A Python library to help build things the way we want them built
Project description
rococo
A Python library to help build things the way we want them built.
Anything worth doing is worth doing well. Anything worth doing twice is worth doing in rococo.
Decision Log -
How to document new decision
Basic Usage
Installation
Install using pip:
pip install rococo
Example
Models
from rococo.models import Person
# Initialize a Person object from rococo's built-in models.
someone = Person(first_name="John", last_name="Doe")
# Prepare to save the object in the database adding/updating attributes for the object.
someone.prepare_for_save(changed_by_id=UUID("b30884cb-5127-457c-a633-4a800ad3c44b"))
someone.as_dict()
OUTPUT:
{
'active': True,
'changed_by_id': 'b30884cb-5127-457c-a633-4a800ad3c44b',
'changed_on': datetime.datetime(2023, 9, 20, 19, 50, 23, 532875),
'entity_id': 'ba68b3b1-fccd-4035-92f6-0ac2b29d71a1',
'first_name': 'John',
'last_name': 'Doe',
'previous_version': '3261fc4d-7db4-4945-91b5-9fb6a4b7dbc5',
'version': '4b6d92de-64bc-4dfb-a824-2151e8f11b73'
}
Messaging
RabbitMQ
# Producer
from rococo.messaging import RabbitMqConnection
with RabbitMqConnection('host', 'port', 'username', 'password', 'virtual_host') as conn:
conn.send_message('queue_name', {'message': 'data'})
# Consumer
from rococo.messaging import RabbitMqConnection
def process_message(message_data: dict):
print(f"Processing message {message_data}...")
with RabbitMqConnection('host', 'port', 'username', 'password', 'virtual_host') as conn:
conn.consume_messages('queue_name', process_message)
SQS
# Producer
from rococo.messaging import SqsConnection
with SqsConnection(region_name='us-east-1') as conn:
conn.send_message('queue_name', {'message': 'data'})
# Consumer
from rococo.messaging import SqsConnection
def process_message(message_data: dict):
print(f"Processing message {message_data}...")
with SqsConnection(region_name='us-east-1') as conn:
conn.consume_messages('queue_name', process_message)
# Note: since cleanup is not required for SQS connections, you can also do:
conn = SqsConnection(region_name='us-east-1')
conn.send_message('queue_name', {'message': 'data'})
conn.consume_messages('queue_name', process_message)
Processing
Processing data from messages can be achieved by implementing the abstract class BaseServiceProcessor
within messaging/base.py
Data
SurrealDB
from rococo.data import SurrealDbAdapter
def get_db_connection():
endpoint = "ws://localhost:8000/rpc"
username = "myuser"
password = "mypassword"
namespace = "test"
database = "test"
return SurrealDbAdapter(endpoint, username, password, namespace, database)
with get_db_connection() as db:
db.execute_query("""insert into person {
user: 'me',
pass: 'very_safe',
tags: ['python', 'documentation']
};""")
print(db.execute_query("SELECT * FROM person;", {}))
Relationships in Surreal DB
Consider the following example models:
# Models
from dataclasses import field, dataclass
from rococo.repositories import SurrealDbRepository
from rococo.models import VersionedModel
from rococo.data import SurrealDbAdapter
@dataclass
class Email(VersionedModel):
email_address: str = None
@dataclass
class LoginMethod(VersionedModel):
email: str = field(default=None, metadata={
'relationship': {'model': Email, 'type': 'direct'},
'field_type': 'record_id'
})
method_type: str = None
@dataclass
class Person(VersionedModel):
login_method: str = field(default=None, metadata={
'relationship': {'model': LoginMethod, 'type': 'direct'},
'field_type': 'record_id'
})
name: str = None
@dataclass
class Organization(VersionedModel):
person: str = field(default=None, metadata={
'relationship': {'model': Person, 'type': 'direct'},
'field_type': 'record_id'
})
name: str = None
def get_db_connection():
endpoint = "ws://localhost:8000/rpc"
username = "root"
password = "root"
namespace = "breton1"
database = "bretondb1"
return SurrealDbAdapter(endpoint, username, password, namespace, database)
# **Creating and relating objects.**
email = Email(email_address="test@example.com")
# Create a LoginMethod that references Email object
login_method = LoginMethod(
method_type="email-password",
email=email # Can be referenced by object
)
# Create a Person that references LoginMethod object
person = Person(
name="Person1",
login_method=login_method.entity_id # Can be referenced by UUID object.
