Ejemplo n.º 1
0
 def input_script(self,
                  txin: PartialTxInput,
                  *,
                  estimate_size=False):
     if txin.script_type == 'p2pkh':
         return Transaction.get_preimage_script(txin)
     raise Exception("unsupported type %s" % txin.script_type)
Ejemplo n.º 2
0
    def sign_transaction(self, tx, password):
        if tx.is_complete():
            return
        inputs = []
        inputsPaths = []
        chipInputs = []
        redeemScripts = []
        changePath = ""
        output = None
        p2shTransaction = False
        segwitTransaction = False
        pin = ""
        client_ledger = self.get_client(
        )  # prompt for the PIN before displaying the dialog if necessary
        client_electrum = self.get_client_electrum()
        assert client_electrum

        # Fetch inputs of the transaction to sign
        for txin in tx.inputs():
            if txin.is_coinbase_input():
                self.give_error(
                    "Coinbase not supported")  # should never happen

            if txin.script_type in ['p2sh']:
                p2shTransaction = True

            if txin.script_type in ['p2wpkh-p2sh', 'p2wsh-p2sh']:
                if not client_electrum.supports_segwit():
                    self.give_error(MSG_NEEDS_FW_UPDATE_SEGWIT)
                segwitTransaction = True

            if txin.script_type in ['p2wpkh', 'p2wsh']:
                if not client_electrum.supports_native_segwit():
                    self.give_error(MSG_NEEDS_FW_UPDATE_SEGWIT)
                segwitTransaction = True

            my_pubkey, full_path = self.find_my_pubkey_in_txinout(txin)
            if not full_path:
                self.give_error("No matching pubkey for sign_transaction"
                                )  # should never happen
            full_path = convert_bip32_intpath_to_strpath(full_path)[2:]

            redeemScript = Transaction.get_preimage_script(txin)
            txin_prev_tx = txin.utxo
            if txin_prev_tx is None and not txin.is_segwit():
                raise UserFacingException(
                    _('Missing previous tx for legacy input.'))
            txin_prev_tx_raw = txin_prev_tx.serialize(
            ) if txin_prev_tx else None
            inputs.append([
                txin_prev_tx_raw, txin.prevout.out_idx, redeemScript,
                txin.prevout.txid.hex(), my_pubkey, txin.nsequence,
                txin.value_sats()
            ])
            inputsPaths.append(full_path)

        # Sanity check
        if p2shTransaction:
            for txin in tx.inputs():
                if txin.script_type != 'p2sh':
                    self.give_error(
                        "P2SH / regular input mixed in same transaction not supported"
                    )  # should never happen

        txOutput = var_int(len(tx.outputs()))
        for o in tx.outputs():
            txOutput += int_to_hex(o.value, 8)
            script = o.scriptpubkey.hex()
            txOutput += var_int(len(script) // 2)
            txOutput += script
        txOutput = bfh(txOutput)

        if not client_electrum.supports_multi_output():
            if len(tx.outputs()) > 2:
                self.give_error(
                    "Transaction with more than 2 outputs not supported")
        for txout in tx.outputs():
            if client_electrum.is_hw1(
            ) and txout.address and not is_b58_address(txout.address):
                self.give_error(
                    _("This {} device can only send to base58 addresses.").
                    format(self.device))
            if not txout.address:
                if client_electrum.is_hw1():
                    self.give_error(
                        _("Only address outputs are supported by {}").format(
                            self.device))
                # note: max_size based on https://github.com/LedgerHQ/ledger-app-btc/commit/3a78dee9c0484821df58975803e40d58fbfc2c38#diff-c61ccd96a6d8b54d48f54a3bc4dfa7e2R26
                validate_op_return_output(txout, max_size=190)

        # Output "change" detection
        # - only one output and one change is authorized (for hw.1 and nano)
        # - at most one output can bypass confirmation (~change) (for all)
        if not p2shTransaction:
            has_change = False
            any_output_on_change_branch = is_any_tx_output_on_change_branch(tx)
            for txout in tx.outputs():
                if txout.is_mine and len(tx.outputs()) > 1 \
                        and not has_change:
                    # prioritise hiding outputs on the 'change' branch from user
                    # because no more than one change address allowed
                    if txout.is_change == any_output_on_change_branch:
                        my_pubkey, changePath = self.find_my_pubkey_in_txinout(
                            txout)
                        assert changePath
                        changePath = convert_bip32_intpath_to_strpath(
                            changePath)[2:]
                        has_change = True
                    else:
                        output = txout.address
                else:
                    output = txout.address

