def validate(address, allow_p2sh=True):
"""Make sure the address is valid.
May throw `AddressError`.
"""
# Get array of pubkeyhashes to check.
if is_multisig(address):
pubkeyhashes = pubkeyhash_array(address)
else:
pubkeyhashes = [address]
# Check validity by attempting to decode.
for pubkeyhash in pubkeyhashes:
try:
if util.enabled('segwit_support'):
if not is_bech32(pubkeyhash):
base58_check_decode(pubkeyhash, config.ADDRESSVERSION)
else:
base58_check_decode(pubkeyhash, config.ADDRESSVERSION)
except VersionByteError as e:
if not allow_p2sh:
raise e
base58_check_decode(pubkeyhash, config.P2SH_ADDRESSVERSION)
except Base58Error as e:
if not util.enabled('segwit_support') or not is_bech32(pubkeyhash):
raise e
def validate(address, allow_p2sh=True):
"""Make sure the address is valid.
May throw `AddressError`.
"""
# Get array of pubkeyhashes to check.
if is_multisig(address):
pubkeyhashes = pubkeyhash_array(address)
else:
pubkeyhashes = [address]
# Check validity by attempting to decode.
for pubkeyhash in pubkeyhashes:
try:
if util.enabled('segwit_support'):
if not is_bech32(pubkeyhash):
base58_check_decode(pubkeyhash, config.ADDRESSVERSION)
else:
base58_check_decode(pubkeyhash, config.ADDRESSVERSION)
except VersionByteError as e:
if not allow_p2sh:
raise e
base58_check_decode(pubkeyhash, config.P2SH_ADDRESSVERSION)
except Base58Error as e:
if not util.enabled('segwit_support') or not is_bech32(pubkeyhash):
raise e
def is_vendable(db, asset):
if asset == config.XCP:
return True # Always vendable.
asset = util.resolve_subasset_longname(db, asset)
cursor = db.cursor()
issuances = list(
cursor.execute(
'''SELECT vendable, reassignable, listed FROM issuances
WHERE (status = ? AND asset = ?)
ORDER BY tx_index DESC LIMIT 1''',
('valid', asset)))
if (len(issuances) <= 0):
return False
vendable = issuances[0]['vendable'] # Use the last issuance.
reassignable = issuances[0]['reassignable']
listed = issuances[0]['listed']
if not util.enabled('dispensers'):
return False
elif not util.enabled('enable_vendable_fix') and (reassignable == False
or listed == False):
return False
else:
return vendable
def validate (db, source, give_asset, give_quantity, get_asset, get_quantity, expiration, fee_required, block_index):
problems = []
cursor = db.cursor()
# For SQLite3
if give_quantity > config.MAX_INT or get_quantity > config.MAX_INT or fee_required > config.MAX_INT or block_index + expiration > config.MAX_INT:
problems.append('integer overflow')
if give_asset == config.BTC and get_asset == config.BTC:
problems.append('cannot trade {} for itself'.format(config.BTC))
if not isinstance(give_quantity, int):
problems.append('give_quantity must be in satoshis')
return problems
if not isinstance(get_quantity, int):
problems.append('get_quantity must be in satoshis')
return problems
if not isinstance(fee_required, int):
problems.append('fee_required must be in satoshis')
return problems
if not isinstance(expiration, int):
problems.append('expiration must be expressed as an integer block delta')
return problems
if give_quantity <= 0: problems.append('non‐positive give quantity')
if get_quantity <= 0: problems.append('non‐positive get quantity')
if fee_required < 0: problems.append('negative fee_required')
if expiration < 0: problems.append('negative expiration')
if expiration == 0 and not (block_index >= 317500 or config.TESTNET or config.REGTEST): # Protocol change.
problems.append('zero expiration')
if not give_quantity or not get_quantity:
problems.append('zero give or zero get')
cursor.execute('SELECT * FROM issuances WHERE (status = ? AND asset = ?) ORDER BY tx_index DESC LIMIT 1', ('valid', give_asset))
valid_give_asset = cursor.fetchone()
if give_asset not in (config.BTC, config.XCP):
if not valid_give_asset:
problems.append('no such asset to give ({})'.format(give_asset))
elif util.enabled('delisted_assets', block_index=block_index) and valid_give_asset['listed'] == 0:
problems.append('Delisted asset ({})'.format(give_asset))
elif util.enabled('non_reassignable_assets', block_index=block_index):
if valid_give_asset['reassignable'] == 0 and valid_give_asset['issuer'] != source:
problems.append('non reassignable asset to give ({})'.format(give_asset))
# Don't check if `get_asset` is reassignable here. The issuer of the non-reassignable asset can be a maker.
cursor.execute('select * from issuances where (status = ? and asset = ?) ORDER BY tx_index DESC LIMIT 1', ('valid', get_asset))
valid_get_asset = cursor.fetchone()
if get_asset not in (config.BTC, config.XCP):
if not valid_get_asset:
problems.append('no such asset to get ({})'.format(get_asset))
elif util.enabled('delisted_assets', block_index=block_index) and valid_get_asset['listed'] == 0:
problems.append('Delisted asset ({})'.format(get_asset))
if expiration > config.MAX_EXPIRATION:
problems.append('expiration overflow')
return problems
def test_mock_protocol_changes(cp_server):
assert util.enabled('multisig_addresses') == True
with util_test.MockProtocolChangesContext(multisig_addresses=False):
assert util.enabled('multisig_addresses') == False
with util_test.MockProtocolChangesContext(multisig_addresses=None):
assert util.enabled('multisig_addresses') == None
assert util.enabled('multisig_addresses') == False
assert util.enabled('multisig_addresses') == True
def test_mock_protocol_changes(cp_server):
assert util.enabled('multisig_addresses') == True
with util_test.MockProtocolChangesContext(multisig_addresses=False):
assert util.enabled('multisig_addresses') == False
with util_test.MockProtocolChangesContext(multisig_addresses=None):
assert util.enabled('multisig_addresses') == None
assert util.enabled('multisig_addresses') == False
assert util.enabled('multisig_addresses') == True
def validate(db, source, timestamp, value, fee_fraction_int, text,
block_index):
problems = []
# For SQLite3
if timestamp > config.MAX_INT or value > config.MAX_INT or fee_fraction_int > config.MAX_INT:
problems.append('integer overflow')
if util.enabled('max_fee_fraction'):
if fee_fraction_int >= config.UNIT:
problems.append('fee fraction greater than or equal to 1')
else:
if fee_fraction_int > 4294967295:
problems.append('fee fraction greater than 42.94967295')
if timestamp < 0: problems.append('negative timestamp')
if not source:
problems.append('null source address')
# Check previous broadcast in this feed.
cursor = db.cursor()
broadcasts = list(
cursor.execute(
'''SELECT * FROM broadcasts WHERE (status = ? AND source = ?) ORDER BY tx_index ASC''',
('valid', source)))
cursor.close()
if broadcasts:
last_broadcast = broadcasts[-1]
if last_broadcast['locked']:
problems.append('locked feed')
elif timestamp <= last_broadcast['timestamp']:
problems.append('feed timestamps not monotonically increasing')
if not (block_index >= 317500 or config.TESTNET): # Protocol change.
if len(text) > 52:
problems.append('text too long')
if util.enabled('options_require_memo') and text and text.lower(
).startswith('options'):
ops_spl = text.split(" ")
if len(ops_spl) == 2:
try:
options_int = int(ops_spl.pop())
if (options_int > config.MAX_INT) or (options_int < 0):
problems.append('integer overflow')
elif options_int > config.ADDRESS_OPTION_MAX_VALUE:
problems.append('options out of range')
except:
problems.append('options not an integer')
return problems
def validate(db, source, timestamp, value, fee_fraction_int, text,
block_index):
problems = []
# For SQLite3
if timestamp > config.MAX_INT or value > config.MAX_INT or fee_fraction_int > config.MAX_INT:
problems.append('integer overflow')
if util.enabled('max_fee_fraction'):
if fee_fraction_int >= config.UNIT:
problems.append('fee fraction greater than or equal to 1')
else:
if fee_fraction_int > 4294967295:
problems.append('fee fraction greater than 42.94967295')
if timestamp < 0: problems.append('negative timestamp')
if not source:
problems.append('null source address')
# Check previous broadcast in this feed.
cursor = db.cursor()
broadcasts = list(
cursor.execute(
'''SELECT * FROM broadcasts WHERE (status = ? AND source = ?) ORDER BY tx_index ASC''',
('valid', source)))
cursor.close()
if broadcasts:
last_broadcast = broadcasts[-1]
if last_broadcast['locked']:
problems.append('locked feed')
elif timestamp <= last_broadcast['timestamp']:
problems.append('feed timestamps not monotonically increasing')
if not (block_index >= 317500 or config.TESTNET
or config.REGTEST): # Protocol change.
if len(text) > 52:
problems.append('text too long')
if util.enabled('options_require_memo') and text and text.lower(
).startswith('options'):
try:
# Check for options and if they are valid.
options = util.parse_options_from_string(text)
if options is not False:
util.validate_address_options(options)
except exceptions.OptionsError as e:
problems.append(str(e))
return problems
def validate (db, source, destination, asset, quantity, memo_bytes, block_index):
problems = []
if asset == config.BTC: problems.append('cannot send {}'.format(config.BTC))
if not isinstance(quantity, int):
problems.append('quantity must be in satoshis')
return problems
if quantity < 0:
problems.append('negative quantity')
if quantity == 0:
problems.append('zero quantity')
# For SQLite3
if quantity > config.MAX_INT:
problems.append('integer overflow')
# destination is always required
if not destination:
problems.append('destination is required')
# check memo
if memo_bytes is not None and len(memo_bytes) > MAX_MEMO_LENGTH:
problems.append('memo is too long')
if util.enabled('options_require_memo'):
cursor = db.cursor()
results = cursor.execute('SELECT options FROM addresses WHERE address=?', (destination,))
if results:
result = results.fetchone()
if result and util.active_options(result['options'], config.ADDRESS_OPTION_REQUIRE_MEMO):
if memo_bytes is None or (len(memo_bytes) == 0):
problems.append('destination requires memo')
if util.enabled('non_reassignable_assets') and asset != config.BTC and asset != config.XCP:
cursor = db.cursor()
# verify not senging non-reassignable asset
issuances = list(cursor.execute('''SELECT * FROM issuances
WHERE asset = ? AND status = ? ORDER BY tx_index DESC LIMIT 1''',
(asset, 'valid')))
if not issuances:
problems.append('issuance not found (system error?)')
elif not issuances[0]['reassignable'] and issuances[0]['issuer'] != source and issuances[0]['issuer'] != destination:
problems.append('non-reassignable asset')
return problems
def validate (db, source, destination, flags, memo_bytes, block_index):
problems = []
if not util.enabled('sweep_send'):
problems.append('not activated yet.')
if source == destination:
problems.append('destination cannot be the same as source')
cursor = db.cursor()
cursor.execute('''SELECT * FROM balances WHERE (address = ? AND asset = ?)''', (source, config.XCP))
result = cursor.fetchall()
if len(result) == 0:
problems.append('insufficient XMP balance for sweep. Need %s XMP for antispam fee' % ANTISPAM_FEE_FLOAT)
elif result[0]['quantity'] < ANTISPAM_FEE:
problems.append('insufficient XMP balance for sweep. Need %s XMP for antispam fee' % ANTISPAM_FEE_FLOAT)
if flags > FLAGS_ALL:
problems.append('invalid flags %i' % flags)
elif not(flags & (FLAG_BALANCES | FLAG_OWNERSHIP)):
problems.append('must specify which kind of transfer in flags')
if memo_bytes and len(memo_bytes) > MAX_MEMO_LENGTH:
problems.append('memo too long')
return problems
def validate (db, source, timestamp, value, fee_fraction_int, text, block_index):
problems = []
if util.enabled('max_fee_fraction'):
if fee_fraction_int >= config.UNIT:
problems.append('fee fraction greater than or equal to 1')
else:
if fee_fraction_int > 4294967295:
problems.append('fee fraction greater than 42.94967295')
if timestamp < 0: problems.append('negative timestamp')
if not source:
problems.append('null source address')
# Check previous broadcast in this feed.
cursor = db.cursor()
broadcasts = list(cursor.execute('''SELECT * FROM broadcasts WHERE (status = ? AND source = ?) ORDER BY tx_index ASC''', ('valid', source)))
cursor.close()
if broadcasts:
last_broadcast = broadcasts[-1]
if last_broadcast['locked']:
problems.append('locked feed')
elif timestamp <= last_broadcast['timestamp']:
problems.append('feed timestamps not monotonically increasing')
if not (block_index >= 317500 or config.TESTNET): # Protocol change.
if len(text) > 52:
problems.append('text too long')
return problems
def pack(message_type_id, block_index=None):
# pack message ID into 1 byte if not zero
if util.enabled('short_tx_type_id', block_index) and message_type_id > 0 and message_type_id < 256:
return struct.pack(config.SHORT_TXTYPE_FORMAT, message_type_id)
# pack into 4 bytes
return struct.pack(config.TXTYPE_FORMAT, message_type_id)
def validate (db, source, timestamp, value, fee_fraction_int, text, block_index):
problems = []
if util.enabled('max_fee_fraction'):
if fee_fraction_int >= config.UNIT:
problems.append('fee fraction greater than or equal to 1')
else:
if fee_fraction_int > 4294967295:
problems.append('fee fraction greater than 42.94967295')
if timestamp < 0: problems.append('negative timestamp')
if not source:
problems.append('null source address')
# Check previous broadcast in this feed.
cursor = db.cursor()
broadcasts = list(cursor.execute('''SELECT * FROM broadcasts WHERE (status = ? AND source = ?) ORDER BY tx_index ASC''', ('valid', source)))
cursor.close()
if broadcasts:
last_broadcast = broadcasts[-1]
if last_broadcast['locked']:
problems.append('locked feed')
elif timestamp <= last_broadcast['timestamp']:
problems.append('feed timestamps not monotonically increasing')
if not (block_index >= 317500 or config.TESTNET): # Protocol change.
if len(text) > 52:
problems.append('text too long')
return problems
def make_pubkeyhash(address):
"""Create a new PubKeyHash."""
