def get_discrepancies_for_spend_bundle(
trade_offer: SpendBundle,
) -> Tuple[bool, Optional[Dict], Optional[Exception]]:
try:
cc_discrepancies: Dict[str, int] = dict()
for coinsol in trade_offer.coin_spends:
puzzle: Program = Program.from_bytes(bytes(coinsol.puzzle_reveal))
solution: Program = Program.from_bytes(bytes(coinsol.solution))
# work out the deficits between coin amount and expected output for each
r = cc_utils.uncurry_cc(puzzle)
if r:
# Calculate output amounts
mod_hash, genesis_checker, inner_puzzle = r
innersol = solution.first()
total = get_output_amount_for_puzzle_and_solution(inner_puzzle, innersol)
colour = bytes(genesis_checker).hex()
if colour in cc_discrepancies:
cc_discrepancies[colour] += coinsol.coin.amount - total
else:
cc_discrepancies[colour] = coinsol.coin.amount - total
else:
coin_amount = coinsol.coin.amount
out_amount = get_output_amount_for_puzzle_and_solution(puzzle, solution)
diff = coin_amount - out_amount
if "chia" in cc_discrepancies:
cc_discrepancies["chia"] = cc_discrepancies["chia"] + diff
else:
cc_discrepancies["chia"] = diff
return True, cc_discrepancies, None
except Exception as e:
return False, None, e
async def puzzle_solution_received(self, response: PuzzleSolutionResponse,
action_id: int):
coin_name = response.coin_name
height = response.height
puzzle: Program = response.puzzle
r = uncurry_cc(puzzle)
header_hash = self.wallet_state_manager.blockchain.height_to_hash(
height)
block: Optional[
HeaderBlockRecord] = await self.wallet_state_manager.blockchain.block_store.get_header_block_record(
header_hash)
if block is None:
return None
removals = block.removals
if r is not None:
mod_hash, genesis_coin_checker, inner_puzzle = r
self.log.info(
f"parent: {coin_name} inner_puzzle for parent is {inner_puzzle}"
)
parent_coin = None
for coin in removals:
if coin.name() == coin_name:
parent_coin = coin
if parent_coin is None:
raise ValueError("Error in finding parent")
lineage_proof = get_lineage_proof_from_coin_and_puz(
parent_coin, puzzle)
await self.add_lineage(coin_name, lineage_proof)
await self.wallet_state_manager.action_store.action_done(action_id)
async def respond_to_offer(
self, file_path: Path
) -> Tuple[bool, Optional[TradeRecord], Optional[str]]:
has_wallets = await self.maybe_create_wallets_for_offer(file_path)
if not has_wallets:
return False, None, "Unknown Error"
trade_offer = None
try:
trade_offer_hex = file_path.read_text()
trade_offer = TradeRecord.from_bytes(
hexstr_to_bytes(trade_offer_hex))
except Exception as e:
return False, None, f"Error: {e}"
if trade_offer is not None:
offer_spend_bundle: SpendBundle = trade_offer.spend_bundle
coinsols: List[CoinSolution] = [] # [] of CoinSolutions
cc_coinsol_outamounts: Dict[bytes32, List[Tuple[CoinSolution,
int]]] = dict()
aggsig = offer_spend_bundle.aggregated_signature
cc_discrepancies: Dict[bytes32, int] = dict()
chia_discrepancy = None
wallets: Dict[bytes32, Any] = dict() # colour to wallet dict
for coinsol in offer_spend_bundle.coin_solutions:
puzzle: Program = Program.from_bytes(bytes(coinsol.puzzle_reveal))
solution: Program = Program.from_bytes(bytes(coinsol.solution))
# work out the deficits between coin amount and expected output for each
r = cc_utils.uncurry_cc(puzzle)
if r:
# Calculate output amounts
mod_hash, genesis_checker, inner_puzzle = r
colour = bytes(genesis_checker).hex()
if colour not in wallets:
wallets[
colour] = await self.wallet_state_manager.get_wallet_for_colour(
colour)
unspent = await self.wallet_state_manager.get_spendable_coins_for_wallet(
wallets[colour].id())
if coinsol.coin in [record.coin for record in unspent]:
return False, None, "can't respond to own offer"
innersol = solution.first()
total = get_output_amount_for_puzzle_and_solution(
inner_puzzle, innersol)
if colour in cc_discrepancies:
cc_discrepancies[colour] += coinsol.coin.amount - total
else:
cc_discrepancies[colour] = coinsol.coin.amount - total
# Store coinsol and output amount for later
if colour in cc_coinsol_outamounts:
cc_coinsol_outamounts[colour].append((coinsol, total))
else:
cc_coinsol_outamounts[colour] = [(coinsol, total)]
else:
# standard chia coin
unspent = await self.wallet_state_manager.get_spendable_coins_for_wallet(
