def receive_payjoin_main(): parser = OptionParser(usage='usage: %prog [options] [wallet file] [amount-to-receive]') add_base_options(parser) parser.add_option('-P', '--hs-port', action='store', type='int', dest='hsport', default=80, help='port on which to serve the ephemeral hidden service.') parser.add_option('-g', '--gap-limit', action='store', type="int", dest='gaplimit', default=6, help='gap limit for wallet, default=6') parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', default=0, help="mixdepth to source coins from") parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) (options, args) = parser.parse_args() if len(args) < 2: parser.error('Needs a wallet, and a receiving amount in bitcoins or satoshis') sys.exit(EXIT_ARGERROR) wallet_name = args[0] try: # amount is stored internally in sats, but will be decimal in URL. bip78_amount = amount_to_sat(args[1]) except: parser.error("Invalid receiving amount passed: " + bip78_amount) sys.exit(EXIT_FAILURE) if bip78_amount < 0: parser.error("Receiving amount must be a positive number") sys.exit(EXIT_FAILURE) load_program_config(config_path=options.datadir) check_regtest() wallet_path = get_wallet_path(wallet_name, None) max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) while not wallet_service.synced: wallet_service.sync_wallet(fast=not options.recoversync) wallet_service.startService() # having enforced wallet sync, we can check if we have coins # to do payjoin in the mixdepth if wallet_service.get_balance_by_mixdepth()[options.mixdepth] == 0: jlog.error("Cannot do payjoin from mixdepth " + str( options.mixdepth) + ", no coins. Shutting down.") sys.exit(EXIT_ARGERROR) receiver_manager = JMBIP78ReceiverManager(wallet_service, options.mixdepth, bip78_amount, options.hsport) receiver_manager.start_pj_server_and_tor() reactor.run()
def make_wallets(n, wallet_structures=None, mean_amt=1, sdev_amt=0, start_index=0, fixed_seeds=None, test_wallet=False, passwords=None, walletclass=SegwitWallet, mixdepths=5): '''n: number of wallets to be created wallet_structure: array of n arrays , each subarray specifying the number of addresses to be populated with coins at each depth (for now, this will only populate coins into 'receive' addresses) mean_amt: the number of coins (in btc units) in each address as above sdev_amt: if randomness in amouts is desired, specify here. Returns: a dict of dicts of form {0:{'seed':seed,'wallet':Wallet object},1:..,} Default Wallet constructor is joinmarket.Wallet, else use TestWallet, which takes a password parameter as in the list passwords. ''' # FIXME: this is basically the same code as jmclient/test/commontest.py if len(wallet_structures) != n: raise Exception("Number of wallets doesn't match wallet structures") if not fixed_seeds: seeds = chunks( binascii.hexlify(os.urandom(BIP32Wallet.ENTROPY_BYTES * n)), BIP32Wallet.ENTROPY_BYTES * 2) else: seeds = fixed_seeds wallets = {} for i in range(n): assert len(seeds[i]) == BIP32Wallet.ENTROPY_BYTES * 2 # FIXME: pwd is ignored (but do we really need this anyway?) if test_wallet and passwords and i < len(passwords): pwd = passwords[i] else: pwd = None w = open_test_wallet_maybe(seeds[i], seeds[i], mixdepths - 1, test_wallet_cls=walletclass) wallet_service = WalletService(w) wallets[i + start_index] = { 'seed': seeds[i].decode('ascii'), 'wallet': wallet_service } for j in range(mixdepths): for k in range(wallet_structures[i][j]): deviation = sdev_amt * random.random() amt = mean_amt - sdev_amt / 2.0 + deviation if amt < 0: amt = 0.001 amt = float(Decimal(amt).quantize(Decimal(10)**-8)) jm_single().bc_interface.grab_coins( wallet_service.get_new_addr( j, BaseWallet.ADDRESS_TYPE_INTERNAL), amt) return wallets
def make_wallets(n, wallet_structures=None, mean_amt=1, sdev_amt=0, start_index=0, fixed_seeds=None, wallet_cls=SegwitLegacyWallet, mixdepths=5, populate_internal=False): '''n: number of wallets to be created wallet_structure: array of n arrays , each subarray specifying the number of addresses to be populated with coins at each depth (for now, this will only populate coins into 'receive' addresses) mean_amt: the number of coins (in btc units) in each address as above sdev_amt: if randomness in amouts is desired, specify here. Returns: a dict of dicts of form {0:{'seed':seed,'wallet':Wallet object},1:..,} ''' # FIXME: this is basically the same code as test/common.py assert mixdepths > 0 if len(wallet_structures) != n: raise Exception("Number of wallets doesn't match wallet structures") if not fixed_seeds: seeds = chunks( binascii.hexlify(os.urandom(BIP32Wallet.ENTROPY_BYTES * n)).decode('ascii'), BIP32Wallet.ENTROPY_BYTES * 2) else: seeds = fixed_seeds wallets = {} for i in range(n): assert len(seeds[i]) == BIP32Wallet.ENTROPY_BYTES * 2 w = open_test_wallet_maybe(seeds[i], seeds[i], mixdepths - 1, test_wallet_cls=wallet_cls) wallets[i + start_index] = {'seed': seeds[i], 'wallet': w} for j in range(mixdepths): for k in range(wallet_structures[i][j]): deviation = sdev_amt * random.random() amt = mean_amt - sdev_amt / 2.0 + deviation if amt < 0: amt = 0.001 amt = float(Decimal(amt).quantize(Decimal(10)**-8)) jm_single().bc_interface.grab_coins( w.get_new_addr(j, populate_internal), amt) return wallets
def test_create_wallet(setup_wallet, password, wallet_cls): wallet_name = test_create_wallet_filename password = password.encode("utf-8") # test mainnet (we are not transacting) btc.select_chain_params("bitcoin") wallet = create_wallet(wallet_name, password, 4, wallet_cls) mnemonic = wallet.get_mnemonic_words()[0] firstkey = wallet.get_key_from_addr(wallet.get_addr(0,0,0)) print("Created mnemonic, firstkey: ", mnemonic, firstkey) wallet.close() # ensure that the wallet file created is openable with the password, # and has the parameters that were claimed on creation: new_wallet = open_test_wallet_maybe(wallet_name, "", 4, password=password, ask_for_password=False) assert new_wallet.get_mnemonic_words()[0] == mnemonic assert new_wallet.get_key_from_addr( new_wallet.get_addr(0,0,0)) == firstkey os.remove(wallet_name) btc.select_chain_params("bitcoin/regtest")
def main(): parser = get_sendpayment_parser() (options, args) = parser.parse_args() load_program_config(config_path=options.datadir) if options.schedule == '': if ((len(args) < 2) or (btc.is_bip21_uri(args[1]) and len(args) != 2) or (not btc.is_bip21_uri(args[1]) and len(args) != 3)): parser.error( "Joinmarket sendpayment (coinjoin) needs arguments:" " wallet, amount, destination address or wallet, bitcoin_uri.") sys.exit(EXIT_ARGERROR) #without schedule file option, use the arguments to create a schedule #of a single transaction sweeping = False bip78url = None if options.schedule == '': if btc.is_bip21_uri(args[1]): parsed = btc.decode_bip21_uri(args[1]) try: amount = parsed['amount'] except KeyError: parser.error("Given BIP21 URI does not contain amount.") sys.exit(EXIT_ARGERROR) destaddr = parsed['address'] if "pj" in parsed: # note that this is a URL; its validity # checking is deferred to twisted.web.client.Agent bip78url = parsed["pj"] # setting makercount only for fee sanity check. # note we ignore any user setting and enforce N=0, # as this is a flag in the code for a non-JM coinjoin; # for the fee sanity check, note that BIP78 currently # will only allow small fee changes, so N=0 won't # be very inaccurate. jmprint("Attempting to pay via payjoin.", "info") options.makercount = 0 else: amount = btc.amount_to_sat(args[1]) if amount == 0: sweeping = True destaddr = args[2] mixdepth = options.mixdepth addr_valid, errormsg = validate_address(destaddr) command_to_burn = (is_burn_destination(destaddr) and sweeping and options.makercount == 0) if not addr_valid and not command_to_burn: jmprint('ERROR: Address invalid. ' + errormsg, "error") if is_burn_destination(destaddr): jmprint( "The required options for burning coins are zero makers" + " (-N 0), sweeping (amount = 0) and not using BIP78 Payjoin", "info") sys.exit(EXIT_ARGERROR) if sweeping == False and amount < DUST_THRESHOLD: jmprint( 'ERROR: Amount ' + btc.amount_to_str(amount) + ' is below dust threshold ' + btc.amount_to_str(DUST_THRESHOLD) + '.', "error") sys.exit(EXIT_ARGERROR) if (options.makercount != 0 and options.makercount < jm_single().config.getint( "POLICY", "minimum_makers")): jmprint( 'ERROR: Maker count ' + str(options.makercount) + ' below minimum_makers (' + str(jm_single().config.getint("POLICY", "minimum_makers")) + ') in joinmarket.cfg.', "error") sys.exit(EXIT_ARGERROR) schedule = [[ options.mixdepth, amount, options.makercount, destaddr, 0.0, NO_ROUNDING, 0 ]] else: if