        self.handler.show_message(
            _("Confirm Transaction on your Ledger device..."))
        try:
            # Get trusted inputs from the original transactions
            for utxo in inputs:
                sequence = int_to_hex(utxo[5], 4)
                if segwitTransaction and not client_electrum.supports_segwit_trustedInputs(
                ):
                    tmp = bfh(utxo[3])[::-1]
                    tmp += bfh(int_to_hex(utxo[1], 4))
                    tmp += bfh(int_to_hex(utxo[6], 8))  # txin['value']
                    chipInputs.append({
                        'value': tmp,
                        'witness': True,
                        'sequence': sequence
                    })
                    redeemScripts.append(bfh(utxo[2]))
                elif (not p2shTransaction
                      ) or client_electrum.supports_multi_output():
                    txtmp = bitcoinTransaction(bfh(utxo[0]))
                    trustedInput = client_ledger.getTrustedInput(
                        txtmp, utxo[1])
                    trustedInput['sequence'] = sequence
                    if segwitTransaction:
                        trustedInput['witness'] = True
                    chipInputs.append(trustedInput)
                    if p2shTransaction or segwitTransaction:
                        redeemScripts.append(bfh(utxo[2]))
                    else:
                        redeemScripts.append(txtmp.outputs[utxo[1]].script)
                else:
                    tmp = bfh(utxo[3])[::-1]
                    tmp += bfh(int_to_hex(utxo[1], 4))
                    chipInputs.append({'value': tmp, 'sequence': sequence})
                    redeemScripts.append(bfh(utxo[2]))

            # Sign all inputs
            firstTransaction = True
            inputIndex = 0
            rawTx = tx.serialize_to_network()
            client_ledger.enableAlternate2fa(False)
            if segwitTransaction:
                client_ledger.startUntrustedTransaction(
                    True,
                    inputIndex,
                    chipInputs,
                    redeemScripts[inputIndex],
                    version=tx.version)
                # we don't set meaningful outputAddress, amount and fees
                # as we only care about the alternateEncoding==True branch
                outputData = client_ledger.finalizeInput(
                    b'', 0, 0, changePath, bfh(rawTx))
                outputData['outputData'] = txOutput
                if outputData['confirmationNeeded']:
                    outputData['address'] = output
                    self.handler.finished()
                    # do the authenticate dialog and get pin:
                    pin = self.handler.get_auth(outputData,
                                                client=client_electrum)
                    if not pin:
                        raise UserWarning()
                    self.handler.show_message(
                        _("Confirmed. Signing Transaction..."))
                while inputIndex < len(inputs):
                    singleInput = [chipInputs[inputIndex]]
                    client_ledger.startUntrustedTransaction(
                        False,
                        0,
                        singleInput,
                        redeemScripts[inputIndex],
                        version=tx.version)
                    inputSignature = client_ledger.untrustedHashSign(
                        inputsPaths[inputIndex], pin, lockTime=tx.locktime)
                    inputSignature[0] = 0x30  # force for 1.4.9+
                    my_pubkey = inputs[inputIndex][4]
                    tx.add_signature_to_txin(txin_idx=inputIndex,
                                             signing_pubkey=my_pubkey.hex(),
                                             sig=inputSignature.hex())
                    inputIndex = inputIndex + 1
            else:
                while inputIndex < len(inputs):
                    client_ledger.startUntrustedTransaction(
                        firstTransaction,
                        inputIndex,
                        chipInputs,
                        redeemScripts[inputIndex],
                        version=tx.version)
                    # we don't set meaningful outputAddress, amount and fees
                    # as we only care about the alternateEncoding==True branch
                    outputData = client_ledger.finalizeInput(
                        b'', 0, 0, changePath, bfh(rawTx))
                    outputData['outputData'] = txOutput
                    if outputData['confirmationNeeded']:
                        outputData['address'] = output
                        self.handler.finished()
                        # do the authenticate dialog and get pin:
                        pin = self.handler.get_auth(outputData,
                                                    client=client_electrum)
                        if not pin:
                            raise UserWarning()
                        self.handler.show_message(
                            _("Confirmed. Signing Transaction..."))
                    else:
                        # Sign input with the provided PIN
                        inputSignature = client_ledger.untrustedHashSign(
                            inputsPaths[inputIndex], pin, lockTime=tx.locktime)
                        inputSignature[0] = 0x30  # force for 1.4.9+
                        my_pubkey = inputs[inputIndex][4]
                        tx.add_signature_to_txin(
                            txin_idx=inputIndex,
                            signing_pubkey=my_pubkey.hex(),
                            sig=inputSignature.hex())
                        inputIndex = inputIndex + 1
                    firstTransaction = False
        except UserWarning:
            self.handler.show_error(_('Cancelled by user'))
            return
        except BTChipException as e:
            if e.sw in (0x6985, 0x6d00):  # cancelled by user
                return
            elif e.sw == 0x6982:
                raise  # pin lock. decorator will catch it
            else:
                self.logger.exception('')
                self.give_error(e, True)
        except BaseException as e:
            self.logger.exception('')
            self.give_error(e, True)
        finally:
            self.handler.finished()
Ejemplo n.º 3
0
def build_psbt(tx: Transaction, wallet: Abstract_Wallet):
    # Render a PSBT file, for possible upload to Coldcard.
    # 
    # TODO this should be part of Wallet object, or maybe Transaction?

