Rei-skills event-store-design
Design and implement event stores for event-sourced systems. Use when building event sourcing infrastructure, choosing event store technologies, or implementing event persistence patterns.
install
source · Clone the upstream repo
git clone https://github.com/rootcastleco/rei-skills
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/rootcastleco/rei-skills "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/event-store-design" ~/.claude/skills/rootcastleco-rei-skills-event-store-design && rm -rf "$T"
manifest:
skills/event-store-design/SKILL.mdsource content
⚠️ AUTHORIZED USE ONLY — This skill is intended for authorized security professionals only. Use only against systems you own or have explicit written permission to test. Unauthorized use may violate applicable laws.
Event Store Design
Comprehensive guide to designing event stores for event-sourced applications.
Do not use this skill when
- The task is unrelated to event store design
- You need a different domain or tool outside this scope
Instructions
- Clarify goals, constraints, and required inputs.
- Apply relevant best practices and validate outcomes.
- Provide actionable steps and verification.
- If detailed examples are required, open
.resources/implementation-playbook.md
Use this skill when
- Designing event sourcing infrastructure
- Choosing between event store technologies
- Implementing custom event stores
- Optimizing event storage and retrieval
- Setting up event store schemas
- Planning for event store scaling
Core Concepts
1. Event Store Architecture
┌─────────────────────────────────────────────────────┐ │ Event Store │ ├─────────────────────────────────────────────────────┤ │ ┌─────────────┐ ┌─────────────┐ ┌─────────────┐ │ │ │ Stream 1 │ │ Stream 2 │ │ Stream 3 │ │ │ │ (Aggregate) │ │ (Aggregate) │ │ (Aggregate) │ │ │ ├─────────────┤ ├─────────────┤ ├─────────────┤ │ │ │ Event 1 │ │ Event 1 │ │ Event 1 │ │ │ │ Event 2 │ │ Event 2 │ │ Event 2 │ │ │ │ Event 3 │ │ ... │ │ Event 3 │ │ │ │ ... │ │ │ │ Event 4 │ │ │ └─────────────┘ └─────────────┘ └─────────────┘ │ ├─────────────────────────────────────────────────────┤ │ Global Position: 1 → 2 → 3 → 4 → 5 → 6 → ... │ └─────────────────────────────────────────────────────┘
2. Event Store Requirements
| Requirement | Description |
|---|---|
| Append-only | Events are immutable, only appends |
| Ordered | Per-stream and global ordering |
| Versioned | Optimistic concurrency control |
| Subscriptions | Real-time event notifications |
| Idempotent | Handle duplicate writes safely |
Technology Comparison
| Technology | Best For | Limitations |
|---|---|---|
| EventStoreDB | Pure event sourcing | Single-purpose |
| PostgreSQL | Existing Postgres stack | Manual implementation |
| Kafka | High-throughput streaming | Not ideal for per-stream queries |
| DynamoDB | Serverless, AWS-native | Query limitations |
| Marten | .NET ecosystems | .NET specific |
Templates
Template 1: PostgreSQL Event Store Schema
-- Events table CREATE TABLE events ( id UUID PRIMARY KEY DEFAULT gen_random_uuid(), stream_id VARCHAR(255) NOT NULL, stream_type VARCHAR(255) NOT NULL, event_type VARCHAR(255) NOT NULL, event_data JSONB NOT NULL, metadata JSONB DEFAULT '{}', version BIGINT NOT NULL, global_position BIGSERIAL, created_at TIMESTAMPTZ DEFAULT NOW(), CONSTRAINT unique_stream_version UNIQUE (stream_id, version) ); -- Index for stream queries CREATE INDEX idx_events_stream_id ON events(stream_id, version); -- Index for global subscription CREATE INDEX idx_events_global_position ON events(global_position); -- Index for event type queries CREATE INDEX idx_events_event_type ON events(event_type); -- Index for time-based queries CREATE INDEX idx_events_created_at ON events(created_at); -- Snapshots table CREATE TABLE snapshots ( stream_id VARCHAR(255) PRIMARY KEY, stream_type VARCHAR(255) NOT NULL, snapshot_data JSONB NOT NULL, version BIGINT NOT NULL, created_at TIMESTAMPTZ DEFAULT NOW() ); -- Subscriptions checkpoint table CREATE TABLE subscription_checkpoints ( subscription_id VARCHAR(255) PRIMARY KEY, last_position BIGINT NOT NULL DEFAULT 0, updated_at TIMESTAMPTZ DEFAULT NOW() );
