Training courses

Kernel and Embedded Linux

Bootlin training courses

Embedded Linux, kernel,
Yocto Project, Buildroot, real-time,
graphics, boot time, debugging...

Bootlin logo

Elixir Cross Referencer

/*
 * Copyright (c) 1999-2002 Proofpoint, Inc. and its suppliers.
 *	All rights reserved.
 *
 * By using this file, you agree to the terms and conditions set
 * forth in the LICENSE file which can be found at the top level of
 * the sendmail distribution.
 *
 *	$Id: smdb.h,v 8.42 2013-11-22 20:51:28 ca Exp $
 *
 */

#ifndef _SMDB_H_
# define _SMDB_H_

# include <sys/types.h>
# include <sys/stat.h>
# include <sm/gen.h>
# include <sm/errstring.h>

# ifdef NDBM
#  include <ndbm.h>
# endif /* NDBM */

# ifdef NEWDB
#  include "sm/bdb.h"
# endif /* NEWDB */

/*
**  Some size constants
*/

#define SMDB_MAX_USER_NAME_LEN	1024

/*
**  This file defines the abstraction for database lookups. It is pretty
**  much a copy of the db2 interface with the exception that every function
**  returns 0 on success and non-zero on failure. The non-zero return code
**  is meaningful.
**
**  I'm going to put the function comments in this file since the interface
**  MUST be the same for all inheritors of this interface.
*/

typedef struct database_struct SMDB_DATABASE;
typedef struct cursor_struct SMDB_CURSOR;
typedef struct entry_struct SMDB_DBENT;

/*
**  DB_CLOSE_FUNC -- close the database
**
**	Parameters:
**		db -- The database to close.
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_close_func) __P((SMDB_DATABASE *db));

/*
**  DB_DEL_FUNC -- removes a key and data pair from the database
**
**	Parameters:
**		db -- The database to close.
**		key -- The key to remove.
**		flags -- delete options. There are currently no defined
**			 flags for delete.
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_del_func) __P((SMDB_DATABASE *db,
			   SMDB_DBENT *key, unsigned int flags));

/*
**  DB_FD_FUNC -- Returns a pointer to a file used for the database.
**
**	Parameters:
**		db -- The database to close.
**		fd -- A pointer to store the returned fd in.
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_fd_func) __P((SMDB_DATABASE *db, int* fd));

/*
**  DB_GET_FUNC -- Gets the data associated with a key.
**
**	Parameters:
**		db -- The database to close.
**		key -- The key to access.
**		data -- A place to store the returned data.
**		flags -- get options. There are currently no defined
**			 flags for get.
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_get_func) __P((SMDB_DATABASE *db,
			   SMDB_DBENT *key,
			   SMDB_DBENT *data, unsigned int flags));

/*
**  DB_PUT_FUNC -- Sets some data according to the key.
**
**	Parameters:
**		db -- The database to close.
**		key -- The key to use.
**		data -- The data to store.
**		flags -- put options:
**			SMDBF_NO_OVERWRITE - Return an error if key alread
**					     exists.
**			SMDBF_ALLOW_DUP - Allow duplicates in btree maps.
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_put_func) __P((SMDB_DATABASE *db,
			   SMDB_DBENT *key,
			   SMDB_DBENT *data, unsigned int flags));

/*
**  DB_SYNC_FUNC -- Flush any cached information to disk.
**
**	Parameters:
**		db -- The database to sync.
**		flags -- sync options:
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_sync_func) __P((SMDB_DATABASE *db, unsigned int flags));

/*
**  DB_SET_OWNER_FUNC -- Set the owner and group of the database files.
**
**	Parameters:
**		db -- The database to set.
**		uid -- The UID for the new owner (-1 for no change)
**		gid -- The GID for the new owner (-1 for no change)
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_set_owner_func) __P((SMDB_DATABASE *db, uid_t uid, gid_t gid));

/*
**  DB_CURSOR -- Obtain a cursor for sequential access
**
**	Parameters:
**		db -- The database to use.
**		cursor -- The address of a cursor pointer.
**		flags -- sync options:
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_cursor_func) __P((SMDB_DATABASE *db,
			      SMDB_CURSOR **cursor, unsigned int flags));

typedef int (*db_lockfd_func) __P((SMDB_DATABASE *db));

struct database_struct
{
	db_close_func		smdb_close;
	db_del_func		smdb_del;
	db_fd_func		smdb_fd;
	db_get_func		smdb_get;
	db_put_func		smdb_put;
	db_sync_func		smdb_sync;
	db_set_owner_func	smdb_set_owner;
	db_cursor_func		smdb_cursor;
	db_lockfd_func		smdb_lockfd;
	void			*smdb_impl;
};
/*
**  DB_CURSOR_CLOSE -- Close a cursor
**
**	Parameters:
**		cursor -- The cursor to close.
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_cursor_close_func) __P((SMDB_CURSOR *cursor));

