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protocol.py
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protocol.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# protocol.py - Bitcoin protocol access for Bitnodes.
#
# Copyright (c) Addy Yeow <[email protected]>
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
"""
Bitcoin protocol access for Bitnodes.
Reference: https://en.bitcoin.it/wiki/Protocol_specification
-------------------------------------------------------------------------------
PACKET STRUCTURE FOR BITCOIN PROTOCOL
protocol version >= 70001
-------------------------------------------------------------------------------
[---MESSAGE---]
[ 4] MAGIC_NUMBER (\xF9\xBE\xB4\xD9) uint32_t
[12] COMMAND char[12]
[ 4] LENGTH <I (len(payload)) uint32_t
[ 4] CHECKSUM (sha256(sha256(payload))[:4]) uint32_t
[..] PAYLOAD see below
[---VERSION_PAYLOAD---]
[ 4] VERSION <i int32_t
[ 8] SERVICES <Q uint64_t
[ 8] TIMESTAMP <q int64_t
[..] ADDR_RECV
[ADDR_PAYLOAD|ADDRV2_PAYLOAD] (without TIMESTAMP)
[..] ADDR_FROM
[ADDR_PAYLOAD|ADDRV2_PAYLOAD] (without TIMESTAMP)
[ 8] NONCE <Q (random.getrandbits(64)) uint64_t
[..] USER_AGENT variable string
[ 4] HEIGHT <i int32_t
[ 1] RELAY <? (since version >= 70001) bool
[---ADDR_LIST_PAYLOAD---]
[..] COUNT variable integer
[..] ADDR_LIST multiple of COUNT (max 1000)
[ADDR_PAYLOAD|ADDRV2_PAYLOAD]
[---ADDR_PAYLOAD---]
[ 4] TIMESTAMP <I uint32_t
[ 8] SERVICES <Q uint64_t
[16] IP_ADDR
[12] IPV6 (\x00 * 10 + \xFF * 2) char[12]
[ 4] IPV4 char[4]
[ 2] PORT >H uint16_t
[---ADDRV2_PAYLOAD---]
[ 4] TIMESTAMP <I uint32_t
[..] SERVICES variable integer
[ 1] NETWORK_ID <B uint8_t
[..] ADDR variable integer up to 512 bytes
[ 2] PORT >H uint16_t
[---PING_PAYLOAD---]
[ 8] NONCE <Q (random.getrandbits(64)) uint64_t
[---PONG_PAYLOAD---]
[ 8] NONCE <Q (nonce from ping) uint64_t
[---INV_PAYLOAD---]
[..] COUNT variable integer
[..] INVENTORY multiple of COUNT (max 50000)
[ 4] TYPE <I (0=error, 1=tx, 2=block) uint32_t
[32] HASH char[32]
[---TX_PAYLOAD---]
[ 4] VERSION <I uint32_t
[..] TX_IN_COUNT variable integer
[..] TX_IN multiple of TX_IN_COUNT
[32] PREV_OUT_HASH char[32]
[ 4] PREV_OUT_INDEX <I (zero-based) uint32_t
[..] SCRIPT_LENGTH variable integer
[..] SCRIPT variable string
[ 4] SEQUENCE <I uint32_t
[..] TX_OUT_COUNT variable integer
[..] TX_OUT multiple of TX_OUT_COUNT
[ 8] VALUE <q int64_t
[..] SCRIPT_LENGTH variable integer
[..] SCRIPT variable string
[ 4] LOCK_TIME <I uint32_t
[---BLOCK_PAYLOAD---]
[ 4] VERSION <I uint32_t
[32] PREV_BLOCK_HASH char[32]
[32] MERKLE_ROOT char[32]
[ 4] TIMESTAMP <I uint32_t
[ 4] BITS <I uint32_t
[ 4] NONCE <I uint32_t
[..] TX_COUNT variable integer
[..] TX multiple of TX_COUNT
[..] TX see TX_PAYLOAD
[---GETBLOCKS_PAYLOAD---]
[ 4] VERSION <I uint32_t
[..] COUNT variable integer
[..] BLOCK_HASHES multiple of COUNT
[32] BLOCK_HASH char[32]
[32] LAST_BLOCK_HASH char[32]
