Lean RPC framework based on RabbitMQ.
Project description
python3-cyberfusion-rabbitmq-consumer
Lean RPC framework based on RabbitMQ.
Features
- Request and response validation (using Pydantic).
- Auto-generated documentation (using the standalone documentation server).
- Strong request-response contract (see 'Pydantic model generation').
- Process multiple RPC requests simultaneously (using threading).
- Encryption (using Fernet).
- Dynamic structure using namespace packaging (see 'Namespace packaging: shipping handlers from multiple packages'.
- Locking.
- Idempotency.
-
- RPC requests are retried if anything happens before they are fully processed (as the AMQP message wouldn't be acknowledged).
Project origins and use case
A lean RPC framework: why?
Commonly used RPC frameworks include:
These frameworks do everything you'll ever need. So why build another framework?
Exactly because other frameworks do almost everything. Our systems must be 1) lean and 2) manageable. The aforementioned frameworks are not.
Finally, consider how 'simple' many use cases are:
- Do RPC request.
- Validate request (syntactic).
- Delegate response generation.
- Return response.
... and building a new, lean RPC framework becomes obvious.
The RPC framework is based on RabbitMQ, because it provides all primitives needed for stable and scalable inter-systems messaging.
RPC vs REST
Traditionally, REST is the go-to framework for strong-contracted data exchange.
REST is resource-oriented: callers operate on resources. For example, one could call the endpoint GET /fruits/orange/1000
- retrieving orange 1000.
In distributed systems that implement separation of concerns, microservices are action-oriented.
Such microservices don't store local objects (such as 'orange 1'). Instead, they execute requests, tied to a specific action.
Using REST in a non-resource-oriented way leads to awkward constructs. That's where RPC comes in.
Example for comparison
An example to clarify the difference between REST and RPC: update an orange to not have a pith.
REST request
PATCH /fruits/orange/1000
{"has_pith": false}
Note:
- The action is indicated using the HTTP method verb (
DELETE
). - The object is identified using its ID (1000).
- Only the property to update is specified. The REST API has stored the object, and its properties.
RPC request
update_fruit_pith
{"type": "orange", "location": "Basement", "has_pith": false}
Note:
- The action is explicitly mentioned (
update_fruit_pith
). - The object is not identified. After all, there is no object to speak of (refer to 'RPC vs REST'), so...
- all object properties are specified (on every request).
Processing RPC requests
For exchanges and virtual hosts specified in the config file, the RabbitMQ consumer processes RPC requests.
Handlers are per-exchange
When receiving an RPC request, the exchange-specific handler is called, which processes the request.
Exchanges correspond to actions. For example, the exchange dx_delete_server
is expected to delete a server.
As deleting a server requires different processing than, for example, creating a server, every exchange has its own handler.
The handler returns the RPC response.
Example
Find a handler example in exchanges/dx_example
.
Where handlers come from
A class called Handler
is imported from the module cyberfusion.RabbitMQHandlers.exchanges
, followed by the exchange name. For example: cyberfusion.RabbitMQHandlers.exchanges.dx_delete_server.Handler
.
The Handler
class is then called. Therefore, it must implement __call__
.
A module must exist for every handler. Otherwise, RPC requests for the exchange can't be processed.
Type annotations and Pydantic: how request and response data is validated
Handlers use Python type annotations to indicate the request model (that they expect as input) and response model (that they return).
These models are Pydantic models, inheriting RPCRequestBase
and RPCResponseBase
respectively.
For example:
from typing import Optional
from cyberfusion.RabbitMQConsumer.contracts import (
RPCRequestBase,
RPCResponseBase,
RPCResponseData,
)
class RPCRequestExample(RPCRequestBase):
...
class RPCResponseDataExample(RPCResponseData):
...
class RPCResponseExample(RPCResponseBase):
data: Optional[RPCResponseDataExample]
def __call__(
self,
request: RPCRequestExample # Request model
) -> RPCResponseExample: # Response model
...
Strong-contracted (definitions)
A common concept in RPC is 'definitions': using the same response/request models on the client and server sides. As opposed to 'dumb' JSON, using models guarantees that requests and responses are syntactically correct. This brings many advantages of local calls, such as type validation, to RPC (remote calls).
The RabbitMQ standalone documentation server can generate Pydantic models for exchange request/request models, which you can use on the client. For more information, see 'Pydantic model generation' in its README.
Encryption using Fernet
Request data can be encrypted using Fernet. You encrypt it before publishing the RPC request. The RabbitMQ consumer then decrypts it. This requires the Fernet key to be known on both ends.
Example
from cryptography.fernet import Fernet
# Create the key (usually done one-time). Add the key to the RabbitMQ consumer
# config (`fernet_key` under virtual host).
key = Fernet.generate_key().decode()
# Encrypt password
plain_password = 'test'
encrypted_password = Fernet(key).encrypt(
# Fernet can only encode bytes
plain_password.encode()
).decode()
rpc_request_payload = {"password": encrypted_password}
Properties
If the request body contains any of the following properties, they must be encrypted:
secret_values
passphrase
password
admin_password
database_user_password
Namespace packaging: shipping handlers from multiple packages
In some cases, you might want to ship handlers from multiple packages.
