Simple document database with SQLite3 JSON optimization, based on KenobiDB by Harrison Erd.
Project description
KenobiX
High-Performance Minimal Document Database • SQLite3-Powered • Zero Dependencies
KenobiX is a document database with proper SQLite3 JSON optimization, delivering faster searches and faster updates compared to basic implementations.
Based on KenobiDB by Harrison Erd, enhanced with generated column indexes and optimized concurrency. ("KenobiX" = "Kenobi + indeX").
Why KenobiX?
from kenobix import KenobiX
# Create database with indexed fields
db = KenobiX('app.db', indexed_fields=['user_id', 'email', 'status'])
# Lightning-fast queries (0.01ms vs 2.5ms unindexed)
users = db.search('email', 'alice@example.com')
# Massively faster updates (665x improvement on complex documents)
db.update('user_id', 123, {'status': 'active'})
Performance Benchmarks
Real-world measurements on a 10,000 document dataset:
| Operation | Without Indexes | With Indexes | Speedup |
|---|---|---|---|
| Exact search | 6.52ms | 0.009ms | 724x faster |
| Update 100 docs | 1.29s | 15.55ms | 83x faster |
| Range-like queries | 2.96ms | 0.52ms | 5.7x faster |
Document complexity matters: More complex documents see even greater benefits (up to 665x for very complex documents).
See benchmarks/ for detailed performance analysis.
ACID Compliance
KenobiX provides full ACID transaction support backed by SQLite's proven transaction engine:
- ✅ Atomicity - All-or-nothing execution with automatic rollback on errors
- ✅ Consistency - Data integrity maintained across all operations
- ✅ Isolation - Read Committed isolation prevents dirty reads
- ✅ Durability - Committed data persists through crashes (WAL mode)
25/25 comprehensive ACID tests passing (100%) - See ACID Compliance for proof.
# Banking transfer with automatic rollback on error
with db.transaction():
db.update('account_id', 'A1', {'balance': 900}) # -100
db.update('account_id', 'A2', {'balance': 1100}) # +100
# Both succeed or both fail - guaranteed atomicity
Features
- Full ACID Transactions - Context manager API with savepoints for nested transactions
- Automatic Index Usage - Queries automatically use indexes when available, fall back to json_extract
- VIRTUAL Generated Columns - Minimal storage overhead (~7-20% depending on document complexity)
- Thread-Safe - No RLock on reads, SQLite handles concurrency with WAL mode
- MongoDB-like API - Familiar insert/search/update operations
- Optional ODM Layer - Type-safe dataclass-based models (install with
pip install kenobix[odm]) - Cursor Pagination - Efficient pagination for large datasets
- Query Analysis - Built-in
explain()for optimization - Zero Runtime Dependencies - Only Python stdlib (cattrs optional for ODM)
Documentation
- Getting Started - Quick start guide
- Transactions - Full ACID transaction API guide
- ACID Compliance - Comprehensive ACID test results
- ODM Guide - Complete ODM documentation with examples
- Performance Guide - Benchmarks and optimization tips
- API Reference - Full API documentation
Installation
pip install kenobix
Or install from source:
git clone https://github.com/yourusername/kenobix
cd kenobix
pip install -e .
Quick Start
from kenobix import KenobiX
# Initialize with indexed fields for best performance
db = KenobiX('myapp.db', indexed_fields=['user_id', 'email', 'status'])
# Insert documents
db.insert({'user_id': 1, 'email': 'alice@example.com', 'status': 'active'})
db.insert_many([
{'user_id': 2, 'email': 'bob@example.com', 'status': 'active'},
{'user_id': 3, 'email': 'carol@example.com', 'status': 'inactive'}
])
# Fast indexed searches
users = db.search('status', 'active') # Uses index!
user = db.search('email', 'alice@example.com') # Uses index!
# Non-indexed fields still work (slower but functional)
tagged = db.search('tags', 'python') # Falls back to json_extract
# Multi-field optimized search
results = db.search_optimized(status='active', user_id=1)
# Update operations are massively faster
db.update('user_id', 1, {'last_login': '2025-01-15'})
# Efficient cursor-based pagination
result = db.all_cursor(limit=100)
documents = result['documents']
if result['has_more']:
next_page = db.all_cursor(after_id=result['next_cursor'], limit=100)
# Query optimization
plan = db.explain('search', 'email', 'test@example.com')
print(plan) # Shows if index is being used
# Transactions for ACID guarantees
with db.transaction():
# All operations succeed or all fail together
db.insert({'user_id': 4, 'email': 'dave@example.com', 'balance': 1000})
db.update('user_id', 1, {'balance': 900}) # Transfer -100
db.update('user_id', 4, {'balance': 1100}) # Transfer +100
# Automatic commit on success, rollback on error
# Manual transaction control
db.begin()
try:
db.insert({'user_id': 5, 'email': 'eve@example.com'})
db.commit()
except Exception:
db.rollback()
raise
# Nested transactions with savepoints
with db.transaction():
db.insert({'status': 'processing'})
try:
with db.transaction(): # Nested - uses savepoint
db.insert({'status': 'temporary'})
raise ValueError("Rollback nested only")
except ValueError:
pass # Inner transaction rolled back
db.insert({'status': 'completed'})
# Outer transaction commits both 'processing' and 'completed'
Object Document Mapper (ODM)
KenobiX includes an optional ODM layer for type-safe, Pythonic document operations using dataclasses.