[---GETHEADERS_PAYLOAD---]
[ 4] VERSION <I uint32_t
[..] COUNT variable integer
[..] BLOCK_HASHES multiple of COUNT
[32] BLOCK_HASH char[32]
[32] LAST_BLOCK_HASH char[32]
[---HEADERS_PAYLOAD---]
[..] COUNT variable integer (max 2000)
[..] HEADERS multiple of COUNT
[ 4] VERSION <I uint32_t
[32] PREV_BLOCK_HASH char[32]
[32] MERKLE_ROOT char[32]
[ 4] TIMESTAMP <I uint32_t
[ 4] BITS <I uint32_t
[ 4] NONCE <I uint32_t
[..] TX_COUNT variable integer (always 0)
-------------------------------------------------------------------------------
"""
import hashlib
import logging
import random
import socket
import struct
import sys
import time
from base64 import b32decode, b32encode
from collections import deque
from io import BytesIO, SEEK_CUR
import gevent
import socks
from binascii import hexlify, unhexlify
MAGIC_NUMBER = b"\xF9\xBE\xB4\xD9"
PORT = 8333
MIN_PROTOCOL_VERSION = 70001
PROTOCOL_VERSION = 70016
FROM_SERVICES = 0
TO_SERVICES = 1 # NODE_NETWORK
USER_AGENT = "/bitnodes.io:0.3/"
HEIGHT = 754565
RELAY = 0 # Set to 1 to receive all txs.
SOCKET_BUFSIZE = 8192
SOCKET_TIMEOUT = 30
HEADER_LEN = 24
# IPv6 prefix for .onion address (use in addr message only).
ONION_PREFIX = b"\xFD\x87\xD8\x7E\xEB\x43"
# Reserved network IDs.
NETWORK_IPV4 = 1
NETWORK_IPV6 = 2
NETWORK_TORV2 = 3
NETWORK_TORV3 = 4
NETWORK_I2P = 5
NETWORK_CJDNS = 6
NETWORK_LENGTHS = {
NETWORK_IPV4: 4,
NETWORK_IPV6: 16,
NETWORK_TORV2: 10,
NETWORK_TORV3: 32,
NETWORK_I2P: 32,
NETWORK_CJDNS: 16,
}
SUPPORTED_NETWORKS = [
NETWORK_IPV4,
NETWORK_IPV6,
NETWORK_TORV2,
NETWORK_TORV3,
]
ONION_V3_LEN = 62
class ProtocolError(Exception):
pass
class ConnectionError(Exception):
pass
class HeaderTooShortError(ProtocolError):
pass
class InvalidMagicNumberError(ProtocolError):
pass
class PayloadTooShortError(ProtocolError):
pass
class InvalidPayloadChecksum(ProtocolError):
pass
class IncompatibleClientError(ProtocolError):
pass
class UnknownNetworkIdError(ProtocolError):
pass
class UnsupportedNetworkIdError(ProtocolError):
pass
class InvalidAddrLenError(ProtocolError):
pass
class ReadError(ProtocolError):
pass
class ProxyRequired(ConnectionError):
pass
class RemoteHostClosedConnection(ConnectionError):
pass
def sha256(data):
return hashlib.sha256(data).digest()
def addr_to_onion_v2(addr):
"""
Returns .onion address for the specified v2 onion addr.
"""
return (b32encode(addr).lower() + b".onion").decode()
def addr_to_onion_v3(addr):
"""
Returns .onion address for the specified v3 onion addr (PUBKEY).
onion_address = base32(PUBKEY | CHECKSUM | VERSION) + '.onion'
See https://gitweb.torproject.org/torspec.git/tree/rend-spec-v3.txt#n2135
"""
version = b"\x03"
checksum = hashlib.sha3_256(b".onion checksum" + addr + version).digest()[:2]
return (b32encode(addr + checksum + version).lower() + b".onion").decode()
def unpack(fmt, string):
"""
Wraps problematic struct.unpack() in a try statement.
