forked from bitcoin/bitcoin
-
Notifications
You must be signed in to change notification settings - Fork 0
/
v2_p2p.py
283 lines (252 loc) · 13.1 KB
/
v2_p2p.py
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
#!/usr/bin/env python3
# Copyright (c) 2022 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Class for v2 P2P protocol (see BIP 324)"""
import random
from .crypto.bip324_cipher import FSChaCha20Poly1305
from .crypto.chacha20 import FSChaCha20
from .crypto.ellswift import ellswift_create, ellswift_ecdh_xonly
from .crypto.hkdf import hkdf_sha256
from .key import TaggedHash
from .messages import MAGIC_BYTES
CHACHA20POLY1305_EXPANSION = 16
HEADER_LEN = 1
IGNORE_BIT_POS = 7
LENGTH_FIELD_LEN = 3
MAX_GARBAGE_LEN = 4095
SHORTID = {
1: b"addr",
2: b"block",
3: b"blocktxn",
4: b"cmpctblock",
5: b"feefilter",
6: b"filteradd",
7: b"filterclear",
8: b"filterload",
9: b"getblocks",
10: b"getblocktxn",
11: b"getdata",
12: b"getheaders",
13: b"headers",
14: b"inv",
15: b"mempool",
16: b"merkleblock",
17: b"notfound",
18: b"ping",
19: b"pong",
20: b"sendcmpct",
21: b"tx",
22: b"getcfilters",
23: b"cfilter",
24: b"getcfheaders",
25: b"cfheaders",
26: b"getcfcheckpt",
27: b"cfcheckpt",
28: b"addrv2",
}
# Dictionary which contains short message type ID for the P2P message
MSGTYPE_TO_SHORTID = {msgtype: shortid for shortid, msgtype in SHORTID.items()}
class EncryptedP2PState:
"""A class for managing the state when v2 P2P protocol is used. Performs initial v2 handshake and encrypts/decrypts
P2P messages. P2PConnection uses an object of this class.
Args:
initiating (bool): defines whether the P2PConnection is an initiator or responder.
- initiating = True for inbound connections in the test framework [TestNode <------- P2PConnection]
- initiating = False for outbound connections in the test framework [TestNode -------> P2PConnection]
net (string): chain used (regtest, signet etc..)
Methods:
perform an advanced form of diffie-hellman handshake to instantiate the encrypted transport. before exchanging
any P2P messages, 2 nodes perform this handshake in order to determine a shared secret that is unique to both
of them and use it to derive keys to encrypt/decrypt P2P messages.
- initial v2 handshakes is performed by: (see BIP324 section #overall-handshake-pseudocode)
1. initiator using initiate_v2_handshake(), complete_handshake() and authenticate_handshake()
2. responder using respond_v2_handshake(), complete_handshake() and authenticate_handshake()
- initialize_v2_transport() sets various BIP324 derived keys and ciphers.
encrypt/decrypt v2 P2P messages using v2_enc_packet() and v2_receive_packet().
"""
def __init__(self, *, initiating, net):
self.initiating = initiating # True if initiator
self.net = net
self.peer = {} # object with various BIP324 derived keys and ciphers
self.privkey_ours = None
self.ellswift_ours = None
self.sent_garbage = b""
self.received_garbage = b""
self.received_prefix = b"" # received ellswift bytes till the first mismatch from 16 bytes v1_prefix
self.tried_v2_handshake = False # True when the initial handshake is over
# stores length of packet contents to detect whether first 3 bytes (which contains length of packet contents)
# has been decrypted. set to -1 if decryption hasn't been done yet.
self.contents_len = -1
self.found_garbage_terminator = False
self.transport_version = b''
@staticmethod
def v2_ecdh(priv, ellswift_theirs, ellswift_ours, initiating):
"""Compute BIP324 shared secret.
