예제 #1
0
    async def generate_signed_transaction(
        self,
        amount: uint64,
        to_address: bytes32,
        fee: uint64 = uint64(0),
        origin_id: bytes32 = None,
        coins: Set[Coin] = None,
    ) -> Optional[TransactionRecord]:
        sigs: List[G2Element] = []

        # Get coins and calculate amount of change required
        if coins is None:
            selected_coins: Optional[Set[Coin]] = await self.select_coins(
                amount)
        else:
            selected_coins = coins
        if selected_coins is None:
            return None

        total_amount = sum([x.amount for x in selected_coins])
        change = total_amount - amount

        # first coin becomes the auditor special case
        auditor = selected_coins.pop()
        puzzle_hash = auditor.puzzle_hash
        inner_puzzle: Program = await self.inner_puzzle_for_cc_puzzle(
            puzzle_hash)

        auditor_info = (
            auditor.parent_coin_info,
            inner_puzzle.get_tree_hash(),
            auditor.amount,
        )
        list_of_solutions = []

        # auditees should be (primary_input, innerpuzhash, coin_amount, output_amount)
        auditees = [(
            auditor.parent_coin_info,
            inner_puzzle.get_tree_hash(),
            auditor.amount,
            total_amount,
        )]
        for coin in selected_coins:
            coin_inner_puzzle: Program = await self.inner_puzzle_for_cc_puzzle(
                coin.puzzle_hash)
            auditees.append((
                coin.parent_coin_info,
                coin_inner_puzzle[coin],
                coin.amount,
                0,
            ))

        primaries = [{"puzzlehash": to_address, "amount": amount}]
        if change > 0:
            changepuzzlehash = await self.get_new_inner_hash()
            primaries.append({
                "puzzlehash": changepuzzlehash,
                "amount": change
            })

        innersol = self.standard_wallet.make_solution(primaries=primaries)
        sigs = sigs + await self.get_sigs(inner_puzzle, innersol)
        parent_info = await self.get_parent_for_coin(auditor)
        assert parent_info is not None
        assert self.cc_info.my_core is not None

        solution = cc_wallet_puzzles.cc_make_solution(
            self.cc_info.my_core,
            (
                parent_info.parent_name,
                parent_info.inner_puzzle_hash,
                parent_info.amount,
            ),
            auditor.amount,
            binutils.disassemble(inner_puzzle),
            binutils.disassemble(innersol),
            auditor_info,
            auditees,
            False,
        )

        main_coin_solution = CoinSolution(
            auditor,
            Program.to([
                cc_wallet_puzzles.cc_make_puzzle(
                    inner_puzzle.get_tree_hash(),
                    self.cc_info.my_core,
                ),
                solution,
            ]),
        )
        list_of_solutions.append(main_coin_solution)
        # main = SpendBundle([main_coin_solution], ZERO96)

        ephemeral_coin_solution = create_spend_for_ephemeral(
            auditor, auditor, total_amount)
        list_of_solutions.append(ephemeral_coin_solution)
        # eph = SpendBundle([ephemeral_coin_solution], ZERO96)

        auditor_coin_colution = create_spend_for_auditor(auditor, auditor)
        list_of_solutions.append(auditor_coin_colution)
        # aud = SpendBundle([auditor_coin_colution], ZERO96)

        # loop through remaining spends, treating them as aggregatees
        for coin in selected_coins:
            coin_inner_puzzle = await self.inner_puzzle_for_cc_puzzle(
                coin.puzzle_hash)
            innersol = self.standard_wallet.make_solution()
            parent_info = await self.get_parent_for_coin(coin)
            assert parent_info is not None
            sigs = sigs + await self.get_sigs(coin_inner_puzzle, innersol)

            solution = cc_wallet_puzzles.cc_make_solution(
                self.cc_info.my_core,
                (
                    parent_info.parent_name,
                    parent_info.inner_puzzle_hash,
                    parent_info.amount,
                ),
                coin.amount,
                binutils.disassemble(coin_inner_puzzle),
                binutils.disassemble(innersol),
                auditor_info,
                None,
            )
            list_of_solutions.append(
                CoinSolution(
                    coin,
                    Program.to([
                        cc_wallet_puzzles.cc_make_puzzle(
                            coin_inner_puzzle.get_tree_hash(),
                            self.cc_info.my_core,
                        ),
                        solution,
                    ]),
                ))
            list_of_solutions.append(
                create_spend_for_ephemeral(coin, auditor, 0))
            list_of_solutions.append(create_spend_for_auditor(auditor, coin))

