bionic (3) dbm_clearerr.3posix.gz

PROLOG

       This  manual  page  is part of the POSIX Programmer's Manual.  The Linux implementation of this interface
       may differ (consult the corresponding Linux manual page for details of Linux behavior), or the  interface
       may not be implemented on Linux.

NAME

       dbm_clearerr, dbm_close, dbm_delete, dbm_error, dbm_fetch, dbm_firstkey, dbm_nextkey, dbm_open, dbm_store
       — database functions

SYNOPSIS

       #include <ndbm.h>

       int dbm_clearerr(DBM *db);
       void dbm_close(DBM *db);
       int dbm_delete(DBM *db, datum key);
       int dbm_error(DBM *db);
       datum dbm_fetch(DBM *db, datum key);
       datum dbm_firstkey(DBM *db);
       datum dbm_nextkey(DBM *db);
       DBM *dbm_open(const char *file, int open_flags, mode_t file_mode);
       int dbm_store(DBM *db, datum key, datum content, int store_mode);

DESCRIPTION

       These functions create, access, and modify a database.

       A datum consists of at least two members, dptr and dsize.  The dptr member points to an  object  that  is
       dsize  bytes  in length. Arbitrary binary data, as well as character strings, may be stored in the object
       pointed to by dptr.

       A database shall be stored in one or two files. When one file is used, the  name  of  the  database  file
       shall be formed by appending the suffix .db to the file argument given to dbm_open().  When two files are
       used, the names of the  database  files  shall  be  formed  by  appending  the  suffixes  .dir  and  .pag
       respectively to the file argument.

       The  dbm_open()  function shall open a database. The file argument to the function is the pathname of the
       database. The open_flags argument has the same meaning as the flags argument  of  open()  except  that  a
       database  opened  for write-only access opens the files for read and write access and the behavior of the
       O_APPEND flag is unspecified. The file_mode argument has the  same  meaning  as  the  third  argument  of
       open().

       The  dbm_open()  function  need  not  accept  pathnames  longer  than  {PATH_MAX}−4  bytes (including the
       terminating null), or pathnames with a last component  longer  than  {NAME_MAX}−4  bytes  (excluding  the
       terminating null).

       The  dbm_close()  function  shall  close  a  database. The application shall ensure that argument db is a
       pointer to a dbm structure that has been returned from a call to dbm_open().

       These database functions shall support an internal block size large enough to support  key/content  pairs
       of at least 1023 bytes.

       The  dbm_fetch() function shall read a record from a database. The argument db is a pointer to a database
       structure that has been returned from a call to dbm_open().  The argument key is a datum  that  has  been
       initialized  by the application to the value of the key that matches the key of the record the program is
       fetching.

       The dbm_store() function shall write a record to a database. The argument db is a pointer to  a  database
       structure  that  has  been returned from a call to dbm_open().  The argument key is a datum that has been
       initialized by the application to the value of the key that identifies (for subsequent reading,  writing,
       or  deleting)  the  record  the  application  is  writing.  The argument content is a datum that has been
       initialized by the application to the value of the record the program is writing. The argument store_mode
       controls  whether dbm_store() replaces any pre-existing record that has the same key that is specified by
       the key argument. The application shall set store_mode  to  either  DBM_INSERT  or  DBM_REPLACE.  If  the
       database  contains  a  record  that  matches the key argument and store_mode is DBM_REPLACE, the existing
       record shall be replaced with the new record. If the database contains a  record  that  matches  the  key
       argument  and  store_mode  is  DBM_INSERT, the existing record shall be left unchanged and the new record
       ignored. If the database does not contain a record that matches the key argument and store_mode is either
       DBM_INSERT or DBM_REPLACE, the new record shall be inserted in the database.

       If  the  sum  of a key/content pair exceeds the internal block size, the result is unspecified. Moreover,
       the application shall ensure that all key/content pairs that hash together fit on  a  single  block.  The
       dbm_store() function shall return an error in the event that a disk block fills with inseparable data.

       The  dbm_delete()  function  shall  delete  a  record and its key from the database. The argument db is a
       pointer to a database structure that has been returned from a call to dbm_open().  The argument key is  a
       datum that has been initialized by the application to the value of the key that identifies the record the
       program is deleting.

       The dbm_firstkey() function shall return the first key in the database. The argument db is a pointer to a
       database structure that has been returned from a call to dbm_open().

       The  dbm_nextkey()  function shall return the next key in the database. The argument db is a pointer to a
       database structure that has been returned from a call to dbm_open().  The application shall  ensure  that
       the  dbm_firstkey()  function  is called before calling dbm_nextkey().  Subsequent calls to dbm_nextkey()
       return the next key until all of the keys in the database have been returned.

       The dbm_error() function shall return the error condition of the database. The argument db is  a  pointer
       to a database structure that has been returned from a call to dbm_open().

       The dbm_clearerr() function shall clear the error condition of the database. The argument db is a pointer
       to a database structure that has been returned from a call to dbm_open().

