#!/usr/bin/env python3 # # mmgen = Multi-Mode GENerator, command-line Bitcoin cold storage solution # Copyright (C)2013-2021 The MMGen Project # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ tx.py: Transaction routines for the MMGen suite """ import sys,os,json from stat import * from .common import * from .obj import * wmsg = lambda k: { 'addr_in_addrfile_only': """ Warning: output address {} is not in the tracking wallet, which means its balance will not be tracked. You're strongly advised to import the address into your tracking wallet before broadcasting this transaction. """.strip(), 'addr_not_found': """ No data for {pnm} address {{}} could be found in either the tracking wallet or the supplied address file. Please import this address into your tracking wallet, or supply an address file for it on the command line. """.strip().format(pnm=g.proj_name), 'addr_not_found_no_addrfile': """ No data for {pnm} address {{}} could be found in the tracking wallet. Please import this address into your tracking wallet or supply an address file for it on the command line. """.strip().format(pnm=g.proj_name), }[k] def strfmt_locktime(num,terse=False): # Locktime itself is an unsigned 4-byte integer which can be parsed two ways: # # If less than 500 million, locktime is parsed as a block height. The transaction can be # added to any block which has this height or higher. # MMGen note: s/this height or higher/a higher block height/ # # If greater than or equal to 500 million, locktime is parsed using the Unix epoch time # format (the number of seconds elapsed since 1970-01-01T00:00 UTC). The transaction can be # added to any block whose block time is greater than the locktime. if num == None: return '(None)' elif num >= 5 * 10**6: return ' '.join(time.strftime('%c',time.gmtime(num)).split()[1:]) elif num > 0: return '{}{}'.format(('block height ','')[terse],num) else: die(2,f'{num!r}: invalid nLockTime value!') def mmaddr2coinaddr(mmaddr,ad_w,ad_f,proto): # assume mmaddr has already been checked coin_addr = ad_w.mmaddr2coinaddr(mmaddr) if not coin_addr: if ad_f: coin_addr = ad_f.mmaddr2coinaddr(mmaddr) if coin_addr: msg(wmsg('addr_in_addrfile_only').format(mmaddr)) if not (opt.yes or keypress_confirm('Continue anyway?')): sys.exit(1) else: die(2,wmsg('addr_not_found').format(mmaddr)) else: die(2,wmsg('addr_not_found_no_addrfile').format(mmaddr)) return CoinAddr(proto,coin_addr) def addr2pubhash(proto,addr): ap = proto.parse_addr(addr) assert ap,f'coin address {addr!r} could not be parsed' return ap.bytes.hex() def addr2scriptPubKey(proto,addr): return { 'p2pkh': '76a914' + addr2pubhash(proto,addr) + '88ac', 'p2sh': 'a914' + addr2pubhash(proto,addr) + '87', 'bech32': proto.witness_vernum_hex + '14' + addr2pubhash(proto,addr) }[addr.addr_fmt] def scriptPubKey2addr(proto,s): if len(s) == 50 and s[:6] == '76a914' and s[-4:] == '88ac': return proto.pubhash2addr(s[6:-4],p2sh=False),'p2pkh' elif len(s) == 46 and s[:4] == 'a914' and s[-2:] == '87': return proto.pubhash2addr(s[4:-2],p2sh=True),'p2sh' elif len(s) == 44 and s[:4] == proto.witness_vernum_hex + '14': return proto.pubhash2bech32addr(s[4:]),'bech32' else: raise NotImplementedError(f'Unknown scriptPubKey ({s})') class DeserializedTX(dict,MMGenObject): """ Parse a serialized Bitcoin transaction For checking purposes, additionally reconstructs the raw (unsigned) tx hex from signed tx hex """ def __init__(self,proto,txhex): def bytes2int(bytes_le): if bytes_le[-1] & 0x80: # sign bit is set die(3,"{}: Negative values not permitted in transaction!".format(bytes_le[::-1].hex())) return int(bytes_le[::-1].hex(),16) def bytes2coin_amt(bytes_le): return proto.coin_amt(bytes2int(bytes_le) * proto.coin_amt.satoshi) def bshift(n,skip=False,sub_null=False): ret = tx[self.idx:self.idx+n] self.idx += n if sub_null: self.raw_tx += b'\x00' elif not skip: self.raw_tx += ret return ret # https://bitcoin.org/en/developer-reference#compactsize-unsigned-integers # For example, the number 515 is encoded as 0xfd0302. def readVInt(skip=False): s = tx[self.idx] self.idx += 1 if not skip: self.raw_tx.append(s) vbytes_len = 1 if s < 0xfd else 2 if s == 0xfd else 4 if s == 0xfe else 8 if vbytes_len == 1: return s else: vbytes = tx[self.idx:self.idx+vbytes_len] self.idx += vbytes_len if not skip: self.raw_tx += vbytes return int(vbytes[::-1].hex(),16) def make_txid(tx_bytes): return sha256(sha256(tx_bytes).digest()).digest()[::-1].hex() self.idx = 0 self.raw_tx = bytearray() tx = bytes.fromhex(txhex) d = { 'version': bytes2int(bshift(4)) } has_witness = tx[self.idx] == 0 if has_witness: u = bshift(2,skip=True).hex() if u != '0001': raise IllegalWitnessFlagValue(f'{u!r}: Illegal value for flag in transaction!') d['num_txins'] = readVInt() d['txins'] = MMGenList([{ 'txid': bshift(32)[::-1].hex(), 'vout': bytes2int(bshift(4)), 'scriptSig': bshift(readVInt(skip=True),sub_null=True).hex(), 'nSeq': bshift(4)[::-1].hex() } for i in range(d['num_txins'])]) d['num_txouts'] = readVInt() d['txouts'] = MMGenList([{ 'amount': bytes2coin_amt(bshift(8)), 'scriptPubKey': bshift(readVInt()).hex() } for i in range(d['num_txouts'])]) for o in d['txouts']: o['address'] = scriptPubKey2addr(proto,o['scriptPubKey'])[0] if has_witness: # https://github.com/bitcoin/bips/blob/master/bip-0141.mediawiki # A non-witness program (defined hereinafter) txin MUST be associated with an empty # witness field, represented by a 0x00. d['txid'] = make_txid(tx[:4] + tx[6:self.idx] + tx[-4:]) d['witness_size'] = len(tx) - self.idx + 2 - 4 # add len(marker+flag), subtract len(locktime) for txin in d['txins']: if tx[self.idx] == 0: bshift(1,skip=True) continue txin['witness'] = [ bshift(readVInt(skip=True),skip=True).hex() for item in range(readVInt(skip=True)) ] else: d['txid'] = make_txid(tx) d['witness_size'] = 0 if len(tx) - self.idx != 4: raise TxHexParseError('TX hex has invalid length: {} extra bytes'.format(len(tx)-self.idx-4)) d['lock_time'] = bytes2int(bshift(4)) d['unsigned_hex'] = self.raw_tx.hex() dict.__init__(self,d) class MMGenTxIO(MMGenListItem): vout = ListItemAttr(int,typeconv=False) amt = ImmutableAttr(None) label = ListItemAttr('TwComment',reassign_ok=True) mmid = ListItemAttr('MMGenID',include_proto=True) addr = ImmutableAttr('CoinAddr',include_proto=True) confs = ListItemAttr(int) # confs of type long exist in the wild, so convert txid = ListItemAttr('CoinTxID') have_wif = ListItemAttr(bool,typeconv=False,delete_ok=True) invalid_attrs = {'proto','tw_copy_attrs'} def __init__(self,proto,**kwargs): self.