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The library libmu_dbm provides a uniform and consistent interface to various DBM-like database managers. Presently (as of version 2.99.93), the following backend libraries are supported:

Note: The Tokyo Cabinet support was available in previous versions. It is not yet re-implemented via libmu_dbm, although it is possible that it will be.


Header Files and Libraries

The data types and function prototypes of libmu_dbm are declared in mailutils/dbm.h[1]. Internal interfaces, which are of interest for implementors of new backends, are declared in mailutils/sys/dbm.h[2].

File loader arguments for linking programs with libmu_dbm can be obtained running:

 mu ldflags dbm

Data Types

A database file is represented by the mu_dbm_file_t type. It is an opaque type, declared as

  typedef struct _mu_dbm_file *mu_dbm_file_t;

A datum is a piece of information stored in the database. It is declared as:

  struct mu_dbm_datum
    char *mu_dptr;               /* Data pointer */
    size_t mu_dsize;             /* Data size */
    void *mu_data;               /* Implementation-dependent data */
    struct mu_dbm_impl *mu_sys;  /* Pointer to implementation */

Of all its fields, only mu_dptr and mu_dsize are of interest for application developers. The mu_dptr points to the actual data and mu_dsize keeps the number of bytes pointed to by mu_dptr.

When initializing an object of struct mu_dbm_datum type it is important to fill all the rest of its fields with zeros. The usual initialization sequence is therefore:

  struct mu_dbm_datum key;
  memset (&key, 0, sizeof key);
  key.mu_dptr = data;
  key.mu_dsize = size;

Creating a Database Object

A variable of type mu_dbm_file_t is created using the following functions:

  int mu_dbm_create_from_url (mu_url_t url, mu_dbm_file_t *db);
  int mu_dbm_create (char *name, mu_dbm_file_t *db);

The former function creates a database object from an URL supplied as its first argument. The latter one creates a database object from a file name or a URL in string form. On success both functions store a pointer to the initialized struct _mu_dbm_file in the memory location pointed to by the db parameter and return 0. On error, they return a Mailutils error code and do not touch db.

Safety Checking

The following function verifies whether the database file is safe to use:

  int mu_dbm_safety_check (mu_dbm_file_t db);

It returns 0 if the file is OK, or an error code describing the problem otherwise.

There are two ways to set safety criteria. First, they can be configured using the URL parameters when calling mu_dbm_create_from_url or mu_dbm_create. Second, they can be set using the following functions:

  int mu_dbm_safety_set_flags (mu_dbm_file_t db, int flags);
  int mu_dbm_safety_set_owner (mu_dbm_file_t db, uid_t uid);

The mu_dbm_safety_set_flags functions defines the set of safety criteria for this file. The flags argument has the same meaning as the mode argument to mu_file_safety_check. If it contains the MU_FILE_SAFETY_OWNER_MISMATCH bit, the file owner UID can be set using the mu_dbm_safety_set_owner function.

Whatever way was used to set them, the current safety criteria can be queried using the following two functions:

  int mu_dbm_safety_get_flags (mu_dbm_file_t db, int *flags);
  int mu_dbm_safety_get_owner (mu_dbm_file_t db, uid_t *uid);

Opening a Database

Once a mu_dbm_file_t is created, it can be opened:

  int mu_dbm_open (mu_dbm_file_t db, int flags, int mode);

The function mu_dbm_open opens a database described by db. The flags argument specifies how to open the database. The valid values (declared in mailutils/stream.h[3]) are:

Open database for reading only. If the database file does not exist, an error is returned.
Open database for reading and writing. If the database file does not exist, it is created.
Create an empty database and open it for reading and writing. If the database file already exists, all existing records will be removed from it.

The mode argument supplies the file mode for newly created files. Its meaning is the same as in chmod(2) call.

Database Lookups

  int mu_dbm_fetch (mu_dbm_file_t db, struct mu_dbm_datum const *key,
		    struct mu_dbm_datum *ret);

The mu_dbm_fetch functions looks up in the database db a record whose key matches key. If such a record is found, its associated data are stored in ret and 0 is returned. If there is no such key in the database, the function returns MU_ERR_NOENT. If an error occurs, it returns MU_ERR_FAILURE. The textual error description can then be obtained using mu_dbm_strerror.

The memory for data returned in ret is allocated by the library. To reclaim this memory, use the mu_dbm_datum_free function. If the ret parameter points to a datum initialized by a previous call to a libmu_dbm function (such as mu_dbm_fetch, mu_dbm_firstkey, etc.) it will be freed automatically. Therefore it is safe not to free existing datum before passing it as a third argument to mu_dbm_fetch.

It is important to notice, however, that the datum pointed to by ret must always be initialized. This means, in practice, that it should either be returned from another libmu_dbm library call or initialized manually. For example:

  1.   struct mu_dbm_datum key, content;
  2.   int rc;
  4.   /* Initialize search key */
  5.   memset (&key, 0, sizeof key);
  6.   key.mu_dptr = "user";
  7.   key.mu_dsize = 4;
  8.   /* Initialize content */
  9.   memset (&content, 0, sizeof content);
  10.   /* Look up the data */
  11.   rc = mu_dbm_fetch (db, &key, &content);
  12.   ...
  13.   /* Find another key: */
  14.   key.mu_dptr = "hostname";
  15.   key.mu_dsize = 8;
  16.   /* It is OK not to re-set content here, because it was initialized
  17.      by the previous call to mu_dbm_fetch and will be freed automatically. */
  18.   rc = mu_dbm_fetch (db, &key, &content);
  19.   ...
  20.   /* Free the content */
  21.   mu_dbm_datum_free (&content);

Storing Records

  int mu_dbm_store (mu_dbm_file_t db, struct mu_dbm_datum const *key,
 		    struct mu_dbm_datum const *content, int replace);

The function mu_dbm_store inserts or replaces records in the database.

