def test_MarketListeners_broadcast_notify_success(self):
     '''BroadcastListenerImpl correctly notifies.'''
     b = BroadcastListenerImpl(self.ws, self.db)
     b.notify('123', 'test_message')
     self.db.broadcasts.save_broadcast.assert_called_once_with(
         mock.ANY, '313233', '', 'test_message', mock.ANY, '')
     self.ws.push.assert_called_once_with(mock.ANY)
Exemplo n.º 2
0
 def test_MarketListeners_broadcast_notify_success(self):
     '''BroadcastListenerImpl correctly notifies.'''
     b = BroadcastListenerImpl(self.ws, self.db)
     b.notify('123', 'test_message')
     self.db.broadcasts.save_broadcast.assert_called_once_with(mock.ANY,
                                                               '313233', '',
                                                               'test_message',
                                                               mock.ANY, '')
     self.ws.push.assert_called_once_with(mock.ANY)
    def start_server(keys, first_startup=False):
        # logging
        logFile = logfile.LogFile.fromFullPath(os.path.join(
            DATA_FOLDER, "debug.log"),
                                               rotateLength=15000000,
                                               maxRotatedFiles=1)
        log.addObserver(FileLogObserver(logFile, level=LOGLEVEL).emit)
        log.addObserver(FileLogObserver(level=LOGLEVEL).emit)
        logger = Logger(system="OpenBazaard")

        # NAT traversal
        p = PortMapper()
        p.add_port_mapping(PORT, PORT, "UDP")
        logger.info("Finding NAT Type...")

        response = looping_retry(stun.get_ip_info, "0.0.0.0", PORT)

        logger.info("%s on %s:%s" % (response[0], response[1], response[2]))
        ip_address = response[1]
        port = response[2]

        if response[0] == "Full Cone":
            nat_type = FULL_CONE
        elif response[0] == "Restric NAT":
            nat_type = RESTRICTED
        else:
            nat_type = SYMMETRIC

        def on_bootstrap_complete(resp):
            logger.info("bootstrap complete")
            task.LoopingCall(mserver.get_messages, mlistener).start(3600)
            task.LoopingCall(check_unfunded_for_payment, db, libbitcoin_client,
                             nlistener, TESTNET).start(600)
            task.LoopingCall(rebroadcast_unconfirmed, db, libbitcoin_client,
                             TESTNET).start(600)

        protocol = OpenBazaarProtocol(
            db, (ip_address, port),
            nat_type,
            testnet=TESTNET,
            relaying=True if nat_type == FULL_CONE else False)

        # kademlia
        SEED_URLS = SEEDS_TESTNET if TESTNET else SEEDS
        relay_node = None
        if nat_type != FULL_CONE:
            for seed in SEED_URLS:
                try:
                    relay_node = (socket.gethostbyname(seed[0].split(":")[0]),
                                  28469 if TESTNET else 18469)
                    break
                except socket.gaierror:
                    pass

        try:
            kserver = Server.loadState(
                os.path.join(DATA_FOLDER,
                             'cache.pickle'), ip_address, port, protocol, db,
                nat_type, relay_node, on_bootstrap_complete, storage)
        except Exception:
            node = Node(keys.guid, ip_address, port, keys.verify_key.encode(),
                        relay_node, nat_type,
                        Profile(db).get().vendor)
            protocol.relay_node = node.relay_node
            kserver = Server(node,
                             db,
                             keys.signing_key,
                             KSIZE,
                             ALPHA,
                             storage=storage)
            kserver.protocol.connect_multiplexer(protocol)
            kserver.bootstrap(kserver.querySeed(SEED_URLS)).addCallback(
                on_bootstrap_complete)
        kserver.saveStateRegularly(os.path.join(DATA_FOLDER, 'cache.pickle'),
                                   10)
        protocol.register_processor(kserver.protocol)

        # market
        mserver = network.Server(kserver, keys.signing_key, db)
        mserver.protocol.connect_multiplexer(protocol)
        protocol.register_processor(mserver.protocol)

        looping_retry(reactor.listenUDP, port, protocol)

        interface = "0.0.0.0" if ALLOWIP != ["127.0.0.1"] else "127.0.0.1"

