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345 lines
12 KiB
345 lines
12 KiB
from cryptography.exceptions import InvalidTag
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from cryptography.hazmat.backends import default_backend
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from cryptography.hazmat.primitives import hashes
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from cryptography.hazmat.primitives.asymmetric import ec
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from cryptography.hazmat.primitives.ciphers.aead import ChaCha20Poly1305
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from cryptography.hazmat.primitives.kdf.hkdf import HKDF
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from .primitives import Secret, PrivateKey, PublicKey
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from hashlib import sha256
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from typing import Tuple
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import coincurve
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import os
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import socket
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import socks
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import struct
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import threading
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__all__ = [
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'PrivateKey',
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'PublicKey',
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'Secret',
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'LightningConnection',
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'LightningServerSocket',
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'connect'
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]
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def hkdf(ikm, salt=b"", info=b""):
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hkdf = HKDF(
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algorithm=hashes.SHA256(),
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length=64,
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salt=salt,
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info=info,
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backend=default_backend())
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return hkdf.derive(ikm)
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def hkdf_two_keys(ikm, salt):
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t = hkdf(ikm, salt)
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return t[:32], t[32:]
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def ecdh(k, rk):
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k = coincurve.PrivateKey(secret=k.rawkey)
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rk = coincurve.PublicKey(data=rk.serializeCompressed())
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a = k.ecdh(rk.public_key)
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return Secret(a)
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def encryptWithAD(k, n, ad, plaintext):
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chacha = ChaCha20Poly1305(k)
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return chacha.encrypt(n, plaintext, ad)
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def decryptWithAD(k, n, ad, ciphertext):
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chacha = ChaCha20Poly1305(k)
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return chacha.decrypt(n, ciphertext, ad)
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class Sha256Mixer(object):
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def __init__(self, base):
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self.hash = sha256(base).digest()
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def update(self, data):
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h = sha256(self.hash)
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h.update(data)
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self.hash = h.digest()
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return self.hash
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def digest(self):
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return self.hash
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def __str__(self):
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return "Sha256Mixer[0x{}]".format(self.hash.hex())
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class LightningConnection(object):
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def __init__(self, connection, remote_pubkey, local_privkey, is_initiator):
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self.connection = connection
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self.chaining_key = None
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self.handshake_hash = None
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self.local_privkey = local_privkey
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self.local_pubkey = self.local_privkey.public_key()
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self.remote_pubkey = remote_pubkey
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self.is_initiator = is_initiator
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self.init_handshake()
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self.rn, self.sn = 0, 0
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self.send_lock, self.recv_lock = threading.Lock(), threading.Lock()
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@classmethod
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def nonce(cls, n):
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"""Transforms a numeric nonce into a byte formatted one
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Nonce n encoded as 32 zero bits, followed by a little-endian 64-bit
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value. Note: this follows the Noise Protocol convention, rather than
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our normal endian.
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"""
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return b'\x00' * 4 + struct.pack("<Q", n)
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def init_handshake(self):
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h = sha256(b'Noise_XK_secp256k1_ChaChaPoly_SHA256').digest()
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self.chaining_key = h
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h = sha256(h + b'lightning').digest()
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if self.is_initiator:
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responder_pubkey = self.remote_pubkey
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else:
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responder_pubkey = self.local_pubkey
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h = sha256(h + responder_pubkey.serializeCompressed()).digest()
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self.handshake = {
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'h': h,
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'e': PrivateKey(os.urandom(32)),
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}
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def handshake_act_one_initiator(self):
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h = Sha256Mixer(b'')
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h.hash = self.handshake['h']
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h.update(self.handshake['e'].public_key().serializeCompressed())
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es = ecdh(self.handshake['e'], self.remote_pubkey)
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t = hkdf(salt=self.chaining_key, ikm=es.data, info=b'')
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assert(len(t) == 64)
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self.chaining_key, temp_k1 = t[:32], t[32:]
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c = encryptWithAD(temp_k1, self.nonce(0), h.digest(), b'')
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self.handshake['h'] = h.update(c)
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pk = self.handshake['e'].public_key().serializeCompressed()
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m = b'\x00' + pk + c
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return m
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def handshake_act_one_responder(self, m):
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v, re, c = m[0], PublicKey(m[1:34]), m[34:]
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if v != 0:
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raise ValueError("Unsupported handshake version {}, only version "
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"0 is supported.".format(v))
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h = Sha256Mixer(b'')
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h.hash = self.handshake['h']
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h.update(re.serializeCompressed())
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es = ecdh(self.local_privkey, re)
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self.handshake['re'] = re
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t = hkdf(salt=self.chaining_key, ikm=es.data, info=b'')
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self.chaining_key, temp_k1 = t[:32], t[32:]
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try:
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decryptWithAD(temp_k1, self.nonce(0), h.digest(), c)
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except InvalidTag:
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ValueError("Verification of tag failed, remote peer doesn't know "
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"our node ID.")