For example, if a single RabbitMQ consumer's config contains the following exchanges:
dx_create_server
(concerns servers)dx_update_server
(concerns servers)dx_delete_server
(concerns servers)dx_restart_server
(concerns servers)dx_create_tree
(concerns trees)dx_cut_down_tree
(concerns trees)
... you might want two separate packages:
RabbitMQHandlersServers
(contains server exchanges)RabbitMQHandlersTrees
(contains tree exchanges)
You can do this using namespace packaging.
This lets you install the exchange modules above, from multiple packages, into a single module (cyberfusion.RabbitMQHandlers.exchanges
- where all exchange handlers are imported from, see 'Where handlers come from').
Using namespace packaging is simple: don't add an __init__.py
to the exchanges
directory.
To demonstrate, a 'regular' module tree contains __init__.py
files:
server_handlers/
src/
cyberfusion/
RabbitMQHandlers/
__init__.py
exchanges/
__init__.py
dx_create_server/
__init__.py
... while a namespace-packaged tree doesn't:
server_handlers/
src/
cyberfusion/
RabbitMQHandlers/
exchanges/
dx_create_server/
__init__.py
You can then ship submodules from another package, of which the tree may look like this:
tree_handlers/
src/
cyberfusion/
RabbitMQHandlers/
exchanges/
dx_create_tree/
__init__.py
Restarting
When the RabbitMQ consumer is installed as a Debian package, changes to exchanges trigger a restart of all consumer processes.
If you ship your exchanges as a Debian package, and need files outside of the RabbitMQHandlers
directory to trigger a restart of all consumer processes, use the rabbitmq-consumer-restart
trigger. For example:
$ cat debian/python3-cyberfusion-cluster-configuration-manager.triggers
activate-await rabbitmq-consumer-restart
Locking
To prevent conflicting RPC requests from running simultaneously, use Handler.lock_attribute
.
If multiple RPC requests come in, for which the lock attribute's value is identical, only one is processed at a time.
Example
Scenario:
- You have an exchange,
dx_upgrade_server
. It should not be possible to upgrade a given server multiple times, simultaneously. - The exchange's request model has the property
name
. - On
dx_upgrade_server
, an RPC request withname = example
, and an RPC request withname = demonstration
may run simultaneously (becauseexample
differs fromdemonstration
). - On
dx_upgrade_server
, an RPC request withname = example
, and another RPC request withname = example
(identical) may NOT run simultaneously (becauseexample
is the same asexample
).
Code:
from cyberfusion.RabbitMQConsumer.contracts import HandlerBase
class Handler(HandlerBase):
...
@property
def lock_attribute(self) -> str:
return "name"
Executing RPC requests
RPC requests can be made by any caller that speaks AMQP.
See supported client libraries in the RabbitMQ documentation.
Python example with Pika
For Python, Pika is the go-to RabbitMQ/AMQP library.
Below is an example implementation to execute RPC calls (to dx_example
. The example corresponds to the config example rabbitmq.yml
.
(As opposed to RabbitMQ's own example, the example below implements exception handling, timeouts and SSL.)
import json
import ssl
import uuid
from typing import Any
import pika
from cryptography.fernet import Fernet
class AMQP:
"""A class that allows us to interact with AMQP, usable as a context manager."""
def __init__(
self,
ssl_enabled: bool,
port: int,
host: str,
username: str,
password: str,
virtual_host_name: str,
) -> None:
self.ssl_enabled = ssl_enabled
self.port = port
self.host = host
self.username = username
self.password = password
self.virtual_host_name = virtual_host_name
self.set_ssl_options()
self.set_connection()
self.set_channel()
def set_ssl_options(self) -> None:
self.ssl_options: pika.SSLOptions | None = None
if self.ssl_enabled:
self.ssl_options = pika.SSLOptions(
ssl.create_default_context(), self.host
)
def get_credentials(self) -> pika.credentials.PlainCredentials:
return pika.credentials.PlainCredentials(self.username, self.password)
def set_connection(self) -> None:
self.connection = pika.BlockingConnection(
pika.ConnectionParameters(
host=self.host,
port=self.port,
virtual_host=self.virtual_host_name,
credentials=self.get_credentials(),
ssl_options=self.ssl_options,
)
)
def set_channel(self) -> None:
self.channel = self.connection.channel()
def publish(
self,
exchange_name: str,
exchange_type: str,
routing_key: str,
*,
body: dict[str, Any],
) -> None:
self.channel.exchange_declare(
exchange=exchange_name, exchange_type=exchange_type
)
self.channel.basic_publish(
exchange=exchange_name,
body=json.dumps(body),
properties=pika.BasicProperties(
content_type="application/json",
# Persistency, so messages don't get lost. For more information, see:
# https://www.rabbitmq.com/docs/persistence-conf
delivery_mode=2,
),
routing_key=routing_key,
)
def __enter__(self) -> pika.adapters.blocking_connection.BlockingChannel:
"""Return AMQP channel."""
return self.channel
def __exit__(self, exc_type, exc_val, exc_tb) -> None: # type: ignore[no-untyped-def]
"""Close AMQP connection."""
self.connection.close()
class RPC:
"""AMQP RPC client."""