len(args) > 1: parser.error("Schedule files are not compatible with " "payment destination/amount arguments.") sys.exit(EXIT_ARGERROR) result, schedule = get_schedule(options.schedule) if not result: log.error( "Failed to load schedule file, quitting. Check the syntax.") log.error("Error was: " + str(schedule)) sys.exit(EXIT_FAILURE) mixdepth = 0 for s in schedule: if s[1] == 0: sweeping = True #only used for checking the maximum mixdepth required mixdepth = max([mixdepth, s[0]]) wallet_name = args[0] check_regtest() if options.pickorders: chooseOrdersFunc = pick_order if sweeping: jmprint('WARNING: You may have to pick offers multiple times', "warning") jmprint('WARNING: due to manual offer picking while sweeping', "warning") else: chooseOrdersFunc = options.order_choose_fn # If tx_fees are set manually by CLI argument, override joinmarket.cfg: if int(options.txfee) > 0: jm_single().config.set("POLICY", "tx_fees", str(options.txfee)) maxcjfee = (1, float('inf')) if not options.pickorders and options.makercount != 0: maxcjfee = get_max_cj_fee_values(jm_single().config, options) log.info("Using maximum coinjoin fee limits per maker of {:.4%}, {} " "".format(maxcjfee[0], btc.amount_to_str(maxcjfee[1]))) log.info('starting sendpayment') max_mix_depth = max([mixdepth, options.amtmixdepths - 1]) wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) if wallet_service.rpc_error: sys.exit(EXIT_FAILURE) # in this script, we need the wallet synced before # logic processing for some paths, so do it now: while not wallet_service.synced: wallet_service.sync_wallet(fast=not options.recoversync) # the sync call here will now be a no-op: wallet_service.startService() # Dynamically estimate a realistic fee, for coinjoins. # At this point we do not know even the number of our own inputs, so # we guess conservatively with 2 inputs and 2 outputs each. if options.makercount != 0: fee_per_cp_guess = estimate_tx_fee(2, 2, txtype=wallet_service.get_txtype()) log.debug("Estimated miner/tx fee for each cj participant: " + btc.amount_to_str(fee_per_cp_guess)) # From the estimated tx fees, check if the expected amount is a # significant value compared the the cj amount; currently enabled # only for single join (the predominant, non-advanced case) if options.schedule == '' and options.makercount != 0: total_cj_amount = amount if total_cj_amount == 0: total_cj_amount = wallet_service.get_balance_by_mixdepth()[ options.mixdepth] if total_cj_amount == 0: raise ValueError( "No confirmed coins in the selected mixdepth. Quitting") exp_tx_fees_ratio = ( (1 + options.makercount) * fee_per_cp_guess) / total_cj_amount if exp_tx_fees_ratio > 0.05: jmprint( 'WARNING: Expected bitcoin network miner fees for this coinjoin' ' amount are roughly {:.1%}'.format(exp_tx_fees_ratio), "warning") if input('You might want to modify your tx_fee' ' settings in joinmarket.cfg. Still continue? (y/n):' )[0] != 'y': sys.exit('Aborted by user.') else: log.info( "Estimated miner/tx fees for this coinjoin amount: {:.1%}". format(exp_tx_fees_ratio)) if options.makercount == 0 and not bip78url: tx = direct_send(wallet_service, amount, mixdepth, destaddr, options.answeryes, with_final_psbt=options.with_psbt) if options.with_psbt: log.info( "This PSBT is fully signed and can be sent externally for " "broadcasting:") log.info(tx.to_base64()) return if wallet.get_txtype() == 'p2pkh': jmprint( "Only direct sends (use -N 0) are supported for " "legacy (non-segwit) wallets.", "error") sys.exit(EXIT_ARGERROR) def filter_orders_callback(orders_fees, cjamount): orders, total_cj_fee = orders_fees log.info("Chose these orders: " + pprint.pformat(orders)) log.info('total cj fee = ' + str(total_cj_fee)) total_fee_pc = 1.0 * total_cj_fee / cjamount log.info('total coinjoin fee = ' + str(float('%.3g' % (100.0 * total_fee_pc))) + '%') WARNING_THRESHOLD = 0.02 # 2% if total_fee_pc > WARNING_THRESHOLD: log.info('\n'.join(['=' * 60] * 3)) log.info('WARNING ' * 6) log.info('\n'.join(['=' * 60] * 1)) log.info( 'OFFERED COINJOIN FEE IS UNUSUALLY HIGH. DOUBLE/TRIPLE CHECK.') log.info('\n'.join(['=' * 60] * 1)) log.info('WARNING ' * 6) log.info('\n'.join(['=' * 60] * 3)) if not options.answeryes: if input('send with these orders? (y/n):')[0] != 'y': return False return True def taker_finished(res, fromtx=False, waittime=0.0, txdetails=None): if fromtx == "unconfirmed": #If final entry, stop *here*, don't wait for confirmation if taker.schedule_index + 1 == len(taker.schedule): reactor.stop() return if fromtx: if res: txd, txid = txdetails reactor.callLater(waittime * 60, clientfactory.getClient().clientStart) else: #a transaction failed; we'll try to repeat without the #troublemakers. #If this error condition is reached from Phase 1 processing, #and there are less than minimum_makers honest responses, we #just give up (note that in tumbler we tweak and retry, but #for sendpayment the user is "online" and so can manually #try again). #However if the error is in Phase 2 and we have minimum_makers #or more responses, we do try to restart with the honest set, here. if taker.latest_tx is None: #can only happen with < minimum_makers; see above. log.info("A transaction failed but there are insufficient " "honest respondants to continue; giving up.") reactor.stop() return #This is Phase 2; do we have enough to try again? taker.add_honest_makers( list( set(taker.maker_utxo_data.keys()).symmetric_difference( set(taker.nonrespondants)))) if len(taker.honest_makers) < jm_single().config.getint( "POLICY", "minimum_makers"): log.info("Too few makers responded honestly; " "giving up this attempt.") reactor.stop() return jmprint("We failed to complete the transaction. The following " "makers responded honestly: " + str(taker.honest_makers) +\ ", so we will retry with them.", "warning") #Now we have to set the specific group we want to use, and hopefully #they will respond again as they showed honesty last time. #we must reset the number of counterparties, as well as fix who they #are; this is because the number is used to e.g. calculate fees. #cleanest way is to reset the number in the schedule before restart. taker.schedule[taker.schedule_index][2] = len( taker.honest_makers) log.info("Retrying with: " + str(taker.schedule[taker.schedule_index][2]) + " counterparties.") #rewind to try again (index is incremented in Taker.initialize()) taker.schedule_index -= 1 taker.set_honest_only(True) reactor.callLater(5.0, clientfactory.getClient().clientStart) else: if not res: log.info("Did not complete successfully, shutting down") #Should usually be unreachable, unless conf received out of order; #because we should stop on 'unconfirmed' for last (see above) else: log.info("All transactions completed correctly") reactor.stop() if bip78url: # TODO sanity check wallet type is segwit manager = parse_payjoin_setup(args[1], wallet_service, options.mixdepth) reactor.callWhenRunning(send_payjoin, manager) reactor.run() return else: taker = Taker(wallet_service, schedule, order_chooser=chooseOrdersFunc, max_cj_fee=maxcjfee, callbacks=(filter_orders_callback, None, taker_finished)) clientfactory = JMClientProtocolFactory(taker) nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False if jm_single().config.get("BLOCKCHAIN", "network") == "regtest": startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon)
