Please remember that CodernityDB is not relational Database, forcing it to work in that model will usually work, but it's not recommended. You should try to denormalize it (Database normalization).
How it's build
CodernityDB is build from 3 important parts
It holds information about Indexes, and mostly does operation on those indexes. It's the visible Object for End User.
Currently there are implemented 4 different databases
- Database - a database to use in single process/thread environment
- DatabaseTreadSafe - a database to use with threads, readers don't block writters etc. GeventDatabase is 1:1 copy of that database.
- DatabaseSuperThreadSafe - a database to also use with threads, but database operations are limited to only one in given time.
- CodernityDB-HTTP - a HTTP server version of database, for multi thread and multi process environments. |CodernityDB-HTTP-link|.
Database to work requires at least one Index. That required index must be named id. It will store all objects that are saved in database.
Do you know that you can use CodernityDB as simple key-value on disk storage? Just define only one index (the id one).
By index we call the class in Python language that was added to the Database. It can be compared to SQL table (but read only), to update you always need to pass full object to database, our Indexes can be compared also with CouchDB views mechanizm.
Index itself does not store any information except it's metadata. You don't have to copy full data everytime in indexes, because all indexes different than id one, are bound with it by _id value, and you can easily get content from that id index by adding with_doc=True to your get queries (please refer to :py:meth:`CodernityDB.database.Database.get` for method documentation)
Don't worry it's not hard, to write index, that's an example of hash index (more in :ref:`examples`)
Remember that adding new index when database exists you have to perform reindex on that new index.
class Md5Index(HashIndex): def __init__(self, *args, **kwargs): kwargs['key_format'] = '16s' super(Md5Index, self).__init__(*args, **kwargs) def make_key_value(self, data): return md5(data['name']).digest(), None def make_key(self, key): return md5(key).digest()
That's one of the simplest index class, it will allow you to query database for specified name, for example:
[...] john = db.get('md5', 'John', with_doc=True) [...]
Both indexes makes huge use of Sparse files.
For more informations about indexes visit :ref:`database_indexes`
Also please remember that more indexes affects write performance.
The id index should save whole object content, otherwise the options with_doc will not work as expected.
Storage is used by index to store values from it (look at the second return parameter in code example above).
If index returns None as value, no storage operation is performed.
Storage needs to save python value to the disk and return the position and size to allow Index to save that data. The default implementation uses Python marshal to serialize and deserialize Python objects passed as value into it. So you will be abble to store those object that are serializable by marshal module.
CodernityDB never overwrites existing data. The id index is always consistent. And other indexes can be always restored, refreshed (:py:meth:`CodernityDB.database.Database.reindex_index` operation) from it.
In given time, just one writer is allowed to write into single index (update / delete actions). Readers are never blocked.
The write is first performed on storage, and then on index metadata. After every write operation, the index does flush of the storage and metadata files. It means that in worst case (power lost during write operation) the previous metadata and storage information will be valid.
Database doesn't allow multiple object operations, and has no support for typical transaction mechanizm (like SQL databases have). But single object operation is fully atomic.
To handle multiple updates to the same document we use _rev (like CouchDB) field, that informs us about document version. When rev is not matched with one from Database, write operation is refused.
There is also nothing like delayed write in default CodernityDB implementation. After each write, internals and file buffers are flushed, and then the write confirmation is returned to user.
CodernityDB does no sync kernel buffers with disk itself. To be sure that data is written to disk please call :py:meth:`~CodernityDB.database.Database.fsync`
Indexes tries to reuse as much space as possible, because metadata size is fixed, during every write operation, if index finds metadata marked as removed or so, it reuses it - writes new data into that place.
Because of never update in Storage, a lot of space is wasted there. To optimize the disk usage run :py:meth:`CodernityDB.database.Database.compact()` or :py:meth:`CodernityDB.index.Index.compact()` method.
During insert into database, incomming data are passed to make_key_value functions in all indexes in order of adding or changing them in database. On query operations function make_key is called in order to get valid key for the given index.
Interested in speed? Visit :ref:`speed` showcase.
Incomming data is at first processed in id index. Then it goes through make_key_value method, in next stage the value is stored in storage, and at last the metadata is stored in index. Then the procedure is repeated for other indexes.
Please see :py:meth:`~CodernityDB.database.Database.insert` docs for details.
Works in the same way as insert operation. But you have to specify _rev and _id fields. The _rev field is compared with currently stored in database. If they match, the operation continues, in other situation :py:exc:`.DatabaseConflict` is raised.
Also there is no possibility to update single attribute of object in database. You have to always do full update. So even for updating a single attribute you have to perform get + update on whole object from database.
Please see :py:meth:`~CodernityDB.database.Database.update` docs for details.
During delete phase at first the data is deleted from all indexes but id, then if succeeded at last phase from id index. Delete operation is in general just a bit changed update one. In fact the delete means mark as deleted. No direct delete is performed. The place used by metadata will be reused in first possible situation (ie. will not iterate further if element marked as deleted is found).
Please see :py:meth:`~CodernityDB.database.Database.delete` docs for details.
Please see :ref:`database_indexes` for index documentation and description.
Using that order, we can be sure that even in case of index failure, in any case we have fully working id index, and it can be used to rebuild other index structure (:py:meth:`CodernityDB.database.Database.reindex` and :py:meth:`CodernityDB.database.Database.compact`)