1)
if coinsol.coin in [record.coin for record in unspent]:
return False, None, "can't respond to own offer"
if chia_discrepancy is None:
chia_discrepancy = get_output_discrepancy_for_puzzle_and_solution(
coinsol.coin, puzzle, solution)
else:
chia_discrepancy += get_output_discrepancy_for_puzzle_and_solution(
coinsol.coin, puzzle, solution)
coinsols.append(coinsol)
chia_spend_bundle: Optional[SpendBundle] = None
if chia_discrepancy is not None:
chia_spend_bundle = await self.wallet_state_manager.main_wallet.create_spend_bundle_relative_chia(
chia_discrepancy, [])
if chia_spend_bundle is not None:
for coinsol in coinsols:
chia_spend_bundle.coin_solutions.append(coinsol)
zero_spend_list: List[SpendBundle] = []
spend_bundle = None
# create coloured coin
self.log.info(cc_discrepancies)
for colour in cc_discrepancies.keys():
if cc_discrepancies[colour] < 0:
my_cc_spends = await wallets[colour].select_coins(
abs(cc_discrepancies[colour]))
else:
if chia_spend_bundle is None:
to_exclude: List = []
else:
to_exclude = chia_spend_bundle.removals()
my_cc_spends = await wallets[colour].select_coins(0)
if my_cc_spends is None or my_cc_spends == set():
zero_spend_bundle: SpendBundle = await wallets[
colour].generate_zero_val_coin(False, to_exclude)
if zero_spend_bundle is None:
return (
False,
None,
"Unable to generate zero value coin. Confirm that you have chia available",
)
zero_spend_list.append(zero_spend_bundle)
additions = zero_spend_bundle.additions()
removals = zero_spend_bundle.removals()
my_cc_spends = set()
for add in additions:
if add not in removals and add.amount == 0:
my_cc_spends.add(add)
if my_cc_spends == set() or my_cc_spends is None:
return False, None, "insufficient funds"
# Create SpendableCC list and innersol_list with both my coins and the offered coins
# Firstly get the output coin
my_output_coin = my_cc_spends.pop()
spendable_cc_list = []
innersol_list = []
genesis_id = genesis_coin_id_for_genesis_coin_checker(
Program.from_bytes(bytes.fromhex(colour)))
# Make the rest of the coins assert the output coin is consumed
for coloured_coin in my_cc_spends:
inner_solution = self.wallet_state_manager.main_wallet.make_solution(
consumed=[my_output_coin.name()])
inner_puzzle = await self.get_inner_puzzle_for_puzzle_hash(
coloured_coin.puzzle_hash)
assert inner_puzzle is not None
sigs = await wallets[colour].get_sigs(inner_puzzle,
inner_solution,
coloured_coin.name())
sigs.append(aggsig)
aggsig = AugSchemeMPL.aggregate(sigs)
lineage_proof = await wallets[
colour].get_lineage_proof_for_coin(coloured_coin)
spendable_cc_list.append(
SpendableCC(coloured_coin, genesis_id, inner_puzzle,
lineage_proof))
innersol_list.append(inner_solution)
# Create SpendableCC for each of the coloured coins received
for cc_coinsol_out in cc_coinsol_outamounts[colour]:
cc_coinsol = cc_coinsol_out[0]
puzzle = Program.from_bytes(bytes(cc_coinsol.puzzle_reveal))
solution = Program.from_bytes(bytes(cc_coinsol.solution))
r = uncurry_cc(puzzle)
if r:
mod_hash, genesis_coin_checker, inner_puzzle = r
inner_solution = solution.first()
lineage_proof = solution.rest().rest().first()
spendable_cc_list.append(
SpendableCC(cc_coinsol.coin, genesis_id, inner_puzzle,
lineage_proof))
innersol_list.append(inner_solution)
# Finish the output coin SpendableCC with new information
newinnerpuzhash = await wallets[colour].get_new_inner_hash()
outputamount = sum([
c.amount for c in my_cc_spends
]) + cc_discrepancies[colour] + my_output_coin.amount
inner_solution = self.wallet_state_manager.main_wallet.make_solution(
primaries=[{
"puzzlehash": newinnerpuzhash,
"amount": outputamount
}])
inner_puzzle = await self.get_inner_puzzle_for_puzzle_hash(
my_output_coin.puzzle_hash)
assert inner_puzzle is not None
lineage_proof = await wallets[colour].get_lineage_proof_for_coin(
my_output_coin)
spendable_cc_list.append(
SpendableCC(my_output_coin, genesis_id, inner_puzzle,
lineage_proof))
innersol_list.append(inner_solution)
sigs = await wallets[colour].get_sigs(inner_puzzle, inner_solution,
my_output_coin.name())
sigs.append(aggsig)
aggsig = AugSchemeMPL.aggregate(sigs)
if spend_bundle is None:
spend_bundle = spend_bundle_for_spendable_ccs(
