import time import Queue import os import errno import sys import random import select import traceback from collections import defaultdict, deque from threading import Lock import socks import socket import json import util from bitcoin import * from interface import Connection, Interface from blockchain import Blockchain from version import ELECTRUM_VERSION, PROTOCOL_VERSION DEFAULT_PORTS = {'t':'50001', 's':'50002', 'h':'8081', 'g':'8082'} DEFAULT_SERVERS = { 'erbium1.sytes.net':{'t':'50001', 's':'50002'}, 'ecdsa.net':{'t':'50001', 's':'110'}, 'electrum0.electricnewyear.net':{'t':'50001', 's':'50002'}, 'VPS.hsmiths.com':{'t':'50001', 's':'50002'}, 'ELECTRUM.jdubya.info':{'t':'50001', 's':'50002'}, 'electrum.no-ip.org':{'t':'50001', 's':'50002', 'g':'443'}, 'us.electrum.be':DEFAULT_PORTS, 'bitcoins.sk':{'t':'50001', 's':'50002'}, 'electrum.petrkr.net':{'t':'50001', 's':'50002'}, 'electrum.dragonzone.net':DEFAULT_PORTS, 'Electrum.hsmiths.com':{'t':'8080', 's':'995'}, 'electrum3.hachre.de':{'t':'50001', 's':'50002'}, 'elec.luggs.co':{'t':'80', 's':'443'}, 'btc.smsys.me':{'t':'110', 's':'995'}, 'electrum.online':{'t':'50001', 's':'50002'}, } NODES_RETRY_INTERVAL = 60 SERVER_RETRY_INTERVAL = 10 def parse_servers(result): """ parse servers list into dict format""" from version import PROTOCOL_VERSION servers = {} for item in result: host = item[1] out = {} version = None pruning_level = '-' if len(item) > 2: for v in item[2]: if re.match("[stgh]\d*", v): protocol, port = v[0], v[1:] if port == '': port = DEFAULT_PORTS[protocol] out[protocol] = port elif re.match("v(.?)+", v): version = v[1:] elif re.match("p\d*", v): pruning_level = v[1:] if pruning_level == '': pruning_level = '0' try: is_recent = cmp(util.normalize_version(version), util.normalize_version(PROTOCOL_VERSION)) >= 0 except Exception: is_recent = False if out and is_recent: out['pruning'] = pruning_level servers[host] = out return servers def filter_protocol(hostmap = DEFAULT_SERVERS, protocol = 's'): '''Filters the hostmap for those implementing protocol. The result is a list in serialized form.''' eligible = [] for host, portmap in hostmap.items(): port = portmap.get(protocol) if port: eligible.append(serialize_server(host, port, protocol)) return eligible def pick_random_server(hostmap = DEFAULT_SERVERS, protocol = 's', exclude_set = set()): eligible = list(set(filter_protocol(hostmap, protocol)) - exclude_set) return random.choice(eligible) if eligible else None from simple_config import SimpleConfig proxy_modes = ['socks4', 'socks5', 'http'] def serialize_proxy(p): if type(p) != dict: return None return ':'.join([p.get('mode'),p.get('host'), p.get('port')]) def deserialize_proxy(s): if type(s) not in [str, unicode]: return None if s.lower() == 'none': return None proxy = { "mode":"socks5", "host":"localhost" } args = s.split(':') n = 0 if proxy_modes.count(args[n]) == 1: proxy["mode"] = args[n] n += 1 if len(args) > n: proxy["host"] = args[n] n += 1 if len(args) > n: proxy["port"] = args[n] else: proxy["port"] = "8080" if proxy["mode"] == "http" else "1080" return proxy def deserialize_server(server_str): host, port, protocol = str(server_str).split(':') assert protocol in 'st' int(port) # Throw if cannot be converted to int return host, port, protocol def serialize_server(host, port, protocol): return str(':'.join([host, port, protocol])) class Network(util.DaemonThread): """The Network class manages a set of connections to remote electrum servers, each connected socket is handled by an Interface() object. Connections are initiated by a Connection() thread which stops once the connection succeeds or fails. Our external API: - Member functions get_header(), get_interfaces(), get_local_height(), get_parameters(), get_server_height(), get_status_value(), is_connected(), set_parameters(), stop() """ def __init__(self, config=None): if config is None: config = {} # Do not use mutables as default values! util.DaemonThread.__init__(self) self.config = SimpleConfig(config) if type(config) == type({}) else config self.num_server = 8 if not self.config.get('oneserver') else 0 self.blockchain = Blockchain(self.config, self) # A deque of interface header requests, processed left-to-right self.bc_requests = deque() # Server for addresses and transactions self.default_server = self.config.get('server') # Sanitize default server try: deserialize_server(self.default_server) except: self.default_server = None if not self.default_server: self.default_server = pick_random_server() self.lock = Lock() self.pending_sends = [] self.message_id = 0 self.debug = False self.irc_servers = {} # returned by interface (list from irc) self.recent_servers = self.read_recent_servers() self.banner = '' self.donation_address = '' self.fee = None self.relay_fee = None self.heights = {} self.merkle_roots = {} self.utxo_roots = {} # callbacks passed with subscriptions