The parameters key and content supply the record key and associated data. The parameter replace determines behavior of the function if a record with such key already exists in the database. If replace is 1, mu_dbm_store will replace the data part of the existing record with data from content. Otherwise, if replace is 0, the function will leave the record unchanged and return MU_ERR_EXISTS.

The function returns 0 on success and MU_ERR_FAILURE on error. In the latter case the textual description of the error can be obtained using mu_dbm_strerror.

Deleting a Record

  int mu_dbm_delete (mu_dbm_file_t db, struct mu_dbm_datum const *key);

This function deletes from the database a record with the given key. It returns 0 on success, MU_ERR_NOENT, if there is no such key in the database and MU_ERR_FAILURE on error. In the latter case the textual description of the error can be obtained using mu_dbm_strerror.

Sequential Access

The following two functions allow for accessing all items in the database:

  int mu_dbm_firstkey (mu_dbm_file_t db, struct mu_dbm_datum *ret);
  int mu_dbm_nextkey (mu_dbm_file_t db, struct mu_dbm_datum *ret);

The function mu_dbm_firstkey initializes db for sequential access and stores the first key in the datum pointed to by ret. The function returns 0 on success, MU_ERR_NOENT if the database is empty and MU_ERR_FAILURE on error.

The function mu_dbm_nextkey takes a pointer to the datum returned by a prior call to either of the two functions and locates the key immediately following this one. On success, it stores the new key in that same datum and returns 0. It returns MU_ERR_NOENT if all keys in the database has been visited and MU_ERR_FAILURE if a database error occurred.

This function takes care about the memory allocated for ret. This means that it is not necessary to call
mu_dbm_datum_free (ret)
neither before calling this function nor after it returns MU_ERR_NOENT (although calling it is not an error). The usual sequential access code looks like:
  1.   struct mu_dbm_datum key;
  2.   int rc;
  4.   memset (&key, 0, sizeof key);
  5.   for (rc = mu_dbm_firstkey (db, &key); 
  6.        rc == 0; 
  7.        rc = mu_dbm_nextkey (db, &key))
  8.     {
  9.       do_something (&key);
  10.     }
  11.   if (rc != MU_ERR_NOENT)
  12.     mu_dbm_datum_free (&key);

Notice, that sequential access does not imply any particular ordering in which the keys will be visited. It only guarantees that each key in the database will be visited exactly once, provided that no database updates take place within the looop. The latter condition is important. You cannot store or delete records in the loop, because this will change key ordering and can break the sequential access algorithm. In other words, the following is wrong:

  struct mu_dbm_datum key;
  int rc;
  memset (&key, 0, sizeof key);
  for (rc = mu_dbm_firstkey (db, &key); 
       rc == 0; 
       rc = mu_dbm_nextkey (db, &key))
      if (key_matches_something (&key))
        /* This is wrong! */
        mu_dbm_delete (db, &key);

Additional Functions

The function mu_dbm_get_fd can be used to obtain file descriptors of the underlying database:

  int mu_dbm_get_fd (mu_dbm_file_t db, int *pag, int *dir);

The function returns two descriptors, because some libraries (namely, NDBM) keep databases in two files: so called page and directory files. If so, the descriptors of these files are returned in the memory locations pointed to by pag and dir, correspondingly. If the underlying library stores the database in a single file, the descriptor of this file will be stored in both pag and dir. In any case, dir can be NULL if that information is of no interest for the called. However, pag can not be NULL, otherwise mu_dbm_get_fd will return ENOMEM.

Return Codes

Apart from the return codes discussed above, each libmu_dbm function can return the following:

Not enough memory for the operation.
The db or some other required argument is NULL.
Database is not open. This error can be returned by any function taking mu_dbm_database_t as argument, except the following: mu_dbm_create_from_url, mu_dbm_create, mu_dbm_safety_get_owner, mu_dbm_safety_get_flags, mu_dbm_safety_set_owner, mu_dbm_safety_set_flags, mu_dbm_safety_check.
Function not implemented.

Error Reporting

The functions from libmu_dbm return MU_ERR_FAILURE if an error occurred in the underlying database implementation. A textual description of this error can be obtained using the following call:

  char const *mu_dbm_strerror (mu_dbm_file_t db);

The pointer returned by this function must not be freed or its contents altered by the application.

An example usage:

  1.    rc = mu_dbm_store (db, &key, &contents, replace);
  2.    if (rc)
  3.      mu_error ("cannot store datum: %s",
  4. 	       rc == MU_ERR_FAILURE ? 
  5.                   mu_dbm_strerror (db) : mu_strerror (rc));

Notice how an appropriate error reporting function is selected in lines 4--5.

Closing the Database

An open database is closed using:

  int mu_dbm_close (mu_dbm_file_t db);

Unless intended for a subsequent re-opening, a closed database should be destroyed via a call to mu_dbm_destroy:

  void mu_dbm_destroy (mu_dbm_file_t *pdb);

This function reclaims the memory used by the mu_dbm_file_t object pointed to by its argument and initializes it to NULL before returning. Calling mu_dbm_destroy on an open database is OK: the function will call mu_dbm_close prior to freeing the memory. In fact, it is seldom necessary to call mu_dbm_close explicitly. Instead, it suffices to call mu_dbm_destroy once the database is no longer necessary.


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