OpenSolaris_b135/cmd/sendmail/libsmdb/smdb2.c
/*
** Copyright (c) 1999-2003, 2009 Sendmail, 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.
*/
#include <sm/gen.h>
SM_RCSID("@(#)$Id: smdb2.c,v 8.80 2009/11/12 23:07:49 ca Exp $")
#include <fcntl.h>
#include <stdlib.h>
#include <unistd.h>
#include <sendmail/sendmail.h>
#include <libsmdb/smdb.h>
#if (DB_VERSION_MAJOR >= 2)
# define SMDB2_FILE_EXTENSION "db"
struct smdb_db2_database
{
DB *smdb2_db;
int smdb2_lock_fd;
};
typedef struct smdb_db2_database SMDB_DB2_DATABASE;
/*
** SMDB_TYPE_TO_DB2_TYPE -- Translates smdb database type to db2 type.
**
** Parameters:
** type -- The type to translate.
**
** Returns:
** The DB2 type that corresponsds to the passed in SMDB type.
** Returns -1 if there is no equivalent type.
**
*/
DBTYPE
smdb_type_to_db2_type(type)
SMDB_DBTYPE type;
{
if (type == SMDB_TYPE_DEFAULT)
return DB_HASH;
if (strncmp(type, SMDB_TYPE_HASH, SMDB_TYPE_HASH_LEN) == 0)
return DB_HASH;
if (strncmp(type, SMDB_TYPE_BTREE, SMDB_TYPE_BTREE_LEN) == 0)
return DB_BTREE;
return DB_UNKNOWN;
}
/*
** DB2_ERROR_TO_SMDB -- Translates db2 errors to smdbe errors
**
** Parameters:
** error -- The error to translate.
**
** Returns:
** The SMDBE error corresponding to the db2 error.
** If we don't have a corresponding error, it returs errno.
**
*/
int
db2_error_to_smdb(error)
int error;
{
int result;
switch (error)
{
# ifdef DB_INCOMPLETE
case DB_INCOMPLETE:
result = SMDBE_INCOMPLETE;
break;
# endif /* DB_INCOMPLETE */
# ifdef DB_NOTFOUND
case DB_NOTFOUND:
result = SMDBE_NOT_FOUND;
break;
# endif /* DB_NOTFOUND */
# ifdef DB_KEYEMPTY
case DB_KEYEMPTY:
result = SMDBE_KEY_EMPTY;
break;
# endif /* DB_KEYEMPTY */
# ifdef DB_KEYEXIST
case DB_KEYEXIST:
result = SMDBE_KEY_EXIST;
break;
# endif /* DB_KEYEXIST */
# ifdef DB_LOCK_DEADLOCK
case DB_LOCK_DEADLOCK:
result = SMDBE_LOCK_DEADLOCK;
break;
# endif /* DB_LOCK_DEADLOCK */
# ifdef DB_LOCK_NOTGRANTED
case DB_LOCK_NOTGRANTED:
result = SMDBE_LOCK_NOT_GRANTED;
break;
# endif /* DB_LOCK_NOTGRANTED */
# ifdef DB_LOCK_NOTHELD
case DB_LOCK_NOTHELD:
result = SMDBE_LOCK_NOT_HELD;
break;
# endif /* DB_LOCK_NOTHELD */
# ifdef DB_RUNRECOVERY
case DB_RUNRECOVERY:
result = SMDBE_RUN_RECOVERY;
break;
# endif /* DB_RUNRECOVERY */
# ifdef DB_OLD_VERSION
case DB_OLD_VERSION:
result = SMDBE_OLD_VERSION;
break;
# endif /* DB_OLD_VERSION */
case 0:
result = SMDBE_OK;
break;
default:
result = error;
}
return result;
}
/*
** SMDB_PUT_FLAGS_TO_DB2_FLAGS -- Translates smdb put flags to db2 put flags.
**
** Parameters:
** flags -- The flags to translate.
**
** Returns:
** The db2 flags that are equivalent to the smdb flags.
**
** Notes:
** Any invalid flags are ignored.
**
*/
unsigned int
smdb_put_flags_to_db2_flags(flags)
SMDB_FLAG flags;
{
int return_flags;
return_flags = 0;
if (bitset(SMDBF_NO_OVERWRITE, flags))
return_flags |= DB_NOOVERWRITE;
return return_flags;