        # websockets api
        authenticated_sessions = []
        ws_api = WSFactory(mserver, kserver, only_ip=ALLOWIP)
        ws_factory = AuthenticatedWebSocketFactory(ws_api)
        ws_factory.authenticated_sessions = authenticated_sessions
        ws_factory.protocol = AuthenticatedWebSocketProtocol
        if SSL:
            reactor.listenSSL(WSPORT,
                              ws_factory,
                              ChainedOpenSSLContextFactory(SSL_KEY, SSL_CERT),
                              interface=interface)
        else:
            reactor.listenTCP(WSPORT, ws_factory, interface=interface)

        # rest api
        rest_api = RestAPI(mserver,
                           kserver,
                           protocol,
                           username,
                           password,
                           authenticated_sessions,
                           only_ip=ALLOWIP)
        if SSL:
            reactor.listenSSL(RESTPORT,
                              rest_api,
                              ChainedOpenSSLContextFactory(SSL_KEY, SSL_CERT),
                              interface=interface)
        else:
            reactor.listenTCP(RESTPORT, rest_api, interface=interface)

        # blockchain
        if TESTNET:
            libbitcoin_client = LibbitcoinClient(
                LIBBITCOIN_SERVERS_TESTNET,
                log=Logger(service="LibbitcoinClient"))
        else:
            libbitcoin_client = LibbitcoinClient(
                LIBBITCOIN_SERVERS, log=Logger(service="LibbitcoinClient"))
        heartbeat_server.libbitcoin = libbitcoin_client

        # listeners
        nlistener = NotificationListenerImpl(ws_api, db)
        mserver.protocol.add_listener(nlistener)
        mlistener = MessageListenerImpl(ws_api, db)
        mserver.protocol.add_listener(mlistener)
        blistener = BroadcastListenerImpl(ws_api, db)
        mserver.protocol.add_listener(blistener)

        protocol.set_servers(ws_api, libbitcoin_client)

        if first_startup:
            heartbeat_server.push(
                json.dumps({
                    "status": "GUID generation complete",
                    "username": username,
                    "password": password
                }))

        heartbeat_server.set_status("online")

        logger.info("startup took %s seconds" %
                    str(round(time.time() - args[7], 2)))

        def shutdown():
            logger.info("shutting down server")
            for vendor in protocol.vendors.values():
                db.vendors.save_vendor(vendor.id.encode("hex"),
                                       vendor.getProto().SerializeToString())
            PortMapper().clean_my_mappings(PORT)
            protocol.shutdown()

        reactor.addSystemEventTrigger('before', 'shutdown', shutdown)
Exemplo n.º 4
0
def run(*args):
    TESTNET = args[0]
    LOGLEVEL = args[1]
    PORT = args[2]
    ALLOWIP = args[3]
    SSL = args[4]
    RESTPORT = args[5]
    WSPORT = args[6]

    # database
    db = Database(TESTNET)

    # key generation
    keys = KeyChain(db)

    # logging
    logFile = logfile.LogFile.fromFullPath(DATA_FOLDER + "debug.log",
                                           rotateLength=15000000,
                                           maxRotatedFiles=1)
    log.addObserver(FileLogObserver(logFile, level=LOGLEVEL).emit)
    log.addObserver(FileLogObserver(level=LOGLEVEL).emit)
    logger = Logger(system="OpenBazaard")

    # NAT traversal
    p = PortMapper()
    p.add_port_mapping(PORT, PORT, "UDP")
    logger.info("Finding NAT Type...")

    response = looping_retry(stun.get_ip_info, "0.0.0.0", PORT)

    logger.info("%s on %s:%s" % (response[0], response[1], response[2]))
    ip_address = response[1]
    port = response[2]

    if response[0] == "Full Cone":
        nat_type = FULL_CONE
    elif response[0] == "Restric NAT":
        nat_type = RESTRICTED
    else:
        nat_type = SYMMETRIC

    def on_bootstrap_complete(resp):
        logger.info("bootstrap complete")
        mserver.get_messages(mlistener)
        task.LoopingCall(check_unfunded_for_payment, db, libbitcoin_client,
                         nlistener, TESTNET).start(600)

    protocol = OpenBazaarProtocol(
        (ip_address, port),
        nat_type,
        testnet=TESTNET,
        relaying=True if nat_type == FULL_CONE else False)

