Configuring a Version Counter¶
The Mapper
supports management of a version id column, which
is a single table column that increments or otherwise updates its value
each time an UPDATE
to the mapped table occurs. This value is checked each
time the ORM emits an UPDATE
or DELETE
against the row to ensure that
the value held in memory matches the database value.
Warning
Because the versioning feature relies upon comparison of the in memory
record of an object, the feature only applies to the Session.flush()
process, where the ORM flushes individual in-memory rows to the database.
It does not take effect when performing
a multirow UPDATE or DELETE using Query.update()
or Query.delete()
methods, as these methods only emit an UPDATE or DELETE statement but otherwise
do not have direct access to the contents of those rows being affected.
The purpose of this feature is to detect when two concurrent transactions
are modifying the same row at roughly the same time, or alternatively to provide
a guard against the usage of a “stale” row in a system that might be re-using
data from a previous transaction without refreshing (e.g. if one sets expire_on_commit=False
with a Session
, it is possible to re-use the data from a previous
transaction).
Simple Version Counting¶
The most straightforward way to track versions is to add an integer column
to the mapped table, then establish it as the version_id_col
within the
mapper options:
class User(Base):
__tablename__ = 'user'
id = Column(Integer, primary_key=True)
version_id = Column(Integer, nullable=False)
name = Column(String(50), nullable=False)
__mapper_args__ = {
"version_id_col": version_id
}
Note
It is strongly recommended that the version_id
column
be made NOT NULL. The versioning feature does not support a NULL
value in the versioning column.
Above, the User
mapping tracks integer versions using the column
version_id
. When an object of type User
is first flushed, the
version_id
column will be given a value of “1”. Then, an UPDATE
of the table later on will always be emitted in a manner similar to the
following:
UPDATE user SET version_id=:version_id, name=:name
WHERE user.id = :user_id AND user.version_id = :user_version_id
{"name": "new name", "version_id": 2, "user_id": 1, "user_version_id": 1}
The above UPDATE statement is updating the row that not only matches
user.id = 1
, it also is requiring that user.version_id = 1
, where “1”
is the last version identifier we’ve been known to use on this object.
If a transaction elsewhere has modified the row independently, this version id
will no longer match, and the UPDATE statement will report that no rows matched;
this is the condition that SQLAlchemy tests, that exactly one row matched our
UPDATE (or DELETE) statement. If zero rows match, that indicates our version
of the data is stale, and a StaleDataError
is raised.
Custom Version Counters / Types¶
Other kinds of values or counters can be used for versioning. Common types include
dates and GUIDs. When using an alternate type or counter scheme, SQLAlchemy
provides a hook for this scheme using the version_id_generator
argument,
which accepts a version generation callable. This callable is passed the value of the current
known version, and is expected to return the subsequent version.
For example, if we wanted to track the versioning of our User
class
using a randomly generated GUID, we could do this (note that some backends
support a native GUID type, but we illustrate here using a simple string):
import uuid
class User(Base):
__tablename__ = 'user'
id = Column(Integer, primary_key=True)
version_uuid = Column(String(32), nullable=False)
name = Column(String(50), nullable=False)
__mapper_args__ = {
'version_id_col':version_uuid,
'version_id_generator':lambda version: uuid.uuid4().hex
}
The persistence engine will call upon uuid.uuid4()
each time a
User
object is subject to an INSERT or an UPDATE. In this case, our
version generation function can disregard the incoming value of version
,
as the uuid4()
function
generates identifiers without any prerequisite value. If we were using
a sequential versioning scheme such as numeric or a special character system,
we could make use of the given version
in order to help determine the
subsequent value.
See also
Server Side Version Counters¶
The version_id_generator
can also be configured to rely upon a value
that is generated by the database. In this case, the database would need
some means of generating new identifiers when a row is subject to an INSERT
as well as with an UPDATE. For the UPDATE case, typically an update trigger
is needed, unless the database in question supports some other native
version identifier. The PostgreSQL database in particular supports a system
column called xmin
which provides UPDATE versioning. We can make use
of the PostgreSQL xmin
column to version our User
class as follows:
from sqlalchemy import FetchedValue
class User(Base):
__tablename__ = 'user'
id = Column(Integer, primary_key=True)
name = Column(String(50), nullable=False)
xmin = Column("xmin", Integer, system=True, server_default=FetchedValue())
__mapper_args__ = {
'version_id_col': xmin,
'version_id_generator': False
}
With the above mapping, the ORM will rely upon the xmin
column for
automatically providing the new value of the version id counter.
The ORM typically does not actively fetch the values of database-generated
values when it emits an INSERT or UPDATE, instead leaving these columns as
“expired” and to be fetched when they are next accessed, unless the eager_defaults
mapper()
flag is set. However, when a
server side version column is used, the ORM needs to actively fetch the newly
generated value. This is so that the version counter is set up before
any concurrent transaction may update it again. This fetching is also
best done simultaneously within the INSERT or UPDATE statement using RETURNING,
otherwise if emitting a SELECT statement afterwards, there is still a potential
race condition where the version counter may change before it can be fetched.
When the target database supports RETURNING, an INSERT statement for our User
class will look
like this:
INSERT INTO "user" (name) VALUES (%(name)s) RETURNING "user".id, "user".xmin
{'name': 'ed'}
Where above, the ORM can acquire any newly generated primary key values along with server-generated version identifiers in one statement. When the backend does not support RETURNING, an additional SELECT must be emitted for every INSERT and UPDATE, which is much less efficient, and also introduces the possibility of missed version counters:
INSERT INTO "user" (name) VALUES (%(name)s)
{'name': 'ed'}
SELECT "user".version_id AS user_version_id FROM "user" where
"user".id = :param_1
{"param_1": 1}
It is strongly recommended that server side version counters only be used when absolutely necessary and only on backends that support RETURNING, e.g. PostgreSQL, Oracle, SQL Server (though SQL Server has major caveats when triggers are used), Firebird.
New in version 0.9.0: Support for server side version identifier tracking.
Programmatic or Conditional Version Counters¶
When version_id_generator
is set to False, we can also programmatically
(and conditionally) set the version identifier on our object in the same way
we assign any other mapped attribute. Such as if we used our UUID example, but
set version_id_generator
to False
, we can set the version identifier
at our choosing:
import uuid
class User(Base):
__tablename__ = 'user'
id = Column(Integer, primary_key=True)
version_uuid = Column(String(32), nullable=False)
name = Column(String(50), nullable=False)
__mapper_args__ = {
'version_id_col':version_uuid,
'version_id_generator': False
}
u1 = User(name='u1', version_uuid=uuid.uuid4())
session.add(u1)
session.commit()
u1.name = 'u2'
u1.version_uuid = uuid.uuid4()
session.commit()
We can update our User
object without incrementing the version counter
as well; the value of the counter will remain unchanged, and the UPDATE
statement will still check against the previous value. This may be useful
for schemes where only certain classes of UPDATE are sensitive to concurrency
issues:
# will leave version_uuid unchanged
u1.name = 'u3'
session.commit()
New in version 0.9.0: Support for programmatic and conditional version identifier tracking.