}
/*
** SMDB_CURSOR_GET_FLAGS_TO_DB2 -- Translates smdb cursor get flags to db2
** getflags.
**
** Parameters:
** flags -- The flags to translate.
**
** Returns:
** The db2 flags that are equivalent to the smdb flags.
**
** Notes:
** -1 is returned if flag is unknown.
**
*/
int
smdb_cursor_get_flags_to_db2(flags)
SMDB_FLAG flags;
{
switch (flags)
{
case SMDB_CURSOR_GET_FIRST:
return DB_FIRST;
case SMDB_CURSOR_GET_LAST:
return DB_LAST;
case SMDB_CURSOR_GET_NEXT:
return DB_NEXT;
case SMDB_CURSOR_GET_RANGE:
return DB_SET_RANGE;
default:
return -1;
}
}
/*
** Except for smdb_db_open, the rest of these functions correspond to the
** interface laid out in smdb.h.
*/
SMDB_DB2_DATABASE *
smdb2_malloc_database()
{
SMDB_DB2_DATABASE *db2;
db2 = (SMDB_DB2_DATABASE *) malloc(sizeof(SMDB_DB2_DATABASE));
if (db2 != NULL)
db2->smdb2_lock_fd = -1;
return db2;
}
int
smdb2_close(database)
SMDB_DATABASE *database;
{
int result;
SMDB_DB2_DATABASE *db2 = (SMDB_DB2_DATABASE *) database->smdb_impl;
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
result = db2_error_to_smdb(db->close(db, 0));
if (db2->smdb2_lock_fd != -1)
close(db2->smdb2_lock_fd);
free(db2);
database->smdb_impl = NULL;
return result;
}
int
smdb2_del(database, key, flags)
SMDB_DATABASE *database;
SMDB_DBENT *key;
unsigned int flags;
{
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
DBT dbkey;
(void) memset(&dbkey, '\0', sizeof dbkey);
dbkey.data = key->data;
dbkey.size = key->size;
return db2_error_to_smdb(db->del(db, NULL, &dbkey, flags));
}
int
smdb2_fd(database, fd)
SMDB_DATABASE *database;
int *fd;
{
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
return db2_error_to_smdb(db->fd(db, fd));
}
int
smdb2_lockfd(database)
SMDB_DATABASE *database;
{
SMDB_DB2_DATABASE *db2 = (SMDB_DB2_DATABASE *) database->smdb_impl;
return db2->smdb2_lock_fd;
}
int
smdb2_get(database, key, data, flags)
SMDB_DATABASE *database;
SMDB_DBENT *key;
SMDB_DBENT *data;
unsigned int flags;
{
int result;
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
DBT dbkey, dbdata;
(void) memset(&dbdata, '\0', sizeof dbdata);
(void) memset(&dbkey, '\0', sizeof dbkey);
dbkey.data = key->data;
dbkey.size = key->size;
result = db->get(db, NULL, &dbkey, &dbdata, flags);
data->data = dbdata.data;
data->size = dbdata.size;
return db2_error_to_smdb(result);
}
int
smdb2_put(database, key, data, flags)
SMDB_DATABASE *database;
SMDB_DBENT *key;
SMDB_DBENT *data;
unsigned int flags;
{
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
DBT dbkey, dbdata;
(void) memset(&dbdata, '\0', sizeof dbdata);
(void) memset(&dbkey, '\0', sizeof dbkey);
dbkey.data = key->data;
dbkey.size = key->size;
dbdata.data = data->data;
dbdata.size = data->size;
return db2_error_to_smdb(db->put(db, NULL, &dbkey, &dbdata,
smdb_put_flags_to_db2_flags(flags)));
}
int
smdb2_set_owner(database, uid, gid)
SMDB_DATABASE *database;
uid_t uid;
gid_t gid;
{
# if HASFCHOWN
int fd;
int result;
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
result = db->fd(db, &fd);
if (result != 0)
return result;
result = fchown(fd, uid, gid);
if (result < 0)
return errno;
# endif /* HASFCHOWN */
return SMDBE_OK;
}
int
smdb2_sync(database, flags)
SMDB_DATABASE *database;
unsigned int flags;
{
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
return db2_error_to_smdb(db->sync(db, flags));
}
int
smdb2_cursor_close(cursor)
SMDB_CURSOR *cursor;
{
int ret;
DBC *dbc = (DBC *) cursor->smdbc_impl;
ret = db2_error_to_smdb(dbc->c_close(dbc));
free(cursor);
return ret;
}
int
smdb2_cursor_del(cursor, flags)
SMDB_CURSOR *cursor;
SMDB_FLAG flags;
{