if is_multisig(address):
signatures_required, pubs, signatures_possible = extract_array(address)
pubkeyhashes = []
for pub in pubs:
if is_pubkeyhash(pub):
pubkeyhash = pub
else:
pubkeyhash = pubkey_to_pubkeyhash(
binascii.unhexlify(bytes(pub, 'utf-8')))
pubkeyhashes.append(pubkeyhash)
pubkeyhash_address = construct_array(signatures_required, pubkeyhashes,
signatures_possible)
else:
if util.enabled('segwit_support') and is_bech32(address):
pubkeyhash_address = address # Some bech32 addresses are valid base58 data
elif is_pubkeyhash(address):
pubkeyhash_address = address
elif is_p2sh(address):
pubkeyhash_address = address
else:
pubkeyhash_address = pubkey_to_pubkeyhash(
binascii.unhexlify(bytes(address, 'utf-8')))
return pubkeyhash_address
def compose(db, source, timestamp, value, fee_fraction, text):
# Store the fee fraction as an integer.
fee_fraction_int = int(fee_fraction * 1e8)
problems = validate(db, source, timestamp, value, fee_fraction_int, text,
util.CURRENT_BLOCK_INDEX)
if problems: raise exceptions.ComposeError(problems)
data = struct.pack(config.TXTYPE_FORMAT, ID)
# always use custom length byte instead of problematic usage of 52p format and make sure to encode('utf-8') for length
if util.enabled('broadcast_pack_text'):
data += struct.pack(FORMAT, timestamp, value, fee_fraction_int)
data += VarIntSerializer.serialize(len(text.encode('utf-8')))
data += text.encode('utf-8')
else:
if len(text) <= 52:
curr_format = FORMAT + '{}p'.format(len(text) + 1)
else:
curr_format = FORMAT + '{}s'.format(len(text))
data += struct.pack(curr_format, timestamp, value, fee_fraction_int,
text.encode('utf-8'))
return (source, [], data)
def dispense(db, tx):
cursor = db.cursor()
cursor.execute('SELECT * FROM dispensers WHERE source=:source AND status=:status ORDER BY asset', {
'source': tx['destination'],
'status': STATUS_OPEN
})
dispensers = cursor.fetchall()
dispense_index = 0
for dispenser in dispensers:
satoshirate = dispenser['satoshirate']
give_quantity = dispenser['give_quantity']
if satoshirate > 0 and give_quantity > 0:
must_give = int(floor(tx['btc_amount'] / satoshirate))
remaining = int(floor(dispenser['give_remaining'] / give_quantity))
actually_given = min(must_give, remaining) * give_quantity
give_remaining = dispenser['give_remaining'] - actually_given
assert give_remaining >= 0
# Skip dispense if quantity is 0
if util.enabled('zero_quantity_value_adjustment_1') and actually_given==0:
continue
util.credit(db, tx['source'], dispenser['asset'], actually_given, action='dispense', event=tx['tx_hash'])
dispenser['give_remaining'] = give_remaining
if give_remaining < dispenser['give_quantity']:
# close the dispenser
dispenser['give_remaining'] = 0
if give_remaining > 0:
# return the remaining to the owner
util.credit(db, dispenser['source'], dispenser['asset'], give_remaining, action='dispenser close', event=tx['tx_hash'])
dispenser['status'] = STATUS_CLOSED
dispenser['block_index'] = tx['block_index']
dispenser['prev_status'] = STATUS_OPEN
cursor.execute('UPDATE DISPENSERS SET give_remaining=:give_remaining, status=:status \
WHERE source=:source AND asset=:asset AND satoshirate=:satoshirate AND give_quantity=:give_quantity AND status=:prev_status', dispenser)
bindings = {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'dispense_index': dispense_index,
'block_index': tx['block_index'],
'source': tx['destination'],
'destination': tx['source'],
'asset': dispenser['asset'],
'dispense_quantity': actually_given,
'dispenser_tx_hash': dispenser['tx_hash']
}
sql = 'INSERT INTO dispenses(tx_index, dispense_index, tx_hash, block_index, source, destination, asset, dispense_quantity, dispenser_tx_hash) \
VALUES(:tx_index, :dispense_index, :tx_hash, :block_index, :source, :destination, :asset, :dispense_quantity, :dispenser_tx_hash);'
cursor.execute(sql, bindings)
dispense_index += 1
cursor.close()
def validate (db, source, asset_, give_quantity, escrow_quantity, mainchainrate, status, block_index):
problems = []
asset_id = None
if not util.enabled('dispensers'):
problems.append('not activated yet.')
if asset_ == config.BTC:
problems.append('cannot dispense %s' % config.BTC)
return None, problems
# resolve subassets
asset = util.resolve_subasset_longname(db, asset_)
if status == STATUS_OPEN:
if not issuance.is_vendable(db, asset):
problems.append('asset "%s" is not vendable' % asset_)
if give_quantity <= 0: problems.append('give_quantity must be positive')
if mainchainrate <= 0: problems.append('mainchainrate must be positive')
if escrow_quantity < give_quantity:
problems.append('escrow_quantity must be greater or equal than give_quantity')
elif not(status == STATUS_CLOSED):
problems.append('invalid status %i' % status)
cursor = db.cursor()
cursor.execute('''SELECT quantity FROM balances \
WHERE address = ? and asset = ?''', (source,asset,))
available = cursor.fetchall()
if len(available) == 0:
problems.append('address doesn\'t has the asset %s' % asset_)
elif len(available) >= 1 and available[0]['quantity'] < escrow_quantity:
problems.append('address doesn\'t has enough balance of %s (%i < %i)' % (asset_, available[0]['quantity'], escrow_quantity))
else:
cursor.execute('''SELECT * FROM dispensers WHERE source = ? AND asset = ? AND status=?''', (source, asset, STATUS_OPEN))
open_dispensers = cursor.fetchall()
if status == STATUS_OPEN:
if len(open_dispensers) > 0 and open_dispensers[0]['satoshirate'] != mainchainrate:
problems.append('address has a dispenser already opened for asset %s with a different mainchainrate' % asset_)
if len(open_dispensers) > 0 and open_dispensers[0]['give_quantity'] != give_quantity:
problems.append('address has a dispenser already opened for asset %s with a different give_quantity' % asset_)
elif status == STATUS_CLOSED:
if len(open_dispensers) == 0:
problems.append('address doesnt has an open dispenser for asset %s' % asset_)
if len(problems) == 0:
asset_id = util.generate_asset_id(asset, block_index)
if asset_id == 0:
problems.append('cannot dispense %s' % asset_) # How can we test this on a test vector?
if give_quantity > config.MAX_INT or escrow_quantity > config.MAX_INT or mainchainrate > config.MAX_INT:
problems.append('integer overflow')
if len(problems) > 0:
return None, problems
else:
return asset_id, None
def dispense(db, tx):
cursor = db.cursor()
cursor.execute('SELECT * FROM dispensers WHERE source=:source AND status=:status', {
'source': tx['destination'],
'status': STATUS_OPEN
})
dispensers = cursor.fetchall()
dispense_logs = []
for dispenser in dispensers:
# They should be rejected in `validate()`.
assert dispenser['satoshirate'] > 0
assert dispenser['give_quantity'] > 0
must_give = int(floor(tx['btc_amount'] / dispenser['satoshirate']))
remaining = int(floor(dispenser['give_remaining'] / dispenser['give_quantity']))
actually_given = min(must_give, remaining) * dispenser['give_quantity']
give_remaining = dispenser['give_remaining'] - actually_given
assert give_remaining >= 0
# Skip dispense if quantity is 0
if util.enabled('zero_quantity_value_adjustment_1') and actually_given==0:
continue
util.credit(db, tx['source'], dispenser['asset'], actually_given, action='dispense', event=tx['tx_hash'])
dispense_logs.append({
"tx_index": tx['tx_index'],
"tx_hash": tx['tx_hash'],
"block_index": tx['block_index'],
"source": tx['source'],
"destination": tx['destination'],
"asset": dispenser['asset'],
"must_give": must_give,
"remaining": remaining,
"actually_given": actually_given,
"satoshirate": dispenser['satoshirate'],
"dispenser_tx_hash": dispenser['tx_hash']
})
dispenser['give_remaining'] = give_remaining
if give_remaining < dispenser['give_quantity']:
# close the dispenser
dispenser['give_remaining'] = 0
if give_remaining > 0:
# return the remaining to the owner
util.credit(db, dispenser['source'], dispenser['asset'], give_remaining, action='dispenser close', event=tx['tx_hash'])
dispenser['status'] = STATUS_CLOSED
dispenser['block_index'] = tx['block_index']
dispenser['prev_status'] = STATUS_OPEN
cursor.execute('UPDATE DISPENSERS SET give_remaining=:give_remaining, status=:status \
WHERE source=:source AND asset=:asset AND satoshirate=:satoshirate AND give_quantity=:give_quantity AND status=:prev_status', dispenser)
for log in dispense_logs:
cursor.execute('INSERT INTO DISPENSES VALUES (:tx_index, :tx_hash, :block_index, :source, :destination, :asset, :must_give, :remaining, :actually_given, :satoshirate, :dispenser_tx_hash)', log)
def compose (db, source, destination, asset, quantity, memo=None, memo_is_hex=False, use_enhanced_send=None):
# special case - enhanced_send replaces send by default when it is enabled
# but it can be explicitly disabled with an API parameter
if util.enabled('enhanced_sends'):
if use_enhanced_send is None or use_enhanced_send == True:
return enhanced_send.compose(db, source, destination, asset, quantity, memo, memo_is_hex)
elif memo is not None or use_enhanced_send == True:
raise exceptions.ComposeError('enhanced sends are not enabled')
return send1.compose(db, source, destination, asset, quantity)
def expire (db, block_index):
cursor = db.cursor()
# Expire orders and give refunds for the quantity give_remaining (if non-zero; if not BTC).
cursor.execute('''SELECT * FROM orders \
WHERE (status = ? AND expire_index < ?)''', ('open', block_index))
orders = list(cursor)
for order in orders:
cancel_order(db, order, 'expired', block_index)
# Expire order_matches for BTC with no BTC.
cursor.execute('''SELECT * FROM order_matches \
WHERE (status = ? and match_expire_index < ?)''', ('pending', block_index))
order_matches = list(cursor)
for order_match in order_matches:
cancel_order_match(db, order_match, 'expired', block_index)
# Expire btc sell order if match expires
if util.enabled('btc_sell_expire_on_match_expire'):
# Check for other pending order matches involving either tx0_hash or tx1_hash
bindings = {
'status': 'pending',
'tx0_hash': order_match['tx0_hash'],
'tx1_hash': order_match['tx1_hash']
}
sql='select * from order_matches where status = :status and ((tx0_hash in (:tx0_hash, :tx1_hash)) or ((tx1_hash in (:tx0_hash, :tx1_hash))))'
cursor.execute(sql, bindings)
order_matches_pending = cursor.fetchall()
# Set BTC sell order status as expired only if there are no pending order matches
if len(order_matches_pending) == 0:
if order_match['backward_asset'] == "BTC" and order_match['status'] == "expired":
cursor.execute('''SELECT * FROM orders \
WHERE tx_hash = ?''', (order_match['tx1_hash'],))
cancel_order(db, list(cursor)[0], 'expired', block_index)
if order_match['forward_asset'] == "BTC" and order_match['status'] == "expired":
cursor.execute('''SELECT * FROM orders \
WHERE tx_hash = ?''', (order_match['tx0_hash'],))
cancel_order(db, list(cursor)[0], 'expired', block_index)
if block_index >= 315000 or config.TESTNET or config.REGTEST: # Protocol change.
# Re‐match.
for order_match in order_matches:
cursor.execute('''SELECT * FROM transactions\
WHERE tx_hash = ?''', (order_match['tx0_hash'],))
match(db, list(cursor)[0], block_index)
cursor.execute('''SELECT * FROM transactions\
WHERE tx_hash = ?''', (order_match['tx1_hash'],))
match(db, list(cursor)[0], block_index)
cursor.close()
def expire (db, block_index):
cursor = db.cursor()
# Expire orders and give refunds for the quantity give_remaining (if non-zero; if not BTC).
cursor.execute('''SELECT * FROM orders \
WHERE (status = ? AND expire_index < ?)''', ('open', block_index))
orders = list(cursor)
for order in orders:
cancel_order(db, order, 'expired', block_index)
# Expire order_matches for BTC with no BTC.
cursor.execute('''SELECT * FROM order_matches \
WHERE (status = ? and match_expire_index < ?)''', ('pending', block_index))
order_matches = list(cursor)
for order_match in order_matches:
cancel_order_match(db, order_match, 'expired', block_index)
# Expire btc sell order if match expires
if util.enabled('btc_sell_expire_on_match_expire'):
# Check for other pending order matches involving either tx0_hash or tx1_hash
bindings = {
'status': 'pending',
'tx0_hash': order_match['tx0_hash'],
'tx1_hash': order_match['tx1_hash']
}
sql='select * from order_matches where status = :status and ((tx0_hash in (:tx0_hash, :tx1_hash)) or ((tx1_hash in (:tx0_hash, :tx1_hash))))'
cursor.execute(sql, bindings)
order_matches_pending = cursor.fetchall()
# Set BTC sell order status as expired only if there are no pending order matches
if len(order_matches_pending) == 0:
if order_match['backward_asset'] == "BTC" and order_match['status'] == "expired":
cursor.execute('''SELECT * FROM orders \
WHERE tx_hash = ?''', (order_match['tx1_hash'],))
cancel_order(db, list(cursor)[0], 'expired', block_index)
if order_match['forward_asset'] == "BTC" and order_match['status'] == "expired":
cursor.execute('''SELECT * FROM orders \
WHERE tx_hash = ?''', (order_match['tx0_hash'],))
cancel_order(db, list(cursor)[0], 'expired', block_index)
if block_index >= 315000 or config.TESTNET or config.REGTEST: # Protocol change.
# Re‐match.
for order_match in order_matches:
cursor.execute('''SELECT * FROM transactions\
WHERE tx_hash = ?''', (order_match['tx0_hash'],))
match(db, list(cursor)[0], block_index)
cursor.execute('''SELECT * FROM transactions\
WHERE tx_hash = ?''', (order_match['tx1_hash'],))
match(db, list(cursor)[0], block_index)
cursor.close()
def get_tx_info(tx_hex, block_parser=None, block_index=None):
"""Get the transaction info. Calls one of two subfunctions depending on signature type."""
if not block_index:
block_index = util.CURRENT_BLOCK_INDEX
try:
if util.enabled('multisig_addresses', block_index=block_index): # Protocol change.
tx_info = get_tx_info2(tx_hex, block_parser=block_parser)
else:
tx_info = get_tx_info1(tx_hex, block_index, block_parser=block_parser)
except (DecodeError, BTCOnlyError) as e:
# NOTE: For debugging, logger.debug('Could not decode: ' + str(e))
tx_info = b'', None, None, None, None
return tx_info
def extract_pubkeys(pub):
"""Assume pubkey if not pubkeyhash. (Check validity later.)"""
pubkeys = []
if is_multisig(pub):
_, pubs, _ = extract_array(pub)
for pub in pubs:
if not is_pubkeyhash(pub):
pubkeys.append(pub)
elif is_p2sh(pub):
pass
elif util.enabled('segwit_support') and is_bech32(pub):
pass
else:
if not is_pubkeyhash(pub):
pubkeys.append(pub)
return pubkeys
def extract_pubkeys(pub):
"""Assume pubkey if not pubkeyhash. (Check validity later.)"""
pubkeys = []
if is_multisig(pub):
_, pubs, _ = extract_array(pub)
for pub in pubs:
if not is_pubkeyhash(pub):
pubkeys.append(pub)
elif is_p2sh(pub):
pass
elif util.enabled('segwit_support') and is_bech32(pub):
pass
else:
if not is_pubkeyhash(pub):
pubkeys.append(pub)
return pubkeys
def get_tx_list(block):
raw_transactions = {}
tx_hash_list = []
for ctx in block.vtx:
if util.enabled('correct_segwit_txids'):
hsh = ctx.GetTxid()
else:
hsh = ctx.GetHash()
tx_hash = bitcoinlib.core.b2lx(hsh)
raw = ctx.serialize()
tx_hash_list.append(tx_hash)
raw_transactions[tx_hash] = bitcoinlib.core.b2x(raw)
return (tx_hash_list, raw_transactions)
def validate(db, source, destination, asset, quantity, block_index):
try:
util.get_asset_id(db, asset, block_index)
except AssetError:
raise ValidateError('asset invalid')
try:
script.validate(source)
except AddressError:
raise ValidateError('source address invalid')
try:
script.validate(destination)
except AddressError:
raise ValidateError('destination address invalid')
if asset == config.BTC:
raise ValidateError('cannot send {}'.format(config.BTC))
if type(quantity) != int:
raise ValidateError('quantity not integer')
if quantity > config.MAX_INT:
raise ValidateError('quantity too large')
if quantity <= 0:
raise ValidateError('quantity non‐positive')
if util.get_balance(db, source, asset) < quantity:
raise BalanceError('balance insufficient')
if util.enabled('options_require_memo'):
# Check destination address options
cursor = db.cursor()
try:
results = cursor.execute(
'SELECT options FROM addresses WHERE address=?',
(destination, ))
if results:
result = results.fetchone()
if result and result[
'options'] & config.ADDRESS_OPTION_REQUIRE_MEMO:
raise ValidateError('destination requires memo')
finally:
cursor.close()
def get_tx_info(tx_hex, block_parser=None, block_index=None):
"""Get the transaction info. Calls one of two subfunctions depending on signature type."""
