def compareConstructedTX(self):
        self.op = operations.Balance_claim(
            **{
                "fee": {"amount": 0, "asset_id": "1.3.0"},
                "deposit_to_account": "1.2.0",
                "balance_to_claim": "1.15.0",
                "balance_owner_key": prefix + "1111111111111111111111111111111114T1Anm",
                "total_claimed": {"amount": 0, "asset_id": "1.3.0"},
                "prefix": prefix,
            }
        )

        ops = [Operation(self.op)]
        tx = Signed_Transaction(
            ref_block_num=ref_block_num,
            ref_block_prefix=ref_block_prefix,
            expiration=expiration,
            operations=ops,
        )
        tx = tx.sign([wif], chain=prefix)
        tx.verify([PrivateKey(wif).pubkey], prefix)
        txWire = hexlify(bytes(tx)).decode("ascii")
        print("=" * 80)
        pprint(tx.json())
        print("=" * 80)

        from grapheneapi.grapheneapi import GrapheneAPI

        rpc = GrapheneAPI("localhost", 8092)
        self.cm = rpc.serialize_transaction(tx.json())
        print("soll: %s" % self.cm)
        print("ist:  %s" % txWire)
        print(txWire[:-130] == self.cm[:-130])
        self.assertEqual(self.cm[:-130], txWire[:-130])
    def doit(self, printWire=False):
        ops = [Operation(self.op)]
        tx = Signed_Transaction(
            ref_block_num=ref_block_num,
            ref_block_prefix=ref_block_prefix,
            expiration=expiration,
            operations=ops,
        )
        tx = tx.sign([wif], chain=prefix)
        tx.verify([PrivateKey(wif).pubkey], prefix)
        txWire = hexlify(bytes(tx)).decode("ascii")
        if printWire:
            print()
            print(txWire)
            print()
        self.assertEqual(self.cm[:-130], txWire[:-130])

        if TEST_AGAINST_CLI_WALLET:
            from grapheneapi.grapheneapi import GrapheneAPI

            rpc = GrapheneAPI("localhost", 8092)
            self.cm = rpc.serialize_transaction(tx.json())
            # print("soll: %s" % self.cm[:-130])
            # print("ist:  %s" % txWire[:-130])
            # print(txWire[:-130] == self.cm[:-130])
            self.assertEqual(self.cm[:-130], txWire[:-130])

        # Test against Bitshares backened
        live = peerplays.rpc.get_transaction_hex(tx.json())

        # Compare expected result with online result
        self.assertEqual(live[:-130], txWire[:-130])

        # Compare expected result with online backend
        self.assertEqual(live[:-130], self.cm[:-130])
    def constructTx(self):
        """ Construct the actual transaction and store it in the class's dict
            store
        """
        if self.peerplays.proposer:
            ops = [operations.Op_wrapper(op=o) for o in list(self.ops)]
            proposer = Account(
                self.peerplays.proposer,
                peerplays_instance=self.peerplays
            )
            ops = operations.Proposal_create(**{
                "fee": {"amount": 0, "asset_id": "1.3.0"},
                "fee_paying_account": proposer["id"],
                "expiration_time": transactions.formatTimeFromNow(
                    self.peerplays.proposal_expiration),
                "proposed_ops": [o.json() for o in ops],
                "extensions": []
            })
            ops = [Operation(ops)]
        else:
            ops = [Operation(o) for o in list(self.ops)]

        ops = transactions.addRequiredFees(self.peerplays.rpc, ops)
        expiration = transactions.formatTimeFromNow(self.peerplays.expiration)
        ref_block_num, ref_block_prefix = transactions.getBlockParams(self.peerplays.rpc)
        tx = Signed_Transaction(
            ref_block_num=ref_block_num,
            ref_block_prefix=ref_block_prefix,
            expiration=expiration,
            operations=ops
        )
        super(TransactionBuilder, self).__init__(tx.json())
Esempio n. 4
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    def compareConstructedTX(self):
        op = operations.Proposal_update(
            **{
                'fee_paying_account': "1.2.1",
                'proposal': "1.10.90",
                'active_approvals_to_add': ["1.2.5"],
                "fee": {
                    "amount": 0,
                    "asset_id": "1.3.0"
                },
            })
        """
        op = operations.Betting_market_resolve(**{
            "fee": {"amount": 0, "asset_id": "1.3.0"},
            "betting_market_id": "1.21.1",
            "resolution": "win",
            "prefix": prefix,
        })
        op = operations.Bet_cancel_operation(**{
            "fee": {"amount": 0, "asset_id": "1.3.0"},
            "bettor_id": "1.2.1241",
            "bet_to_cancel": "1.22.10",
            "prefix": prefix,
        })
        """
        ops = [Operation(op)]
        tx = Signed_Transaction(ref_block_num=ref_block_num,
                                ref_block_prefix=ref_block_prefix,
                                expiration=expiration,
                                operations=ops)
        tx = tx.sign([wif], chain=prefix)
        tx.verify([PrivateKey(wif).pubkey], prefix)
        txWire = hexlify(bytes(tx)).decode("ascii")
        print("=" * 80)
        pprint(tx.json())
        print("=" * 80)

