Exemplo n.º 1
0
Arquivo: indy.py Projeto: willhay/indy
def main(keys, address, broadcast):
    parser = argparse.ArgumentParser(
        description='Find and sweep all the funds from a mnemonic or bitcoin key, regardless of the derivation path or '
                    'address format used.'
    )

    # parser.add_argument(
    #     'key', help='master key to sweep, formats: mnemonic, xpriv or xpub')

    sweep_tx = parser.add_argument_group('sweep transaction')

    # sweep_tx.add_argument('--address', metavar='<address>',
    #                       help='craft a transaction sending all funds to this address')
    # sweep_tx.add_argument('--broadcast', default=False, action='store_true',
    #                       help='if present broadcast the transaction to the network')
    # sweep_tx.add_argument('--fee-rate', metavar='<rate>', type=int,
    #                       help='fee rate to use in sat/vbyte (default: next block fee)')

    scanning = parser.add_argument_group('scanning parameters')

    scanning.add_argument('--address-gap', metavar='<num>', default=10, type=int,
                          help='max empty addresses gap to explore (default: 20)')
    scanning.add_argument('--account-gap', metavar='<num>', default=0, type=int,
                          help='max empty account levels gap to explore (default: 0)')

    electrum = parser.add_argument_group('electrum server')

    electrum.add_argument('--host', metavar='<host>',
                          help='hostname of the electrum server to use')
    electrum.add_argument('--port', metavar='<port>', type=int,
                          help='port number of the electrum server to use')
    electrum.add_argument('--protocol', choices='ts', default='s',
                          help='electrum connection protocol: t=TCP, s=SSL (default: s)')

    args = parser.parse_args()
    if args.host is not None:
        port = (args.protocol + str(args.port)
                ) if args.port else args.protocol
        server = ServerInfo(args.host, hostname=args.host, ports=port)
    else:
        with open('servers.json', 'r') as f:
            servers = json.load(f)
        server = random.choice(servers)
        server = ServerInfo(
            server['host'], hostname=server['host'], ports=server['port'])

    # TODO change fee rate from 25 to like 100 AND AUTOBROADCAST
    for key in keys:
        master_key = parse_key(key)
        asyncio.run(find_utxos(server, master_key, args.address_gap,
                               args.account_gap, address, 25, broadcast))
Exemplo n.º 2
0
async def setup_client() -> StratumClient:
    try:
        return CLIENT
    except NameError:
        pass

    server = ServerInfo({
        "nickname": None,
        "hostname": "fortress.qtornado.com",
        "ip_addr": None,
        "ports": ["s50002", "t50001"],
        "version": "1.4",
        "pruning_limit": 0,
        "seen_at": 1533670768.8676858
    })

    client = StratumClient()

    await asyncio.wait_for(client.connect(server_info=server,
                                          proto_code='s',
                                          use_tor=False,
                                          disable_cert_verify=True),
                           timeout=5)
    #
    # await asyncio.wait_for(
    #     client.RPC(
    #         'server.version',
    #         'bitcoin-spv-merkle',
    #         '1.2'),
    #     timeout=5)

    return client
Exemplo n.º 3
0
async def setup_client():
    if CLIENT is not None:
        return CLIENT
    server = ServerInfo({
        "nickname": None,
        "hostname": "bitcoin.cluelessperson.com",
        "ip_addr": "172.92.140.254",
        "ports": ["s50002", "t50001"],
        "version": "1.2",
        "pruning_limit": 0,
        "seen_at": 1533670768.588772
    })

    client = StratumClient()

    await asyncio.wait_for(client.connect(server_info=server,
                                          proto_code='s',
                                          use_tor=False,
                                          disable_cert_verify=True),
                           timeout=5)

    await asyncio.wait_for(client.RPC('server.version', 'bitcoin-spv-merkle',
                                      '1.2'),
                           timeout=5)

    return client
Exemplo n.º 4
0
    def __init__(self,
                 loop: asyncio.AbstractEventLoop,
                 server: str,
                 port: int,
                 proto: str) -> None:
        """
        Connection object constructor.