    # kademlia
    storage = ForgetfulStorage() if TESTNET else PersistentStorage(
        db.get_database_path())
    relay_node = None
    if nat_type != FULL_CONE:
        for seed in SEEDS:
            try:
                relay_node = (socket.gethostbyname(seed[0].split(":")[0]),
                              28469 if TESTNET else 18469)
                break
            except socket.gaierror:
                pass

    try:
        kserver = Server.loadState(DATA_FOLDER + 'cache.pickle', ip_address,
                                   port, protocol, db, nat_type, relay_node,
                                   on_bootstrap_complete, storage)
    except Exception:
        node = Node(keys.guid, ip_address, port, keys.verify_key.encode(),
                    relay_node, nat_type,
                    Profile(db).get().vendor)
        protocol.relay_node = node.relay_node
        kserver = Server(node,
                         db,
                         keys.signing_key,
                         KSIZE,
                         ALPHA,
                         storage=storage)
        kserver.protocol.connect_multiplexer(protocol)
        kserver.bootstrap(
            kserver.querySeed(SEEDS)).addCallback(on_bootstrap_complete)
    kserver.saveStateRegularly(DATA_FOLDER + 'cache.pickle', 10)
    protocol.register_processor(kserver.protocol)

    # market
    mserver = network.Server(kserver, keys.signing_key, db)
    mserver.protocol.connect_multiplexer(protocol)
    protocol.register_processor(mserver.protocol)

    looping_retry(reactor.listenUDP, port, protocol)

    interface = "0.0.0.0" if ALLOWIP not in ("127.0.0.1",
                                             "0.0.0.0") else ALLOWIP

    # websockets api
    ws_api = WSFactory(mserver, kserver, only_ip=ALLOWIP)
    if SSL:
        reactor.listenSSL(WSPORT,
                          WebSocketFactory(ws_api),
                          ChainedOpenSSLContextFactory(SSL_KEY, SSL_CERT),
                          interface=interface)
    else:
        reactor.listenTCP(WSPORT,
                          WebSocketFactory(ws_api),
                          interface=interface)

    # rest api
    rest_api = RestAPI(mserver, kserver, protocol, only_ip=ALLOWIP)
    if SSL:
        reactor.listenSSL(RESTPORT,
                          rest_api,
                          ChainedOpenSSLContextFactory(SSL_KEY, SSL_CERT),
                          interface=interface)
    else:
        reactor.listenTCP(RESTPORT, rest_api, interface=interface)

    # blockchain
    if TESTNET:
        libbitcoin_client = LibbitcoinClient(
            LIBBITCOIN_SERVER_TESTNET, log=Logger(service="LibbitcoinClient"))
    else:
        libbitcoin_client = LibbitcoinClient(
            LIBBITCOIN_SERVER, log=Logger(service="LibbitcoinClient"))

    # listeners
    nlistener = NotificationListenerImpl(ws_api, db)
    mserver.protocol.add_listener(nlistener)
    mlistener = MessageListenerImpl(ws_api, db)
    mserver.protocol.add_listener(mlistener)
    blistener = BroadcastListenerImpl(ws_api, db)
    mserver.protocol.add_listener(blistener)

    protocol.set_servers(ws_api, libbitcoin_client)

    logger.info("Startup took %s seconds" %
                str(round(time.time() - args[7], 2)))

    reactor.run()
Exemplo n.º 5
0
def run(*args):
    TESTNET = args[0]
    LOGLEVEL = args[1]
    PORT = args[2]
    ALLOWIP = args[3]
    SSL = args[4]
    RESTPORT = args[5]
    WSPORT = args[6]

    # database
    db = Database(TESTNET)

    # key generation
    keys = KeyChain(db)

    # logging
    logFile = logfile.LogFile.fromFullPath(DATA_FOLDER + "debug.log", rotateLength=15000000, maxRotatedFiles=1)
    log.addObserver(FileLogObserver(logFile, level=LOGLEVEL).emit)
    log.addObserver(FileLogObserver(level=LOGLEVEL).emit)
    logger = Logger(system="OpenBazaard")

    # NAT traversal
    p = PortMapper()
    threading.Thread(target=p.add_port_mapping, args=(PORT, PORT, "UDP")).start()
    logger.info("Finding NAT Type...")
    while True:
        # sometimes the stun server returns a code the client
        # doesn't understand so we have to try again
        try:
            response = stun.get_ip_info(source_port=PORT)
            break
        except Exception:
            pass
    logger.info("%s on %s:%s" % (response[0], response[1], response[2]))
    nat_type = response[0]
    ip_address = response[1]
    port = response[2]

