예제 #1
0
 def test_mnemonic_to_seed(self):
     for test_name, test in SEED_TEST_CASES.items():
         if test.words_hex is not None:
             self.assertEqual(test.words_hex, bh2u(test.words.encode('utf8')), msg=test_name)
         self.assertTrue(is_new_seed(test.words, prefix=test.seed_version), msg=test_name)
         m = mnemonic.Mnemonic(lang=test.lang)
         if test.entropy is not None:
             self.assertEqual(test.entropy, m.mnemonic_decode(test.words), msg=test_name)
         if test.passphrase_hex is not None:
             self.assertEqual(test.passphrase_hex, bh2u(test.passphrase.encode('utf8')), msg=test_name)
         seed = mnemonic.Mnemonic.mnemonic_to_seed(mnemonic=test.words, passphrase=test.passphrase)
         self.assertEqual(test.bip32_seed, bh2u(seed), msg=test_name)
예제 #2
0
 def update(self, window):
     wallet = window.wallet
     if type(wallet) != Multisig_Wallet:
         return
     if self.listener is None:
         self.print_error("starting listener")
         self.listener = Listener(self)
         self.listener.start()
     elif self.listener:
         self.print_error("shutting down listener")
         self.listener.stop()
         self.listener = None
     self.keys = []
     self.cosigner_list = []
     for key, keystore in wallet.keystores.items():
         xpub = keystore.get_master_public_key()
         pubkey = BIP32Node.from_xkey(xpub).eckey.get_public_key_bytes(
             compressed=True)
         _hash = bh2u(crypto.sha256d(pubkey))
         if not keystore.is_watching_only():
             self.keys.append((key, _hash, window))
         else:
             self.cosigner_list.append((window, xpub, pubkey, _hash))
     if self.listener:
         self.listener.set_keyhashes([t[1] for t in self.keys])
예제 #3
0
        def update(features):
            self.features = features
            set_label_enabled()
            bl_hash = bh2u(features.bootloader_hash)
            bl_hash = "\n".join([bl_hash[:32], bl_hash[32:]])
            noyes = [_("No"), _("Yes")]
            endis = [_("Enable Passphrases"), _("Disable Passphrases")]
            disen = [_("Disabled"), _("Enabled")]
            setchange = [_("Set a PIN"), _("Change PIN")]

            version = "%d.%d.%d" % (features.major_version,
                                    features.minor_version,
                                    features.patch_version)
            coins = ", ".join(coin.coin_name for coin in features.coins)

            device_label.setText(features.label)
            pin_set_label.setText(noyes[features.pin_protection])
            passphrases_label.setText(disen[features.passphrase_protection])
            bl_hash_label.setText(bl_hash)
            label_edit.setText(features.label)
            device_id_label.setText(features.device_id)
            initialized_label.setText(noyes[features.initialized])
            version_label.setText(version)
            coins_label.setText(coins)
            clear_pin_button.setVisible(features.pin_protection)
            clear_pin_warning.setVisible(features.pin_protection)
            pin_button.setText(setchange[features.pin_protection])
            pin_msg.setVisible(not features.pin_protection)
            passphrase_button.setText(endis[features.passphrase_protection])
            language_label.setText(features.language)
예제 #4
0
 def gen_random_versioned_seed(cls):
     version = cls.LATEST_VERSION
     hex_seed = bh2u(os.urandom(16))
     checksum = cls.code_hashid(version + hex_seed)
     return VersionedSeed(version=version.upper(),
                          seed=hex_seed.upper(),
                          checksum=checksum.upper())
예제 #5
0
 def sign_transaction(self, keystore, tx, prev_tx, xpub_path):
     self.prev_tx = prev_tx
     self.xpub_path = xpub_path
     client = self.get_client(keystore)
     inputs = self.tx_inputs(tx, True)
     outputs = self.tx_outputs(keystore.get_derivation(), tx)
     signatures = client.sign_tx(self.get_coin_name(),
                                 inputs,
                                 outputs,
                                 lock_time=tx.locktime,
                                 version=tx.version)[0]
     signatures = [(bh2u(x) + '01') for x in signatures]
     tx.update_signatures(signatures)
예제 #6
0
 def sign_transaction(self, keystore, tx, prev_tx, xpub_path):
     prev_tx = {
         bfh(txhash): self.electrum_tx_to_txtype(tx, xpub_path)
         for txhash, tx in prev_tx.items()
     }
     client = self.get_client(keystore)
     inputs = self.tx_inputs(tx, xpub_path, True)
     outputs = self.tx_outputs(keystore.get_derivation(), tx)
     details = SignTx(lock_time=tx.locktime, version=tx.version)
     signatures, _ = client.sign_tx(self.get_coin_name(),
                                    inputs,
                                    outputs,
                                    details=details,
                                    prev_txes=prev_tx)
     signatures = [(bh2u(x) + '01') for x in signatures]
     tx.update_signatures(signatures)
예제 #7
0
    def sign_transaction(self, tx, password):
        # Build a PSBT in memory, upload it for signing.
        # - we can also work offline (without paired device present)
        if tx.is_complete():
            return

        client = self.get_client()

        assert client.dev.master_fingerprint == self.ckcc_xfp

        raw_psbt = self.build_psbt(tx)

