electrum-bitcoinprivate/lib/base_wizard.py

# -*- coding: utf-8 -*-
#
# Electrum - lightweight Bitcoin client
# Copyright (C) 2016 Thomas Voegtlin
#
# Permission is hereby granted, free of charge, to any person
# obtaining a copy of this software and associated documentation files
# (the "Software"), to deal in the Software without restriction,
# including without limitation the rights to use, copy, modify, merge,
# publish, distribute, sublicense, and/or sell copies of the Software,
# and to permit persons to whom the Software is furnished to do so,
# subject to the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.

import os
from . import bitcoin
from . import keystore
from .keystore import bip44_derivation
from .wallet import Imported_Wallet, Standard_Wallet, Multisig_Wallet, wallet_types
from .i18n import _


class BaseWizard(object):

    def __init__(self, config, storage):
        super(BaseWizard, self).__init__()
        self.config = config
        self.storage = storage
        self.wallet = None
        self.stack = []
        self.plugin = None
        self.keystores = []
        self.is_kivy = config.get('gui') == 'kivy'
        self.seed_type = None

    def run(self, *args):
        action = args[0]
        args = args[1:]
        self.stack.append((action, args))
        if not action:
            return
        if type(action) is tuple:
            self.plugin, action = action
        if self.plugin and hasattr(self.plugin, action):
            f = getattr(self.plugin, action)
            f(self, *args)
        elif hasattr(self, action):
            f = getattr(self, action)
            f(*args)
        else:
            raise BaseException("unknown action", action)

    def can_go_back(self):
        return len(self.stack)>1

    def go_back(self):
        if not self.can_go_back():
            return
        self.stack.pop()
        action, args = self.stack.pop()
        self.run(action, *args)

    def new(self):
        name = os.path.basename(self.storage.path)
        title = _("Create") + ' ' + name
        message = '\n'.join([
            _("What kind of wallet do you want to create?")
        ])
        wallet_kinds = [
            ('standard',  _("Standard wallet")),
            ('2fa', _("Wallet with two-factor authentication")),
            ('multisig',  _("Multi-signature wallet")),
            ('imported',  _("Import Bitcoin addresses or private keys")),
        ]
        choices = [pair for pair in wallet_kinds if pair[0] in wallet_types]
        self.choice_dialog(title=title, message=message, choices=choices, run_next=self.on_wallet_type)

    def load_2fa(self):
        self.storage.put('wallet_type', '2fa')
        self.storage.put('use_trustedcoin', True)
        self.plugin = self.plugins.load_plugin('trustedcoin')

    def on_wallet_type(self, choice):
        self.wallet_type = choice
        if choice == 'standard':
            action = 'choose_keystore'
        elif choice == 'multisig':
            action = 'choose_multisig'
        elif choice == '2fa':
            self.load_2fa()
            action = self.storage.get_action()
        elif choice == 'imported':
            action = 'import_addresses_or_keys'
        self.run(action)

    def choose_multisig(self):
        def on_multisig(m, n):
            self.multisig_type = "%dof%d"%(m, n)
            self.storage.put('wallet_type', self.multisig_type)
            self.n = n
            self.run('choose_keystore')
        self.multisig_dialog(run_next=on_multisig)

    def choose_keystore(self):
        assert self.wallet_type in ['standard', 'multisig']
        i = len(self.keystores)
        title = _('Add cosigner') + ' (%d of %d)'%(i+1, self.n) if self.wallet_type=='multisig' else _('Keystore')
        if self.wallet_type =='standard' or i==0:
            message = _('Do you want to create a new seed, or to restore a wallet using an existing seed?')
            choices = [
                ('choose_seed_type', _('Create a new seed')),
                ('restore_from_seed', _('I already have a seed')),
                ('restore_from_key', _('Use public or private keys')),
            ]
            if not self.is_kivy:
                choices.append(('choose_hw_device',  _('Use a hardware device')))
        else:
            message = _('Add a cosigner to your multi-sig wallet')
            choices = [
                ('restore_from_key', _('Enter cosigner key')),
                ('restore_from_seed', _('Enter cosigner seed')),
            ]
            if not self.is_kivy:
                choices.append(('choose_hw_device',  _('Cosign with hardware device')))