if not block_index:
block_index = util.CURRENT_BLOCK_INDEX
try:
if util.enabled('multisig_addresses',
block_index=block_index): # Protocol change.
tx_info = get_tx_info2(tx_hex, block_parser=block_parser)
else:
tx_info = get_tx_info1(tx_hex,
block_index,
block_parser=block_parser)
except (DecodeError, BTCOnlyError) as e:
# NOTE: For debugging, logger.debug('Could not decode: ' + str(e))
tx_info = b'', None, None, None, None
return tx_info
def validate(db, source, destination, asset, quantity, memo_bytes,
block_index):
problems = []
if asset == config.BTC:
problems.append('cannot send {}'.format(config.BTC))
if not isinstance(quantity, int):
problems.append('quantity must be in satoshis')
return problems
if quantity < 0:
problems.append('negative quantity')
if quantity == 0:
problems.append('zero quantity')
# For SQLite3
if quantity > config.MAX_INT:
problems.append('integer overflow')
# destination is always required
if not destination:
problems.append('destination is required')
# check memo
if memo_bytes is not None and len(memo_bytes) > MAX_MEMO_LENGTH:
problems.append('memo is too long')
if util.enabled('options_require_memo'):
cursor = db.cursor()
try:
results = cursor.execute(
'SELECT options FROM addresses WHERE address=?',
(destination, ))
if results:
result = results.fetchone()
if result and result[
'options'] & config.ADDRESS_OPTION_REQUIRE_MEMO:
if memo_bytes is None or (len(memo_bytes) == 0):
problems.append('destination requires memo')
finally:
cursor.close()
return problems
def unpack(packed_data, block_index=None):
message_type_id = None
message_remainder = None
if len(packed_data) > 1:
# try to read 1 byte first
if util.enabled('short_tx_type_id', block_index):
message_type_id = struct.unpack(config.SHORT_TXTYPE_FORMAT, packed_data[:1])[0]
if message_type_id > 0:
message_remainder = packed_data[1:]
return (message_type_id, message_remainder)
# First message byte was 0. We will read 4 bytes
if len(packed_data) > 4:
message_type_id = struct.unpack(config.TXTYPE_FORMAT, packed_data[:4])[0]
message_remainder = packed_data[4:]
return (message_type_id, message_remainder)
def compose(db,
source,
destination,
asset,
quantity,
memo=None,
memo_is_hex=False,
use_enhanced_send=None):
# special case - enhanced_send replaces send by default when it is enabled
# but it can be explicitly disabled with an API parameter
if util.enabled('enhanced_sends'):
if use_enhanced_send is None or use_enhanced_send == True:
return enhanced_send.compose(db, source, destination, asset,
quantity, memo, memo_is_hex)
elif memo is not None or use_enhanced_send == True:
raise exceptions.ComposeError('enhanced sends are not enabled')
return send1.compose(db, source, destination, asset, quantity)
def validate (db, source, destination, asset, quantity, memo_bytes, block_index):
problems = []
if asset == config.BTC: problems.append('cannot send {}'.format(config.BTC))
if not isinstance(quantity, int):
problems.append('quantity must be in satoshis')
return problems
if quantity < 0:
problems.append('negative quantity')
if quantity == 0:
problems.append('zero quantity')
# For SQLite3
if quantity > config.MAX_INT:
problems.append('integer overflow')
# destination is always required
if not destination:
problems.append('destination is required')
# check memo
if memo_bytes is not None and len(memo_bytes) > MAX_MEMO_LENGTH:
problems.append('memo is too long')
if util.enabled('options_require_memo'):
cursor = db.cursor()
try:
results = cursor.execute('SELECT options FROM addresses WHERE address=?', (destination,))
if results:
result = results.fetchone()
if result and util.active_options(result['options'], config.ADDRESS_OPTION_REQUIRE_MEMO):
if memo_bytes is None or (len(memo_bytes) == 0):
problems.append('destination requires memo')
finally:
cursor.close()
return problems
def validate(db, source, possible_moves, wager, move_random_hash, expiration,
block_index):
problems = []
if util.enabled('disable_rps'):
problems.append('rps disabled')
if not isinstance(possible_moves, int):
problems.append('possible_moves must be a integer')
return problems
if not isinstance(wager, int):
problems.append('wager must be in satoshis')
return problems
if not isinstance(expiration, int):
problems.append(
'expiration must be expressed as an integer block delta')
return problems
if not all(c in string.hexdigits for c in move_random_hash):
problems.append('move_random_hash must be an hexadecimal string')
return problems
move_random_hash_bytes = binascii.unhexlify(move_random_hash)
if possible_moves < 3:
problems.append('possible moves must be at least 3')
if possible_moves % 2 == 0:
problems.append('possible moves must be odd')
if wager <= 0:
problems.append('non‐positive wager')
if expiration < 0: problems.append('negative expiration')
if expiration == 0 and not (block_index >= 317500 or config.TESTNET
or config.REGTEST): # Protocol change.
problems.append('zero expiration')
if expiration > config.MAX_EXPIRATION:
problems.append('expiration overflow')
if len(move_random_hash_bytes) != 32:
problems.append(
'move_random_hash must be 32 bytes in hexadecimal format')
return problems
def make_pubkeyhash(address):
"""Create a new PubKeyHash."""
if is_multisig(address):
signatures_required, pubs, signatures_possible = extract_array(address)
pubkeyhashes = []
for pub in pubs:
if is_pubkeyhash(pub):
pubkeyhash = pub
else:
pubkeyhash = pubkey_to_pubkeyhash(binascii.unhexlify(bytes(pub, 'utf-8')))
pubkeyhashes.append(pubkeyhash)
pubkeyhash_address = construct_array(signatures_required, pubkeyhashes, signatures_possible)
else:
if util.enabled('segwit_support') and is_bech32(address):
pubkeyhash_address = address # Some bech32 addresses are valid base58 data
elif is_pubkeyhash(address):
pubkeyhash_address = address
elif is_p2sh(address):
pubkeyhash_address = address
else:
pubkeyhash_address = pubkey_to_pubkeyhash(binascii.unhexlify(bytes(address, 'utf-8')))
return pubkeyhash_address
def validate(db, source, timestamp, value, fee_fraction_int, text, block_index):
problems = []
# For SQLite3
if timestamp > config.MAX_INT or value > config.MAX_INT or fee_fraction_int > config.MAX_INT:
problems.append("integer overflow")
if util.enabled("max_fee_fraction"):
if fee_fraction_int >= config.UNIT:
problems.append("fee fraction greater than or equal to 1")
else:
if fee_fraction_int > 4294967295:
problems.append("fee fraction greater than 42.94967295")
if timestamp < 0:
problems.append("negative timestamp")
if not source:
problems.append("null source address")
# Check previous broadcast in this feed.
cursor = db.cursor()
broadcasts = list(
cursor.execute(
"""SELECT * FROM broadcasts WHERE (status = ? AND source = ?) ORDER BY tx_index ASC""", ("valid", source)
)
)
cursor.close()
if broadcasts:
last_broadcast = broadcasts[-1]
if last_broadcast["locked"]:
problems.append("locked feed")
elif timestamp <= last_broadcast["timestamp"]:
problems.append("feed timestamps not monotonically increasing")
if not (block_index >= 317500 or config.TESTNET): # Protocol change.
if len(text) > 52:
problems.append("text too long")
return problems
def compose (db, source, timestamp, value, fee_fraction, text):
# Store the fee fraction as an integer.
fee_fraction_int = int(fee_fraction * 1e8)
problems = validate(db, source, timestamp, value, fee_fraction_int, text, util.CURRENT_BLOCK_INDEX)
if problems: raise exceptions.ComposeError(problems)
data = struct.pack(config.TXTYPE_FORMAT, ID)
# always use custom length byte instead of problematic usage of 52p format and make sure to encode('utf-8') for length
if util.enabled('broadcast_pack_text'):
data += struct.pack(FORMAT, timestamp, value, fee_fraction_int)
data += VarIntSerializer.serialize(len(text.encode('utf-8')))
data += text.encode('utf-8')
else:
if len(text) <= 52:
curr_format = FORMAT + '{}p'.format(len(text) + 1)
else:
curr_format = FORMAT + '{}s'.format(len(text))
data += struct.pack(curr_format, timestamp, value, fee_fraction_int, text.encode('utf-8'))
return (source, [], data)
def compose(db, source, asset_dest_quant_list, memo, memo_is_hex):
cursor = db.cursor()
out_balances = util.accumulate([(t[0], t[2])
for t in asset_dest_quant_list])
for (asset, quantity) in out_balances:
if util.enabled('mpma_subasset_support'):
# resolve subassets
asset = util.resolve_subasset_longname(db, asset)
if not isinstance(quantity, int):
raise exceptions.ComposeError(
'quantities must be an int (in satoshis) for {}'.format(asset))
balances = list(
cursor.execute(
'''SELECT * FROM balances WHERE (address = ? AND asset = ?)''',
(source, asset)))
if not balances or balances[0]['quantity'] < quantity:
raise exceptions.ComposeError(
'insufficient funds for {}'.format(asset))
block_index = util.CURRENT_BLOCK_INDEX
cursor.close()
problems = validate(db, source, asset_dest_quant_list, block_index)
if problems: raise exceptions.ComposeError(problems)
data = message_type.pack(ID)
data += _encode_mpmaSend(db,
asset_dest_quant_list,
block_index,
memo=memo,
memo_is_hex=memo_is_hex)
return (source, [], data)
def validate (db, source, possible_moves, wager, move_random_hash, expiration, block_index):
problems = []
if util.enabled('disable_rps'):
problems.append('rps disabled')
if not isinstance(possible_moves, int):
problems.append('possible_moves must be a integer')
return problems
if not isinstance(wager, int):
problems.append('wager must be in satoshis')
return problems
if not isinstance(expiration, int):
problems.append('expiration must be expressed as an integer block delta')
return problems
if not all(c in string.hexdigits for c in move_random_hash):
problems.append('move_random_hash must be an hexadecimal string')
return problems
move_random_hash_bytes = binascii.unhexlify(move_random_hash)
if possible_moves < 3:
problems.append('possible moves must be at least 3')
if possible_moves % 2 == 0:
problems.append('possible moves must be odd')
if wager <= 0:
problems.append('non‐positive wager')
if expiration < 0: problems.append('negative expiration')
if expiration == 0 and not (block_index >= 317500 or config.TESTNET or config.REGTEST): # Protocol change.
problems.append('zero expiration')
if expiration > config.MAX_EXPIRATION:
problems.append('expiration overflow')
if len(move_random_hash_bytes) != 32:
problems.append('move_random_hash must be 32 bytes in hexadecimal format')
return problems
def validate (db, source, quantity_per_unit, asset, dividend_asset, block_index):
cursor = db.cursor()
problems = []
if asset == config.BTC:
problems.append('cannot pay dividends to holders of {}'.format(config.BTC))
if asset == config.XCP:
if (not block_index >= 317500) or block_index >= 320000 or config.TESTNET or config.REGTEST: # Protocol change.
problems.append('cannot pay dividends to holders of {}'.format(config.XCP))
if quantity_per_unit <= 0:
problems.append('non‐positive quantity per unit')
# For SQLite3
if quantity_per_unit > config.MAX_INT:
problems.append('integer overflow')
# Examine asset.
issuances = list(cursor.execute('''SELECT * FROM issuances WHERE (status = ? AND asset = ?) ORDER BY tx_index ASC''', ('valid', asset)))
if not issuances:
problems.append('no such asset, {}.'.format(asset))
return None, None, problems, 0
divisible = issuances[0]['divisible']
# Only issuer can pay dividends.
if block_index >= 320000 or config.TESTNET or config.REGTEST: # Protocol change.
if issuances[-1]['issuer'] != source:
problems.append('only issuer can pay dividends')
# Examine dividend asset.
if dividend_asset in (config.BTC, config.XCP):
dividend_divisible = True
else:
issuances = list(cursor.execute('''SELECT * FROM issuances WHERE (status = ? AND asset = ?)''', ('valid', dividend_asset)))
if not issuances:
problems.append('no such dividend asset, {}.'.format(dividend_asset))
return None, None, problems, 0
dividend_divisible = issuances[0]['divisible']
# Calculate dividend quantities.
exclude_empty = False
if util.enabled('zero_quantity_value_adjustment_1'):
exclude_empty = True
holders = util.holders(db, asset, exclude_empty)
outputs = []
addresses = []
dividend_total = 0
for holder in holders:
if block_index < 294500 and not (config.TESTNET or config.REGTEST): # Protocol change.
if holder['escrow']: continue
address = holder['address']
address_quantity = holder['address_quantity']
if block_index >= 296000 or config.TESTNET or config.REGTEST: # Protocol change.
if address == source: continue
dividend_quantity = address_quantity * quantity_per_unit
if divisible: dividend_quantity /= config.UNIT
if not util.enabled('nondivisible_dividend_fix') and not dividend_divisible: dividend_quantity /= config.UNIT # Pre-fix behaviour
if dividend_asset == config.BTC and dividend_quantity < config.DEFAULT_MULTISIG_DUST_SIZE: continue # A bit hackish.
dividend_quantity = int(dividend_quantity)
outputs.append({'address': address, 'address_quantity': address_quantity, 'dividend_quantity': dividend_quantity})
addresses.append(address)
dividend_total += dividend_quantity
if not dividend_total: problems.append('zero dividend')
if dividend_asset != config.BTC:
dividend_balances = list(cursor.execute('''SELECT * FROM balances WHERE (address = ? AND asset = ?)''', (source, dividend_asset)))
if not dividend_balances or dividend_balances[0]['quantity'] < dividend_total:
problems.append('insufficient funds ({})'.format(dividend_asset))
fee = 0
if not problems and dividend_asset != config.BTC:
holder_count = len(set(addresses))
if block_index >= 330000 or config.TESTNET or config.REGTEST: # Protocol change.