self.subscriptions = defaultdict(list) self.sub_cache = {} # callbacks set by the GUI self.callbacks = defaultdict(list) dir_path = os.path.join( self.config.path, 'certs') if not os.path.exists(dir_path): os.mkdir(dir_path) # subscriptions and requests self.subscribed_addresses = set() # Requests from client we've not seen a response to self.unanswered_requests = {} # retry times self.server_retry_time = time.time() self.nodes_retry_time = time.time() # kick off the network. interface is the main server we are currently # communicating with. interfaces is the set of servers we are connecting # to or have an ongoing connection with self.interface = None self.interfaces = {} self.auto_connect = self.config.get('auto_connect', False) self.connecting = set() self.socket_queue = Queue.Queue() self.start_network(deserialize_server(self.default_server)[2], deserialize_proxy(self.config.get('proxy'))) def register_callback(self, callback, events): with self.lock: for event in events: self.callbacks[event].append(callback) def unregister_callback(self, callback): with self.lock: for callbacks in self.callbacks.values(): if callback in callbacks: callbacks.remove(callback) def trigger_callback(self, event, *args): with self.lock: callbacks = self.callbacks[event][:] [callback(event, *args) for callback in callbacks] def read_recent_servers(self): if not self.config.path: return [] path = os.path.join(self.config.path, "recent_servers") try: with open(path, "r") as f: data = f.read() return json.loads(data) except: return [] def save_recent_servers(self): if not self.config.path: return path = os.path.join(self.config.path, "recent_servers") s = json.dumps(self.recent_servers, indent=4, sort_keys=True) try: with open(path, "w") as f: f.write(s) except: pass def get_server_height(self): return self.heights.get(self.default_server, 0) def server_is_lagging(self): sh = self.get_server_height() if not sh: self.print_error('no height for main interface') return True lh = self.get_local_height() result = (lh - sh) > 1 if result: self.print_error('%s is lagging (%d vs %d)' % (self.default_server, sh, lh)) return result def set_status(self, status): self.connection_status = status self.notify('status') def is_connected(self): return self.interface is not None def is_connecting(self): return self.connection_status == 'connecting' def is_up_to_date(self): return self.unanswered_requests == {} def queue_request(self, method, params, interface=None): # If you want to queue a request on any interface it must go # through this function so message ids are properly tracked if interface is None: interface = self.interface message_id = self.message_id self.message_id += 1 if self.debug: self.print_error(interface.host, "-->", method, params, message_id) interface.queue_request(method, params, message_id) return message_id def send_subscriptions(self): self.print_error('sending subscriptions to', self.interface.server, len(self.unanswered_requests), len(self.subscribed_addresses)) self.sub_cache.clear() # Resend unanswered requests requests = self.unanswered_requests.values() self.unanswered_requests = {} for request in requests: message_id = self.queue_request(request[0], request[1]) self.unanswered_requests[message_id] = request for addr in self.subscribed_addresses: self.queue_request('blockchain.address.subscribe', [addr]) self.queue_request('server.banner', []) self.queue_request('server.donation_address', []) self.queue_request('server.peers.subscribe', []) self.queue_request('blockchain.estimatefee', [2]) self.queue_request('blockchain.relayfee', []) def get_status_value(self, key): if key == 'status': value = self.connection_status elif key == 'banner': value = self.banner elif key == 'fee': value = self.fee elif key == 'updated': value = (self.get_local_height(), self.get_server_height()) elif key == 'servers': value = self.get_servers() elif key == 'interfaces': value = self.get_interfaces() return value def notify(self, key): if key in ['status', 'updated']: self.trigger_callback(key) else: self.trigger_callback(key, self.get_status_value(key)) def get_parameters(self): host, port, protocol = deserialize_server(self.default_server) return host, port, protocol, self.proxy, self.auto_connect def get_donation_address(self): if self.is_connected(): return self.donation_address def get_interfaces(self): '''The interfaces that are in connected state''' return self.interfaces.keys() def get_servers(self): if self.irc_servers: out = self.irc_servers else: out = DEFAULT_SERVERS for s in self.recent_servers: try: host, port, protocol = deserialize_server(s) except: continue if host not in out: out[host] = { protocol:port } return out def start_interface(self, server): if (not server in self.interfaces and not server in self.connecting): if server == self.default_server: self.print_error("connecting to %s as new