        aggsig = AugSchemeMPL.aggregate(sigs)
        spend_bundle = SpendBundle(list_of_solutions, aggsig)

        tx_record = TransactionRecord(
            confirmed_at_index=uint32(0),
            created_at_time=uint64(int(time.time())),
            to_puzzle_hash=to_address,
            amount=uint64(amount),
            fee_amount=uint64(0),
            incoming=False,
            confirmed=False,
            sent=uint32(0),
            spend_bundle=spend_bundle,
            additions=spend_bundle.additions(),
            removals=spend_bundle.removals(),
            wallet_id=self.wallet_info.id,
            sent_to=[],
            trade_id=None,
        )

        return tx_record
예제 #2
0
    async def create_spend_bundle_relative_amount(self,
                                                  cc_amount,
                                                  zero_coin: Coin = None):
        # If we're losing value then get coloured coins with at least that much value
        # If we're gaining value then our amount doesn't matter
        if cc_amount < 0:
            cc_spends = await self.select_coins(abs(cc_amount))
        else:
            if zero_coin is None:
                return None
            cc_spends = set()
            cc_spends.add(zero_coin)

        if cc_spends is None:
            return None

        # Calculate output amount given relative difference and sum of actual values
        spend_value = sum([coin.amount for coin in cc_spends])
        cc_amount = spend_value + cc_amount

        # Loop through coins and create solution for innerpuzzle
        list_of_solutions = []
        output_created = None
        sigs: List[G2Element] = []
        for coin in cc_spends:
            if output_created is None:
                newinnerpuzhash = await self.get_new_inner_hash()
                innersol = self.standard_wallet.make_solution(
                    primaries=[{
                        "puzzlehash": newinnerpuzhash,
                        "amount": cc_amount
                    }])
                output_created = coin
            else:
                innersol = self.standard_wallet.make_solution()
            innerpuz: Program = await self.inner_puzzle_for_cc_puzzle(
                coin.puzzle_hash)

            parent_info = await self.get_parent_for_coin(coin)
            assert parent_info is not None
            assert self.cc_info.my_core is not None
            # Use coin info to create solution and add coin and solution to list of CoinSolutions
            solution = cc_wallet_puzzles.cc_make_solution(
                self.cc_info.my_core,
                (
                    parent_info.parent_name,
                    parent_info.inner_puzzle_hash,
                    parent_info.amount,
                ),
                coin.amount,
                binutils.disassemble(innerpuz),
                binutils.disassemble(innersol),
                None,
                None,
            )
            list_of_solutions.append(
                CoinSolution(
                    coin,
                    Program.to([
                        cc_wallet_puzzles.cc_make_puzzle(
                            innerpuz.get_tree_hash(), self.cc_info.my_core),
                        solution,
                    ]),
                ))
            sigs = sigs + await self.get_sigs(innerpuz, innersol)

        aggsig = AugSchemeMPL.aggregate(sigs)
        spend_bundle = SpendBundle(list_of_solutions, aggsig)
        return spend_bundle
예제 #3
0
    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_hex = file_path.read_text()
        trade_offer: TradeRecord = TradeRecord.from_bytes(
            hexstr_to_bytes(trade_offer_hex))
        offer_spend_bundle = trade_offer.spend_bundle

        coinsols = []  # [] of CoinSolutions
        cc_coinsol_outamounts: Dict[bytes32, List[Tuple[Any, int]]] = dict()
        # Used for generating auditor solution, key is colour
        auditees: Dict[bytes32, List[Tuple[bytes32, bytes32, Any,
                                           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 = coinsol.solution.first()
            solution = coinsol.solution.rest().first()

            # work out the deficits between coin amount and expected output for each
            if cc_wallet_puzzles.check_is_cc_puzzle(puzzle):

                if not cc_wallet_puzzles.is_ephemeral_solution(solution):
                    # Calculate output amounts
                    colour = cc_wallet_puzzles.get_genesis_from_puzzle(puzzle)
                    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].wallet_info.id)
                    if coinsol.coin in [record.coin for record in unspent]:
                        return False, None, "can't respond to own offer"
                    innerpuzzlereveal = cc_wallet_puzzles.inner_puzzle(
                        solution)
                    innersol = cc_wallet_puzzles.inner_puzzle_solution(
                        solution)
                    out_amount = cc_wallet_puzzles.get_output_amount_for_puzzle_and_solution(
                        innerpuzzlereveal, innersol)

                    if colour in cc_discrepancies:
                        cc_discrepancies[
                            colour] += coinsol.coin.amount - out_amount
                    else:
                        cc_discrepancies[
                            colour] = coinsol.coin.amount - out_amount
                    # Store coinsol and output amount for later
                    if colour in cc_coinsol_outamounts:
                        cc_coinsol_outamounts[colour].append(
                            (coinsol, out_amount))
                    else:
                        cc_coinsol_outamounts[colour] = [(coinsol, out_amount)]