fee = int(0.0002 * config.UNIT * holder_count)
if fee:
balances = list(cursor.execute('''SELECT * FROM balances WHERE (address = ? AND asset = ?)''', (source, config.XCP)))
if not balances or balances[0]['quantity'] < fee:
problems.append('insufficient funds ({})'.format(config.XCP))
if not problems and dividend_asset == config.XCP:
total_cost = dividend_total + fee
if not dividend_balances or dividend_balances[0]['quantity'] < total_cost:
problems.append('insufficient funds ({})'.format(dividend_asset))
# For SQLite3
if fee > config.MAX_INT or dividend_total > config.MAX_INT:
problems.append('integer overflow')
cursor.close()
return dividend_total, outputs, problems, fee
def parse(db, tx, message):
cursor = db.cursor()
# Unpack message.
try:
if util.enabled("broadcast_pack_text"):
timestamp, value, fee_fraction_int, rawtext = struct.unpack(
FORMAT + "{}s".format(len(message) - LENGTH), message
)
textlen = VarIntSerializer.deserialize(rawtext)
text = rawtext[-textlen:]
assert len(text) == textlen
else:
if len(message) - LENGTH <= 52:
curr_format = FORMAT + "{}p".format(len(message) - LENGTH)
else:
curr_format = FORMAT + "{}s".format(len(message) - LENGTH)
timestamp, value, fee_fraction_int, text = struct.unpack(curr_format, message)
try:
text = text.decode("utf-8")
except UnicodeDecodeError:
text = ""
status = "valid"
except (struct.error) as e:
timestamp, value, fee_fraction_int, text = 0, None, 0, None
status = "invalid: could not unpack"
if status == "valid":
# For SQLite3
timestamp = min(timestamp, config.MAX_INT)
value = min(value, config.MAX_INT)
problems = validate(db, tx["source"], timestamp, value, fee_fraction_int, text, tx["block_index"])
if problems:
status = "invalid: " + "; ".join(problems)
# Lock?
lock = False
if text and text.lower() == "lock":
lock = True
timestamp, value, fee_fraction_int, text = 0, None, None, None
else:
lock = False
# Add parsed transaction to message-type–specific table.
bindings = {
"tx_index": tx["tx_index"],
"tx_hash": tx["tx_hash"],
"block_index": tx["block_index"],
"source": tx["source"],
"timestamp": timestamp,
"value": value,
"fee_fraction_int": fee_fraction_int,
"text": text,
"locked": lock,
"status": status,
}
if "integer overflow" not in status:
sql = "insert into broadcasts values(:tx_index, :tx_hash, :block_index, :source, :timestamp, :value, :fee_fraction_int, :text, :locked, :status)"
cursor.execute(sql, bindings)
else:
logger.warn("Not storing [broadcast] tx [%s]: %s" % (tx["tx_hash"], status))
logger.debug("Bindings: %s" % (json.dumps(bindings),))
# stop processing if broadcast is invalid for any reason
if util.enabled("broadcast_invalid_check") and status != "valid":
return
# Negative values (default to ignore).
if value is None or value < 0:
# Cancel Open Bets?
if value == -2:
cursor.execute(
"""SELECT * FROM bets \
WHERE (status = ? AND feed_address = ?)""",
("open", tx["source"]),
)
for i in list(cursor):
bet.cancel_bet(db, i, "dropped", tx["block_index"])
# Cancel Pending Bet Matches?
if value == -3:
cursor.execute(
"""SELECT * FROM bet_matches \
WHERE (status = ? AND feed_address = ?)""",
("pending", tx["source"]),
)
for bet_match in list(cursor):
bet.cancel_bet_match(db, bet_match, "dropped", tx["block_index"])
cursor.close()
return
# stop processing if broadcast is invalid for any reason
# @TODO: remove this check once broadcast_invalid_check has been activated
if util.enabled("max_fee_fraction") and status != "valid":
return
# Handle bet matches that use this feed.
cursor.execute(
"""SELECT * FROM bet_matches \
WHERE (status=? AND feed_address=?)
ORDER BY tx1_index ASC, tx0_index ASC""",
("pending", tx["source"]),
)
for bet_match in cursor.fetchall():
broadcast_bet_match_cursor = db.cursor()
bet_match_id = util.make_id(bet_match["tx0_hash"], bet_match["tx1_hash"])
bet_match_status = None
# Calculate total funds held in escrow and total fee to be paid if
# the bet match is settled. Escrow less fee is amount to be paid back
# to betters.
total_escrow = bet_match["forward_quantity"] + bet_match["backward_quantity"]
fee_fraction = fee_fraction_int / config.UNIT
fee = int(fee_fraction * total_escrow) # Truncate.
escrow_less_fee = total_escrow - fee
# Get known bet match type IDs.
cfd_type_id = util.BET_TYPE_ID["BullCFD"] + util.BET_TYPE_ID["BearCFD"]
equal_type_id = util.BET_TYPE_ID["Equal"] + util.BET_TYPE_ID["NotEqual"]
# Get the bet match type ID of this bet match.
bet_match_type_id = bet_match["tx0_bet_type"] + bet_match["tx1_bet_type"]
# Contract for difference, with determinate settlement date.
if bet_match_type_id == cfd_type_id:
# Recognise tx0, tx1 as the bull, bear (in the right direction).
if bet_match["tx0_bet_type"] < bet_match["tx1_bet_type"]:
bull_address = bet_match["tx0_address"]
bear_address = bet_match["tx1_address"]
bull_escrow = bet_match["forward_quantity"]
bear_escrow = bet_match["backward_quantity"]
else:
bull_address = bet_match["tx1_address"]
bear_address = bet_match["tx0_address"]
bull_escrow = bet_match["backward_quantity"]
bear_escrow = bet_match["forward_quantity"]
leverage = Fraction(bet_match["leverage"], 5040)
initial_value = bet_match["initial_value"]
bear_credit = bear_escrow - (value - initial_value) * leverage * config.UNIT
bull_credit = escrow_less_fee - bear_credit
bear_credit = round(bear_credit)
bull_credit = round(bull_credit)
# Liquidate, as necessary.
if bull_credit >= escrow_less_fee or bull_credit <= 0:
if bull_credit >= escrow_less_fee:
bull_credit = escrow_less_fee
bear_credit = 0
bet_match_status = "settled: liquidated for bull"
util.credit(
db,
bull_address,
config.XCP,
bull_credit,
action="bet {}".format(bet_match_status),
event=tx["tx_hash"],
)
elif bull_credit <= 0:
bull_credit = 0
bear_credit = escrow_less_fee
bet_match_status = "settled: liquidated for bear"
util.credit(
db,
bear_address,
config.XCP,
bear_credit,
action="bet {}".format(bet_match_status),
event=tx["tx_hash"],
)
# Pay fee to feed.
util.credit(db, bet_match["feed_address"], config.XCP, fee, action="feed fee", event=tx["tx_hash"])
# For logging purposes.
bindings = {
"bet_match_id": bet_match_id,
"bet_match_type_id": bet_match_type_id,
"block_index": tx["block_index"],
"settled": False,
"bull_credit": bull_credit,
"bear_credit": bear_credit,
"winner": None,
"escrow_less_fee": None,
"fee": fee,
}
sql = "insert into bet_match_resolutions values(:bet_match_id, :bet_match_type_id, :block_index, :settled, :bull_credit, :bear_credit, :winner, :escrow_less_fee, :fee)"
cursor.execute(sql, bindings)
# Settle (if not liquidated).
elif timestamp >= bet_match["deadline"]:
bet_match_status = "settled"
util.credit(
db,
bull_address,
config.XCP,
bull_credit,
action="bet {}".format(bet_match_status),
event=tx["tx_hash"],
)
util.credit(
db,
bear_address,
config.XCP,
bear_credit,
action="bet {}".format(bet_match_status),
event=tx["tx_hash"],
)
# Pay fee to feed.
util.credit(db, bet_match["feed_address"], config.XCP, fee, action="feed fee", event=tx["tx_hash"])
# For logging purposes.
bindings = {
"bet_match_id": bet_match_id,
"bet_match_type_id": bet_match_type_id,
"block_index": tx["block_index"],
"settled": True,
"bull_credit": bull_credit,
"bear_credit": bear_credit,
"winner": None,
"escrow_less_fee": None,
"fee": fee,
}
sql = "insert into bet_match_resolutions values(:bet_match_id, :bet_match_type_id, :block_index, :settled, :bull_credit, :bear_credit, :winner, :escrow_less_fee, :fee)"
cursor.execute(sql, bindings)
# Equal[/NotEqual] bet.
elif bet_match_type_id == equal_type_id and timestamp >= bet_match["deadline"]:
# Recognise tx0, tx1 as the bull, bear (in the right direction).
if bet_match["tx0_bet_type"] < bet_match["tx1_bet_type"]:
equal_address = bet_match["tx0_address"]
notequal_address = bet_match["tx1_address"]
else:
equal_address = bet_match["tx1_address"]
notequal_address = bet_match["tx0_address"]
# Decide who won, and credit appropriately.
if value == bet_match["target_value"]:
winner = "Equal"
bet_match_status = "settled: for equal"
util.credit(
db,
equal_address,
config.XCP,
escrow_less_fee,
action="bet {}".format(bet_match_status),
event=tx["tx_hash"],
)
else:
winner = "NotEqual"
bet_match_status = "settled: for notequal"
util.credit(
db,
notequal_address,
config.XCP,
escrow_less_fee,
action="bet {}".format(bet_match_status),
event=tx["tx_hash"],
)
# Pay fee to feed.
util.credit(db, bet_match["feed_address"], config.XCP, fee, action="feed fee", event=tx["tx_hash"])
# For logging purposes.
bindings = {
"bet_match_id": bet_match_id,
"bet_match_type_id": bet_match_type_id,
"block_index": tx["block_index"],
"settled": None,
"bull_credit": None,
"bear_credit": None,
"winner": winner,
"escrow_less_fee": escrow_less_fee,
"fee": fee,
}
sql = "insert into bet_match_resolutions values(:bet_match_id, :bet_match_type_id, :block_index, :settled, :bull_credit, :bear_credit, :winner, :escrow_less_fee, :fee)"
cursor.execute(sql, bindings)
# Update the bet match’s status.
if bet_match_status:
bindings = {
"status": bet_match_status,
"bet_match_id": util.make_id(bet_match["tx0_hash"], bet_match["tx1_hash"]),
}
sql = "update bet_matches set status = :status where id = :bet_match_id"
cursor.execute(sql, bindings)
log.message(db, tx["block_index"], "update", "bet_matches", bindings)
broadcast_bet_match_cursor.close()
cursor.close()
def validate (db, source, destination, asset, quantity, divisible, callable_, call_date, call_price, description, block_index):
problems = []
fee = 0
if asset in (config.BTC, config.XCP):
problems.append('cannot issue {} or {}'.format(config.BTC, config.XCP))
if call_date is None: call_date = 0
if call_price is None: call_price = 0.0
if description is None: description = ""
if divisible is None: divisible = True
if isinstance(call_price, int): call_price = float(call_price)
#^ helps especially with calls from JS‐based clients, where parseFloat(15) returns 15 (not 15.0), which json takes as an int
if not isinstance(quantity, int):
problems.append('quantity must be in satoshis')
return call_date, call_price, problems, fee, description, divisible, None
if call_date and not isinstance(call_date, int):
problems.append('call_date must be epoch integer')
return call_date, call_price, problems, fee, description, divisible, None
if call_price and not isinstance(call_price, float):
problems.append('call_price must be a float')
return call_date, call_price, problems, fee, description, divisible, None
if quantity < 0: problems.append('negative quantity')
if call_price < 0: problems.append('negative call price')
if call_date < 0: problems.append('negative call date')
# Callable, or not.
if not callable_:
if block_index >= 312500 or config.TESTNET: # Protocol change.
call_date = 0
call_price = 0.0
elif block_index >= 310000: # Protocol change.
if call_date:
problems.append('call date for non‐callable asset')
if call_price:
problems.append('call price for non‐callable asset')
# Valid re-issuance?
cursor = db.cursor()
cursor.execute('''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', asset))
issuances = cursor.fetchall()
cursor.close()
if issuances:
reissuance = True
last_issuance = issuances[-1]
if last_issuance['issuer'] != source:
problems.append('issued by another address')
if bool(last_issuance['divisible']) != bool(divisible):
problems.append('cannot change divisibility')
if bool(last_issuance['callable']) != bool(callable_):
problems.append('cannot change callability')
if last_issuance['call_date'] > call_date and (call_date != 0 or (block_index < 312500 and not config.TESTNET)):
problems.append('cannot advance call date')
if last_issuance['call_price'] > call_price:
problems.append('cannot reduce call price')
if last_issuance['locked'] and quantity:
problems.append('locked asset and non‐zero quantity')
else:
reissuance = False
if description.lower() == 'lock':
problems.append('cannot lock a non‐existent asset')
if destination:
problems.append('cannot transfer a non‐existent asset')
# Check for existence of fee funds.
if quantity or (block_index >= 315000 or config.TESTNET): # Protocol change.
if not reissuance or (block_index < 310000 and not config.TESTNET): # Pay fee only upon first issuance. (Protocol change.)
cursor = db.cursor()
cursor.execute('''SELECT * FROM balances \
WHERE (address = ? AND asset = ?)''', (source, config.XCP))
balances = cursor.fetchall()
cursor.close()
if util.enabled('numeric_asset_names'): # Protocol change.
if len(asset) >= 13:
fee = 0
else:
fee = int(0.5 * config.UNIT)
elif block_index >= 291700 or config.TESTNET: # Protocol change.
fee = int(0.5 * config.UNIT)
elif block_index >= 286000 or config.TESTNET: # Protocol change.
fee = 5 * config.UNIT
elif block_index > 281236 or config.TESTNET: # Protocol change.
fee = 5
if fee and (not balances or balances[0]['quantity'] < fee):
problems.append('insufficient funds')
if not (block_index >= 317500 or config.TESTNET): # Protocol change.
if len(description) > 42:
problems.append('description too long')
# For SQLite3
call_date = min(call_date, config.MAX_INT)
total = sum([issuance['quantity'] for issuance in issuances])
assert isinstance(quantity, int)
if total + quantity > config.MAX_INT:
problems.append('total quantity overflow')
if destination and quantity:
problems.append('cannot issue and transfer simultaneously')
# For SQLite3
if util.enabled('integer_overflow_fix', block_index=block_index) and (fee > config.MAX_INT or quantity > config.MAX_INT):
problems.append('integer overflow')
return call_date, call_price, problems, fee, description, divisible, reissuance
def parse (db, tx, message):
issuance_parse_cursor = db.cursor()
# Unpack message.
try:
if (tx['block_index'] > 283271 or config.TESTNET) and len(message) >= LENGTH_2: # Protocol change.
if len(message) - LENGTH_2 <= 42:
curr_format = FORMAT_2 + '{}p'.format(len(message) - LENGTH_2)
else:
curr_format = FORMAT_2 + '{}s'.format(len(message) - LENGTH_2)
asset_id, quantity, divisible, callable_, call_date, call_price, description = struct.unpack(curr_format, message)
call_price = round(call_price, 6) # TODO: arbitrary
try:
description = description.decode('utf-8')
except UnicodeDecodeError:
description = ''
else:
if len(message) != LENGTH_1:
raise exceptions.UnpackError
asset_id, quantity, divisible = struct.unpack(FORMAT_1, message)
callable_, call_date, call_price, description = False, 0, 0.0, ''
try:
asset = util.generate_asset_name(asset_id, tx['block_index'])
except exceptions.AssetNameError:
asset = None
status = 'invalid: bad asset name'
status = 'valid'
except exceptions.UnpackError as e:
asset, quantity, divisible, callable_, call_date, call_price, description = None, None, None, None, None, None, None
status = 'invalid: could not unpack'
fee = 0
if status == 'valid':
call_date, call_price, problems, fee, description, divisible, reissuance = validate(db, tx['source'], tx['destination'], asset, quantity, divisible, callable_, call_date, call_price, description, block_index=tx['block_index'])
if problems: status = 'invalid: ' + '; '.join(problems)
if not util.enabled('integer_overflow_fix', block_index=tx['block_index']) and 'total quantity overflow' in problems:
quantity = 0
if tx['destination']:
issuer = tx['destination']
transfer = True
quantity = 0
else:
issuer = tx['source']
transfer = False
# Debit fee.
if status == 'valid':
util.debit(db, tx['source'], config.XCP, fee, action="issuance fee", event=tx['tx_hash'])
# Lock?
lock = False
if status == 'valid':
if description and description.lower() == 'lock':
lock = True
cursor = db.cursor()
issuances = list(cursor.execute('''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', asset)))
cursor.close()
description = issuances[-1]['description'] # Use last description. (Assume previous issuance exists because tx is valid.)
