AetherMagic - Multi-protocol communications between microservices (MQTT, Redis, HTTP/WebSocket, ZeroMQ)
Project description
AetherMagic - Multi-Protocol Microservices Communication
AetherMagic is a powerful multi-protocol communication library for microservices, providing a unified API for different transport mechanisms including MQTT, Redis, HTTP/WebSocket, and ZeroMQ.
Supported Protocols
1. MQTT (original) - Best for Task Distribution
- Lightweight protocol for IoT and microservices
- Shared subscriptions for automatic load balancing
- Built-in task distribution among multiple workers
- SSL/TLS encryption
2. Redis Pub/Sub + Streams
- Pub/Sub: Fast in-memory message delivery
- Streams: Reliable delivery with load-balanced consumer groups
- High performance, atomic operations
3. WebSocket
- Real-time bidirectional communication
- Built-in load balancing with random client selection
- Web interface compatibility
4. ZeroMQ
- High-performance messaging with natural load balancing
- PUSH/PULL pattern for automatic task distribution
- Brokerless architecture
Installation
pip install aethermagic
# For all protocols install additional dependencies:
pip install redis aiohttp websockets pyzmq
Usage
Quick Start with Different Protocols
import asyncio
from aethermagic import AetherMagic, ProtocolType, AetherTask
# MQTT (original)
aether_mqtt = AetherMagic(
protocol_type=ProtocolType.MQTT,
host='localhost',
port=1883
)
# Redis Pub/Sub
aether_redis = AetherMagic(
protocol_type=ProtocolType.REDIS,
host='localhost',
port=6379
)
# Redis Streams (with reliable delivery)
aether_streams = AetherMagic(
protocol_type=ProtocolType.REDIS,
host='localhost',
port=6379,
use_streams=True,
consumer_group='workers'
)
# HTTP/WebSocket
aether_http = AetherMagic(
protocol_type=ProtocolType.HTTP,
host='localhost',
port=8080,
mode='client' # or 'server'
)
# ZeroMQ
aether_zmq = AetherMagic(
protocol_type=ProtocolType.ZEROMQ,
host='localhost',
port=5555,
pattern='pubsub' # or 'pushpull', 'reqrep'
)
Creating a Worker
async def handle_task(ae_task, data):
print(f"Processing: {data}")
# Send intermediate status
await ae_task.status(50)
# Simulate work
await asyncio.sleep(2)
# Complete task
await ae_task.complete(True, {"result": "success"})
# Create task
task = AetherTask(
job='my_service',
task='process_data',
context='production',
on_perform=handle_task
)
# Register worker
await task.idle()
# Start main loop
await aether.main()
Sending Tasks from Client
async def on_status(ae_task, complete, succeed, progress, data):
if complete:
print(f"Task finished: {succeed}")
else:
print(f"Progress: {progress}%")
async def on_complete(ae_task, succeed, data):
print(f"Result: {data}")
# Create client task
client_task = AetherTask(
job='my_service',
task='process_data',
context='production',
on_status=on_status,
on_complete=on_complete
)
# Send task
await client_task.perform({
"input_file": "/path/to/data.csv",
"options": {"format": "json"}
})
Task Distribution & Load Balancing
AetherMagic automatically distributes tasks among multiple workers for all protocols:
MQTT with Shared Subscriptions
# Multiple workers subscribe to shared topic
# $share/union_job_workgroup/union/job/task/context/+/perform
await aether.listen('image-process', 'resize', 'batch1', 'perform', 'workers', handle_task)
Redis with Consumer Groups
# Atomic LPUSH/BRPOP operations ensure single delivery
await aether.listen('image-process', 'resize', 'batch1', 'perform', 'workers', handle_task)
WebSocket with Random Selection
# Tasks distributed randomly among connected clients
await aether.listen('image-process', 'resize', 'batch1', 'perform', 'workers', handle_task)
ZeroMQ PUSH/PULL Pattern
# Natural load balancing with PUSH/PULL sockets
await aether.listen('image-process', 'resize', 'batch1', 'perform', 'workers', handle_task)
Key Benefits:
- 🔄 Automatic load balancing - tasks distributed among available workers
- 🚫 No duplicate processing - each task handled by exactly one worker
- 📈 Horizontal scaling - add more workers to increase capacity
- 🛡️ Fault tolerance - failed workers don't block other workers
See TASK_DISTRIBUTION.md for detailed examples.
