This package supports using the Python eventsourcing library with SQLAlchemy.
- Table of contents
- Quick start
- Installation
- Getting started
- Managing transactions outside the application
- Using SQLAlchemy scoped sessions
- Managing sessions with Flask-SQLAlchemy
- Managing sessions with FastAPI-SQLAlchemy
- Google Cloud SQL Python Connector
- More information
To use SQLAlchemy with your Python eventsourcing applications:
- install the Python package
eventsourcing_sqlalchemy
- set the environment variable
PERSISTENCE_MODULE
to'eventsourcing_sqlalchemy'
- set the environment variable
SQLALCHEMY_URL
to an SQLAlchemy database URL
See below for more information.
Use pip to install the stable distribution from the Python Package Index. Please note, it is recommended to install Python packages into a Python virtual environment.
$ pip install eventsourcing_sqlalchemy
Define aggregates and applications in the usual way.
from eventsourcing.application import Application
from eventsourcing.domain import Aggregate, event
from uuid import uuid5, NAMESPACE_URL
class TrainingSchool(Application):
def register(self, name):
dog = Dog(name)
self.save(dog)
def add_trick(self, name, trick):
dog = self.repository.get(Dog.create_id(name))
dog.add_trick(trick)
self.save(dog)
def get_tricks(self, name):
dog = self.repository.get(Dog.create_id(name))
return dog.tricks
class Dog(Aggregate):
@event('Registered')
def __init__(self, name):
self.name = name
self.tricks = []
@staticmethod
def create_id(name):
return uuid5(NAMESPACE_URL, f'/dogs/{name}')
@event('TrickAdded')
def add_trick(self, trick):
self.tricks.append(trick)
To use this module as the persistence module for your application, set the environment
variable PERSISTENCE_MODULE
to 'eventsourcing_sqlalchemy'
.
When using this module, you need to set the environment variable SQLALCHEMY_URL
to an
SQLAlchemy database URL for your database.
Please refer to the SQLAlchemy documentation
for more information about SQLAlchemy Database URLs.
import os
os.environ['PERSISTENCE_MODULE'] = 'eventsourcing_sqlalchemy'
os.environ['SQLALCHEMY_URL'] = 'sqlite:///:memory:'
Construct and use the application in the usual way.
school = TrainingSchool()
school.register('Fido')
school.add_trick('Fido', 'roll over')
school.add_trick('Fido', 'play dead')
tricks = school.get_tricks('Fido')
assert tricks == ['roll over', 'play dead']
Sometimes you might need to update an SQLAlchemy ORM model atomically with updates to
your event-sourced application. You can manage transactions outside the application.
Just call the application recorder's transaction()
method and use the returned
Transaction
object as a context manager to obtain an SQLAlchemy Session
object. You can add()
your ORM objects to the session. Everything will commit
atomically when the Transaction
context manager exits. This effectively implements
thread-scoped transactions.
with school.recorder.transaction() as session:
# Update CRUD model.
... # session.add(my_orm_object)
# Update event-sourced application.
school.register('Buster')
school.add_trick('Buster', 'fetch ball')
tricks = school.get_tricks('Buster')
assert tricks == ['fetch ball']
Please note, the SQLAlchemy "autoflush" ORM feature is enabled by default.
app = Application()
with app.recorder.transaction() as session:
assert session.autoflush is True
If you need "autoflush" to be disabled, you can set the environment variable SQLALCHEMY_NO_AUTOFLUSH
.
app = Application(env={'SQLALCHEMY_AUTOFLUSH': 'False'})
with app.recorder.transaction() as session:
assert session.autoflush is False
Alternatively, you can set the autoflush option directly on the SQLAlchemy session maker.
app = Application()
app.recorder.datastore.session_maker.kw["autoflush"] = False
with app.recorder.transaction() as session:
assert session.autoflush is False
Alternatively, you can use the session's no_autoflush
context manager.
app = Application()
with app.recorder.transaction() as session:
with session.no_autoflush:
assert session.autoflush is False
Alternatively, you can set the autoflush
attribute of the session object.
app = Application()
with app.recorder.transaction() as session:
session.autoflush = False
# Add CRUD objects to the session.
...
It's possible to configure the application to use an SQLAlchemy scoped_session
object which will scope the session to standard threads, or other things such
as Web requests in a Web application framework.
Define an adapter for a scoped_session
object and configure the event-sourced
application using the environment variable SQLALCHEMY_SCOPED_SESSION_TOPIC
.
from eventsourcing.application import AggregateNotFound
from eventsourcing.utils import get_topic
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker, scoped_session
# Create engine.
engine = create_engine('sqlite:///:memory:')
# Create a scoped_session object.
session = scoped_session(
sessionmaker(autocommit=False, autoflush=False, bind=engine)
)
# Define an adapter for the scoped session.
class MyScopedSessionAdapter:
def __getattribute__(self, item: str) -> None:
return getattr(session, item)
# Produce the topic of the scoped session adapter class.
scoped_session_topic = get_topic(MyScopedSessionAdapter)
# Construct an event-sourced application.
app = Application(
env={'SQLALCHEMY_SCOPED_SESSION_TOPIC': scoped_session_topic}
)
# During request.
aggregate = Aggregate()
app.save(aggregate)
app.repository.get(aggregate.id)
session.commit()
# After request.
session.remove()
# During request.
app.repository.get(aggregate.id)
# After request.
session.remove()
# During request.
aggregate = Aggregate()
app.save(aggregate)
# forget to commit
# After request.
session.remove()
# During request.
try:
# forgot to commit
app.repository.get(aggregate.id)
except AggregateNotFound:
pass
else:
raise Exception("Expected aggregate not found")
# After request.
session.remove()
As you can see, you need to call commit()
during a request, and call remove()
after the request completes. Packages that integrate SQLAlchemy with Web application
frameworks tend to automate this call to remove()
. Some of them also call commit()
automatically if an exception is not raised during the handling of a request.