interface" % server) self.set_status('connecting') self.connecting.add(server) c = Connection(server, self.socket_queue, self.config.path) def start_random_interface(self): exclude_set = self.disconnected_servers.union(set(self.interfaces)) server = pick_random_server(self.get_servers(), self.protocol, exclude_set) if server: self.start_interface(server) def start_interfaces(self): self.start_interface(self.default_server) for i in range(self.num_server - 1): self.start_random_interface() def set_proxy(self, proxy): self.proxy = proxy if proxy: self.print_error('setting proxy', proxy) proxy_mode = proxy_modes.index(proxy["mode"]) + 1 socks.setdefaultproxy(proxy_mode, proxy["host"], int(proxy["port"])) socket.socket = socks.socksocket # prevent dns leaks, see http://stackoverflow.com/questions/13184205/dns-over-proxy socket.getaddrinfo = lambda *args: [(socket.AF_INET, socket.SOCK_STREAM, 6, '', (args[0], args[1]))] else: socket.socket = socket._socketobject socket.getaddrinfo = socket._socket.getaddrinfo def start_network(self, protocol, proxy): assert not self.interface and not self.interfaces assert not self.connecting and self.socket_queue.empty() self.print_error('starting network') self.disconnected_servers = set([]) self.protocol = protocol self.set_proxy(proxy) self.start_interfaces() def stop_network(self): self.print_error("stopping network") for interface in self.interfaces.values(): self.close_interface(interface) assert self.interface is None assert not self.interfaces self.connecting = set() # Get a new queue - no old pending connections thanks! self.socket_queue = Queue.Queue() def set_parameters(self, host, port, protocol, proxy, auto_connect): proxy_str = serialize_proxy(proxy) server = serialize_server(host, port, protocol) self.config.set_key('auto_connect', auto_connect, False) self.config.set_key("proxy", proxy_str, False) self.config.set_key("server", server, True) # abort if changes were not allowed by config if self.config.get('server') != server or self.config.get('proxy') != proxy_str: return self.auto_connect = auto_connect if self.proxy != proxy or self.protocol != protocol: # Restart the network defaulting to the given server self.stop_network() self.default_server = server self.start_network(protocol, proxy) elif self.default_server != server: self.switch_to_interface(server) else: self.switch_lagging_interface() def switch_to_random_interface(self): '''Switch to a random connected server other than the current one''' servers = self.get_interfaces() # Those in connected state if self.default_server in servers: servers.remove(self.default_server) if servers: self.switch_to_interface(random.choice(servers)) def switch_lagging_interface(self, suggestion = None): '''If auto_connect and lagging, switch interface''' if self.server_is_lagging() and self.auto_connect: if suggestion and self.protocol == deserialize_server(suggestion)[2]: self.switch_to_interface(suggestion) else: self.switch_to_random_interface() def switch_to_interface(self, server): '''Switch to server as our interface. If no connection exists nor being opened, start a thread to connect. The actual switch will happen on receipt of the connection notification. Do nothing if server already is our interface.''' self.default_server = server if server not in self.interfaces: self.interface = None self.start_interface(server) return i = self.interfaces[server] if self.interface != i: self.print_error("switching to", server) # stop any current interface in order to terminate subscriptions self.close_interface(self.interface) self.interface = i self.send_subscriptions() self.set_status('connected') self.notify('updated') def close_interface(self, interface): if interface: self.interfaces.pop(interface.server) if interface.server == self.default_server: self.interface = None interface.close() def add_recent_server(self, server): # list is ordered if server in self.recent_servers: self.recent_servers.remove(server) self.recent_servers.insert(0, server) self.recent_servers = self.recent_servers[0:20] self.save_recent_servers() def process_response(self, interface, response, callbacks): if self.debug: self.print_error("<--", response) error = response.get('error') result = response.get('result') method = response.get('method') params = response.get('params') # We handle some responses; return the rest to the client. if method == 'server.version': interface.server_version = result elif method == 'blockchain.headers.subscribe': if error is None: self.on_header(interface, result) elif method == 'server.peers.subscribe': if error is None: self.irc_servers = parse_servers(result) self.notify('servers') elif method == 'server.banner': if error is None: self.banner = result self.notify('banner') elif method == 'server.donation_address': if error is None: self.donation_address = result elif method == 'blockchain.estimatefee': if error is None: self.fee = int(result * COIN) self.print_error("recommended fee", self.fee) self.notify('fee') elif method == 'blockchain.relayfee': if error is None: self.relay_fee = int(result * COIN) self.print_error("relayfee", self.relay_fee) elif method == 'blockchain.block.get_chunk': self.on_get_chunk(interface, response) elif method == 'blockchain.block.get_header': self.on_get_header(interface, response) for callback in callbacks: callback(response) def get_index(self, method, params): """ hashable index for subscriptions and cache""" return str(method) + (':' + str(params[0]) if params else '') def process_responses(self, interface): responses = interface.get_responses() for request, response in responses: if request: method, params, message_id = request k = self.get_index(method, params) # client requests go through self.send() with a # callback, are only sent to the current interface, # and are placed in the unanswered_requests dictionary client_req = self.unanswered_requests.pop(message_id, None) if client_req: assert interface == self.interface callbacks = [client_req[2]] else: callbacks = [] # Copy the request method and params to the response response['method'] = method response['params'] = params # Only once we've received a response to an addr subscription # add it to the list; avoids double-sends on reconnection if method == 'blockchain.address.subscribe': self.subscribed_addresses.add(params[0]) else: if not response: # Closed remotely / misbehaving self.connection_down(interface.server) break # Rewrite response shape to match subscription request response method = response.get('method') params = response.get('params') k = self.get_index(method, params) if method == 'blockchain.headers.subscribe': response['result'] = params[0] response['params'] = [] elif method == 'blockchain.address.subscribe': response['params'] = [params[0]] # addr response['result'] = params[1] callbacks = self.subscriptions.get(k, []) # update cache if it's a subscription if method.endswith('.subscribe'): self.sub_cache[k] = response # Response is now in canonical form self.process_response(interface, response, callbacks) def send(self, messages, callback): '''Messages is a list of (method, params) tuples''' with self.lock: self.pending_sends.append((messages, callback)) def process_pending_sends(self): # Requests needs connectivity. If we don't have an interface, # we cannot process them. if not self.interface: return with self.lock: sends = self.pending_sends self.pending_sends = [] for messages, callback in sends: for method, params in messages: r = None if method.endswith('.subscribe'): k = self.get_index(method, params) # add callback to list l = self.subscriptions.get(k, []) if callback not in l: l.append(callback) self.subscriptions[k] = l # check cached response for subscriptions r = self.sub_cache.get(k) if r is not None: util.print_error("cache hit", k) callback(r) else: message_id = self.queue_request(method, params) self.unanswered_requests[message_id] = method, params, callback def unsubscribe(self, callback): '''Unsubscribe a callback to free object references to enable GC.''' # Note: we can't unsubscribe from the server, so if we receive # subsequent notifications process_response() will emit a harmless # "received unexpected notification" warning with self.lock: for v in self.subscriptions.values(): if callback in v: v.remove(callback) def connection_down(self, server): '''A connection to server either went down, or was never made. We distinguish by whether it is in self.interfaces.''' self.disconnected_servers.add(server) if server == self.default_server: self.set_status('disconnected') if server in self.interfaces: self.close_interface(self.interfaces[server]) self.heights.pop(server, None) self.notify('interfaces') def new_interface(self, server, socket): self.add_recent_server(server) self.interfaces[server] = interface = Interface(server, socket) self.queue_request('blockchain.headers.subscribe', [], interface) if server == self.default_server: self.switch_to_interface(server) self.notify('interfaces') def maintain_sockets(self): '''Socket maintenance.''' # Responses to connection attempts? while not self.socket_queue.empty(): server, socket = self.socket_queue.get() self.connecting.remove(server) if socket: self.new_interface(server, socket) else: self.connection_down(server) # Send pings and shut down stale interfaces for interface in self.interfaces.values(): if interface.has_timed_out(): self.connection_down(interface.server) elif interface.ping_required(): params = [ELECTRUM_VERSION, PROTOCOL_VERSION] self.queue_request('server.version', params, interface) now = time.time() # nodes if len(self.interfaces) + len(self.connecting) < self.num_server: self.start_random_interface() if now - self.nodes_retry_time > NODES_RETRY_INTERVAL: self.print_error('network: retrying connections') self.disconnected_servers = set([]) self.nodes_retry_time = now # main interface if not self.is_connected(): if self.auto_connect: if not self.is_connecting(): self.switch_to_random_interface() else: if self.default_server in self.disconnected_servers: if now - self.server_retry_time > SERVER_RETRY_INTERVAL: self.disconnected_servers.remove(self.default_server) self.server_retry_time = now else: self.switch_to_interface(self.default_server) def request_chunk(self, interface, data, idx): interface.print_error("requesting chunk %d" % idx) self.queue_request('blockchain.block.get_chunk', [idx], interface) data['chunk_idx'] = idx data['req_time'] = time.time() def on_get_chunk(self, interface, response): '''Handle receiving a chunk of block headers''' if self.bc_requests: req_if, data = self.bc_requests[0] req_idx = data.get('chunk_idx') # Ignore unsolicited chunks if req_if == interface and req_idx == response['params'][0]: idx = self.blockchain.connect_chunk(req_idx, response['result']) # If not finished, get the next chunk if idx < 0 or self.get_local_height() >= data['if_height']: self.bc_requests.popleft() self.notify('updated') else: self.request_chunk(interface, data, idx) def request_header(self, interface, data, height): interface.print_error("requesting header %d" % height) self.queue_request('blockchain.block.get_header', [height], interface) data['header_height'] = height data['req_time'] = time.time() if not 'chain' in data: data['chain'] = [] def on_get_header(self, interface, response): '''Handle receiving a single block header''' if self.bc_requests: req_if, data = self.bc_requests[0] req_height = data.get('header_height', -1) # Ignore unsolicited headers if req_if == interface and req_height == response['params'][0]: next_height = self.blockchain.connect_header(data['chain'], response['result']) # If not finished, get the next header if next_height in [True, False]: self.bc_requests.popleft() if next_height: self.switch_lagging_interface(interface.server) self.notify('updated') else: interface.print_error("header didn't connect, dismissing interface") interface.stop() else: self.request_header(interface, data, next_height) def bc_request_headers(self, interface, data): '''Send a request for the next header, or a chunk of them, if necessary. ''' local_height, if_height = self.get_local_height(), data['if_height'] if if_height <= local_height: return False elif if_height > local_height + 50: self.request_chunk(interface, data, (local_height + 1) / 2016) else: self.request_header(interface, data, if_height) return True def handle_bc_requests(self): '''Work through each interface that has notified us of a new header. Send it requests if it is ahead of our blockchain object. ''' while self.bc_requests: interface, data = self.bc_requests.popleft() # If the connection was lost move on if not interface in self.interfaces.values(): continue req_time = data.get('req_time') if not req_time: # No requests sent yet. This interface has a new height. # Request headers if it is ahead of our blockchain if not self.bc_request_headers(interface, data): continue elif time.time() - req_time > 10: interface.print_error("blockchain request timed out") self.connection_down(interface.server) continue # Put updated request state back at head of deque self.bc_requests.appendleft((interface, data)) break def wait_on_sockets(self): # Python docs say Windows doesn't like empty selects. # Sleep to prevent busy looping if not self.interfaces: time.sleep(0.1) return rin = [i for i in self.interfaces.values()] win = [i for i in self.interfaces.values() if i.unsent_requests] try: rout, wout, xout = select.select(rin, win, [], 0.1) except socket.error as (code, msg): if code == errno.EINTR: return raise assert not xout for interface in wout: interface.send_requests() for interface in rout: self.process_responses(interface) def run(self): self.blockchain.init() while self.is_running(): self.maintain_sockets() self.wait_on_sockets() self.handle_bc_requests() self.run_jobs() # Synchronizer and Verifier self.process_pending_sends() self.stop_network() self.print_error("stopped") def on_header(self, i, header): height = header.get('block_height') if not height: return self.heights[i.server] = height self.merkle_roots[i.server] = header.get('merkle_root') self.utxo_roots[i.server] = header.get('utxo_root') # Queue this interface's height for asynchronous catch-up self.bc_requests.append((i, {'if_height': height})) if i == self.interface: self.switch_lagging_interface() self.notify('updated') def get_header(self, tx_height): return self.blockchain.read_header(tx_height) def get_local_height(self): return self.blockchain.height() def synchronous_get(self, request, timeout=100000000): queue = Queue.Queue() self.send([request], queue.put) r = queue.get(True, timeout) if r.get('error'): raise BaseException(r.get('error')) return r.get('result')