)
# Create an Organization that references Person object
organization = Organization(
name="Organization1",
person=str(person.entity_id) # Can be referenced by UUID string.
)
with get_db_connection() as adapter:
# **Create repositories**
person_repo = SurrealDbRepository(adapter, Person, None, None)
organization_repo = SurrealDbRepository(adapter, Organization, None, None)
login_method_repo = SurrealDbRepository(adapter, LoginMethod, None, None)
email_repo = SurrealDbRepository(adapter, Email, None, None)
# ** Save objects.
organization_repo.save(organization)
# Saves to SurrealDB:
# {
# "active": true,
# "changed_by_id": "00000000-0000-4000-8000-000000000000",
# "changed_on": "2023-11-23T19:21:00.816083",
# "id": "organization:⟨5bb0a0dc-0043-45a3-9dac-d514b5ef7669⟩",
# "name": "Organization1",
# "person": "person:⟨7a3f4e8c-fd46-43db-b619-5b2129bbcc37⟩",
# "previous_version": "00000000-0000-4000-8000-000000000000",
# "version": "b49010ad-bc64-487e-bd41-4cdf20ff7aab"
# }
person_repo.save(person)
# Saves to SurrealDB:
# {
# "active": true,
# "changed_by_id": "00000000-0000-4000-8000-000000000000",
# "changed_on": "2023-11-23T19:21:00.959270",
# "id": "person:⟨7a3f4e8c-fd46-43db-b619-5b2129bbcc37⟩",
# "login_method": "loginmethod:⟨0e1ef122-e4aa-435f-ad97-bd75ef6d1eb8⟩",
# "name": "Person1",
# "previous_version": "00000000-0000-4000-8000-000000000000",
# "version": "95049030-80bd-45cd-a39f-09139fe67343"
# }
login_method_repo.save(login_method)
# Saves to SurrealDB:
# {
# "active": true,
# "changed_by_id": "00000000-0000-4000-8000-000000000000",
# "changed_on": "2023-11-23T19:21:01.025179",
# "email": "email:⟨3e654628-47fa-4a0e-bd42-79fda124149e⟩",
# "id": "loginmethod:⟨0e1ef122-e4aa-435f-ad97-bd75ef6d1eb8⟩",
# "method_type": "email-password",
# "previous_version": "00000000-0000-4000-8000-000000000000",
# "version": "9e20a1dc-bcb1-45c2-bdf8-64e441a79758"
# }
email_repo.save(email)
# Saves to SurrealDB:
# {
# "active": true,
# "changed_by_id": "00000000-0000-4000-8000-000000000000",
# "changed_on": "2023-11-23T19:21:01.093089",
# "email_address": "test@example.com",
# "id": "email:⟨3e654628-47fa-4a0e-bd42-79fda124149e⟩",
# "previous_version": "00000000-0000-4000-8000-000000000000",
# "version": "0f693d94-a912-4b0a-bc96-3e558f7e13d5"
# }
# **Fetching related objects
organization = organization_repo.get_one({"entity_id": organization.entity_id}, fetch_related=['person'])
# Roughly evaluates to "SELECT * FROM organization FETCH person;"
print(organization.person.entity_id) # Prints entity_id of related person
print(organization.person.name) # Prints name of related person
organization = organization_repo.get_one({"entity_id": organization.entity_id})
# Roughly evaluates to "SELECT * FROM organization;"
print(organization.person.entity_id) # Prints entity_id of related person
try:
print(organization.person.name) # raises AttributeError
except AttributeError:
pass
print(organization.as_dict(True))
# prints
# {
# "entity_id":"ff02a2c0-6bcf-426f-b5b9-8c01913b79f6",
# "version":"9d58fd0e-b70a-4772-91f9-af3e6342de5b",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active": True,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2023-11-25T12:21:09.028676",
# "person":{
# "entity_id":"93cc132c-2a2a-46e4-853a-c02239336a28"
# },
# "name":"Organization1"
# }
# FETCH chaining
organization = organization_repo.get_one({"entity_id": organization.entity_id}, fetch_related=['person', 'person.login_method', 'person.login_method.email'])
# Roughly evaluates to "SELECT * FROM organization FETCH person, person.login_method, person.login_method.email"
print(organization.entity_id) # Prints entity_id of organization
print(organization.person.entity_id) # Prints entity_id of organization.person
print(organization.person.login_method.entity_id) # Prints entity_id of organization.person.login_method
print(organization.person.login_method.email.entity_id) # Prints entity_id of organization.person.login_method.email
print(organization.person.login_method.email.email_address) # Prints email address of organization.person.login_method.email
print(organization.as_dict(True))