def main(): parser = OptionParser(usage='usage: %prog [options] walletname', description=description) add_base_options(parser) parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', help='mixdepth/account, default 0', default=0) parser.add_option('-g', '--gap-limit', action='store', type='int', dest='gaplimit', default=6, help='gap limit for Joinmarket wallet, default 6.') parser.add_option( '-f', '--txfee', action='store', type='int', dest='txfee', default=-1, help='Bitcoin miner tx_fee to use for transaction(s). A number higher ' 'than 1000 is used as "satoshi per KB" tx fee. A number lower than that ' 'uses the dynamic fee estimation of your blockchain provider as ' 'confirmation target. This temporarily overrides the "tx_fees" setting ' 'in your joinmarket.cfg. Works the same way as described in it. Check ' 'it for examples.') parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) parser.add_option( '-N', '--net-transfer', action='store', type='int', dest='net_transfer', help='how many sats are sent to the "receiver", default randomised.', default=-1000001) (options, args) = parser.parse_args() snicker_plugin = JMPluginService("SNICKER") load_program_config(config_path=options.datadir, plugin_services=[snicker_plugin]) if len(args) != 1: log.error("Invalid arguments, see --help") sys.exit(EXIT_ARGERROR) wallet_name = args[0] check_regtest() # If tx_fees are set manually by CLI argument, override joinmarket.cfg: if int(options.txfee) > 0: jm_single().config.set("POLICY", "tx_fees", str(options.txfee)) max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) if wallet_service.rpc_error: sys.exit(EXIT_FAILURE) snicker_plugin.start_plugin_logging(wallet_service) # in this script, we need the wallet synced before # logic processing for some paths, so do it now: while not wallet_service.synced: wallet_service.sync_wallet(fast=not options.recoversync) # the sync call here will now be a no-op: wallet_service.startService() fee_est = estimate_tx_fee(2, 3, txtype=wallet_service.get_txtype()) # first, order the utxos in the mixepth by size. Then (this is the # simplest algorithm; we could be more sophisticated), choose the # *second* largest utxo as the receiver utxo; this ensures that we # have enough for the proposer to cover. We consume utxos greedily, # meaning we'll at least some of the time, be consolidating. utxo_dict = wallet_service.get_utxos_by_mixdepth()[options.mixdepth] if not len(utxo_dict) >= 2: log.error( "Cannot create fake SNICKER tx without at least two utxos, quitting" ) sys.exit(EXIT_ARGERROR) # sort utxos by size sorted_utxos = sorted(list(utxo_dict.keys()), key=lambda k: utxo_dict[k]['value'], reverse=True) # receiver is the second largest: receiver_utxo = sorted_utxos[1] receiver_utxo_val = utxo_dict[receiver_utxo] # gather the other utxos into a list to select from: nonreceiver_utxos = [sorted_utxos[0]] + sorted_utxos[2:] # get the net transfer in our fake coinjoin: if options.net_transfer < -1000001: log.error("Net transfer must be greater than negative 1M sats") sys.exit(EXIT_ARGERROR) if options.net_transfer == -1000001: # default; low-ish is more realistic and avoids problems # with dusty utxos options.net_transfer = random.randint(-1000, 1000) # select enough to cover: receiver value + fee + transfer + breathing room # we select relatively greedily to support consolidation, since # this transaction does not pretend to isolate the coins. try: available = [{ 'utxo': utxo, 'value': utxo_dict[utxo]["value"] } for utxo in nonreceiver_utxos] # selection algos return [{"utxo":..,"value":..}]: prop_utxos = { x["utxo"] for x in select_greedy( available, receiver_utxo_val["value"] + fee_est + options.net_transfer + 1000) } prop_utxos = list(prop_utxos) prop_utxo_vals = [utxo_dict[prop_utxo] for prop_utxo in prop_utxos] except NotEnoughFundsException as e: log.error(repr(e)) sys.exit(EXIT_FAILURE) # Due to the fake nature of this transaction, and its distinguishability # (not only in trivial output pattern, but also in subset-sum), there # is little advantage in making it use different output mixdepths, so # here to prevent fragmentation, everything is kept in the same mixdepth. receiver_addr, proposer_addr, change_addr = (wallet_service.script_to_addr( wallet_service.get_new_script(options.mixdepth, 1)) for _ in range(3)) # persist index update: wallet_service.save_wallet() outputs = btc.construct_snicker_outputs( sum([x["value"] for x in prop_utxo_vals]), receiver_utxo_val["value"], receiver_addr, proposer_addr, change_addr, fee_est, options.net_transfer) tx = btc.make_shuffled_tx(prop_utxos + [receiver_utxo], outputs, version=2, locktime=0) # before signing, check we satisfied the criteria, otherwise # this is pointless! if not btc.is_snicker_tx(tx): log.error("Code error, created non-SNICKER tx, not signing.") sys.exit(EXIT_FAILURE) # sign all inputs # scripts: {input_index: (output_script, amount)} our_inputs = {} for index, ins in enumerate(tx.vin): utxo = (ins.prevout.hash[::-1], ins.prevout.n) script = utxo_dict[utxo]['script'] amount = utxo_dict[utxo]['value'] our_inputs[index] = (script, amount) success, msg = wallet_service.sign_tx(tx, our_inputs) if not success: log.error("Failed to sign transaction: " + msg) sys.exit(EXIT_FAILURE) # TODO condition on automatic brdcst or not if not jm_single().bc_interface.pushtx(tx.serialize()): # this represents an error about state (or conceivably, # an ultra-short window in which the spent utxo was # consumed in another transaction), but not really # an internal logic error, so we do NOT return False log.error("Failed to broadcast fake SNICKER coinjoin: " +\ bintohex(tx.GetTxid()[::-1])) log.info(btc.human_readable_transaction(tx)) sys.exit(EXIT_FAILURE) log.info("Successfully broadcast fake SNICKER coinjoin: " +\ bintohex(tx.GetTxid()[::-1]))
def main(): parser = OptionParser( usage= 'usage: %prog [options] walletname hex-tx input-index output-index net-transfer', description=description) add_base_options(parser) parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', help='mixdepth/account to spend from, default=0', default=0) parser.add_option('-g', '--gap-limit', action='store', type='int', dest='gaplimit', default=6, help='gap limit for Joinmarket wallet, default 6.') parser.add_option( '-n', '--no-upload', action='store_true', dest='no_upload', default=False, help="if set, we don't upload the new proposal to the servers") parser.add_option( '-f', '--txfee', action='store', type='int', dest='txfee', default=-1, help='Bitcoin miner tx_fee to use for transaction(s). A number higher ' 'than 1000 is used as "satoshi per KB" tx fee. A number lower than that ' 'uses the dynamic fee estimation of your blockchain provider as ' 'confirmation target. This temporarily overrides the "tx_fees" setting ' 'in your joinmarket.cfg. Works the same way as described in it. Check ' 'it for examples.') parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) (options, args) = parser.parse_args() snicker_plugin = JMPluginService("SNICKER") load_program_config(config_path=options.datadir, plugin_services=[snicker_plugin]) if len(args) != 5: jmprint("Invalid arguments, see --help") sys.exit(EXIT_ARGERROR) wallet_name, hextx, input_index, output_index, net_transfer = args input_index, output_index, net_transfer = [ int(x) for x in [input_index, output_index, net_transfer] ] check_regtest() # If tx_fees are set manually by CLI argument, override joinmarket.cfg: if int(options.txfee) > 0: jm_single().config.set("POLICY", "tx_fees", str(options.txfee)) max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) if wallet_service.rpc_error: sys.exit(EXIT_FAILURE) snicker_plugin.start_plugin_logging(wallet_service) # in this script, we need the wallet synced before # logic processing for some paths, so do it now: while not wallet_service.synced: wallet_service.sync_wallet(fast=not options.recoversync) # the sync call here will now be a no-op: wallet_service.startService() # now that the wallet is available, we can construct a proposal # before encrypting it: originating_tx = btc.CMutableTransaction.deserialize(hextobin(hextx)) txid1 = originating_tx.GetTxid()[::-1] # the proposer wallet needs to choose a single utxo, from his selected # mixdepth, that is bigger than the output amount of tx1 at the given # index. fee_est = estimate_tx_fee(2, 3, txtype=wallet_service.get_txtype()) amt_required = originating_tx.vout[output_index].nValue + fee_est prop_utxo_dict = wallet_service.select_utxos(options.mixdepth, amt_required) prop_utxos = list(prop_utxo_dict) prop_utxo_vals = [prop_utxo_dict[x] for x in prop_utxos] # get the private key for that utxo priv = wallet_service.get_key_from_addr( wallet_service.script_to_addr(prop_utxo_vals[0]['script'])) # construct the arguments for the snicker proposal: our_input_utxos = [ btc.CMutableTxOut(x['value'], x['script']) for x in prop_utxo_vals ] # destination must be a different mixdepth: prop_destn_spk = wallet_service.get_new_script( (options.mixdepth + 1) % (wallet_service.mixdepth + 1), 1) change_spk = wallet_service.get_new_script(options.mixdepth, 1) their_input = (txid1, output_index) # we also need to extract the pubkey of the chosen input from # the witness; we vary this depending on our wallet type: pubkey, msg = btc.extract_pubkey_from_witness(originating_tx, input_index) if not pubkey: log.error("Failed to extract pubkey from transaction: {}".format(msg)) sys.exit(EXIT_FAILURE) encrypted_proposal = wallet_service.create_snicker_proposal( prop_utxos, their_input, our_input_utxos, originating_tx.vout[output_index], net_transfer, fee_est, priv, pubkey, prop_destn_spk, change_spk, version_byte=1) + b"," + bintohex(pubkey).encode('utf-8') if options.no_upload: jmprint(encrypted_proposal.decode("utf-8")) sys.exit(EXIT_SUCCESS) nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False snicker_client = SNICKERPostingClient([encrypted_proposal]) servers = jm_single().config.get("SNICKER", "servers").split(",") snicker_pf = SNICKERClientProtocolFactory(snicker_client, servers) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), None, snickerfactory=snicker_pf, daemon=daemon)