DBC *dbc = (DBC *) cursor->smdbc_impl;
return db2_error_to_smdb(dbc->c_del(dbc, 0));
}
int
smdb2_cursor_get(cursor, key, value, flags)
SMDB_CURSOR *cursor;
SMDB_DBENT *key;
SMDB_DBENT *value;
SMDB_FLAG flags;
{
int db2_flags;
int result;
DBC *dbc = (DBC *) cursor->smdbc_impl;
DBT dbkey, dbdata;
(void) memset(&dbdata, '\0', sizeof dbdata);
(void) memset(&dbkey, '\0', sizeof dbkey);
db2_flags = smdb_cursor_get_flags_to_db2(flags);
result = dbc->c_get(dbc, &dbkey, &dbdata, db2_flags);
if (result == DB_NOTFOUND)
return SMDBE_LAST_ENTRY;
key->data = dbkey.data;
key->size = dbkey.size;
value->data = dbdata.data;
value->size = dbdata.size;
return db2_error_to_smdb(result);
}
int
smdb2_cursor_put(cursor, key, value, flags)
SMDB_CURSOR *cursor;
SMDB_DBENT *key;
SMDB_DBENT *value;
SMDB_FLAG flags;
{
DBC *dbc = (DBC *) cursor->smdbc_impl;
DBT dbkey, dbdata;
(void) memset(&dbdata, '\0', sizeof dbdata);
(void) memset(&dbkey, '\0', sizeof dbkey);
dbkey.data = key->data;
dbkey.size = key->size;
dbdata.data = value->data;
dbdata.size = value->size;
return db2_error_to_smdb(dbc->c_put(dbc, &dbkey, &dbdata, 0));
}
int
smdb2_cursor(database, cursor, flags)
SMDB_DATABASE *database;
SMDB_CURSOR **cursor;
SMDB_FLAG flags;
{
int result;
DB *db = ((SMDB_DB2_DATABASE *) database->smdb_impl)->smdb2_db;
DBC *db2_cursor;
# if DB_VERSION_MAJOR > 2 || DB_VERSION_MINOR >= 6
result = db->cursor(db, NULL, &db2_cursor, 0);
# else /* DB_VERSION_MAJOR > 2 || DB_VERSION_MINOR >= 6 */
result = db->cursor(db, NULL, &db2_cursor);
# endif /* DB_VERSION_MAJOR > 2 || DB_VERSION_MINOR >= 6 */
if (result != 0)
return db2_error_to_smdb(result);
*cursor = (SMDB_CURSOR *) malloc(sizeof(SMDB_CURSOR));
if (*cursor == NULL)
return SMDBE_MALLOC;
(*cursor)->smdbc_close = smdb2_cursor_close;
(*cursor)->smdbc_del = smdb2_cursor_del;
(*cursor)->smdbc_get = smdb2_cursor_get;
(*cursor)->smdbc_put = smdb2_cursor_put;
(*cursor)->smdbc_impl = db2_cursor;
return SMDBE_OK;
}
# if DB_VERSION_MAJOR == 2
static int
smdb_db_open_internal(db_name, db_type, db_flags, db_params, db)
char *db_name;
DBTYPE db_type;
int db_flags;
SMDB_DBPARAMS *db_params;
DB **db;
{
void *params;
DB_INFO db_info;
params = NULL;
(void) memset(&db_info, '\0', sizeof db_info);
if (db_params != NULL)
{
db_info.db_cachesize = db_params->smdbp_cache_size;
if (db_type == DB_HASH)
db_info.h_nelem = db_params->smdbp_num_elements;
if (db_params->smdbp_allow_dup)
db_info.flags |= DB_DUP;
params = &db_info;
}
return db_open(db_name, db_type, db_flags, DBMMODE, NULL, params, db);
}
# endif /* DB_VERSION_MAJOR == 2 */
# if DB_VERSION_MAJOR > 2
static int
smdb_db_open_internal(db_name, db_type, db_flags, db_params, db)
char *db_name;
DBTYPE db_type;
int db_flags;
SMDB_DBPARAMS *db_params;
DB **db;
{
int result;
result = db_create(db, NULL, 0);
if (result != 0 || *db == NULL)
return result;
if (db_params != NULL)
{
result = (*db)->set_cachesize(*db, 0,
db_params->smdbp_cache_size, 0);
if (result != 0)
{
(void) (*db)->close((*db), 0);
*db = NULL;
return db2_error_to_smdb(result);
}
if (db_type == DB_HASH)
{
result = (*db)->set_h_nelem(*db, db_params->smdbp_num_elements);
if (result != 0)
{
(void) (*db)->close(*db, 0);
*db = NULL;
return db2_error_to_smdb(result);
}
}
if (db_params->smdbp_allow_dup)
{
result = (*db)->set_flags(*db, DB_DUP);
if (result != 0)
{
(void) (*db)->close(*db, 0);
*db = NULL;
return db2_error_to_smdb(result);
}
}
}
result = (*db)->open(*db,
DBTXN /* transaction for DB 4.1 */
db_name, NULL, db_type, db_flags, DBMMODE);
if (result != 0)
{
(void) (*db)->close(*db, 0);
*db = NULL;
}
return db2_error_to_smdb(result);