# prints
# {
# "entity_id":"846f0756-20ab-44d3-8899-07e10b698ccd",
# "version":"578ca4c7-311a-4508-85ec-00ba264cd741",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active": True,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2023-11-25T12:19:46.541387",
# "person":{
# "entity_id":"ef99b93c-e1bb-4f37-96d5-e4e560dbdda0",
# "version":"b3ce7b8a-223e-4a63-a842-042178c9645c",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active": True,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2023-11-25T12:19:46.623192",
# "login_method":{
# "entity_id":"a7efa334-ea92-4e59-95d5-c8d51a976c1b",
# "version":"4d1a9a1b-81fb-433f-8b43-1bf1c3b696da",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active": True,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2023-11-25T12:19:46.706244",
# "email":{
# "entity_id":"76e95956-0404-4c06-916b-89927b73d26d",
# "version":"d59a91a4-26ef-4a88-bee2-b5c0d651bd77",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active":True,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2023-11-25T12:19:46.775098",
# "email_address":"test@example.com"
# },
# "method_type":"email-password"
# },
# "name":"Person1"
# },
# "name":"Organization1"
# }
Many-to-many relationships
# Many-to-Many relationships
# **Creating and relating objects.**
# Many-to-Many relationships
# Investor->investswith->Investment
# /\ /\ /\
# || || ||
# IN name OUT
from typing import List
@dataclass
class Investor(VersionedModel):
name: str = None
# One-to-Many field
person: str = field(default=None, metadata={
'relationship': {'model': Person, 'type': 'direct'},
'field_type': 'record_id'
})
# Many-to-Many field
investments: List[VersionedModel] = field(default=None, metadata={
'relationship': {'model': 'Investment', 'type': 'associative', 'name': 'investswith', 'direction': 'out'},
'field_type': 'm2m_list'
})
@dataclass
class Investment(VersionedModel):
name: str = None
# Many-to-Many field
investors: List[VersionedModel] = field(default=None, metadata={
'relationship': {'model': 'Investor', 'type': 'associative', 'name': 'investswith', 'direction': 'in'},
'field_type': 'm2m_list'
})
# **Creating and relating objects.**
investor1 = Investor(name="Investor1", person=person)
investor2 = Investor(name="Investor2", person=person.entity_id)
investor3 = Investor(name="Investor3", person=Person(entity_id=person.entity_id))
investment1 = Investment(name="Investment1")
investment2 = Investment(name="Investment2")
investment3 = Investment(name="Investment3")
with get_db_connection() as adapter:
# **Create repositories**
investor_repo = SurrealDbRepository(adapter, Investor, None, None)
investment_repo = SurrealDbRepository(adapter, Investment, None, None)
investor_repo.save(investor1)
investor_repo.save(investor2)
investor_repo.save(investor3)
investment_repo.save(investment1)
investment_repo.save(investment2)
investment_repo.save(investment3)
# Relate investor1 to investment2 and investment3
investor_repo.relate(investor1, 'investswith', investment2)
# OR
investment_repo.relate(investor1, 'investswith', Investment(entity_id=investment3.entity_id))
# Relate investor2 to investment1 and investment3
investor_repo.relate(Investor(entity_id=investor2.entity_id), 'investswith', investment1)
investor_repo.relate(investor2, 'investswith', investment3)
# Relate investor3 to investment1 and investment2
investment_repo.relate(investor3, 'investswith', investment1)
investment_repo.relate(investor3, 'investswith', investment2)
# Fetching many-to-many relations
for investment in investment_repo.get_many({}, fetch_related=['investors']):
print("Investment: ", investment.as_dict(True))
print()
# Fetch-chaining for many-to-many relations
for investment in investment_repo.get_many({}, fetch_related=['investors', 'investors.person', 'investors.person.login_method', 'investors.person.login_method.email']):
print("Investment: ", investment.as_dict(True))
print()
# Get investments of an investor by investor's entity_id
investor_with_investments = investor_repo.get_one({'entity_id': investor1.entity_id}, fetch_related=['investments'])
investments = investor_with_investments.investments
for investment in investments:
print(investment.as_dict())
Relationships in MySQL
Consider the following example models:
# Models
from dataclasses import field, dataclass
from rococo.repositories.mysql import MySqlRepository
from rococo.models import VersionedModel
from rococo.data import MySqlAdapter
@dataclass
class Email(VersionedModel):
email_address: str = None
@dataclass
class LoginMethod(VersionedModel):
email_id: str = None # Stores the entity_id of an object of Email class.