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h.update(c)
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self.handshake['h'] = h.digest()
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def handshake_act_two_responder(self):
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h = Sha256Mixer(b'')
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h.hash = self.handshake['h']
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h.update(self.handshake['e'].public_key().serializeCompressed())
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ee = ecdh(self.handshake['e'], self.handshake['re'])
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t = hkdf(salt=self.chaining_key, ikm=ee.data, info=b'')
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assert(len(t) == 64)
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self.chaining_key, self.temp_k2 = t[:32], t[32:]
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c = encryptWithAD(self.temp_k2, self.nonce(0), h.digest(), b'')
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h.update(c)
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self.handshake['h'] = h.digest()
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pk = self.handshake['e'].public_key().serializeCompressed()
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m = b'\x00' + pk + c
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return m
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def handshake_act_two_initiator(self, m):
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v, re, c = m[0], PublicKey(m[1:34]), m[34:]
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if v != 0:
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raise ValueError("Unsupported handshake version {}, only version "
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"0 is supported.".format(v))
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self.re = re
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h = Sha256Mixer(b'')
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h.hash = self.handshake['h']
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h.update(re.serializeCompressed())
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ee = ecdh(self.handshake['e'], re)
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self.chaining_key, self.temp_k2 = hkdf_two_keys(
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salt=self.chaining_key, ikm=ee.data
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)
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try:
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decryptWithAD(self.temp_k2, self.nonce(0), h.digest(), c)
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except InvalidTag:
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ValueError("Verification of tag failed.")
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h.update(c)
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self.handshake['h'] = h.digest()
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def handshake_act_three_initiator(self):
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h = Sha256Mixer(b'')
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h.hash = self.handshake['h']
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pk = self.local_pubkey.serializeCompressed()
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c = encryptWithAD(self.temp_k2, self.nonce(1), h.digest(), pk)
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h.update(c)
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se = ecdh(self.local_privkey, self.re)
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self.chaining_key, self.temp_k3 = hkdf_two_keys(
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salt=self.chaining_key, ikm=se.data
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)
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t = encryptWithAD(self.temp_k3, self.nonce(0), h.digest(), b'')
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m = b'\x00' + c + t
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t = hkdf(salt=self.chaining_key, ikm=b'', info=b'')
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self.sk, self.rk = hkdf_two_keys(salt=self.chaining_key, ikm=b'')
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self.rn, self.sn = 0, 0
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return m
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def handshake_act_three_responder(self, m):
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h = Sha256Mixer(b'')
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h.hash = self.handshake['h']
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v, c, t = m[0], m[1:50], m[50:]
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if v != 0:
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raise ValueError("Unsupported handshake version {}, only version "
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"0 is supported.".format(v))
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rs = decryptWithAD(self.temp_k2, self.nonce(1), h.digest(), c)
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self.remote_pubkey = PublicKey(rs)
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h.update(c)
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se = ecdh(self.handshake['e'], self.remote_pubkey)
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self.chaining_key, self.temp_k3 = hkdf_two_keys(
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se.data, self.chaining_key
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)
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decryptWithAD(self.temp_k3, self.nonce(0), h.digest(), t)
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self.rn, self.sn = 0, 0
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self.rk, self.sk = hkdf_two_keys(salt=self.chaining_key, ikm=b'')
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def read_message(self):
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with self.recv_lock:
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lc = self.connection.recv(18)
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if len(lc) != 18:
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raise ValueError(
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"Short read reading the message length: 18 != {}".format(
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len(lc))
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)
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length = decryptWithAD(self.rk, self.nonce(self.rn), b'', lc)
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length, = struct.unpack("!H", length)
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self.rn += 1
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mc = self.connection.recv(length + 16)
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if len(mc) < length + 16:
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raise ValueError(
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"Short read reading the message: {} != {}".format(
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length + 16, len(lc)
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)
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)