    if getattr(tx, 'raw_psbt', False):
        _logger.info('PSBT cache hit')
        return tx.raw_psbt

    inputs = tx.inputs()
    if 'prev_tx' not in inputs[0]:
        # fetch info about inputs, if needed?
        # - needed during export PSBT flow, not normal online signing
        wallet.add_hw_info(tx)

    # wallet.add_hw_info installs this attr
    assert tx.output_info is not None, 'need data about outputs'

    # Build a map of all pubkeys needed as derivation from master XFP, in PSBT binary format
    # 1) binary version of the common subpath for all keys
    #       m/ => fingerprint LE32
    #       a/b/c => ints
    #
    # 2) all used keys in transaction:
    #    - for all inputs and outputs (when its change back)
    #    - for all keystores, if multisig
    #
    subkeys = {}
    for ks in wallet.get_keystores():

        # XFP + fixed prefix for this keystore
        ks_prefix = packed_xfp_path_for_keystore(ks)

        # all pubkeys needed for input signing
        for xpubkey, derivation in ks.get_tx_derivations(tx).items():
            pubkey = xpubkey_to_pubkey(xpubkey)

            # assuming depth two, non-harded: change + index
            aa, bb = derivation
            assert 0 <= aa < 0x80000000 and 0 <= bb < 0x80000000

            subkeys[bfh(pubkey)] = ks_prefix + pack('<II', aa, bb)

        # all keys related to change outputs
        for o in tx.outputs():
            if o.address in tx.output_info:
                # this address "is_mine" but might not be change (if I send funds to myself)
                output_info = tx.output_info.get(o.address)
                if not output_info.is_change:
                    continue
                chg_path = output_info.address_index
                assert chg_path[0] == 1 and len(chg_path) == 2, f"unexpected change path: {chg_path}"
                pubkey = ks.derive_pubkey(True, chg_path[1])
                subkeys[bfh(pubkey)] = ks_prefix + pack('<II', *chg_path)

    for txin in inputs:
        assert txin['type'] != 'coinbase', _("Coinbase not supported")

        if txin['type'] in ['p2sh', 'p2wsh-p2sh', 'p2wsh']:
            assert type(wallet) is Multisig_Wallet

    # Construct PSBT from start to finish.
    out_fd = io.BytesIO()
    out_fd.write(b'psbt\xff')

    def write_kv(ktype, val, key=b''):
        # serialize helper: write w/ size and key byte
        out_fd.write(my_var_int(1 + len(key)))
        out_fd.write(bytes([ktype]) + key)

        if isinstance(val, str):
            val = bfh(val)

        out_fd.write(my_var_int(len(val)))
        out_fd.write(val)


    # global section: just the unsigned txn
    class CustomTXSerialization(Transaction):
        @classmethod
        def input_script(cls, txin, estimate_size=False):
            return ''

    unsigned = bfh(CustomTXSerialization(tx.serialize()).serialize_to_network(witness=False))
    write_kv(PSBT_GLOBAL_UNSIGNED_TX, unsigned)

    if type(wallet) is Multisig_Wallet:

        # always put the xpubs into the PSBT, useful at least for checking
        for xp, ks in zip(wallet.get_master_public_keys(), wallet.get_keystores()):
            ks_prefix = packed_xfp_path_for_keystore(ks)

            write_kv(PSBT_GLOBAL_XPUB, ks_prefix, DecodeBase58Check(xp))