method_type: str = None
@dataclass
class Person(VersionedModel):
login_method_id: str = None # Stores the entity_id of an object of LoginMethod class.
name: str = None
@dataclass
class Organization(VersionedModel):
person_id: str = None # Stores the entity_id of an object of Person class.
name: str = None
def get_db_connection():
return MySqlAdapter('localhost', 3306, 'root', 'ransomsnare_root_pass', 'testdb')
# **Creating and relating objects.**
email = Email(email_address="test@example.com")
# Create a LoginMethod that references Email object
login_method = LoginMethod(
method_type="email-password",
email=email.entity_id # Reference to the Email object created previously.
)
# Create a Person that references LoginMethod object
person = Person(
name="Person1",
login_method=login_method.entity_id # Reference to the LoginMethod object created previously.
)
# Create an Organization that references Person object
organization = Organization(
name="Organization1",
person=person.entity_id # Reference to the Person object created previously.
)
with get_db_connection() as adapter:
# **Create repositories**
person_repo = MySqlRepository(adapter, Person, None, None)
organization_repo = MySqlRepository(adapter, Organization, None, None)
login_method_repo = MySqlRepository(adapter, LoginMethod, None, None)
email_repo = MySqlRepository(adapter, Email, None, None)
# ** Save objects.
organization_repo.save(organization)
# Saves to MySQL:
# {
# "active": true,
# "changed_by_id": "00000000000040008000000000000000",
# "changed_on": "2024-03-11 00:03:21",
# "entity_id": "5bb0a0dc004345a39dacd514b5ef7669",
# "name": "Organization1",
# "person_id": "7a3f4e8cfd4643dbb6195b2129bbcc37",
# "previous_version": "00000000000040008000000000000000",
# "version": "b49010adbc64487ebd414cdf20ff7aab"
# }
person_repo.save(person)
# Saves to MySQL:
# {
# "active": true,
# "changed_by_id": "00000000000040008000000000000000",
# "changed_on": "2024-03-11 00:03:21",
# "id": "7a3f4e8cfd4643dbb6195b2129bbcc37",
# "login_method_id": "0e1ef122e4aa435fad97bd75ef6d1eb8",
# "name": "Person1",
# "previous_version": "00000000000040008000000000000000",
# "version": "9504903080bd45cda39f09139fe67343"
# }
login_method_repo.save(login_method)
# Saves to MySQL:
# {
# "active": true,
# "changed_by_id": "00000000000040008000000000000000",
# "changed_on": "2024-03-11 00:03:21",
# "email_id": "3e65462847fa4a0ebd4279fda124149e",
# "id": "0e1ef122e4aa435fad97bd75ef6d1eb8",
# "method_type": "email-password",
# "previous_version": "00000000000040008000000000000000",
# "version": "9e20a1dcbcb145c2bdf864e441a79758"
# }
email_repo.save(email)
# Saves to MySQL:
# {
# "active": true,
# "changed_by_id": "00000000000040008000000000000000",
# "changed_on": "2024-03-11 00:03:21",
# "email_address": "test@example.com",
# "id": "3e65462847fa4a0ebd4279fda124149e",
# "previous_version": "00000000000040008000000000000000",
# "version": "0f693d94a9124b0abc963e558f7e13d5"
# }
# **Fetching related objects
organization = organization_repo.get_one({"entity_id": organization.entity_id})
# Roughly evaluates to "SELECT * FROM organization WHERE entity_id=<Specified entity ID> LIMIT 1;"
print(organization.person_id) # Prints entity_id of related person
print(organization.as_dict(True))
# prints
# {
# "entity_id":"fb5a9d0e-4bac-467f-9318-4063811e51b6",
# "version":"6fb045ef-1428-4a0c-b5a6-37c18e6711ab",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active":1,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2024-03-11T00:03:21",
# "person_id": "582ecaade30f40bc8e6cc4675a4bc178",
# "name":"Organization1"
# }
person = person_repo.get_one({"entity_id": organization.person})
# Get all organizations by person
person_orgs = organization_repo.get_many({
"person_id": person.entity_id
})
for org in person_orgs:
print(org.as_dict(True))
# Prints:
# {
# "entity_id":"0af9964d-0fc7-4128-ba7f-a66a51a87231",
# "version":"ce694166-5ca6-43dc-936d-078011469465",
# "previous_version":"00000000-0000-4000-8000-000000000000",
# "active":1,
# "changed_by_id":"00000000-0000-4000-8000-000000000000",
# "changed_on":"2024-03-11T00:14:07",
# "person_id": "5b10a75a-23d7-4b98-b35e-0f1a59ec5b6d",
# "name":"Organization1"
# }
How to use the adapter and base Repository in another projects
class LoginMethodRepository(BaseRepository):
def __init__(self, adapter, message_adapter, queue_name):
super().__init__(adapter, LoginMethod, message_adapter, queue_name)
def save(self, login_method: LoginMethod, send_message: bool = False):
with self.adapter:
return super().save(login_method,send_message)
def get_one(self, conditions: Dict[str, Any]):
with self.adapter:
return super().get_one(conditions)
def get_many(self, conditions: Dict[str, Any]):
with self.adapter:
return super().get_many(conditions)
-
The LoginMethodRepository class is a concrete implementation of the BaseRepository class. It is responsible for managing LoginMethod objects in the database.
