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mirror of https://github.com/trezor/trezor-firmware.git synced 2024-11-25 08:58:14 +00:00
trezor-firmware/python/src/trezorlib/cardano.py
matejcik 5f016a896a chore: upgrade style checkers
black 24.2.0
flake8 7.0.0

some neat improvements for if-else statements there
2024-02-29 13:08:18 +01:00

972 lines
33 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>.
from ipaddress import ip_address
from itertools import chain
from typing import (
TYPE_CHECKING,
Any,
Dict,
Iterable,
Iterator,
List,
Optional,
Sequence,
Tuple,
Type,
TypeVar,
Union,
)
from . import exceptions, messages, tools
from .tools import expect
if TYPE_CHECKING:
from .client import TrezorClient
from .protobuf import MessageType
PROTOCOL_MAGICS = {
"mainnet": 764824073,
"testnet_preprod": 1,
"testnet_preview": 2,
"testnet_legacy": 1097911063,
}
NETWORK_IDS = {"mainnet": 1, "testnet": 0}
MAX_CHUNK_SIZE = 1024
REQUIRED_FIELDS_TRANSACTION = ("inputs", "outputs")
REQUIRED_FIELDS_INPUT = ("prev_hash", "prev_index")
REQUIRED_FIELDS_CERTIFICATE = ("type",)
REQUIRED_FIELDS_POOL_PARAMETERS = (
"pool_id",
"vrf_key_hash",
"pledge",
"cost",
"margin",
"reward_account",
"owners",
)
REQUIRED_FIELDS_TOKEN_GROUP = ("policy_id", "tokens")
REQUIRED_FIELDS_CVOTE_REGISTRATION = (
"staking_path",
"nonce",
)
REQUIRED_FIELDS_CVOTE_DELEGATION = ("vote_public_key", "weight")
INCOMPLETE_OUTPUT_ERROR_MESSAGE = "The output is missing some fields"
INVALID_OUTPUT_TOKEN_BUNDLE_ENTRY = "The output's token_bundle entry is invalid"
INVALID_MINT_TOKEN_BUNDLE_ENTRY = "The mint token_bundle entry is invalid"
InputWithPath = Tuple[messages.CardanoTxInput, List[int]]
CollateralInputWithPath = Tuple[messages.CardanoTxCollateralInput, List[int]]
AssetGroupWithTokens = Tuple[messages.CardanoAssetGroup, List[messages.CardanoToken]]
OutputWithData = Tuple[
messages.CardanoTxOutput,
List[AssetGroupWithTokens],
List[messages.CardanoTxInlineDatumChunk],
List[messages.CardanoTxReferenceScriptChunk],
]
OutputItem = Union[
messages.CardanoTxOutput,
messages.CardanoAssetGroup,
messages.CardanoToken,
messages.CardanoTxInlineDatumChunk,
messages.CardanoTxReferenceScriptChunk,
]
CertificateItem = Union[
messages.CardanoTxCertificate,
messages.CardanoPoolOwner,
messages.CardanoPoolRelayParameters,
]
MintItem = Union[
messages.CardanoTxMint, messages.CardanoAssetGroup, messages.CardanoToken
]
PoolOwnersAndRelays = Tuple[
List[messages.CardanoPoolOwner], List[messages.CardanoPoolRelayParameters]
]
CertificateWithPoolOwnersAndRelays = Tuple[
messages.CardanoTxCertificate, Optional[PoolOwnersAndRelays]
]
Path = List[int]
Witness = Tuple[Path, bytes]
AuxiliaryDataSupplement = Dict[str, Union[int, bytes]]
SignTxResponse = Dict[str, Union[bytes, List[Witness], AuxiliaryDataSupplement]]
Chunk = TypeVar(
"Chunk",
bound=Union[
messages.CardanoTxInlineDatumChunk, messages.CardanoTxReferenceScriptChunk
],
)
def parse_optional_bytes(value: Optional[str]) -> Optional[bytes]:
return bytes.fromhex(value) if value is not None else None
def parse_optional_int(value: Optional[str]) -> Optional[int]:
return int(value) if value is not None else None
def create_address_parameters(
address_type: messages.CardanoAddressType,
address_n: List[int],
address_n_staking: Optional[List[int]] = None,
staking_key_hash: Optional[bytes] = None,
block_index: Optional[int] = None,
tx_index: Optional[int] = None,
