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trezor-firmware/python/src/trezorlib/nem.py
2022-01-07 21:41:17 +01:00

217 lines
7.3 KiB
Python

# This file is part of the Trezor project.
#
# Copyright (C) 2012-2022 SatoshiLabs and contributors
#
# This library is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License version 3
# as published by the Free Software Foundation.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the License along with this library.
# If not, see <https://www.gnu.org/licenses/lgpl-3.0.html>.
import json
from typing import TYPE_CHECKING
from . import exceptions, messages
from .tools import expect
if TYPE_CHECKING:
from .client import TrezorClient
from .tools import Address
from .protobuf import MessageType
TYPE_TRANSACTION_TRANSFER = 0x0101
TYPE_IMPORTANCE_TRANSFER = 0x0801
TYPE_AGGREGATE_MODIFICATION = 0x1001
TYPE_MULTISIG_SIGNATURE = 0x1002
TYPE_MULTISIG = 0x1004
TYPE_PROVISION_NAMESPACE = 0x2001
TYPE_MOSAIC_CREATION = 0x4001
TYPE_MOSAIC_SUPPLY_CHANGE = 0x4002
def create_transaction_common(transaction: dict) -> messages.NEMTransactionCommon:
msg = messages.NEMTransactionCommon(
network=(transaction["version"] >> 24) & 0xFF,
timestamp=transaction["timeStamp"],
fee=transaction["fee"],
deadline=transaction["deadline"],
)
if "signer" in transaction:
msg.signer = bytes.fromhex(transaction["signer"])
return msg
def create_transfer(transaction: dict) -> messages.NEMTransfer:
msg = messages.NEMTransfer(
recipient=transaction["recipient"], amount=transaction["amount"]
)
if "payload" in transaction["message"]:
msg.payload = bytes.fromhex(transaction["message"]["payload"])
if transaction["message"]["type"] == 0x02:
msg.public_key = bytes.fromhex(transaction["message"]["publicKey"])
if "mosaics" in transaction:
msg.mosaics = [
messages.NEMMosaic(
namespace=mosaic["mosaicId"]["namespaceId"],
mosaic=mosaic["mosaicId"]["name"],
quantity=mosaic["quantity"],
)
for mosaic in transaction["mosaics"]
]
return msg
def create_aggregate_modification(
transaction: dict,
) -> messages.NEMAggregateModification:
msg = messages.NEMAggregateModification(
modifications=[
messages.NEMCosignatoryModification(
type=modification["modificationType"],
public_key=bytes.fromhex(modification["cosignatoryAccount"]),
)
for modification in transaction["modifications"]
]
)
if "minCosignatories" in transaction:
msg.relative_change = transaction["minCosignatories"]["relativeChange"]
return msg
def create_provision_namespace(transaction: dict) -> messages.NEMProvisionNamespace:
msg = messages.NEMProvisionNamespace(
sink=transaction["rentalFeeSink"],
fee=transaction["rentalFee"],
namespace=transaction["newPart"],
)
if transaction["parent"]:
msg.parent = transaction["parent"]
return msg
def create_mosaic_creation(transaction: dict) -> messages.NEMMosaicCreation:
definition_dict = transaction["mosaicDefinition"]
definition = messages.NEMMosaicDefinition(
namespace=definition_dict["id"]["namespaceId"],
mosaic=definition_dict["id"]["name"],
description=definition_dict["description"],
)
if definition_dict["levy"]:
definition.levy = definition_dict["levy"]["type"]
definition.fee = definition_dict["levy"]["fee"]
definition.levy_address = definition_dict["levy"]["recipient"]
definition.levy_namespace = definition_dict["levy"]["mosaicId"]["namespaceId"]
definition.levy_mosaic = definition_dict["levy"]["mosaicId"]["name"]
for property in definition_dict["properties"]:
name = property["name"]
value = json.loads(property["value"])
if name == "divisibility":
definition.divisibility = value
elif name == "initialSupply":
definition.supply = value
elif name == "supplyMutable":
definition.mutable_supply = value
elif name == "transferable":
definition.transferable = value
return messages.NEMMosaicCreation(
definition=definition,
sink=transaction["creationFeeSink"],
fee=transaction["creationFee"],
)
def create_supply_change(transaction: dict) -> messages.NEMMosaicSupplyChange:
return messages.NEMMosaicSupplyChange(
namespace=transaction["mosaicId"]["namespaceId"],
mosaic=transaction["mosaicId"]["name"],
type=transaction["supplyType"],
delta=transaction["delta"],
)
def create_importance_transfer(transaction: dict) -> messages.NEMImportanceTransfer:
return messages.NEMImportanceTransfer(
mode=transaction["importanceTransfer"]["mode"],
public_key=bytes.fromhex(transaction["importanceTransfer"]["publicKey"]),
)
def fill_transaction_by_type(msg: messages.NEMSignTx, transaction: dict) -> None:
if transaction["type"] == TYPE_TRANSACTION_TRANSFER:
msg.transfer = create_transfer(transaction)
elif transaction["type"] == TYPE_AGGREGATE_MODIFICATION:
msg.aggregate_modification = create_aggregate_modification(transaction)
elif transaction["type"] == TYPE_PROVISION_NAMESPACE:
msg.provision_namespace = create_provision_namespace(transaction)
elif transaction["type"] == TYPE_MOSAIC_CREATION:
msg.mosaic_creation = create_mosaic_creation(transaction)
elif transaction["type"] == TYPE_MOSAIC_SUPPLY_CHANGE:
msg.supply_change = create_supply_change(transaction)
elif transaction["type"] == TYPE_IMPORTANCE_TRANSFER:
msg.importance_transfer = create_importance_transfer(transaction)
else:
raise ValueError("Unknown transaction type")
def create_sign_tx(transaction: dict) -> messages.NEMSignTx:
msg = messages.NEMSignTx(
transaction=create_transaction_common(transaction),
cosigning=transaction["type"] == TYPE_MULTISIG_SIGNATURE,
)
if transaction["type"] in (TYPE_MULTISIG_SIGNATURE, TYPE_MULTISIG):
other_trans = transaction["otherTrans"]
msg.multisig = create_transaction_common(other_trans)
fill_transaction_by_type(msg, other_trans)
elif "otherTrans" in transaction:
raise ValueError("Transaction does not support inner transaction")
else:
fill_transaction_by_type(msg, transaction)
return msg
# ====== Client functions ====== #
@expect(messages.NEMAddress, field="address", ret_type=str)
def get_address(
client: "TrezorClient", n: "Address", network: int, show_display: bool = False
) -> "MessageType":
return client.call(
messages.NEMGetAddress(address_n=n, network=network, show_display=show_display)
)
@expect(messages.NEMSignedTx)
def sign_tx(client: "TrezorClient", n: "Address", transaction: dict) -> "MessageType":
try:
msg = create_sign_tx(transaction)
except ValueError as e:
raise exceptions.TrezorException("Failed to encode transaction") from e
assert msg.transaction is not None
msg.transaction.address_n = n
return client.call(msg)