__dict__['proto'] = proto MMGenListItem.__init__(self,**kwargs) class conv_funcs: def amt(self,value): return self.proto.coin_amt(value) class MMGenTxInput(MMGenTxIO): scriptPubKey = ListItemAttr('HexStr') sequence = ListItemAttr(int,typeconv=False) tw_copy_attrs = { 'scriptPubKey','vout','amt','label','mmid','addr','confs','txid' } class MMGenTxOutput(MMGenTxIO): is_chg = ListItemAttr(bool,typeconv=False) class MMGenTxIOList(MMGenObject): def __init__(self,parent,data=None): self.parent = parent if data: assert isinstance(data,list), 'MMGenTxIOList_check1' self.data = data else: self.data = list() def __getitem__(self,val): return self.data.__getitem__(val) def __setitem__(self,key,val): return self.data.__setitem__(key,val) def __delitem__(self,val): return self.data.__delitem__(val) def __contains__(self,val): return self.data.__contains__(val) def __iter__(self): return self.data.__iter__() def __len__(self): return self.data.__len__() def __add__(self,val): return self.data.__add__(val) def __eq__(self,val): return self.data.__eq__(val) def append(self,val): return self.data.append(val) def sort(self,*args,**kwargs): return self.data.sort(*args,**kwargs) class MMGenTxInputList(MMGenTxIOList): desc = 'transaction inputs' member_type = 'MMGenTxInput' # def convert_coin(self,verbose=False): # if verbose: # msg(f'{self.desc}:') # for i in self: # i.amt = self.parent.proto.coin_amt(i.amt) # Lexicographical Indexing of Transaction Inputs and Outputs # https://github.com/bitcoin/bips/blob/master/bip-0069.mediawiki def sort_bip69(self): def sort_func(a): return ( bytes.fromhex(a.txid) + int.to_bytes(a.vout,4,'big') ) self.sort(key=sort_func) class MMGenTxOutputList(MMGenTxIOList): desc = 'transaction outputs' member_type = 'MMGenTxOutput' def sort_bip69(self): def sort_func(a): return ( int.to_bytes(a.amt.to_unit('satoshi'),8,'big') + bytes.fromhex(addr2scriptPubKey(self.parent.proto,a.addr)) ) self.sort(key=sort_func) class MMGenTX: class Base(MMGenObject): desc = 'transaction' hex = '' # raw serialized hex transaction label = MMGenTxLabel('') txid = '' coin_txid = '' timestamp = '' blockcount = 0 coin = None dcoin = None locktime = None chain = None rel_fee_desc = 'satoshis per byte' rel_fee_disp = 'sat/byte' non_mmgen_inputs_msg = f""" This transaction includes inputs with non-{g.proj_name} addresses. When signing the transaction, private keys for the addresses must be supplied using the --keys-from-file option. The key file must contain one key per line. Please note that this transaction cannot be autosigned, as autosigning does not support the use of key files. Non-{g.proj_name} addresses found in inputs: {{}} """ def __new__(cls,*args,**kwargs): """ determine correct protocol and pass the proto to altcoin_subclass(), which returns the transaction object """ assert args == (), f'MMGenTX.Base_chk1: only keyword args allowed in {cls.__name__} initializer' if 'proto' in kwargs: return MMGenObject.__new__(altcoin_subclass(cls,kwargs['proto'],'tx')) elif 'data' in kwargs: return MMGenObject.__new__(altcoin_subclass(cls,kwargs['data']['proto'],'tx')) elif 'filename' in kwargs: from .txfile import MMGenTxFile tmp_tx = MMGenObject.__new__(cls) MMGenTxFile(tmp_tx).parse( infile = kwargs['filename'], quiet_open = kwargs.get('quiet_open'), metadata_only = True ) me = MMGenObject.__new__(altcoin_subclass(cls,tmp_tx.proto,'tx')) me.proto = tmp_tx.proto return me elif cls.__name__ == 'Base' and args == () and kwargs == {}: # allow instantiation of empty Base() return cls else: raise ValueError( f"MMGenTX.Base: {cls.__name__} must be instantiated with 'proto','data' or 'filename' keyword") def __init__(self): self.inputs = MMGenTxInputList(self) self.outputs = MMGenTxOutputList(self) self.name = type(self).__name__ @property def coin(self): return self.proto.coin @property def dcoin(self): return self.proto.dcoin def check_correct_chain(self): if hasattr(self,'rpc'): if self.chain != self.rpc.chain: raise TransactionChainMismatch( f'Transaction is for {self.chain}, but coin daemon chain is {self.rpc.chain}!') def sum_inputs(self): return sum(e.amt for e in self.inputs) def sum_outputs(self,exclude=None): if exclude == None: olist = self.outputs else: olist = self.outputs[:exclude] + self.outputs[exclude+1:] if not olist: return self.proto.coin_amt('0') return self.proto.coin_amt(sum(e.amt for e in olist)) def get_chg_output_idx(self): ch_ops = [x.is_chg for x in self.outputs] try: return ch_ops.index(True) except ValueError: return None def has_segwit_inputs(self): return any(i.mmid and i.mmid.mmtype in ('S','B') for i in self.inputs) def has_segwit_outputs(self): return any(o.mmid and o.mmid.mmtype in ('S','B') for o in self.outputs) # https://bitcoin.stackexchange.com/questions/1195/how-to-calculate-transaction-size-before-sending # 180: uncompressed, 148: compressed def estimate_size_old(self): if not self.inputs or not self.outputs: return None return len(self.inputs)*180 + len(self.outputs)*34 + 10 # https://bitcoincore.org/en/segwit_wallet_dev/ # vsize: 3 times of the size with original serialization, plus the size with new # serialization, divide the result by 4 and round up to the next integer. # TODO: results differ slightly from actual transaction size def estimate_size(self): if not self.inputs or not self.outputs: return None sig_size = 72 # sig in DER format pubkey_size_uncompressed = 65 pubkey_size_compressed = 33 def get_inputs_size(): # txid vout [scriptSig size (vInt)] scriptSig ( ) nSeq isize_common = 32 + 4 + 1 + 4 # txid vout [scriptSig size] nSeq = 41 input_size = { 'L': isize_common + sig_size + pubkey_size_uncompressed, # = 180 'C': isize_common + sig_size + pubkey_size_compressed, # = 148 'S': isize_common + 23, # = 64 'B': isize_common + 0 # = 41 } ret = sum(input_size[i.mmid.mmtype] for i in self.inputs if i.mmid) # We have no way of knowing whether a non-MMGen addr is compressed or uncompressed until # we see the key, so assume compressed for fee-estimation purposes. If fee estimate is # off by more than 5%, sign() aborts and user is instructed to use --vsize-adj option return ret + sum(input_size['C'] for i in self.inputs if not