CC_MOD,
Program.from_bytes(bytes.fromhex(colour)),
spendable_cc_list,
innersol_list,
[aggsig],
)
else:
new_spend_bundle = spend_bundle_for_spendable_ccs(
CC_MOD,
Program.from_bytes(bytes.fromhex(colour)),
spendable_cc_list,
innersol_list,
[aggsig],
)
spend_bundle = SpendBundle.aggregate(
[spend_bundle, new_spend_bundle])
# reset sigs and aggsig so that they aren't included next time around
sigs = []
aggsig = AugSchemeMPL.aggregate(sigs)
my_tx_records = []
if zero_spend_list is not None and spend_bundle is not None:
zero_spend_list.append(spend_bundle)
spend_bundle = SpendBundle.aggregate(zero_spend_list)
if spend_bundle is None:
return False, None, "spend_bundle missing"
# Add transaction history for this trade
now = uint64(int(time.time()))
if chia_spend_bundle is not None:
spend_bundle = SpendBundle.aggregate(
[spend_bundle, chia_spend_bundle])
# debug_spend_bundle(spend_bundle)
if chia_discrepancy < 0:
tx_record = TransactionRecord(
confirmed_at_height=uint32(0),
created_at_time=now,
to_puzzle_hash=token_bytes(),
amount=uint64(abs(chia_discrepancy)),
fee_amount=uint64(0),
confirmed=False,
sent=uint32(10),
spend_bundle=chia_spend_bundle,
additions=chia_spend_bundle.additions(),
removals=chia_spend_bundle.removals(),
wallet_id=uint32(1),
sent_to=[],
trade_id=std_hash(spend_bundle.name() + bytes(now)),
type=uint32(TransactionType.OUTGOING_TRADE.value),
name=chia_spend_bundle.name(),
)
else:
tx_record = TransactionRecord(
confirmed_at_height=uint32(0),
created_at_time=uint64(int(time.time())),
to_puzzle_hash=token_bytes(),
amount=uint64(abs(chia_discrepancy)),
fee_amount=uint64(0),
confirmed=False,
sent=uint32(10),
spend_bundle=chia_spend_bundle,
additions=chia_spend_bundle.additions(),
removals=chia_spend_bundle.removals(),
wallet_id=uint32(1),
sent_to=[],
trade_id=std_hash(spend_bundle.name() + bytes(now)),
type=uint32(TransactionType.INCOMING_TRADE.value),
name=chia_spend_bundle.name(),
)
my_tx_records.append(tx_record)
for colour, amount in cc_discrepancies.items():
wallet = wallets[colour]
if chia_discrepancy > 0:
tx_record = TransactionRecord(
confirmed_at_height=uint32(0),
created_at_time=uint64(int(time.time())),
to_puzzle_hash=token_bytes(),
amount=uint64(abs(amount)),
fee_amount=uint64(0),
confirmed=False,
sent=uint32(10),
spend_bundle=spend_bundle,
additions=spend_bundle.additions(),
removals=spend_bundle.removals(),
wallet_id=wallet.id(),
sent_to=[],
trade_id=std_hash(spend_bundle.name() + bytes(now)),
type=uint32(TransactionType.OUTGOING_TRADE.value),
name=spend_bundle.name(),
)
else:
tx_record = TransactionRecord(
confirmed_at_height=uint32(0),
created_at_time=uint64(int(time.time())),
to_puzzle_hash=token_bytes(),
amount=uint64(abs(amount)),
fee_amount=uint64(0),
confirmed=False,
sent=uint32(10),
spend_bundle=spend_bundle,
additions=spend_bundle.additions(),
removals=spend_bundle.removals(),
wallet_id=wallet.id(),
sent_to=[],
trade_id=std_hash(spend_bundle.name() + bytes(now)),
type=uint32(TransactionType.INCOMING_TRADE.value),
name=token_bytes(),
)
my_tx_records.append(tx_record)
tx_record = TransactionRecord(
confirmed_at_height=uint32(0),
created_at_time=uint64(int(time.time())),
to_puzzle_hash=token_bytes(),
amount=uint64(0),
fee_amount=uint64(0),
confirmed=False,
sent=uint32(0),
spend_bundle=spend_bundle,
additions=spend_bundle.additions(),
removals=spend_bundle.removals(),
wallet_id=uint32(0),
sent_to=[],
trade_id=std_hash(spend_bundle.name() + bytes(now)),
type=uint32(TransactionType.OUTGOING_TRADE.value),
name=spend_bundle.name(),
)
now = uint64(int(time.time()))
trade_record: TradeRecord = TradeRecord(
confirmed_at_index=uint32(0),
accepted_at_time=now,
created_at_time=now,
my_offer=False,
sent=uint32(0),
spend_bundle=offer_spend_bundle,
tx_spend_bundle=spend_bundle,
additions=spend_bundle.additions(),
removals=spend_bundle.removals(),
trade_id=std_hash(spend_bundle.name() + bytes(now)),
status=uint32(TradeStatus.PENDING_CONFIRM.value),
sent_to=[],
)
await self.save_trade(trade_record)
await self.wallet_state_manager.add_pending_transaction(tx_record)
for tx in my_tx_records:
await self.wallet_state_manager.add_transaction(tx)
return True, trade_record, None