Template 2: Python Event Store Implementation
from dataclasses import dataclass, field from datetime import datetime from typing import Any, Optional, List from uuid import UUID, uuid4 import json import asyncpg @dataclass class Event: stream_id: str event_type: str data: dict metadata: dict = field(default_factory=dict) event_id: UUID = field(default_factory=uuid4) version: Optional[int] = None global_position: Optional[int] = None created_at: datetime = field(default_factory=datetime.utcnow) class EventStore: def __init__(self, pool: asyncpg.Pool): self.pool = pool async def append_events( self, stream_id: str, stream_type: str, events: List[Event], expected_version: Optional[int] = None ) -> List[Event]: """Append events to a stream with optimistic concurrency.""" async with self.pool.acquire() as conn: async with conn.transaction(): # Check expected version if expected_version is not None: current = await conn.fetchval( "SELECT MAX(version) FROM events WHERE stream_id = $1", stream_id ) current = current or 0 if current != expected_version: raise ConcurrencyError( f"Expected version {expected_version}, got {current}" ) # Get starting version start_version = await conn.fetchval( "SELECT COALESCE(MAX(version), 0) + 1 FROM events WHERE stream_id = $1", stream_id ) # Insert events saved_events = [] for i, event in enumerate(events): event.version = start_version + i row = await conn.fetchrow( """ INSERT INTO events (id, stream_id, stream_type, event_type, event_data, metadata, version, created_at) VALUES ($1, $2, $3, $4, $5, $6, $7, $8) RETURNING global_position """, event.event_id, stream_id, stream_type, event.event_type, json.dumps(event.data), json.dumps(event.metadata), event.version, event.created_at ) event.global_position = row['global_position'] saved_events.append(event) return saved_events async def read_stream( self, stream_id: str, from_version: int = 0, limit: int = 1000 ) -> List[Event]: """Read events from a stream.""" async with self.pool.acquire() as conn: rows = await conn.fetch( """ SELECT id, stream_id, event_type, event_data, metadata, version, global_position, created_at FROM events WHERE stream_id = $1 AND version >= $2 ORDER BY version LIMIT $3 """, stream_id, from_version, limit ) return [self._row_to_event(row) for row in rows] async def read_all( self, from_position: int = 0, limit: int = 1000 ) -> List[Event]: """Read all events globally.""" async with self.pool.acquire() as conn: rows = await conn.fetch( """ SELECT id, stream_id, event_type, event_data, metadata, version, global_position, created_at FROM events WHERE global_position > $1 ORDER BY global_position LIMIT $2 """, from_position, limit ) return [self._row_to_event(row) for row in rows] async def subscribe( self, subscription_id: str, handler, from_position: int = 0, batch_size: int = 100 ): """Subscribe to all events from a position.""" # Get checkpoint async with self.pool.acquire() as conn: checkpoint = await conn.fetchval( """ SELECT last_position FROM subscription_checkpoints WHERE subscription_id = $1 """, subscription_id ) position = checkpoint or from_position while True: events = await self.read_all(position, batch_size) if not events: await asyncio.sleep(1) # Poll interval continue for event in events: await handler(event) position = event.global_position # Save checkpoint async with self.pool.acquire() as conn: await conn.execute( """ INSERT INTO subscription_checkpoints (subscription_id, last_position) VALUES ($1, $2) ON CONFLICT (subscription_id) DO UPDATE SET last_position = $2, updated_at = NOW() """, subscription_id, position ) def _row_to_event(self, row) -> Event: return Event( event_id=row['id'], stream_id=row['stream_id'], event_type=row['event_type'], data=json.loads(row['event_data']), metadata=json.loads(row['metadata']), version=row['version'], global_position=row['global_position'], created_at=row['created_at'] ) class ConcurrencyError(Exception): """Raised when optimistic concurrency check fails.""" pass