/*
**  DB_CURSOR_DEL -- Delete the key/value pair of this cursor
**
**	Parameters:
**		cursor -- The cursor.
**		flags -- flags
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_cursor_del_func) __P((SMDB_CURSOR *cursor,
					unsigned int flags));

/*
**  DB_CURSOR_GET -- Get the key/value of this cursor.
**
**	Parameters:
**		cursor -- The cursor.
**		key -- The current key.
**		value -- The current value
**		flags -- flags
**
**	Returns:
**		0 - Success, otherwise errno.
**		SMDBE_LAST_ENTRY - This is a success condition that
**				   gets returned when the end of the
**				   database is hit.
**
*/

typedef int (*db_cursor_get_func) __P((SMDB_CURSOR *cursor,
				  SMDB_DBENT *key,
				  SMDB_DBENT *data,
				  unsigned int flags));

/*
**  Flags for DB_CURSOR_GET
*/

#define SMDB_CURSOR_GET_FIRST	0
#define SMDB_CURSOR_GET_LAST	1
#define SMDB_CURSOR_GET_NEXT	2
#define SMDB_CURSOR_GET_RANGE	3

/*
**  DB_CURSOR_PUT -- Put the key/value at this cursor.
**
**	Parameters:
**		cursor -- The cursor.
**		key -- The current key.
**		value -- The current value
**		flags -- flags
**
**	Returns:
**		0 - Success, otherwise errno.
**
*/

typedef int (*db_cursor_put_func) __P((SMDB_CURSOR *cursor,
				  SMDB_DBENT *key,
				  SMDB_DBENT *data,
				  unsigned int flags));



struct cursor_struct
{
	db_cursor_close_func	smdbc_close;
	db_cursor_del_func	smdbc_del;
	db_cursor_get_func	smdbc_get;
	db_cursor_put_func	smdbc_put;
	void			*smdbc_impl;
};


struct database_params_struct
{
	unsigned int	smdbp_num_elements;
	unsigned int	smdbp_cache_size;
	bool		smdbp_allow_dup;
};

typedef struct database_params_struct SMDB_DBPARAMS;

struct database_user_struct
{
	uid_t	smdbu_id;
	gid_t	smdbu_group_id;
	char	smdbu_name[SMDB_MAX_USER_NAME_LEN];
};

typedef struct database_user_struct SMDB_USER_INFO;

struct entry_struct
{
	void	*data;
	size_t	size;
};

typedef char *SMDB_DBTYPE;
typedef unsigned int SMDB_FLAG;

/*
**  These are types of databases.
*/

# define SMDB_TYPE_DEFAULT	NULL
# define SMDB_TYPE_DEFAULT_LEN	0
# define SMDB_TYPE_HASH		"hash"
# define SMDB_TYPE_HASH_LEN	5
# define SMDB_TYPE_BTREE	"btree"
# define SMDB_TYPE_BTREE_LEN	6
# define SMDB_TYPE_NDBM		"dbm"
# define SMDB_TYPE_NDBM_LEN	4

/*
**  These are flags
*/

/* Flags for put */
# define SMDBF_NO_OVERWRITE	0x00000001
# define SMDBF_ALLOW_DUP	0x00000002


extern SMDB_DATABASE	*smdb_malloc_database __P((void));
extern void		smdb_free_database __P((SMDB_DATABASE *));
extern int		smdb_open_database __P((SMDB_DATABASE **, char *, int,
						int, long, SMDB_DBTYPE,
						SMDB_USER_INFO *,
						SMDB_DBPARAMS *));
# ifdef NEWDB
extern int		smdb_db_open __P((SMDB_DATABASE **, char *, int, int,
					  long, SMDB_DBTYPE, SMDB_USER_INFO *,
					  SMDB_DBPARAMS *));
# endif /* NEWDB */
# ifdef NDBM
extern int		smdb_ndbm_open __P((SMDB_DATABASE **, char *, int, int,
					    long, SMDB_DBTYPE,
					    SMDB_USER_INFO *,
					    SMDB_DBPARAMS *));
# endif /* NDBM */
extern int		smdb_add_extension __P((char *, int, char *, char *));
extern int		smdb_setup_file __P((char *, char *, int, long,
					     SMDB_USER_INFO *, struct stat *));
extern int		smdb_lock_file __P((int *, char *, int, long, char *));
extern int		smdb_unlock_file __P((int));
extern int		smdb_filechanged __P((char *, char *, int,
					      struct stat *));
extern void		smdb_print_available_types __P((void));
extern char		*smdb_db_definition __P((SMDB_DBTYPE));
extern int		smdb_lock_map __P((SMDB_DATABASE *, int));
extern int		smdb_unlock_map __P((SMDB_DATABASE *));
#endif /* ! _SMDB_H_ */