        self.choice_dialog(title=title, message=message, choices=choices, run_next=self.run)

    def import_addresses_or_keys(self):
        v = lambda x: keystore.is_address_list(x) or keystore.is_private_key_list(x)
        title = _("Import Bitcoin Addresses")
        message = _("Enter a list of Bitcoin addresses (this will create a watching-only wallet), or a list of private keys.")
        self.add_xpub_dialog(title=title, message=message, run_next=self.on_import, is_valid=v)

    def on_import(self, text):
        if keystore.is_address_list(text):
            self.wallet = Imported_Wallet(self.storage)
            for x in text.split():
                self.wallet.import_address(x)
        elif keystore.is_private_key_list(text):
            k = keystore.Imported_KeyStore({})
            self.storage.put('keystore', k.dump())
            self.wallet = Imported_Wallet(self.storage)
            for x in text.split():
                self.wallet.import_private_key(x, None)
        self.terminate()

    def restore_from_key(self):
        if self.wallet_type == 'standard':
            v = keystore.is_master_key
            title = _("Create keystore from a master key")
            message = ' '.join([
                _("To create a watching-only wallet, please enter your master public key (xpub/ypub/zpub)."),
                _("To create a spending wallet, please enter a master private key (xprv/yprv/zprv).")
            ])
            self.add_xpub_dialog(title=title, message=message, run_next=self.on_restore_from_key, is_valid=v)
        else:
            i = len(self.keystores) + 1
            self.add_cosigner_dialog(index=i, run_next=self.on_restore_from_key, is_valid=keystore.is_bip32_key)

    def on_restore_from_key(self, text):
        k = keystore.from_master_key(text)
        self.on_keystore(k)

    def choose_hw_device(self):
        title = _('Hardware Keystore')
        # check available plugins
        support = self.plugins.get_hardware_support()
        if not support:
            msg = '\n'.join([
                _('No hardware wallet support found on your system.'),
                _('Please install the relevant libraries (eg python-trezor for Trezor).'),
            ])
            self.confirm_dialog(title=title, message=msg, run_next= lambda x: self.choose_hw_device())
            return
        # scan devices
        devices = []
        devmgr = self.plugins.device_manager
        for name, description, plugin in support:
            try:
                # FIXME: side-effect: unpaired_device_info sets client.handler
                u = devmgr.unpaired_device_infos(None, plugin)
            except:
                devmgr.print_error("error", name)
                continue
            devices += list(map(lambda x: (name, x), u))
        if not devices:
            msg = ''.join([
                _('No hardware device detected.') + '\n',
                _('To trigger a rescan, press \'Next\'.') + '\n\n',
                _('If your device is not detected on Windows, go to "Settings", "Devices", "Connected devices", and do "Remove device". Then, plug your device again.') + ' ',
                _('On Linux, you might have to add a new permission to your udev rules.'),
            ])
            self.confirm_dialog(title=title, message=msg, run_next= lambda x: self.choose_hw_device())
            return
        # select device
        self.devices = devices
        choices = []
        for name, info in devices:
            state = _("initialized") if info.initialized else _("wiped")
            label = info.label or _("An unnamed %s")%name
            descr = "%s [%s, %s]" % (label, name, state)
            choices.append(((name, info), descr))
        msg = _('Select a device') + ':'
        self.choice_dialog(title=title, message=msg, choices=choices, run_next=self.on_device)

    def on_device(self, name, device_info):
        self.plugin = self.plugins.get_plugin(name)
        try:
            self.plugin.setup_device(device_info, self)
        except BaseException as e:
            self.show_error(str(e))
            self.choose_hw_device()
            return
        if self.wallet_type=='multisig':
            # There is no general standard for HD multisig.
            # This is partially compatible with BIP45; assumes index=0
            self.on_hw_derivation(name, device_info, "m/45'/0")
        else:
            f = lambda x: self.run('on_hw_derivation', name, device_info, str(x))
            self.derivation_dialog(f)