certificate_index: Optional[int] = None,
script_payment_hash: Optional[bytes] = None,
script_staking_hash: Optional[bytes] = None,
) -> messages.CardanoAddressParametersType:
certificate_pointer = None
if address_type in (
messages.CardanoAddressType.POINTER,
messages.CardanoAddressType.POINTER_SCRIPT,
):
certificate_pointer = _create_certificate_pointer(
block_index, tx_index, certificate_index
)
return messages.CardanoAddressParametersType(
address_type=address_type,
address_n=address_n,
address_n_staking=address_n_staking,
staking_key_hash=staking_key_hash,
certificate_pointer=certificate_pointer,
script_payment_hash=script_payment_hash,
script_staking_hash=script_staking_hash,
)
def _create_certificate_pointer(
block_index: Optional[int],
tx_index: Optional[int],
certificate_index: Optional[int],
) -> messages.CardanoBlockchainPointerType:
if block_index is None or tx_index is None or certificate_index is None:
raise ValueError("Invalid pointer parameters")
return messages.CardanoBlockchainPointerType(
block_index=block_index, tx_index=tx_index, certificate_index=certificate_index
)
def parse_input(tx_input: dict) -> InputWithPath:
if not all(k in tx_input for k in REQUIRED_FIELDS_INPUT):
raise ValueError("The input is missing some fields")
path = tools.parse_path(tx_input.get("path", ""))
return (
messages.CardanoTxInput(
prev_hash=bytes.fromhex(tx_input["prev_hash"]),
prev_index=tx_input["prev_index"],
),
path,
)
def parse_output(output: dict) -> OutputWithData:
contains_address = "address" in output
contains_address_type = "addressType" in output
if "amount" not in output:
raise ValueError(INCOMPLETE_OUTPUT_ERROR_MESSAGE)
if not (contains_address or contains_address_type):
raise ValueError(INCOMPLETE_OUTPUT_ERROR_MESSAGE)
address = output.get("address")
address_parameters = None
if contains_address_type:
address_parameters = _parse_address_parameters(
output, INCOMPLETE_OUTPUT_ERROR_MESSAGE
)
token_bundle = []
if "token_bundle" in output:
token_bundle = _parse_token_bundle(output["token_bundle"], is_mint=False)
datum_hash = parse_optional_bytes(output.get("datum_hash"))
serialization_format = messages.CardanoTxOutputSerializationFormat.ARRAY_LEGACY
if "format" in output:
serialization_format = output["format"]
inline_datum_size, inline_datum_chunks = _parse_chunkable_data(
parse_optional_bytes(output.get("inline_datum")),
messages.CardanoTxInlineDatumChunk,
)
reference_script_size, reference_script_chunks = _parse_chunkable_data(
parse_optional_bytes(output.get("reference_script")),
messages.CardanoTxReferenceScriptChunk,
)
return (
messages.CardanoTxOutput(
address=address,
address_parameters=address_parameters,
amount=int(output["amount"]),
asset_groups_count=len(token_bundle),
datum_hash=datum_hash,
format=serialization_format,
inline_datum_size=inline_datum_size,
reference_script_size=reference_script_size,
),
token_bundle,
inline_datum_chunks,
reference_script_chunks,
)
def _parse_token_bundle(
token_bundle: Iterable[dict], is_mint: bool
) -> List[AssetGroupWithTokens]:
error_message: str
if is_mint:
error_message = INVALID_MINT_TOKEN_BUNDLE_ENTRY
else:
error_message = INVALID_OUTPUT_TOKEN_BUNDLE_ENTRY
result = []
for token_group in token_bundle:
if not all(k in token_group for k in REQUIRED_FIELDS_TOKEN_GROUP):
raise ValueError(error_message)
tokens = _parse_tokens(token_group["tokens"], is_mint)
result.append(
(
messages.CardanoAssetGroup(
