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|
/* gdbmopen.c - Open the dbm file and initialize data structures for use. */
/* This file is part of GDBM, the GNU data base manager, by Philip A. Nelson.
Copyright (C) 1990, 1991, 1993 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 2, 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; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
You may contact the author by:
e-mail: phil@cs.wwu.edu
us-mail: Philip A. Nelson
Computer Science Department
Western Washington University
Bellingham, WA 98226
*************************************************************************/
/* include system configuration before all else. */
#include "autoconf.h"
#include "gdbmdefs.h"
#include "gdbmerrno.h"
/* Initialize dbm system. FILE is a pointer to the file name. If the file
has a size of zero bytes, a file initialization procedure is performed,
setting up the initial structure in the file. BLOCK_SIZE is used during
initialization to determine the size of various constructs. If the value
is less than 512, the file system blocksize is used, otherwise the value
of BLOCK_SIZE is used. BLOCK_SIZE is ignored if the file has previously
initialized. If FLAGS is set to GDBM_READ the user wants to just
read the database and any call to dbm_store or dbm_delete will fail. Many
readers can access the database at the same time. If FLAGS is set to
GDBM_WRITE, the user wants both read and write access to the database and
requires exclusive access. If FLAGS is GDBM_WRCREAT, the user wants
both read and write access to the database and if the database does not
exist, create a new one. If FLAGS is GDBM_NEWDB, the user want a
new database created, regardless of whether one existed, and wants read
and write access to the new database. Any error detected will cause a
return value of null and an approprate value will be in gdbm_errno. If
no errors occur, a pointer to the "gdbm file descriptor" will be
returned. */
gdbm_file_info *
gdbm_open (file, block_size, flags, mode, fatal_func)
char *file;
int block_size;
int flags;
int mode;
void (*fatal_func) ();
{
gdbm_file_info *dbf; /* The record to return. */
struct stat file_stat; /* Space for the stat information. */
int len; /* Length of the file name. */
int num_bytes; /* Used in reading and writing. */
off_t file_pos; /* Used with seeks. */
int lock_val; /* Returned by the flock call. */
int file_block_size; /* Block size to use for a new file. */
int index; /* Used as a loop index. */
char need_trunc; /* Used with GDBM_NEWDB and locking to avoid
truncating a file from under a reader. */
/* Initialize the gdbm_errno variable. */
gdbm_errno = GDBM_NO_ERROR;
/* Allocate new info structure. */
dbf = (gdbm_file_info *) malloc (sizeof (gdbm_file_info));
if (dbf == NULL)
{
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
/* Initialize some fields for known values. This is done so gdbm_close
will work if called before allocating some structures. */
dbf->dir = NULL;
dbf->bucket = NULL;
dbf->header = NULL;
dbf->bucket_cache = NULL;
dbf->cache_size = 0;
/* Save name of file. */
len = strlen (file);
dbf->name = (char *) malloc (len + 1);
if (dbf->name == NULL)
{
free (dbf);
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
strcpy (dbf->name, file);
/* Initialize the fatal error routine. */
dbf->fatal_err = fatal_func;
dbf->fast_write = TRUE; /* Default to setting fast_write. */
dbf->file_locking = TRUE; /* Default to doing file locking. */
dbf->central_free = FALSE; /* Default to not using central_free. */
dbf->coalesce_blocks = FALSE; /* Default to not coalescing blocks. */
/* GDBM_FAST used to determine whethere or not we set fast_write. */
if (flags & GDBM_SYNC)
{
/* If GDBM_SYNC has been requested, don't do fast_write. */
