def parse_proposals_subscription_result(results): """Parse the proposals subscription response.""" proposals = [] for k, result in results.items(): kwargs = { 'proposal_name': result['Name'], 'proposal_url': result['URL'], 'start_block': int(result['BlockStart']), 'end_block': int(result['BlockEnd']), 'payment_amount': result['MonthlyPayment'], 'address': result['PaymentAddress'] } fee_txid_key = 'FeeTXHash' if result.get('FeeTXHash') else 'FeeHash' kwargs['fee_txid'] = result[fee_txid_key] yes_count_key = 'YesCount' if result.get('YesCount') else 'Yeas' kwargs['yes_count'] = result[yes_count_key] no_count_key = 'NoCount' if result.get('NoCount') else 'Nays' kwargs['no_count'] = result[no_count_key] payment_amount = Decimal(str(kwargs['payment_amount'])) kwargs['payment_amount'] = pow(10, 8) * payment_amount proposals.append(BudgetProposal.from_dict(kwargs)) print_error('Received updated budget proposal information (%d proposals)' % len(proposals)) return proposals
def give_error(self, message, clear_client=False): print_error(message) if not self.signing: self.handler.show_error(message) else: self.signing = False if clear_client: self.client = None raise Exception(message)
def submit_thread(): for i, (proposal_name, txid) in enumerate(self.unsubmitted_proposals): errmsg, success = self.parent.masternode_manager.submit_proposal( proposal_name, save=False) results[i] = (proposal_name, errmsg, success) if success: print_error('Sucessfully submitted proposal "%s"' % proposal_name) else: print_error('Failed to submit proposal "%s": %s' % (proposal_name, errmsg)) return results
def hid_send_encrypt(self, msg): reply = "" try: secret = Hash(self.password) msg = EncodeAES(secret, msg) reply = self.hid_send_plain(msg) if 'ciphertext' in reply: reply = DecodeAES(secret, ''.join(reply["ciphertext"])) reply = json.loads(reply) if 'error' in reply: self.password = None except Exception as e: print_error('Exception caught ' + str(e)) return reply
def create_proposal_tx(self, proposal_name, password, save=True): """Create a fee transaction for proposal_name.""" proposal = self.get_proposal(proposal_name) if proposal.fee_txid: print_error('Warning: Proposal "%s" already has a fee tx: %s' % (proposal_name, proposal.fee_txid)) if proposal.submitted: raise Exception('Proposal has already been submitted') h = bitcoin.hash_decode(proposal.get_hash()).encode('hex') script = '6a20' + h # OP_RETURN hash outputs = [(bitcoin.TYPE_SCRIPT, script.decode('hex'), BUDGET_FEE_TX)] tx = self.wallet.mktx(outputs, password, self.config) proposal.fee_txid = tx.hash() if save: self.save() return tx
def masternode_subscription_response(self, response): """Callback for when a masternode's status changes.""" collateral = response['params'][0] mn = None for masternode in self.masternodes: if masternode.get_collateral_str() == collateral: mn = masternode break if not mn: return status = response['result'] if status is None: status = False print_error('Received updated status for masternode %s: "%s"' % (mn.alias, status)) self.masternode_statuses[collateral] = status
def hid_send_plain(self, msg): reply = "" try: serial_number = self.dbb_hid.get_serial_number_string() if "v2.0." in serial_number or "v1." in serial_number: hidBufSize = 4096 self.dbb_hid.write('\0' + bytearray(msg) + '\0' * (hidBufSize - len(msg))) r = [] while len(r) < hidBufSize: r = r + self.dbb_hid.read(hidBufSize) else: self.hid_send_frame(msg) r = self.hid_read_frame() r = str(bytearray(r)).rstrip(' \t\r\n\0') r = r.replace("\0", '') reply = json.loads(r) except Exception as e: print_error('Exception caught ' + str(e)) return reply