        from grapheneapi.grapheneapi import GrapheneAPI
        rpc = GrapheneAPI("localhost", 8092)
        compare = rpc.serialize_transaction(tx.json())
        print(compare[:-130])
        print(txWire[:-130])
        print(txWire[:-130] == compare[:-130])
        self.assertEqual(compare[:-130], txWire[:-130])
Esempio n. 5
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    def compareConstructedTX(self):
        self.op = operations.Bet_place(
            **{
                "fee": {
                    "amount": 0,
                    "asset_id": "1.3.0"
                },
                "bettor_id": "1.2.1241",
                "betting_market_id": "1.21.1",
                "amount_to_bet": {
                    "amount": 1000,
                    "asset_id": "1.3.1"
                },
                "backer_multiplier": 2 * GRAPHENE_BETTING_ODDS_PRECISION,
                "back_or_lay": "lay",
                "prefix": prefix,
            })
        ops = [Operation(self.op)]
        """
        from peerplays import PeerPlays
        ppy = PeerPlays()
        ops = transactions.addRequiredFees(ppy.rpc, ops)
        """
        tx = Signed_Transaction(ref_block_num=ref_block_num,
                                ref_block_prefix=ref_block_prefix,
                                expiration=expiration,
                                operations=ops)
        tx = tx.sign([wif], chain=prefix)
        tx.verify([PrivateKey(wif).pubkey], prefix)
        txWire = hexlify(bytes(tx)).decode("ascii")
        print("=" * 80)
        pprint(tx.json())
        print("=" * 80)

        from grapheneapi.grapheneapi import GrapheneAPI
        rpc = GrapheneAPI("localhost", 8092)
        self.cm = rpc.serialize_transaction(tx.json())
        print("soll: %s" % self.cm[:-130])
        print("ist:  %s" % txWire[:-130])
        print(txWire[:-130] == self.cm[:-130])
        self.assertEqual(self.cm[:-130], txWire[:-130])
Esempio n. 6
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    def sign(self):
        """ Sign a provided transaction with the provided key(s)

            :param dict tx: The transaction to be signed and returned
            :param string wifs: One or many wif keys to use for signing
                a transaction. If not present, the keys will be loaded
                from the wallet as defined in "missing_signatures" key
                of the transactions.
        """
        self.constructTx()

        if "operations" not in self or not self["operations"]:
            return

        # Legacy compatibility!
        # If we are doing a proposal, obtain the account from the proposer_id
        if self.blockchain.proposer:
            proposer = Account(self.blockchain.proposer,
                               blockchain_instance=self.blockchain)
            self.wifs = set()
            self.signing_accounts = list()
            self.appendSigner(proposer["id"], "active")

        # We need to set the default prefix, otherwise pubkeys are
        # presented wrongly!
        if self.blockchain.rpc:
            operations.default_prefix = (
                self.blockchain.rpc.chain_params["prefix"])
        elif "blockchain" in self:
            operations.default_prefix = self["blockchain"]["prefix"]

        try:
            signedtx = Signed_Transaction(**self.json())
        except:
            raise ValueError("Invalid TransactionBuilder Format")

        if not any(self.wifs):
            raise MissingKeyError

        signedtx.sign(self.wifs, chain=self.blockchain.rpc.chain_params)
        self["signatures"].extend(signedtx.json().get("signatures"))
        return signedtx
Esempio n. 7
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    def doit(self, printWire=False):
        ops = [Operation(self.op)]
        tx = Signed_Transaction(ref_block_num=ref_block_num,
                                ref_block_prefix=ref_block_prefix,
                                expiration=expiration,
                                operations=ops)
        tx = tx.sign([wif], chain=prefix)
        tx.verify([PrivateKey(wif).pubkey], prefix)
        txWire = hexlify(bytes(tx)).decode("ascii")
        if printWire:
            print()
            print(txWire)
            print()
        self.assertEqual(self.cm[:-130], txWire[:-130])