i.mmid) def get_outputs_size(): # output bytes = amt: 8, byte_count: 1+, pk_script # pk_script bytes: p2pkh: 25, p2sh: 23, bech32: 22 return sum({'p2pkh':34,'p2sh':32,'bech32':31}[o.addr.addr_fmt] for o in self.outputs) # https://github.com/bitcoin/bips/blob/master/bip-0141.mediawiki # The witness is a serialization of all witness data of the transaction. Each txin is # associated with a witness field. A witness field starts with a var_int to indicate the # number of stack items for the txin. It is followed by stack items, with each item starts # with a var_int to indicate the length. Witness data is NOT script. # A non-witness program txin MUST be associated with an empty witness field, represented # by a 0x00. If all txins are not witness program, a transaction's wtxid is equal to its txid. def get_witness_size(): if not self.has_segwit_inputs(): return 0 wf_size = 1 + 1 + sig_size + 1 + pubkey_size_compressed # vInt vInt sig vInt pubkey = 108 return sum((1,wf_size)[bool(i.mmid) and i.mmid.mmtype in ('S','B')] for i in self.inputs) isize = get_inputs_size() osize = get_outputs_size() wsize = get_witness_size() # TODO: compute real varInt sizes instead of assuming 1 byte # old serialization: [nVersion] [vInt][txins][vInt][txouts] [nLockTime] old_size = 4 + 1 + isize + 1 + osize + 4 # marker = 0x00, flag = 0x01 # new serialization: [nVersion][marker][flag][vInt][txins][vInt][txouts][witness][nLockTime] new_size = 4 + 1 + 1 + 1 + isize + 1 + osize + wsize + 4 \ if wsize else old_size ret = (old_size * 3 + new_size) // 4 dmsg('\nData from estimate_size():') dmsg(f' inputs size: {isize}, outputs size: {osize}, witness size: {wsize}') dmsg(f' size: {new_size}, vsize: {ret}, old_size: {old_size}') return int(ret * float(opt.vsize_adj)) if hasattr(opt,'vsize_adj') and opt.vsize_adj else ret # convert absolute BTC fee to satoshis-per-byte using estimated size def fee_abs2rel(self,abs_fee,to_unit=None): unit = getattr(self.proto.coin_amt,to_unit or 'satoshi') return int(abs_fee / unit / self.estimate_size()) def get_hex_locktime(self): return int(bytes.fromhex(self.hex[-8:])[::-1].hex(),16) def set_hex_locktime(self,val): assert isinstance(val,int),'locktime value not an integer' self.hex = self.hex[:-8] + bytes.fromhex('{:08x}'.format(val))[::-1].hex() def add_timestamp(self): self.timestamp = make_timestamp() def add_blockcount(self): self.blockcount = self.rpc.blockcount # returns true if comment added or changed def add_comment(self,infile=None): if infile: self.label = MMGenTxLabel(get_data_from_file(infile,'transaction comment')) else: # get comment from user, or edit existing comment m = ('Add a comment to transaction?','Edit transaction comment?')[bool(self.label)] if keypress_confirm(m,default_yes=False): while True: s = MMGenTxLabel(my_raw_input('Comment: ',insert_txt=self.label)) if s: lbl_save = self.label self.label = s return (True,False)[lbl_save == self.label] else: msg('Invalid comment') return False def get_non_mmaddrs(self,desc): return {i.addr for i in getattr(self,desc) if not i.mmid} def check_non_mmgen_inputs(self,caller,non_mmaddrs=None): non_mmaddrs = non_mmaddrs or self.get_non_mmaddrs('inputs') if non_mmaddrs: fs = fmt(self.non_mmgen_inputs_msg,strip_char='\t') m = fs.format('\n '.join(non_mmaddrs)) if caller in ('txdo','txsign'): if not opt.keys_from_file: raise UserOptError('ERROR: ' + m) else: msg('WARNING: ' + m) if not (opt.yes or keypress_confirm('Continue?',default_yes=True)): die(1,'Exiting at user request') class New(Base): usr_fee_prompt = 'Enter transaction fee: ' fee_is_approximate = False fee_fail_fs = 'Network fee estimation for {c} confirmations failed ({t})' no_chg_msg = 'Warning: Change address will be deleted as transaction produces no change' msg_wallet_low_coin = 'Wallet has insufficient funds for this transaction ({} {} needed)' msg_low_coin = 'Selected outputs insufficient to fund this transaction ({} {} needed)' msg_no_change_output = fmt(""" ERROR: No change address specified. If you wish to create a transaction with only one output, specify a single output address with no {} amount """).strip() def __init__(self,proto,tw=None): # tw required for resolving ERC20 token data MMGenTX.Base.__init__(self) self.proto = proto self.tw = tw def del_output(self,idx): self.outputs.pop(idx) def update_output_amt(self,idx,amt): o = self.outputs[idx]._asdict() o['amt'] = amt self.outputs[idx] = MMGenTxOutput(self.proto,**o) def add_mmaddrs_to_outputs(self,ad_w,ad_f): a = [e.addr for e in self.outputs] d = ad_w.make_reverse_dict(a) if ad_f: d.update(ad_f.make_reverse_dict(a)) for e in self.outputs: if e.addr and e.addr in d: e.mmid,f = d[e.addr] if f: e.label = f def check_dup_addrs(self,io_str): assert io_str in ('inputs','outputs') addrs = [e.addr for e in getattr(self,io_str)] if len(addrs) != len(set(addrs)): die(2,f'{addrs}: duplicate address in transaction {io_str}') # coin-specific fee routines @property def relay_fee(self): kb_fee = self.proto.coin_amt(self.rpc.cached['networkinfo']['relayfee']) ret = kb_fee * self.estimate_size() / 1024 vmsg('Relay fee: {} {c}/kB, for transaction: {} {c}'.format(kb_fee,ret,c=self.coin)) return ret async def get_rel_fee_from_network(self): try: ret = await self.rpc.call('estimatesmartfee',opt.tx_confs,opt.fee_estimate_mode.upper()) fee_per_kb = ret['feerate'] if 'feerate' in ret else -2 fe_type = 'estimatesmartfee' except: args = () if self.coin=='BCH' and self.rpc.daemon_version >= 190100 else (opt.tx_confs,) fee_per_kb = await self.rpc.call('estimatefee',*args) fe_type = 'estimatefee' return fee_per_kb,fe_type # given tx size, rel fee and units, return absolute fee def fee_rel2abs(self,tx_size,units,amt,unit): if tx_size: return self.proto.coin_amt(amt * tx_size * getattr(self.proto.coin_amt,units[unit])) else: return None # given network fee estimate in BTC/kB, return absolute fee using estimated tx size def fee_est2abs(self,fee_per_kb,fe_type=None): tx_size = self.estimate_size() f = fee_per_kb * opt.tx_fee_adj * tx_size / 1024 ret = self.proto.coin_amt(f,from_decimal=True) if opt.verbose: msg(fmt(f""" {fe_type.upper()} fee for {opt.tx_confs} confirmations: {fee_per_kb} {self.coin}/kB TX size (estimated): {tx_size} bytes Fee adjustment factor: {opt.tx_fee_adj} Absolute fee (fee_per_kb * adj_factor * tx_size / 1024): {ret} {self.coin} """).strip()) return