Now kraken-fetch.py has signatures both ways. Maybe adding ECDH to the messaging at some point.
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@ -1,9 +1,10 @@
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#!/usr/bin/python3
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import krakenex, math
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import json, sqlite3, rsa
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import json, sqlite3, binascii
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import requests, os, time
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import threading, ecdsa
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from Cryptodome.Cipher import AES
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from hashlib import sha256
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from flask import Flask, jsonify, request
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@ -12,13 +13,16 @@ app = Flask(__name__)
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## Add your public key here
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user_publickeys = {
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"kalzu": 'f1debc13fb21fe0eee54525aa4f8aae5733b201c755edaa55f8893c90aa375b261a62eaa3110651ac5d7705d402581256a37508b0a1ca28bd919ea44710d9c88'
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"user1": 'f1debc13fb21fe0eee54525aa4f8aae5733b201c755edaa55f8893c90aa375b261a62eaa3110651ac5d7705d402581256a37508b0a1ca28bd919ea44710d9c88'
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}
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## Generate the RSA keys for this instance
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print("Generating RSA keys for this instance... just wait a bit...")
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(server_public_key, server_private_key) = rsa.newkeys(4096)
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server_public_key_string = server_public_key.save_pkcs1().decode('utf-8')
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## Generate the ECDSA keys for this instance
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print("Generating ECDSA keys for this instance... just wait a bit...")
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server_private_key = ecdsa.SigningKey.generate(curve=ecdsa.SECP256k1)
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server_public_key = server_private_key.get_verifying_key()
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# We need the hexadecimal form for sharing over http/json
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server_public_key_hex = binascii.hexlify(server_public_key.to_string()).decode('utf-8')
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database_lock = threading.Lock()
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@ -248,6 +252,7 @@ def check_auth(text, signature):
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try:
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vk.verify(sig_bytes, bytes(text, 'utf-8'))
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print('user is', key)
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return True
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except ecdsa.BadSignatureError:
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return False
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@ -284,24 +289,27 @@ def get_data():
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updated_data = {"shasum": data_shasum}
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updated_data.update(data)
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data = updated_data
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# sign the response
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signature = server_private_key.sign(json.dumps(data).encode('utf-8'))
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signature_hex = binascii.hexlify(signature).decode('utf-8')
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data['signature'] = signature_hex
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if query_pretty:
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response = json.dumps(data, indent=2, separators=(';\n', ' :'))
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else:
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response = json.dumps(data)
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return response, 200, {'Content-Type': 'application/json'}
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@app.route('/serverkey')
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def give_serverkey():
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## This endpoint also under Authentication?
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signature = request.headers.get('auth')
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get_url = request.url
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if not check_auth(get_url, signature):
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return 'Access denied! Check your keys, maybe.', 403
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return jsonify({'public_key': server_public_key_string})
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return jsonify({'public_key': server_public_key_hex})
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if __name__ == '__main__':
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# Make sanity checks for the database
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41
letters/two-key-pairs.py
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41
letters/two-key-pairs.py
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@ -0,0 +1,41 @@
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#!/usr/bin/python3
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import ecdsa
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from cryptography.fernet import Fernet
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# Generate a signing key pair for the server
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server_signing_private_key = ecdsa.SigningKey.generate(curve=ecdsa.SECP256k1)
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server_signing_public_key = server_signing_private_key.get_verifying_key()
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# Generate an encryption key pair for the server
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server_ecdh = ecdsa.ECDH(curve=ecdsa.SECP256k1)
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server_encryption_private_key = server_ecdh.generate_private_key()
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server_encryption_public_key = server_ecdh.public_key(server_encryption_private_key)
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# Generate a signing key pair for the client
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client_signing_private_key = ecdsa.SigningKey.generate(curve=ecdsa.SECP256k1)
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client_signing_public_key = client_signing_private_key.get_verifying_key()
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# Generate an encryption key pair for the client
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client_ecdh = ecdsa.ECDH(curve=ecdsa.SECP256k1)
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client_encryption_private_key = client_ecdh.generate_private_key()
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client_encryption_public_key = client_encryption_private_key.public_key()
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# Exchange public keys between the server and the client
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server_shared_secret = server_encryption_private_key.exchange(client_encryption_public_key)
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client_shared_secret = client_encryption_private_key.exchange(server_encryption_public_key)
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# Use the shared secret to create a Fernet object for encrypting/decrypting messages
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server_fernet = Fernet(server_shared_secret)
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client_fernet = Fernet(client_shared_secret)
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# Sign and encrypt a message from the server to the client
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message = "Hello, client!"
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signed_message = server_signing_private_key.sign(message.encode())
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encrypted_message = server_fernet.encrypt(signed_message)
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# Verify and decrypt the message on the client side
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verified_message = client_signing_public_key.verify(encrypted_message, signed_message)
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decrypted_message = client_fernet.decrypt(verified_message)
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print(decrypted_message) # "Hello, client!"
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python3-ecdsa-ecdh-tests.py
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8
python3-ecdsa-ecdh-tests.py
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@ -0,0 +1,8 @@
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#!/usr/bin/python3
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import ecdsa
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ecdh = ecdsa.ECDH(curve=ecdsa.SECP256k1)
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private_key = ecdh.generate_private_key()
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print(str(private_key))
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