"""
try:
return struct.unpack(fmt, string)[0]
except struct.error as err:
raise ReadError(err)
def create_connection(address, timeout=SOCKET_TIMEOUT, source_address=None, proxy=None):
if address[0].endswith(".onion") and proxy is None:
raise ProxyRequired("tor proxy is required to connect to .onion address")
if proxy:
socks.setdefaultproxy(socks.PROXY_TYPE_SOCKS5, proxy[0], proxy[1])
sock = socks.socksocket()
sock.settimeout(timeout)
try:
sock.connect(address)
except socks.ProxyError as err:
raise ConnectionError(err)
return sock
if ":" in address[0] and source_address and ":" not in source_address[0]:
source_address = None
return socket.create_connection(
address, timeout=timeout, source_address=source_address
)
class Serializer(object):
def __init__(self, **conf):
self.magic_number = conf.get("magic_number", MAGIC_NUMBER)
if isinstance(self.magic_number, str):
self.magic_number = unhexlify(self.magic_number)
self.protocol_version = conf.get("protocol_version", PROTOCOL_VERSION)
self.to_services = conf.get("to_services", TO_SERVICES)
self.from_services = conf.get("from_services", FROM_SERVICES)
self.user_agent = conf.get("user_agent", USER_AGENT)
self.height = conf.get("height", HEIGHT)
if self.height is None:
self.height = HEIGHT
self.relay = conf.get("relay", RELAY)
# This is set prior to throwing PayloadTooShortError exception to
# allow caller to fetch more data over the network.
self.required_len = 0
# Bump to 2 during handshake on receipt of sendaddrv2 message.
self.addr_version = None
def serialize_msg(self, **kwargs):
command = kwargs["command"]
msg = [
self.magic_number,
command + b"\x00" * (12 - len(command)),
]
payload = b""
if command == b"version":
to_addr = (self.to_services,) + kwargs["to_addr"]
from_addr = (self.from_services,) + kwargs["from_addr"]
payload = self.serialize_version_payload(to_addr, from_addr)
elif command == b"ping" or command == b"pong":
nonce = kwargs["nonce"]
payload = self.serialize_ping_payload(nonce)
elif command == b"addr":
addr_list = kwargs["addr_list"]
payload = self.serialize_addr_payload(addr_list)
elif command == b"inv" or command == b"getdata":
inventory = kwargs["inventory"]
payload = self.serialize_inv_payload(inventory)
elif command == b"getblocks" or command == b"getheaders":
block_hashes = kwargs["block_hashes"]
last_block_hash = kwargs["last_block_hash"]
payload = self.serialize_getblocks_payload(block_hashes, last_block_hash)
elif command == b"headers":
headers = kwargs["headers"]
payload = self.serialize_block_headers_payload(headers)
msg.extend(
[
struct.pack("<I", len(payload)),
sha256(sha256(payload))[:4],
payload,
]
)
return b"".join(msg)
def deserialize_msg(self, data):
msg = {}
data_len = len(data)
if data_len < HEADER_LEN:
raise HeaderTooShortError(f"got {data_len} of {HEADER_LEN} bytes")
data = BytesIO(data)
header = data.read(HEADER_LEN)
msg.update(self.deserialize_header(header))
if (data_len - HEADER_LEN) < msg["length"]:
self.required_len = HEADER_LEN + msg["length"]
raise PayloadTooShortError(f"got {data_len} of {self.required_len} bytes")
payload = data.read(msg["length"])
computed_checksum = sha256(sha256(payload))[:4]
if computed_checksum != msg["checksum"]:
raise InvalidPayloadChecksum(
f"{hexlify(computed_checksum)} != {hexlify(msg['checksum'])}"
)
if msg["command"] == b"version":
msg.update(self.deserialize_version_payload(payload))
elif msg["command"] == b"ping" or msg["command"] == b"pong":
msg.update(self.deserialize_ping_payload(payload))
elif msg["command"] == b"addr":
msg.update(self.deserialize_addr_payload(payload))
elif msg["command"] == b"addrv2":
msg.update(self.deserialize_addr_payload(payload, version=2))
elif msg["command"] == b"inv":
msg.update(self.deserialize_inv_payload(payload))