timestamp, value_int, fee_fraction_int = None, None, None
if not reissuance:
# Add to table of assets.
bindings= {
'asset_id': str(asset_id),
'asset_name': str(asset),
'block_index': tx['block_index'],
}
sql='insert into assets values(:asset_id, :asset_name, :block_index)'
issuance_parse_cursor.execute(sql, bindings)
# Add parsed transaction to message-type–specific table.
bindings= {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'asset': asset,
'quantity': quantity,
'divisible': divisible,
'source': tx['source'],
'issuer': issuer,
'transfer': transfer,
'callable': callable_,
'call_date': call_date,
'call_price': call_price,
'description': description,
'fee_paid': fee,
'locked': lock,
'status': status,
}
if "integer overflow" not in status:
sql='insert into issuances values(:tx_index, :tx_hash, :block_index, :asset, :quantity, :divisible, :source, :issuer, :transfer, :callable, :call_date, :call_price, :description, :fee_paid, :locked, :status)'
issuance_parse_cursor.execute(sql, bindings)
else:
logger.warn("Not storing [issuance] tx [%s]: %s" % (tx['tx_hash'], status))
logger.debug("Bindings: %s" % (json.dumps(bindings), ))
# Credit.
if status == 'valid' and quantity:
util.credit(db, tx['source'], asset, quantity, action="issuance", event=tx['tx_hash'])
issuance_parse_cursor.close()
def validate(db, source, destination, asset, quantity, divisible, callable_,
call_date, call_price, description, subasset_parent,
subasset_longname, block_index):
problems = []
fee = 0
if asset in (config.BTC, config.XCP):
problems.append('cannot issue {} or {}'.format(config.BTC, config.XCP))
if call_date is None: call_date = 0
if call_price is None: call_price = 0.0
if description is None: description = ""
if divisible is None: divisible = True
if isinstance(call_price, int): call_price = float(call_price)
#^ helps especially with calls from JS‐based clients, where parseFloat(15) returns 15 (not 15.0), which json takes as an int
if not isinstance(quantity, int):
problems.append('quantity must be in satoshis')
return call_date, call_price, problems, fee, description, divisible, None, None
if call_date and not isinstance(call_date, int):
problems.append('call_date must be epoch integer')
return call_date, call_price, problems, fee, description, divisible, None, None
if call_price and not isinstance(call_price, float):
problems.append('call_price must be a float')
return call_date, call_price, problems, fee, description, divisible, None, None
if quantity < 0: problems.append('negative quantity')
if call_price < 0: problems.append('negative call price')
if call_date < 0: problems.append('negative call date')
# Callable, or not.
if not callable_:
if block_index >= 312500 or config.TESTNET: # Protocol change.
call_date = 0
call_price = 0.0
elif block_index >= 310000: # Protocol change.
if call_date:
problems.append('call date for non‐callable asset')
if call_price:
problems.append('call price for non‐callable asset')
# Valid re-issuance?
cursor = db.cursor()
cursor.execute(
'''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', asset))
issuances = cursor.fetchall()
cursor.close()
reissued_asset_longname = None
if issuances:
reissuance = True
last_issuance = issuances[-1]
reissued_asset_longname = last_issuance['asset_longname']
issuance_locked = False
if util.enabled('issuance_lock_fix'):
for issuance in issuances:
if issuance['locked']:
issuance_locked = True
break
elif last_issuance['locked']:
# before the issuance_lock_fix, only the last issuance was checked
issuance_locked = True
if last_issuance['issuer'] != source:
problems.append('issued by another address')
if bool(last_issuance['divisible']) != bool(divisible):
problems.append('cannot change divisibility')
if bool(last_issuance['callable']) != bool(callable_):
problems.append('cannot change callability')
if last_issuance['call_date'] > call_date and (
call_date != 0 or
(block_index < 312500 and not config.TESTNET)):
problems.append('cannot advance call date')
if last_issuance['call_price'] > call_price:
problems.append('cannot reduce call price')
if issuance_locked and quantity:
problems.append('locked asset and non‐zero quantity')
else:
reissuance = False
if description.lower() == 'lock':
problems.append('cannot lock a non‐existent asset')
if destination:
problems.append('cannot transfer a non‐existent asset')
# validate parent ownership for subasset
if subasset_longname is not None:
cursor = db.cursor()
cursor.execute(
'''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', subasset_parent))
parent_issuances = cursor.fetchall()
cursor.close()
if parent_issuances:
last_parent_issuance = parent_issuances[-1]
if last_parent_issuance['issuer'] != source:
problems.append('parent asset owned by another address')
else:
problems.append('parent asset not found')
# validate subasset issuance is not a duplicate
if subasset_longname is not None and not reissuance:
cursor = db.cursor()
cursor.execute(
'''SELECT * FROM assets \
WHERE (asset_longname = ?)''', (subasset_longname, ))
assets = cursor.fetchall()
if len(assets) > 0:
problems.append('subasset already exists')
# validate that the actual asset is numeric
if asset[0] != 'A':
problems.append('a subasset must be a numeric asset')
# Check for existence of fee funds.
if quantity or (block_index >= 315000
or config.TESTNET): # Protocol change.
if not reissuance or (
block_index < 310000 and not config.TESTNET
): # Pay fee only upon first issuance. (Protocol change.)
cursor = db.cursor()
cursor.execute(
'''SELECT * FROM balances \
WHERE (address = ? AND asset = ?)''',
(source, config.XCP))
balances = cursor.fetchall()
cursor.close()
if util.enabled('numeric_asset_names'): # Protocol change.
if subasset_longname is not None and util.enabled(
'subassets'): # Protocol change.
# subasset issuance is 0.25
fee = int(0.25 * config.UNIT)
elif len(asset) >= 13:
fee = 0
else:
fee = int(0.5 * config.UNIT)
elif block_index >= 291700 or config.TESTNET: # Protocol change.
fee = int(0.5 * config.UNIT)
elif block_index >= 286000 or config.TESTNET: # Protocol change.
fee = 5 * config.UNIT
elif block_index > 281236 or config.TESTNET: # Protocol change.
fee = 5
if fee and (not balances or balances[0]['quantity'] < fee):
problems.append('insufficient funds')
if not (block_index >= 317500 or config.TESTNET): # Protocol change.
if len(description) > 42:
problems.append('description too long')
# For SQLite3
call_date = min(call_date, config.MAX_INT)
total = sum([issuance['quantity'] for issuance in issuances])
assert isinstance(quantity, int)
if total + quantity > config.MAX_INT:
problems.append('total quantity overflow')
if destination and quantity:
problems.append('cannot issue and transfer simultaneously')
# For SQLite3
if util.enabled('integer_overflow_fix', block_index=block_index) and (
fee > config.MAX_INT or quantity > config.MAX_INT):
problems.append('integer overflow')
return call_date, call_price, problems, fee, description, divisible, reissuance, reissued_asset_longname
def parse(db, tx, message, message_type_id):
issuance_parse_cursor = db.cursor()
# Unpack message.
try:
subasset_longname = None
if message_type_id == SUBASSET_ID:
if not util.enabled('subassets', block_index=tx['block_index']):
logger.warn("subassets are not enabled at block %s" %
tx['block_index'])
raise exceptions.UnpackError
# parse a subasset original issuance message
asset_id, quantity, divisible, compacted_subasset_length = struct.unpack(
SUBASSET_FORMAT, message[0:SUBASSET_FORMAT_LENGTH])
description_length = len(
message) - SUBASSET_FORMAT_LENGTH - compacted_subasset_length
if description_length < 0:
logger.warn("invalid subasset length: [issuance] tx [%s]: %s" %
(tx['tx_hash'], compacted_subasset_length))
raise exceptions.UnpackError
messages_format = '>{}s{}s'.format(compacted_subasset_length,
description_length)
compacted_subasset_longname, description = struct.unpack(
messages_format, message[SUBASSET_FORMAT_LENGTH:])
subasset_longname = util.expand_subasset_longname(
compacted_subasset_longname)
callable_, call_date, call_price = False, 0, 0.0
try:
description = description.decode('utf-8')
except UnicodeDecodeError:
description = ''
elif (tx['block_index'] > 283271 or
config.TESTNET) and len(message) >= LENGTH_2: # Protocol change.
if len(message) - LENGTH_2 <= 42:
curr_format = FORMAT_2 + '{}p'.format(len(message) - LENGTH_2)
else:
curr_format = FORMAT_2 + '{}s'.format(len(message) - LENGTH_2)
asset_id, quantity, divisible, callable_, call_date, call_price, description = struct.unpack(
curr_format, message)
call_price = round(call_price, 6) # TODO: arbitrary
try:
description = description.decode('utf-8')
except UnicodeDecodeError:
description = ''
else:
if len(message) != LENGTH_1:
raise exceptions.UnpackError
asset_id, quantity, divisible = struct.unpack(FORMAT_1, message)
callable_, call_date, call_price, description = False, 0, 0.0, ''
try:
asset = util.generate_asset_name(asset_id, tx['block_index'])
except exceptions.AssetNameError:
asset = None
status = 'invalid: bad asset name'
status = 'valid'
except exceptions.UnpackError as e:
asset, quantity, divisible, callable_, call_date, call_price, description = None, None, None, None, None, None, None
status = 'invalid: could not unpack'
# parse and validate the subasset from the message
subasset_parent = None
if status == 'valid' and subasset_longname is not None: # Protocol change.
try:
# ensure the subasset_longname is valid
util.validate_subasset_longname(subasset_longname)
subasset_parent, subasset_longname = util.parse_subasset_from_asset_name(
subasset_longname)
except exceptions.AssetNameError as e:
asset = None
status = 'invalid: bad subasset name'
reissuance = None
fee = 0
if status == 'valid':
call_date, call_price, problems, fee, description, divisible, reissuance, reissued_asset_longname = validate(
db,
tx['source'],
tx['destination'],
asset,
quantity,
divisible,
callable_,
call_date,
call_price,
description,
subasset_parent,
subasset_longname,
block_index=tx['block_index'])
if problems: status = 'invalid: ' + '; '.join(problems)
if not util.enabled('integer_overflow_fix',
block_index=tx['block_index']
) and 'total quantity overflow' in problems:
quantity = 0
if tx['destination']:
issuer = tx['destination']
transfer = True
quantity = 0
else:
issuer = tx['source']
transfer = False
# Debit fee.
if status == 'valid':
util.debit(db,
tx['source'],
config.XCP,
fee,
action="issuance fee",
event=tx['tx_hash'])
# Lock?
lock = False
if status == 'valid':
if description and description.lower() == 'lock':
lock = True
cursor = db.cursor()
issuances = list(
cursor.execute(
'''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''',
('valid', asset)))
cursor.close()
description = issuances[-1][
'description'] # Use last description. (Assume previous issuance exists because tx is valid.)
timestamp, value_int, fee_fraction_int = None, None, None
if not reissuance:
# Add to table of assets.
bindings = {
'asset_id': str(asset_id),
'asset_name': str(asset),
'block_index': tx['block_index'],
'asset_longname': subasset_longname,
}
sql = 'insert into assets values(:asset_id, :asset_name, :block_index, :asset_longname)'
issuance_parse_cursor.execute(sql, bindings)
if status == 'valid' and reissuance:
# when reissuing, add the asset_longname to the issuances table for API lookups
asset_longname = reissued_asset_longname
else:
asset_longname = subasset_longname
# Add parsed transaction to message-type–specific table.
bindings = {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'asset': asset,
'quantity': quantity,
'divisible': divisible,
'source': tx['source'],
'issuer': issuer,
'transfer': transfer,
'callable': callable_,
'call_date': call_date,
'call_price': call_price,
'description': description,
'fee_paid': fee,
'locked': lock,
'status': status,
'asset_longname': asset_longname,
}
if "integer overflow" not in status:
sql = 'insert into issuances values(:tx_index, :tx_hash, :block_index, :asset, :quantity, :divisible, :source, :issuer, :transfer, :callable, :call_date, :call_price, :description, :fee_paid, :locked, :status, :asset_longname)'
issuance_parse_cursor.execute(sql, bindings)
else:
logger.warn("Not storing [issuance] tx [%s]: %s" %
(tx['tx_hash'], status))
logger.debug("Bindings: %s" % (json.dumps(bindings), ))
# Credit.
if status == 'valid' and quantity:
util.credit(db,
tx['source'],
asset,
quantity,
action="issuance",
event=tx['tx_hash'])
issuance_parse_cursor.close()
def compose(db, source, transfer_destination, asset, quantity, divisible,
description):
# Callability is deprecated, so for re‐issuances set relevant parameters
# to old values; for first issuances, make uncallable.
cursor = db.cursor()
cursor.execute(
'''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', asset))
issuances = cursor.fetchall()
if issuances:
last_issuance = issuances[-1]
callable_ = last_issuance['callable']
call_date = last_issuance['call_date']
call_price = last_issuance['call_price']
else:
callable_ = False
call_date = 0
call_price = 0.0
cursor.close()
# check subasset
subasset_parent = None
subasset_longname = None
if util.enabled('subassets'): # Protocol change.
subasset_parent, subasset_longname = util.parse_subasset_from_asset_name(
asset)
if subasset_longname is not None:
# try to find an existing subasset
sa_cursor = db.cursor()
sa_cursor.execute(
'''SELECT * FROM assets \
WHERE (asset_longname = ?)''',
(subasset_longname, ))
assets = sa_cursor.fetchall()
sa_cursor.close()
if len(assets) > 0:
# this is a reissuance
asset = assets[0]['asset_name']
else:
# this is a new issuance
# generate a random numeric asset id which will map to this subasset
asset = util.generate_random_asset()
call_date, call_price, problems, fee, description, divisible, reissuance, reissued_asset_longname = validate(
db, source, transfer_destination, asset, quantity, divisible,
callable_, call_date, call_price, description, subasset_parent,
subasset_longname, util.CURRENT_BLOCK_INDEX)
if problems: raise exceptions.ComposeError(problems)
asset_id = util.generate_asset_id(asset, util.CURRENT_BLOCK_INDEX)
if subasset_longname is None or reissuance:
# Type 20 standard issuance FORMAT_2 >QQ??If
# used for standard issuances and all reissuances
data = message_type.pack(ID)
if len(description) <= 42:
curr_format = FORMAT_2 + '{}p'.format(len(description) + 1)
else:
curr_format = FORMAT_2 + '{}s'.format(len(description))
data += struct.pack(curr_format, asset_id, quantity,
1 if divisible else 0, 1 if callable_ else 0,
call_date or 0, call_price or 0.0,
description.encode('utf-8'))
else:
# Type 21 subasset issuance SUBASSET_FORMAT >QQ?B
# Used only for initial subasset issuance
# compacts a subasset name to save space
compacted_subasset_longname = util.compact_subasset_longname(
subasset_longname)
compacted_subasset_length = len(compacted_subasset_longname)
data = message_type.pack(SUBASSET_ID)
curr_format = SUBASSET_FORMAT + '{}s'.format(
compacted_subasset_length) + '{}s'.format(len(description))
data += struct.pack(curr_format, asset_id, quantity,
1 if divisible else 0, compacted_subasset_length,
compacted_subasset_longname,
description.encode('utf-8'))
if transfer_destination:
destination_outputs = [(transfer_destination, None)]
else:
destination_outputs = []
return (source, destination_outputs, data)
def get_tx_info2(tx_hex, block_parser=None):
"""Get multisig transaction info.
The destinations, if they exists, always comes before the data output; the
change, if it exists, always comes after.