policy_id=bytes.fromhex(token_group["policy_id"]),
tokens_count=len(tokens),
),
tokens,
)
)
return result
def _parse_tokens(tokens: Iterable[dict], is_mint: bool) -> List[messages.CardanoToken]:
error_message: str
if is_mint:
error_message = INVALID_MINT_TOKEN_BUNDLE_ENTRY
else:
error_message = INVALID_OUTPUT_TOKEN_BUNDLE_ENTRY
result = []
for token in tokens:
if "asset_name_bytes" not in token:
raise ValueError(error_message)
mint_amount = None
amount = None
if is_mint:
if "mint_amount" not in token:
raise ValueError(error_message)
mint_amount = int(token["mint_amount"])
else:
if "amount" not in token:
raise ValueError(error_message)
amount = int(token["amount"])
result.append(
messages.CardanoToken(
asset_name_bytes=bytes.fromhex(token["asset_name_bytes"]),
amount=amount,
mint_amount=mint_amount,
)
)
return result
def _parse_address_parameters(
address_parameters: dict, error_message: str
) -> messages.CardanoAddressParametersType:
if "addressType" not in address_parameters:
raise ValueError(error_message)
payment_path = tools.parse_path(address_parameters.get("path", ""))
staking_path = tools.parse_path(address_parameters.get("stakingPath", ""))
staking_key_hash_bytes = parse_optional_bytes(
address_parameters.get("stakingKeyHash")
)
script_payment_hash = parse_optional_bytes(
address_parameters.get("scriptPaymentHash")
)
script_staking_hash = parse_optional_bytes(
address_parameters.get("scriptStakingHash")
)
return create_address_parameters(
messages.CardanoAddressType(address_parameters["addressType"]),
payment_path,
staking_path,
staking_key_hash_bytes,
address_parameters.get("blockIndex"),
address_parameters.get("txIndex"),
address_parameters.get("certificateIndex"),
script_payment_hash,
script_staking_hash,
)
def _parse_chunkable_data(
data: Optional[bytes], chunk_type: Type[Chunk]
) -> Tuple[int, List[Chunk]]:
if data is None:
return 0, []
data_size = len(data)
data_chunks = [chunk_type(data=chunk) for chunk in _create_data_chunks(data)]
return data_size, data_chunks
def _create_data_chunks(data: bytes) -> Iterator[bytes]:
processed_size = 0
while processed_size < len(data):
yield data[processed_size : (processed_size + MAX_CHUNK_SIZE)]
processed_size += MAX_CHUNK_SIZE
def parse_native_script(native_script: dict) -> messages.CardanoNativeScript:
if "type" not in native_script:
raise ValueError("Script is missing some fields")
type = native_script["type"]
scripts = [
parse_native_script(sub_script)
for sub_script in native_script.get("scripts", ())
]
key_hash = parse_optional_bytes(native_script.get("key_hash"))
key_path = tools.parse_path(native_script.get("key_path", ""))
required_signatures_count = parse_optional_int(
native_script.get("required_signatures_count")
)
invalid_before = parse_optional_int(native_script.get("invalid_before"))
invalid_hereafter = parse_optional_int(native_script.get("invalid_hereafter"))
return messages.CardanoNativeScript(
type=type,
scripts=scripts,
key_hash=key_hash,
key_path=key_path,
required_signatures_count=required_signatures_count,
invalid_before=invalid_before,
invalid_hereafter=invalid_hereafter,
)
def parse_certificate(certificate: dict) -> CertificateWithPoolOwnersAndRelays:
CERTIFICATE_MISSING_FIELDS_ERROR = ValueError(
"The certificate is missing some fields"
)
if not all(k in certificate for k in REQUIRED_FIELDS_CERTIFICATE):
raise CERTIFICATE_MISSING_FIELDS_ERROR
certificate_type = certificate["type"]