        #open('debug.psbt', 'wb').write(out_fd.getvalue())

        try:
            try:
                self.handler.show_message("Authorize Transaction...")

                client.sign_transaction_start(raw_psbt, True)

                while 1:
                    # How to kill some time, without locking UI?
                    time.sleep(0.250)

                    resp = client.sign_transaction_poll()
                    if resp is not None:
                        break

                rlen, rsha = resp

                # download the resulting txn.
                new_raw = client.download_file(rlen, rsha)

            finally:
                self.handler.finished()

        except (CCUserRefused, CCBusyError) as exc:
            print_error('[coldcard]', 'Did not sign:', str(exc))
            self.handler.show_error(str(exc))
            return
        except BaseException as e:
            traceback.print_exc(file=sys.stderr)
            self.give_error(e, True)
            return

        # trust the coldcard to re-searilize final product right?
        tx.update(bh2u(new_raw))
예제 #8
0
    def on_receive(self, keyhash, message):
        self.print_error("signal arrived for", keyhash)
        for key, _hash, window in self.keys:
            if _hash == keyhash:
                break
        else:
            self.print_error("keyhash not found")
            return

        wallet = window.wallet
        if isinstance(wallet.keystore, keystore.Hardware_KeyStore):
            window.show_warning(
                _('An encrypted transaction was retrieved from cosigning pool.'
                  ) + '\n' +
                _('However, hardware wallets do not support message decryption, '
                  'which makes them not compatible with the current design of cosigner pool.'
                  ))
            return
        elif wallet.has_keystore_encryption():
            password = window.password_dialog(
                _('An encrypted transaction was retrieved from cosigning pool.'
                  ) + '\n' + _('Please enter your password to decrypt it.'))
            if not password:
                return
        else:
            password = None
            if not window.question(
                    _("An encrypted transaction was retrieved from cosigning pool."
                      ) + '\n' + _("Do you want to open it now?")):
                return

        xprv = wallet.keystore.get_master_private_key(password)
        if not xprv:
            return
        try:
            privkey = BIP32Node.from_xkey(xprv).eckey
            message = bh2u(privkey.decrypt_message(message))
        except Exception as e:
            traceback.print_exc(file=sys.stdout)
            window.show_error(_('Error decrypting message') + ':\n' + str(e))
            return

        self.listener.clear(keyhash)
        tx = transaction.Transaction(message)
        show_transaction(tx, window, prompt_if_unsaved=True)
예제 #9
0
 def on_qr(self, data):
     from electrum_sct.bitcoin import base_decode, is_address
     data = data.strip()
     if is_address(data):
         self.set_URI(data)
         return
     if data.startswith('smartcryptotech:'):
         self.set_URI(data)
         return
     # try to decode transaction
     from electrum_sct.transaction import Transaction
     from electrum_sct.util import bh2u
     try:
         text = bh2u(base_decode(data, None, base=43))
         tx = Transaction(text)
         tx.deserialize()
     except:
         tx = None
     if tx:
         self.tx_dialog(tx)
         return
     # show error
     self.show_error("Unable to decode QR data")
예제 #10
0
 def mock_fork(self, bad_header):
     forkpoint = bad_header['block_height']
     b = blockchain.Blockchain(config=self.config, forkpoint=forkpoint, parent=None,
                               forkpoint_hash=bh2u(sha256(str(forkpoint))), prev_hash=bh2u(sha256(str(forkpoint-1))))
     return b
예제 #11
0
    def sign_transaction(self, tx, password):
        if tx.is_complete():
            return
        client = self.get_client()
        inputs = []
        inputsPaths = []
        pubKeys = []
        chipInputs = []
        redeemScripts = []
        signatures = []
        changePath = ""
        output = None
        p2shTransaction = False
        segwitTransaction = False
        pin = ""
        self.get_client() # prompt for the PIN before displaying the dialog if necessary

        # Fetch inputs of the transaction to sign
        derivations = self.get_tx_derivations(tx)
        for txin in tx.inputs():
            if txin['type'] == 'coinbase':
                self.give_error("Coinbase not supported")     # should never happen

            if txin['type'] in ['p2sh']:
                p2shTransaction = True

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

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

            pubkeys, x_pubkeys = tx.get_sorted_pubkeys(txin)
            for i, x_pubkey in enumerate(x_pubkeys):
                if x_pubkey in derivations:
                    signingPos = i
                    s = derivations.get(x_pubkey)
                    hwAddress = "%s/%d/%d" % (self.get_derivation()[2:], s[0], s[1])
                    break
            else:
                self.give_error("No matching x_key for sign_transaction") # should never happen

            redeemScript = Transaction.get_preimage_script(txin)
            txin_prev_tx = txin.get('prev_tx')
            if txin_prev_tx is None and not Transaction.is_segwit_input(txin):
                raise UserFacingException(_('Offline signing with {} is not supported for legacy inputs.').format(self.device))
            txin_prev_tx_raw = txin_prev_tx.raw if txin_prev_tx else None
            inputs.append([txin_prev_tx_raw,
                           txin['prevout_n'],
                           redeemScript,
                           txin['prevout_hash'],
                           signingPos,
                           txin.get('sequence', 0xffffffff - 1),
                           txin.get('value')])
            inputsPaths.append(hwAddress)
            pubKeys.append(pubkeys)