def receive_payjoin_main(makerclass): parser = OptionParser( usage='usage: %prog [options] [wallet file] [amount-to-receive]') parser.add_option('-g', '--gap-limit', action='store', type="int", dest='gaplimit', default=6, help='gap limit for wallet, default=6') parser.add_option('--recoversync', action='store_true', dest='recoversync', default=False, help=('choose to do detailed wallet sync, ' 'used for recovering on new Core instance.')) parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', default=0, help="mixdepth to source coins from") parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) parser.add_option('--wallet-password-stdin', action='store_true', default=False, dest='wallet_password_stdin', help='Read wallet password from stdin') (options, args) = parser.parse_args() if len(args) < 2: parser.error( 'Needs a wallet, and a receiving amount in bitcoins or satoshis') sys.exit(EXIT_ARGERROR) wallet_name = args[0] try: receiving_amount = amount_to_sat(args[1]) except: parser.error("Invalid receiving amount passed: " + receiving_amount) sys.exit(EXIT_FAILURE) if receiving_amount < 0: parser.error("Receiving amount must be a positive number") sys.exit(EXIT_FAILURE) load_program_config() check_regtest() # This workflow requires command line reading; we force info level logging # to remove noise, and mostly communicate to the user with the fn # log.info (via P2EPMaker.user_info). set_logging_level("INFO") wallet_path = get_wallet_path(wallet_name, 'wallets') max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) while not wallet_service.synced: wallet_service.sync_wallet(fast=not options.recoversync) wallet_service.startService() maker = makerclass(wallet_service, options.mixdepth, receiving_amount) jlog.info('starting receive-payjoin') clientfactory = JMClientProtocolFactory(maker, proto_type="MAKER") nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False if jm_single().config.get("BLOCKCHAIN", "network") in ["regtest", "testnet"]: startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon, p2ep=True)
def main(): tumble_log = get_tumble_log(logsdir) (options, args) = get_tumbler_parser().parse_args() options_org = options options = vars(options) if len(args) < 1: jmprint('Error: Needs a wallet file', "error") sys.exit(EXIT_ARGERROR) load_program_config(config_path=options['datadir']) if jm_single().bc_interface is None: jmprint('Error: Needs a blockchain source', "error") sys.exit(EXIT_FAILURE) check_regtest() #Load the wallet wallet_name = args[0] max_mix_depth = options['mixdepthsrc'] + options['mixdepthcount'] if options['amtmixdepths'] > max_mix_depth: max_mix_depth = options['amtmixdepths'] wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options_org.wallet_password_stdin) wallet_service = WalletService(wallet) if wallet_service.rpc_error: sys.exit(EXIT_FAILURE) # in this script, we need the wallet synced before # logic processing for some paths, so do it now: while not wallet_service.synced: wallet_service.sync_wallet(fast=not options['recoversync']) # the sync call here will now be a no-op: wallet_service.startService() maxcjfee = get_max_cj_fee_values(jm_single().config, options_org) log.info( "Using maximum coinjoin fee limits per maker of {:.4%}, {} sat".format( *maxcjfee)) #Parse options and generate schedule #Output information to log files jm_single().mincjamount = options['mincjamount'] destaddrs = args[1:] for daddr in destaddrs: success, errmsg = validate_address(daddr) if not success: jmprint("Invalid destination address: " + daddr, "error") sys.exit(EXIT_ARGERROR) jmprint("Destination addresses: " + str(destaddrs), "important") #If the --restart flag is set we read the schedule #from the file, and filter out entries that are #already complete if options['restart']: res, schedule = get_schedule( os.path.join(logsdir, options['schedulefile'])) if not res: jmprint( "Failed to load schedule, name: " + str(options['schedulefile']), "error") jmprint("Error was: " + str(schedule), "error") sys.exit(EXIT_FAILURE) #This removes all entries that are marked as done schedule = [s for s in schedule if s[-1] != 1] # remaining destination addresses must be stored in Taker.tdestaddrs # in case of tweaks; note we can't change, so any passed on command # line must be ignored: if len(destaddrs) > 0: jmprint( "For restarts, destinations are taken from schedule file," " so passed destinations on the command line were ignored.", "important") if input("OK? (y/n)") != "y": sys.exit(EXIT_SUCCESS) destaddrs = [ s[3] for s in schedule if s[3] not in ["INTERNAL", "addrask"] ] jmprint( "Remaining destination addresses in restart: " + ",".join(destaddrs), "important") if isinstance(schedule[0][-1], str) and len(schedule[0][-1]) == 64: #ensure last transaction is confirmed before restart tumble_log.info("WAITING TO RESTART...") txid = schedule[0][-1] restart_waiter(txid) #remove the already-done entry (this connects to the other TODO, #probably better *not* to truncate the done-already txs from file, #but simplest for now. schedule = schedule[1:] elif schedule[0][-1] != 0: print("Error: first schedule entry is invalid.") sys.exit(EXIT_FAILURE) with open(os.path.join(logsdir, options['schedulefile']), "wb") as f: f.write(schedule_to_text(schedule)) tumble_log.info("TUMBLE RESTARTING") else: #Create a new schedule from scratch schedule = get_tumble_schedule(options, destaddrs, wallet.get_balance_by_mixdepth()) tumble_log.info("TUMBLE STARTING") with open(os.path.join(logsdir, options['schedulefile']), "wb") as f: f.write(schedule_to_text(schedule)) print("Schedule written to logs/" + options['schedulefile']) tumble_log.info("With this schedule: ") tumble_log.info(pprint.pformat(schedule)) # If tx_fees are set manually by CLI argument, override joinmarket.cfg: if int(options['txfee']) > 0: jm_single().config.set("POLICY", "tx_fees", str(options['txfee'])) # Dynamically estimate an expected tx fee for the whole tumbling run. # This is very rough: we guess with 2 inputs and 2 outputs each. fee_per_cp_guess = estimate_tx_fee(2, 2, txtype=wallet_service.get_txtype()) log.debug("Estimated miner/tx fee for each cj participant: " + str(fee_per_cp_guess)) # From the estimated tx fees, check if the expected amount is a # significant value compared the the cj amount involved_parties = len(schedule) # own participation in each CJ for item in schedule: involved_parties += item[2] # number of total tumble counterparties total_tumble_amount = int(0) max_mix_to_tumble = min(options['mixdepthsrc']+options['mixdepthcount'], \ max_mix_depth) for i in range(options['mixdepthsrc'], max_mix_to_tumble): total_tumble_amount += wallet_service.get_balance_by_mixdepth()[i] if total_tumble_amount == 0: raise ValueError( "No confirmed coins in the selected mixdepth(s). Quitting") exp_tx_fees_ratio = (involved_parties * fee_per_cp_guess) \ / total_tumble_amount if exp_tx_fees_ratio > 0.05: jmprint( 'WARNING: Expected bitcoin network miner fees for the whole ' 'tumbling run are roughly {:.1%}'.format(exp_tx_fees_ratio), "warning") if not options['restart'] and input( 'You might want to modify your tx_fee' ' settings in joinmarket.cfg. Still continue? (y/n):' )[0] != 'y': sys.exit('Aborted by user.') else: log.info("Estimated miner/tx fees for this coinjoin amount for the " "whole tumbling run: {:.1%}".format(exp_tx_fees_ratio)) print("Progress logging to logs/TUMBLE.log") def filter_orders_callback(orders_fees, cjamount): """Decide whether to accept fees """ return tumbler_filter_orders_callback(orders_fees, cjamount, taker) def taker_finished(res, fromtx=False, waittime=0.0, txdetails=None): """on_finished_callback for tumbler; processing is almost entirely deferred to generic taker_finished in tumbler_support module, except here reactor signalling. """ sfile = os.path.join(logsdir, options['schedulefile']) tumbler_taker_finished_update(taker, sfile, tumble_log, options, res, fromtx, waittime, txdetails) if not fromtx: reactor.stop() elif fromtx != "unconfirmed": reactor.callLater(waittime * 60, clientfactory.getClient().clientStart) #instantiate Taker with given schedule and run taker = Taker(wallet_service, schedule, maxcjfee, order_chooser=options['order_choose_fn'], callbacks=(filter_orders_callback, None, taker_finished), tdestaddrs=destaddrs) clientfactory = JMClientProtocolFactory(taker) nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False if jm_single().config.get("BLOCKCHAIN", "network") in ["regtest", "testnet"]: startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon)