if certificate_type == messages.CardanoCertificateType.STAKE_DELEGATION:
if "pool" not in certificate:
raise CERTIFICATE_MISSING_FIELDS_ERROR
path, script_hash, key_hash = _parse_credential(
certificate, CERTIFICATE_MISSING_FIELDS_ERROR
)
return (
messages.CardanoTxCertificate(
type=certificate_type,
path=path,
pool=bytes.fromhex(certificate["pool"]),
script_hash=script_hash,
key_hash=key_hash,
),
None,
)
elif certificate_type in (
messages.CardanoCertificateType.STAKE_REGISTRATION,
messages.CardanoCertificateType.STAKE_DEREGISTRATION,
):
path, script_hash, key_hash = _parse_credential(
certificate, CERTIFICATE_MISSING_FIELDS_ERROR
)
return (
messages.CardanoTxCertificate(
type=certificate_type,
path=path,
script_hash=script_hash,
key_hash=key_hash,
),
None,
)
elif certificate_type == messages.CardanoCertificateType.STAKE_POOL_REGISTRATION:
pool_parameters = certificate["pool_parameters"]
if any(
required_param not in pool_parameters
for required_param in REQUIRED_FIELDS_POOL_PARAMETERS
):
raise CERTIFICATE_MISSING_FIELDS_ERROR
pool_metadata: Optional[messages.CardanoPoolMetadataType]
if pool_parameters.get("metadata") is not None:
pool_metadata = messages.CardanoPoolMetadataType(
url=pool_parameters["metadata"]["url"],
hash=bytes.fromhex(pool_parameters["metadata"]["hash"]),
)
else:
pool_metadata = None
owners = [
_parse_pool_owner(pool_owner)
for pool_owner in pool_parameters.get("owners", [])
]
relays = [
_parse_pool_relay(pool_relay)
for pool_relay in pool_parameters.get("relays", [])
]
return (
messages.CardanoTxCertificate(
type=certificate_type,
pool_parameters=messages.CardanoPoolParametersType(
pool_id=bytes.fromhex(pool_parameters["pool_id"]),
vrf_key_hash=bytes.fromhex(pool_parameters["vrf_key_hash"]),
pledge=int(pool_parameters["pledge"]),
cost=int(pool_parameters["cost"]),
margin_numerator=int(pool_parameters["margin"]["numerator"]),
margin_denominator=int(pool_parameters["margin"]["denominator"]),
reward_account=pool_parameters["reward_account"],
metadata=pool_metadata,
owners_count=len(owners),
relays_count=len(relays),
),
),
(owners, relays),
)
else:
raise ValueError("Unknown certificate type")
def _parse_credential(
obj: dict, error: ValueError
) -> Tuple[List[int], Optional[bytes], Optional[bytes]]:
if not any(k in obj for k in ("path", "script_hash", "key_hash")):
raise error
path = tools.parse_path(obj.get("path", ""))
script_hash = parse_optional_bytes(obj.get("script_hash"))
key_hash = parse_optional_bytes(obj.get("key_hash"))
return path, script_hash, key_hash
def _parse_pool_owner(pool_owner: dict) -> messages.CardanoPoolOwner:
if "staking_key_path" in pool_owner:
return messages.CardanoPoolOwner(
staking_key_path=tools.parse_path(pool_owner["staking_key_path"])
)
return messages.CardanoPoolOwner(
staking_key_hash=bytes.fromhex(pool_owner["staking_key_hash"])
)
def _parse_pool_relay(pool_relay: dict) -> messages.CardanoPoolRelayParameters:
pool_relay_type = messages.CardanoPoolRelayType(pool_relay["type"])
if pool_relay_type == messages.CardanoPoolRelayType.SINGLE_HOST_IP:
ipv4_address_packed = (
ip_address(pool_relay["ipv4_address"]).packed
if "ipv4_address" in pool_relay
else None
)
ipv6_address_packed = (
ip_address(pool_relay["ipv6_address"]).packed
if "ipv6_address" in pool_relay
else None
)
return messages.CardanoPoolRelayParameters(
type=pool_relay_type,
port=int(pool_relay["port"]),
ipv4_address=ipv4_address_packed,
