On success (the item was stored), 0 is returned. If the item could
not be stored because a matching key already exists and GDBM_REPLACE
was not given, 1 is returned and gdbm_errno (as well as the database
errno value) is set to GDBM_CANNOT_REPLACE. Otherwise, if another
error occurred, -1 is returned. */
int
gdbm_store (GDBM_FILE dbf, datum key, datum content, int flags)
{
int new_hash_val; /* The new hash value. */
int elem_loc; /* The location in hash bucket. */
off_t file_adr; /* The address of new space in the file. */
off_t file_pos; /* The position after a lseek. */
off_t free_adr; /* For keeping track of a freed section. */
int free_size;
int new_size; /* Used in allocating space. */
int rc;
GDBM_DEBUG_DATUM (GDBM_DEBUG_STORE, key, "%s: storing key:", dbf->name);
/* Return immediately if the database needs recovery */
GDBM_ASSERT_CONSISTENCY (dbf, -1);
/* First check to make sure this guy is a writer. */
if (dbf->read_write == GDBM_READER)
{
GDBM_SET_ERRNO2 (dbf, GDBM_READER_CANT_STORE, FALSE,
GDBM_DEBUG_STORE);
return -1;
}
/* Check for illegal data values. A NULL dptr field is illegal because
NULL dptr returned by a lookup procedure indicates an error. */
if ((key.dptr == NULL) || (content.dptr == NULL))
{
GDBM_SET_ERRNO2 (dbf, GDBM_MALFORMED_DATA, FALSE,
GDBM_DEBUG_STORE);
return -1;
}
/* Initialize the gdbm_errno variable. */
gdbm_set_errno (dbf, GDBM_NO_ERROR, FALSE);
/* Look for the key in the file.
A side effect loads the correct bucket and calculates the hash value. */
elem_loc = _gdbm_findkey (dbf, key, NULL, &new_hash_val);
/* Initialize these. */
file_adr = 0;
new_size = key.dsize + content.dsize;
/* Did we find the item? */
if (elem_loc != -1)
{
if (flags == GDBM_REPLACE)
{
/* Just replace the data. */
free_adr = dbf->bucket->h_table[elem_loc].data_pointer;
free_size = dbf->bucket->h_table[elem_loc].key_size
+ dbf->bucket->h_table[elem_loc].data_size;
if (free_size != new_size)
{
if (_gdbm_free (dbf, free_adr, free_size))
return -1;
}
else
{
/* Just reuse the same address! */
file_adr = free_adr;
}
}
else
{
GDBM_SET_ERRNO2 (dbf, GDBM_CANNOT_REPLACE, FALSE,
GDBM_DEBUG_STORE);
return 1;
}
}
else if (gdbm_errno == GDBM_ITEM_NOT_FOUND)
gdbm_set_errno (dbf, GDBM_NO_ERROR, FALSE); /* clear error state */
else
return -1;
/* Get the file address for the new space.
(Current bucket's free space is first place to look.) */
if (file_adr == 0)
{
file_adr = _gdbm_alloc (dbf, new_size);
if (file_adr == 0)
return -1;
}
/* If this is a new entry in the bucket, we need to do special things. */
if (elem_loc == -1)
{
int start_loc;
if (dbf->bucket->count == dbf->header->bucket_elems)
{
/* Split the current bucket. */
if (_gdbm_split_bucket (dbf, new_hash_val))
return -1;
}
/* Find space to insert into bucket and set elem_loc to that place. */
elem_loc = start_loc = new_hash_val % dbf->header->bucket_elems;
while (dbf->bucket->h_table[elem_loc].hash_value != -1)
{
elem_loc = (elem_loc + 1) % dbf->header->bucket_elems;
if (elem_loc == start_loc)
{
GDBM_SET_ERRNO (dbf, GDBM_BAD_HASH_TABLE, TRUE);
return -1;
}
}
/* We now have another element in the bucket. Add the new information.*/
dbf->bucket->count++;
dbf->bucket->h_table[elem_loc].hash_value = new_hash_val;
memcpy (dbf->bucket->h_table[elem_loc].key_start, key.dptr,
(SMALL < key.dsize ? SMALL : key.dsize));
}
/* Update current bucket data pointer and sizes. */
dbf->bucket->h_table[elem_loc].data_pointer = file_adr;
dbf->bucket->h_table[elem_loc].key_size = key.dsize;
dbf->bucket->h_table[elem_loc].data_size = content.dsize;
/* Write the data to the file. */
file_pos = gdbm_file_seek (dbf, file_adr, SEEK_SET);
if (file_pos != file_adr)
{
GDBM_DEBUG (GDBM_DEBUG_STORE|GDBM_DEBUG_ERR,
"%s: lseek: %s", dbf->name, strerror (errno));
GDBM_SET_ERRNO2 (dbf, GDBM_FILE_SEEK_ERROR, TRUE, GDBM_DEBUG_STORE);
_gdbm_fatal (dbf, _("lseek error"));
return -1;
}
rc = _gdbm_full_write (dbf, key.dptr, key.dsize);
if (rc)
{
GDBM_DEBUG (GDBM_DEBUG_STORE|GDBM_DEBUG_ERR,
"%s: error writing key: %s",
dbf->name, gdbm_db_strerror (dbf));
_gdbm_fatal (dbf, gdbm_db_strerror (dbf));
return -1;
}
rc = _gdbm_full_write (dbf, content.dptr, content.dsize);
if (rc)
{
GDBM_DEBUG (GDBM_DEBUG_STORE|GDBM_DEBUG_ERR,
"%s: error writing content: %s",
dbf->name, gdbm_db_strerror (dbf));
_gdbm_fatal (dbf, gdbm_db_strerror (dbf));
return -1;
}
/* Current bucket has changed. */
_gdbm_current_bucket_changed (dbf);
/* Write everything that is needed to the disk. */
return _gdbm_end_update (dbf);
}
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