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m = decryptWithAD(self.rk, self.nonce(self.rn), b'', mc)
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self.rn += 1
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assert(self.rn % 2 == 0)
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self._maybe_rotate_keys()
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return m
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def send_message(self, m):
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length = struct.pack("!H", len(m))
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with self.send_lock:
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lc = encryptWithAD(self.sk, self.nonce(self.sn), b'', length)
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mc = encryptWithAD(self.sk, self.nonce(self.sn + 1), b'', m)
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self.sn += 2
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self.connection.send(lc)
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self.connection.send(mc)
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assert(self.sn % 2 == 0)
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self._maybe_rotate_keys()
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def _maybe_rotate_keys(self):
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if self.sn == 1000:
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self.sck, self.sk = hkdf_two_keys(salt=self.sck, ikm=self.sk)
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self.sn = 0
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if self.rn == 1000:
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self.rck, self.rk = hkdf_two_keys(salt=self.rck, ikm=self.rk)
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self.rn = 0
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def shake(self):
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if self.is_initiator:
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m = self.handshake_act_one_initiator()
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self.connection.send(m)
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m = self.connection.recv(50)
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if len(m) != 50:
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raise ValueError(
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"Short read from peer reading act2: 50 != {}".format(
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len(m))
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)
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self.handshake_act_two_initiator(m)
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m = self.handshake_act_three_initiator()
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self.connection.send(m)
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else:
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m = self.connection.recv(50)
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if len(m) != 50:
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raise ValueError(
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"Short read from peer reading act1: 50 != {}".format(
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len(m))
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)
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self.handshake_act_one_responder(m)
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m = self.handshake_act_two_responder()
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self.connection.send(m)
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m = self.connection.recv(66)
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if len(m) != 66:
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raise ValueError(
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"Short read from peer reading act3: 66 != {}".format(
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len(m))
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)
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self.handshake_act_three_responder(m)
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self.sck = self.chaining_key
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self.rck = self.chaining_key
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class LightningServerSocket(socket.socket):
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def __init__(self, local_privkey):
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socket.socket.__init__(self)
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self.local_privkey = local_privkey
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self.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
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def accept(self):
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conn, address = socket.socket.accept(self)
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lconn = LightningConnection(
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conn, remote_pubkey=None,
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local_privkey=self.local_privkey,
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is_initiator=False)
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lconn.shake()
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return (lconn, address)
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def connect(local_privkey, node_id, host: str, port: int = 9735,
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socks_addr: Tuple[str, int] = None):
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if isinstance(node_id, bytes) and len(node_id) == 33:
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remote_pubkey = PublicKey(node_id)
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elif isinstance(node_id, ec.EllipticCurvePublicKey):
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remote_pubkey = PublicKey(node_id)
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elif isinstance(node_id, PublicKey):
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remote_pubkey = node_id
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else:
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raise ValueError(
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"node_id must be either a 33 byte array, or a PublicKey"
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)
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if socks_addr is None:
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conn = socket.create_connection((host, port))
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else:
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socks.setdefaultproxy(socks.PROXY_TYPE_SOCKS5, *socks_addr, True)
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conn = socks.socksocket()
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conn.connect((host, port))
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lconn = LightningConnection(conn, remote_pubkey, local_privkey,
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is_initiator=True)
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lconn.shake()
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return lconn
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