#!/usr/bin/env python # # Electrum - lightweight Bitcoin client # Copyright (C) 2015 Thomas Voegtlin # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . from collections import namedtuple import traceback import sys import os import imp import pkgutil import time from util import * from i18n import _ from util import profiler, PrintError, DaemonThread import wallet class Plugins(DaemonThread): @profiler def __init__(self, config, is_local, gui_name): DaemonThread.__init__(self) if is_local: find = imp.find_module('plugins') plugins = imp.load_module('electrum_plugins', *find) else: plugins = __import__('electrum_plugins') self.pkgpath = os.path.dirname(plugins.__file__) self.config = config self.hw_wallets = {} self.plugins = {} self.gui_name = gui_name self.descriptions = {} self.device_manager = DeviceMgr() for loader, name, ispkg in pkgutil.iter_modules([self.pkgpath]): m = loader.find_module(name).load_module(name) d = m.__dict__ gui_good = gui_name in d.get('available_for', []) details = d.get('registers_wallet_type') if details: self.register_plugin_wallet(name, gui_good, details) if not gui_good: continue self.descriptions[name] = d if not d.get('requires_wallet_type') and config.get('use_' + name): self.load_plugin(name) def get(self, name): return self.plugins.get(name) def count(self): return len(self.plugins) def load_plugin(self, name): full_name = 'electrum_plugins.' + name + '.' + self.gui_name try: p = pkgutil.find_loader(full_name).load_module(full_name) plugin = p.Plugin(self, self.config, name) self.add_jobs(plugin.thread_jobs()) self.plugins[name] = plugin self.print_error("loaded", name) return plugin except Exception: self.print_error("cannot initialize plugin", name) traceback.print_exc(file=sys.stdout) return None def close_plugin(self, plugin): self.remove_jobs(plugin.thread_jobs()) def enable(self, name): self.config.set_key('use_' + name, True, True) p = self.get(name) if p: return p return self.load_plugin(name) def disable(self, name): self.config.set_key('use_' + name, False, True) p = self.get(name) if not p: return self.plugins.pop(name) p.close() self.print_error("closed", name) def toggle(self, name): p = self.get(name) return self.disable(name) if p else self.enable(name) def is_available(self, name, w): d = self.descriptions.get(name) if not d: return False deps = d.get('requires', []) for dep, s in deps: try: __import__(dep) except ImportError: return False requires = d.get('requires_wallet_type', []) return not requires or w.wallet_type in requires def hardware_wallets(self, action): wallet_types, descs = [], [] for name, (gui_good, details) in self.hw_wallets.items(): if gui_good: try: p = self.wallet_plugin_loader(name) if action == 'restore' or p.is_enabled(): wallet_types.append(details[1]) descs.append(details[2]) except: self.print_error("cannot load plugin for:", name) return wallet_types, descs def register_plugin_wallet(self, name, gui_good, details): def dynamic_constructor(storage): return self.wallet_plugin_loader(name).wallet_class(storage) if details[0] == 'hardware': self.hw_wallets[name] = (gui_good, details) self.print_error("registering wallet %s: %s" %(name, details)) wallet.wallet_types.append(details + (dynamic_constructor,)) def wallet_plugin_loader(self, name): if not name in self.plugins: self.load_plugin(name) return self.plugins[name] def run(self): jobs = [job for plugin in self.plugins.values() for job in plugin.thread_jobs()] self.add_jobs(jobs) while self.is_running(): time.sleep(0.1) self.run_jobs() self.print_error("stopped") hook_names = set() hooks = {} def hook(func): hook_names.add(func.func_name) return func def run_hook(name, *args): results = [] f_list = hooks.get(name, []) for p, f in f_list: if p.is_enabled(): try: r = f(*args) except Exception: print_error("Plugin error") traceback.print_exc(file=sys.stdout) r = False if r: results.append(r) if results: assert len(results) == 1, results return results[0] class BasePlugin(PrintError): def __init__(self, parent, config, name): self.parent = parent # The plugins object self.name = name self.config = config self.wallet = None # add self to hooks for k in dir(self): if k in hook_names: l = hooks.get(k, []) l.append((self, getattr(self, k))) hooks[k] = l def diagnostic_name(self): return self.name def __str__(self): return self.name def close(self): # remove self from hooks for k in dir(self): if k in hook_names: l = hooks.get(k, []) l.remove((self, getattr(self, k))) hooks[k] = l self.parent.close_plugin(self) self.on_close() def on_close(self): pass def requires_settings(self): return False def thread_jobs(self): return [] def is_enabled(self): return self.is_available() and self.config.get('use_'+self.name) is True def is_available(self): return True def settings_dialog(self): pass Device = namedtuple("Device", "path id_ product_key") class DeviceMgr(PrintError): '''Manages hardware clients. A client communicates over a hardware channel with the device. In