dbf->fast_write = FALSE;
}
if (flags & GDBM_NOLOCK)
{
dbf->file_locking = FALSE;
}
/* Open the file. */
need_trunc = FALSE;
switch (flags & GDBM_OPENMASK)
{
case GDBM_READER:
dbf->desc = open (dbf->name, O_RDONLY, 0);
break;
case GDBM_WRITER:
dbf->desc = open (dbf->name, O_RDWR, 0);
break;
case GDBM_NEWDB:
dbf->desc = open (dbf->name, O_RDWR|O_CREAT, mode);
need_trunc = TRUE;
break;
default:
dbf->desc = open (dbf->name, O_RDWR|O_CREAT, mode);
break;
}
if (dbf->desc < 0)
{
free (dbf->name);
free (dbf);
gdbm_errno = GDBM_FILE_OPEN_ERROR;
return NULL;
}
/* Get the status of the file. */
fstat (dbf->desc, &file_stat);
/* Lock the file in the approprate way. */
if ((flags & GDBM_OPENMASK) == GDBM_READER)
{
if (file_stat.st_size == 0)
{
close (dbf->desc);
free (dbf->name);
free (dbf);
gdbm_errno = GDBM_EMPTY_DATABASE;
return NULL;
}
if (dbf->file_locking)
{
/* Sets lock_val to 0 for success. See systems.h. */
READLOCK_FILE(dbf);
}
}
else if (dbf->file_locking)
{
/* Sets lock_val to 0 for success. See systems.h. */
WRITELOCK_FILE(dbf);
}
if (dbf->file_locking && (lock_val != 0))
{
close (dbf->desc);
free (dbf->name);
free (dbf);
if ((flags & GDBM_OPENMASK) == GDBM_READER)
gdbm_errno = GDBM_CANT_BE_READER;
else
gdbm_errno = GDBM_CANT_BE_WRITER;
return NULL;
}
/* Record the kind of user. */
dbf->read_write = (flags & GDBM_OPENMASK);
/* If we do have a write lock and it was a GDBM_NEWDB, it is
now time to truncate the file. */
if (need_trunc && file_stat.st_size != 0)
{
TRUNCATE (dbf);
fstat (dbf->desc, &file_stat);
}
/* Decide if this is a new file or an old file. */
if (file_stat.st_size == 0)
{
/* This is a new file. Create an empty database. */
/* Start with the blocksize. */
if (block_size < 512)
file_block_size = STATBLKSIZE;
else
file_block_size = block_size;
/* Get space for the file header. */
dbf->header = (gdbm_file_header *) malloc (file_block_size);
if (dbf->header == NULL)
{
gdbm_close (dbf);
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
/* Set the magic number and the block_size. */
dbf->header->header_magic = 0x13579ace;
dbf->header->block_size = file_block_size;
/* Create the initial hash table directory. */
dbf->header->dir_size = 8 * sizeof (off_t);
dbf->header->dir_bits = 3;
while (dbf->header->dir_size < dbf->header->block_size)
{
dbf->header->dir_size <<= 1;
dbf->header->dir_bits += 1;
}
/* Check for correct block_size. */
if (dbf->header->dir_size != dbf->header->block_size)
{
gdbm_close (dbf);
gdbm_errno = GDBM_BLOCK_SIZE_ERROR;
return NULL;
}
/* Allocate the space for the directory. */
dbf->dir = (off_t *) malloc (dbf->header->dir_size);
if (dbf->dir == NULL)
{
gdbm_close (dbf);
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
dbf->header->dir = dbf->header->block_size;
/* Create the first and only hash bucket. */
dbf->header->bucket_elems =
(dbf->header->block_size - sizeof (hash_bucket))
/ sizeof (bucket_element) + 1;
dbf->header->bucket_size = dbf->header->block_size;
dbf->bucket = (hash_bucket *) malloc (dbf->header->bucket_size);
if (dbf->bucket == NULL)
{
gdbm_close (dbf);
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
_gdbm_new_bucket (dbf, dbf->bucket, 0);
dbf->bucket->av_count = 1;
dbf->bucket->bucket_avail[0].av_adr = 3*dbf->header->block_size;
dbf->bucket->bucket_avail[0].av_size = dbf->header->block_size;
/* Set table entries to point to hash buckets. */
for (index = 0; index < dbf->header->dir_size / sizeof (off_t); index++)
dbf->dir[index] = 2*dbf->header->block_size;
/* Initialize the active avail block. */
dbf->header->avail.size
= ( (dbf->header->block_size - sizeof (gdbm_file_header))
/ sizeof (avail_elem)) + 1;
dbf->header->avail.count = 0;
dbf->header->avail.next_block = 0;
dbf->header->next_block = 4*dbf->header->block_size;