elif msg["command"] == b"tx":
msg.update(self.deserialize_tx_payload(payload))
elif msg["command"] == b"block":
msg.update(self.deserialize_block_payload(payload))
elif msg["command"] == b"headers":
msg.update(self.deserialize_block_headers_payload(payload))
return (msg, data.read())
def deserialize_header(self, data):
msg = {}
data = BytesIO(data)
msg["magic_number"] = data.read(4)
if msg["magic_number"] != self.magic_number:
raise InvalidMagicNumberError(
f"{hexlify(msg['magic_number'])} " f"!= {hexlify(self.magic_number)}"
)
msg["command"] = data.read(12).strip(b"\x00")
msg["length"] = struct.unpack("<I", data.read(4))[0]
msg["checksum"] = data.read(4)
return msg
def serialize_version_payload(self, to_addr, from_addr):
payload = [
struct.pack("<i", self.protocol_version),
struct.pack("<Q", self.from_services),
struct.pack("<q", int(time.time())),
self.serialize_network_address(to_addr, version=self.addr_version),
self.serialize_network_address(from_addr, version=self.addr_version),
struct.pack("<Q", random.getrandbits(64)),
self.serialize_string(self.user_agent),
struct.pack("<i", self.height),
struct.pack("<?", self.relay),
]
return b"".join(payload)
def deserialize_version_payload(self, data):
msg = {}
data = BytesIO(data)
msg["version"] = unpack("<i", data.read(4))
if msg["version"] < MIN_PROTOCOL_VERSION:
raise IncompatibleClientError(f"{msg['version']} < {MIN_PROTOCOL_VERSION}")
msg["services"] = unpack("<Q", data.read(8))
msg["timestamp"] = unpack("<q", data.read(8))
msg["to_addr"] = self.deserialize_network_address(
data, version=self.addr_version
)
msg["from_addr"] = self.deserialize_network_address(
data, version=self.addr_version
)
msg["nonce"] = unpack("<Q", data.read(8))
msg["user_agent"] = self.deserialize_string(data)[1].decode()
msg["height"] = unpack("<i", data.read(4))
try:
msg["relay"] = struct.unpack("<?", data.read(1))[0]
except struct.error:
msg["relay"] = False
return msg
def serialize_ping_payload(self, nonce):
payload = [
struct.pack("<Q", nonce),
]
return b"".join(payload)
def deserialize_ping_payload(self, data):
data = BytesIO(data)
nonce = unpack("<Q", data.read(8))
msg = {
"nonce": nonce,
}
return msg
def serialize_addr_payload(self, addr_list):
payload = [
self.serialize_int(len(addr_list)),
]
payload.extend([self.serialize_network_address(addr) for addr in addr_list])
return b"".join(payload)
def deserialize_addr_payload(self, data, version=None):
msg = {}
data = BytesIO(data)
msg["count"] = self.deserialize_int(data)
msg["addr_list"] = []
for _ in range(msg["count"]):
network_address = self.deserialize_network_address(
data, has_timestamp=True, version=version
)
msg["addr_list"].append(network_address)
return msg
def serialize_inv_payload(self, inventory):
payload = [
self.serialize_int(len(inventory)),
]
payload.extend([self.serialize_inventory(item) for item in inventory])
return b"".join(payload)
def deserialize_inv_payload(self, data):
msg = {
"timestamp": int(time.time() * 1000), # milliseconds
}
data = BytesIO(data)
msg["count"] = self.deserialize_int(data)
msg["inventory"] = []
for _ in range(msg["count"]):
inventory = self.deserialize_inventory(data)
msg["inventory"].append(inventory)
return msg
def serialize_tx_payload(self, tx):
payload = [
struct.pack("<I", tx["version"]),
self.serialize_int(tx["tx_in_count"]),
b"".join([self.serialize_tx_in(tx_in) for tx_in in tx["tx_in"]]),
self.serialize_int(tx["tx_out_count"]),
b"".join([self.serialize_tx_out(tx_out) for tx_out in tx["tx_out"]]),
struct.pack("<I", tx["lock_time"]),
]
return b"".join(payload)
def deserialize_tx_payload(self, data):
msg = {}
if not isinstance(data, BytesIO):
data = BytesIO(data)
msg["version"] = unpack("<I", data.read(4))