addition to tracking device HID IDs, the device manager tracks hardware wallets and manages wallet pairing. A HID ID may be paired with a wallet when it is confirmed that the hardware device matches the wallet, i.e. they have the same master public key. A HID ID can be unpaired if e.g. it is wiped. Because of hotplugging, a wallet must request its client dynamically each time it is required, rather than caching it itself. The device manager is shared across plugins, so just one place does hardware scans when needed. By tracking HID IDs, if a device is plugged into a different port the wallet is automatically re-paired. Wallets are informed on connect / disconnect events. It must implement connected(), disconnected() callbacks. Being connected implies a pairing. Callbacks can happen in any thread context, and we do them without holding the lock. Confusingly, the HID ID (serial number) reported by the HID system doesn't match the device ID reported by the device itself. We use the HID IDs. This plugin is thread-safe. Currently only devices supported by hidapi are implemented. ''' def __init__(self): super(DeviceMgr, self).__init__() # Keyed by wallet. The value is the device id if the wallet # has been paired, and None otherwise. self.wallets = {} # A list of clients. The key is the client, the value is # a (path, id_) pair. self.clients = {} # What we recognise. Each entry is a (vendor_id, product_id) # pair. self.recognised_hardware = set() # For synchronization self.lock = threading.RLock() def register_devices(self, device_pairs): for pair in device_pairs: self.recognised_hardware.add(pair) def create_client(self, device, handler, plugin): client = plugin.create_client(device, handler) if client: self.print_error("Registering", client) with self.lock: self.clients[client] = (device.path, device.id_) return client def wallet_id(self, wallet): with self.lock: return self.wallets.get(wallet) def wallet_by_id(self, id_): with self.lock: for wallet, wallet_id in self.wallets.items(): if wallet_id == id_: return wallet return None def unpair_wallet(self, wallet): with self.lock: wallet_id = self.wallets.pop(wallet) client = self.client_lookup(wallet_id) self.clients.pop(client, None) wallet.unpaired() if client: client.close() def unpair_id(self, id_): with self.lock: wallet = self.wallet_by_id(id_) if wallet: self.unpair_wallet(wallet) def pair_wallet(self, wallet, id_): with self.lock: self.wallets[wallet] = id_ wallet.paired() def paired_wallets(self): return list(self.wallets.keys()) def client_lookup(self, id_): with self.lock: for client, (path, client_id) in self.clients.items(): if client_id == id_: return client return None def client_by_id(self, id_, handler): '''Returns a client for the device ID if one is registered. If a device is wiped or in bootloader mode pairing is impossible; in such cases we communicate by device ID and not wallet.''' self.scan_devices(handler) return self.client_lookup(id_) def client_for_wallet(self, plugin, wallet, force_pair): assert wallet.handler devices = self.scan_devices(wallet.handler) wallet_id = self.wallet_id(wallet) client = self.client_lookup(wallet_id) if client: return client for device in devices: if device.id_ == wallet_id: return self.create_client(device, wallet.handler, plugin) if force_pair: first_address, derivation = wallet.first_address() # Wallets don't have a first address in the install wizard # until account creation if not first_address: self.print_error("no first address for ", wallet) return None # The wallet has not been previously paired, so get the # first address of all unpaired clients and compare. for device in devices: # Skip already-paired devices if self.wallet_by_id(device.id_): continue client = self.create_client(device, wallet.handler, plugin) if client and not client.features.bootloader_mode: # This will trigger a PIN/passphrase entry request client_first_address = client.first_address(derivation) if client_first_address == first_address: self.pair_wallet(wallet, device.id_) return client return None def scan_devices(self, handler): # All currently supported hardware libraries use hid, so we # assume it here. This can be easily abstracted if necessary. # Note this import must be local so those without hardware # wallet libraries are not affected. import hid self.print_error("scanning devices...") # First see what's connected that we know about devices = [] for d in hid.enumerate(0, 0): product_key = (d['vendor_id'], d['product_id']) if product_key in self.recognised_hardware: devices.append(Device(d['path'], d['serial_number'], product_key)) # Now find out what was disconnected pairs = [(dev.path, dev.id_) for dev in devices] disconnected_ids = [] with self.lock: connected = {} for client, pair in self.clients.items(): if pair in pairs: connected[client] = pair else: disconnected_ids.append(pair[1]) self.clients = connected # Unpair disconnected devices for id_ in disconnected_ids: self.unpair_id(id_) return devices