Skip to main content

A mock library for confluent kafka

Project description

Alt text

Mockafka-py is a Python library designed for in-memory mocking of Kafka.

PyPI - Downloads Codecov CodeFactor codebeat badge GitHub Workflow Status (with event) GitHub GitHub release (with filter) GitHub repo size

Mockafka: Fake Version for confluent-kafka-python & aiokafka

Features

  • Compatible with confluent-kafka
  • Compatible with aiokafka (async support)
  • Supports Produce, Consume, and AdminClient operations with ease.

Getting Start

Installing via pip or poetry

pip install mockafka-py

# or using poetry
poetry add mockafka-py

Usage

Multi-Decorator Examples for confluent-kafka-python

In the following examples, we showcase the usage of multiple decorators to simulate different scenarios in a Mockafka environment. These scenarios include producing, consuming, and setting up Kafka topics using the provided decorators.

Example 1: Using @produce and @consume Decorators

Test Case: test_produce_decorator

from mockafka import produce, consume


@produce(topic='test', key='test_key', value='test_value', partition=4)
@consume(topics=['test'])
def test_produce_and_consume_decorator(message):
    """
    This test showcases the usage of both @produce and @consume decorators in a single test case.
    It produces a message to the 'test' topic and then consumes it to perform further logic.
    # Notice you may get message None
    """
    # Your test logic for processing the consumed message here

    if not message:
        return

    pass

Example 2: Using Multiple @produce Decorators

Test Case: test_produce_twice

from mockafka import produce


@produce(topic='test', key='test_key', value='test_value', partition=4)
@produce(topic='test', key='test_key1', value='test_value1', partition=0)
def test_produce_twice():
    # Your test logic here
    pass

Example 3: Using @bulk_produce and @consume Decorators

Test Case: test_bulk_produce_decorator

from mockafka import bulk_produce, consume


@bulk_produce(list_of_messages=sample_for_bulk_produce)
@consume(topics=['test'])
def test_bulk_produce_and_consume_decorator(message):
    """
    This test showcases the usage of both @bulk_produce and @consume decorators in a single test case.
    It does bulk produces messages to the 'test' topic and then consumes them to perform further logic.
    """
    # Your test logic for processing the consumed message here
    pass

Example 4: Using @setup_kafka and @produce Decorators

Test Case: test_produce_with_kafka_setup_decorator

from mockafka import setup_kafka, produce


@setup_kafka(topics=[{"topic": "test_topic", "partition": 16}])
@produce(topic='test_topic', partition=5, key='test_', value='test_value1')
def test_produce_with_kafka_setup_decorator():
    # Your test logic here
    pass

Example 5: Using @setup_kafka, Multiple @produce, and @consume Decorators

Test Case: test_consumer_decorator

from mockafka import setup_kafka, produce, consume


@setup_kafka(topics=[{"topic": "test_topic", "partition": 16}])
@produce(topic='test_topic', partition=5, key='test_', value='test_value1')
@produce(topic='test_topic', partition=5, key='test_', value='test_value1')
@consume(topics=['test_topic'])
def test_consumer_decorator(message: Message = None):
    if message is None:
        return
    # Your test logic for processing the consumed message here
    pass

Using classes like confluent-kafka

from mockafka import FakeProducer, FakeConsumer, FakeAdminClientImpl
from mockafka.admin_client import NewTopic
from random import randint

# Create topic
admin = FakeAdminClientImpl()
admin.create_topics([
    NewTopic(topic='test', num_partitions=5)
])

# Produce messages
producer = FakeProducer()
for i in range(0, 10):
    producer.produce(
        topic='test',
        key=f'test_key{i}',
        value=f'test_value{i}',
        partition=randint(0, 4)
    )

# Subscribe consumer
consumer = FakeConsumer()
consumer.subscribe(topics=['test'])

# Consume messages
while True:
    message = consumer.poll()
    print(message)
    consumer.commit()

    if message is None:
        break

Output:

"""
<mockafka.message.Message object at 0x7fe84b4c3310>
<mockafka.message.Message object at 0x7fe84b4c3370>
<mockafka.message.Message object at 0x7fe84b4c33a0>
<mockafka.message.Message object at 0x7fe84b4c33d0>
<mockafka.message.Message object at 0x7fe84b4c3430>
<mockafka.message.Message object at 0x7fe84b4c32e0>
<mockafka.message.Message object at 0x7fe84b4c31f0>
<mockafka.message.Message object at 0x7fe84b4c32b0>
<mockafka.message.Message object at 0x7fe84b4c3400>
<mockafka.message.Message object at 0x7fe84b4c3340>
None
"""

Async support

Multi-Decorator Examples for aiokafka

Example 1: Using @aproduce and @aconsume and @asetup_kafka Decorators

Test Case: test_produce_and_consume_with_decorator

import pytest
from mockafka import aproduce, aconsume, asetup_kafka


@pytest.mark.asyncio
@asetup_kafka(topics=[{'topic': 'test_topic', 'partition': 16}], clean=True)
@aproduce(topic='test_topic', value='test_value', key='test_key', partition=0)
@aconsume(topics=['test_topic'])
async def test_produce_and_consume_with_decorator(message=None):
    if not message:
        return

    assert message.key() == 'test_key'
    assert message.value() == 'test_value'

Example 2: Using @aproduce and @asetup_kafka Decorators

Test Case: test_produce_with_decorator

import pytest
from mockafka import aproduce, asetup_kafka
from mockafka.aiokafka import FakeAIOKafkaConsumer

@pytest.mark.asyncio
@asetup_kafka(topics=[{'topic': 'test_topic', 'partition': 16}], clean=True)
@aproduce(topic='test_topic', value='test_value', key='test_key', partition=0)
async def test_produce_with_decorator():
    consumer = FakeAIOKafkaConsumer()
    await consumer.start()
    consumer.subscribe(['test_topic'])
    message = await consumer.getone()

    assert message.key() == 'test_key'
    assert message.value() == 'test_value'

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

mockafka_py-0.1.58.tar.gz (15.0 kB view details)

Uploaded Source

Built Distribution

mockafka_py-0.1.58-py3-none-any.whl (21.9 kB view details)

Uploaded Python 3

File details

Details for the file mockafka_py-0.1.58.tar.gz.

File metadata

  • Download URL: mockafka_py-0.1.58.tar.gz
  • Upload date:
  • Size: 15.0 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/5.1.0 CPython/3.12.4

File hashes

Hashes for mockafka_py-0.1.58.tar.gz
Algorithm Hash digest
SHA256 fcba1ecd6c64666581b26d2f28c425e497e662479cb5e22cd61d7c5d583a99c6
MD5 bc31ddb67f67485cc10f4f95386eeac4
BLAKE2b-256 69987d34f520e1061a750f3174ab694ae911feed7a99b3930e71ec51c6c5afbd

See more details on using hashes here.

File details

Details for the file mockafka_py-0.1.58-py3-none-any.whl.

File metadata

File hashes

Hashes for mockafka_py-0.1.58-py3-none-any.whl
Algorithm Hash digest
SHA256 69e6ff88bc53f6a130d371ef2178c80f155cc70ad9a52314273b776ea5084e5e
MD5 2ef2e74d82b52ae207c6fb207025f57a
BLAKE2b-256 a38c99517e9524f525bf151a20bf2891b61633d82cf11f5daea2da100215855b

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page