def import_masternode_conf_lines(self, conf_lines, password): """Import a list of MasternodeConfLine.""" def already_have(line): for masternode in self.masternodes: # Don't let aliases collide. if masternode.alias == line.alias: return True # Don't let outputs collide. if masternode.vin.get( 'prevout_hash') == line.txid and masternode.vin.get( 'prevout_n') == line.output_index: return True return False num_imported = 0 for conf_line in conf_lines: if already_have(conf_line): continue # Import delegate WIF key for signing last_ping. self.import_masternode_delegate(conf_line.wif) public_key = bitcoin.public_key_from_private_key(conf_line.wif) addr = conf_line.addr.split(':') addr = NetworkAddress(ip=addr[0], port=int(addr[1])) vin = { 'prevout_hash': conf_line.txid, 'prevout_n': conf_line.output_index } mn = MasternodeAnnounce(alias=conf_line.alias, vin=vin, delegate_key=public_key, addr=addr) self.add_masternode(mn) try: self.populate_masternode_output(mn.alias) except Exception as e: print_error(str(e)) num_imported += 1 return num_imported
def get_xpub(self, bip32_path): self.checkDevice() # bip32_path is of the form 44'/5'/1' # S-L-O-W - we don't handle the fingerprint directly, so compute # it manually from the previous node # This only happens once so it's bearable #self.get_client() # prompt for the PIN before displaying the dialog if necessary #self.handler.show_message("Computing master public key") try: splitPath = bip32_path.split('/') if splitPath[0] == 'm': splitPath = splitPath[1:] bip32_path = bip32_path[2:] fingerprint = 0 if len(splitPath) > 1: prevPath = "/".join(splitPath[0:len(splitPath) - 1]) nodeData = self.dongleObject.getWalletPublicKey(prevPath) publicKey = compress_public_key(nodeData['publicKey']) h = hashlib.new('ripemd160') h.update(hashlib.sha256(publicKey).digest()) fingerprint = unpack(">I", h.digest()[0:4])[0] nodeData = self.dongleObject.getWalletPublicKey(bip32_path) publicKey = compress_public_key(nodeData['publicKey']) depth = len(splitPath) lastChild = splitPath[len(splitPath) - 1].split('\'') if len(lastChild) == 1: childnum = int(lastChild[0]) else: childnum = 0x80000000 | int(lastChild[0]) xpub = bitcoin.serialize_xpub(0, str(nodeData['chainCode']), str(publicKey), depth, self.i4b(fingerprint), self.i4b(childnum)) return xpub except Exception as e: print_error(e) return None
import sys import platform from electrum_monetaryunit.plugins import BasePlugin, hook from electrum_monetaryunit_gui.qt.util import WaitingDialog, EnterButton, WindowModalDialog from electrum_monetaryunit.util import print_msg, print_error from electrum_monetaryunit.i18n import _ from PyQt4.QtGui import * from PyQt4.QtCore import * try: import amodem.audio import amodem.main import amodem.config print_error('Audio MODEM is available.') amodem.log.addHandler(amodem.logging.StreamHandler(sys.stderr)) amodem.log.setLevel(amodem.logging.INFO) except ImportError: amodem = None print_error('Audio MODEM is not found.') class Plugin(BasePlugin): def __init__(self, parent, config, name): BasePlugin.__init__(self, parent, config, name) if self.is_available(): self.modem_config = amodem.config.slowest() self.library_name = {'Linux': 'libportaudio.so'}[platform.system()] def is_available(self):
def sign_transaction(self, tx, password): if tx.is_complete(): return try: p2shTransaction = False derivations = self.get_tx_derivations(tx) inputhasharray = [] hasharray = [] pubkeyarray = [] # Build hasharray from inputs for i, txin in enumerate(tx.inputs()): if txin['type'] == 'coinbase': self.give_error( "Coinbase not supported") # should never happen if txin['type'] in ['p2sh']: p2shTransaction = True for x_pubkey in txin['x_pubkeys']: if x_pubkey in derivations: index = derivations.get(x_pubkey) inputPath = "%s/%d/%d" % (self.get_derivation(), index[0], index[1]) inputHash = Hash( tx.serialize_preimage(i).decode('hex')) hasharray_i = { 'hash': inputHash.encode('hex'), 'keypath': inputPath } hasharray.append(hasharray_i) inputhasharray.append(inputHash) break else: self.give_error("No matching x_key for sign_transaction" ) # should never happen # Sanity check if p2shTransaction: for txinput in tx.inputs(): if txinput['type'] != 'p2sh': self.give_error( "P2SH / regular input mixed in same transaction not supported" ) # should never happen # Build pubkeyarray from outputs (unused because echo for smart verification not implemented) if not p2shTransaction: for _type, address, amount in tx.outputs(): assert _type == TYPE_ADDRESS info = tx.output_info.get(address) if info is not None: index, xpubs, m = info changePath = self.get_derivation() + "/%d/%d" % index changePubkey = self.derive_pubkey(index[0], index[1]) pubkeyarray_i = { 'pubkey': changePubkey, 'keypath': changePath } pubkeyarray.append(pubkeyarray_i) # Build sign command dbb_signatures = [] steps = math.ceil(1.0 * len(hasharray) / self.maxInputs) for step in range(int(steps)): hashes = hasharray[step * self.maxInputs:(step + 1) * self.maxInputs] msg = '{"sign": {"meta":"%s", "data":%s, "checkpub":%s} }' % \ (Hash(tx.serialize()).encode('hex'), json.dumps(hashes), json.dumps(pubkeyarray)) dbb_client = self.plugin.get_client(self) if not dbb_client.is_paired(): raise Exception("Could not sign transaction.") reply = dbb_client.hid_send_encrypt(msg) if 'error' in reply: raise Exception(reply['error']['message']) if 'echo' not in reply: raise Exception("Could not sign transaction.") if steps > 1: self.handler.show_message(_("Signing large transaction. Please be patient ...\r\n\r\n" \ "To continue, touch the Digital Bitbox's blinking light for 3 seconds. " \ "(Touch " + str(step + 1) + " of " + str(int(steps)) + ")\r\n\r\n" \ "To cancel, briefly touch the blinking light or wait for the timeout.\r\n\r\n")) else: self.handler.show_message(_("Signing transaction ...\r\n\r\n" \ "To continue, touch the Digital Bitbox's blinking light for 3 seconds.\r\n\r\n" \ "To cancel, briefly touch the blinking light or wait for the timeout.")) reply = dbb_client.hid_send_encrypt( msg ) # Send twice, first returns an echo for smart verification (not implemented) self.handler.clear_dialog() if 'error' in reply: raise Exception(reply['error']['message']) if 'sign' not in reply: raise Exception("Could not sign transaction.") dbb_signatures.extend(reply['sign']) # Fill signatures if len(dbb_signatures) <> len(tx.inputs()): raise Exception("Incorrect number of transactions signed." ) # Should never occur for i, txin in enumerate(tx.inputs()): num = txin['num_sig'] for pubkey in txin['pubkeys']: signatures = filter(None, txin['signatures']) if len(signatures) == num: break # txin is complete ii = txin['pubkeys'].index(pubkey) signed = dbb_signatures[i] if 'recid' in signed: # firmware > v2.1.1 recid = int(signed['recid'], 16) s = signed['sig'].decode('hex') h = inputhasharray[i] pk = MyVerifyingKey.from_signature(s, recid, h, curve=SECP256k1) pk = point_to_ser(pk.pubkey.point, True).encode('hex') elif 'pubkey' in signed: # firmware <= v2.1.1 pk = signed['pubkey'] if pk != pubkey: continue sig_r = int(signed['sig'][:64], 16) sig_s = int(signed['sig'][64:], 16) sig = sigencode_der(sig_r, sig_s, generator_secp256k1.order()) txin['signatures'][ii] = sig.encode('hex') + '01' tx._inputs[i] = txin except BaseException as e: self.give_error(e, True) else: print_error("Transaction is_complete", tx.is_complete()) tx.raw = tx.serialize()
def sign_done(proposal, tx): print_error('proposal tx sign done: %s' % proposal.proposal_name) if tx: label = _('Budget Proposal Tx: ') + proposal.proposal_name self.parent.broadcast_transaction(tx, label) self.parent.masternode_manager.save()