    def derivation_dialog(self, f):
        default = bip44_derivation(0, False)
        message = '\n'.join([
            _('Enter your wallet derivation here.'),
            _('If you are not sure what this is, leave this field unchanged.')
        ])
        self.line_dialog(run_next=f, title=_('Derivation'), message=message, default=default, test=bitcoin.is_bip32_derivation)

    def on_hw_derivation(self, name, device_info, derivation):
        from .keystore import hardware_keystore
        xtype = 'p2wpkh-p2sh' if derivation.startswith("m/49'/") else 'standard'
        try:
            xpub = self.plugin.get_xpub(device_info.device.id_, derivation, xtype, self)
        except BaseException as e:
            self.show_error(e)
            return
        d = {
            'type': 'hardware',
            'hw_type': name,
            'derivation': derivation,
            'xpub': xpub,
            'label': device_info.label,
        }
        k = hardware_keystore(d)
        self.on_keystore(k)

    def passphrase_dialog(self, run_next):
        title = _('Seed extension')
        message = '\n'.join([
            _('You may extend your seed with custom words.'),
            _('Your seed extension must be saved together with your seed.'),
        ])
        warning = '\n'.join([
            _('Note that this is NOT your encryption password.'),
            _('If you do not know what this is, leave this field empty.'),
        ])
        self.line_dialog(title=title, message=message, warning=warning, default='', test=lambda x:True, run_next=run_next)

    def restore_from_seed(self):
        self.opt_bip39 = True
        self.opt_ext = True
        is_cosigning_seed = lambda x: bitcoin.seed_type(x) in ['standard', 'segwit']
        test = bitcoin.is_seed if self.wallet_type == 'standard' else is_cosigning_seed
        self.restore_seed_dialog(run_next=self.on_restore_seed, test=test)

    def on_restore_seed(self, seed, is_bip39, is_ext):
        self.seed_type = 'bip39' if is_bip39 else bitcoin.seed_type(seed)
        if self.seed_type == 'bip39':
            f = lambda passphrase: self.on_restore_bip39(seed, passphrase)
            self.passphrase_dialog(run_next=f) if is_ext else f('')
        elif self.seed_type in ['standard', 'segwit']:
            f = lambda passphrase: self.run('create_keystore', seed, passphrase)
            self.passphrase_dialog(run_next=f) if is_ext else f('')
        elif self.seed_type == 'old':
            self.run('create_keystore', seed, '')
        elif self.seed_type == '2fa':
            if self.is_kivy:
                self.show_error('2FA seeds are not supported in this version')
                self.run('restore_from_seed')
            else:
                self.load_2fa()
                self.run('on_restore_seed', seed, is_ext)
        else:
            raise BaseException('Unknown seed type', self.seed_type)

    def on_restore_bip39(self, seed, passphrase):
        f = lambda x: self.run('on_bip43', seed, passphrase, str(x))
        self.derivation_dialog(f)

    def create_keystore(self, seed, passphrase):
        k = keystore.from_seed(seed, passphrase, self.wallet_type == 'multisig')
        self.on_keystore(k)

    def on_bip43(self, seed, passphrase, derivation):
        k = keystore.from_bip39_seed(seed, passphrase, derivation)
        self.on_keystore(k)

    def on_keystore(self, k):
        has_xpub = isinstance(k, keystore.Xpub)
        if has_xpub:
            from .bitcoin import xpub_type
            t1 = xpub_type(k.xpub)
        if self.wallet_type == 'standard':
            if has_xpub and t1 not in ['standard', 'p2wpkh', 'p2wpkh-p2sh']:
                self.show_error(_('Wrong key type') + ' %s'%t1)
                self.run('choose_keystore')
                return
            self.keystores.append(k)
            self.run('create_wallet')
        elif self.wallet_type == 'multisig':
            assert has_xpub
            if t1 not in ['standard', 'p2wsh', 'p2wsh-p2sh']:
                self.show_error(_('Wrong key type') + ' %s'%t1)
                self.run('choose_keystore')
                return
            if k.xpub in map(lambda x: x.xpub, self.keystores):
                self.show_error(_('Error: duplicate master public key'))
                self.run('choose_keystore')
                return
            if len(self.keystores)>0:
                t2 = xpub_type(self.keystores[0].xpub)
                if t1 != t2:
                    self.show_error(_('Cannot add this cosigner:') + '\n' + "Their key type is '%s', we are '%s'"%(t1, t2))
                    self.run('choose_keystore')
                    return
            self.keystores.append(k)
            if len(self.keystores) == 1:
                xpub = k.get_master_public_key()
                self.stack = []
                self.run('show_xpub_and_add_cosigners', xpub)
            elif len(self.keystores) < self.n:
                self.run('choose_keystore')
            else:
                self.run('create_wallet')