        if TEST_AGAINST_CLI_WALLET:
            from grapheneapi.grapheneapi import GrapheneAPI
            rpc = GrapheneAPI("localhost", 8092)
            self.cm = rpc.serialize_transaction(tx.json())
            # print("soll: %s" % self.cm[:-130])
            # print("ist:  %s" % txWire[:-130])
            # print(txWire[:-130] == self.cm[:-130])
            self.assertEqual(self.cm[:-130], txWire[:-130])
class TransactionBuilder(dict):
    """ This class simplifies the creation of transactions by adding
        operations and signers.
    """
    def __init__(self, tx={}, peerplays_instance=None):
        self.peerplays = peerplays_instance or shared_peerplays_instance()
        self.clear()
        if not isinstance(tx, dict):
            raise ValueError("Invalid TransactionBuilder Format")
        super(TransactionBuilder, self).__init__(tx)

    def appendOps(self, ops):
        """ Append op(s) to the transaction builder

            :param list ops: One or a list of operations
        """
        if isinstance(ops, list):
            self.ops.extend(ops)
        else:
            self.ops.append(ops)

    def appendSigner(self, account, permission):
        """ Try to obtain the wif key from the wallet by telling which account
            and permission is supposed to sign the transaction
        """
        assert permission in ["active", "owner"], "Invalid permission"
        account = Account(account, peerplays_instance=self.peerplays)
        required_treshold = account[permission]["weight_threshold"]

        def fetchkeys(account, level=0):
            if level > 2:
                return []
            r = []
            for authority in account[permission]["key_auths"]:
                wif = self.peerplays.wallet.getPrivateKeyForPublicKey(
                    authority[0])
                if wif:
                    r.append([wif, authority[1]])

            if sum([x[1] for x in r]) < required_treshold:
                # go one level deeper
                for authority in account[permission]["account_auths"]:
                    auth_account = Account(authority[0],
                                           peerplays_instance=self.peerplays)
                    r.extend(fetchkeys(auth_account, level + 1))

            return r

        keys = fetchkeys(account)
        self.wifs.extend([x[0] for x in keys])

    def appendWif(self, wif):
        """ Add a wif that should be used for signing of the transaction.
        """
        if wif:
            try:
                PrivateKey(wif)
                self.wifs.append(wif)
            except:
                raise InvalidWifError

    def constructTx(self):
        """ Construct the actual transaction and store it in the class's dict
            store
        """
        if self.peerplays.proposer:
            ops = [operations.Op_wrapper(op=o) for o in list(self.ops)]
            proposer = Account(self.peerplays.proposer,
                               peerplays_instance=self.peerplays)
            ops = operations.Proposal_create(
                **{
                    "fee": {
                        "amount": 0,
                        "asset_id": "1.3.0"
                    },
                    "fee_paying_account":
                    proposer["id"],
                    "expiration_time":
                    transactions.formatTimeFromNow(
                        self.peerplays.proposal_expiration),
                    "proposed_ops": [o.json() for o in ops],
                    "extensions": []
                })
            ops = [Operation(ops)]
        else:
            ops = [Operation(o) for o in list(self.ops)]

        ops = transactions.addRequiredFees(self.peerplays.rpc, ops)
        expiration = transactions.formatTimeFromNow(self.peerplays.expiration)
        ref_block_num, ref_block_prefix = transactions.getBlockParams(
            self.peerplays.rpc)
        self.tx = Signed_Transaction(ref_block_num=ref_block_num,
                                     ref_block_prefix=ref_block_prefix,
                                     expiration=expiration,
                                     operations=ops)
        super(TransactionBuilder, self).__init__(self.tx.json())

    def sign(self):
        """ Sign a provided transaction witht he provided key(s)

            :param dict tx: The transaction to be signed and returned
            :param string wifs: One or many wif keys to use for signing
                a transaction. If not present, the keys will be loaded
                from the wallet as defined in "missing_signatures" key
                of the transactions.
        """
        self.constructTx()

        # If we are doing a proposal, obtain the account from the proposer_id
        if self.peerplays.proposer:
            proposer = Account(self.peerplays.proposer,
                               peerplays_instance=self.peerplays)
            self.wifs = []
            self.appendSigner(proposer["id"], "active")