        :param loop: an asyncio event loop
        :param server: a string containing a hostname
        :param port: port number that the server listens on
        :returns: A new Connection object
        """
        logging.info("Connecting...")

        self.server_info = ServerInfo(
            server, hostname=server, ports=port)  # type: ServerInfo
        logging.info(str(self.server_info.get_port(proto)))
        self.client = StratumClient(loop)  # type: StratumClient
        self.connection = self.client.connect(
            self.server_info,
            proto_code=proto,
            use_tor=True,
            disable_cert_verify=(proto != "s"))  # type: asyncio.Future

        loop.run_until_complete(self._do_connect())
        self.queue = None  # type: asyncio.Queue
Exemplo n.º 5
0
def main():
    svr = ServerInfo("test-net", "testnet.hsmiths.com", ports="s50002")
    loop = asyncio.get_event_loop()
    conn = StratumClient()
    connector = conn.connect(svr, disable_cert_verify=True)
    loop.run_until_complete(
        interact(conn, svr, connector, "blockchain.address.get_balance",
                 ["3KF9nXowQ4asSGxRRzeiTpDjMuwM2nypAN"]))
    loop.close()
Exemplo n.º 6
0
 async def connect(self):
     server_info = ServerInfo("", hostname="mdw.ddns.net", ports=50001)
     self.client = StratumClient(self.app.loop)
     self.connection = self.client.connect(
         server_info, proto_code="t")  # type: asyncio.Future
     try:
         await self.connection
         self.connected = True
     except Exception:
         print("Unable to connect to server:", server_info)
Exemplo n.º 7
0
    def _get_server_info(self, network: str) -> ServerInfo:
        '''
        Selects a server randomly from the list
        Filters onions, and other protocol versions

        Returns:
            (ServerInfo): the selected server
        '''
        s = filter(lambda k: k not in self._servers,
                   servers.SERVERS[network])
        s = filter(lambda k: 'onion' not in k['hostname'], s)
        s = filter(lambda k: k['version'] == self.protocol_version, s)
        server = random.choice(list(s))
        return ServerInfo(server)
Exemplo n.º 8
0
def main():
    parser = argparse.ArgumentParser(description='Subscribe to BTC events')
    parser.add_argument('method',
                        help='"blockchain.numblocks.subscribe" or similar')
    parser.add_argument('args',
                        nargs="*",
                        default=[],
                        help='Arguments for method')
    parser.add_argument('--server',
                        default='cluelessperson.com',
                        help='Hostname of Electrum server to use')
    parser.add_argument('--protocol',
                        default='s',
                        help='Protocol code: t=TCP Cleartext, s=SSL, etc')
    parser.add_argument('--port',
                        default=None,
                        help='Port number to override default for protocol')
    parser.add_argument('--tor',
                        default=False,
                        action="store_true",
                        help='Use local Tor proxy to connect')
    parser.add_argument('--debug',
                        default=False,
                        action="store_true",
                        help='Enable debug output from connectrum library')

    args = parser.parse_args()

    if args.debug:
        import logging
        logging.getLogger('connectrum').setLevel(logging.DEBUG)

    # convert to our datastruct about servers.
    svr = ServerInfo(args.server,
                     args.server,
                     ports=((args.protocol +
                             str(args.port)) if args.port else args.protocol))

    loop = asyncio.get_event_loop()

    conn = StratumClient()
    connector = conn.connect(svr,
                             args.protocol,
                             use_tor=svr.is_onion,
                             disable_cert_verify=True)

    loop.run_until_complete(
        listen(conn, svr, connector, args.method, args.args))

    loop.close()
Exemplo n.º 9
0
def main():
    parser = argparse.ArgumentParser(description='Subscribe to BTC events')
    parser.add_argument('server', help='Hostname of ElectrumX server to use')
    parser.add_argument('--port',
                        default=None,
                        help='Port number to override default for protocol')

    args = parser.parse_args()

    svr = ServerInfo(args.server, args.server, ports=('t' + args.port))

    loop = asyncio.get_event_loop()

    conn = MyStratumClient()
    connector = conn.connect(svr, use_tor=False, disable_cert_verify=True)

    loop.run_until_complete(listen(conn, svr, connector))

    loop.close()
Exemplo n.º 10
0
def call_electrum(conn, method, *args):
    # call a method and format up the response nicely
    print("args")
    print(args)
    svr = ServerInfo("electrumx.tamami-foundation.org",
                     "electrumx.tamami-foundation.org",
                     ports=(("tcp" + str("50001")) if "50001" else "tcp"))
    conn = StratumClient()
    time.sleep(10)
    t = ''
    try:
        resp = conn.RPC(method, *args)
        time.sleep(10)
    except ElectrumErrorResponse as e:
        response, req = e.args
        t += "2-1"
        return t
    print("CALL_ELECTRUM REPONSE")
    print(resp)
    return resp
Exemplo n.º 11
0
        fut, Q = conn.subscribe('blockchain.numblocks.subscribe')
        top_blk = await fut
        while 1:
            top_blk = max(await Q.get())
            print("new top-block: %r" % (top_blk, ))