ipv6_address=ipv6_address_packed,
)
elif pool_relay_type == messages.CardanoPoolRelayType.SINGLE_HOST_NAME:
return messages.CardanoPoolRelayParameters(
type=pool_relay_type,
port=int(pool_relay["port"]),
host_name=pool_relay["host_name"],
)
elif pool_relay_type == messages.CardanoPoolRelayType.MULTIPLE_HOST_NAME:
return messages.CardanoPoolRelayParameters(
type=pool_relay_type,
host_name=pool_relay["host_name"],
)
raise ValueError("Unknown pool relay type")
def parse_withdrawal(withdrawal: dict) -> messages.CardanoTxWithdrawal:
WITHDRAWAL_MISSING_FIELDS_ERROR = ValueError(
"The withdrawal is missing some fields"
)
if "amount" not in withdrawal:
raise WITHDRAWAL_MISSING_FIELDS_ERROR
path, script_hash, key_hash = _parse_credential(
withdrawal, WITHDRAWAL_MISSING_FIELDS_ERROR
)
return messages.CardanoTxWithdrawal(
path=path,
amount=int(withdrawal["amount"]),
script_hash=script_hash,
key_hash=key_hash,
)
def parse_auxiliary_data(
auxiliary_data: Optional[dict],
) -> Optional[messages.CardanoTxAuxiliaryData]:
if auxiliary_data is None:
return None
AUXILIARY_DATA_MISSING_FIELDS_ERROR = ValueError(
"Auxiliary data is missing some fields"
)
# include all provided fields so we can test validation in FW
hash = parse_optional_bytes(auxiliary_data.get("hash"))
cvote_registration_parameters = None
if "cvote_registration_parameters" in auxiliary_data:
cvote_registration = auxiliary_data["cvote_registration_parameters"]
if not all(k in cvote_registration for k in REQUIRED_FIELDS_CVOTE_REGISTRATION):
raise AUXILIARY_DATA_MISSING_FIELDS_ERROR
serialization_format = cvote_registration.get("format")
delegations = []
for delegation in cvote_registration.get("delegations", []):
if not all(k in delegation for k in REQUIRED_FIELDS_CVOTE_DELEGATION):
raise AUXILIARY_DATA_MISSING_FIELDS_ERROR
delegations.append(
messages.CardanoCVoteRegistrationDelegation(
vote_public_key=bytes.fromhex(delegation["vote_public_key"]),
weight=int(delegation["weight"]),
)
)
voting_purpose = None
if serialization_format == messages.CardanoCVoteRegistrationFormat.CIP36:
voting_purpose = cvote_registration.get("voting_purpose")
cvote_registration_parameters = messages.CardanoCVoteRegistrationParametersType(
vote_public_key=parse_optional_bytes(
cvote_registration.get("vote_public_key")
),
staking_path=tools.parse_path(cvote_registration["staking_path"]),
nonce=cvote_registration["nonce"],
payment_address=cvote_registration.get("payment_address"),
payment_address_parameters=(
_parse_address_parameters(
cvote_registration["payment_address_parameters"],
str(AUXILIARY_DATA_MISSING_FIELDS_ERROR),
)
if "payment_address_parameters" in cvote_registration
else None
),
format=serialization_format,
delegations=delegations,
voting_purpose=voting_purpose,
)
if hash is None and cvote_registration_parameters is None:
raise AUXILIARY_DATA_MISSING_FIELDS_ERROR
return messages.CardanoTxAuxiliaryData(
hash=hash,
cvote_registration_parameters=cvote_registration_parameters,
)
def parse_mint(mint: Iterable[dict]) -> List[AssetGroupWithTokens]:
return _parse_token_bundle(mint, is_mint=True)
def parse_script_data_hash(script_data_hash: Optional[str]) -> Optional[bytes]:
return parse_optional_bytes(script_data_hash)
def parse_collateral_input(collateral_input: dict) -> CollateralInputWithPath:
if not all(k in collateral_input for k in REQUIRED_FIELDS_INPUT):
raise ValueError("The collateral input is missing some fields")