        # We need to set the default prefix, otherwise pubkeys are
        # presented wrongly!
        if self.peerplays.rpc:
            operations.default_prefix = self.peerplays.rpc.chain_params[
                "prefix"]
        elif "blockchain" in self:
            operations.default_prefix = self["blockchain"]["prefix"]

        try:
            signedtx = Signed_Transaction(**self.json())
        except:
            raise ValueError("Invalid TransactionBuilder Format")

        if not any(self.wifs):
            raise MissingKeyError

        signedtx.sign(self.wifs, chain=self.peerplays.rpc.chain_params)
        self["signatures"].extend(signedtx.json().get("signatures"))

    def verify_authority(self):
        """ Verify the authority of the signed transaction
        """
        try:
            if not self.peerplays.rpc.verify_authority(self.json()):
                raise InsufficientAuthorityError
        except Exception as e:
            raise e

    def broadcast(self):
        """ Broadcast a transaction to the PeerPlays network

            :param tx tx: Signed transaction to broadcast
        """
        if not "signatures" in self or not self["signatures"]:
            self.sign()

        if self.peerplays.nobroadcast:
            log.warning("Not broadcasting anything!")
            return self

        # Broadcast
        try:
            self.peerplays.rpc.broadcast_transaction(self.json(),
                                                     api="network_broadcast")
        except Exception as e:
            raise e

        self.clear()

        return self

    def clear(self):
        """ Clear the transaction builder and start from scratch
        """
        self.ops = []
        self.wifs = []
        super(TransactionBuilder, self).__init__({})

    def addSigningInformation(self, account, permission):
        """ This is a private method that adds side information to a
            unsigned/partial transaction in order to simplify later
            signing (e.g. for multisig or coldstorage)
        """
        self.constructTx()
        accountObj = Account(account)
        authority = accountObj[permission]
        # We add a required_authorities to be able to identify
        # how to sign later. This is an array, because we
        # may later want to allow multiple operations per tx
        self.update({"required_authorities": {accountObj["name"]: authority}})
        for account_auth in authority["account_auths"]:
            account_auth_account = Account(account_auth[0])
            self["required_authorities"].update(
                {account_auth[0]: account_auth_account.get(permission)})

        # Try to resolve required signatures for offline signing
        self["missing_signatures"] = [x[0] for x in authority["key_auths"]]
        # Add one recursion of keys from account_auths:
        for account_auth in authority["account_auths"]:
            account_auth_account = Account(account_auth[0])
            self["missing_signatures"].extend(
                [x[0] for x in account_auth_account[permission]["key_auths"]])
        self["blockchain"] = self.peerplays.rpc.chain_params

    def json(self):
        """ Show the transaction as plain json
        """
        return dict(self)

    def appendMissingSignatures(self):
        """ Store which accounts/keys are supposed to sign the transaction

            This method is used for an offline-signer!
        """
        missing_signatures = self.get("missing_signatures", [])
        for pub in missing_signatures:
            wif = self.peerplays.wallet.getPrivateKeyForPublicKey(pub)
            if wif:
                self.appendWif(wif)
Esempio n. 9
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class TransactionBuilder(dict):
    """ This class simplifies the creation of transactions by adding
        operations and signers.
    """
    def __init__(self, tx={}, proposer=None, **kwargs):
        BlockchainInstance.__init__(self, **kwargs)
        self.clear()
        if tx and isinstance(tx, dict):
            super(TransactionBuilder, self).__init__(tx)
            # Load operations
            self.ops = tx["operations"]
            self._require_reconstruction = False
        else:
            self._require_reconstruction = True
            self.set_fee_asset(kwargs.get("fee_asset", None))
        self.set_expiration(
            kwargs.get("expiration", self.blockchain.expiration) or 30)

    def set_expiration(self, p):
        self.expiration = p

    def is_empty(self):
        return not (len(self.ops) > 0)

    def list_operations(self):
        return [Operation(o) for o in self.ops]

    def _is_signed(self):
        return "signatures" in self and self["signatures"]

    def _is_constructed(self):
        return "expiration" in self and self["expiration"]

    def _is_require_reconstruction(self):
        return self._require_reconstruction

    def _set_require_reconstruction(self):
        self._require_reconstruction = True

    def _unset_require_reconstruction(self):
        self._require_reconstruction = False

    def __repr__(self):
        return str(self)

    def __str__(self):
        return str(self.json())

    def __getitem__(self, key):
        if key not in self:
            self.constructTx()
        return dict(self).__getitem__(key)

    def get_parent(self):
        """ TransactionBuilders don't have parents, they are their own parent
        """
        return self

    def json(self):
        """ Show the transaction as plain json
        """
        if not self._is_constructed() or self._is_require_reconstruction():
            self.constructTx()
        return dict(self)

    def appendOps(self, ops, append_to=None):
        """ Append op(s) to the transaction builder