    app.loop.create_task(track_top_block())


if __name__ == "__main__":
    app = web.Application()
    app.router.add_route('GET', '/', homepage)
    app.router.add_route('POST', '/', search)
    app.router.add_route('GET', '/addr/{addr}', address_page)
    app.router.add_route('GET', '/txn/{txn_hash}', transaction_page)
    app.router.add_route('GET', '/blk/{height}', block_page)

    if 1:
        ks = KnownServers()
        ks.from_json('../connectrum/servers.json')
        servers = ks.select(is_onion=False, min_prune=1000)

        assert servers, "Need some servers to talk to."
        el_server = servers[0]
    else:
        el_server = ServerInfo('hardcoded', 'electrum.vom-stausee.de', 's')

    app.loop.create_task(startup_code(app))

    web.run_app(app)
Exemplo n.º 12
0
def main():
    parser = argparse.ArgumentParser(
        description=
        'Find and sweep all the funds from a mnemonic or bitcoin key, regardless of the derivation path or '
        'address format used.')

    parser.add_argument(
        'key', help='master key to sweep, formats: mnemonic, xpriv or xpub')

    sweep_tx = parser.add_argument_group('sweep transaction')

    sweep_tx.add_argument(
        '--address',
        metavar='<address>',
        help='craft a transaction sending all funds to this address')
    sweep_tx.add_argument(
        '--broadcast',
        default=False,
        action='store_true',
        help='if present broadcast the transaction to the network')
    sweep_tx.add_argument(
        '--fee-rate',
        metavar='<rate>',
        type=int,
        help='fee rate to use in sat/vbyte (default: next block fee)')

    scanning = parser.add_argument_group('scanning parameters')

    scanning.add_argument('--max-gap',
                          metavar='<num>',
                          default=20,
                          type=int,
                          help='address gap limit (default: 20)')
    scanning.add_argument(
        '--max-account',
        metavar='<num>',
        default=10,
        type=int,
        help='max number of account levels to explore (default: 10)')

    electrum = parser.add_argument_group('electrum server')

    electrum.add_argument('--host',
                          metavar='<host>',
                          help='hostname of the electrum server to use')
    electrum.add_argument('--port',
                          metavar='<port>',
                          type=int,
                          help='port number of the electrum server to use')
    electrum.add_argument(
        '--protocol',
        choices='ts',
        default='s',
        help='electrum connection protocol: t=TCP, s=SSL (default: s)')

    args = parser.parse_args()

    master_key = parse_key(args.key)

    if args.host is not None:
        port = (args.protocol + str(args.port)) if args.port else args.protocol
        server = ServerInfo(args.host, hostname=args.host, ports=port)
    else:
        with open('servers.json', 'r') as f:
            servers = json.load(f)
        server = random.choice(servers)
        server = ServerInfo(server['host'],
                            hostname=server['host'],
                            ports=server['port'])

    loop = asyncio.get_event_loop()
    loop.run_until_complete(
        find_utxos(server, master_key, args.max_gap, args.max_account,
                   args.address, args.fee_rate, args.broadcast))
    loop.close()
Exemplo n.º 13
0
def server():
    return ServerInfo("onion", hostname="fdkhv2bb7hqel2e7.onion", ports=12345)
Exemplo n.º 14
0
        while 1:
            top_blk = max(await Q.get())
            print("new top-block: %r" % (top_blk, ))

    app.loop.create_task(track_top_block())


if __name__ == "__main__":
    app = web.Application()
    app.router.add_route('GET', '/', homepage)
    app.router.add_route('POST', '/', search)
    app.router.add_route('GET', '/addr/{addr}', address_page)
    app.router.add_route('GET', '/txn/{txn_hash}', transaction_page)
    app.router.add_route('GET', '/blk/{height}', block_page)

    if 0:
        ks = KnownServers()
        ks.from_json('../connectrum/servers.json')
        servers = ks.select(is_onion=False, min_prune=1000)

        assert servers, "Need some servers to talk to."
        el_server = servers[0]
    else:
        el_server = ServerInfo('hardcoded', sys.argv[-1], 's')
        #el_server = ServerInfo('hardcoded', 'daedalus.bauerj.eu', 's')

    loop = asyncio.get_event_loop()
    loop.create_task(startup_code(app))

    web.run_app(app)