trezor-firmware/src/apps/wallet/sign_tx/addresses.py

from micropython import const

from trezor.crypto.hashlib import sha256, ripemd160
from trezor.crypto import base58, bech32
from trezor.utils import ensure

from trezor.messages.CoinType import CoinType
from trezor.messages import FailureType
from trezor.messages import InputScriptType

from apps.wallet.sign_tx.scripts import *
from apps.wallet.sign_tx.multisig import *

# supported witness version for bech32 addresses
_BECH32_WITVER = const(0x00)


class AddressError(Exception):
    pass


def get_address(script_type: InputScriptType, coin: CoinType, node, multisig=None) -> str:

    if script_type == InputScriptType.SPENDADDRESS:  # p2pkh
        return node.address(coin.address_type)

    elif script_type == InputScriptType.SPENDWITNESS:  # native p2wpkh
        if not coin.segwit or not coin.bech32_prefix:
            raise AddressError(FailureType.ProcessError,
                               'Segwit not enabled on this coin')
        return address_p2wpkh(node.public_key(), coin.bech32_prefix)

    elif script_type == InputScriptType.SPENDP2SHWITNESS:  # p2wpkh or p2wsh using p2sh
        if not coin.segwit or coin.address_type_p2sh is None:
            raise AddressError(FailureType.ProcessError,
                               'Segwit not enabled on this coin')
        # p2wsh multisig
        if multisig is not None:
            return address_multisig_p2wsh_in_p2sh(multisig_get_pubkeys(multisig), multisig.m, coin.address_type_p2sh)

        # p2wpkh
        return address_p2wpkh_in_p2sh(node.public_key(), coin.address_type_p2sh)

    elif script_type == InputScriptType.SPENDMULTISIG:  # p2sh multisig
        if multisig is None:
            raise AddressError(FailureType.ProcessError,
                               'Multisig details required')
        pubkey = node.public_key()
        index = multisig_pubkey_index(multisig, pubkey)
        if index is None:
            raise AddressError(FailureType.ProcessError,
                               'Public key not found')
        if coin.address_type_p2sh is None:
            raise AddressError(FailureType.ProcessError,
                               'Multisig not enabled on this coin')

        return address_multisig_p2sh(multisig_get_pubkeys(multisig), multisig.m, coin.address_type_p2sh)

    else:
        raise AddressError(FailureType.ProcessError,
                           'Invalid script type')


def address_multisig_p2sh(pubkeys: bytes, m: int, addrtype):
    digest = output_script_multisig_p2sh(pubkeys, m)
    if addrtype is None:
        raise AddressError(FailureType.ProcessError,
                           'Multisig not enabled on this coin')
    return address_p2sh(digest, addrtype)


def address_multisig_p2wsh_in_p2sh(pubkeys: bytes, m: int, addrtype):
    digest = output_script_multisig_p2wsh(pubkeys, m)
    if addrtype is None:
        raise AddressError(FailureType.ProcessError,
                           'Multisig not enabled on this coin')
    return address_p2wsh_in_p2sh(digest, addrtype)


def address_multisig_p2wsh(pubkeys: bytes, m: int, addrtype):
    digest = output_script_multisig_p2wsh(pubkeys, m)
    if addrtype is None:
        raise AddressError(FailureType.ProcessError,
                           'Multisig not enabled on this coin')
    return address_p2sh(digest, addrtype)


def address_p2sh(redeem_script_hash: bytes, addrtype: int) -> str:
    s = bytearray(21)
    s[0] = addrtype
    s[1:21] = redeem_script_hash
    return base58.encode_check(bytes(s))


# P2WPKH nested in P2SH. The P2SH redeem script hash is created using the
# `raw` function
def address_p2wpkh_in_p2sh(pubkey: bytes, addrtype: int) -> str:
    redeem_script_hash = address_p2wpkh_in_p2sh_script(pubkey)
    return address_p2sh(redeem_script_hash, addrtype)


# Generates a P2SH redeem script based on a public key hash in a P2WPKH manner
def address_p2wpkh_in_p2sh_script(pubkey: bytes) -> bytes:
    s = bytearray(22)
    s[0] = 0x00  # OP_0
    s[1] = 0x14  # pushing 20 bytes
    s[2:22] = ecdsa_hash_pubkey(pubkey)
    h = sha256(s).digest()
    h = ripemd160(h).digest()
    return h


# P2WSH nested in P2SH. The P2SH redeem script hash is created using the
# `raw` function
def address_p2wsh_in_p2sh(witness_script_hash: bytes, addrtype: int) -> str:
    redeem_script_hash = address_p2wsh_in_p2sh_script(witness_script_hash)
    return address_p2sh(redeem_script_hash, addrtype)


# Generates a P2SH redeem script based on a hash of a witness redeem script hash
def address_p2wsh_in_p2sh_script(script_hash: bytes) -> bytes:
    s = bytearray(34)
    s[0] = 0x00  # OP_0
    s[1] = 0x20  # pushing 32 bytes
    s[2:34] = script_hash
    h = sha256(s).digest()
    h = ripemd160(h).digest()
    return h


# Native Bech32 P2WPKH
def address_p2wpkh(pubkey: bytes, hrp: str) -> str:
    pubkeyhash = ecdsa_hash_pubkey(pubkey)
    address = bech32.encode(hrp, _BECH32_WITVER, pubkeyhash)
    if address is None:
        raise AddressError(FailureType.ProcessError,
                           'Invalid address')
    return address


# Native Bech32 P2WSH, script_hash is 32-byte SHA256(script)
def address_p2wsh(script_hash: bytes, hrp: str) -> str:
    address = bech32.encode(hrp, _BECH32_WITVER, script_hash)
    if address is None:
        raise AddressError(FailureType.ProcessError,
                           'Invalid address')
    return address


def decode_bech32_address(prefix: str, address: str) -> bytes:
    witver, raw = bech32.decode(prefix, address)
    if witver != _BECH32_WITVER:
        raise AddressError(FailureType.ProcessError,
                           'Invalid address witness program')
    return bytes(raw)


def ecdsa_hash_pubkey(pubkey: bytes) -> bytes:
    if pubkey[0] == 0x04:
        ensure(len(pubkey) == 65)  # uncompressed format
    elif pubkey[0] == 0x00:
        ensure(len(pubkey) == 1)   # point at infinity
    else:
        ensure(len(pubkey) == 33)  # compresssed format
    h = sha256(pubkey).digest()
    h = ripemd160(h).digest()
    return h