    def create_wallet(self):
        if any(k.may_have_password() for k in self.keystores):
            self.request_password(run_next=self.on_password)
        else:
            self.on_password(None, False)

    def on_password(self, password, encrypt):
        self.storage.set_password(password, encrypt)
        for k in self.keystores:
            if k.may_have_password():
                k.update_password(None, password)
        if self.wallet_type == 'standard':
            self.storage.put('seed_type', self.seed_type)
            keys = self.keystores[0].dump()
            self.storage.put('keystore', keys)
            self.wallet = Standard_Wallet(self.storage)
            self.run('create_addresses')
        elif self.wallet_type == 'multisig':
            for i, k in enumerate(self.keystores):
                self.storage.put('x%d/'%(i+1), k.dump())
            self.storage.write()
            self.wallet = Multisig_Wallet(self.storage)
            self.run('create_addresses')

    def show_xpub_and_add_cosigners(self, xpub):
        self.show_xpub_dialog(xpub=xpub, run_next=lambda x: self.run('choose_keystore'))

    def on_cosigner(self, text, password, i):
        k = keystore.from_master_key(text, password)
        self.on_keystore(k)

    def choose_seed_type(self):
        title = _('Choose Seed type')
        message = ' '.join([
            "The type of addresses used by your wallet will depend on your seed.",
            "Segwit wallets use bech32 addresses, defined in BIP173.",
            "Please note that websites and other wallets may not support these addresses yet.",
            "Thus, you might want to keep using a non-segwit wallet in order to be able to receive bitcoins during the transition period."
        ])
        choices = [
            ('create_standard_seed', _('Standard')),
            ('create_segwit_seed', _('Segwit')),
        ]
        self.choice_dialog(title=title, message=message, choices=choices, run_next=self.run)

    def create_segwit_seed(self): self.create_seed('segwit')
    def create_standard_seed(self): self.create_seed('standard')

    def create_seed(self, seed_type):
        from . import mnemonic
        self.seed_type = seed_type
        seed = mnemonic.Mnemonic('en').make_seed(self.seed_type)
        self.opt_bip39 = False
        f = lambda x: self.request_passphrase(seed, x)
        self.show_seed_dialog(run_next=f, seed_text=seed)

    def request_passphrase(self, seed, opt_passphrase):
        if opt_passphrase:
            f = lambda x: self.confirm_seed(seed, x)
            self.passphrase_dialog(run_next=f)
        else:
            self.run('confirm_seed', seed, '')

    def confirm_seed(self, seed, passphrase):
        f = lambda x: self.confirm_passphrase(seed, passphrase)
        self.confirm_seed_dialog(run_next=f, test=lambda x: x==seed)

    def confirm_passphrase(self, seed, passphrase):
        f = lambda x: self.run('create_keystore', seed, x)
        if passphrase:
            title = _('Confirm Seed Extension')
            message = '\n'.join([
                _('Your seed extension must be saved together with your seed.'),
                _('Please type it here.'),
            ])
            self.line_dialog(run_next=f, title=title, message=message, default='', test=lambda x: x==passphrase)
        else:
            f('')

    def create_addresses(self):
        def task():
            self.wallet.synchronize()
            self.wallet.storage.write()
            self.terminate()
        msg = _("Electrum is generating your addresses, please wait.")
        self.waiting_dialog(task, msg)