"""
# Decode transaction binary.
ctx = backend.deserialize(tx_hex)
def arc4_decrypt(cyphertext):
'''Un‐obfuscate. Initialise key once per attempt.'''
key = ARC4.new(ctx.vin[0].prevout.hash[::-1])
return key.decrypt(cyphertext)
def get_opreturn(asm):
if len(asm) == 2 and asm[0] == 'OP_RETURN':
pubkeyhash = asm[1]
if type(pubkeyhash) == bytes:
return pubkeyhash
raise DecodeError('invalid OP_RETURN')
def decode_opreturn(asm):
chunk = get_opreturn(asm)
chunk = arc4_decrypt(chunk)
if chunk[:len(config.PREFIX)] == config.PREFIX: # Data
destination, data = None, chunk[len(config.PREFIX):]
else:
raise DecodeError('unrecognised OP_RETURN output')
return destination, data
def decode_checksig(asm):
pubkeyhash = script.get_checksig(asm)
chunk = arc4_decrypt(pubkeyhash)
if chunk[1:len(config.PREFIX) + 1] == config.PREFIX: # Data
# Padding byte in each output (instead of just in the last one) so that encoding methods may be mixed. Also, it’s just not very much data.
chunk_length = chunk[0]
chunk = chunk[1:chunk_length + 1]
destination, data = None, chunk[len(config.PREFIX):]
else: # Destination
pubkeyhash = binascii.hexlify(pubkeyhash).decode('utf-8')
destination, data = script.base58_check_encode(pubkeyhash, config.ADDRESSVERSION), None
return destination, data
def decode_checkmultisig(asm):
pubkeys, signatures_required = script.get_checkmultisig(asm)
chunk = b''
for pubkey in pubkeys[:-1]: # (No data in last pubkey.)
chunk += pubkey[1:-1] # Skip sign byte and nonce byte.
chunk = arc4_decrypt(chunk)
if chunk[1:len(config.PREFIX) + 1] == config.PREFIX: # Data
# Padding byte in each output (instead of just in the last one) so that encoding methods may be mixed. Also, it’s just not very much data.
chunk_length = chunk[0]
chunk = chunk[1:chunk_length + 1]
destination, data = None, chunk[len(config.PREFIX):]
else: # Destination
pubkeyhashes = [script.pubkey_to_pubkeyhash(pubkey) for pubkey in pubkeys]
destination, data = script.construct_array(signatures_required, pubkeyhashes, len(pubkeyhashes)), None
return destination, data
# Ignore coinbase transactions.
if ctx.is_coinbase():
raise DecodeError('coinbase transaction')
# Get destinations and data outputs.
destinations, btc_amount, fee, data = [], 0, 0, b''
for vout in ctx.vout:
# Fee is the input values minus output values.
output_value = vout.nValue
fee -= output_value
# Ignore transactions with invalid script.
try:
asm = script.get_asm(vout.scriptPubKey)
except CScriptInvalidError as e:
raise DecodeError(e)
if asm[0] == 'OP_RETURN':
new_destination, new_data = decode_opreturn(asm)
elif asm[-1] == 'OP_CHECKSIG':
new_destination, new_data = decode_checksig(asm)
elif asm[-1] == 'OP_CHECKMULTISIG':
new_destination, new_data = decode_checkmultisig(asm)
else:
raise DecodeError('unrecognised output type')
assert not (new_destination and new_data)
assert new_destination != None or new_data != None # `decode_*()` should never return `None, None`.
if util.enabled('null_data_check'):
if new_data == []:
raise DecodeError('new destination is `None`')
# All destinations come before all data.
if not data and not new_data and destinations != [config.UNSPENDABLE,]:
destinations.append(new_destination)
btc_amount += output_value
else:
if new_destination: # Change.
break
else: # Data.
data += new_data
# Only look for source if data were found or destination is `UNSPENDABLE`,
# for speed.
if not data and destinations != [config.UNSPENDABLE,]:
raise BTCOnlyError('no data and not unspendable')
# Collect all (unique) source addresses.
sources = []
for vin in ctx.vin[:]: # Loop through inputs.
# Get the full transaction data for this input transaction.
if block_parser:
vin_tx = block_parser.read_raw_transaction(ib2h(vin.prevout.hash))
vin_ctx = backend.deserialize(vin_tx['__data__'])
else:
vin_tx = backend.getrawtransaction(ib2h(vin.prevout.hash))
vin_ctx = backend.deserialize(vin_tx)
vout = vin_ctx.vout[vin.prevout.n]
fee += vout.nValue
asm = script.get_asm(vout.scriptPubKey)
if asm[-1] == 'OP_CHECKSIG':
new_source, new_data = decode_checksig(asm)
if new_data or not new_source:
raise DecodeError('data in source')
elif asm[-1] == 'OP_CHECKMULTISIG':
new_source, new_data = decode_checkmultisig(asm)
if new_data or not new_source:
raise DecodeError('data in source')
else:
raise DecodeError('unrecognised source type')
# Collect unique sources.
if new_source not in sources:
sources.append(new_source)
sources = '-'.join(sources)
destinations = '-'.join(destinations)
return sources, destinations, btc_amount, round(fee), data
def parse (db, tx, message):
cursor = db.cursor()
# Unpack message.
try:
if len(message) - LENGTH <= 52:
curr_format = FORMAT + '{}p'.format(len(message) - LENGTH)
else:
curr_format = FORMAT + '{}s'.format(len(message) - LENGTH)
timestamp, value, fee_fraction_int, text = struct.unpack(curr_format, message)
try:
text = text.decode('utf-8')
except UnicodeDecodeError:
text = ''
status = 'valid'
except (struct.error) as e:
timestamp, value, fee_fraction_int, text = 0, None, 0, None
status = 'invalid: could not unpack'
if status == 'valid':
# For SQLite3
timestamp = min(timestamp, config.MAX_INT)
value = min(value, config.MAX_INT)
problems = validate(db, tx['source'], timestamp, value, fee_fraction_int, text, tx['block_index'])
if problems: status = 'invalid: ' + '; '.join(problems)
# Lock?
lock = False
if text and text.lower() == 'lock':
lock = True
timestamp, value, fee_fraction_int, text = 0, None, None, None
else:
lock = False
# Add parsed transaction to message-type–specific table.
bindings = {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'source': tx['source'],
'timestamp': timestamp,
'value': value,
'fee_fraction_int': fee_fraction_int,
'text': text,
'locked': lock,
'status': status,
}
sql='insert into broadcasts values(:tx_index, :tx_hash, :block_index, :source, :timestamp, :value, :fee_fraction_int, :text, :locked, :status)'
cursor.execute(sql, bindings)
# Negative values (default to ignore).
if value == None or value < 0:
# Cancel Open Bets?
if value == -2:
cursor.execute('''SELECT * FROM bets \
WHERE (status = ? AND feed_address = ?)''',
('open', tx['source']))
for i in list(cursor):
bet.cancel_bet(db, i, 'dropped', tx['block_index'])
# Cancel Pending Bet Matches?
if value == -3:
cursor.execute('''SELECT * FROM bet_matches \
WHERE (status = ? AND feed_address = ?)''',
('pending', tx['source']))
for bet_match in list(cursor):
bet.cancel_bet_match(db, bet_match, 'dropped', tx['block_index'])
cursor.close()
return
# Handle bet matches that use this feed.
cursor.execute('''SELECT * FROM bet_matches \
WHERE (status=? AND feed_address=?)
ORDER BY tx1_index ASC, tx0_index ASC''',
('pending', tx['source']))
for bet_match in cursor.fetchall():
if util.enabled('max_fee_fraction'):
if status != 'valid':
break
broadcast_bet_match_cursor = db.cursor()
bet_match_id = util.make_id(bet_match['tx0_hash'], bet_match['tx1_hash'])
bet_match_status = None
# Calculate total funds held in escrow and total fee to be paid if
# the bet match is settled. Escrow less fee is amount to be paid back
# to betters.
total_escrow = bet_match['forward_quantity'] + bet_match['backward_quantity']
fee_fraction = fee_fraction_int / config.UNIT
fee = int(fee_fraction * total_escrow) # Truncate.
escrow_less_fee = total_escrow - fee
# Get known bet match type IDs.
cfd_type_id = util.BET_TYPE_ID['BullCFD'] + util.BET_TYPE_ID['BearCFD']
equal_type_id = util.BET_TYPE_ID['Equal'] + util.BET_TYPE_ID['NotEqual']
# Get the bet match type ID of this bet match.
bet_match_type_id = bet_match['tx0_bet_type'] + bet_match['tx1_bet_type']
# Contract for difference, with determinate settlement date.
if bet_match_type_id == cfd_type_id:
# Recognise tx0, tx1 as the bull, bear (in the right direction).
if bet_match['tx0_bet_type'] < bet_match['tx1_bet_type']:
bull_address = bet_match['tx0_address']
bear_address = bet_match['tx1_address']
bull_escrow = bet_match['forward_quantity']
bear_escrow = bet_match['backward_quantity']
else:
bull_address = bet_match['tx1_address']
bear_address = bet_match['tx0_address']
bull_escrow = bet_match['backward_quantity']
bear_escrow = bet_match['forward_quantity']
leverage = Fraction(bet_match['leverage'], 5040)
initial_value = bet_match['initial_value']
bear_credit = bear_escrow - (value - initial_value) * leverage * config.UNIT
bull_credit = escrow_less_fee - bear_credit
bear_credit = round(bear_credit)
bull_credit = round(bull_credit)
# Liquidate, as necessary.
if bull_credit >= escrow_less_fee or bull_credit <= 0:
if bull_credit >= escrow_less_fee:
bull_credit = escrow_less_fee
bear_credit = 0
bet_match_status = 'settled: liquidated for bull'
util.credit(db, bull_address, config.XCP, bull_credit, action='bet {}'.format(bet_match_status), event=tx['tx_hash'])
elif bull_credit <= 0:
bull_credit = 0
bear_credit = escrow_less_fee
bet_match_status = 'settled: liquidated for bear'
util.credit(db, bear_address, config.XCP, bear_credit, action='bet {}'.format(bet_match_status), event=tx['tx_hash'])
# Pay fee to feed.
util.credit(db, bet_match['feed_address'], config.XCP, fee, action='feed fee', event=tx['tx_hash'])
# For logging purposes.
bindings = {
'bet_match_id': bet_match_id,
'bet_match_type_id': bet_match_type_id,
'block_index': tx['block_index'],
'settled': False,
'bull_credit': bull_credit,
'bear_credit': bear_credit,
'winner': None,
'escrow_less_fee': None,
'fee': fee
}
sql='insert into bet_match_resolutions values(:bet_match_id, :bet_match_type_id, :block_index, :settled, :bull_credit, :bear_credit, :winner, :escrow_less_fee, :fee)'
cursor.execute(sql, bindings)
# Settle (if not liquidated).
elif timestamp >= bet_match['deadline']:
bet_match_status = 'settled'
util.credit(db, bull_address, config.XCP, bull_credit, action='bet {}'.format(bet_match_status), event=tx['tx_hash'])
util.credit(db, bear_address, config.XCP, bear_credit, action='bet {}'.format(bet_match_status), event=tx['tx_hash'])
# Pay fee to feed.
util.credit(db, bet_match['feed_address'], config.XCP, fee, action='feed fee', event=tx['tx_hash'])
# For logging purposes.
bindings = {
'bet_match_id': bet_match_id,
'bet_match_type_id': bet_match_type_id,
'block_index': tx['block_index'],
'settled': True,
'bull_credit': bull_credit,
'bear_credit': bear_credit,
'winner': None,
'escrow_less_fee': None,
'fee': fee
}
sql='insert into bet_match_resolutions values(:bet_match_id, :bet_match_type_id, :block_index, :settled, :bull_credit, :bear_credit, :winner, :escrow_less_fee, :fee)'
cursor.execute(sql, bindings)
# Equal[/NotEqual] bet.
elif bet_match_type_id == equal_type_id and timestamp >= bet_match['deadline']:
# Recognise tx0, tx1 as the bull, bear (in the right direction).
if bet_match['tx0_bet_type'] < bet_match['tx1_bet_type']:
equal_address = bet_match['tx0_address']
notequal_address = bet_match['tx1_address']
else:
equal_address = bet_match['tx1_address']
notequal_address = bet_match['tx0_address']
# Decide who won, and credit appropriately.
if value == bet_match['target_value']:
winner = 'Equal'
bet_match_status = 'settled: for equal'
util.credit(db, equal_address, config.XCP, escrow_less_fee, action='bet {}'.format(bet_match_status), event=tx['tx_hash'])
else:
winner = 'NotEqual'
bet_match_status = 'settled: for notequal'
util.credit(db, notequal_address, config.XCP, escrow_less_fee, action='bet {}'.format(bet_match_status), event=tx['tx_hash'])
# Pay fee to feed.
util.credit(db, bet_match['feed_address'], config.XCP, fee, action='feed fee', event=tx['tx_hash'])
# For logging purposes.
bindings = {
'bet_match_id': bet_match_id,
'bet_match_type_id': bet_match_type_id,
'block_index': tx['block_index'],
'settled': None,
'bull_credit': None,
'bear_credit': None,
'winner': winner,
'escrow_less_fee': escrow_less_fee,
'fee': fee
}
sql='insert into bet_match_resolutions values(:bet_match_id, :bet_match_type_id, :block_index, :settled, :bull_credit, :bear_credit, :winner, :escrow_less_fee, :fee)'
cursor.execute(sql, bindings)
# Update the bet match’s status.
if bet_match_status:
bindings = {
'status': bet_match_status,
'bet_match_id': util.make_id(bet_match['tx0_hash'], bet_match['tx1_hash'])
}
sql='update bet_matches set status = :status where id = :bet_match_id'
cursor.execute(sql, bindings)
log.message(db, tx['block_index'], 'update', 'bet_matches', bindings)
broadcast_bet_match_cursor.close()
cursor.close()
def test_bytespersigop(server_db):
assert util.enabled('bytespersigop') == False
# ADDR[0], bytespersigop=False, desc 41 bytes, opreturn
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[0],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 41},
)
tx = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(txhex))
assert len(tx.vin) == 1
assert len(tx.vout) == 2
assert "OP_RETURN" in repr(tx.vout[0].scriptPubKey)
# ADDR[0], bytespersigop=False, desc 42 bytes, multisig
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[0],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 42},
)
tx = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(txhex))
assert len(tx.vin) == 1
assert len(tx.vout) == 3
assert "OP_CHECKMULTISIG" in repr(tx.vout[0].scriptPubKey)
assert "OP_CHECKMULTISIG" in repr(tx.vout[1].scriptPubKey)
# enable byterpersigop
with util_test.MockProtocolChangesContext(bytespersigop=True):
assert util.enabled('bytespersigop') == True
# ADDR[0], bytespersigop=True, desc 41 bytes, opreturn
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[0],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 41},
)
tx = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(txhex))
assert len(tx.vin) == 1
assert len(tx.vout) == 2
assert "OP_RETURN" in repr(tx.vout[0].scriptPubKey)
# ADDR[0], bytespersigop=True, desc 42 bytes, pubkeyhash encoding
# pubkeyhash because ADDR[0] only has 1 UTXO to spend from
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[0],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 42},
)
tx = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(txhex))
assert len(tx.vin) == 1
assert len(tx.vout) == 8
for i in range(7):
assert "OP_CHECKSIG" in repr(tx.vout[i].scriptPubKey)
# ADDR[0], bytespersigop=True, desc 20 bytes, FORCED multisig encoding
# will error because it's not possible, ADDR[0] only has 1 UTXO
with pytest.raises(exceptions.EncodingError):
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[0],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 20},
encoding='multisig'
)
# ADDR[1], bytespersigop=True, desc 41 bytes, opreturn encoding
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[1],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 41},
)
tx = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(txhex))
assert len(tx.vin) == 1
assert len(tx.vout) == 2
assert "OP_RETURN" in repr(tx.vout[0].scriptPubKey)
# ADDR[1], bytespersigop=True, desc 20 bytes, FORCED encoding=multisig
# will use 2 UTXOs to make the bytes:sigop ratio in our favor
txhex = api.compose_transaction(
server_db, 'issuance',
{'source': ADDR[1],
'asset': 'TESTING',
'quantity': 100,
'transfer_destination': None,
'divisible': False,
'description': 't' * 20},
encoding='multisig'
)
tx = bitcoinlib.core.CTransaction.deserialize(binascii.unhexlify(txhex))
assert len(tx.vin) == 2
assert len(tx.vout) == 2
assert "OP_CHECKMULTISIG" in repr(tx.vout[0].scriptPubKey)
def parse (db, tx, message):
cursor = db.cursor()