def main(): parser = OptionParser(usage='usage: %prog [options] walletname', description=description) parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', default=0, help="mixdepth to source coins from") parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) parser.add_option('-g', '--gap-limit', type="int", action='store', dest='gaplimit', help='gap limit for wallet, default=6', default=6) add_base_options(parser) (options, args) = parser.parse_args() load_program_config(config_path=options.datadir) check_regtest() if len(args) != 1: log.error("Invalid arguments, see --help") sys.exit(EXIT_ARGERROR) wallet_name = args[0] wallet_path = get_wallet_path(wallet_name, None) max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) # step 1: do a full recovery style sync. this will pick up # all addresses that we expect to match transactions against, # from a blank slate Core wallet that originally had no imports. if not options.recoversync: jmprint("Recovery sync was not set, but using it anyway.") while not wallet_service.synced: wallet_service.sync_wallet(fast=False) # Note that the user may be interrupted above by the rescan # request; this is as for normal scripts; after the rescan is done # (usually, only once, but, this *IS* needed here, unlike a normal # wallet generation event), we just try again. # Now all address from HD are imported, we need to grab # all the transactions for those addresses; this includes txs # that *spend* as well as receive our coins, so will include # "first-out" SNICKER txs as well as ordinary spends and JM coinjoins. seed_transactions = wallet_service.get_all_transactions() # Search for SNICKER txs and add them if they match. # We proceed recursively; we find all one-out matches, then # all 2-out matches, until we find no new ones and stop. if len(seed_transactions) == 0: jmprint("No transactions were found for this wallet. Did you rescan?") return False new_txs = [] current_block_heights = set() for tx in seed_transactions: if btc.is_snicker_tx(tx): jmprint("Found a snicker tx: {}".format( bintohex(tx.GetTxid()[::-1]))) equal_outs = btc.get_equal_outs(tx) if not equal_outs: continue if all([ wallet_service.is_known_script(x.scriptPubKey) == False for x in [a[1] for a in equal_outs] ]): # it is now *very* likely that one of the two equal # outputs is our SNICKER custom output # script; notice that in this case, the transaction *must* # have spent our inputs, since it didn't recognize ownership # of either coinjoin output (and if it did recognize the change, # it would have recognized the cj output also). # We try to regenerate one of the outputs, but warn if # we can't. my_indices = get_pubs_and_indices_of_inputs(tx, wallet_service, ours=True) for mypub, mi in my_indices: for eo in equal_outs: for (other_pub, i) in get_pubs_and_indices_of_inputs( tx, wallet_service, ours=False): for (our_pub, j) in get_pubs_and_indices_of_ancestor_inputs( tx.vin[mi], wallet_service, ours=True): our_spk = wallet_service.pubkey_to_script( our_pub) our_priv = wallet_service.get_key_from_addr( wallet_service.script_to_addr(our_spk)) tweak_bytes = btc.ecdh(our_priv[:-1], other_pub) tweaked_pub = btc.snicker_pubkey_tweak( our_pub, tweak_bytes) tweaked_spk = wallet_service.pubkey_to_script( tweaked_pub) if tweaked_spk == eo[1].scriptPubKey: # TODO wallet.script_to_addr has a dubious assertion, that's why # we use btc method directly: address_found = str( btc.CCoinAddress.from_scriptPubKey( btc.CScript(tweaked_spk))) #address_found = wallet_service.script_to_addr(tweaked_spk) jmprint( "Found a new SNICKER output belonging to us." ) jmprint( "Output address {} in the following transaction:" .format(address_found)) jmprint(btc.human_readable_transaction(tx)) jmprint( "Importing the address into the joinmarket wallet..." ) # NB for a recovery we accept putting any imported keys all into # the same mixdepth (0); TODO investigate correcting this, it will # be a little complicated. success, msg = wallet_service.check_tweak_matches_and_import( wallet_service.script_to_addr(our_spk), tweak_bytes, tweaked_pub, wallet_service.mixdepth) if not success: jmprint( "Failed to import SNICKER key: {}". format(msg), "error") return False else: jmprint("... success.") # we want the blockheight to track where the next-round rescan # must start from current_block_heights.add( wallet_service. get_transaction_block_height(tx)) # add this transaction to the next round. new_txs.append(tx) if len(new_txs) == 0: return True seed_transactions.extend(new_txs) earliest_new_blockheight = min(current_block_heights) jmprint("New SNICKER addresses were imported to the Core wallet; " "do rescanblockchain again, starting from block {}, before " "restarting this script.".format(earliest_new_blockheight)) return False
def unlockwallet(self, request, walletname): """ If a user succeeds in authenticating and opening a wallet, we start the corresponding wallet service. Notice that in the case the user fails for any reason, then any existing wallet service, and corresponding token, will remain active. """ print_req(request) assert isinstance(request.content, BytesIO) auth_json = self.get_POST_body(request, ["password"]) if not auth_json: raise InvalidRequestFormat() password = auth_json["password"] wallet_path = get_wallet_path(walletname, None) # for someone trying to re-access the wallet, using their # password as authentication, and get a fresh token, we still # need to authenticate against the password, but we cannot directly # re-open the wallet file (it is currently locked), but we don't # yet want to bother to shut down services - because if their # authentication is successful, we can happily leave everything # running (wallet service and e.g. a yieldgenerator). # Hence here, if it is the same name, we do a read-only open # and proceed to issue a new token if the open is successful, # otherwise error. if walletname == self.wallet_name: try: # returned wallet object is ditched: open_test_wallet_maybe(wallet_path, walletname, 4, password=password.encode("utf-8"), ask_for_password=False, read_only=True) except StoragePasswordError: # actually effects authentication raise NotAuthorized() except StorageError: # wallet is not openable, this should not happen raise NoWalletFound() except Exception: # wallet file doesn't exist or is wrong format, # this also shouldn't happen so raise: raise NoWalletFound() # no exceptions raised means we just return token: self.set_token(self.wallet_name) return make_jmwalletd_response(request, walletname=self.wallet_name, token=self.cookie) # This is a different wallet than the one currently open; # try to open it, then initialize the service(s): try: wallet = open_test_wallet_maybe( wallet_path, walletname, 4, password=password.encode("utf-8"), ask_for_password=False) except StoragePasswordError: raise NotAuthorized() except RetryableStorageError: # .lock file exists raise LockExists() except StorageError: # wallet is not openable raise NoWalletFound() except Exception: # wallet file doesn't exist or is wrong format raise NoWalletFound() return self.initialize_wallet_service(request, wallet, walletname)
