Interface differences between TDB1 and TDB2.

- tdb2 uses 'struct tdb_data', tdb1 uses 'struct TDB_DATA'.  Use the
  TDB_DATA typedef if you want portability between the two.

- tdb2 functions return 0 on success, and a negative error on failure,
  whereas tdb1 functions returned 0 on success, and -1 on failure.
  tdb1 then used tdb_error() to determine the error; this is also
  supported in tdb2 to ease backwards compatibility, though the other
  form is preferred.

- tdb2's tdb_fetch() returns an error, tdb1's returned the data directly
  (or tdb_null, and you were supposed to check tdb_error() to find out why).

- tdb2's tdb_nextkey() frees the old key's dptr, in tdb2 you needed to do
  this manually.

- tdb1's tdb_open/tdb_open_ex took an explicit hash size.  tdb2's hash table
  resizes as required.

- tdb2 uses a linked list of attribute structures to implement logging and
  alternate hashes.  tdb1 used tdb_open_ex, which was not extensible.

- tdb2 does locking on read-only databases (ie. O_RDONLY passed to tdb_open).
  tdb1 did not: use the TDB_NOLOCK flag if you want to suppress locking.

- tdb2's log function is simpler than tdb1's log function.  The string is
  already formatted, and it takes an enum tdb_log_level not a tdb_debug_level,
  and which has only three values: TDB_LOG_ERROR, TDB_LOG_USE_ERROR and
  TDB_LOG_WARNING.

- tdb2 provides tdb_deq() for comparing two struct tdb_data.

- tdb2's tdb_name() returns a copy of the name even for TDB_INTERNAL dbs.

- tdb2 does not need tdb_reopen() or tdb_reopen_all().  If you call
  fork() after during certain operations the child should close the
  tdb, or complete the operations before continuing to use the tdb:

	tdb_transaction_start(): child must tdb_transaction_cancel()
	tdb_lockall(): child must call tdb_unlockall()
	tdb_lockall_read(): child must call tdb_unlockall_read()
	tdb_chainlock(): child must call tdb_chainunlock()
	tdb_parse() callback: child must return from tdb_parse()