Returns:
bytes - BIP324 shared secret
"""
ecdh_point_x32 = ellswift_ecdh_xonly(ellswift_theirs, priv)
if initiating:
# Initiating, place our public key encoding first.
return TaggedHash("bip324_ellswift_xonly_ecdh", ellswift_ours + ellswift_theirs + ecdh_point_x32)
else:
# Responding, place their public key encoding first.
return TaggedHash("bip324_ellswift_xonly_ecdh", ellswift_theirs + ellswift_ours + ecdh_point_x32)
def generate_keypair_and_garbage(self, garbage_len=None):
"""Generates ellswift keypair and 4095 bytes garbage at max"""
self.privkey_ours, self.ellswift_ours = ellswift_create()
if garbage_len is None:
garbage_len = random.randrange(MAX_GARBAGE_LEN + 1)
self.sent_garbage = random.randbytes(garbage_len)
return self.ellswift_ours + self.sent_garbage
def initiate_v2_handshake(self):
"""Initiator begins the v2 handshake by sending its ellswift bytes and garbage
Returns:
bytes - bytes to be sent to the peer when starting the v2 handshake as an initiator
"""
return self.generate_keypair_and_garbage()
def respond_v2_handshake(self, response):
"""Responder begins the v2 handshake by sending its ellswift bytes and garbage. However, the responder
sends this after having received at least one byte that mismatches 16-byte v1_prefix.
Returns:
1. int - length of bytes that were consumed so that recvbuf can be updated
2. bytes - bytes to be sent to the peer when starting the v2 handshake as a responder.
- returns b"" if more bytes need to be received before we can respond and start the v2 handshake.
- returns -1 to downgrade the connection to v1 P2P.
"""
v1_prefix = MAGIC_BYTES[self.net] + b'version\x00\x00\x00\x00\x00'
while len(self.received_prefix) < 16:
byte = response.read(1)
# return b"" if we need to receive more bytes
if not byte:
return len(self.received_prefix), b""
self.received_prefix += byte
if self.received_prefix[-1] != v1_prefix[len(self.received_prefix) - 1]:
return len(self.received_prefix), self.generate_keypair_and_garbage()
# return -1 to decide v1 only after all 16 bytes processed
return len(self.received_prefix), -1
def complete_handshake(self, response):
""" Instantiates the encrypted transport and
sends garbage terminator + optional decoy packets + transport version packet.
Done by both initiator and responder.
Returns:
1. int - length of bytes that were consumed. returns 0 if all 64 bytes from ellswift haven't been received yet.
2. bytes - bytes to be sent to the peer when completing the v2 handshake
"""
ellswift_theirs = self.received_prefix + response.read(64 - len(self.received_prefix))
# return b"" if we need to receive more bytes
if len(ellswift_theirs) != 64:
return 0, b""
ecdh_secret = self.v2_ecdh(self.privkey_ours, ellswift_theirs, self.ellswift_ours, self.initiating)
self.initialize_v2_transport(ecdh_secret)
# Send garbage terminator
msg_to_send = self.peer['send_garbage_terminator']
# Optionally send decoy packets after garbage terminator.
aad = self.sent_garbage
for decoy_content_len in [random.randint(1, 100) for _ in range(random.randint(0, 10))]:
msg_to_send += self.v2_enc_packet(decoy_content_len * b'\x00', aad=aad, ignore=True)
aad = b''
# Send version packet.
msg_to_send += self.v2_enc_packet(self.transport_version, aad=aad)
return 64 - len(self.received_prefix), msg_to_send
def authenticate_handshake(self, response):
""" Ensures that the received optional decoy packets and transport version packet are authenticated.
Marks the v2 handshake as complete. Done by both initiator and responder.
Returns:
1. int - length of bytes that were processed so that recvbuf can be updated
2. bool - True if the authentication was successful/more bytes need to be received and False otherwise
"""
processed_length = 0
# Detect garbage terminator in the received bytes
if not self.found_garbage_terminator:
received_garbage = response[:16]
response = response[16:]
processed_length = len(received_garbage)
for i in range(MAX_GARBAGE_LEN + 1):
if received_garbage[-16:] == self.peer['recv_garbage_terminator']:
# Receive, decode, and ignore version packet.
# This includes skipping decoys and authenticating the received garbage.
self.found_garbage_terminator = True
self.received_garbage = received_garbage[:-16]
break
else:
# don't update recvbuf since more bytes need to be received
if len(response) == 0:
return 0, True
received_garbage += response[:1]
processed_length += 1
response = response[1:]
else:
# disconnect since garbage terminator was not seen after 4 KiB of garbage.
return processed_length, False
# Process optional decoy packets and transport version packet
while not self.tried_v2_handshake:
length, contents = self.v2_receive_packet(response, aad=self.received_garbage)
if length == -1:
return processed_length, False
elif length == 0:
return processed_length, True
processed_length += length
self.received_garbage = b""
# decoy packets have contents = None. v2 handshake is complete only when version packet
# (can be empty with contents = b"") with contents != None is received.
if contents is not None:
assert contents == b"" # currently TestNode sends an empty version packet
self.tried_v2_handshake = True
return processed_length, True
response = response[length:]
def initialize_v2_transport(self, ecdh_secret):
"""Sets the peer object with various BIP324 derived keys and ciphers."""
peer = {}
salt = b'bitcoin_v2_shared_secret' + MAGIC_BYTES[self.net]
for name in ('initiator_L', 'initiator_P', 'responder_L', 'responder_P', 'garbage_terminators', 'session_id'):
peer[name] = hkdf_sha256(salt=salt, ikm=ecdh_secret, info=name.encode('utf-8'), length=32)
if self.initiating:
self.peer['send_L'] = FSChaCha20(peer['initiator_L'])
self.peer['send_P'] = FSChaCha20Poly1305(peer['initiator_P'])
self.peer['send_garbage_terminator'] = peer['garbage_terminators'][:16]
self.peer['recv_L'] = FSChaCha20(peer['responder_L'])
self.peer['recv_P'] = FSChaCha20Poly1305(peer['responder_P'])
self.peer['recv_garbage_terminator'] = peer['garbage_terminators'][16:]
else:
self.peer['send_L'] = FSChaCha20(peer['responder_L'])
self.peer['send_P'] = FSChaCha20Poly1305(peer['responder_P'])
self.peer['send_garbage_terminator'] = peer['garbage_terminators'][16:]
self.peer['recv_L'] = FSChaCha20(peer['initiator_L'])
self.peer['recv_P'] = FSChaCha20Poly1305(peer['initiator_P'])
self.peer['recv_garbage_terminator'] = peer['garbage_terminators'][:16]
self.peer['session_id'] = peer['session_id']
def v2_enc_packet(self, contents, aad=b'', ignore=False):
"""Encrypt a BIP324 packet.
Returns:
bytes - encrypted packet contents
"""
assert len(contents) <= 2**24 - 1
header = (ignore << IGNORE_BIT_POS).to_bytes(HEADER_LEN, 'little')
plaintext = header + contents
aead_ciphertext = self.peer['send_P'].encrypt(aad, plaintext)
enc_plaintext_len = self.peer['send_L'].crypt(len(contents).to_bytes(LENGTH_FIELD_LEN, 'little'))
return enc_plaintext_len + aead_ciphertext
def v2_receive_packet(self, response, aad=b''):
"""Decrypt a BIP324 packet
Returns:
1. int - number of bytes consumed (or -1 if error)
2. bytes - contents of decrypted non-decoy packet if any (or None otherwise)
"""
if self.contents_len == -1:
if len(response) < LENGTH_FIELD_LEN:
return 0, None
enc_contents_len = response[:LENGTH_FIELD_LEN]
self.contents_len = int.from_bytes(self.peer['recv_L'].crypt(enc_contents_len), 'little')
response = response[LENGTH_FIELD_LEN:]
if len(response) < HEADER_LEN + self.contents_len + CHACHA20POLY1305_EXPANSION:
return 0, None
aead_ciphertext = response[:HEADER_LEN + self.contents_len + CHACHA20POLY1305_EXPANSION]
plaintext = self.peer['recv_P'].decrypt(aad, aead_ciphertext)
if plaintext is None:
return -1, None # disconnect
header = plaintext[:HEADER_LEN]
length = LENGTH_FIELD_LEN + HEADER_LEN + self.contents_len + CHACHA20POLY1305_EXPANSION
self.contents_len = -1
return length, None if (header[0] & (1 << IGNORE_BIT_POS)) else plaintext[HEADER_LEN:]