# Check for BIP144 marker.
marker = data.read(1)
if marker == b"\x00": # BIP144 marker is set.
flags = data.read(1)
else:
flags = b"\x00"
data.seek(-1, SEEK_CUR)
msg["tx_in_count"] = self.deserialize_int(data)
msg["tx_in"] = []
for _ in range(msg["tx_in_count"]):
tx_in = self.deserialize_tx_in(data)
msg["tx_in"].append(tx_in)
msg["tx_out_count"] = self.deserialize_int(data)
msg["tx_out"] = []
for _ in range(msg["tx_out_count"]):
tx_out = self.deserialize_tx_out(data)
msg["tx_out"].append(tx_out)
if flags != b"\x00":
for in_num in range(msg["tx_in_count"]):
msg["tx_in"][in_num].update(
{
"wits": self.deserialize_string_vector(data),
}
)
msg["lock_time"] = unpack("<I", data.read(4))
# Calculate hash from the entire payload.
payload = self.serialize_tx_payload(msg)
msg["tx_hash"] = hexlify(sha256(sha256(payload))[::-1])
return msg
def deserialize_block_payload(self, data):
msg = {}
# Calculate hash from: version (4 bytes) + prev_block_hash (32 bytes) +
# merkle_root (32 bytes) + timestamp (4 bytes) + bits (4 bytes) +
# nonce (4 bytes) = 80 bytes
msg["block_hash"] = hexlify(sha256(sha256(data[:80]))[::-1])
data = BytesIO(data)
msg["version"] = struct.unpack("<I", data.read(4))[0]
# BE (big-endian) -> LE (little-endian)
msg["prev_block_hash"] = hexlify(data.read(32)[::-1])
# BE -> LE
msg["merkle_root"] = hexlify(data.read(32)[::-1])
msg["timestamp"] = struct.unpack("<I", data.read(4))[0]
msg["bits"] = struct.unpack("<I", data.read(4))[0]
msg["nonce"] = struct.unpack("<I", data.read(4))[0]
msg["tx_count"] = self.deserialize_int(data)
msg["tx"] = []
for _ in range(msg["tx_count"]):
tx_payload = self.deserialize_tx_payload(data)
msg["tx"].append(tx_payload)
return msg
def serialize_getblocks_payload(self, block_hashes, last_block_hash):
payload = [
struct.pack("<i", self.protocol_version),
self.serialize_int(len(block_hashes)),
b"".join([unhexlify(block_hash)[::-1] for block_hash in block_hashes]),
unhexlify(last_block_hash)[::-1], # LE -> BE
]
return b"".join(payload)
def serialize_block_headers_payload(self, headers):
payload = [
self.serialize_int(len(headers)),
]
payload.extend([self.serialize_block_header(header) for header in headers])
return b"".join(payload)
def deserialize_block_headers_payload(self, data):
msg = {}
data = BytesIO(data)
msg["count"] = self.deserialize_int(data)
msg["headers"] = []
for _ in range(msg["count"]):
header = self.deserialize_block_header(data)
msg["headers"].append(header)
return msg
def serialize_network_address(self, addr, version=None):
network_address = []
if len(addr) == 4:
(timestamp, services, ip_address, port) = addr
network_address.append(struct.pack("<I", timestamp))
else:
(services, ip_address, port) = addr
if ip_address.endswith(".onion"):
if len(ip_address) == ONION_V3_LEN:
network_id = NETWORK_TORV3
else:
network_id = NETWORK_TORV2
elif "." in ip_address:
network_id = NETWORK_IPV4
else:
network_id = NETWORK_IPV6
if version == 2:
network_address.append(self.serialize_int(services))
if network_id == NETWORK_TORV3:
# 32 bytes
network_address.append(b32decode(ip_address[:-6], True)[:32])
elif network_id == NETWORK_TORV2:
# 10 bytes
network_address.append(b32decode(ip_address[:-6], True))
elif network_id == NETWORK_IPV4:
# 4 bytes
network_address.append(socket.inet_pton(socket.AF_INET, ip_address))
else:
# 16 bytes
network_address.append(socket.inet_pton(socket.AF_INET6, ip_address))
else:
network_address.append(struct.pack("<Q", services))
if network_id == NETWORK_TORV2 or network_id == NETWORK_TORV3:
# Convert .onion address to its IPv6 equivalent (6 + 10 bytes).
network_address.append(ONION_PREFIX + b32decode(ip_address[:-6], True))
elif network_id == NETWORK_IPV4:
# Unused (12 bytes) + IPv4 (4 bytes) = IPv4-mapped IPv6 address
unused = b"\x00" * 10 + b"\xFF" * 2
network_address.append(
unused + socket.inet_pton(socket.AF_INET, ip_address)
)
else:
# IPv6 (16 bytes)
network_address.append(socket.inet_pton(socket.AF_INET6, ip_address))
network_address.append(struct.pack(">H", port))
return b"".join(network_address)
def deserialize_network_address(self, data, has_timestamp=False, version=None):
network_id = 0
ipv4 = ""
ipv6 = ""
onion = ""
timestamp = None
if has_timestamp:
timestamp = unpack("<I", data.read(4))
if version == 2:
services = self.deserialize_int(data)
network_id = unpack("<B", data.read(1))
if network_id not in NETWORK_LENGTHS.keys():
raise UnknownNetworkIdError(f"unknown network id {network_id}")
if network_id not in SUPPORTED_NETWORKS:
raise UnsupportedNetworkIdError(f"unsupported network id {network_id}")
addr_len = self.deserialize_int(data)
if addr_len != NETWORK_LENGTHS[network_id]:
raise InvalidAddrLenError
addr = data.read(addr_len)
if network_id == NETWORK_TORV2:
onion = addr_to_onion_v2(addr)
elif network_id == NETWORK_TORV3:
onion = addr_to_onion_v3(addr)
elif network_id == NETWORK_IPV6:
ipv6 = socket.inet_ntop(socket.AF_INET6, addr)
elif network_id == NETWORK_IPV4:
ipv4 = socket.inet_ntop(socket.AF_INET, addr)
port = unpack(">H", data.read(2))
else:
services = unpack("<Q", data.read(8))
_ipv6 = data.read(12)
_ipv4 = data.read(4)
port = unpack(">H", data.read(2))
_ipv6 += _ipv4
if _ipv6[:6] == ONION_PREFIX:
onion = addr_to_onion_v2(_ipv6[6:]) # Use .onion
network_id = NETWORK_TORV2
else:
ipv6 = socket.inet_ntop(socket.AF_INET6, _ipv6)
ipv4 = socket.inet_ntop(socket.AF_INET, _ipv4)
if ipv4 in ipv6:
ipv6 = "" # Use IPv4
network_id = NETWORK_IPV4
else:
ipv4 = "" # Use IPv6
network_id = NETWORK_IPV6
return {
"network_id": network_id,
"timestamp": timestamp,
"services": services,
"ipv4": ipv4,
"ipv6": ipv6,
"onion": onion,
"port": port,
}
def serialize_inventory(self, item):
(inv_type, inv_hash) = item
payload = [
struct.pack("<I", inv_type),
unhexlify(inv_hash)[::-1], # LE -> BE
]
return b"".join(payload)
def deserialize_inventory(self, data):
inv_type = unpack("<I", data.read(4))
inv_hash = data.read(32)[::-1] # BE -> LE
return {
"type": inv_type,
"hash": hexlify(inv_hash),
}
def serialize_tx_in(self, tx_in):
payload = [
unhexlify(tx_in["prev_out_hash"])[::-1], # LE -> BE
struct.pack("<I", tx_in["prev_out_index"]),
self.serialize_int(tx_in["script_length"]),
tx_in["script"],
struct.pack("<I", tx_in["sequence"]),
]
return b"".join(payload)
def deserialize_tx_in(self, data):
prev_out_hash = data.read(32)[::-1] # BE -> LE