}
# endif /* DB_VERSION_MAJOR > 2 */
/*
** SMDB_DB_OPEN -- Opens a db database.
**
** Parameters:
** database -- An unallocated database pointer to a pointer.
** db_name -- The name of the database without extension.
** mode -- File permisions for a created database.
** mode_mask -- Mode bits that must match on an opened database.
** sff -- Flags for safefile.
** type -- The type of database to open
** See smdb_type_to_db2_type for valid types.
** user_info -- User information for file permissions.
** db_params --
** An SMDB_DBPARAMS struct including params. These
** are processed according to the type of the
** database. Currently supported params (only for
** HASH type) are:
** num_elements
** cache_size
**
** Returns:
** SMDBE_OK -- Success, other errno:
** SMDBE_MALLOC -- Cannot allocate memory.
** SMDBE_BAD_OPEN -- db_open didn't return an error, but
** somehow the DB pointer is NULL.
** Anything else: translated error from db2
*/
int
smdb_db_open(database, db_name, mode, mode_mask, sff, type, user_info, db_params)
SMDB_DATABASE **database;
char *db_name;
int mode;
int mode_mask;
long sff;
SMDB_DBTYPE type;
SMDB_USER_INFO *user_info;
SMDB_DBPARAMS *db_params;
{
bool lockcreated = false;
int result;
int db_flags;
int lock_fd;
int db_fd;
int major_v, minor_v, patch_v;
SMDB_DATABASE *smdb_db;
SMDB_DB2_DATABASE *db2;
DB *db;
DBTYPE db_type;
struct stat stat_info;
char db_file_name[MAXPATHLEN];
(void) db_version(&major_v, &minor_v, &patch_v);
if (major_v != DB_VERSION_MAJOR || minor_v != DB_VERSION_MINOR)
return SMDBE_VERSION_MISMATCH;
*database = NULL;
result = smdb_add_extension(db_file_name, sizeof db_file_name,
db_name, SMDB2_FILE_EXTENSION);
if (result != SMDBE_OK)
return result;
result = smdb_setup_file(db_name, SMDB2_FILE_EXTENSION,
mode_mask, sff, user_info, &stat_info);
if (result != SMDBE_OK)
return result;
lock_fd = -1;
if (stat_info.st_mode == ST_MODE_NOFILE &&
bitset(mode, O_CREAT))
lockcreated = true;
result = smdb_lock_file(&lock_fd, db_name, mode, sff,
SMDB2_FILE_EXTENSION);
if (result != SMDBE_OK)
return result;
if (lockcreated)
{
mode |= O_TRUNC;
mode &= ~(O_CREAT|O_EXCL);
}
smdb_db = smdb_malloc_database();
db2 = smdb2_malloc_database();
if (db2 == NULL || smdb_db == NULL)
{
smdb_unlock_file(lock_fd);
smdb_free_database(smdb_db); /* ok to be NULL */
return SMDBE_MALLOC;
}
db2->smdb2_lock_fd = lock_fd;
db_type = smdb_type_to_db2_type(type);
db = NULL;
db_flags = 0;
if (bitset(O_CREAT, mode))
db_flags |= DB_CREATE;
if (bitset(O_TRUNC, mode))
db_flags |= DB_TRUNCATE;
if (mode == O_RDONLY)
db_flags |= DB_RDONLY;
SM_DB_FLAG_ADD(db_flags);
result = smdb_db_open_internal(db_file_name, db_type,
db_flags, db_params, &db);
if (result == 0 && db != NULL)
{
result = db->fd(db, &db_fd);
if (result == 0)
result = SMDBE_OK;
}
else
{
/* Try and narrow down on the problem */
if (result != 0)
result = db2_error_to_smdb(result);
else
result = SMDBE_BAD_OPEN;
}
if (result == SMDBE_OK)
result = smdb_filechanged(db_name, SMDB2_FILE_EXTENSION, db_fd,
&stat_info);
if (result == SMDBE_OK)
{
/* Everything is ok. Setup driver */
db2->smdb2_db = db;
smdb_db->smdb_close = smdb2_close;
smdb_db->smdb_del = smdb2_del;
smdb_db->smdb_fd = smdb2_fd;
smdb_db->smdb_lockfd = smdb2_lockfd;
smdb_db->smdb_get = smdb2_get;
smdb_db->smdb_put = smdb2_put;
smdb_db->smdb_set_owner = smdb2_set_owner;
smdb_db->smdb_sync = smdb2_sync;
smdb_db->smdb_cursor = smdb2_cursor;
smdb_db->smdb_impl = db2;
*database = smdb_db;
return SMDBE_OK;
}
if (db != NULL)
db->close(db, 0);
smdb_unlock_file(db2->smdb2_lock_fd);
free(db2);
smdb_free_database(smdb_db);
return result;
}
#endif /* (DB_VERSION_MAJOR >= 2) */