    # TODO: use TURN if symmetric NAT

    def on_bootstrap_complete(resp):
        logger.info("bootstrap complete")
        mserver.get_messages(mlistener)
        task.LoopingCall(check_unfunded_for_payment, db, libbitcoin_client, nlistener, TESTNET).start(600)

    protocol = OpenBazaarProtocol((ip_address, port), response[0], testnet=TESTNET)

    # kademlia
    node = Node(keys.guid, ip_address, port, signed_pubkey=keys.guid_signed_pubkey, vendor=Profile(db).get().vendor)

    storage = ForgetfulStorage() if TESTNET else PersistentStorage(db.DATABASE)

    try:
        kserver = Server.loadState(DATA_FOLDER + 'cache.pickle', ip_address, port, protocol, db,
                                   on_bootstrap_complete, storage=storage)
    except Exception:
        kserver = Server(node, db, KSIZE, ALPHA, storage=storage)
        kserver.protocol.connect_multiplexer(protocol)
        kserver.bootstrap(kserver.querySeed(SEED)).addCallback(on_bootstrap_complete)
    kserver.saveStateRegularly(DATA_FOLDER + 'cache.pickle', 10)
    protocol.register_processor(kserver.protocol)

    if nat_type != "Full Cone":
        kserver.protocol.ping(SEED_NODE_TESTNET if TESTNET else SEED_NODE)

    # market
    mserver = network.Server(kserver, keys.signing_key, db)
    mserver.protocol.connect_multiplexer(protocol)
    protocol.register_processor(mserver.protocol)

    reactor.listenUDP(port, protocol)

    class OnlyIP(Site):
        def __init__(self, resource, ip, timeout=60 * 60 * 1):
            self.ip = ip
            Site.__init__(self, resource, timeout=timeout)

        def buildProtocol(self, addr):
            if addr.host == self.ip:
                return Site.buildProtocol(self, addr)
            return None

    # websockets api
    if SSL:
        ws_factory = WSFactory("wss://127.0.0.1:" + str(WSPORT), mserver, kserver, only_ip=ALLOWIP)
        contextFactory = ChainedOpenSSLContextFactory(SSL_KEY, SSL_CERT)
        ws_factory.protocol = WSProtocol
        listenWS(ws_factory, contextFactory)
    else:
        ws_factory = WSFactory("ws://127.0.0.1:" + str(WSPORT), mserver, kserver, only_ip=ALLOWIP)
        ws_factory.protocol = WSProtocol
        listenWS(ws_factory)

    if ALLOWIP != "127.0.0.1" and ALLOWIP != "0.0.0.0":
        ws_interface = "0.0.0.0"
    else:
        ws_interface = ALLOWIP
    webdir = File(".")
    web = Site(webdir)

    reactor.listenTCP(WSPORT - 1, web, interface=ws_interface)

    # rest api
    api = OpenBazaarAPI(mserver, kserver, protocol)
    if ALLOWIP != "127.0.0.1" and ALLOWIP != "0.0.0.0":
        rest_interface = "0.0.0.0"
        site = OnlyIP(api, ALLOWIP, timeout=None)
    else:
        rest_interface = ALLOWIP
        site = Site(api, timeout=None)
    if SSL:
        reactor.listenSSL(RESTPORT, site, ChainedOpenSSLContextFactory(SSL_KEY, SSL_CERT), interface=rest_interface)
    else:
        reactor.listenTCP(RESTPORT, site, interface=rest_interface)

    # blockchain
    if TESTNET:
        libbitcoin_client = LibbitcoinClient(LIBBITCOIN_SERVER_TESTNET, log=Logger(service="LibbitcoinClient"))
    else:
        libbitcoin_client = LibbitcoinClient(LIBBITCOIN_SERVER, log=Logger(service="LibbitcoinClient"))

    # listeners
    nlistener = NotificationListenerImpl(ws_factory, db)
    mserver.protocol.add_listener(nlistener)
    mlistener = MessageListenerImpl(ws_factory, db)
    mserver.protocol.add_listener(mlistener)
    blistener = BroadcastListenerImpl(ws_factory, db)
    mserver.protocol.add_listener(blistener)

    protocol.set_servers(ws_factory, libbitcoin_client)

    logger.info("Startup took %s seconds" % str(round(time.time() - args[7], 2)))

    reactor.run()