Installation
pip install kenobix[odm] # Includes cattrs for serialization
Usage
from dataclasses import dataclass
from typing import List
from kenobix import KenobiX, Document
# Define your models
@dataclass
class User(Document):
name: str
email: str
age: int
active: bool = True
@dataclass
class Post(Document):
title: str
content: str
author_id: int
tags: List[str]
published: bool = False
# Setup
db = KenobiX('app.db', indexed_fields=['email', 'name', 'author_id'])
Document.set_database(db)
# Create
user = User(name="Alice", email="alice@example.com", age=30)
user.save() # Returns user with _id set
# Read
alice = User.get(email="alice@example.com")
users = User.filter(age=30)
all_users = User.all(limit=100)
# Update
alice.age = 31
alice.save()
# Delete
alice.delete()
# Bulk operations
User.insert_many([user1, user2, user3])
User.delete_many(active=False)
# Count
total = User.count()
active_count = User.count(active=True)
ODM Features
- Type Safety - Full type hints with autocomplete support
- Automatic Serialization - Uses cattrs for nested structures
- Indexed Queries - Automatically uses KenobiX indexes
- Bulk Operations - Efficient insert_many, delete_many
- Familiar API - Similar to MongoDB ODMs (ODMantic, MongoEngine)
- Zero Boilerplate - Just use @dataclass decorator
See examples/odm_example.py for complete examples.
ODM Transaction Support
The ODM layer fully supports transactions:
# Context manager
with User.transaction():
alice = User(name="Alice", email="alice@example.com", age=30)
bob = User(name="Bob", email="bob@example.com", age=25)
alice.save()
bob.save()
# Both saved atomically
# Manual control
User.begin()
try:
user = User.get(email="alice@example.com")
user.age = 31
user.save()
User.commit()
except Exception:
User.rollback()
raise
See docs/transactions.md for complete transaction documentation.
When to Use KenobiX
Perfect For:
- ✅ Applications with 1,000 - 1,000,000+ documents
- ✅ Frequent searches and updates
- ✅ Known query patterns (can index those fields)
- ✅ Complex document structures
- ✅ Need sub-millisecond query times
- ✅ Prototypes that need to scale
Consider Alternatives For:
- ⚠️ Pure insert-only workloads (indexing overhead not worth it)
- ⚠️ < 100 documents (overhead not justified)
- ⚠️ Truly massive scale (> 10M documents - use PostgreSQL/MongoDB)
When to Use Transactions
Use Transactions For:
- ✅ Financial operations - Balance transfers, payments, refunds
- ✅ Multi-step updates - Ensuring related data stays consistent
- ✅ Batch operations - 50-100x performance boost for bulk inserts
- ✅ Business logic invariants - Total inventory, account balances, quotas
- ✅ Error recovery - Automatic rollback on exceptions
Auto-commit is Fine For:
- ⚠️ Single document inserts/updates (no performance benefit)
- ⚠️ Independent operations (no consistency requirements)
- ⚠️ Read-only queries (no transaction needed)
Performance Note: Transactions can improve bulk insert performance by 50-100x by deferring commit until the end.
# Without transaction: ~2000ms for 1000 inserts
for doc in documents:
db.insert(doc) # Commits after each insert
# With transaction: ~20ms for 1000 inserts (100x faster)
with db.transaction():
for doc in documents:
db.insert(doc) # Single commit at end
Index Selection Strategy
Rule of thumb: Index your 3-6 most frequently queried fields.
# Good indexing strategy
db = KenobiX('app.db', indexed_fields=[
'user_id', # Primary lookups
'email', # Authentication
'status', # Filtering
'created_at', # Time-based queries
])
# Each index adds ~5-10% insert overhead
# But provides 15-665x speedup on queries/updates
API Documentation
Initialization
KenobiX(file, indexed_fields=None)
file: Path to SQLite database (created if doesn't exist)indexed_fields: List of document fields to create indexes for
CRUD Operations
db.insert(document) # Insert single document
db.insert_many(documents) # Bulk insert
db.search(key, value, limit=100) # Search by field
db.search_optimized(**filters) # Multi-field search
db.update(key, value, new_dict) # Update matching documents
db.remove(key, value) # Remove matching documents
db.purge() # Delete all documents
db.all(limit=100, offset=0) # Paginated retrieval
Transaction Operations
# Context manager (recommended)
with db.transaction(): # Auto commit/rollback
db.insert(...)
db.update(...)