prev_out_index = unpack("<I", data.read(4))
script_length, script = self.deserialize_string(data)
sequence = unpack("<I", data.read(4))
return {
"prev_out_hash": hexlify(prev_out_hash),
"prev_out_index": prev_out_index,
"script_length": script_length,
"script": script,
"sequence": sequence,
}
def serialize_tx_out(self, tx_out):
payload = [
struct.pack("<q", tx_out["value"]),
self.serialize_int(tx_out["script_length"]),
tx_out["script"],
]
return b"".join(payload)
def deserialize_tx_out(self, data):
value = unpack("<q", data.read(8))
script_length = self.deserialize_int(data)
script = data.read(script_length)
return {
"value": value,
"script_length": script_length,
"script": script,
}
def serialize_block_header(self, header):
payload = [
struct.pack("<I", header["version"]),
unhexlify(header["prev_block_hash"])[::-1], # LE -> BE
unhexlify(header["merkle_root"])[::-1], # LE -> BE
struct.pack("<I", header["timestamp"]),
struct.pack("<I", header["bits"]),
struct.pack("<I", header["nonce"]),
self.serialize_int(0),
]
return b"".join(payload)
def deserialize_block_header(self, data):
header = data.read(80)
block_hash = sha256(sha256(header))[::-1] # BE -> LE
header = BytesIO(header)
version = struct.unpack("<i", header.read(4))[0]
prev_block_hash = header.read(32)[::-1] # BE -> LE
merkle_root = header.read(32)[::-1] # BE -> LE
timestamp = unpack("<I", header.read(4))
bits = unpack("<I", header.read(4))
nonce = unpack("<I", header.read(4))
tx_count = self.deserialize_int(data)
return {
"block_hash": hexlify(block_hash),
"version": version,
"prev_block_hash": hexlify(prev_block_hash),
"merkle_root": hexlify(merkle_root),
"timestamp": timestamp,
"bits": bits,
"nonce": nonce,
"tx_count": tx_count,
}
def serialize_string_vector(self, data):
payload = [
self.serialize_int(len(data)),
] + [self.serialize_string(item) for item in data]
return b"".join(payload)
def deserialize_string_vector(self, data):
items = []
count = self.deserialize_int(data)
for _ in range(count):
items.append(self.deserialize_string(data)[1])
return items
def serialize_string(self, data):
return self.serialize_int(len(data)) + data.encode()
def deserialize_string(self, data):
length = self.deserialize_int(data)
try:
str = data.read(length)
except OverflowError as err:
raise ReadError(err)
return (length, str)
def serialize_int(self, length):
if length < 0xFD:
return chr(length).encode()
elif length <= 0xFFFF:
return chr(0xFD).encode() + struct.pack("<H", length)
elif length <= 0xFFFFFFFF:
return chr(0xFE).encode() + struct.pack("<I", length)
return chr(0xFF).encode() + struct.pack("<Q", length)
def deserialize_int(self, data):
length = unpack("<B", data.read(1))
if length == 0xFD:
length = unpack("<H", data.read(2))
elif length == 0xFE:
length = unpack("<I", data.read(4))
elif length == 0xFF:
length = unpack("<Q", data.read(8))
return length
class Connection(object):
def __init__(self, to_addr, from_addr=("0.0.0.0", 0), **conf):
self.to_addr = to_addr
self.from_addr = from_addr
self.serializer = Serializer(**conf)
self.socket_timeout = conf.get("socket_timeout", SOCKET_TIMEOUT)
self.proxy = conf.get("proxy", None)