ret def convert_and_check_fee(self,tx_fee,desc='Missing description'): abs_fee = self.feespec2abs(tx_fee,self.estimate_size()) if abs_fee == None: raise ValueError(f'{tx_fee}: cannot convert {self.rel_fee_desc} to {self.coin}' + ' because transaction size is unknown') if abs_fee == False: err = f'{tx_fee!r}: invalid TX fee (not a {self.coin} amount or {self.rel_fee_desc} specification)' elif abs_fee > self.proto.max_tx_fee: err = f'{abs_fee} {self.coin}: {desc} fee too large (maximum fee: {self.proto.max_tx_fee} {self.coin})' elif abs_fee < self.relay_fee: err = f'{abs_fee} {self.coin}: {desc} fee too small (less than relay fee of {self.relay_fee} {self.coin})' else: return abs_fee msg(err) return False # non-coin-specific fee routines # given tx size and absolute fee or fee spec, return absolute fee # relative fee is N+ def feespec2abs(self,tx_fee,tx_size): fee = get_obj(self.proto.coin_amt,num=tx_fee,silent=True) if fee: return fee else: import re units = {u[0]:u for u in self.proto.coin_amt.units} pat = re.compile(r'([1-9][0-9]*)({})'.format('|'.join(units))) if pat.match(tx_fee): amt,unit = pat.match(tx_fee).groups() return self.fee_rel2abs(tx_size,units,int(amt),unit) return False def get_usr_fee_interactive(self,tx_fee=None,desc='Starting'): abs_fee = None while True: if tx_fee: abs_fee = self.convert_and_check_fee(tx_fee,desc) if abs_fee: prompt = '{} TX fee{}: {}{} {} ({} {})\n'.format( desc, (f' (after {opt.tx_fee_adj}X adjustment)' if opt.tx_fee_adj != 1 and desc.startswith('Network-estimated') else ''), ('','≈')[self.fee_is_approximate], abs_fee.hl(), self.coin, pink(str(self.fee_abs2rel(abs_fee))), self.rel_fee_disp) if opt.yes or keypress_confirm(prompt+'OK?',default_yes=True): if opt.yes: msg(prompt) return abs_fee tx_fee = my_raw_input(self.usr_fee_prompt) desc = 'User-selected' async def get_fee_from_user(self,have_estimate_fail=[]): if opt.tx_fee: desc = 'User-selected' start_fee = opt.tx_fee else: desc = 'Network-estimated ({}, {} conf{})'.format( opt.fee_estimate_mode.upper(), pink(str(opt.tx_confs)), suf(opt.tx_confs) ) fee_per_kb,fe_type = await self.get_rel_fee_from_network() if fee_per_kb < 0: if not have_estimate_fail: msg(self.fee_fail_fs.format(c=opt.tx_confs,t=fe_type)) have_estimate_fail.append(True) start_fee = None else: start_fee = self.fee_est2abs(fee_per_kb,fe_type) return self.get_usr_fee_interactive(start_fee,desc=desc) def add_output(self,coinaddr,amt,is_chg=None): self.outputs.append(MMGenTxOutput(self.proto,addr=coinaddr,amt=amt,is_chg=is_chg)) def process_cmd_arg(self,arg,ad_f,ad_w): def add_output_chk(addr,amt,err_desc): if not amt and self.get_chg_output_idx() != None: die(2,'ERROR: More than one change address listed on command line') if is_mmgen_id(self.proto,addr) or is_coin_addr(self.proto,addr): coin_addr = ( mmaddr2coinaddr(addr,ad_w,ad_f,self.proto) if is_mmgen_id(self.proto,addr) else CoinAddr(self.proto,addr) ) self.add_output(coin_addr,self.proto.coin_amt(amt or '0'),is_chg=not amt) else: die(2,f'{addr}: invalid {err_desc} {{!r}}'.format(f'{addr},{amt}' if amt else addr)) if ',' in arg: addr,amt = arg.split(',',1) add_output_chk(addr,amt,'coin argument in command-line argument') else: add_output_chk(arg,None,'command-line argument') async def get_cmdline_input_addrs(self): # Bitcoin full node, call doesn't go to the network, so just call listunspent with addrs=[] return [] def process_cmd_args(self,cmd_args,ad_f,ad_w): for a in cmd_args: self.process_cmd_arg(a,ad_f,ad_w) if self.get_chg_output_idx() == None: die(2,( 'ERROR: No change output specified', self.msg_no_change_output.format(self.dcoin))[len(self.outputs) == 1]) if self.has_segwit_outputs() and not self.rpc.info('segwit_is_active'): rdie(2,f'{g.proj_name} Segwit address requested on the command line, ' + 'but Segwit is not active on this chain') if not self.outputs: die(2,'At least one output must be specified on the command line') async def get_outputs_from_cmdline(self,cmd_args): from .addr import AddrList,AddrData,TwAddrData addrfiles = [a for a in cmd_args if get_extension(a) == AddrList.ext] cmd_args = set(cmd_args) - set(addrfiles) ad_f = AddrData(self.proto) for a in addrfiles: check_infile(a) ad_f.add(AddrList(self.proto,a)) ad_w = await TwAddrData(self.proto,wallet=self.tw) self.process_cmd_args(cmd_args,ad_f,ad_w) self.add_mmaddrs_to_outputs(ad_w,ad_f) self.check_dup_addrs('outputs') # inputs methods def select_unspent(self,unspent): prompt = 'Enter a range or space-separated list of outputs to spend: ' while True: reply = my_raw_input(prompt).strip() if reply: selected = get_obj(AddrIdxList, fmt_str=','.join(reply.split()) ) if selected: if selected[-1] <= len(unspent): return selected msg(f'Unspent output number must be <= {len(unspent)}') def select_unspent_cmdline(self,unspent): def idx2num(idx): uo = unspent[idx] mmid_disp = f' ({uo.twmmid})' if uo.twmmid.type == 'mmgen' else '' msg(f'Adding input: {idx + 1} {uo.addr}{mmid_disp}') return idx + 1 def get_uo_nums(): for addr in opt.inputs.split(','): if is_mmgen_id(self.proto,addr): attr = 'twmmid' elif is_coin_addr(self.proto,addr): attr = 'addr' else: die(1,f'{addr!r}: not an MMGen ID or {self.coin} address') found = False for idx in range(len(unspent)): if getattr(unspent[idx],attr) == addr: yield idx2num(idx) found = True if not found: die(1,f'{addr!r}: address not found in tracking wallet') return set(get_uo_nums()) # silently discard duplicates # we don't know fee yet, so perform preliminary check with fee == 0 async def precheck_sufficient_funds(self,inputs_sum,sel_unspent,outputs_sum): if self.twuo.total < outputs_sum: msg(self.msg_wallet_low_coin.format(outputs_sum-inputs_sum,self.dcoin)) return False if inputs_sum < outputs_sum: msg(self.msg_low_coin.format(outputs_sum-inputs_sum,self.dcoin)) return False return True def copy_inputs_from_tw(self,tw_unspent_data): def gen_inputs(): for d in tw_unspent_data: i = MMGenTxInput( self.proto, **{attr:getattr(d,attr) for attr in d.