# Manual control
db.begin() # Start transaction
db.commit() # Commit changes
db.rollback() # Discard changes
# Savepoints (nested transactions)
sp = db.savepoint() # Create savepoint
db.rollback_to(sp) # Rollback to savepoint
db.release_savepoint(sp) # Release savepoint
Advanced Operations
db.search_pattern(key, regex) # Regex search (no index)
db.find_any(key, value_list) # Match any value
db.find_all(key, value_list) # Match all values
db.all_cursor(after_id, limit) # Cursor pagination
db.explain(operation, *args) # Query plan analysis
db.stats() # Database statistics
db.get_indexed_fields() # List indexed fields
Performance Tips
- Index your query fields - Biggest performance win (15-665x speedup)
- Use transactions for bulk operations - 50-100x faster for batch inserts
- Use
search_optimized()for multi-field queries - More efficient than chaining - Use cursor pagination for large datasets - Avoids O(n) OFFSET cost
- Batch inserts with
insert_many()- Much faster than individual inserts - Check query plans with
explain()- Verify indexes are being used
Migration from KenobiDB
KenobiX is API-compatible with KenobiDB. Simply:
# Old
from kenobi import KenobiDB
db = KenobiDB('app.db')
# New (with performance boost)
from kenobix import KenobiX
db = KenobiX('app.db', indexed_fields=['your', 'query', 'fields'])
Existing databases work without modification. Add indexed_fields to unlock performance gains.
Requirements
- Python 3.9+
- SQLite 3.31.0+ (for generated columns)
Testing
# Run all tests
pytest tests/
# Run with coverage (90%+ coverage maintained)
pytest --cov=kenobix tests/
# Run ACID compliance tests
python3 tests/test_acid_compliance.py # 25 comprehensive tests
python3 tests/test_transactions.py # 14 transaction tests
# Run concurrency tests (uses multiprocessing)
python3 tests/test_concurrency.py
# Quick concurrency check
python3 scripts/check_concurrency.py
# Run benchmarks
python benchmarks/benchmark_scale.py
python benchmarks/benchmark_complexity.py
Test Coverage: KenobiX maintains 90%+ test coverage across:
- Core database operations (kenobix.py: 88%+)
- ODM layer (odm.py: 93%+)
- 100+ tests covering CRUD, indexing, concurrency, transactions, and ODM features
ACID Compliance: 25/25 comprehensive tests passing (100%):
- 6 atomicity tests (all-or-nothing execution)
- 5 consistency tests (data integrity invariants)
- 5 isolation tests (concurrent transaction safety)
- 7 durability tests (crash recovery simulation)
- 2 combined tests (real-world scenarios)
Concurrency Tests: Comprehensive multiprocessing tests verify:
- Multiple readers run in parallel without blocking
- Writers properly serialize via write lock
- Readers not blocked by writers (WAL mode benefit)
- Data integrity under concurrent access
- Race condition detection
See Concurrency Tests for details.
Benchmarking
Comprehensive benchmarks included:
# Scale performance (1k-100k documents)
python benchmarks/benchmark_scale.py --sizes "1000,10000,100000"
# Document complexity impact
python benchmarks/benchmark_complexity.py
# ODM vs Raw performance comparison
python benchmarks/benchmark_odm.py --size 10000
ODM Performance
The ODM layer adds overhead for deserialization (cattrs). Results based on robust benchmarks (5 iterations, trimmed mean):
- Write operations: ~7-15% slower (very acceptable)
- Read operations: ~100-900% slower (cattrs deserialization cost)
- Count operations: ~17% slower (minimal deserialization)
- Trade-off: Type safety + developer productivity vs 2-10x slower reads
Key insight: Write overhead is minimal. Read overhead is significant due to cattrs deserialization, not SQL queries (both use identical indexes).
For read-heavy workloads requiring maximum performance, use raw operations. For applications needing type safety and developer productivity, the ODM overhead is acceptable. You can also use a hybrid approach: ODM for most code, raw for hot paths.
Credits
KenobiX is based on KenobiDB by Harrison Erd.
The original KenobiDB provided an excellent foundation with its MongoDB-like API and clean SQLite3 integration. KenobiX builds on this work by adding:
- Full ACID transaction support with context manager API
- Generated column indexes for 15-665x performance improvements
- Optimized concurrency model (no RLock for reads)
- Optional ODM layer with dataclass support
- Cursor-based pagination
- Query plan analysis tools
- Comprehensive benchmark and test suites
Thank you to Harrison Erd for creating KenobiDB!
License
BSD-3-Clause License (same as original KenobiDB)
Copyright (c) 2025 KenobiX Contributors
Original KenobiDB Copyright (c) Harrison Erd
See LICENSE file for details.
Contributing
Contributions welcome! Please:
- Fork the repository
- Create a feature branch
- Add tests for new functionality
- Ensure all tests pass
- Submit a pull request
Links
- GitHub: https://github.com/abilian/kenobix
- Original KenobiDB: https://github.com/patx/kenobi
- PyPI: https://pypi.org/project/kenobix/
- Benchmarks: See
benchmarks/directory
Changelog
See CHANGES.md for the complete changelog.
Latest version: 0.6.0 - Full ACID transaction support with context manager API, savepoints, 25 comprehensive ACID compliance tests, and complete transaction documentation.
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