trezor-firmware/core/src/apps/bitcoin/sign_tx/decred.py

from micropython import const

from trezor import wire
from trezor.crypto.hashlib import blake256
from trezor.messages import DecredStakingSpendType, InputScriptType
from trezor.messages.PrevOutput import PrevOutput
from trezor.utils import HashWriter, ensure

from apps.common.writers import write_bitcoin_varint

from .. import multisig, scripts_decred, writers
from ..common import ecdsa_hash_pubkey, ecdsa_sign
from . import approvers, helpers, progress
from .approvers import BasicApprover
from .bitcoin import Bitcoin

DECRED_SERIALIZE_FULL = const(0 << 16)
DECRED_SERIALIZE_NO_WITNESS = const(1 << 16)
DECRED_SERIALIZE_WITNESS_SIGNING = const(3 << 16)
DECRED_SCRIPT_VERSION = const(0)
DECRED_SIGHASH_ALL = const(1)
OUTPUT_SCRIPT_NULL_SSTXCHANGE = (
    b"\xBD\x76\xA9\x14\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\x88\xAC"
)

if False:
    from trezor.messages.SignTx import SignTx
    from trezor.messages.TxInput import TxInput
    from trezor.messages.TxOutput import TxOutput
    from trezor.messages.PrevTx import PrevTx
    from trezor.messages.PrevInput import PrevInput

    from apps.common.coininfo import CoinInfo
    from apps.common.keychain import Keychain

    from .hash143 import Hash143


class DecredApprover(BasicApprover):
    async def add_decred_sstx_submission(
        self, txo: TxOutput, script_pubkey: bytes
    ) -> None:
        # NOTE: The following calls Approver.add_external_output(), not BasicApprover.add_external_output().
        # This is needed to skip calling helpers.confirm_output(), which is what BasicApprover would do.
        await super(BasicApprover, self).add_external_output(txo, script_pubkey, None)
        await helpers.confirm_decred_sstx_submission(txo, self.coin, self.amount_unit)


class DecredHash:
    def __init__(self, h_prefix: HashWriter) -> None:
        self.h_prefix = h_prefix

    def add_input(self, txi: TxInput) -> None:
        Decred.write_tx_input(self.h_prefix, txi, bytes())

    def add_output(self, txo: TxOutput, script_pubkey: bytes) -> None:
        Decred.write_tx_output(self.h_prefix, txo, script_pubkey)

    def preimage_hash(
        self,
        txi: TxInput,
        public_keys: list[bytes],
        threshold: int,
        tx: SignTx | PrevTx,
        coin: CoinInfo,
        sighash_type: int,
    ) -> bytes:
        raise NotImplementedError


class Decred(Bitcoin):
    def __init__(
        self,
        tx: SignTx,
        keychain: Keychain,
        coin: CoinInfo,
        approver: approvers.Approver | None,
    ) -> None:
        ensure(coin.decred)
        self.h_prefix = HashWriter(blake256())

        ensure(approver is None)
        approver = DecredApprover(tx, coin)
        super().__init__(tx, keychain, coin, approver)

        self.write_tx_header(self.serialized_tx, self.tx_info.tx, witness_marker=True)
        write_bitcoin_varint(self.serialized_tx, self.tx_info.tx.inputs_count)

        writers.write_uint32(
            self.h_prefix, self.tx_info.tx.version | DECRED_SERIALIZE_NO_WITNESS
        )
        write_bitcoin_varint(self.h_prefix, self.tx_info.tx.inputs_count)

    def create_hash_writer(self) -> HashWriter:
        return HashWriter(blake256())

    def create_hash143(self) -> Hash143:
        return DecredHash(self.h_prefix)

    async def step2_approve_outputs(self) -> None:
        write_bitcoin_varint(self.serialized_tx, self.tx_info.tx.outputs_count)
        write_bitcoin_varint(self.h_prefix, self.tx_info.tx.outputs_count)

        if self.tx_info.tx.decred_staking_ticket:
            await self.approve_staking_ticket()
        else:
            await super().step2_approve_outputs()

        self.write_tx_footer(self.serialized_tx, self.tx_info.tx)
        self.write_tx_footer(self.h_prefix, self.tx_info.tx)

    async def process_internal_input(self, txi: TxInput) -> None:
        await super().process_internal_input(txi)