The init() method takes an adapter object as input. This adapter object is responsible for communicating with the database. The adapter object is passed to the super().init() method, which initializes the base repository class. It also takes in a message adapter and queue name for RabbitMQ and SQS messaging which can later be used in the save() method by passing a boolean.
The save() method takes a LoginMethod object as input and saves it to the database. The get_one() method takes a dictionary of conditions as input and returns a single LoginMethod object that matches those conditions. The get_many() method takes a dictionary of conditions as input and returns a list of LoginMethod objects that match those conditions.
RepositoryFactory
class RepositoryFactory:
_repositories = {}
@classmethod
def _get_db_connection(cls):
endpoint = "ws://localhost:8000/rpc"
username = "myuser"
password = "mypassword"
namespace = "hell"
db_name = "abclolo"
return SurrealDbAdapter(endpoint, username, password, namespace, db_name)
@classmethod
def get_repository(cls, repo_class: Type[BaseRepository]):
if repo_class not in cls._repositories:
adapter = cls._get_db_connection()
cls._repositories[repo_class] = repo_class(adapter)
return cls._repositories[repo_class]
-
The RepositoryFactory class is a singleton class that is responsible for creating and managing repositories. It uses a cache to store the repositories that it has already created. This allows it to avoid creating the same repository multiple times.
The _get_db_connection() method creates a new database connection using the specified endpoint, username, password, namespace, and database name. The get_repository() method takes a repository class as input and returns the corresponding repository object. If the repository object does not already exist in the cache, then the factory will create a new one and add it to the cache.
Sample usage
sample_data = LoginMethod(
person_id="asd123123",
method_type="email",
method_data={},
email="user@example.com",
password="hashed_password",
)
repo = RepositoryFactory.get_repository(LoginMethodRepository)
result = repo.save(sample_data)
print("Done", repo.get_one({}))
-
The above code creates a new LoginMethod object and saves it to the database using the LoginMethodRepository object. It then retrieves the saved object from the database and prints it to the console.
This is just a simple example of how to use the LoginMethodRepository and RepositoryFactory classes. You can use these classes to manage any type of object in a database.
Rococo MySQL CLI (rococo-mysql
)
This CLI interface provides commands for managing MySQL migrations using the Rococo module. It supports creating new migrations, running forward and backward migrations, and retrieving the current database version. The CLI also handles environment variables from .env
files for database connection configurations.
Usage
rococo-mysql [OPTIONS] COMMAND
Options
--migrations-dir
(optional): Path to the migrations directory of your project. Defaults to checking standard directories (flask/app/migrations
,api/app/migrations
,app/migrations
).--env-files
(optional): Paths to environment files containing database connection details (e.g.,.env.secrets
,<APP_ENV>.env
).
Commands
new
Creates a new migration file in the specified migrations directory.
rococo-mysql new
rf
Runs the forward migration, applying all unapplied migrations in sequence.
rococo-mysql rf
rb
Runs the backward migration, rolling back the last applied migration.
rococo-mysql rb
version
Displays the current database version.
rococo-mysql version
Environment Configuration
- If no
--env-files
are provided, the CLI attempts to load environment variables from.env.secrets
and an environment-specific<APP_ENV>.env
file. - The environment variables required for the database connection are:
MYSQL_HOST
MYSQL_PORT
MYSQL_USER
MYSQL_PASSWORD
MYSQL_DATABASE
Example
Running a forward migration:
rococo-mysql --migrations-dir=app/migrations --env-files=.env .env.secrets rf
This command runs all pending migrations using the specified environment files and migrations directory.