/* Write initial configuration to the file. */
/* Block 0 is the file header and active avail block. */
num_bytes = write (dbf->desc, dbf->header, dbf->header->block_size);
if (num_bytes != dbf->header->block_size)
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_WRITE_ERROR;
return NULL;
}
/* Block 1 is the initial bucket directory. */
num_bytes = write (dbf->desc, dbf->dir, dbf->header->dir_size);
if (num_bytes != dbf->header->dir_size)
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_WRITE_ERROR;
return NULL;
}
/* Block 2 is the only bucket. */
num_bytes = write (dbf->desc, dbf->bucket, dbf->header->bucket_size);
if (num_bytes != dbf->header->bucket_size)
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_WRITE_ERROR;
return NULL;
}
/* Wait for initial configuration to be written to disk. */
fsync (dbf->desc);
free (dbf->bucket);
}
else
{
/* This is an old database. Read in the information from the file
header and initialize the hash directory. */
gdbm_file_header partial_header; /* For the first part of it. */
/* Read the partial file header. */
num_bytes = read (dbf->desc, &partial_header, sizeof (gdbm_file_header));
if (num_bytes != sizeof (gdbm_file_header))
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_READ_ERROR;
return NULL;
}
/* Is the magic number good? */
if (partial_header.header_magic != 0x13579ace)
{
gdbm_close (dbf);
gdbm_errno = GDBM_BAD_MAGIC_NUMBER;
return NULL;
}
/* It is a good database, read the entire header. */
dbf->header = (gdbm_file_header *) malloc (partial_header.block_size);
if (dbf->header == NULL)
{
gdbm_close (dbf);
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
bcopy (&partial_header, dbf->header, sizeof (gdbm_file_header));
num_bytes = read (dbf->desc, &dbf->header->avail.av_table[1],
dbf->header->block_size-sizeof (gdbm_file_header));
if (num_bytes != dbf->header->block_size-sizeof (gdbm_file_header))
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_READ_ERROR;
return NULL;
}
/* Allocate space for the hash table directory. */
dbf->dir = (off_t *) malloc (dbf->header->dir_size);
if (dbf->dir == NULL)
{
gdbm_close (dbf);
gdbm_errno = GDBM_MALLOC_ERROR;
return NULL;
}
/* Read the hash table directory. */
file_pos = lseek (dbf->desc, dbf->header->dir, L_SET);
if (file_pos != dbf->header->dir)
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_SEEK_ERROR;
return NULL;
}
num_bytes = read (dbf->desc, dbf->dir, dbf->header->dir_size);
if (num_bytes != dbf->header->dir_size)
{
gdbm_close (dbf);
gdbm_errno = GDBM_FILE_READ_ERROR;
return NULL;
}
}
/* Finish initializing dbf. */
dbf->last_read = -1;
dbf->bucket = NULL;
dbf->bucket_dir = 0;
dbf->cache_entry = NULL;
dbf->header_changed = FALSE;
dbf->directory_changed = FALSE;
dbf->bucket_changed = FALSE;
dbf->second_changed = FALSE;
/* Everything is fine, return the pointer to the file
information structure. */
return dbf;
}
/* initialize the bucket cache. */
int
_gdbm_init_cache(dbf, size)
gdbm_file_info *dbf;
int size;
{
register int index;
if (dbf->bucket_cache == NULL)
{
dbf->bucket_cache = (cache_elem *) malloc(sizeof(cache_elem) * size);
if(dbf->bucket_cache == NULL)
{
gdbm_errno = GDBM_MALLOC_ERROR;
return(-1);
}
dbf->cache_size = size;
for(index = 0; index < size; index++)
{
(dbf->bucket_cache[index]).ca_bucket
= (hash_bucket *) malloc (dbf->header->bucket_size);
if ((dbf->bucket_cache[index]).ca_bucket == NULL)
{
gdbm_errno = GDBM_MALLOC_ERROR;
return(-1);
}
(dbf->bucket_cache[index]).ca_adr = 0;
(dbf->bucket_cache[index]).ca_changed = FALSE;
(dbf->bucket_cache[index]).ca_data.hash_val = -1;
(dbf->bucket_cache[index]).ca_data.elem_loc = -1;
(dbf->bucket_cache[index]).ca_data.dptr = NULL;
}
dbf->bucket = dbf->bucket_cache[0].ca_bucket;
dbf->cache_entry = &dbf->bucket_cache[0];
}
return(0);
}
|