        # Decred serializes inputs early.
        self.write_tx_input(self.serialized_tx, txi, bytes())

    async def process_external_input(self, txi: TxInput) -> None:
        raise wire.DataError("External inputs not supported")

    async def process_original_input(self, txi: TxInput) -> None:
        raise wire.DataError("Replacement transactions not supported")

    async def approve_output(
        self,
        txo: TxOutput,
        script_pubkey: bytes,
        orig_txo: TxOutput | None,
    ) -> None:
        await super().approve_output(txo, script_pubkey, orig_txo)
        self.write_tx_output(self.serialized_tx, txo, script_pubkey)

    async def step4_serialize_inputs(self) -> None:
        write_bitcoin_varint(self.serialized_tx, self.tx_info.tx.inputs_count)

        prefix_hash = self.h_prefix.get_digest()

        for i_sign in range(self.tx_info.tx.inputs_count):
            progress.advance()

            txi_sign = await helpers.request_tx_input(self.tx_req, i_sign, self.coin)

            self.tx_info.check_input(txi_sign)

            key_sign = self.keychain.derive(txi_sign.address_n)
            key_sign_pub = key_sign.public_key()

            if txi_sign.decred_staking_spend == DecredStakingSpendType.SSRTX:
                prev_pkscript = scripts_decred.output_script_ssrtx(
                    ecdsa_hash_pubkey(key_sign_pub, self.coin)
                )
            elif txi_sign.decred_staking_spend == DecredStakingSpendType.SSGen:
                prev_pkscript = scripts_decred.output_script_ssgen(
                    ecdsa_hash_pubkey(key_sign_pub, self.coin)
                )
            elif txi_sign.script_type == InputScriptType.SPENDMULTISIG:
                assert txi_sign.multisig is not None
                prev_pkscript = scripts_decred.output_script_multisig(
                    multisig.multisig_get_pubkeys(txi_sign.multisig),
                    txi_sign.multisig.m,
                )
            elif txi_sign.script_type == InputScriptType.SPENDADDRESS:
                prev_pkscript = scripts_decred.output_script_p2pkh(
                    ecdsa_hash_pubkey(key_sign_pub, self.coin)
                )
            else:
                raise wire.DataError("Unsupported input script type")

            h_witness = self.create_hash_writer()
            writers.write_uint32(
                h_witness, self.tx_info.tx.version | DECRED_SERIALIZE_WITNESS_SIGNING
            )
            write_bitcoin_varint(h_witness, self.tx_info.tx.inputs_count)

            for ii in range(self.tx_info.tx.inputs_count):
                if ii == i_sign:
                    writers.write_bytes_prefixed(h_witness, prev_pkscript)
                else:
                    write_bitcoin_varint(h_witness, 0)

            witness_hash = writers.get_tx_hash(
                h_witness, double=self.coin.sign_hash_double, reverse=False
            )

            h_sign = self.create_hash_writer()
            writers.write_uint32(h_sign, DECRED_SIGHASH_ALL)
            writers.write_bytes_fixed(h_sign, prefix_hash, writers.TX_HASH_SIZE)
            writers.write_bytes_fixed(h_sign, witness_hash, writers.TX_HASH_SIZE)

            sig_hash = writers.get_tx_hash(h_sign, double=self.coin.sign_hash_double)
            signature = ecdsa_sign(key_sign, sig_hash)

            # serialize input with correct signature
            script_sig = self.input_derive_script(txi_sign, key_sign_pub, signature)
            self.write_tx_input_witness(self.serialized_tx, txi_sign, script_sig)
            self.set_serialized_signature(i_sign, signature)

    async def step5_serialize_outputs(self) -> None:
        pass

    async def step6_sign_segwit_inputs(self) -> None:
        pass

    async def step7_finish(self) -> None:
        await helpers.request_tx_finish(self.tx_req)

    def check_prevtx_output(self, txo_bin: PrevOutput) -> None:
        if txo_bin.decred_script_version != 0:
            raise wire.ProcessError("Cannot use utxo that has script_version != 0")

    @staticmethod
    def write_tx_input(
        w: writers.Writer,
        txi: TxInput | PrevInput,
        script: bytes,
    ) -> None:
        writers.write_bytes_reversed(w, txi.prev_hash, writers.TX_HASH_SIZE)
        writers.write_uint32(w, txi.prev_index or 0)
        writers.write_uint8(w, txi.decred_tree or 0)
        writers.write_uint32(w, txi.sequence)