                    # auditees should be (primary_input, innerpuzhash, coin_amount, output_amount)
                    if colour in auditees:
                        auditees[colour].append((
                            coinsol.coin.parent_coin_info,
                            Program(innerpuzzlereveal).get_tree_hash(),
                            coinsol.coin.amount,
                            out_amount,
                        ))
                    else:
                        auditees[colour] = [(
                            coinsol.coin.parent_coin_info,
                            Program(innerpuzzlereveal).get_tree_hash(),
                            coinsol.coin.amount,
                            out_amount,
                        )]
                else:
                    coinsols.append(coinsol)
            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 = cc_wallet_puzzles.get_output_discrepancy_for_puzzle_and_solution(
                        coinsol.coin, puzzle, solution)
                else:
                    chia_discrepancy += cc_wallet_puzzles.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, [])

        zero_spend_list: List[SpendBundle] = []
        # 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"

            auditor = my_cc_spends.pop()
            auditor_inner_puzzle = await self.get_inner_puzzle_for_puzzle_hash(
                auditor.puzzle_hash)
            assert auditor_inner_puzzle is not None
            inner_hash = auditor_inner_puzzle.get_tree_hash()

            auditor_info = (
                auditor.parent_coin_info,
                inner_hash,
                auditor.amount,
            )
            core = cc_wallet_puzzles.cc_make_core(colour)
            parent_info = await wallets[colour].get_parent_for_coin(auditor)

            for coloured_coin in my_cc_spends:
                inner_solution = self.wallet_state_manager.main_wallet.make_solution(
                    consumed=[auditor.name()])
                sig = await wallets[
                    colour].get_sigs_for_innerpuz_with_innersol(
                        await self.get_inner_puzzle_for_puzzle_hash(
                            coloured_coin.puzzle_hash),
                        inner_solution,
                    )
                aggsig = AugSchemeMPL.aggregate([sig, aggsig])
                inner_puzzle = await self.get_inner_puzzle_for_puzzle_hash(
                    coloured_coin.puzzle_hash)
                assert inner_puzzle is not None
                # auditees should be (primary_input, innerpuzhash, coin_amount, output_amount)
                auditees[colour].append((
                    coloured_coin.parent_coin_info,
                    inner_puzzle.get_tree_hash(),
                    coloured_coin.amount,
                    0,
                ))

                solution = cc_wallet_puzzles.cc_make_solution(
                    core,
                    (
                        parent_info.parent_name,
                        parent_info.inner_puzzle_hash,
                        parent_info.amount,
                    ),
                    coloured_coin.amount,
                    binutils.disassemble(inner_puzzle),
                    binutils.disassemble(inner_solution),
                    auditor_info,
                    None,
                )
                coin_spend = CoinSolution(
                    coloured_coin,
                    Program.to([
                        cc_wallet_puzzles.cc_make_puzzle(
                            inner_puzzle.get_tree_hash(),
                            core,
                        ),
                        solution,
                    ]),
                )
                coinsols.append(coin_spend)

                ephemeral = cc_wallet_puzzles.create_spend_for_ephemeral(
                    coloured_coin, auditor, 0)
                coinsols.append(ephemeral)

                auditor = cc_wallet_puzzles.create_spend_for_auditor(
                    auditor, coloured_coin)
                coinsols.append(auditor)

            # Tweak the offer's solution to include the new auditor
            for cc_coinsol_out in cc_coinsol_outamounts[colour]:
                cc_coinsol = cc_coinsol_out[0]
                new_solution = cc_wallet_puzzles.update_auditors_in_solution(
                    cc_coinsol.solution, auditor_info)
                new_coinsol = CoinSolution(cc_coinsol.coin, new_solution)
                coinsols.append(new_coinsol)

                eph = cc_wallet_puzzles.create_spend_for_ephemeral(
                    cc_coinsol.coin, auditor, cc_coinsol_out[1])
                coinsols.append(eph)

                aud = cc_wallet_puzzles.create_spend_for_auditor(
                    auditor, cc_coinsol.coin)
                coinsols.append(aud)