self.socket = None
# Bits per second (bps) samples for this connection.
self.bps = deque([], maxlen=128)
def open(self):
self.socket = create_connection(
self.to_addr,
timeout=self.socket_timeout,
source_address=self.from_addr,
proxy=self.proxy,
)
def close(self):
if self.socket:
try:
self.socket.shutdown(socket.SHUT_RDWR)
except socket.error:
pass
finally:
self.socket.close()
def send(self, data):
self.socket.sendall(data)
def recv(self, length=0):
start_t = time.time()
if length > 0:
chunks = []
while length > 0:
chunk = self.socket.recv(SOCKET_BUFSIZE)
if not chunk:
raise RemoteHostClosedConnection(
f"{self.to_addr} closed connection"
)
chunks.append(chunk)
length -= len(chunk)
data = b"".join(chunks)
else:
data = self.socket.recv(SOCKET_BUFSIZE)
if not data:
raise RemoteHostClosedConnection(f"{self.to_addr} closed connection")
if len(data) > SOCKET_BUFSIZE:
end_t = time.time()
self.bps.append((len(data) * 8) / (end_t - start_t))
return data
def get_messages(self, length=0, commands=None):
msgs = []
data = self.recv(length=length)
while len(data) > 0:
gevent.sleep(0)
try:
(msg, data) = self.serializer.deserialize_msg(data)
except PayloadTooShortError:
data += self.recv(length=self.serializer.required_len - len(data))
(msg, data) = self.serializer.deserialize_msg(data)
if msg.get("command") == b"ping":
self.pong(msg["nonce"]) # Respond to ping immediately.
elif msg.get("command") == b"version":
self.version_reply(msg) # Respond to version immediately.
elif msg.get("command") == b"getheaders":
self.headers([]) # Respond to getheaders immediately.
msgs.append(msg)
if len(msgs) > 0 and commands:
msgs[:] = [m for m in msgs if m.get("command") in commands]
return msgs
def version_reply(self, version):
# 70016 is the min. protocol version to accept sendaddrv2.
if version.get("version", PROTOCOL_VERSION) >= 70016:
# [sendaddrv2] + [verack] >>>
msg = self.serializer.serialize_msg(
command=b"sendaddrv2"
) + self.serializer.serialize_msg(command=b"verack")
else:
# [verack] >>>
msg = self.serializer.serialize_msg(command=b"verack")
self.send(msg)
def set_min_version(self, version):
self.serializer.protocol_version = min(
self.serializer.protocol_version, version.get("version", PROTOCOL_VERSION)
)
def set_addrv2(self, sendaddrv2):
self.serializer.addr_version = 2 if sendaddrv2 else None
def handshake(self):
# [version] >>>
msg = self.serializer.serialize_msg(
command=b"version", to_addr=self.to_addr, from_addr=self.from_addr
)
self.send(msg)
# <<< [version 124 bytes] [sendaddrv2 24 bytes] [verack 24 bytes]
gevent.sleep(1)
version_msg = {}
msgs = self.get_messages(commands=[b"version", b"sendaddrv2", b"verack"])
if len(msgs) > 0:
version_msg = next(
(msg for msg in msgs if msg["command"] == b"version"), {}
)
self.set_min_version(version_msg)