# Unpack message.
try:
if len(message) != LENGTH:
raise exceptions.UnpackError
tx0_hash_bytes, tx1_hash_bytes = struct.unpack(FORMAT, message)
tx0_hash, tx1_hash = binascii.hexlify(tx0_hash_bytes).decode('utf-8'), binascii.hexlify(tx1_hash_bytes).decode('utf-8')
order_match_id = util.make_id(tx0_hash, tx1_hash)
status = 'valid'
except (exceptions.UnpackError, struct.error) as e:
tx0_hash, tx1_hash, order_match_id = None, None, None
status = 'invalid: could not unpack'
if status == 'valid':
destination, btc_quantity, escrowed_asset, escrowed_quantity, order_match, problems = validate(db, tx['source'], order_match_id, tx['block_index'])
if problems:
order_match = None
status = 'invalid: ' + '; '.join(problems)
if status == 'valid':
# BTC must be paid all at once.
if tx['btc_amount'] >= btc_quantity:
# Credit source address for the currency that he bought with the bitcoins.
util.credit(db, tx['source'], escrowed_asset, escrowed_quantity, action='btcpay', event=tx['tx_hash'])
status = 'valid'
# Update order match.
bindings = {
'status': 'completed',
'order_match_id': order_match_id
}
sql='update order_matches set status = :status where id = :order_match_id'
cursor.execute(sql, bindings)
log.message(db, tx['block_index'], 'update', 'order_matches', bindings)
# Update give and get order status as filled if order_match is completed
if util.enabled('btc_order_filled'):
bindings = {
'status': 'pending',
'tx0_hash': tx0_hash,
'tx1_hash': tx1_hash
}
sql='select * from order_matches where status = :status and ((tx0_hash in (:tx0_hash, :tx1_hash)) or ((tx1_hash in (:tx0_hash, :tx1_hash))))'
cursor.execute(sql, bindings)
order_matches = cursor.fetchall()
if len(order_matches) == 0:
# mark both btc get and give orders as filled when order_match is completed and give or get remaining = 0
bindings = {
'status': 'filled',
'tx0_hash': tx0_hash,
'tx1_hash': tx1_hash
}
sql='update orders set status = :status where ((tx_hash in (:tx0_hash, :tx1_hash)) and ((give_remaining = 0) or (get_remaining = 0)))'
cursor.execute(sql, bindings)
else:
# always mark btc get order as filled when order_match is completed and give or get remaining = 0
bindings = {
'status': 'filled',
'source': tx['destination'],
'tx0_hash': tx0_hash,
'tx1_hash': tx1_hash
}
sql='update orders set status = :status where ((tx_hash in (:tx0_hash, :tx1_hash)) and ((give_remaining = 0) or (get_remaining = 0)) and (source = :source))'
cursor.execute(sql, bindings)
# Add parsed transaction to message-type–specific table.
bindings = {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'source': tx['source'],
'destination': tx['destination'],
'btc_amount': tx['btc_amount'],
'order_match_id': order_match_id,
'status': status,
}
if "integer overflow" not in status:
sql = 'insert into btcpays values(:tx_index, :tx_hash, :block_index, :source, :destination, :btc_amount, :order_match_id, :status)'
cursor.execute(sql, bindings)
else:
logger.warn("Not storing [btcpay] tx [%s]: %s" % (tx['tx_hash'], status))
logger.debug("Bindings: %s" % (json.dumps(bindings), ))
cursor.close()
def construct (db, tx_info, encoding='auto',
fee_per_kb=config.DEFAULT_FEE_PER_KB,
estimate_fee_per_kb=None, estimate_fee_per_kb_nblocks=config.ESTIMATE_FEE_NBLOCKS,
regular_dust_size=config.DEFAULT_REGULAR_DUST_SIZE,
multisig_dust_size=config.DEFAULT_MULTISIG_DUST_SIZE,
op_return_value=config.DEFAULT_OP_RETURN_VALUE,
exact_fee=None, fee_provided=0, provided_pubkeys=None, dust_return_pubkey=None,
allow_unconfirmed_inputs=False, unspent_tx_hash=None, custom_inputs=None, disable_utxo_locks=False):
if estimate_fee_per_kb is None:
estimate_fee_per_kb = config.ESTIMATE_FEE_PER_KB
global UTXO_LOCKS
desired_encoding = encoding
(source, destination_outputs, data) = tx_info
if dust_return_pubkey:
dust_return_pubkey = binascii.unhexlify(dust_return_pubkey)
# Source.
# If public key is necessary for construction of (unsigned)
# transaction, use the public key provided, or find it from the
# blockchain.
if source:
script.validate(source)
source_is_p2sh = script.is_p2sh(source)
# Sanity checks.
if exact_fee and not isinstance(exact_fee, int):
raise exceptions.TransactionError('Exact fees must be in satoshis.')
if not isinstance(fee_provided, int):
raise exceptions.TransactionError('Fee provided must be in satoshis.')
if UTXO_LOCKS is None and config.UTXO_LOCKS_MAX_ADDRESSES > 0: # initialize if configured
UTXO_LOCKS = util.DictCache(size=config.UTXO_LOCKS_MAX_ADDRESSES)
'''Destinations'''
# Destination outputs.
# Replace multi‐sig addresses with multi‐sig pubkeys. Check that the
# destination output isn’t a dust output. Set null values to dust size.
destination_outputs_new = []
for (address, value) in destination_outputs:
# Value.
if script.is_multisig(address):
dust_size = multisig_dust_size
else:
dust_size = regular_dust_size
if value == None:
value = dust_size
elif value < dust_size:
raise exceptions.TransactionError('Destination output is dust.')
# Address.
script.validate(address)
if script.is_multisig(address):
destination_outputs_new.append((backend.multisig_pubkeyhashes_to_pubkeys(address, provided_pubkeys), value))
else:
destination_outputs_new.append((address, value))
destination_outputs = destination_outputs_new
destination_btc_out = sum([value for address, value in destination_outputs])
'''Data'''
if data:
# Data encoding methods (choose and validate).
if encoding == 'auto':
if len(data) + len(config.PREFIX) <= config.OP_RETURN_MAX_SIZE:
encoding = 'opreturn'
else:
encoding = 'multisig'
elif encoding not in ('pubkeyhash', 'multisig', 'opreturn'):
raise exceptions.TransactionError('Unknown encoding‐scheme.')
if encoding == 'multisig':
# dust_return_pubkey should be set or explicitly set to False to use the default configured for the node
# the default for the node is optional so could fail
if (source_is_p2sh and dust_return_pubkey is None) or (dust_return_pubkey is False and config.P2SH_DUST_RETURN_PUBKEY is None):
raise exceptions.TransactionError("Can't use multisig encoding when source is P2SH and no dust_return_pubkey is provided.")
elif dust_return_pubkey is False:
dust_return_pubkey = binascii.unhexlify(config.P2SH_DUST_RETURN_PUBKEY)
# Divide data into chunks.
if encoding == 'pubkeyhash':
# Prefix is also a suffix here.
chunk_size = 20 - 1 - 8
elif encoding == 'multisig':
# Two pubkeys, minus length byte, minus prefix, minus two nonces,
# minus two sign bytes.
chunk_size = (33 * 2) - 1 - 8 - 2 - 2
elif encoding == 'opreturn':
chunk_size = config.OP_RETURN_MAX_SIZE
if len(data) + len(config.PREFIX) > chunk_size:
raise exceptions.TransactionError('One `OP_RETURN` output per transaction.')
data_array = list(chunks(data, chunk_size))
# Data outputs.
if encoding == 'multisig':
data_value = multisig_dust_size
elif encoding == 'opreturn':
data_value = op_return_value
else:
# Pay‐to‐PubKeyHash, e.g.
data_value = regular_dust_size
data_output = (data_array, data_value)
if not dust_return_pubkey:
if encoding == 'multisig':
dust_return_pubkey = get_dust_return_pubkey(source, provided_pubkeys, encoding)
else:
dust_return_pubkey = None
else:
data_array = []
data_output = None
dust_return_pubkey = None
data_btc_out = sum([data_value for data_chunk in data_array])
'''Inputs'''
# Calculate collective size of outputs, for fee calculation.
p2pkhsize = 25 + 9
if encoding == 'multisig':
data_output_size = 81 # 71 for the data
elif encoding == 'opreturn':
data_output_size = 90 # 80 for the data
else:
data_output_size = p2pkhsize # Pay‐to‐PubKeyHash (25 for the data?)
outputs_size = (p2pkhsize * len(destination_outputs)) + (len(data_array) * data_output_size)
# Get inputs.
multisig_inputs = not data
use_inputs = custom_inputs # Array of UTXOs, as retrieved by listunspent function from bitcoind
if custom_inputs is None:
if unspent_tx_hash is not None:
unspent = backend.get_unspent_txouts(source, unconfirmed=allow_unconfirmed_inputs, unspent_tx_hash=unspent_tx_hash, multisig_inputs=multisig_inputs)
else:
unspent = backend.get_unspent_txouts(source, unconfirmed=allow_unconfirmed_inputs, multisig_inputs=multisig_inputs)
# filter out any locked UTXOs to prevent creating transactions that spend the same UTXO when they're created at the same time
if UTXO_LOCKS is not None and source in UTXO_LOCKS:
unspentkeys = {make_outkey(output) for output in unspent}
filtered_unspentkeys = unspentkeys - UTXO_LOCKS[source].keys()
unspent = [output for output in unspent if make_outkey(output) in filtered_unspentkeys]
unspent = backend.sort_unspent_txouts(unspent)
logger.debug('Sorted candidate UTXOs: {}'.format([print_coin(coin) for coin in unspent]))
use_inputs = unspent
# use backend estimated fee_per_kb
if estimate_fee_per_kb:
estimated_fee_per_kb = backend.fee_per_kb(estimate_fee_per_kb_nblocks)
if estimated_fee_per_kb is not None:
fee_per_kb = max(estimated_fee_per_kb, fee_per_kb) # never drop below the default fee_per_kb
logger.debug('Fee/KB {:.8f}'.format(fee_per_kb / config.UNIT))
inputs = []
btc_in = 0
change_quantity = 0
sufficient_funds = False
final_fee = fee_per_kb
desired_input_count = 1
if encoding == 'multisig' and data_array and util.enabled('bytespersigop'):
desired_input_count = len(data_array) * 2
for coin in use_inputs:
logger.debug('New input: {}'.format(print_coin(coin)))
inputs.append(coin)
btc_in += round(coin['amount'] * config.UNIT)
size = 181 * len(inputs) + outputs_size + 10
necessary_fee = int(size / 1000 * fee_per_kb)
# If exact fee is specified, use that. Otherwise, calculate size of tx
# and base fee on that (plus provide a minimum fee for selling BTC).
if exact_fee:
final_fee = exact_fee
else:
final_fee = max(fee_provided, necessary_fee)
# Check if good.
btc_out = destination_btc_out + data_btc_out
change_quantity = btc_in - (btc_out + final_fee)
logger.debug('Size: {} Fee: {:.8f} Change quantity: {:.8f} BTC'.format(size, final_fee / config.UNIT, change_quantity / config.UNIT))
# If change is necessary, must not be a dust output.
if change_quantity == 0 or change_quantity >= regular_dust_size:
sufficient_funds = True
if len(inputs) >= desired_input_count:
break
if not sufficient_funds:
# Approximate needed change, fee by with most recently calculated
# quantities.
btc_out = destination_btc_out + data_btc_out
total_btc_out = btc_out + max(change_quantity, 0) + final_fee
raise exceptions.BalanceError('Insufficient {} at address {}. (Need approximately {} {}.) To spend unconfirmed coins, use the flag `--unconfirmed`. (Unconfirmed coins cannot be spent from multi‐sig addresses.)'.format(config.BTC, source, total_btc_out / config.UNIT, config.BTC))
# Lock the source's inputs (UTXOs) chosen for this transaction
if UTXO_LOCKS is not None and not disable_utxo_locks:
if source not in UTXO_LOCKS:
UTXO_LOCKS[source] = cachetools.TTLCache(
UTXO_LOCKS_PER_ADDRESS_MAXSIZE, config.UTXO_LOCKS_MAX_AGE)
for input in inputs:
UTXO_LOCKS[source][make_outkey(input)] = input
logger.debug("UTXO locks: Potentials ({}): {}, Used: {}, locked UTXOs: {}".format(
len(unspent), [make_outkey(coin) for coin in unspent],
[make_outkey(input) for input in inputs], list(UTXO_LOCKS[source].keys())))
'''Finish'''
# Change output.
if change_quantity:
if script.is_multisig(source):
change_address = backend.multisig_pubkeyhashes_to_pubkeys(source, provided_pubkeys)
else:
change_address = source
change_output = (change_address, change_quantity)
else:
change_output = None
# in bitcoin core v0.12.1 a -bytespersigop was added that messes with bare multisig transactions,
# as a safeguard we fall back to pubkeyhash encoding when unsure
# when len(inputs) > len(data_outputs) there's more bytes:sigops ratio and we can safely continue
if encoding == 'multisig' and inputs and data_output and len(inputs) < len(data_array) * 2 and util.enabled('bytespersigop'):
# if auto encoding we can do pubkeyhash encoding instead
if desired_encoding == 'auto':
return construct(db, tx_info,
encoding='pubkeyhash',
fee_per_kb=fee_per_kb,
regular_dust_size=regular_dust_size,
multisig_dust_size=multisig_dust_size,
op_return_value=op_return_value,
exact_fee=exact_fee, fee_provided=fee_provided, provided_pubkeys=provided_pubkeys,
allow_unconfirmed_inputs=allow_unconfirmed_inputs, unspent_tx_hash=unspent_tx_hash, custom_inputs=custom_inputs)
# otherwise raise exception
else:
raise exceptions.EncodingError("multisig will be rejected by Bitcoin Core >= v0.12.1, you should use `encoding=auto` or `encoding=pubkeyhash`")
# Serialise inputs and outputs.
unsigned_tx = serialise(encoding, inputs, destination_outputs,
data_output, change_output,
dust_return_pubkey=dust_return_pubkey)
unsigned_tx_hex = binascii.hexlify(unsigned_tx).decode('utf-8')
'''Sanity Check'''
from counterpartylib.lib import blocks
# Desired transaction info.
(desired_source, desired_destination_outputs, desired_data) = tx_info
desired_source = script.make_canonical(desired_source)
desired_destination = script.make_canonical(desired_destination_outputs[0][0]) if desired_destination_outputs else ''
# NOTE: Include change in destinations for BTC transactions.
# if change_output and not desired_data and desired_destination != config.UNSPENDABLE:
# if desired_destination == '':
# desired_destination = desired_source
# else:
# desired_destination += '-{}'.format(desired_source)
# NOTE
if desired_data == None:
desired_data = b''
# Parsed transaction info.
try:
parsed_source, parsed_destination, x, y, parsed_data = blocks._get_tx_info(unsigned_tx_hex)
except exceptions.BTCOnlyError:
# Skip BTC‐only transactions.
return unsigned_tx_hex
desired_source = script.make_canonical(desired_source)
# Check desired info against parsed info.
desired = (desired_source, desired_destination, desired_data)
parsed = (parsed_source, parsed_destination, parsed_data)
if desired != parsed:
# Unlock (revert) UTXO locks
if UTXO_LOCKS is not None:
for input in inputs:
UTXO_LOCKS[source].pop(make_outkey(input), None)
raise exceptions.TransactionError('Constructed transaction does not parse correctly: {} ≠ {}'.format(desired, parsed))
return unsigned_tx_hex
def compose (db, source, transfer_destination, asset, quantity, divisible, description):
# Callability is deprecated, so for re‐issuances set relevant parameters
# to old values; for first issuances, make uncallable.
cursor = db.cursor()
cursor.execute('''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', asset))
issuances = cursor.fetchall()
if issuances:
last_issuance = issuances[-1]
callable_ = last_issuance['callable']
call_date = last_issuance['call_date']
call_price = last_issuance['call_price']
else:
callable_ = False
call_date = 0
call_price = 0.0
cursor.close()
# check subasset
subasset_parent = None
subasset_longname = None
if util.enabled('subassets'): # Protocol change.