    # end globals section
    out_fd.write(b'\x00')

    # inputs section
    for txin in inputs:
        if Transaction.is_segwit_input(txin):
            utxo = txin['prev_tx'].outputs()[txin['prevout_n']]
            spendable = txin['prev_tx'].serialize_output(utxo)
            write_kv(PSBT_IN_WITNESS_UTXO, spendable)
        else:
            write_kv(PSBT_IN_NON_WITNESS_UTXO, str(txin['prev_tx']))

        pubkeys, x_pubkeys = tx.get_sorted_pubkeys(txin)

        pubkeys = [bfh(k) for k in pubkeys]

        if type(wallet) is Multisig_Wallet:
            # always need a redeem script for multisig
            scr = Transaction.get_preimage_script(txin)

            if Transaction.is_segwit_input(txin):
                # needed for both p2wsh-p2sh and p2wsh
                write_kv(PSBT_IN_WITNESS_SCRIPT, bfh(scr))
            else:
                write_kv(PSBT_IN_REDEEM_SCRIPT, bfh(scr))

        sigs = txin.get('signatures')

        for pk_pos, (pubkey, x_pubkey) in enumerate(zip(pubkeys, x_pubkeys)):
            if pubkey in subkeys:
                # faster? case ... calculated above
                write_kv(PSBT_IN_BIP32_DERIVATION, subkeys[pubkey], pubkey)
            else:
                # when an input is partly signed, tx.get_tx_derivations()
                # doesn't include that keystore's value and yet we need it
                # because we need to show a correct keypath... 
                assert x_pubkey[0:2] == 'ff', x_pubkey

                for ks in wallet.get_keystores():
                    d = ks.get_pubkey_derivation(x_pubkey)
                    if d is not None:
                        ks_path = packed_xfp_path_for_keystore(ks, d)
                        write_kv(PSBT_IN_BIP32_DERIVATION, ks_path, pubkey)
                        break
                else:
                    raise AssertionError("no keystore for: %s" % x_pubkey)

            if txin['type'] == 'p2wpkh-p2sh':
                assert len(pubkeys) == 1, 'can be only one redeem script per input'
                pa = hash_160(pubkey)
                assert len(pa) == 20
                write_kv(PSBT_IN_REDEEM_SCRIPT, b'\x00\x14'+pa)

            # optional? insert (partial) signatures that we already have
            if sigs and sigs[pk_pos]:
                write_kv(PSBT_IN_PARTIAL_SIG, bfh(sigs[pk_pos]), pubkey)

        out_fd.write(b'\x00')

    # outputs section
    for o in tx.outputs():
        # can be empty, but must be present, and helpful to show change inputs
        # wallet.add_hw_info() adds some data about change outputs into tx.output_info
        if o.address in tx.output_info:
            # this address "is_mine" but might not be change (if I send funds to myself)
            output_info = tx.output_info.get(o.address)
            if output_info.is_change:
                pubkeys = [bfh(i) for i in wallet.get_public_keys(o.address)]

                # Add redeem/witness script?
                if type(wallet) is Multisig_Wallet:
                    # always need a redeem script for multisig cases
                    scr = bfh(multisig_script([bh2u(i) for i in sorted(pubkeys)], wallet.m))

                    if output_info.script_type == 'p2wsh-p2sh':
                        write_kv(PSBT_OUT_WITNESS_SCRIPT, scr)
                        write_kv(PSBT_OUT_REDEEM_SCRIPT, b'\x00\x20' + sha256(scr))
                    elif output_info.script_type == 'p2wsh':
                        write_kv(PSBT_OUT_WITNESS_SCRIPT, scr)
                    elif output_info.script_type == 'p2sh':
                        write_kv(PSBT_OUT_REDEEM_SCRIPT, scr)
                    else:
                        raise ValueError(output_info.script_type)

                elif output_info.script_type == 'p2wpkh-p2sh':
                    # need a redeem script when P2SH is used to wrap p2wpkh
                    assert len(pubkeys) == 1
                    pa = hash_160(pubkeys[0])
                    write_kv(PSBT_OUT_REDEEM_SCRIPT, b'\x00\x14' + pa)

                # Document change output's bip32 derivation(s)
                for pubkey in pubkeys:
                    sk = subkeys[pubkey]
                    write_kv(PSBT_OUT_BIP32_DERIVATION, sk, pubkey)

        out_fd.write(b'\x00')

    # capture for later use
    tx.raw_psbt = out_fd.getvalue()

    return tx.raw_psbt