__dict__ if attr in MMGenTxInput.tw_copy_attrs} ) if d.twmmid.type == 'mmgen': i.mmid = d.twmmid # twmmid -> mmid yield i self.inputs = MMGenTxInputList(self,list(gen_inputs())) async def get_funds_left(self,fee,outputs_sum): return self.sum_inputs() - outputs_sum - fee def final_inputs_ok_msg(self,funds_left): return 'Transaction produces {} {} in change'.format( self.proto.coin_amt(funds_left).hl(), self.coin ) def warn_insufficient_funds(self,funds_left): msg(self.msg_low_coin.format(self.proto.coin_amt(-funds_left).hl(),self.coin)) async def get_inputs_from_user(self,outputs_sum): while True: us_f = self.select_unspent_cmdline if opt.inputs else self.select_unspent sel_nums = us_f(self.twuo.unspent) msg(f'Selected output{suf(sel_nums)}: {{}}'.format(' '.join(str(n) for n in sel_nums))) sel_unspent = self.twuo.MMGenTwOutputList([self.twuo.unspent[i-1] for i in sel_nums]) inputs_sum = sum(s.amt for s in sel_unspent) if not await self.precheck_sufficient_funds(inputs_sum,sel_unspent,outputs_sum): continue self.copy_inputs_from_tw(sel_unspent) # makes self.inputs self.usr_fee = await self.get_fee_from_user() funds_left = await self.get_funds_left(self.usr_fee,outputs_sum) if funds_left >= 0: p = self.final_inputs_ok_msg(funds_left) if opt.yes or keypress_confirm(p+'. OK?',default_yes=True): if opt.yes: msg(p) return funds_left else: self.warn_insufficient_funds(funds_left) def update_change_output(self,funds_left): chg_idx = self.get_chg_output_idx() if funds_left == 0: msg(self.no_chg_msg) self.del_output(chg_idx) else: self.update_output_amt(chg_idx,self.proto.coin_amt(funds_left)) def check_fee(self): fee = self.sum_inputs() - self.sum_outputs() if fee > self.proto.max_tx_fee: c = self.proto.coin raise MaxFeeExceeded(f'Transaction fee of {fee} {c} too high! (> {self.proto.max_tx_fee} {c})') def update_txid(self): self.txid = MMGenTxID(make_chksum_6(bytes.fromhex(self.hex)).upper()) async def create_raw(self): i = [{'txid':e.txid,'vout':e.vout} for e in self.inputs] if self.inputs[0].sequence: i[0]['sequence'] = self.inputs[0].sequence o = {e.addr:e.amt for e in self.outputs} self.hex = HexStr(await self.rpc.call('createrawtransaction',i,o)) self.update_txid() async def create(self,cmd_args,locktime,do_info=False,caller='txcreate'): assert isinstance(locktime,int),'locktime must be of type int' from .tw import TwUnspentOutputs if opt.comment_file: self.add_comment(opt.comment_file) twuo_addrs = await self.get_cmdline_input_addrs() self.twuo = await TwUnspentOutputs(self.proto,minconf=opt.minconf,addrs=twuo_addrs) await self.twuo.get_unspent_data() if not do_info: await self.get_outputs_from_cmdline(cmd_args) do_license_msg() if not opt.inputs: await self.twuo.view_and_sort(self) self.twuo.display_total() if do_info: del self.twuo.wallet sys.exit(0) outputs_sum = self.sum_outputs() msg('Total amount to spend: {}'.format( f'{outputs_sum.hl()} {self.dcoin}' if outputs_sum else 'Unknown' )) funds_left = await self.get_inputs_from_user(outputs_sum) self.check_non_mmgen_inputs(caller) self.update_change_output(funds_left) if self.proto.base_proto == 'Bitcoin': self.inputs.sort_bip69() self.outputs.sort_bip69() # do this only after inputs are sorted if opt.rbf: self.inputs[0].sequence = g.max_int - 2 # handles the nLockTime case too elif locktime: self.inputs[0].sequence = g.max_int - 1 if not opt.yes: self.add_comment() # edits an existing comment await self.create_raw() # creates self.hex, self.txid if self.proto.base_proto == 'Bitcoin' and locktime: msg(f'Setting nLockTime to {strfmt_locktime(locktime)}!') self.set_hex_locktime(locktime) self.update_txid() self.locktime = locktime self.add_timestamp() self.add_blockcount() self.chain = self.proto.chain_name self.check_fee() qmsg('Transaction successfully created') new = MMGenTX.Unsigned(data=self.__dict__) if not opt.yes: new.view_with_prompt('View transaction details?') del new.twuo.wallet return new class Completed(Base): """ signed or unsigned transaction with associated file """ fn_fee_unit = 'satoshi' view_sort_orders = ('addr','raw') dfl_view_sort_order = 'addr' txview_hdr_fs = 'TRANSACTION DATA\n\nID={i} ({a} {c}) UTC={t} RBF={r} Sig={s} Locktime={l}\n' txview_hdr_fs_short = 'TX {i} ({a} {c}) UTC={t} RBF={r} Sig={s} Locktime={l}\n' txview_ftr_fs = fmt(""" Input amount: {i} {d} Spend amount: {s} {d} Change: {C} {d} Fee: {a} {c}{r} """) parsed_hex = None def __init__(self,filename=None,quiet_open=False,data=None): MMGenTX.Base.__init__(self) if data: assert filename is None, 'MMGenTX.Completed_chk1' assert type(data) is dict, 'MMGenTX.Completed_chk2' self.__dict__ = data return elif filename: assert data is None, 'MMGenTX.Completed_chk3' from .txfile import MMGenTxFile MMGenTxFile(self).parse(filename,quiet_open=quiet_open) self.check_pubkey_scripts() # repeat with sign and send, because coin daemon could be restarted self.check_correct_chain() # check signature and witness data def check_sigs(self): # return False if no sigs, raise exception on error txins = (self.parsed_hex or DeserializedTX(self.proto,self.hex))['txins'] has_ss = any(ti['scriptSig'] for ti in txins) has_witness = any('witness' in ti and ti['witness'] for ti in txins) if not (has_ss or has_witness): return False fs = "Hex TX has {} scriptSig but input is of type '{}'!" for n in range(len(txins)): ti,mmti = txins[n],self.inputs[n] if ti['scriptSig'] == '' or ( len(ti['scriptSig']) == 46 and # native P2WPKH or P2SH-P2WPKH ti['scriptSig'][:6] == '16' + self.proto.witness_vernum_hex + '14' ): assert 'witness' in ti, 'missing witness' assert type(ti['witness']) == list and len(ti['witness']) == 2, 'malformed witness' assert len(ti['witness'][1]) == 66, 'incorrect witness pubkey length' assert mmti.mmid, fs.format('witness-type','non-MMGen') assert mmti.mmid.mmtype == ('S','B')[ti['scriptSig']==''],( fs.format('witness-type',mmti.mmid.mmtype)) else: # non-witness if mmti.mmid: assert mmti.mmid.mmtype not in ('S','B'), fs.format('signature in',mmti.mmid.mmtype) assert not 'witness' in ti, 'non-witness input has witness' # sig_size 72 (DER format), pubkey_size 'compressed':33, 'uncompressed':65 assert (200 < len(ti['scriptSig']) < 300), 'malformed scriptSig' # VERY rough check return True def check_pubkey_scripts(self): for n,i in enumerate(self.inputs,1): addr,fmt = scriptPubKey2addr(self.proto,i.scriptPubKey) if i.addr != addr: if fmt != i.addr.addr_fmt: m = 'Address format of scriptPubKey ({}) does not match that of address ({}) in input #{}' msg(m.format(fmt,i.addr.addr_fmt,n)) m = 'ERROR: Address and scriptPubKey of transaction input #{} do not match!' die(3,(m+'\n {:23}{}'*3).format(n, 'address:',i.addr, 'scriptPubKey:',i.scriptPubKey, 'scriptPubKey->address:',addr )) # def is_replaceable_from_rpc(self): # dec_tx = await self.rpc.call('decoderawtransaction',self.hex) # return None < dec_tx['vin'][0]['sequence'] <= g.max_int - 2 def is_replaceable(self): return self.inputs[0].sequence == g.max_int - 2 def check_txfile_hex_data(self): self.hex = HexStr(self.hex) def parse_txfile_hex_data(self): pass def write_to_file(self,*args,**kwargs): from .txfile import MMGenTxFile MMGenTxFile(self).write(*args,**kwargs) def format_view_body(self,blockcount,nonmm_str,max_mmwid,enl,terse,sort): if sort not in self.view_sort_orders: die(1,'{!r}: invalid transaction view sort order. Valid options: {}'.format( sort, ','.join(self.view_sort_orders) )) def format_io(desc): io = getattr(self,desc) is_input = desc == 'inputs' yield desc.capitalize() + ':\n' + enl confs_per_day = 60*60*24 // self.proto.avg_bdi io_sorted = { # prepend '/' (sorts before '0') to ensure non-MMGen addrs are displayed first 'addr': lambda: sorted(io,key=lambda o: o.mmid.sort_key if o.mmid else '/'+o.addr), 'raw': lambda: io }[sort] for n,e in enumerate(io_sorted()): if is_input and blockcount: confs = e.confs + blockcount - self.blockcount days = int(confs // confs_per_day) if e.mmid: mmid_fmt = e.mmid.fmt( width=max_mmwid, encl='()', color=True, append_chars=('',' (chg)')[bool(not is_input and e.is_chg and terse)], append_color='green') else: mmid_fmt = MMGenID.fmtc(nonmm_str,width=max_mmwid,color=True) if terse: yield '{:3} {} {} {} {}\n'.format( n+1, e.addr.fmt(color=True,width=addr_w), mmid_fmt, e.amt.hl(), self.dcoin ) else: def gen(): if is_input: yield (n+1, 'tx,vout:', f'{e.txid.hl()},{red(str(e.vout))}') yield ('', 'address:', f'{e.addr.hl()} {mmid_fmt}') else: yield (n+1, 'address:', f'{e.addr.hl()} {mmid_fmt}') if e.label: yield ('', 'comment:', e.label.hl()) yield ('', 'amount:', f'{e.amt.hl()} {self.dcoin}') if is_input and blockcount: yield ('', 'confirmations:', f'{confs} (around {days} days)') if not is_input and e.is_chg: yield ('', 'change:', green('True')) yield '\n'.join('{:>3} {:<8} {}'.format(*d) for d in gen()) + '\n\n' addr_w = max(len(e.addr) for f in (self.inputs,self.outputs) for e in f) return ( 'Displaying inputs and outputs in {} sort order'.format({'raw':'raw','addr':'address'}[sort]) + ('\n\n','\n')[terse] + ''.join(format_io('inputs')) + ''.join(format_io('outputs')) ) @property def send_amt(self): return self.sum_outputs( exclude = None if len(self.outputs) == 1 else self.get_chg_output_idx() ) @property def fee(self): return self.sum_inputs() - self.sum_outputs() @property def change(self): return self.sum_outputs() - self.send_amt def format_view_rel_fee(self,terse): return ' ({} {}, {} of spend amount)'.format( pink(str(self.fee_abs2rel(self.fee))), self.rel_fee_disp, pink('{:0.6f}%'.format( self.fee / self.send_amt * 100 )) ) def format_view_abs_fee(self): return self.proto.coin_amt(self.fee).hl() def format_view_verbose_footer(self): tsize = len(self.hex)//2 if self.hex else 'unknown' out = f'Transaction size: Vsize {self.estimate_size()} (estimated), Total {tsize}' if self.name == 'Signed': wsize = DeserializedTX(self.proto,self.hex)['witness_size'] out += f', Base {tsize-wsize}, Witness {wsize}' return out + '\n' def format_view(self,terse=False,sort=dfl_view_sort_order): blockcount = None if self.proto.base_coin != 'ETH': try: blockcount = self.rpc.blockcount except: pass def get_max_mmwid(io): if io == self.inputs: sel_f = lambda o: len(o.mmid) + 2 # len('()') else: sel_f = lambda o: len(o.mmid) + (2,8)[bool(o.is_chg)] # + len(' (chg)') return max(max([sel_f(o) for o in io if o.mmid] or [0]),len(nonmm_str)) nonmm_str = f'(non-{g.proj_name} address)' max_mmwid = max(get_max_mmwid(self.inputs),get_max_mmwid(self.outputs)) def gen_view(): yield (self.txview_hdr_fs_short if terse else self.txview_hdr_fs).format( i = self.txid.hl(), a = self.send_amt.hl(), c = self.dcoin, t = self.timestamp, r = (red('False'),green('True'))[self.is_replaceable()], s = (red('False'),green('True'))[self.name == 'Signed'], l = (green('None'),orange(strfmt_locktime(self.locktime,terse=True)))[bool(self.locktime)] ) if self.chain != 'mainnet': # if mainnet has a coin-specific name, display it yield green(f'Chain: {self.chain.upper()}') + '\n' if self.coin_txid: yield f'{self.coin} TxID: {self.coin_txid.hl()}\n' enl = ('\n','')[bool(terse)] yield enl if self.label: yield f'Comment: {self.label.hl()}\n{enl}' yield self.format_view_body(blockcount,nonmm_str,max_mmwid,enl,terse=terse,sort=sort) yield self.txview_ftr_fs.format( i = self.sum_inputs().hl(), o = self.sum_outputs().hl(), C = self.change.hl(), s = self.send_amt.hl(), a = self.format_view_abs_fee(), r = self.format_view_rel_fee(terse), d = self.dcoin, c = self.coin ) if opt.verbose: yield self.format_view_verbose_footer() return ''.join(gen_view()) # TX label might contain non-ascii chars def view_with_prompt(self,prompt='',pause=True): prompt += ' (y)es, (N)o, pager (v)iew, (t)erse view: ' from .term import get_char ok_chars = 'YyNnVvTt' while True: reply = get_char(prompt,immed_chars=ok_chars).strip('\n\r') msg('') if reply == '' or reply in 'Nn': break elif reply in 'YyVvTt': self.view(pager=reply in 'Vv',terse=reply in 'Tt',pause=pause) break else: msg('Invalid reply') def view(self,pager=False,pause=True,terse=False): o = self.format_view(terse=terse) if pager: do_pager(o) else: msg_r(o) from .term import get_char if pause: get_char('Press any key to continue: ') msg('') class Unsigned(Completed): desc = 'unsigned transaction' ext = 'rawtx' def __init__(self,*args,**kwargs): super().