subasset_parent, subasset_longname = util.parse_subasset_from_asset_name(asset)
if subasset_longname is not None:
# try to find an existing subasset
sa_cursor = db.cursor()
sa_cursor.execute('''SELECT * FROM assets \
WHERE (asset_longname = ?)''', (subasset_longname,))
assets = sa_cursor.fetchall()
sa_cursor.close()
if len(assets) > 0:
# this is a reissuance
asset = assets[0]['asset_name']
else:
# this is a new issuance
# generate a random numeric asset id which will map to this subasset
asset = util.generate_random_asset()
call_date, call_price, problems, fee, description, divisible, reissuance, reissued_asset_longname = validate(db, source, transfer_destination, asset, quantity, divisible, callable_, call_date, call_price, description, subasset_parent, subasset_longname, util.CURRENT_BLOCK_INDEX)
if problems: raise exceptions.ComposeError(problems)
asset_id = util.generate_asset_id(asset, util.CURRENT_BLOCK_INDEX)
if subasset_longname is None or reissuance:
# Type 20 standard issuance FORMAT_2 >QQ??If
# used for standard issuances and all reissuances
data = message_type.pack(ID)
if len(description) <= 42:
curr_format = FORMAT_2 + '{}p'.format(len(description) + 1)
else:
curr_format = FORMAT_2 + '{}s'.format(len(description))
data += struct.pack(curr_format, asset_id, quantity, 1 if divisible else 0, 1 if callable_ else 0,
call_date or 0, call_price or 0.0, description.encode('utf-8'))
else:
# Type 21 subasset issuance SUBASSET_FORMAT >QQ?B
# Used only for initial subasset issuance
# compacts a subasset name to save space
compacted_subasset_longname = util.compact_subasset_longname(subasset_longname)
compacted_subasset_length = len(compacted_subasset_longname)
data = message_type.pack(SUBASSET_ID)
curr_format = SUBASSET_FORMAT + '{}s'.format(compacted_subasset_length) + '{}s'.format(len(description))
data += struct.pack(curr_format, asset_id, quantity, 1 if divisible else 0, compacted_subasset_length, compacted_subasset_longname, description.encode('utf-8'))
if transfer_destination:
destination_outputs = [(transfer_destination, None)]
else:
destination_outputs = []
return (source, destination_outputs, data)
def parse (db, tx, message, message_type_id):
issuance_parse_cursor = db.cursor()
# Unpack message.
try:
subasset_longname = None
if message_type_id == SUBASSET_ID:
if not util.enabled('subassets', block_index=tx['block_index']):
logger.warn("subassets are not enabled at block %s" % tx['block_index'])
raise exceptions.UnpackError
# parse a subasset original issuance message
asset_id, quantity, divisible, compacted_subasset_length = struct.unpack(SUBASSET_FORMAT, message[0:SUBASSET_FORMAT_LENGTH])
description_length = len(message) - SUBASSET_FORMAT_LENGTH - compacted_subasset_length
if description_length < 0:
logger.warn("invalid subasset length: [issuance] tx [%s]: %s" % (tx['tx_hash'], compacted_subasset_length))
raise exceptions.UnpackError
messages_format = '>{}s{}s'.format(compacted_subasset_length, description_length)
compacted_subasset_longname, description = struct.unpack(messages_format, message[SUBASSET_FORMAT_LENGTH:])
subasset_longname = util.expand_subasset_longname(compacted_subasset_longname)
callable_, call_date, call_price = False, 0, 0.0
try:
description = description.decode('utf-8')
except UnicodeDecodeError:
description = ''
elif (tx['block_index'] > 283271 or config.TESTNET or config.REGTEST) and len(message) >= LENGTH_2: # Protocol change.
if len(message) - LENGTH_2 <= 42:
curr_format = FORMAT_2 + '{}p'.format(len(message) - LENGTH_2)
else:
curr_format = FORMAT_2 + '{}s'.format(len(message) - LENGTH_2)
asset_id, quantity, divisible, callable_, call_date, call_price, description = struct.unpack(curr_format, message)
call_price = round(call_price, 6) # TODO: arbitrary
try:
description = description.decode('utf-8')
except UnicodeDecodeError:
description = ''
else:
if len(message) != LENGTH_1:
raise exceptions.UnpackError
asset_id, quantity, divisible = struct.unpack(FORMAT_1, message)
callable_, call_date, call_price, description = False, 0, 0.0, ''
try:
asset = util.generate_asset_name(asset_id, tx['block_index'])
status = 'valid'
except exceptions.AssetIDError:
asset = None
status = 'invalid: bad asset name'
except exceptions.UnpackError as e:
asset, quantity, divisible, callable_, call_date, call_price, description = None, None, None, None, None, None, None
status = 'invalid: could not unpack'
# parse and validate the subasset from the message
subasset_parent = None
if status == 'valid' and subasset_longname is not None: # Protocol change.
try:
# ensure the subasset_longname is valid
util.validate_subasset_longname(subasset_longname)
subasset_parent, subasset_longname = util.parse_subasset_from_asset_name(subasset_longname)
except exceptions.AssetNameError as e:
asset = None
status = 'invalid: bad subasset name'
reissuance = None
fee = 0
if status == 'valid':
call_date, call_price, problems, fee, description, divisible, reissuance, reissued_asset_longname = validate(db, tx['source'], tx['destination'], asset, quantity, divisible, callable_, call_date, call_price, description, subasset_parent, subasset_longname, block_index=tx['block_index'])
if problems: status = 'invalid: ' + '; '.join(problems)
if not util.enabled('integer_overflow_fix', block_index=tx['block_index']) and 'total quantity overflow' in problems:
quantity = 0
if tx['destination']:
issuer = tx['destination']
transfer = True
quantity = 0
else:
issuer = tx['source']
transfer = False
# Debit fee.
if status == 'valid':
util.debit(db, tx['source'], config.XCP, fee, action="issuance fee", event=tx['tx_hash'])
# Lock?
lock = False
if status == 'valid':
if description and description.lower() == 'lock':
lock = True
cursor = db.cursor()
issuances = list(cursor.execute('''SELECT * FROM issuances \
WHERE (status = ? AND asset = ?)
ORDER BY tx_index ASC''', ('valid', asset)))
cursor.close()
description = issuances[-1]['description'] # Use last description. (Assume previous issuance exists because tx is valid.)
timestamp, value_int, fee_fraction_int = None, None, None
if not reissuance:
# Add to table of assets.
bindings= {
'asset_id': str(asset_id),
'asset_name': str(asset),
'block_index': tx['block_index'],
'asset_longname': subasset_longname,
}
sql='insert into assets values(:asset_id, :asset_name, :block_index, :asset_longname)'
issuance_parse_cursor.execute(sql, bindings)
if status == 'valid' and reissuance:
# when reissuing, add the asset_longname to the issuances table for API lookups
asset_longname = reissued_asset_longname
else:
asset_longname = subasset_longname
# Add parsed transaction to message-type–specific table.
bindings= {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'asset': asset,
'quantity': quantity,
'divisible': divisible,
'source': tx['source'],
'issuer': issuer,
'transfer': transfer,
'callable': callable_,
'call_date': call_date,
'call_price': call_price,
'description': description,
'fee_paid': fee,
'locked': lock,
'status': status,
'asset_longname': asset_longname,
}
if "integer overflow" not in status:
sql='insert into issuances values(:tx_index, :tx_hash, :block_index, :asset, :quantity, :divisible, :source, :issuer, :transfer, :callable, :call_date, :call_price, :description, :fee_paid, :locked, :status, :asset_longname)'
issuance_parse_cursor.execute(sql, bindings)
else:
logger.warn("Not storing [issuance] tx [%s]: %s" % (tx['tx_hash'], status))
logger.debug("Bindings: %s" % (json.dumps(bindings), ))
# Credit.
if status == 'valid' and quantity:
util.credit(db, tx['source'], asset, quantity, action="issuance", event=tx['tx_hash'])
issuance_parse_cursor.close()
def parse(db, tx, message):
order_parse_cursor = db.cursor()
# Unpack message.
try:
if len(message) != LENGTH:
raise exceptions.UnpackError
give_id, give_quantity, get_id, get_quantity, expiration, fee_required = struct.unpack(
FORMAT, message)
give_asset = util.get_asset_name(db, give_id, tx['block_index'])
get_asset = util.get_asset_name(db, get_id, tx['block_index'])
status = 'open'
except (exceptions.UnpackError, exceptions.AssetNameError,
struct.error) as e:
give_asset, give_quantity, get_asset, get_quantity, expiration, fee_required = 0, 0, 0, 0, 0, 0
status = 'invalid: could not unpack'
price = 0
if status == 'open':
try:
price = util.price(get_quantity, give_quantity)
except ZeroDivisionError:
price = 0
# Overorder
order_parse_cursor.execute(
'''SELECT * FROM balances \
WHERE (address = ? AND asset = ?)''',
(tx['source'], give_asset))
balances = list(order_parse_cursor)
if give_asset != config.BTC:
if not balances:
give_quantity = 0
else:
balance = balances[0]['quantity']
if balance < give_quantity:
give_quantity = balance
get_quantity = int(price * give_quantity)
problems = validate(db, tx['source'], give_asset, give_quantity,
get_asset, get_quantity, expiration, fee_required,
tx['block_index'])
if problems: status = 'invalid: ' + '; '.join(problems)
if util.enabled('btc_order_minimum'):
min_btc_quantity = 0.001 * config.UNIT # 0.001 BTC
if (give_asset == config.BTC and give_quantity < min_btc_quantity
) or (get_asset == config.BTC
and get_quantity < min_btc_quantity):
if problems:
status += '; btc order below minimum'
else:
status = 'invalid: btc order below minimum'
# Debit give quantity. (Escrow.)
if status == 'open':
if give_asset != config.BTC: # No need (or way) to debit BTC.
util.debit(db,
tx['source'],
give_asset,
give_quantity,
action='open order',
event=tx['tx_hash'])
# Add parsed transaction to message-type–specific table.
bindings = {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'source': tx['source'],
'give_asset': give_asset,
'give_quantity': give_quantity,
'give_remaining': give_quantity,
'get_asset': get_asset,
'get_quantity': get_quantity,
'get_remaining': get_quantity,
'expiration': expiration,
'expire_index': tx['block_index'] + expiration,
'fee_required': fee_required,
'fee_required_remaining': fee_required,
'fee_provided': tx['fee'],
'fee_provided_remaining': tx['fee'],
'status': status,
}
if "integer overflow" not in status:
sql = 'insert into orders values(:tx_index, :tx_hash, :block_index, :source, :give_asset, :give_quantity, :give_remaining, :get_asset, :get_quantity, :get_remaining, :expiration, :expire_index, :fee_required, :fee_required_remaining, :fee_provided, :fee_provided_remaining, :status)'
order_parse_cursor.execute(sql, bindings)
else:
logger.warn("Not storing [order] tx [%s]: %s" %
(tx['tx_hash'], status))
logger.debug("Bindings: %s" % (json.dumps(bindings), ))
# Match.
if status == 'open' and tx['block_index'] != config.MEMPOOL_BLOCK_INDEX:
match(db, tx)
order_parse_cursor.close()
def parse (db, tx, message):
order_parse_cursor = db.cursor()
# Unpack message.
try:
if len(message) != LENGTH:
raise exceptions.UnpackError
give_id, give_quantity, get_id, get_quantity, expiration, fee_required = struct.unpack(FORMAT, message)
give_asset = util.get_asset_name(db, give_id, tx['block_index'])
get_asset = util.get_asset_name(db, get_id, tx['block_index'])
status = 'open'
except (exceptions.UnpackError, exceptions.AssetNameError, struct.error) as e:
give_asset, give_quantity, get_asset, get_quantity, expiration, fee_required = 0, 0, 0, 0, 0, 0
status = 'invalid: could not unpack'
price = 0
if status == 'open':
try:
price = util.price(get_quantity, give_quantity)
except ZeroDivisionError:
price = 0
# Overorder
order_parse_cursor.execute('''SELECT * FROM balances \
WHERE (address = ? AND asset = ?)''', (tx['source'], give_asset))
balances = list(order_parse_cursor)
if give_asset != config.BTC:
if not balances:
give_quantity = 0
else:
balance = balances[0]['quantity']
if balance < give_quantity:
give_quantity = balance
get_quantity = int(price * give_quantity)
problems = validate(db, tx['source'], give_asset, give_quantity, get_asset, get_quantity, expiration, fee_required, tx['block_index'])
if problems: status = 'invalid: ' + '; '.join(problems)
if util.enabled('btc_order_minimum'):
min_btc_quantity = 0.001 * config.UNIT # 0.001 BTC
if (give_asset == config.BTC and give_quantity < min_btc_quantity) or (get_asset == config.BTC and get_quantity < min_btc_quantity):
if problems:
status += '; btc order below minimum'
else:
status = 'invalid: btc order below minimum'
# Debit give quantity. (Escrow.)
if status == 'open':
if give_asset != config.BTC: # No need (or way) to debit BTC.
util.debit(db, tx['source'], give_asset, give_quantity, action='open order', event=tx['tx_hash'])
# Add parsed transaction to message-type–specific table.
bindings = {
'tx_index': tx['tx_index'],
'tx_hash': tx['tx_hash'],
'block_index': tx['block_index'],
'source': tx['source'],
'give_asset': give_asset,
'give_quantity': give_quantity,
'give_remaining': give_quantity,
'get_asset': get_asset,
'get_quantity': get_quantity,
'get_remaining': get_quantity,
'expiration': expiration,
'expire_index': tx['block_index'] + expiration,
'fee_required': fee_required,
'fee_required_remaining': fee_required,
'fee_provided': tx['fee'],
'fee_provided_remaining': tx['fee'],
'status': status,
}
if "integer overflow" not in status:
sql = 'insert into orders values(:tx_index, :tx_hash, :block_index, :source, :give_asset, :give_quantity, :give_remaining, :get_asset, :get_quantity, :get_remaining, :expiration, :expire_index, :fee_required, :fee_required_remaining, :fee_provided, :fee_provided_remaining, :status)'
order_parse_cursor.execute(sql, bindings)
else:
logger.warn("Not storing [order] tx [%s]: %s" % (tx['tx_hash'], status))
logger.debug("Bindings: %s" % (json.dumps(bindings), ))
# Match.
if status == 'open' and tx['block_index'] != config.MEMPOOL_BLOCK_INDEX:
match(db, tx)
order_parse_cursor.close()