def main(): parser = get_sendpayment_parser() (options, args) = parser.parse_args() load_program_config() if options.schedule == '' and len(args) < 3: parser.error('Needs a wallet, amount and destination address') sys.exit(0) #without schedule file option, use the arguments to create a schedule #of a single transaction sweeping = False if options.schedule == '': #note that sendpayment doesn't support fractional amounts, fractions throw #here. amount = int(args[1]) if amount == 0: sweeping = True destaddr = args[2] mixdepth = options.mixdepth addr_valid, errormsg = validate_address(destaddr) if not addr_valid: print('ERROR: Address invalid. ' + errormsg) return schedule = [[options.mixdepth, amount, options.makercount, destaddr, 0.0, 0]] else: result, schedule = get_schedule(options.schedule) if not result: log.info("Failed to load schedule file, quitting. Check the syntax.") log.info("Error was: " + str(schedule)) sys.exit(0) mixdepth = 0 for s in schedule: if s[1] == 0: sweeping = True #only used for checking the maximum mixdepth required mixdepth = max([mixdepth, s[0]]) wallet_name = args[0] #to allow testing of confirm/unconfirm callback for multiple txs if isinstance(jm_single().bc_interface, RegtestBitcoinCoreInterface): jm_single().bc_interface.tick_forward_chain_interval = 10 jm_single().bc_interface.simulating = True jm_single().maker_timeout_sec = 15 chooseOrdersFunc = None if options.pickorders: chooseOrdersFunc = pick_order if sweeping: print('WARNING: You may have to pick offers multiple times') print('WARNING: due to manual offer picking while sweeping') elif options.choosecheapest: chooseOrdersFunc = cheapest_order_choose else: # choose randomly (weighted) chooseOrdersFunc = weighted_order_choose # Dynamically estimate a realistic fee if it currently is the default value. # At this point we do not know even the number of our own inputs, so # we guess conservatively with 2 inputs and 2 outputs each. if options.txfee == -1: options.txfee = max(options.txfee, estimate_tx_fee(2, 2, txtype="p2sh-p2wpkh")) log.debug("Estimated miner/tx fee for each cj participant: " + str( options.txfee)) assert (options.txfee >= 0) log.debug('starting sendpayment') if not options.userpcwallet: #maxmixdepth in the wallet is actually the *number* of mixdepths (so misnamed); #to ensure we have enough, must be at least (requested index+1) max_mix_depth = max([mixdepth+1, options.amtmixdepths]) wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, gap_limit=options.gaplimit) else: raise NotImplemented("Using non-joinmarket wallet is not supported.") if jm_single().config.get("BLOCKCHAIN", "blockchain_source") == "electrum-server" and options.makercount != 0: jm_single().bc_interface.synctype = "with-script" #wallet sync will now only occur on reactor start if we're joining. while not jm_single().bc_interface.wallet_synced: sync_wallet(wallet, fast=options.fastsync) if options.makercount == 0: direct_send(wallet, amount, mixdepth, destaddr, options.answeryes) return if wallet.get_txtype() == 'p2pkh': print("Only direct sends (use -N 0) are supported for " "legacy (non-segwit) wallets.") return def filter_orders_callback(orders_fees, cjamount): orders, total_cj_fee = orders_fees log.info("Chose these orders: " +pprint.pformat(orders)) log.info('total cj fee = ' + str(total_cj_fee)) total_fee_pc = 1.0 * total_cj_fee / cjamount log.info('total coinjoin fee = ' + str(float('%.3g' % ( 100.0 * total_fee_pc))) + '%') WARNING_THRESHOLD = 0.02 # 2% if total_fee_pc > WARNING_THRESHOLD: log.info('\n'.join(['=' * 60] * 3)) log.info('WARNING ' * 6) log.info('\n'.join(['=' * 60] * 1)) log.info('OFFERED COINJOIN FEE IS UNUSUALLY HIGH. DOUBLE/TRIPLE CHECK.') log.info('\n'.join(['=' * 60] * 1)) log.info('WARNING ' * 6) log.info('\n'.join(['=' * 60] * 3)) if not options.answeryes: if raw_input('send with these orders? (y/n):')[0] != 'y': return False return True def taker_finished(res, fromtx=False, waittime=0.0, txdetails=None): if fromtx == "unconfirmed": #If final entry, stop *here*, don't wait for confirmation if taker.schedule_index + 1 == len(taker.schedule): reactor.stop() return if fromtx: if res: txd, txid = txdetails taker.wallet.remove_old_utxos(txd) taker.wallet.add_new_utxos(txd, txid) reactor.callLater(waittime*60, clientfactory.getClient().clientStart) else: #a transaction failed; we'll try to repeat without the #troublemakers. #If this error condition is reached from Phase 1 processing, #and there are less than minimum_makers honest responses, we #just give up (note that in tumbler we tweak and retry, but #for sendpayment the user is "online" and so can manually #try again). #However if the error is in Phase 2 and we have minimum_makers #or more responses, we do try to restart with the honest set, here. if taker.latest_tx is None: #can only happen with < minimum_makers; see above. log.info("A transaction failed but there are insufficient " "honest respondants to continue; giving up.") reactor.stop() return #This is Phase 2; do we have enough to try again? taker.add_honest_makers(list(set( taker.maker_utxo_data.keys()).symmetric_difference( set(taker.nonrespondants)))) if len(taker.honest_makers) < jm_single().config.getint( "POLICY", "minimum_makers"): log.info("Too few makers responded honestly; " "giving up this attempt.") reactor.stop() return print("We failed to complete the transaction. The following " "makers responded honestly: ", taker.honest_makers, ", so we will retry with them.") #Now we have to set the specific group we want to use, and hopefully #they will respond again as they showed honesty last time. #we must reset the number of counterparties, as well as fix who they #are; this is because the number is used to e.g. calculate fees. #cleanest way is to reset the number in the schedule before restart. taker.schedule[taker.schedule_index][2] = len(taker.honest_makers) log.info("Retrying with: " + str(taker.schedule[ taker.schedule_index][2]) + " counterparties.") #rewind to try again (index is incremented in Taker.initialize()) taker.schedule_index -= 1 taker.set_honest_only(True) reactor.callLater(5.0, clientfactory.getClient().clientStart) else: if not res: log.info("Did not complete successfully, shutting down") #Should usually be unreachable, unless conf received out of order; #because we should stop on 'unconfirmed' for last (see above) else: log.info("All transactions completed correctly") reactor.stop() taker = Taker(wallet, schedule, order_chooser=chooseOrdersFunc, callbacks=(filter_orders_callback, None, taker_finished)) clientfactory = JMClientProtocolFactory(taker) nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False if jm_single().config.get("BLOCKCHAIN", "network") in ["regtest", "testnet"]: startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon)
"address which must be specified as the fourth argument") else: pjurl = "http://" + serverport else: # hardcoded port for tests: pjurl = "https://127.0.0.1:8080" bip21uri = "bitcoin:2N7CAdEUjJW9tUHiPhDkmL9ukPtcukJMoxK?amount=0.3&pj=" + pjurl wallet_path = get_wallet_path(wallet_name, None) if jm_single().config.get("POLICY", "native") == "true": walletclass = SegwitWallet else: walletclass = SegwitLegacyWallet wallet = open_test_wallet_maybe(wallet_path, wallet_name, 4, wallet_password_stdin=False, test_wallet_cls=walletclass, gap_limit=6) wallet_service = WalletService(wallet) # in this script, we need the wallet synced before # logic processing for some paths, so do it now: while not wallet_service.synced: wallet_service.sync_wallet(fast=True) # the sync call here will now be a no-op: wallet_service.startService() manager = parse_payjoin_setup(bip21uri, wallet_service, mixdepth) if usessl == 0: tlshostnames = None else: tlshostnames = [b"127.0.0.1"] reactor.callWhenRunning(send_payjoin, manager, tls_whitelist=tlshostnames)
def receive_snicker_main(): usage = """ Use this script to receive proposals for SNICKER coinjoins, parse them and then broadcast coinjoins that fit your criteria. See the SNICKER section of joinmarket.cfg to set your criteria. The only argument to this script is the (JM) wallet file against which to check. Once all proposals have been parsed, the script will quit. Usage: %prog [options] wallet file [proposal] """ parser = OptionParser(usage=usage) add_base_options(parser) parser.add_option('-g', '--gap-limit', action='store', type="int", dest='gaplimit', default=6, help='gap limit for wallet, default=6') parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', default=0, help="mixdepth to source coins from") parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) parser.add_option( '-n', '--no-upload', action='store_true', dest='no_upload', default=False, help="if set, we read the proposal from the command line" ) (options, args) = parser.parse_args() if len(args) < 1: parser.error('Needs a wallet file as argument') sys.exit(EXIT_ARGERROR) wallet_name = args[0] snicker_plugin = JMPluginService("SNICKER") load_program_config(config_path=options.datadir, plugin_services=[snicker_plugin]) check_and_start_tor() check_regtest() wallet_path = get_wallet_path(wallet_name, None) max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, wallet_password_stdin=options.wallet_password_stdin, gap_limit=options.gaplimit) wallet_service = WalletService(wallet) snicker_plugin.start_plugin_logging(wallet_service) while not wallet_service.synced: wallet_service.sync_wallet(fast=not options.recoversync) wallet_service.startService() nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False snicker_r = SNICKERReceiver(wallet_service) if options.no_upload: proposal = args[1] snicker_r.process_proposals([proposal]) return servers = jm_single().config.get("SNICKER", "servers").split(",") snicker_pf = SNICKERClientProtocolFactory(snicker_r, servers, oneshot=True) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), None, snickerfactory=snicker_pf, daemon=daemon)