            # Finish the auditor CoinSolution with new information
            newinnerpuzhash = await wallets[colour].get_new_inner_hash()
            outputamount = (sum([c.amount for c in my_cc_spends]) +
                            cc_discrepancies[colour] + auditor.amount)
            innersol = self.wallet_state_manager.main_wallet.make_solution(
                primaries=[{
                    "puzzlehash": newinnerpuzhash,
                    "amount": outputamount
                }])
            parent_info = await wallets[colour].get_parent_for_coin(auditor)

            auditees[colour].append((
                auditor.parent_coin_info,
                auditor_inner_puzzle.get_tree_hash(),
                auditor.amount,
                outputamount,
            ))

            sigs: List[G2Element] = await wallets[colour].get_sigs(
                auditor_inner_puzzle, innersol)
            aggsig = AugSchemeMPL.aggregate(sigs + [aggsig])

            solution = cc_wallet_puzzles.cc_make_solution(
                core,
                (
                    parent_info.parent_name,
                    parent_info.inner_puzzle_hash,
                    parent_info.amount,
                ),
                auditor.amount,
                binutils.disassemble(auditor_inner_puzzle),
                binutils.disassemble(innersol),
                auditor_info,
                auditees[colour],
            )

            cs = CoinSolution(
                auditor,
                Program.to([
                    cc_wallet_puzzles.cc_make_puzzle(
                        auditor_inner_puzzle.get_tree_hash(), core),
                    solution,
                ]),
            )
            coinsols.append(cs)

            cs_eph = create_spend_for_ephemeral(auditor, auditor, outputamount)
            coinsols.append(cs_eph)

            cs_aud = create_spend_for_auditor(auditor, auditor)
            coinsols.append(cs_aud)

        spend_bundle = SpendBundle(coinsols, aggsig)
        my_tx_records = []

        if zero_spend_list is not None:
            zero_spend_list.append(spend_bundle)
            spend_bundle = SpendBundle.aggregate(zero_spend_list)

        # Add transaction history hor this trade
        now = uint64(int(time.time()))
        if chia_spend_bundle is not None:
            spend_bundle = SpendBundle.aggregate(
                [spend_bundle, chia_spend_bundle])
            if chia_discrepancy < 0:
                tx_record = TransactionRecord(
                    confirmed_at_index=uint32(0),
                    created_at_time=now,
                    to_puzzle_hash=token_bytes(),
                    amount=uint64(abs(chia_discrepancy)),
                    fee_amount=uint64(0),
                    incoming=False,
                    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)),
                )
            else:
                tx_record = TransactionRecord(
                    confirmed_at_index=uint32(0),
                    created_at_time=uint64(int(time.time())),
                    to_puzzle_hash=token_bytes(),
                    amount=uint64(abs(chia_discrepancy)),
                    fee_amount=uint64(0),
                    incoming=True,
                    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)),
                )
            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_index=uint32(0),
                    created_at_time=uint64(int(time.time())),
                    to_puzzle_hash=token_bytes(),
                    amount=uint64(abs(amount)),
                    fee_amount=uint64(0),
                    incoming=False,
                    confirmed=False,
                    sent=uint32(10),
                    spend_bundle=spend_bundle,
                    additions=spend_bundle.additions(),
                    removals=spend_bundle.removals(),
                    wallet_id=wallet.wallet_info.id,
                    sent_to=[],
                    trade_id=std_hash(spend_bundle.name() + bytes(now)),
                )
            else:
                tx_record = TransactionRecord(
                    confirmed_at_index=uint32(0),
                    created_at_time=uint64(int(time.time())),
                    to_puzzle_hash=token_bytes(),
                    amount=uint64(abs(amount)),
                    fee_amount=uint64(0),
                    incoming=True,
                    confirmed=False,
                    sent=uint32(10),
                    spend_bundle=spend_bundle,
                    additions=spend_bundle.additions(),
                    removals=spend_bundle.removals(),
                    wallet_id=wallet.wallet_info.id,
                    sent_to=[],
                    trade_id=std_hash(spend_bundle.name() + bytes(now)),
                )
            my_tx_records.append(tx_record)

        tx_record = TransactionRecord(
            confirmed_at_index=uint32(0),
            created_at_time=uint64(int(time.time())),
            to_puzzle_hash=token_bytes(),
            amount=uint64(0),
            fee_amount=uint64(0),
            incoming=False,
            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)),
        )

        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