            :param list ops: One or a list of operations
        """
        if isinstance(ops, list):
            self.ops.extend(ops)
        else:
            self.ops.append(ops)
        self._set_require_reconstruction()

    def appendSigner(self, accounts, permission):
        """ Try to obtain the wif key from the wallet by telling which accounts
            and permission is supposed to sign the transaction
        """

        # Let's define a helper function for recursion
        def fetchkeys(account, perm, level=0):
            if level > 2:
                return []
            r = []
            for authority in account[perm]["key_auths"]:
                try:
                    wif = self.blockchain.wallet.getPrivateKeyForPublicKey(
                        authority[0])
                    r.append([wif, authority[1]])
                except Exception:
                    pass

            if sum([x[1] for x in r]) < required_treshold:
                # go one level deeper
                for authority in account[perm]["account_auths"]:
                    auth_account = Account(authority[0],
                                           blockchain_instance=self.blockchain)
                    r.extend(fetchkeys(auth_account, perm, level + 1))

            return r

        assert permission in ["active", "owner"], "Invalid permission"
        if self.blockchain.wallet.locked():
            raise WalletLocked()
        if not isinstance(accounts, (list, tuple, set)):
            accounts = [accounts]

        for account in accounts:
            # Now let's actually deal with the accounts
            if account not in self.signing_accounts:
                # is the account an instance of public key?
                if isinstance(account, PublicKey):
                    self.wifs.add(
                        self.blockchain.wallet.getPrivateKeyForPublicKey(
                            str(account)))
                # ... or should we rather obtain the keys from an account name
                else:
                    account = Account(account,
                                      blockchain_instance=self.blockchain)
                    required_treshold = account[permission]["weight_threshold"]
                    keys = fetchkeys(account, permission)
                    # If we couldn't find an active key, let's try overwrite it
                    # with an owner key
                    if not keys and permission != "owner":
                        keys.extend(fetchkeys(account, "owner"))
                    for x in keys:
                        self.wifs.add(x[0])

                self.signing_accounts.append(account)

    def appendWif(self, wif):
        """ Add a wif that should be used for signing of the transaction.
        """
        if wif:
            try:
                PrivateKey(wif)
                self.wifs.add(wif)
            except:
                raise InvalidWifError

    def set_fee_asset(self, fee_asset):
        """ Set asset to fee
        """
        from .amount import Asset
        if isinstance(fee_asset, Asset):
            self.fee_asset_id = fee_asset["id"]
        elif fee_asset:
            self.fee_asset_id = fee_asset
        else:
            self.fee_asset_id = "1.3.0"

    def constructTx(self):
        """ Construct the actual transaction and store it in the class's dict
            store
        """
        ops = list()
        for op in self.ops:
            if isinstance(op, ProposalBuilder):
                # This operation is a proposal an needs to be deal with
                # differently
                proposals = op.get_raw()
                if proposals:
                    ops.append(proposals)
            else:
                # otherwise, we simply wrap ops into Operations
                ops.extend([Operation(op)])

        # We now wrap everything into an actual transaction
        ops = transactions.addRequiredFees(self.blockchain.rpc,
                                           ops,
                                           asset_id=self.fee_asset_id)
        expiration = transactions.formatTimeFromNow(
            self.expiration or self.blockchain.expiration)
        ref_block_num, ref_block_prefix = transactions.getBlockParams(
            self.blockchain.rpc)
        self.tx = Signed_Transaction(ref_block_num=ref_block_num,
                                     ref_block_prefix=ref_block_prefix,
                                     expiration=expiration,
                                     operations=ops)
        super(TransactionBuilder, self).update(self.tx.json())
        self._unset_require_reconstruction()

    def sign(self):
        """ Sign a provided transaction with the provided key(s)