Template 3: EventStoreDB Usage
from esdbclient import EventStoreDBClient, NewEvent, StreamState import json # Connect client = EventStoreDBClient(uri="esdb://localhost:2113?tls=false") # Append events def append_events(stream_name: str, events: list, expected_revision=None): new_events = [ NewEvent( type=event['type'], data=json.dumps(event['data']).encode(), metadata=json.dumps(event.get('metadata', {})).encode() ) for event in events ] if expected_revision is None: state = StreamState.ANY elif expected_revision == -1: state = StreamState.NO_STREAM else: state = expected_revision return client.append_to_stream( stream_name=stream_name, events=new_events, current_version=state ) # Read stream def read_stream(stream_name: str, from_revision: int = 0): events = client.get_stream( stream_name=stream_name, stream_position=from_revision ) return [ { 'type': event.type, 'data': json.loads(event.data), 'metadata': json.loads(event.metadata) if event.metadata else {}, 'stream_position': event.stream_position, 'commit_position': event.commit_position } for event in events ] # Subscribe to all async def subscribe_to_all(handler, from_position: int = 0): subscription = client.subscribe_to_all(commit_position=from_position) async for event in subscription: await handler({ 'type': event.type, 'data': json.loads(event.data), 'stream_id': event.stream_name, 'position': event.commit_position }) # Category projection ($ce-Category) def read_category(category: str): """Read all events for a category using system projection.""" return read_stream(f"$ce-{category}")
Template 4: DynamoDB Event Store
import boto3 from boto3.dynamodb.conditions import Key from datetime import datetime import json import uuid class DynamoEventStore: def __init__(self, table_name: str): self.dynamodb = boto3.resource('dynamodb') self.table = self.dynamodb.Table(table_name) def append_events(self, stream_id: str, events: list, expected_version: int = None): """Append events with conditional write for concurrency.""" with self.table.batch_writer() as batch: for i, event in enumerate(events): version = (expected_version or 0) + i + 1 item = { 'PK': f"STREAM#{stream_id}", 'SK': f"VERSION#{version:020d}", 'GSI1PK': 'EVENTS', 'GSI1SK': datetime.utcnow().isoformat(), 'event_id': str(uuid.uuid4()), 'stream_id': stream_id, 'event_type': event['type'], 'event_data': json.dumps(event['data']), 'version': version, 'created_at': datetime.utcnow().isoformat() } batch.put_item(Item=item) return events def read_stream(self, stream_id: str, from_version: int = 0): """Read events from a stream.""" response = self.table.query( KeyConditionExpression=Key('PK').eq(f"STREAM#{stream_id}") & Key('SK').gte(f"VERSION#{from_version:020d}") ) return [ { 'event_type': item['event_type'], 'data': json.loads(item['event_data']), 'version': item['version'] } for item in response['Items'] ] # Table definition (CloudFormation/Terraform) """ DynamoDB Table: - PK (Partition Key): String - SK (Sort Key): String - GSI1PK, GSI1SK for global ordering Capacity: On-demand or provisioned based on throughput needs """
Best Practices
Do's
- Use stream IDs that include aggregate type -
Order-{uuid} - Include correlation/causation IDs - For tracing
- Version events from day one - Plan for schema evolution
- Implement idempotency - Use event IDs for deduplication
- Index appropriately - For your query patterns
Don'ts
- Don't update or delete events - They're immutable facts
- Don't store large payloads - Keep events small
- Don't skip optimistic concurrency - Prevents data corruption
- Don't ignore backpressure - Handle slow consumers
Resources
🏰 Rei Skills — Curated by Rootcastle Engineering & Innovation | Batuhan Ayrıbaş
Engineering Beyond Boundaries | admin@rootcastle.com