""" This module contains classes and functions to implement and manage a node for Tahoe-LAFS. """ import datetime import os.path import re import types import errno import ConfigParser import tempfile from io import BytesIO from base64 import b32decode, b32encode from twisted.internet import reactor from twisted.python import log as twlog from twisted.application import service from twisted.python.failure import Failure from foolscap.api import Tub, app_versions import foolscap.logging.log from allmydata import get_package_versions, get_package_versions_string from allmydata.util import log from allmydata.util import fileutil, iputil from allmydata.util.assertutil import _assert from allmydata.util.fileutil import abspath_expanduser_unicode from allmydata.util.encodingutil import get_filesystem_encoding, quote_output from allmydata.util import configutil from allmydata.util import i2p_provider, tor_provider def _common_config_sections(): return { "connections": ( "tcp", ), "node": ( "log_gatherer.furl", "nickname", "reveal-ip-address", "tempdir", "timeout.disconnect", "timeout.keepalive", "tub.location", "tub.port", "web.port", "web.static", ), "i2p": ( "enabled", "i2p.configdir", "i2p.executable", "launch", "sam.port", "dest", "dest.port", "dest.private_key_file", ), "tor": ( "control.port", "enabled", "launch", "socks.port", "tor.executable", "onion", "onion.local_port", "onion.external_port", "onion.private_key_file", ), } # Add our application versions to the data that Foolscap's LogPublisher # reports. for thing, things_version in get_package_versions().iteritems(): app_versions.add_version(thing, str(things_version)) # group 1 will be addr (dotted quad string), group 3 if any will be portnum (string) ADDR_RE = re.compile("^([1-9][0-9]*\.[1-9][0-9]*\.[1-9][0-9]*\.[1-9][0-9]*)(:([1-9][0-9]*))?$") def formatTimeTahoeStyle(self, when): """ Format the given (UTC) timestamp in the way Tahoe-LAFS expects it, for example: 2007-10-12 00:26:28.566Z :param when: UTC POSIX timestamp :type when: float :returns: datetime.datetime """ d = datetime.datetime.utcfromtimestamp(when) if d.microsecond: return d.isoformat(" ")[:-3]+"Z" return d.isoformat(" ") + ".000Z" PRIV_README = """ This directory contains files which contain private data for the Tahoe node, such as private keys. On Unix-like systems, the permissions on this directory are set to disallow users other than its owner from reading the contents of the files. See the 'configuration.rst' documentation file for details.""" class _None(object): """ This class is to be used as a marker in get_config() """ pass class MissingConfigEntry(Exception): """ A required config entry was not found. """ class OldConfigError(Exception): """ An obsolete config file was found. See docs/historical/configuration.rst. """ def __str__(self): return ("Found pre-Tahoe-LAFS-v1.3 configuration file(s):\n" "%s\n" "See docs/historical/configuration.rst." % "\n".join([quote_output(fname) for fname in self.args[0]])) class OldConfigOptionError(Exception): """Indicate that outdated configuration options are being used.""" pass class UnescapedHashError(Exception): """Indicate that a configuration entry contains an unescaped '#' character.""" def __str__(self): return ("The configuration entry %s contained an unescaped '#' character." % quote_output("[%s]%s = %s" % self.args)) class PrivacyError(Exception): """reveal-IP-address = false, but the node is configured in such a way that the IP address could be revealed""" def create_node_dir(basedir, readme_text): """ Create new new 'node directory' at 'basedir'. This includes a 'private' subdirectory. If basedir (and privdir) already exists, nothing is done. :param readme_text: text to put in /private/README """ if not os.path.exists(basedir): fileutil.make_dirs(basedir) privdir = os.path.join(basedir, "private") if not os.path.exists(privdir): fileutil.make_dirs(privdir, 0o700) with open(os.path.join(privdir, 'README'), 'w') as f: f.write(readme_text) def read_config(basedir, portnumfile, generated_files=[], _valid_config_sections=None): """ Read and validate configuration. :param unicode basedir: directory where configuration data begins :param unicode portnumfile: filename fragment for "port number" files :param list generated_files: a list of automatically-generated configuration files. :param dict _valid_config_sections: (internal use, optional) a dict-of-dicts structure defining valid configuration sections and keys :returns: :class:`allmydata.node._Config` instance """ basedir = abspath_expanduser_unicode(unicode(basedir)) if _valid_config_sections is None: _valid_config_sections = _common_config_sections # complain if there's bad stuff in the config dir _error_about_old_config_files(basedir, generated_files) # canonicalize the portnum file portnumfile = os.path.join(basedir, portnumfile) # (try to) read the main config file config_fname = os.path.join(basedir, "tahoe.cfg") parser = ConfigParser.SafeConfigParser() try: parser = configutil.get_config(config_fname) except EnvironmentError as e: if e.errno != errno.ENOENT: raise configutil.validate_config(config_fname, parser, _valid_config_sections()) # make sure we have a private configuration area fileutil.make_dirs(os.path.join(basedir, "private"), 0o700) return _Config(parser, portnumfile, basedir, config_fname) def