            :param dict tx: The transaction to be signed and returned
            :param string wifs: One or many wif keys to use for signing
                a transaction. If not present, the keys will be loaded
                from the wallet as defined in "missing_signatures" key
                of the transactions.
        """
        self.constructTx()

        if "operations" not in self or not self["operations"]:
            return

        # Legacy compatibility!
        # If we are doing a proposal, obtain the account from the proposer_id
        if self.blockchain.proposer:
            proposer = Account(self.blockchain.proposer,
                               blockchain_instance=self.blockchain)
            self.wifs = set()
            self.signing_accounts = list()
            self.appendSigner(proposer["id"], "active")

        # We need to set the default prefix, otherwise pubkeys are
        # presented wrongly!
        if self.blockchain.rpc:
            operations.default_prefix = (
                self.blockchain.rpc.chain_params["prefix"])
        elif "blockchain" in self:
            operations.default_prefix = self["blockchain"]["prefix"]

        try:
            signedtx = Signed_Transaction(**self.json())
        except:
            raise ValueError("Invalid TransactionBuilder Format")

        if not any(self.wifs):
            raise MissingKeyError

        signedtx.sign(self.wifs, chain=self.blockchain.rpc.chain_params)
        self["signatures"].extend(signedtx.json().get("signatures"))
        return signedtx

    def verify_authority(self):
        """ Verify the authority of the signed transaction
        """
        try:
            if not self.blockchain.rpc.verify_authority(self.json()):
                raise InsufficientAuthorityError
        except Exception as e:
            raise e

    def broadcast(self):
        """ Broadcast a transaction to the blockchain network

            :param tx tx: Signed transaction to broadcast
        """
        # Cannot broadcast an empty transaction
        if not self._is_signed():
            self.sign()

        if "operations" not in self or not self["operations"]:
            return

        ret = self.json()

        if self.blockchain.nobroadcast:
            log.warning("Not broadcasting anything!")
            self.clear()
            return ret

        # Broadcast
        try:
            if self.blockchain.blocking:
                ret = self.blockchain.rpc.broadcast_transaction_synchronous(
                    ret, api="network_broadcast")
                ret.update(**ret.get("trx"))
            else:
                self.blockchain.rpc.broadcast_transaction(
                    ret, api="network_broadcast")
        except Exception as e:
            raise e
        finally:
            self.clear()

        return ret

    def clear(self):
        """ Clear the transaction builder and start from scratch
        """
        self.ops = []
        self.wifs = set()
        self.signing_accounts = []
        # This makes sure that _is_constructed will return False afterwards
        self["expiration"] = None
        super(TransactionBuilder, self).__init__({})

    def addSigningInformation(self, accounts, permission):
        """ This is a private method that adds side information to a
            unsigned/partial transaction in order to simplify later
            signing (e.g. for multisig or coldstorage)

            FIXME: Does not work with owner keys!
        """
        self.constructTx()
        self["blockchain"] = self.blockchain.rpc.chain_params

        if isinstance(accounts, PublicKey):
            self["missing_signatures"] = [str(accounts)]
        else:
            if not isinstance(accounts, list):
                accounts = [accounts]
            for account in accounts:
                accountObj = Account(account)
                authority = accountObj[permission]
                # We add a required_authorities to be able to identify
                # how to sign later. This is an array, because we
                # may later want to allow multiple operations per tx
                if "required_authorities" not in self:
                    self["required_authorities"] = dict()
                if "missing_signatures" not in self:
                    self["missing_signatures"] = list()

                self["required_authorities"].update(
                    {accountObj["name"]: authority})
                for account_auth in authority["account_auths"]:
                    account_auth_account = Account(account_auth[0])
                    self["required_authorities"].update({
                        account_auth[0]:
                        account_auth_account.get(permission)
                    })

                # Try to resolve required signatures for offline signing
                self["missing_signatures"].extend(
                    [x[0] for x in authority["key_auths"]])
                # Add one recursion of keys from account_auths:
                for account_auth in authority["account_auths"]:
                    account_auth_account = Account(account_auth[0])
                    self["missing_signatures"].extend([
                        x[0]
                        for x in account_auth_account[permission]["key_auths"]
                    ])

    def appendMissingSignatures(self):
        """ Store which accounts/keys are supposed to sign the transaction

            This method is used for an offline-signer!
        """
        missing_signatures = self.get("missing_signatures", [])
        for pub in missing_signatures:
            wif = self.blockchain.wallet.getPrivateKeyForPublicKey(pub)
            if wif:
                self.appendWif(wif)