       The dptr pointers returned by these functions may point into  static  storage  that  may  be  changed  by
       subsequent calls.

       These functions need not be thread-safe.

RETURN VALUE

       The  dbm_store()  and  dbm_delete()  functions shall return 0 when they succeed and a negative value when
       they fail.

       The dbm_store() function shall return 1 if it is called with a flags value of DBM_INSERT and the function
       finds an existing record with the same key.

       The  dbm_error() function shall return 0 if the error condition is not set and return a non-zero value if
       the error condition is set.

       The return value of dbm_clearerr() is unspecified.

       The dbm_firstkey() and dbm_nextkey() functions shall return a key datum.  When the end of the database is
       reached,  the  dptr  member of the key is a null pointer. If an error is detected, the dptr member of the
       key shall be a null pointer and the error condition of the database shall be set.

       The dbm_fetch() function shall return a content datum.  If no record in the database matches the  key  or
       if  an  error condition has been detected in the database, the dptr member of the content shall be a null
       pointer.

       The dbm_open() function shall return a pointer to a database structure. If an error  is  detected  during
       the operation, dbm_open() shall return a (DBM *)0.

ERRORS

       No errors are defined.

       The following sections are informative.

EXAMPLES

       None.

APPLICATION USAGE

       The following code can be used to traverse the database:

           for(key = dbm_firstkey(db); key.dptr != NULL; key = dbm_nextkey(db))

       The  dbm_*  functions provided in this library should not be confused in any way with those of a general-
       purpose database management system. These functions do not provide for multiple search  keys  per  entry,
       they  do  not  protect  against multi-user access (in other words they do not lock records or files), and
       they do not provide the many other useful database functions that  are  found  in  more  robust  database
       management  systems. Creating and updating databases by use of these functions is relatively slow because
       of data copies that occur upon hash collisions. These functions are  useful  for  applications  requiring
       fast lookup of relatively static information that is to be indexed by a single key.

       Note  that  a  strictly conforming application is extremely limited by these functions: since there is no
       way to determine that the keys in use do not all hash to the same value (although that would be rare),  a
       strictly  conforming  application  cannot  be guaranteed that it can store more than one block's worth of
       data in the database. As long as a key collision does not occur,  additional  data  may  be  stored,  but
       because  there  is  no  way  to  determine whether an error is due to a key collision or some other error
       condition (dbm_error() being effectively a Boolean), once  an  error  is  detected,  the  application  is
       effectively limited to guessing what the error might be if it wishes to continue using these functions.

       The  dbm_delete() function need not physically reclaim file space, although it does make it available for
       reuse by the database.

       After calling dbm_store()  or  dbm_delete()  during  a  pass  through  the  keys  by  dbm_firstkey()  and
       dbm_nextkey(),  the  application should reset the database by calling dbm_firstkey() before again calling
       dbm_nextkey().  The contents of these files are unspecified and may not be portable.

       Applications should take care that database pathname arguments specified to dbm_open() are  not  prefixes
       of unrelated files. This might be done, for example, by placing databases in a separate directory.

       Since some implementations use three characters for a suffix and others use four characters for a suffix,
       applications should ensure that the maximum portable pathname length passed to dbm_open() is  no  greater
       than {PATH_MAX}−4 bytes, with the last component of the pathname no greater than {NAME_MAX}−4 bytes.

RATIONALE

       Previously  the  standard  required  the  database  to be stored in two files, one file being a directory
       containing a bitmap of keys and having .dir as its suffix. The second file containing all data and having
       .pag  as  its  suffix.  This  has  been  changed  not  to specify the use of the files and to allow newer
       implementations of the Berkeley DB interface using a  single  file  that  have  evolved  while  remaining
       compatible  with  the  application programming interface. The standard developers considered removing the
       specific suffixes altogether but decided to retain them so as not to pollute the  application  file  name
       space more than necessary and to allow for portable backups of the database.

FUTURE DIRECTIONS

       None.

SEE ALSO

       open()

       The Base Definitions volume of POSIX.1‐2008, <ndbm.h>

COPYRIGHT

       Portions of this text are reprinted and reproduced in electronic form from IEEE Std 1003.1, 2013 Edition,
       Standard for Information Technology -- Portable Operating System Interface (POSIX), The Open  Group  Base
       Specifications  Issue 7, Copyright (C) 2013 by the Institute of Electrical and Electronics Engineers, Inc
       and The Open Group.  (This is POSIX.1-2008 with the 2013 Technical Corrigendum 1 applied.) In  the  event
       of  any  discrepancy between this version and the original IEEE and The Open Group Standard, the original
       IEEE and The Open Group Standard is the referee document. The original Standard can be obtained online at
       http://www.unix.org/online.html .

       Any  typographical  or formatting errors that appear in this page are most likely to have been introduced
       during  the  conversion  of  the  source  files  to  man  page  format.  To  report  such   errors,   see
       https://www.kernel.org/doc/man-pages/reporting_bugs.html .