def receive_payjoin_main(makerclass): parser = OptionParser(usage='usage: %prog [options] [wallet file] [amount-to-receive]') parser.add_option('-g', '--gap-limit', action='store', type="int", dest='gaplimit', default=6, help='gap limit for wallet, default=6') parser.add_option('--fast', action='store_true', dest='fastsync', default=False, help=('choose to do fast wallet sync, only for Core and ' 'only for previously synced wallet')) parser.add_option('-m', '--mixdepth', action='store', type='int', dest='mixdepth', default=0, help="mixdepth to source coins from") parser.add_option('-a', '--amtmixdepths', action='store', type='int', dest='amtmixdepths', help='number of mixdepths in wallet, default 5', default=5) (options, args) = parser.parse_args() if len(args) < 2: parser.error('Needs a wallet, and a receiving amount in satoshis') sys.exit(0) wallet_name = args[0] try: receiving_amount = int(args[1]) except: parser.error("Invalid receiving amount passed: " + receiving_amount) sys.exit(0) if receiving_amount < 0: parser.error("Receiving amount must be a positive integer in satoshis") sys.exit(0) load_program_config() check_regtest() # This workflow requires command line reading; we force info level logging # to remove noise, and mostly communicate to the user with the fn # log.info (via P2EPMaker.user_info). set_logging_level("INFO") wallet_path = get_wallet_path(wallet_name, 'wallets') max_mix_depth = max([options.mixdepth, options.amtmixdepths - 1]) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, gap_limit=options.gaplimit) if jm_single().config.get("BLOCKCHAIN", "blockchain_source") == "electrum-server": jm_single().bc_interface.synctype = "with-script" while not jm_single().bc_interface.wallet_synced: sync_wallet(wallet, fast=options.fastsync) maker = makerclass(wallet, options.mixdepth, receiving_amount) jlog.info('starting receive-payjoin') clientfactory = JMClientProtocolFactory(maker, proto_type="MAKER") nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False if jm_single().config.get("BLOCKCHAIN", "network") in ["regtest", "testnet"]: startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon, p2ep=True)
def main(): parser = get_sendpayment_parser() (options, args) = parser.parse_args() load_program_config() if options.p2ep and len(args) != 3: parser.error("PayJoin requires exactly three arguments: " "wallet, amount and destination address.") sys.exit(0) elif options.schedule == '' and len(args) != 3: parser.error("Joinmarket sendpayment (coinjoin) needs arguments:" " wallet, amount and destination address") sys.exit(0) #without schedule file option, use the arguments to create a schedule #of a single transaction sweeping = False if options.schedule == '': #note that sendpayment doesn't support fractional amounts, fractions throw #here. amount = int(args[1]) if amount == 0: sweeping = True destaddr = args[2] mixdepth = options.mixdepth addr_valid, errormsg = validate_address(destaddr) if not addr_valid: jmprint('ERROR: Address invalid. ' + errormsg, "error") return schedule = [[options.mixdepth, amount, options.makercount, destaddr, 0.0, 0]] else: if options.p2ep: parser.error("Schedule files are not compatible with PayJoin") sys.exit(0) result, schedule = get_schedule(options.schedule) if not result: log.error("Failed to load schedule file, quitting. Check the syntax.") log.error("Error was: " + str(schedule)) sys.exit(0) mixdepth = 0 for s in schedule: if s[1] == 0: sweeping = True #only used for checking the maximum mixdepth required mixdepth = max([mixdepth, s[0]]) wallet_name = args[0] check_regtest() if options.pickorders: chooseOrdersFunc = pick_order if sweeping: jmprint('WARNING: You may have to pick offers multiple times', "warning") jmprint('WARNING: due to manual offer picking while sweeping', "warning") else: chooseOrdersFunc = options.order_choose_fn # Dynamically estimate a realistic fee if it currently is the default value. # At this point we do not know even the number of our own inputs, so # we guess conservatively with 2 inputs and 2 outputs each. if options.txfee == -1: options.txfee = max(options.txfee, estimate_tx_fee(2, 2, txtype="p2sh-p2wpkh")) log.debug("Estimated miner/tx fee for each cj participant: " + str( options.txfee)) assert (options.txfee >= 0) maxcjfee = (1, float('inf')) if not options.p2ep and not options.pickorders and options.makercount != 0: maxcjfee = get_max_cj_fee_values(jm_single().config, options) log.info("Using maximum coinjoin fee limits per maker of {:.4%}, {} " "sat".format(*maxcjfee)) log.debug('starting sendpayment') max_mix_depth = max([mixdepth, options.amtmixdepths - 1]) wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe( wallet_path, wallet_name, max_mix_depth, gap_limit=options.gaplimit) if jm_single().config.get("BLOCKCHAIN", "blockchain_source") == "electrum-server" and options.makercount != 0: jm_single().bc_interface.synctype = "with-script" #wallet sync will now only occur on reactor start if we're joining. while not jm_single().bc_interface.wallet_synced: sync_wallet(wallet, fast=options.fastsync) # From the estimated tx fees, check if the expected amount is a # significant value compared the the cj amount total_cj_amount = amount if total_cj_amount == 0: total_cj_amount = wallet.get_balance_by_mixdepth()[options.mixdepth] if total_cj_amount == 0: raise ValueError("No confirmed coins in the selected mixdepth. Quitting") exp_tx_fees_ratio = ((1 + options.makercount) * options.txfee) / total_cj_amount if exp_tx_fees_ratio > 0.05: jmprint('WARNING: Expected bitcoin network miner fees for this coinjoin' ' amount are roughly {:.1%}'.format(exp_tx_fees_ratio), "warning") if input('You might want to modify your tx_fee' ' settings in joinmarket.cfg. Still continue? (y/n):')[0] != 'y': sys.exit('Aborted by user.') else: log.info("Estimated miner/tx fees for this coinjoin amount: {:.1%}" .format(exp_tx_fees_ratio)) if options.makercount == 0 and not options.p2ep: direct_send(wallet, amount, mixdepth, destaddr, options.answeryes) return if wallet.get_txtype() == 'p2pkh': jmprint("Only direct sends (use -N 0) are supported for " "legacy (non-segwit) wallets.", "error") return def filter_orders_callback(orders_fees, cjamount): orders, total_cj_fee = orders_fees log.info("Chose these orders: " +pprint.pformat(orders)) log.info('total cj fee = ' + str(total_cj_fee)) total_fee_pc = 1.0 * total_cj_fee / cjamount log.info('total coinjoin fee = ' + str(float('%.3g' % ( 100.0 * total_fee_pc))) + '%') WARNING_THRESHOLD = 0.02 # 2% if total_fee_pc > WARNING_THRESHOLD: log.info('\n'.join(['=' * 60] * 3)) log.info('WARNING ' * 6) log.info('\n'.join(['=' * 60] * 1)) log.info('OFFERED COINJOIN FEE IS UNUSUALLY HIGH. DOUBLE/TRIPLE CHECK.') log.info('\n'.join(['=' * 60] * 1)) log.info('WARNING ' * 6) log.info('\n'.join(['=' * 60] * 3)) if not options.answeryes: if input('send with these orders? (y/n):')[0] != 'y': return False return True def taker_finished(res, fromtx=False, waittime=0.0, txdetails=None): if fromtx == "unconfirmed": #If final entry, stop *here*, don't wait for confirmation if taker.schedule_index + 1 == len(taker.schedule): reactor.stop() return if fromtx: if res: txd, txid = txdetails taker.wallet.remove_old_utxos(txd) taker.wallet.add_new_utxos(txd, txid) reactor.callLater(waittime*60, clientfactory.getClient().clientStart) else: #a transaction failed; we'll try to repeat without the #troublemakers. #If this error condition is reached from Phase 1 processing, #and there are less than minimum_makers honest responses, we #just give up (note that in tumbler we tweak and retry, but #for sendpayment the user is "online" and so can manually #try again). #However if the error is in Phase 2 and we have minimum_makers #or more responses, we do try to restart with the honest set, here. if taker.latest_tx is None: #can only happen with < minimum_makers; see above. log.info("A transaction failed but there are insufficient " "honest respondants to continue; giving up.") reactor.stop() return #This is Phase 2; do we have enough to try again? taker.add_honest_makers(list(set( taker.maker_utxo_data.keys()).symmetric_difference( set(taker.nonrespondants)))) if len(taker.honest_makers) < jm_single().config.getint( "POLICY", "minimum_makers"): log.info("Too few makers responded honestly; " "giving up this attempt.") reactor.stop() return jmprint("We failed to complete the transaction. The following " "makers responded honestly: " + str(taker.honest_makers) +\ ", so we will retry with