__init__(*args,**kwargs) if self.check_sigs(): die(1,'Transaction is signed!') def delete_attrs(self,desc,attr): for e in getattr(self,desc): if hasattr(e,attr): delattr(e,attr) def get_input_sids(self): return set(e.mmid.sid for e in self.inputs if e.mmid) def get_output_sids(self): return set(e.mmid.sid for e in self.outputs if e.mmid) async def sign(self,tx_num_str,keys): # return signed object or False; don't exit or raise exception try: self.check_correct_chain() except TransactionChainMismatch: return False if (self.has_segwit_inputs() or self.has_segwit_outputs()) and not self.proto.cap('segwit'): ymsg(f"TX has Segwit inputs or outputs, but {self.coin} doesn't support Segwit!") return False self.check_pubkey_scripts() qmsg(f'Passing {len(keys)} key{suf(keys)} to {self.rpc.daemon.exec_fn}') if self.has_segwit_inputs(): from .addr import KeyGenerator,AddrGenerator kg = KeyGenerator(self.proto,'std') ag = AddrGenerator(self.proto,'segwit') keydict = MMGenDict([(d.addr,d.sec) for d in keys]) sig_data = [] for d in self.inputs: e = {k:getattr(d,k) for k in ('txid','vout','scriptPubKey','amt')} e['amount'] = e['amt'] del e['amt'] if d.mmid and d.mmid.mmtype == 'S': e['redeemScript'] = ag.to_segwit_redeem_script(kg.to_pubhex(keydict[d.addr])) sig_data.append(e) msg_r(f'Signing transaction{tx_num_str}...') wifs = [d.sec.wif for d in keys] try: args = ( ('signrawtransaction', self.hex,sig_data,wifs,self.proto.sighash_type), ('signrawtransactionwithkey',self.hex,wifs,sig_data,self.proto.sighash_type) )['sign_with_key' in self.rpc.caps] ret = await self.rpc.call(*args) except Exception as e: msg(yellow(( e.args[0], 'This is not the BCH chain.\nRe-run the script without the --coin=bch option.' )['Invalid sighash param' in e.args[0]])) return False try: self.hex = HexStr(ret['hex']) self.parsed_hex = dtx = DeserializedTX(self.proto,self.hex) new = MMGenTX.Signed(data=self.__dict__) tx_decoded = await self.rpc.call('decoderawtransaction',ret['hex']) new.compare_size_and_estimated_size(tx_decoded) new.check_hex_tx_matches_mmgen_tx(dtx) new.coin_txid = CoinTxID(dtx['txid']) if not new.coin_txid == tx_decoded['txid']: raise BadMMGenTxID('txid mismatch (after signing)') msg('OK') return new except Exception as e: try: m = '{}'.format(e.args[0]) except: m = repr(e.args[0]) msg('\n'+yellow(m)) if g.traceback: import traceback ymsg('\n'+''.join(traceback.format_exception(*sys.exc_info()))) return False class Signed(Completed): desc = 'signed transaction' ext = 'sigtx' def __init__(self,*args,**kwargs): if 'tw' in kwargs: self.tw = kwargs['tw'] del kwargs['tw'] super().__init__(*args,**kwargs) if not self.check_sigs(): die(1,'Transaction is not signed!') # check that a malicious, compromised or malfunctioning coin daemon hasn't altered hex tx data: # does not check witness or signature data def check_hex_tx_matches_mmgen_tx(self,dtx): m = 'A malicious or malfunctioning coin daemon or other program may have altered your data!' lt = dtx['lock_time'] if lt != int(self.locktime or 0): m2 = 'Transaction hex nLockTime ({}) does not match MMGen transaction nLockTime ({})\n{}' raise TxHexMismatch(m2.format(lt,self.locktime,m)) def check_equal(desc,hexio,mmio): if mmio != hexio: msg('\nMMGen {}:\n{}'.format(desc,pp_fmt(mmio))) msg('Hex {}:\n{}'.format(desc,pp_fmt(hexio))) m2 = '{} in hex transaction data from coin daemon do not match those in MMGen transaction!\n' raise TxHexMismatch((m2+m).format(desc.capitalize())) seq_hex = [int(i['nSeq'],16) for i in dtx['txins']] seq_mmgen = [i.sequence or g.max_int for i in self.inputs] check_equal('sequence numbers',seq_hex,seq_mmgen) d_hex = sorted((i['txid'],i['vout']) for i in dtx['txins']) d_mmgen = sorted((i.txid,i.vout) for i in self.inputs) check_equal('inputs',d_hex,d_mmgen) d_hex = sorted((o['address'],self.proto.coin_amt(o['amount'])) for o in dtx['txouts']) d_mmgen = sorted((o.addr,o.amt) for o in self.outputs) check_equal('outputs',d_hex,d_mmgen) uh = dtx['unsigned_hex'] if str(self.txid) != make_chksum_6(bytes.fromhex(uh)).upper(): raise TxHexMismatch(f'MMGen TxID ({self.txid}) does not match hex transaction data!\n{m}') def compare_size_and_estimated_size(self,tx_decoded): est_vsize = self.estimate_size() d = tx_decoded vsize = d['vsize'] if 'vsize' in d else d['size'] vmsg(f'\nVsize: {vsize} (true) {est_vsize} (estimated)') ratio = float(est_vsize) / vsize if not (0.95 < ratio < 1.05): # allow for 5% error raise BadTxSizeEstimate(fmt(f""" Estimated transaction vsize is {ratio:1.2f} times the true vsize Your transaction fee estimates will be inaccurate Please re-create and re-sign the transaction using the option --vsize-adj={1/ratio:1.2f} """).strip()) async def get_status(self,status=False): class r(object): pass async def is_in_wallet(): try: ret = await self.rpc.call('gettransaction',self.coin_txid) except: return False if ret.get('confirmations',0) > 0: r.confs = ret['confirmations'] return True else: return False async def is_in_utxos(): try: return 'txid' in await self.rpc.call('getrawtransaction',self.coin_txid,True) except: return False async def is_in_mempool(): try: return 'height' in await self.rpc.call('getmempoolentry',self.coin_txid) except: return False async def is_replaced(): if await is_in_mempool(): return False try: ret = await self.rpc.call('gettransaction',self.coin_txid) except: return False else: if 'bip125-replaceable' in ret and ret.get('confirmations',1) <= 0: r.replacing_confs = -ret['confirmations'] r.replacing_txs = ret['walletconflicts'] return True else: return False if await is_in_mempool(): if status: d = await self.rpc.call('gettransaction',self.coin_txid) rep = ('' if d.get('bip125-replaceable') == 'yes' else 'NOT ') + 'replaceable' t = d['timereceived'] if opt.quiet: msg('Transaction is in mempool') else: msg(f'TX status: in mempool, {rep}') msg('Sent {} ({} ago)'.format( time.strftime('%c',time.gmtime(t)), secs_to_dhms(int(time.time()-t))) ) else: msg('Warning: transaction is in mempool!') elif await is_in_wallet(): die(0,f'Transaction has {r.confs} confirmation{suf(r.confs)}') elif await is_in_utxos(): die(2,red('ERROR: transaction is in the blockchain (but not in the tracking wallet)!')) elif await is_replaced(): msg('Transaction has been replaced') msg('Replacement transaction ' + ( f'has {r.replacing_confs} confirmation{suf(r.replacing_confs)}' if r.replacing_confs else 'is in mempool' ) ) if not opt.quiet: msg('Replacing transactions:') d = [] for txid in r.replacing_txs: try: d.append(await self.rpc.call('getmempoolentry',txid)) except: d.append({}) for txid,mp_entry in zip(r.replacing_txs,d): msg(f' {txid}' + (' in mempool' if 'height' in mp_entry else '') ) die(0,'') def confirm_send(self): confirm_or_raise( ('' if opt.quiet else "Once this transaction is sent, there's no taking it back!"), f'broadcast this transaction to the {self.proto.coin} {self.proto.network.upper()} network', ('YES' if opt.quiet or opt.yes else 'YES, I REALLY WANT TO DO THIS') ) msg('Sending transaction') async def send(self,prompt_user=True,exit_on_fail=False): self.check_correct_chain() self.check_pubkey_scripts() self.check_hex_tx_matches_mmgen_tx(DeserializedTX(self.proto,self.hex)) if not g.bogus_send: if self.has_segwit_outputs() and not self.rpc.info('segwit_is_active'): die(2,'Transaction has Segwit outputs, but this blockchain does not support Segwit' + ' at the current height') if self.fee > self.proto.max_tx_fee: die(2,'Transaction fee ({}) greater than {} max_tx_fee ({} {})!'