    @staticmethod
    def write_tx_output(
        w: writers.Writer,
        txo: TxOutput | PrevOutput,
        script_pubkey: bytes,
    ) -> None:
        writers.write_uint64(w, txo.amount)
        if isinstance(txo, PrevOutput):
            if txo.decred_script_version is None:
                raise wire.DataError("Script version must be provided")
            writers.write_uint16(w, txo.decred_script_version)
        else:
            writers.write_uint16(w, DECRED_SCRIPT_VERSION)
        writers.write_bytes_prefixed(w, script_pubkey)

    def process_sstx_commitment_owned(self, txo: TxOutput) -> bytearray:
        if not self.tx_info.output_is_change(txo):
            raise wire.DataError("Invalid sstxcommitment path.")
        node = self.keychain.derive(txo.address_n)
        pkh = ecdsa_hash_pubkey(node.public_key(), self.coin)
        op_return_data = scripts_decred.sstxcommitment_pkh(pkh, txo.amount)
        txo.amount = 0  # Clear the amount, since this is an OP_RETURN.
        return scripts_decred.output_script_paytoopreturn(op_return_data)

    async def approve_staking_ticket(self) -> None:
        assert isinstance(self.approver, DecredApprover)

        if self.tx_info.tx.outputs_count != 3:
            raise wire.DataError("Ticket has wrong number of outputs.")

        # SSTX submission
        txo = await helpers.request_tx_output(self.tx_req, 0, self.coin)
        if txo.address is None:
            raise wire.DataError("Missing address.")
        script_pubkey = scripts_decred.output_script_sstxsubmissionpkh(txo.address)
        await self.approver.add_decred_sstx_submission(txo, script_pubkey)
        self.tx_info.add_output(txo, script_pubkey)
        self.write_tx_output(self.serialized_tx, txo, script_pubkey)

        # SSTX commitment
        txo = await helpers.request_tx_output(self.tx_req, 1, self.coin)
        if txo.amount != self.approver.total_in:
            raise wire.DataError("Wrong sstxcommitment amount.")
        script_pubkey = self.process_sstx_commitment_owned(txo)
        self.approver.add_change_output(txo, script_pubkey)
        self.tx_info.add_output(txo, script_pubkey)
        self.write_tx_output(self.serialized_tx, txo, script_pubkey)

        # SSTX change
        txo = await helpers.request_tx_output(self.tx_req, 2, self.coin)
        if txo.address is None:
            raise wire.DataError("Missing address.")
        script_pubkey = scripts_decred.output_script_sstxchange(txo.address)
        # Using change addresses is no longer common practice. Inputs are split
        # beforehand and should be exact. SSTX change should pay zero amount to
        # a zeroed hash.
        if txo.amount != 0:
            raise wire.DataError("Only value of 0 allowed for sstx change.")
        if script_pubkey != OUTPUT_SCRIPT_NULL_SSTXCHANGE:
            raise wire.DataError("Only zeroed addresses accepted for sstx change.")
        self.approver.add_change_output(txo, script_pubkey)
        self.tx_info.add_output(txo, script_pubkey)
        self.write_tx_output(self.serialized_tx, txo, script_pubkey)

    def write_tx_header(
        self,
        w: writers.Writer,
        tx: SignTx | PrevTx,
        witness_marker: bool,
    ) -> None:
        # The upper 16 bits of the transaction version specify the serialization
        # format and the lower 16 bits specify the version number.
        if witness_marker:
            version = tx.version | DECRED_SERIALIZE_FULL
        else:
            version = tx.version | DECRED_SERIALIZE_NO_WITNESS

        writers.write_uint32(w, version)

    def write_tx_footer(self, w: writers.Writer, tx: SignTx | PrevTx) -> None:
        assert tx.expiry is not None  # checked in sanitize_*
        writers.write_uint32(w, tx.lock_time)
        writers.write_uint32(w, tx.expiry)

    def write_tx_input_witness(
        self, w: writers.Writer, i: TxInput, script_sig: bytes
    ) -> None:
        writers.write_uint64(w, i.amount)
        writers.write_uint32(w, 0)  # block height fraud proof
        writers.write_uint32(w, 0xFFFF_FFFF)  # block index fraud proof
        writers.write_bytes_prefixed(w, script_sig)

    def input_derive_script(
        self, txi: TxInput, pubkey: bytes, signature: bytes
    ) -> bytes:
        return scripts_decred.input_derive_script(
            txi.script_type,
            txi.multisig,
            self.coin,
            self.get_hash_type(txi),
            pubkey,
            signature,
        )