        # Sanity check
        if p2shTransaction:
            for txin in tx.inputs():
                if txin['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():
            output_type, addr, amount, name_op = o.type, o.address, o.value, o.name_op
            txOutput += int_to_hex(amount, 8)
            script = tx.pay_script(output_type, addr, name_op)
            txOutput += var_int(len(script)//2)
            txOutput += script
        txOutput = bfh(txOutput)

        # Recognize outputs
        # - 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:
            if not self.get_client_electrum().supports_multi_output():
                if len(tx.outputs()) > 2:
                    self.give_error("Transaction with more than 2 outputs not supported")
            has_change = False
            any_output_on_change_branch = is_any_tx_output_on_change_branch(tx)
            for o in tx.outputs():
                assert o.type == TYPE_ADDRESS
                info = tx.output_info.get(o.address)
                if (info is not None) and len(tx.outputs()) > 1 \
                        and not has_change:
                    index = info.address_index
                    on_change_branch = index[0] == 1
                    # prioritise hiding outputs on the 'change' branch from user
                    # because no more than one change address allowed
                    if on_change_branch == any_output_on_change_branch:
                        changePath = self.get_derivation()[2:] + "/%d/%d"%index
                        has_change = True
                    else:
                        output = o.address
                else:
                    output = o.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:
                    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:
                    txtmp = bitcoinTransaction(bfh(utxo[0]))
                    trustedInput = self.get_client().getTrustedInput(txtmp, utxo[1])
                    trustedInput['sequence'] = sequence
                    chipInputs.append(trustedInput)
                    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()
            self.get_client().enableAlternate2fa(False)
            if segwitTransaction:
                self.get_client().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 = self.get_client().finalizeInput(b'', 0, 0, changePath, bfh(rawTx))
                outputData['outputData'] = txOutput
                if outputData['confirmationNeeded']:
                    outputData['address'] = output
                    self.handler.finished()
                    pin = self.handler.get_auth( outputData ) # does the authenticate dialog and returns pin
                    if not pin:
                        raise UserWarning()
                    if pin != 'paired':
                        self.handler.show_message(_("Confirmed. Signing Transaction..."))
                while inputIndex < len(inputs):
                    singleInput = [ chipInputs[inputIndex] ]
                    self.get_client().startUntrustedTransaction(False, 0,
                                                            singleInput, redeemScripts[inputIndex], version=tx.version)
                    inputSignature = self.get_client().untrustedHashSign(inputsPaths[inputIndex], pin, lockTime=tx.locktime)
                    inputSignature[0] = 0x30 # force for 1.4.9+
                    signatures.append(inputSignature)
                    inputIndex = inputIndex + 1
            else:
                while inputIndex < len(inputs):
                    self.get_client().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 = self.get_client().finalizeInput(b'', 0, 0, changePath, bfh(rawTx))
                    outputData['outputData'] = txOutput
                    if outputData['confirmationNeeded']:
                        outputData['address'] = output
                        self.handler.finished()
                        pin = self.handler.get_auth( outputData ) # does the authenticate dialog and returns pin
                        if not pin:
                            raise UserWarning()
                        if pin != 'paired':
                            self.handler.show_message(_("Confirmed. Signing Transaction..."))
                    else:
                        # Sign input with the provided PIN
                        inputSignature = self.get_client().untrustedHashSign(inputsPaths[inputIndex], pin, lockTime=tx.locktime)
                        inputSignature[0] = 0x30 # force for 1.4.9+
                        signatures.append(inputSignature)
                        inputIndex = inputIndex + 1
                    if pin != 'paired':
                        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:
                traceback.print_exc(file=sys.stderr)
                self.give_error(e, True)
        except BaseException as e:
            traceback.print_exc(file=sys.stdout)
            self.give_error(e, True)
        finally:
            self.handler.finished()

        for i, txin in enumerate(tx.inputs()):
            signingPos = inputs[i][4]
            tx.add_signature_to_txin(i, signingPos, bh2u(signatures[i]))
        tx.raw = tx.serialize()
예제 #12
0
 def test_mnemonic_to_seed_basic(self):
     # note: not a valid electrum seed
     seed = mnemonic.Mnemonic.mnemonic_to_seed(mnemonic='foobar', passphrase='none')
     self.assertEqual('741b72fd15effece6bfe5a26a52184f66811bd2be363190e07a42cca442b1a5bb22b3ad0eb338197287e6d314866c7fba863ac65d3f156087a5052ebc7157fce',
                      bh2u(seed))