# -*- coding: utf-8 -*- # Copyright (c) 2020-2022 tecnovert # Distributed under the MIT software license, see the accompanying # file LICENSE or http://www.opensource.org/licenses/mit-license.php. import json import struct import traceback from basicswap.util import ( make_int, format_timestamp, ) from basicswap.chainparams import ( Coins, chainparams, ) from basicswap.basicswap_util import ( TxTypes, TxStates, BidStates, SwapTypes, strTxType, DebugTypes, strTxState, strBidState, TxLockTypes, getLastBidState, ) from basicswap.protocols.xmr_swap_1 import getChainBSplitKey, getChainBRemoteSplitKey PAGE_LIMIT = 50 invalid_coins_from = (Coins.XMR, Coins.PART_ANON) def tickerToCoinId(ticker): search_str = ticker.upper() for c in Coins: if c.name == search_str: return c.value raise ValueError('Unknown coin') def getCoinType(coin_type_ind): # coin_type_ind can be int id or str ticker try: return int(coin_type_ind) except Exception: return tickerToCoinId(coin_type_ind) def validateAmountString(amount, ci): if type(amount) != str: return ar = amount.split('.') if len(ar) > 1 and len(ar[1]) > ci.exp(): raise ValueError('Too many decimal places in amount {}'.format(amount)) def inputAmount(amount_str, ci): validateAmountString(amount_str, ci) return make_int(amount_str, ci.exp()) def get_data_entry_or(post_data, name, default): if 'is_json' in post_data: return post_data.get(name, default) key_bytes = name.encode('utf-8') if key_bytes in post_data: return post_data[key_bytes][0].decode('utf-8') return default def get_data_entry(post_data, name): if 'is_json' in post_data: return post_data[name] return post_data[name.encode('utf-8')][0].decode('utf-8') def have_data_entry(post_data, name): if 'is_json' in post_data: return name in post_data return name.encode('utf-8') in post_data def setCoinFilter(form_data, field_name): try: coin_type = getCoinType(get_data_entry(form_data, field_name)) except Exception: return -1 if coin_type == -1: return -1 try: return Coins(coin_type) except Exception: raise ValueError('Unknown Coin Type {}'.format(str(field_name))) def set_pagination_filters(form_data, filters): if form_data and have_data_entry(form_data, 'pageback'): filters['page_no'] = int(form_data[b'pageno'][0]) - 1 if filters['page_no'] < 1: filters['page_no'] = 1 elif form_data and have_data_entry(form_data, 'pageforwards'): filters['page_no'] = int(form_data[b'pageno'][0]) + 1 if filters['page_no'] > 1: filters['offset'] = (filters['page_no'] - 1) * PAGE_LIMIT def getTxIdHex(bid, tx_type, suffix): if tx_type == TxTypes.ITX: obj = bid.initiate_tx elif tx_type == TxTypes.PTX: obj = bid.participate_tx else: return 'Unknown Type' if not obj: return 'None' if not obj.txid: return 'None' return obj.txid.hex() + suffix def getTxSpendHex(bid, tx_type): if tx_type == TxTypes.ITX: obj = bid.initiate_tx elif tx_type == TxTypes.PTX: obj = bid.participate_tx else: return 'Unknown Type' if not obj: return 'None' if not obj.spend_txid: return 'None' return obj.spend_txid.hex() + ' {}'.format(obj.spend_n) def listBidStates(): rv = [] for s in BidStates: rv.append((int(s), strBidState(s))) return rv def describeBid(swap_client, bid, xmr_swap, offer, xmr_offer, bid_events, edit_bid, show_txns, view_tx_ind=None, for_api=False, show_lock_transfers=False): ci_from = swap_client.ci(Coins(offer.coin_from)) ci_to = swap_client.ci(Coins(offer.coin_to)) ticker_from = ci_from.ticker() ticker_to = ci_to.ticker() state_description = '' if offer.swap_type == SwapTypes.SELLER_FIRST: if bid.state == BidStates.BID_SENT: state_description = 'Waiting for seller to accept.' elif bid.state == BidStates.BID_RECEIVED: state_description = 'Waiting for seller to accept.' elif bid.state == BidStates.BID_ACCEPTED: if not bid.initiate_tx: state_description = 'Waiting for seller to send initiate tx.' else: state_description = 'Waiting for initiate tx to confirm.' elif bid.state == BidStates.SWAP_INITIATED: state_description = 'Waiting for participate txn to be confirmed in {} chain'.format(ticker_to) elif bid.state == BidStates.SWAP_PARTICIPATING: if bid.was_sent: state_description = 'Waiting for participate txn to be spent in {} chain'.format(ticker_to) else: state_description = 'Waiting for initiate txn to be spent in {} chain'.format(ticker_from) elif bid.state == BidStates.SWAP_COMPLETED: state_description = 'Swap completed' if bid.getITxState() == TxStates.TX_REDEEMED and bid.getPTxState() == TxStates.TX_REDEEMED: state_description += ' successfully' else: state_description += ', ITX ' + strTxState(bid.getITxState()) + ', PTX ' + strTxState(bid.getPTxState()) elif bid.state == BidStates.SWAP_TIMEDOUT: state_description = 'Timed out waiting for initiate txn' elif bid.state == BidStates.BID_ABANDONED: state_description = 'Bid abandoned' elif bid.state == BidStates.BID_ERROR: state_description = bid.state_note elif offer.swap_type == SwapTypes.XMR_SWAP: if bid.state == BidStates.BID_SENT: state_description = 'Waiting for offerer to accept' if bid.state == BidStates.BID_RECEIVING: # Offerer receiving bid from bidder state_description = 'Waiting for bid to be fully received' elif bid.state == BidStates.BID_RECEIVED: # Offerer received bid from bidder # TODO: Manual vs automatic state_description = 'Bid must be accepted' elif bid.state == BidStates.BID_RECEIVING_ACC: state_description = 'Receiving accepted bid message' elif bid.state == BidStates.BID_ACCEPTED: state_description = 'Offerer has accepted bid, waiting for bidder to respond' elif bid.state == BidStates.SWAP_DELAYING: last_state = getLastBidState(bid.states) if last_state == BidStates.BID_RECEIVED: state_description = 'Delaying before accepting bid' elif last_state == BidStates.BID_RECEIVING_ACC: state_description = 'Delaying before responding to accepted bid' elif last_state == BidStates.XMR_SWAP_SCRIPT_TX_REDEEMED: state_description = f'Delaying before spending from {ticker_to} lock tx' elif last_state == BidStates.BID_ACCEPTED: state_description = f'Delaying before sending {ticker_from} lock tx' else: state_description = 'Delaying before automated action' elif bid.state == BidStates.XMR_SWAP_HAVE_SCRIPT_COIN_SPEND_TX: state_description = f'Waiting for {ticker_from} lock tx to confirm in chain ({ci_from.blocks_confirmed} blocks)' elif bid.state == BidStates.XMR_SWAP_SCRIPT_COIN_LOCKED: if xmr_swap.b_lock_tx_id is None: state_description = f'Waiting for {ticker_to} lock tx' else: state_description = f'Waiting for {ticker_to} lock tx to confirm in chain ({ci_to.blocks_confirmed} blocks)' elif bid.state == BidStates.XMR_SWAP_NOSCRIPT_COIN_LOCKED: state_description = f'Waiting for offerer to unlock {ticker_from} lock tx' elif bid.state == BidStates.XMR_SWAP_LOCK_RELEASED: state_description = f'Waiting for bidder to spend from {ticker_from} lock tx' elif bid.state == BidStates.XMR_SWAP_SCRIPT_TX_REDEEMED: state_description = f'Waiting for offerer to spend from {ticker_to} lock tx' elif bid.state == BidStates.XMR_SWAP_NOSCRIPT_TX_REDEEMED: state_description = f'Waiting for {ticker_to} lock tx spend tx to confirm in chain' elif bid.state == BidStates.XMR_SWAP_SCRIPT_TX_PREREFUND: if bid.was_sent: state_description = 'Waiting for offerer to redeem or locktime to expire' else: state_description = 'Redeeming output' addr_label = swap_client.getAddressLabel([bid.bid_addr, ])[0] bid_rate = offer.rate if bid.rate is None else bid.rate data = { 'coin_from': ci_from.coin_name(), 'coin_to': ci_to.coin_name(), 'amt_from': ci_from.format_amount(bid.amount), 'amt_to': ci_to.format_amount((bid.amount * bid_rate) // ci_from.COIN()), 'bid_rate': ci_to.format_amount(bid_rate), 'ticker_from': ticker_from, 'ticker_to': ticker_to, 'bid_state': strBidState(bid.state), 'state_description': state_description, 'itx_state': strTxState(bid.getITxState()), 'ptx_state': strTxState(bid.getPTxState()), 'offer_id': bid.offer_id.hex(), 'addr_from': bid.bid_addr, 'addr_from_label': addr_label, 'addr_fund_proof': bid.proof_address, 'created_at': bid.created_at if for_api else format_timestamp(bid.created_at, with_seconds=True), 'expired_at': bid.expire_at if for_api else format_timestamp(bid.expire_at, with_seconds=True), 'was_sent': 'True' if bid.was_sent else 'False', 'was_received': 'True' if bid.was_received else 'False', 'initiate_tx': getTxIdHex(bid, TxTypes.ITX, ' ' + ticker_from), 'initiate_conf': 'None' if (not bid.initiate_tx or not bid.initiate_tx.conf) else bid.initiate_tx.conf, 'participate_tx': getTxIdHex(bid, TxTypes.PTX, ' ' + ticker_to), 'participate_conf': 'None' if (not bid.participate_tx or not bid.participate_tx.conf) else bid.participate_tx.conf, 'show_txns': show_txns, 'can_abandon': True if bid.state not in (BidStates.BID_ABANDONED, BidStates.SWAP_COMPLETED) else False, 'events': bid_events, 'debug_ui': swap_client.debug_ui, } if edit_bid: data['bid_state_ind'] = int(bid.state) data['bid_states'] = listBidStates() if swap_client.debug_ui: data['debug_ind'] = bid.debug_ind data['debug_options'] = [(int(t), t.name) for t in DebugTypes] if show_txns: if offer.swap_type == SwapTypes.XMR_SWAP: txns = [] if bid.xmr_a_lock_tx: confirms = None if swap_client.coin_clients[ci_from.coin_type()]['chain_height'] and bid.xmr_a_lock_tx.chain_height: confirms = (swap_client.coin_clients[ci_from.coin_type()]['chain_height'] - bid.xmr_a_lock_tx.chain_height) + 1 txns.append({'type': 'Chain A Lock', 'txid': bid.xmr_a_lock_tx.txid.hex(), 'confirms': confirms}) if bid.xmr_a_lock_spend_tx: txns.append({'type': 'Chain A Lock Spend', 'txid': bid.xmr_a_lock_spend_tx.txid.hex()}) if bid.xmr_b_lock_tx: confirms = None if swap_client.coin_clients[ci_to.coin_type()]['chain_height'] and bid.xmr_b_lock_tx.chain_height: confirms = (swap_client.coin_clients[ci_to.coin_type()]['chain_height'] - bid.xmr_b_lock_tx.chain_height) + 1 txns.append({'type': 'Chain B Lock', 'txid': bid.xmr_b_lock_tx.txid.hex(), 'confirms': confirms}) if bid.xmr_b_lock_tx and bid.xmr_b_lock_tx.spend_txid: txns.append({'type': 'Chain B Lock Spend', 'txid': bid.xmr_b_lock_tx.spend_txid.hex()}) if