Metadata-Version: 2.1
Name: kaalka
Version: 5.0.0
Summary: Kaalka: Production-ready time-based encryption library for Python
Home-page: https://github.com/PIYUSH-MISHRA-00/Kaalka-Encryption-Algorithm/tree/python
Author: PIYUSH-MISHRA-00
Author-email: piyushmishra.professional@gmail.com
License: Custom
Description-Content-Type: text/markdown
License-File: LICENSE


**Kaalka: Time-Based Encryption Library for Python**

Kaalka is a robust, production-ready time-based encryption library for Python. It enables secure, non-trivial encryption and decryption of messages and files using either the current system time or a user-provided timestamp as the cryptographic key. Kaalka supports messaging, file transfer, chunked file encryption, and NTP-based workflows.

All cryptographic operations use custom Kaalka-style derivations (Sundial, Pulse, Resonance, Weave, Drum, Seal, Ledger) built on the Kaalka Drum cipher. No external crypto primitives are used. The code is fully tested and ready for production use.

# Kaalka: Time-Based Encryption Library for Python

Kaalka is a robust, time-based encryption library for Python, inspired by the Kaalka Encryption Algorithm. It enables secure, non-trivial encryption and decryption of messages using either the current system time or a user-provided timestamp as the cryptographic key. Kaalka is suitable for secure messaging, cryptographic experiments, and time-sensitive data protection.

## 🚀 Features
- **Time-based encryption:** Use the current system time or any timestamp (HH:MM:SS) as the encryption key.
- **Robust and unpredictable:** Combines trigonometric functions, clock hand angles, and character indices for strong, non-trivial encryption.
- **Easy integration:** Simple Python API for encrypting and decrypting messages.
- **NTP support:** Includes KaalkaNTP for network time protocol-based encryption.

## 🔒 How the Algorithm Works
Kaalka transforms each character in your message using a key derived from the angles between the hour, minute, and second hands of a clock at a given time. The algorithm:
- Calculates angles for the provided or current time.
- Selects trigonometric functions based on the quadrant of each angle.
- Combines these values with the character's index and the time to generate a unique, non-reversible transformation for each character.
- Decryption reverses this process using the same timestamp.

> **Note:** Encryption and decryption must use the same timestamp (or occur at the same second if using system time).

## 📦 Installation

```sh
pip install kaalka
```

## 📝 Usage


### Unified Text, Image, and Media Encryption/Decryption

```python
from kaalka import Kaalka

# Text encryption/decryption (system time)
kaalka = Kaalka()
message = "Hello, world!"
encrypted_message = kaalka.encrypt(message)
decrypted_message = kaalka.decrypt(encrypted_message)

# Text encryption/decryption (explicit time)
timestamp = "14:35:22"
encrypted_message = kaalka.encrypt(message, timestamp)
decrypted_message = kaalka.decrypt(encrypted_message, timestamp)

# File encryption/decryption (any file type, system time)
encrypted_file = kaalka.encrypt("test_image.jpg")        # Produces test_image.kaalka
decrypted_file = kaalka.decrypt(encrypted_file)           # Produces test_image.jpg

# File encryption/decryption (explicit time)
encrypted_file = kaalka.encrypt("test_data.csv", timestamp)
decrypted_file = kaalka.decrypt(encrypted_file, timestamp)

# Folder workflow example
import os, shutil
os.makedirs('encrypted', exist_ok=True)
os.makedirs('decrypted', exist_ok=True)
enc_path = kaalka.encrypt("test_image.jpg", timestamp)
shutil.move(enc_path, f'encrypted/test_image.kaalka')
dec_path = kaalka.decrypt('encrypted/test_image.kaalka', timestamp)
shutil.move(dec_path, f'decrypted/test_image.jpg')
```

> **Note:**
> - Encrypted files use only the `.kaalka` extension (e.g., `test_image.kaalka`, `video.kaalka`, `music.kaalka`).
> - Decrypted files restore the original name and extension (e.g., `test_image.jpg`, `video.mp4`, `music.mp3`).
> - The library supports all file types, including images, videos, music, text, CSV, JSON, XML, and more.
> - Encryption and decryption are lossless and robust for all binary formats.

### KaalkaNTP Usage

```python
from kaalkaNTP import KaalkaNTP

kaalka_ntp = KaalkaNTP()
# Use KaalkaNTP methods for NTP-based encryption
```

## 📂 File Structure

```
Kaalka-Encryption-Algorithm/
|-- kaalka/
|   |-- file_encryptor.py
|   |-- kaalka.py
|   |-- __init__.py
|   |-- __pycache__/
|-- kaalkaNTP/
|   |-- kaalkaNTP.py
|   |-- packet.py
|   |-- __init__.py
|-- build/
|   |-- lib/
|       |-- kaalka/
|       |-- kaalkaNTP/
|-- dist/
|-- kaalka.egg-info/
|-- LICENSE
|-- README.md
|-- requirements.txt
|-- setup.py
|-- .github/
|   |-- workflows/
|       |-- python-package.yml
|-- .git/
```

## 🔐 Security Notes
- If you do not provide a timestamp, the current system time is used for encryption and decryption. Encryption and decryption must occur at the same second for the result to be correct.
- For reproducibility and secure communication, always provide an explicit timestamp string (format: 'HH:MM:SS').
- The strength of encryption depends on the secrecy and unpredictability of the timestamp used.

## 📄 License
See the LICENSE file for details.

## 🤝 Contributing
Contributions, bug reports, and feature requests are welcome! Please open an issue or submit a pull request on GitHub.