The package Flask-SQLAlchemy
(full docs) provides a class
called SQLAlchemy
which has a session
attribute which is an SQLAlchemy
scoped_session
. This can be adapted in a similar way.
from flask import Flask
from flask_sqlalchemy import SQLAlchemy
try:
from sqlalchemy.orm import declarative_base # type: ignore
except ImportError:
from sqlalchemy.ext.declarative import declarative_base
# Define a Flask app.
flask_app = Flask(__name__)
flask_app.config['SQLALCHEMY_DATABASE_URI'] = 'sqlite:///:memory:'
# Integration between Flask and SQLAlchemy.
Base = declarative_base()
db = SQLAlchemy(flask_app, model_class=Base)
# Define an adapter for the scoped session.
class FlaskScopedSession:
def __getattribute__(self, item: str) -> None:
return getattr(db.session, item)
# Run the Flask application in a Web application server.
with flask_app.app_context():
# Produce the topic of the scoped session adapter class.
scoped_session_adapter_topic = get_topic(FlaskScopedSession)
# Construct event-sourced application to use scoped sessions.
es_app = Application(
env={"SQLALCHEMY_SCOPED_SESSION_TOPIC": scoped_session_adapter_topic}
)
# During request.
aggregate = Aggregate()
es_app.save(aggregate)
db.session.commit()
# After request (this is done automatically).
db.session.remove()
# During request.
es_app.repository.get(aggregate.id)
# After request (this is done automatically).
db.session.remove()
The package FastAPI-SQLAlchemy
doesn't actually use an SQLAlchemy scoped_session
, but instead has a global db
variable that has a session
attribute which returns request-scoped sessions when
accessed. This can be adapted in a similar way. Sessions are committed automatically
after the request has been handled successfully, and not committed if an exception
is raised.
from fastapi import FastAPI
from fastapi_sqlalchemy import db, DBSessionMiddleware
# Define a FastAPI application.
fastapi_app = FastAPI()
# Add SQLAlchemy integration middleware to the FastAPI application.
fastapi_app.add_middleware(
DBSessionMiddleware, db_url='sqlite:///:memory:'
)
# Build the middleware stack (happens automatically when the FastAPI app runs in a Web app server).
fastapi_app.build_middleware_stack()
# Define an adapter for the scoped session.
class FastapiScopedSession:
def __getattribute__(self, item: str) -> None:
return getattr(db.session, item)
# Construct an event-sourced application within a scoped session.
with db(commit_on_exit=True):
# Produce the topic of the scoped session adapter class.
scoped_session_adapter_topic = get_topic(FlaskScopedSession)
# Construct event-sourced application to use scoped sessions.
es_app = Application(
env={"SQLALCHEMY_SCOPED_SESSION_TOPIC": get_topic(FastapiScopedSession)}
)
# Create a new event-sourced aggregate.
with db(commit_on_exit=True): # This happens automatically before handling a route.
# Handle request.
aggregate = Aggregate()
es_app.save(aggregate)
es_app.repository.get(aggregate.id)
# The aggregate has been committed.
with db(commit_on_exit=True): # This happens automatically before handling a route.
# Handle request.
es_app.repository.get(aggregate.id)
# Raise exception after creating aggregate.
try:
with db(commit_on_exit=True):
# Handle request.
aggregate = Aggregate()
es_app.save(aggregate)
es_app.repository.get(aggregate.id)
raise TypeError("An error occurred!!!")
except TypeError:
# Web framework returns an error.
...
else:
raise Exception("Expected type error")
# The aggregate hasn't been committed.
with db(commit_on_exit=True):
try:
es_app.repository.get(aggregate.id)
except AggregateNotFound:
pass
else:
raise Exception("Expected aggregate not found")
You can set the environment variable SQLALCHEMY_CONNECTION_CREATOR_TOPIC
to a topic
that will resolve to a callable that will be used to create database connections.
For example, you can use the Cloud SQL Python Connector in the following way.
First install the Cloud SQL Python Connector package from PyPI.
$ pip install 'cloud-sql-python-connector[pg8000]'
Then define a getconn()
function, following the advice in the Cloud SQL
Python Connector README page.
from google.cloud.sql.connector import Connector
# initialize Connector object
connector = Connector()
# function to return the database connection
def get_google_cloud_sql_conn():
return connector.connect(
"project:region:instance",
"pg8000",
user="[email protected]",
db="my-db-name",
enable_iam_auth=True,
)
Set the environment variable 'SQLALCHEMY_CONNECTION_CREATOR_TOPIC'
, along with
'PERSISTENCE_MODULE'
and 'SQLALCHEMY_URL'
.
from eventsourcing.utils import get_topic
os.environ['PERSISTENCE_MODULE'] = 'eventsourcing_sqlalchemy'
os.environ['SQLALCHEMY_URL'] = 'postgresql+pg8000://'
os.environ['SQLALCHEMY_CONNECTION_CREATOR_TOPIC'] = get_topic(get_google_cloud_sql_conn)
See the library's documentation and the SQLAlchemy project for more information.