config_from_string(config_str, portnumfile, basedir): # load configuration from in-memory string parser = ConfigParser.SafeConfigParser() parser.readfp(BytesIO(config_str)) return _Config(parser, portnumfile, basedir, '') def get_app_versions(): """ :returns: dict of versions important to Foolscap """ return dict(app_versions.versions) def _error_about_old_config_files(basedir, generated_files): """ If any old configuration files are detected, raise OldConfigError. """ oldfnames = set() old_names = [ 'nickname', 'webport', 'keepalive_timeout', 'log_gatherer.furl', 'disconnect_timeout', 'advertised_ip_addresses', 'introducer.furl', 'helper.furl', 'key_generator.furl', 'stats_gatherer.furl', 'no_storage', 'readonly_storage', 'sizelimit', 'debug_discard_storage', 'run_helper' ] for fn in generated_files: old_names.remove(fn) for name in old_names: fullfname = os.path.join(basedir, name) if os.path.exists(fullfname): oldfnames.add(fullfname) if oldfnames: e = OldConfigError(oldfnames) twlog.msg(e) raise e class _Config(object): """ Manages configuration of a Tahoe 'node directory'. Note: all this code and functionality was formerly in the Node class; names and funtionality have been kept the same while moving the code. It probably makes sense for several of these APIs to have better names. """ def __init__(self, configparser, portnum_fname, basedir, config_fname): """ :param configparser: a ConfigParser instance :param portnum_fname: filename to use for the port-number file (a relative path inside basedir) :param basedir: path to our "node directory", inside which all configuration is managed :param config_fname: the pathname actually used to create the configparser (might be 'fake' if using in-memory data) """ self.portnum_fname = portnum_fname self._basedir = abspath_expanduser_unicode(unicode(basedir)) self._config_fname = config_fname self.config = configparser nickname_utf8 = self.get_config("node", "nickname", "") self.nickname = nickname_utf8.decode("utf-8") assert type(self.nickname) is unicode def validate(self, valid_config_sections): configutil.validate_config(self._config_fname, self.config, valid_config_sections) def write_config_file(self, name, value, mode="w"): """ writes the given 'value' into a file called 'name' in the config directory """ fn = os.path.join(self._basedir, name) try: fileutil.write(fn, value, mode) except EnvironmentError: log.err( Failure(), "Unable to write config file '{}'".format(fn), ) def get_config(self, section, option, default=_None, boolean=False): try: if boolean: return self.config.getboolean(section, option) item = self.config.get(section, option) if option.endswith(".furl") and self._contains_unescaped_hash(item): raise UnescapedHashError(section, option, item) return item except (ConfigParser.NoOptionError, ConfigParser.NoSectionError): if default is _None: raise MissingConfigEntry( "{} is missing the [{}]{} entry".format( quote_output(self._config_fname), section, option, ) ) return default def get_config_from_file(self, name, required=False): """Get the (string) contents of a config file, or None if the file did not exist. If required=True, raise an exception rather than returning None. Any leading or trailing whitespace will be stripped from the data.""" fn = os.path.join(self._basedir, name) try: return fileutil.read(fn).strip() except EnvironmentError as e: if e.errno != errno.ENOENT: raise # we only care about "file doesn't exist" if not required: return None raise def get_or_create_private_config(self, name, default=_None): """Try to get the (string) contents of a private config file (which is a config file that resides within the subdirectory named 'private'), and return it. Any leading or trailing whitespace will be stripped from the data. If the file does not exist, and default is not given, report an error. If the file does not exist and a default is specified, try to create it using that default, and then return the value that was written. If 'default' is a string, use it as a default value. If not, treat it as a zero-argument callable that is expected to return a string. """ privname = os.path.join(self._basedir, "private", name) try: value = fileutil.read(privname) except EnvironmentError as e: if e.errno != errno.ENOENT: raise # we only care about "file doesn't exist" if default is _None: raise MissingConfigEntry("The required configuration file %s is missing." % (quote_output(privname),)) if isinstance(default, basestring): value = default else: value = default() fileutil.write(privname, value) return value.strip() def write_private_config(self, name, value): """Write the (string) contents of a private config file (which is a config file that resides within the subdirectory named 'private'), and return it. """ privname = os.path.join(self._basedir, "private", name) with open(privname, "w") as f: f.write(value) def get_private_config(self, name, default=_None): """Read the (string) contents of a private config file (which is a config file that resides within the subdirectory named 'private'), and return it. Return a default, or raise an error if one was not given. """ privname = os.path.join(self._basedir, "private", name) try: return fileutil.read(privname).strip() except EnvironmentError as e: if e.errno != errno.ENOENT: raise # we only care about "file doesn't exist" if default is _None: raise MissingConfigEntry("The required