xmr_swap.a_lock_refund_tx: txns.append({'type': strTxType(TxTypes.XMR_SWAP_A_LOCK_REFUND), 'txid': xmr_swap.a_lock_refund_tx_id.hex()}) if xmr_swap.a_lock_refund_spend_tx: txns.append({'type': strTxType(TxTypes.XMR_SWAP_A_LOCK_REFUND_SPEND), 'txid': xmr_swap.a_lock_refund_spend_tx_id.hex()}) for tx_type, tx in bid.txns.items(): if tx_type in (TxTypes.XMR_SWAP_A_LOCK_REFUND, TxTypes.XMR_SWAP_A_LOCK_REFUND_SPEND): continue txns.append({'type': strTxType(tx_type), 'txid': tx.txid.hex()}) data['txns'] = txns data['xmr_b_shared_address'] = ci_to.encodeSharedAddress(xmr_swap.pkbv, xmr_swap.pkbs) if xmr_swap.pkbs else None data['xmr_b_shared_viewkey'] = ci_to.encodeKey(xmr_swap.vkbv) if xmr_swap.vkbv else None if swap_client.debug_ui: try: data['xmr_b_half_privatekey'] = getChainBSplitKey(swap_client, bid, xmr_swap, offer) remote_split_key = getChainBRemoteSplitKey(swap_client, bid, xmr_swap, offer) if remote_split_key: data['xmr_b_half_privatekey_remote'] = remote_split_key except Exception as e: swap_client.log.error(traceback.format_exc()) if show_lock_transfers: if xmr_swap.pkbs: data['lock_transfers'] = json.dumps(ci_to.showLockTransfers(xmr_swap.vkbv, xmr_swap.pkbs, bid.chain_b_height_start), indent=4) else: data['lock_transfers'] = 'Shared address not yet known.' else: data['initiate_tx_refund'] = 'None' if not bid.initiate_txn_refund else bid.initiate_txn_refund.hex() data['participate_tx_refund'] = 'None' if not bid.participate_txn_refund else bid.participate_txn_refund.hex() data['initiate_tx_spend'] = getTxSpendHex(bid, TxTypes.ITX) data['participate_tx_spend'] = getTxSpendHex(bid, TxTypes.PTX) if bid.initiate_tx and bid.initiate_tx.tx_data is not None: data['initiate_tx_inputs'] = ci_from.listInputs(bid.initiate_tx.tx_data) if bid.participate_tx and bid.participate_tx.tx_data is not None: data['initiate_tx_inputs'] = ci_from.listInputs(bid.participate_tx.tx_data) if offer.swap_type == SwapTypes.XMR_SWAP: data['coin_a_lock_refund_tx_est_final'] = 'None' data['coin_a_lock_refund_swipe_tx_est_final'] = 'None' if offer.lock_type == TxLockTypes.SEQUENCE_LOCK_TIME: if bid.xmr_a_lock_tx and bid.xmr_a_lock_tx.block_time: raw_sequence = ci_from.getExpectedSequence(offer.lock_type, offer.lock_value) seconds_locked = ci_from.decodeSequence(raw_sequence) data['coin_a_lock_refund_tx_est_final'] = bid.xmr_a_lock_tx.block_time + seconds_locked data['coin_a_last_median_time'] = swap_client.coin_clients[offer.coin_from]['chain_median_time'] if TxTypes.XMR_SWAP_A_LOCK_REFUND in bid.txns: refund_tx = bid.txns[TxTypes.XMR_SWAP_A_LOCK_REFUND] if refund_tx.block_time is not None: raw_sequence = ci_from.getExpectedSequence(offer.lock_type, offer.lock_value) seconds_locked = ci_from.decodeSequence(raw_sequence) data['coin_a_lock_refund_swipe_tx_est_final'] = refund_tx.block_time + seconds_locked if view_tx_ind: data['view_tx_ind'] = view_tx_ind view_tx_id = bytes.fromhex(view_tx_ind) if xmr_swap: if view_tx_id == xmr_swap.a_lock_tx_id and xmr_swap.a_lock_tx: data['view_tx_hex'] = xmr_swap.a_lock_tx.hex() data['chain_a_lock_tx_inputs'] = ci_from.listInputs(xmr_swap.a_lock_tx) if view_tx_id == xmr_swap.a_lock_refund_tx_id and xmr_swap.a_lock_refund_tx: data['view_tx_hex'] = xmr_swap.a_lock_refund_tx.hex() if view_tx_id == xmr_swap.a_lock_refund_spend_tx_id and xmr_swap.a_lock_refund_spend_tx: data['view_tx_hex'] = xmr_swap.a_lock_refund_spend_tx.hex() if view_tx_id == xmr_swap.a_lock_spend_tx_id and xmr_swap.a_lock_spend_tx: data['view_tx_hex'] = xmr_swap.a_lock_spend_tx.hex() if 'view_tx_hex' in data: data['view_tx_desc'] = json.dumps(ci_from.describeTx(data['view_tx_hex']), indent=4) else: if offer.lock_type == TxLockTypes.SEQUENCE_LOCK_TIME: if bid.initiate_tx and bid.initiate_tx.block_time is not None: raw_sequence = ci_from.getExpectedSequence(offer.lock_type, offer.lock_value) seconds_locked = ci_from.decodeSequence(raw_sequence) data['itx_refund_tx_est_final'] = bid.initiate_tx.block_time + seconds_locked if bid.participate_tx and bid.participate_tx.block_time is not None: raw_sequence = ci_to.getExpectedSequence(offer.lock_type, offer.lock_value // 2) seconds_locked = ci_to.decodeSequence(raw_sequence) data['ptx_refund_tx_est_final'] = bid.participate_tx.block_time + seconds_locked return data def listOldBidStates(bid): old_states = [] num_states = len(bid.states) // 12 for i in range(num_states): up = struct.unpack_from(' 0: old_states.sort(key=lambda x: x[0]) return old_states def getCoinName(c): if c == Coins.PART_ANON: return chainparams[Coins.PART]['name'].capitalize() + ' Anon' if c == Coins.PART_BLIND: return chainparams[Coins.PART]['name'].capitalize() + ' Blind' coin_chainparams = chainparams[c] if coin_chainparams.get('use_ticker_as_name', False): return coin_chainparams['ticker'] return coin_chainparams['name'].capitalize() def listAvailableCoins(swap_client, with_variants=True, split_from=False): coins_from = [] coins = [] for k, v in swap_client.coin_clients.items(): if k not in chainparams: continue if v['connection_type'] == 'rpc': coins.append((int(k), getCoinName(k))) if split_from and k not in invalid_coins_from: coins_from.append(coins[-1]) if with_variants and k == Coins.PART: for v in (Coins.PART_ANON, Coins.PART_BLIND): coins.append((int(v), getCoinName(v))) if split_from and v not in invalid_coins_from: coins_from.append(coins[-1]) if split_from: return coins_from, coins return coins def checkAddressesOwned(swap_client, ci, wallet_info): if 'stealth_address' in wallet_info: if wallet_info['stealth_address'] != '?': if not ci.isAddressMine(wallet_info['stealth_address']): ci._log.error('Unowned stealth address: {}'.format(wallet_info['stealth_address'])) wallet_info['stealth_address'] = 'Error: unowned address' elif swap_client._restrict_unknown_seed_wallets and not ci.knownWalletSeed(): wallet_info['stealth_address'] = 'WARNING: Unknown wallet seed' if 'deposit_address' in wallet_info: if wallet_info['deposit_address'] != 'Refresh necessary': if not ci.isAddressMine(wallet_info['deposit_address']): ci._log.error('Unowned deposit address: {}'.format(wallet_info['deposit_address'])) wallet_info['deposit_address'] = 'Error: unowned address' elif swap_client._restrict_unknown_seed_wallets and not ci.knownWalletSeed(): wallet_info['deposit_address'] = 'WARNING: Unknown wallet seed' def validateTextInput(text, name, messages, max_length=None): if max_length is not None and len(text) > max_length: messages.append(f'Error: {name} is too long') return False if len(text) > 0 and all(c.isalnum() or c.isspace() for c in text) is False: messages.append(f'Error: {name} must consist of only letters and digits') return False return True