Using email-transmitter
in your project
-
Create an
email_transmitter
directory in your project underservices
directory. -
Add a
config.json
file in theemail_transmitter
directory. No other file is needed in this directory. -
The
config.json
should contain a configuration object with the following keys:configurations
: A list of configuration objects. Currently, we are only usingmailjet
provider. An example config formailjet
provider looks like:[ { "provider": "mailjet", "sourceEmail": "SecondSight <system@secondsight.ai>", "errorReportingEmail": "system@secondsight.ai" } ]
events
: An object whose keys represent an event name and the value represents an object that represents the email to be sent when that event is received. An exampleevents
object looks like:{ "USER_CREATED": { "subject": "Welcome {{var:recipient_name}}", "templateName": "Welcome (PROD and TEST)", "id": { "mailjet": 4777555 } } }
-
Example
config.json
:{ "configurations": [ { "provider": "mailjet", "sourceEmail": "SecondSight <system@secondsight.ai>", "errorReportingEmail": "system@secondsight.ai" } ], "events": { "USER_CREATED": { "subject": "Welcome {{var:recipient_name}}", "templateName": "Welcome (PROD and TEST)", "id": { "mailjet": 4777555 } } } }
-
Add the
email_transmitter
service todocker-compose.yml
. A simple definition looks like:
services:
email_transmitter:
image: ecorrouge/email-transmitter:latest
container_name: project_email_transmitter
restart: unless-stopped
env_file:
- ../.env # Path to .env
volumes:
- <path_to_email_transmitter_service>/config.json:/app/src/services/email_transmitter/src/config.json
-
Make sure
MAILJET_API_KEY
andMAILJET_API_SECRET
are available in the providedenv_file
file(s). -
Make sure
EmailServiceProcessor_QUEUE_NAME
andQUEUE_NAME_PREFIX
are available in the providedenv_file
file(s). -
Make sure the following variables are also available in the provided
env_file
file(s):RABBITMQ_HOST
RABBITMQ_PORT
RABBITMQ_USER
RABBITMQ_PASSWORD
RABBITMQ_VIRTUAL_HOST
-
Make sure the service is added to the same network as rest of the services that are to going to be calling this service.
-
How to call email-transmitter to send an email from application code:
from rococo.messaging import RabbitMqConnection
EMAIL_TRANSMITTER_QUEUE_NAME = os.getenv('QUEUE_NAME_PREFIX') + os.getenv('EmailServiceProcessor_QUEUE_NAME')
user_created = User(...)
message = {
"event": "USER_CREATED", # The event to trigger as defined in `email_transmitter/config.json`.
"data": { # The data to be passed to the email template specfied against the event in config.json.
"confirmation_link": confirmation_link,
"recipient_name": user.name,
},
"to_emails": [user.email], # A list of email addresses where the email should be sent.
}
with RabbitMqConnection('host', 'port', 'username', 'password', 'virtual_host') as conn:
conn.send_message(EMAIL_TRANSMITTER_QUEUE_NAME, message)
Deployment
The process described is a Continuous Integration (CI) and Continuous Deployment (CD) pipeline for a Python package using GitHub Actions. Here's the breakdown:
Development Phase
Developers push their changes directly to the main branch. This branch is likely used for ongoing development work.
Staging/Testing Phase
When the team is ready to test a potential release, they push the code to a staging branch. Once the code is pushed to this branch, GitHub Actions automatically publishes the package to the test PyPi server. The package can then be reviewed and tested by visiting https://test.pypi.org/project/rococo/. This step ensures that the package works as expected on the PyPi platform without affecting the live package.
Release/Publish Phase
When the team is satisfied with the testing and wants to release the package to the public, they create and publish a release on the GitHub repository. Following this action, GitHub Actions takes over and automatically publishes the package to the official PyPi server. The package can then be accessed and downloaded by the public at https://pypi.org/project/rococo/.
In essence, there are three primary phases:
- Development (main branch)
- Testing (staging branch with test PyPi server)
- Release (triggered by a GitHub release and published to the official PyPi server).
Local Development
To install local Rococo version in other project, upload to your PyPi:
- Run command "python setup.py sdist" to generate tar.gz file that will be uploaded to PyPi
- create ./pypirc file in the root of the directory and add: [pypi] username = token password = THE_TOKEN_PROVIDED_BY_PYPI
- run the command: twine upload --config-file=./.pypirc dist/*
Project details
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