Protocol Selection Guide
MQTT
Use when:
- Need IoT device compatibility
- Require lightweight protocol
- Have bandwidth constraints
Redis Pub/Sub
Use when:
- Need maximum speed
- Already have Redis in infrastructure
- Message loss on failures is acceptable
Redis Streams
Use when:
- Need reliable message delivery
- Require load balancing between workers
- Message persistence is important
HTTP/WebSocket
Use when:
- Need web application integration
- Require HTTP proxy/load balancer compatibility
- Need REST API for external systems
ZeroMQ
Use when:
- Maximum performance is critical
- Don't want external broker dependencies
- Need specific communication patterns
Examples
See examples.py for complete usage examples of each protocol:
# Run Redis example
python examples.py redis
# Run HTTP/WebSocket example
python examples.py http
# Run ZeroMQ example
python examples.py zeromq
# Multi-protocol example
python examples.py multi
Configuration
Common Parameters
config = ConnectionConfig(
protocol_type=ProtocolType.REDIS,
host='localhost',
port=6379,
ssl=False,
username='user',
password='pass',
union='my_app', # namespace for application
timeout=30,
keepalive=60
)
Protocol-Specific Parameters
Redis Streams
aether = AetherMagic(
protocol_type=ProtocolType.REDIS,
use_streams=True,
consumer_group='workers',
consumer_name='worker_1'
)
HTTP/WebSocket
aether = AetherMagic(
protocol_type=ProtocolType.HTTP,
mode='server', # or 'client'
ssl=True
)
ZeroMQ
aether = AetherMagic(
protocol_type=ProtocolType.ZEROMQ,
pattern='pushpull', # 'pubsub', 'reqrep', 'all'
server_mode=True
)
Performance Comparison
| Protocol | Throughput | Latency | Reliability | Complexity |
|---|---|---|---|---|
| MQTT | Medium | Low | High | Low |
| Redis Pub/Sub | High | Very Low | Medium | Low |
| Redis Streams | High | Low | High | Medium |
| HTTP/WebSocket | Medium | Medium | High | Medium |
| ZeroMQ | Very High | Very Low | Medium | High |
Backward Compatibility
Existing MQTT code continues to work without changes:
# Old code
from aethermagic import AetherMagic
aether = AetherMagic(server="localhost", port=1883)
The new API is fully compatible and adds additional capabilities.
Load Balancing Support
AetherMagic now supports load-balanced task distribution to ensure each task is processed by only one worker:
Protocol-Specific Load Balancing
Redis Protocol
- RedisLoadBalancedProtocol: Uses Redis lists (LPUSH/BRPOP) for atomic task distribution
- Each task goes to exactly one available worker
- FIFO processing with blocking pop operations
from aethermagic.protocols.redis_protocol import RedisLoadBalancedProtocol
worker = RedisLoadBalancedProtocol(config, consumer_id="worker_1")
await worker.subscribe_to_tasks("job", "task", "context", callback)
MQTT Protocol
- Uses shared subscriptions with
$shareprefix - Broker distributes messages among group subscribers
- Built-in load balancing at protocol level
ZeroMQ Protocol
- Uses PUSH/PULL socket pattern for task distribution
- Round-robin delivery to connected workers
- No message duplication - perfect for task distribution
WebSocket Protocol
- Implements random selection among subscribed clients
- Tasks with 'shared:' or 'tasks:' prefixes are load balanced
- Single delivery guaranteed per task
Multi-Protocol Load Balancing API
Use the new convenience methods for load-balanced task processing:
from aethermagic import AetherMagic, ProtocolType
# Create workers
worker = AetherMagic(protocol_type=ProtocolType.REDIS, host="localhost", port=6379)
await worker.connect()
# Add load-balanced task handler
await worker.add_task(
job="processing",
task="compute",
context="demo",
callback=task_handler,
shared=True # Enable load balancing
)
# Publish load-balanced tasks
await worker.perform_task(
job="processing",
task="compute",
context="demo",
data={"work": "data"},
shared=True # Only one worker will receive this
)
Single Delivery Guarantees
- Redis: Atomic LPUSH/BRPOP operations ensure single delivery
- MQTT: Broker's shared subscription handles distribution
- ZeroMQ: PUSH/PULL pattern is inherently load-balanced
- WebSocket: Random selection with connection tracking
All protocols now support the shared=True parameter for load-balanced task distribution.
See load_balanced_demo.py for complete working examples.
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