path = tools.parse_path(collateral_input.get("path", ""))
return (
messages.CardanoTxCollateralInput(
prev_hash=bytes.fromhex(collateral_input["prev_hash"]),
prev_index=collateral_input["prev_index"],
),
path,
)
def parse_required_signer(required_signer: dict) -> messages.CardanoTxRequiredSigner:
key_hash = parse_optional_bytes(required_signer.get("key_hash"))
key_path = tools.parse_path(required_signer.get("key_path", ""))
return messages.CardanoTxRequiredSigner(
key_hash=key_hash,
key_path=key_path,
)
def parse_reference_input(reference_input: dict) -> messages.CardanoTxReferenceInput:
if not all(k in reference_input for k in REQUIRED_FIELDS_INPUT):
raise ValueError("The reference input is missing some fields")
return messages.CardanoTxReferenceInput(
prev_hash=bytes.fromhex(reference_input["prev_hash"]),
prev_index=reference_input["prev_index"],
)
def parse_additional_witness_request(
additional_witness_request: dict,
) -> Path:
if "path" not in additional_witness_request:
raise ValueError("Invalid additional witness request")
return tools.parse_path(additional_witness_request["path"])
def _get_witness_requests(
inputs: Sequence[InputWithPath],
certificates: Sequence[CertificateWithPoolOwnersAndRelays],
withdrawals: Sequence[messages.CardanoTxWithdrawal],
collateral_inputs: Sequence[CollateralInputWithPath],
required_signers: Sequence[messages.CardanoTxRequiredSigner],
additional_witness_requests: Sequence[Path],
signing_mode: messages.CardanoTxSigningMode,
) -> List[messages.CardanoTxWitnessRequest]:
paths = set()
# don't gather paths from tx elements in MULTISIG_TRANSACTION signing mode
if signing_mode != messages.CardanoTxSigningMode.MULTISIG_TRANSACTION:
for _, path in inputs:
if path:
paths.add(tuple(path))
for certificate, pool_owners_and_relays in certificates:
if (
certificate.type
in (
messages.CardanoCertificateType.STAKE_DEREGISTRATION,
messages.CardanoCertificateType.STAKE_DELEGATION,
)
and certificate.path
):
paths.add(tuple(certificate.path))
elif (
certificate.type
== messages.CardanoCertificateType.STAKE_POOL_REGISTRATION
and pool_owners_and_relays is not None
):
owners, _ = pool_owners_and_relays
for pool_owner in owners:
if pool_owner.staking_key_path:
paths.add(tuple(pool_owner.staking_key_path))
for withdrawal in withdrawals:
if withdrawal.path:
paths.add(tuple(withdrawal.path))
# gather Plutus-related paths
if signing_mode == messages.CardanoTxSigningMode.PLUTUS_TRANSACTION:
for _, path in collateral_inputs:
if path:
paths.add(tuple(path))
# add required_signers and additional_witness_requests in all cases
for required_signer in required_signers:
if required_signer.key_path:
paths.add(tuple(required_signer.key_path))
for additional_witness_request in additional_witness_requests:
paths.add(tuple(additional_witness_request))
sorted_paths = sorted([list(path) for path in paths])
return [messages.CardanoTxWitnessRequest(path=path) for path in sorted_paths]
def _get_inputs_items(inputs: List[InputWithPath]) -> Iterator[messages.CardanoTxInput]:
for input, _ in inputs:
yield input
def _get_outputs_items(outputs: List[OutputWithData]) -> Iterator[OutputItem]:
for output_with_data in outputs:
yield from _get_output_items(output_with_data)
def _get_output_items(output_with_data: OutputWithData) -> Iterator[OutputItem]:
(
output,
asset_groups,
inline_datum_chunks,
reference_script_chunks,
) = output_with_data
yield output