.format( self.fee, self.proto.name, self.proto.max_tx_fee, self.proto.coin )) await self.get_status() if prompt_user: self.confirm_send() if g.bogus_send: ret = None else: try: ret = await self.rpc.call('sendrawtransaction',self.hex) except Exception as e: errmsg = e ret = False if ret == False: # TODO: test send errors if 'Signature must use SIGHASH_FORKID' in errmsg: m = ('The Aug. 1 2017 UAHF has activated on this chain.\n' + 'Re-run the script with the --coin=bch option.' ) elif 'Illegal use of SIGHASH_FORKID' in errmsg: m = ('The Aug. 1 2017 UAHF is not yet active on this chain.\n' + 'Re-run the script without the --coin=bch option.' ) elif '64: non-final' in errmsg: m = "Transaction with nLockTime {!r} can't be included in this block!".format( strfmt_locktime(self.get_hex_locktime()) ) else: m = errmsg ymsg(m) rmsg(f'Send of MMGen transaction {self.txid} failed') if exit_on_fail: sys.exit(1) return False else: if g.bogus_send: m = 'BOGUS transaction NOT sent: {}' else: m = 'Transaction sent: {}' assert ret == self.coin_txid, 'txid mismatch (after sending)' msg(m.format(self.coin_txid.hl())) self.add_timestamp() self.add_blockcount() self.desc = 'sent transaction' return True def print_contract_addr(self): pass @staticmethod async def get_tracking_wallet(filename): from .txfile import MMGenTxFile tmp_tx = MMGenTX.Base() MMGenTxFile(tmp_tx).parse(filename,metadata_only=True) if tmp_tx.proto.tokensym: from .tw import TrackingWallet return await TrackingWallet(tmp_tx.proto) else: return None class Bump(Completed,New): desc = 'fee-bumped transaction' ext = 'rawtx' min_fee = None bump_output_idx = None def __init__(self,data,send,tw=None): MMGenTX.Completed.__init__(self,data=data) self.tw = tw if not self.is_replaceable(): die(1,f'Transaction {self.txid} is not replaceable') # If sending, require original tx to be sent if send and not self.coin_txid: die(1,'Transaction {self.txid!r} was not broadcast to the network') self.coin_txid = '' def check_sufficient_funds_for_bump(self): if not [o.amt for o in self.outputs if o.amt >= self.min_fee]: die(1, 'Transaction cannot be bumped.\n' + f'All outputs contain less than the minimum fee ({self.min_fee} {self.coin})') def choose_output(self): chg_idx = self.get_chg_output_idx() init_reply = opt.output_to_reduce def check_sufficient_funds(o_amt): if o_amt < self.min_fee: msg(f'Minimum fee ({self.min_fee} {self.coin}) is greater than output amount ({o_amt} {self.coin})') return False return True if len(self.outputs) == 1: if check_sufficient_funds(self.outputs[0].amt): self.bump_output_idx = 0 return 0 else: die(1,'Insufficient funds to bump transaction') while True: if init_reply == None: m = 'Choose an output to deduct the fee from (Hit ENTER for the change output): ' reply = my_raw_input(m) or 'c' else: reply,init_reply = init_reply,None if chg_idx == None and not is_int(reply): msg('Output must be an integer') elif chg_idx != None and not is_int(reply) and reply != 'c': msg("Output must be an integer, or 'c' for the change output") else: idx = chg_idx if reply == 'c' else (int(reply) - 1) if idx < 0 or idx >= len(self.outputs): msg(f'Output must be in the range 1-{len(self.outputs)}') else: o_amt = self.outputs[idx].amt cm = ' (change output)' if chg_idx == idx else '' prompt = f'Fee will be deducted from output {idx+1}{cm} ({o_amt} {self.coin})' if check_sufficient_funds(o_amt): if opt.yes or keypress_confirm(prompt+'. OK?',default_yes=True): if opt.yes: msg(prompt) self.bump_output_idx = idx return idx @property def min_fee(self): return self.sum_inputs() - self.sum_outputs() + self.relay_fee def bump_fee(self,idx,fee): self.update_output_amt( idx, self.sum_inputs() - self.sum_outputs(exclude=idx) - fee ) def convert_and_check_fee(self,tx_fee,desc): ret = super().convert_and_check_fee(tx_fee,desc) if ret < self.min_fee: msg('{} {c}: {} fee too small. Minimum fee: {} {c} ({} {})'.format( ret.hl(), desc, self.min_fee, self.fee_abs2rel(self.min_fee.hl()), self.rel_fee_desc, c = self.coin )) return False output_amt = self.outputs[self.bump_output_idx].amt if ret >= output_amt: msg('{} {c}: {} fee too large. Maximum fee: <{} {c}'.format( ret.hl(), desc, output_amt.hl(), c = self.coin )) return False return ret # NOT MAINTAINED # class Split(Base): # # async def get_outputs_from_cmdline(self,mmid): # TODO: check that addr is empty # # from .addr import TwAddrData # ad_w = await TwAddrData() # # if is_mmgen_id(self.proto,mmid): # coin_addr = mmaddr2coinaddr(mmid,ad_w,None) if is_mmgen_id(self.proto,mmid) else CoinAddr(mmid) # self.add_output(coin_addr,self.proto.coin_amt('0'),is_chg=True) # else: # die(2,'{}: invalid command-line argument'.format(mmid)) # # self.add_mmaddrs_to_outputs(ad_w,None) # # if not segwit_is_active() and self.has_segwit_outputs(): # fs = '{} Segwit address requested on the command line, but Segwit is not active on this chain' # rdie(2,fs.format(g.proj_name)) # # def get_split_fee_from_user(self): # if opt.rpc_host2: # g.rpc_host = opt.rpc_host2 # if opt.tx_fees: # opt.tx_fee = opt.tx_fees.split(',')[1] # return super().get_fee_from_user() # # async def create_split(self,mmid): # # self.outputs = self.MMGenTxOutputList(self) # await self.get_outputs_from_cmdline(mmid) # # while True: # funds_left = self.sum_inputs() - self.get_split_fee_from_user() # if funds_left >= 0: # p = 'Transaction produces {} {} in change'.format(funds_left.hl(),self.coin) # if opt.yes or keypress_confirm(p+'. OK?',default_yes=True): # if opt.yes: # msg(p) # break # else: # self.warn_insufficient_funds(funds_left) # # self.update_output_amt(0,funds_left) # # if not opt.yes: # self.add_comment() # edits an existing comment # # await self.create_raw() # creates self.hex, self.txid # # self.add_timestamp() # self.add_blockcount() # TODO # self.chain = g.chain # # assert self.sum_inputs() - self.sum_outputs() <= self.proto.max_tx_fee # # qmsg('Transaction successfully created') # # if not opt.yes: # self.view_with_prompt('View transaction details?')