DEFAULT_TIMEOUT = 5 * 60
def __init__(
self,
pika: AMQP,
queue: str,
exchange: str,
timeout: int = DEFAULT_TIMEOUT,
) -> None:
self.pika = pika
self.routing_key = queue
self.exchange = exchange
self.timeout = timeout
# Set channel, queue, and bind
self.channel = self.pika.connection.channel()
self.callback_queue = self.channel.queue_declare(
queue="", exclusive=True
).method.queue
self.channel.queue_bind(exchange=exchange, queue=self.callback_queue)
# Set timeout
self.pika.connection.call_later(timeout, self.timeout_routine)
# Start consuming
self.channel.basic_consume(
queue=self.callback_queue,
on_message_callback=self.callback,
auto_ack=True,
)
def timeout_routine(self) -> None:
raise Exception(f"RPC call timed out on exchange '{self.exchange}'")
def publish(self, *, body: dict[str, Any]) -> bytes:
"""Publish message and wait for response."""
self.response: str | bytes | None = None
self.correlation_id: str = str(uuid.uuid4())
self.channel.basic_publish(
exchange=self.exchange,
body=json.dumps(body),
properties=pika.BasicProperties(
content_type="application/json",
reply_to=self.callback_queue,
correlation_id=self.correlation_id,
#
# $TIMEOUT can be reached in two cases:
#
# - When the message isn't acked in $TIMEOUT, e.g. because the
# consumer is offline
# - When the message processing takes $TIMEOUT
#
# In either case, an exception is raised in the 'timeout' method.
# When this happens because of case #1 (message not acked), we want
# to ensure that the RPC message does not start processing when the
# consumer is able to process the message. Therefore, the RPC message
# should expire after $TIMEOUT; this ensures that, once we've returned
# the definitive state by raising an exception in the 'timeout' method,
# the RPC call will not process in the background anyway.
#
expiration=str(self.timeout * 1000),
),
routing_key=self.routing_key,
)
while self.response is None:
self.pika.connection.process_data_events()
# Exception handling and return response
response = json.loads(self.response)
if not response["success"]: # Always present, see `cyberfusion.RabbitMQConsumer.contracts.RPCResponseBase`
raise Exception("RPC call failed: " + response["message"])
return self.response
def callback(
self,
channel: pika.adapters.blocking_connection.BlockingChannel,
method: pika.spec.Basic.Deliver,
properties: pika.spec.BasicProperties,
body: bytes,
) -> None:
"""Handle response."""
if self.correlation_id == properties.correlation_id:
self.response = body
with AMQP(
virtual_host_name="test",
password="password",
username="username",
host="host",
port=5671,
ssl_enabled=True
) as amqp:
EXCHANGE = "dx_example"
amqp.exchange_declare(
exchange=EXCHANGE,
exchange_type="direct",
)
rpc_client = RPC(
amqp,
queue="test",
exchange=EXCHANGE
)
key = Fernet.generate_key().decode()
response = json.loads(
rpc_client.publish(
body={
"favourite_food": "onion",
"chance_percentage": Fernet(key).encrypt(b"secret").decode(),
}
)
)
tolerable = response["data"]["tolerable"]
Install
PyPI
Run the following command to install the package from PyPI:
pip3 install python3-cyberfusion-rabbitmq-consumer
Debian
Run the following commands to build a Debian package:
mk-build-deps -i -t 'apt -o Debug::pkgProblemResolver=yes --no-install-recommends -y'
dpkg-buildpackage -us -uc
Configure
Sections
The config file contains:
- RabbitMQ server details
- Virtual hosts
- Per virtual host: exchanges (see 'Handlers are per-exchange')
Example
Find an example config in rabbitmq.yml
.
Run
On Debian with systemd
The Debian package ships a systemd target. This allows you to run separate RabbitMQ consumer processes for every virtual host.
For example, if your config contains the virtual hosts trees
and servers
, run:
systemctl start rabbitmq-consume@trees.service
systemctl start rabbitmq-consume@servers.service
Monitoring
To check if all systemd services are running, run:
/usr/bin/rabbitmq-consumer-status
If any service is inactive, the script exits with a non-zero RC.
Config file
Default
By default, the config file /etc/cyberfusion/rabbitmq.yml
is used.
Customise
To use a different config file, override CONFIG_FILE_PATH
(using a drop-in file). For example:
$ cat /etc/systemd/system/rabbitmq-consume@trees.service.d/99-config-file-path.conf
[Service]
Environment=CONFIG_FILE_PATH=/tmp/rabbitmq.yml
Directory
Non-default configs can be stored in /etc/cyberfusion/rabbitmq
. This directory is automatically created.
Manually
/usr/bin/rabbitmq-consumer --virtual-host-name=<virtual-host-name> --config-file-path=<config-file-path>
The given virtual host must be present in the config.
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