for asset_group, tokens in asset_groups:
yield asset_group
yield from tokens
yield from inline_datum_chunks
yield from reference_script_chunks
def _get_certificates_items(
certificates: Sequence[CertificateWithPoolOwnersAndRelays],
) -> Iterator[CertificateItem]:
for certificate, pool_owners_and_relays in certificates:
yield certificate
if pool_owners_and_relays is not None:
owners, relays = pool_owners_and_relays
yield from owners
yield from relays
def _get_mint_items(mint: Sequence[AssetGroupWithTokens]) -> Iterator[MintItem]:
if not mint:
return
yield messages.CardanoTxMint(asset_groups_count=len(mint))
for asset_group, tokens in mint:
yield asset_group
yield from tokens
def _get_collateral_inputs_items(
collateral_inputs: Sequence[CollateralInputWithPath],
) -> Iterator[messages.CardanoTxCollateralInput]:
for collateral_input, _ in collateral_inputs:
yield collateral_input
# ====== Client functions ====== #
@expect(messages.CardanoAddress, field="address", ret_type=str)
def get_address(
client: "TrezorClient",
address_parameters: messages.CardanoAddressParametersType,
protocol_magic: int = PROTOCOL_MAGICS["mainnet"],
network_id: int = NETWORK_IDS["mainnet"],
show_display: bool = False,
derivation_type: messages.CardanoDerivationType = messages.CardanoDerivationType.ICARUS,
chunkify: bool = False,
) -> "MessageType":
return client.call(
messages.CardanoGetAddress(
address_parameters=address_parameters,
protocol_magic=protocol_magic,
network_id=network_id,
show_display=show_display,
derivation_type=derivation_type,
chunkify=chunkify,
)
)
@expect(messages.CardanoPublicKey)
def get_public_key(
client: "TrezorClient",
address_n: List[int],
derivation_type: messages.CardanoDerivationType = messages.CardanoDerivationType.ICARUS,
show_display: bool = False,
) -> "MessageType":
return client.call(
messages.CardanoGetPublicKey(
address_n=address_n,
derivation_type=derivation_type,
show_display=show_display,
)
)
@expect(messages.CardanoNativeScriptHash)
def get_native_script_hash(
client: "TrezorClient",
native_script: messages.CardanoNativeScript,
display_format: messages.CardanoNativeScriptHashDisplayFormat = messages.CardanoNativeScriptHashDisplayFormat.HIDE,
derivation_type: messages.CardanoDerivationType = messages.CardanoDerivationType.ICARUS,
) -> "MessageType":
return client.call(
messages.CardanoGetNativeScriptHash(
script=native_script,
display_format=display_format,
derivation_type=derivation_type,
)
)
def sign_tx(
client: "TrezorClient",
signing_mode: messages.CardanoTxSigningMode,
inputs: List[InputWithPath],
outputs: List[OutputWithData],
fee: int,
ttl: Optional[int],
validity_interval_start: Optional[int],
certificates: Sequence[CertificateWithPoolOwnersAndRelays] = (),
withdrawals: Sequence[messages.CardanoTxWithdrawal] = (),
protocol_magic: int = PROTOCOL_MAGICS["mainnet"],
network_id: int = NETWORK_IDS["mainnet"],
auxiliary_data: Optional[messages.CardanoTxAuxiliaryData] = None,
mint: Sequence[AssetGroupWithTokens] = (),
script_data_hash: Optional[bytes] = None,
collateral_inputs: Sequence[CollateralInputWithPath] = (),
required_signers: Sequence[messages.CardanoTxRequiredSigner] = (),
collateral_return: Optional[OutputWithData] = None,
total_collateral: Optional[int] = None,
reference_inputs: Sequence[messages.CardanoTxReferenceInput] = (),
additional_witness_requests: Sequence[Path] = (),
derivation_type: messages.CardanoDerivationType = messages.CardanoDerivationType.ICARUS,