them.", "warning") #Now we have to set the specific group we want to use, and hopefully #they will respond again as they showed honesty last time. #we must reset the number of counterparties, as well as fix who they #are; this is because the number is used to e.g. calculate fees. #cleanest way is to reset the number in the schedule before restart. taker.schedule[taker.schedule_index][2] = len(taker.honest_makers) log.info("Retrying with: " + str(taker.schedule[ taker.schedule_index][2]) + " counterparties.") #rewind to try again (index is incremented in Taker.initialize()) taker.schedule_index -= 1 taker.set_honest_only(True) reactor.callLater(5.0, clientfactory.getClient().clientStart) else: if not res: log.info("Did not complete successfully, shutting down") #Should usually be unreachable, unless conf received out of order; #because we should stop on 'unconfirmed' for last (see above) else: log.info("All transactions completed correctly") reactor.stop() if options.p2ep: # This workflow requires command line reading; we force info level logging # to remove noise, and mostly communicate to the user with the fn # log.info (directly or via default taker_info_callback). set_logging_level("INFO") # in the case where the payment just hangs for a long period, allow # it to fail gracefully with an information message; this is triggered # only by the stallMonitor, which gives up after 20*maker_timeout_sec: def p2ep_on_finished_callback(res, fromtx=False, waittime=0.0, txdetails=None): log.error("PayJoin payment was NOT made, timed out.") reactor.stop() taker = P2EPTaker(options.p2ep, wallet, schedule, callbacks=(None, None, p2ep_on_finished_callback)) else: taker = Taker(wallet, schedule, order_chooser=chooseOrdersFunc, max_cj_fee=maxcjfee, callbacks=(filter_orders_callback, None, taker_finished)) clientfactory = JMClientProtocolFactory(taker) nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False p2ep = True if options.p2ep != "" else False if jm_single().config.get("BLOCKCHAIN", "network") in ["regtest", "testnet"]: startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon, p2ep=p2ep)
def main(): tumble_log = get_tumble_log(logsdir) (options, args) = get_tumbler_parser().parse_args() options_org = options options = vars(options) if len(args) < 1: print('Error: Needs a wallet file') sys.exit(0) load_program_config() #Load the wallet wallet_name = args[0] max_mix_depth = options['mixdepthsrc'] + options['mixdepthcount'] wallet_path = get_wallet_path(wallet_name, None) wallet = open_test_wallet_maybe(wallet_path, wallet_name, max_mix_depth) if jm_single().config.get("BLOCKCHAIN", "blockchain_source") == "electrum-server": jm_single().bc_interface.synctype = "with-script" while not jm_single().bc_interface.wallet_synced: sync_wallet(wallet, fast=options['fastsync']) maxcjfee = get_max_cj_fee_values(jm_single().config, options_org) log.info( "Using maximum coinjoin fee limits per maker of {:.4%}, {} sat".format( *maxcjfee)) #Parse options and generate schedule #Output information to log files jm_single().mincjamount = options['mincjamount'] destaddrs = args[1:] print(destaddrs) #If the --restart flag is set we read the schedule #from the file, and filter out entries that are #already complete if options['restart']: res, schedule = get_schedule( os.path.join(logsdir, options['schedulefile'])) if not res: print("Failed to load schedule, name: " + str(options['schedulefile'])) print("Error was: " + str(schedule)) sys.exit(0) #This removes all entries that are marked as done schedule = [s for s in schedule if s[5] != 1] if isinstance(schedule[0][5], str) and len(schedule[0][5]) == 64: #ensure last transaction is confirmed before restart tumble_log.info("WAITING TO RESTART...") txid = schedule[0][5] restart_waiter(txid + ":0") #add 0 index because all have it #remove the already-done entry (this connects to the other TODO, #probably better *not* to truncate the done-already txs from file, #but simplest for now. schedule = schedule[1:] elif schedule[0][5] != 0: print("Error: first schedule entry is invalid.") sys.exit(0) with open(os.path.join(logsdir, options['schedulefile']), "wb") as f: f.write(schedule_to_text(schedule)) tumble_log.info("TUMBLE RESTARTING") else: #Create a new schedule from scratch schedule = get_tumble_schedule(options, destaddrs) tumble_log.info("TUMBLE STARTING") with open(os.path.join(logsdir, options['schedulefile']), "wb") as f: f.write(schedule_to_text(schedule)) print("Schedule written to logs/" + options['schedulefile']) tumble_log.info("With this schedule: ") tumble_log.info(pprint.pformat(schedule)) print("Progress logging to logs/TUMBLE.log") def filter_orders_callback(orders_fees, cjamount): """Decide whether to accept fees """ return tumbler_filter_orders_callback(orders_fees, cjamount, taker, options) def taker_finished(res, fromtx=False, waittime=0.0, txdetails=None): """on_finished_callback for tumbler; processing is almost entirely deferred to generic taker_finished in tumbler_support module, except here reactor signalling. """ sfile = os.path.join(logsdir, options['schedulefile']) tumbler_taker_finished_update(taker, sfile, tumble_log, options, res, fromtx, waittime, txdetails) if not fromtx: reactor.stop() elif fromtx != "unconfirmed": reactor.callLater(waittime * 60, clientfactory.getClient().clientStart) #to allow testing of confirm/unconfirm callback for multiple txs if isinstance(jm_single().bc_interface, RegtestBitcoinCoreInterface): jm_single().bc_interface.tick_forward_chain_interval = 10 jm_single().bc_interface.simulating = True jm_single().maker_timeout_sec = 15 #instantiate Taker with given schedule and run taker = Taker(wallet, schedule, order_chooser=options['order_choose_fn'], max_cj_fee=maxcjfee, callbacks=(filter_orders_callback, None, taker_finished), tdestaddrs=destaddrs) clientfactory = JMClientProtocolFactory(taker) nodaemon = jm_single().config.getint("DAEMON", "no_daemon") daemon = True if nodaemon == 1 else False if jm_single().config.get("BLOCKCHAIN", "network") in ["regtest", "testnet"]: startLogging(sys.stdout) start_reactor(jm_single().config.get("DAEMON", "daemon_host"), jm_single().config.getint("DAEMON", "daemon_port"), clientfactory, daemon=daemon)
def make_wallets(n, wallet_structures=None, mean_amt=1, sdev_amt=0, start_index=0, fixed_seeds=None, test_wallet=False, passwords=None, walletclass=SegwitWallet, mixdepths=5, fb_indices=[]): '''n: number of wallets to be created wallet_structure: array of n arrays , each subarray specifying the number of addresses to be populated with coins at each depth (for now, this will only populate coins into 'receive' addresses) mean_amt: the number of coins (in btc units) in each address as above sdev_amt: if randomness in amouts is desired, specify here. fb_indices: a list of integers in range(n), and for each of those we will use the fidelity bond wallet type (note: to actually *use* the FB feature the calling code will have to create the FB utxo, itself). Only supported if walletclass=SegwitWallet. Returns: a dict of dicts of form {0:{'seed':seed,'wallet':Wallet object},1:..,} Default Wallet constructor is joinmarket.Wallet, else use TestWallet, which takes a password parameter as in the list passwords. ''' # FIXME: this is basically the same code as jmclient/test/commontest.py if len(wallet_structures) != n: raise Exception("Number of wallets doesn't match wallet structures") if not fixed_seeds: seeds = chunks( binascii.hexlify(os.urandom(BIP32Wallet.ENTROPY_BYTES * n)), BIP32Wallet.ENTROPY_BYTES * 2) else: seeds = fixed_seeds wallets = {} for i in range(n): assert len(seeds[i]) == BIP32Wallet.ENTROPY_BYTES * 2 # FIXME: pwd is ignored (but do we really need this anyway?) if test_wallet and passwords and i < len(passwords): pwd = passwords[i] else: pwd = None if i in fb_indices: assert walletclass == SegwitWallet, "Cannot use FB except for native segwit." wc = WALLET_IMPLEMENTATIONS[get_configured_wallet_type(True)] print("for index: {}, we got wallet type: {}".format(i, wc)) else: wc = walletclass w = open_test_wallet_maybe(seeds[i], seeds[i], mixdepths - 1, test_wallet_cls=wc) wallet_service = WalletService(w) wallets[i + start_index] = { 'seed': seeds[i].decode('ascii'), 'wallet': wallet_service } for j in range(mixdepths): for k in range(wallet_structures[i][j]): deviation = sdev_amt * random.random() amt = mean_amt - sdev_amt / 2.0 + deviation if amt < 0: amt = 0.001 amt = float(Decimal(amt).quantize(Decimal(10)**-8)) jm_single().bc_interface.grab_coins( wallet_service.get_new_addr( j, BaseWallet.ADDRESS_TYPE_INTERNAL), amt) return wallets