include_network_id: bool = False,
chunkify: bool = False,
) -> Dict[str, Any]:
UNEXPECTED_RESPONSE_ERROR = exceptions.TrezorException("Unexpected response")
witness_requests = _get_witness_requests(
inputs,
certificates,
withdrawals,
collateral_inputs,
required_signers,
additional_witness_requests,
signing_mode,
)
response = client.call(
messages.CardanoSignTxInit(
signing_mode=signing_mode,
inputs_count=len(inputs),
outputs_count=len(outputs),
fee=fee,
ttl=ttl,
validity_interval_start=validity_interval_start,
certificates_count=len(certificates),
withdrawals_count=len(withdrawals),
protocol_magic=protocol_magic,
network_id=network_id,
has_auxiliary_data=auxiliary_data is not None,
minting_asset_groups_count=len(mint),
script_data_hash=script_data_hash,
collateral_inputs_count=len(collateral_inputs),
required_signers_count=len(required_signers),
has_collateral_return=collateral_return is not None,
total_collateral=total_collateral,
reference_inputs_count=len(reference_inputs),
witness_requests_count=len(witness_requests),
derivation_type=derivation_type,
include_network_id=include_network_id,
chunkify=chunkify,
)
)
if not isinstance(response, messages.CardanoTxItemAck):
raise UNEXPECTED_RESPONSE_ERROR
for tx_item in chain(
_get_inputs_items(inputs),
_get_outputs_items(outputs),
_get_certificates_items(certificates),
withdrawals,
):
response = client.call(tx_item)
if not isinstance(response, messages.CardanoTxItemAck):
raise UNEXPECTED_RESPONSE_ERROR
sign_tx_response: Dict[str, Any] = {}
if auxiliary_data is not None:
auxiliary_data_supplement = client.call(auxiliary_data)
if not isinstance(
auxiliary_data_supplement, messages.CardanoTxAuxiliaryDataSupplement
):
raise UNEXPECTED_RESPONSE_ERROR
if (
auxiliary_data_supplement.type
!= messages.CardanoTxAuxiliaryDataSupplementType.NONE
):
sign_tx_response["auxiliary_data_supplement"] = (
auxiliary_data_supplement.__dict__
)
response = client.call(messages.CardanoTxHostAck())
if not isinstance(response, messages.CardanoTxItemAck):
raise UNEXPECTED_RESPONSE_ERROR
for tx_item in chain(
_get_mint_items(mint),
_get_collateral_inputs_items(collateral_inputs),
required_signers,
):
response = client.call(tx_item)
if not isinstance(response, messages.CardanoTxItemAck):
raise UNEXPECTED_RESPONSE_ERROR
if collateral_return is not None:
for tx_item in _get_output_items(collateral_return):
response = client.call(tx_item)
if not isinstance(response, messages.CardanoTxItemAck):
raise UNEXPECTED_RESPONSE_ERROR
for reference_input in reference_inputs:
response = client.call(reference_input)
if not isinstance(response, messages.CardanoTxItemAck):
raise UNEXPECTED_RESPONSE_ERROR
sign_tx_response["witnesses"] = []
for witness_request in witness_requests:
response = client.call(witness_request)
if not isinstance(response, messages.CardanoTxWitnessResponse):
raise UNEXPECTED_RESPONSE_ERROR
sign_tx_response["witnesses"].append(
{
"type": response.type,
"pub_key": response.pub_key,
"signature": response.signature,
"chain_code": response.chain_code,
}
)
response = client.call(messages.CardanoTxHostAck())
if not isinstance(response, messages.CardanoTxBodyHash):
raise UNEXPECTED_RESPONSE_ERROR
sign_tx_response["tx_hash"] = response.tx_hash
response = client.call(messages.CardanoTxHostAck())
if not isinstance(response, messages.CardanoSignTxFinished):
raise UNEXPECTED_RESPONSE_ERROR
return sign_tx_response