configuration file %s is missing." % (quote_output(privname),)) return default def get_private_path(self, *args): """ returns an absolute path inside the 'private' directory with any extra args join()-ed """ return os.path.join(self._basedir, "private", *args) def get_config_path(self, *args): """ returns an absolute path inside the config directory with any extra args join()-ed """ # note: we re-expand here (_basedir already went through this # expanduser function) in case the path we're being asked for # has embedded ".."'s in it return abspath_expanduser_unicode( os.path.join(self._basedir, *args) ) @staticmethod def _contains_unescaped_hash(item): characters = iter(item) for c in characters: if c == '\\': characters.next() elif c == '#': return True return False class Node(service.MultiService): """ This class implements common functionality of both Client nodes and Introducer nodes. """ NODETYPE = "unknown NODETYPE" CERTFILE = "node.pem" GENERATED_FILES = [] def __init__(self, config): """ Initialize the node with the given configuration. Its base directory is the current directory by default. """ service.MultiService.__init__(self) self.config = config self.get_config = config.get_config # XXX stopgap self.nickname = config.nickname # XXX stopgap self.init_tempdir() self.check_privacy() self.create_log_tub() self.logSource = "Node" self.setup_logging() self.create_i2p_provider() self.create_tor_provider() self.init_connections() self.set_tub_options() self.create_main_tub() self.create_control_tub() self.log("Node constructed. " + get_package_versions_string()) iputil.increase_rlimits() def init_tempdir(self): """ Initialize/create a directory for temporary files. """ tempdir_config = self.config.get_config("node", "tempdir", "tmp").decode('utf-8') tempdir = self.config.get_config_path(tempdir_config) if not os.path.exists(tempdir): fileutil.make_dirs(tempdir) tempfile.tempdir = tempdir # this should cause twisted.web.http (which uses # tempfile.TemporaryFile) to put large request bodies in the given # directory. Without this, the default temp dir is usually /tmp/, # which is frequently too small. temp_fd, test_name = tempfile.mkstemp() _assert(os.path.dirname(test_name) == tempdir, test_name, tempdir) os.close(temp_fd) # avoid leak of unneeded fd def check_privacy(self): self._reveal_ip = self.config.get_config("node", "reveal-IP-address", True, boolean=True) def create_i2p_provider(self): self._i2p_provider = i2p_provider.Provider(self.config, reactor) self._i2p_provider.check_dest_config() self._i2p_provider.setServiceParent(self) def create_tor_provider(self): self._tor_provider = tor_provider.Provider(self.config, reactor) self._tor_provider.check_onion_config() self._tor_provider.setServiceParent(self) def _make_tcp_handler(self): # this is always available from foolscap.connections.tcp import default return default() def _make_tor_handler(self): return self._tor_provider.get_tor_handler() def _make_i2p_handler(self): return self._i2p_provider.get_i2p_handler() def init_connections(self): # We store handlers for everything. None means we were unable to # create that handler, so hints which want it will be ignored. handlers = self._foolscap_connection_handlers = { "tcp": self._make_tcp_handler(), "tor": self._make_tor_handler(), "i2p": self._make_i2p_handler(), } self.log(format="built Foolscap connection handlers for: %(known_handlers)s", known_handlers=sorted([k for k, v in handlers.items() if v]), facility="tahoe.node", umid="PuLh8g") # then we remember the default mappings from tahoe.cfg self._default_connection_handlers = {"tor": "tor", "i2p": "i2p"} tcp_handler_name = self.config.get_config("connections", "tcp", "tcp").lower() if tcp_handler_name == "disabled": self._default_connection_handlers["tcp"] = None else: if tcp_handler_name not in handlers: raise ValueError("'tahoe.cfg [connections] tcp='" " uses unknown handler type '%s'" % tcp_handler_name) if not handlers[tcp_handler_name]: raise ValueError("'tahoe.cfg [connections] tcp=' uses " "unavailable/unimportable handler type '%s'. " "Please pip install tahoe-lafs[%s] to fix." % (tcp_handler_name, tcp_handler_name)) self._default_connection_handlers["tcp"] = tcp_handler_name if not self._reveal_ip: if self._default_connection_handlers.get("tcp") == "tcp": raise PrivacyError("tcp = tcp, must be set to 'tor' or 'disabled'") def set_tub_options(self): self.tub_options = { "logLocalFailures": True, "logRemoteFailures": True, "expose-remote-exception-types": False, "accept-gifts": False, } # see #521 for a discussion of how to pick these timeout values. keepalive_timeout_s = self.config.get_config("node", "timeout.keepalive", "") if keepalive_timeout_s: self.tub_options["keepaliveTimeout"] = int(keepalive_timeout_s) disconnect_timeout_s = self.config.get_config("node", "timeout.disconnect", "") if disconnect_timeout_s: # N.B.: this is in seconds, so use "1800" to get 30min self.tub_options["disconnectTimeout"] = int(disconnect_timeout_s) def _create_tub(self, handler_overrides={}, **kwargs): # Create a Tub with the right options and handlers. It will be # ephemeral unless the caller provides certFile= tub = Tub(**kwargs) for (name, value) in self.tub_options.items(): tub.setOption(name, value) handlers = self._default_connection_handlers.copy() handlers.update(handler_overrides) tub.removeAllConnectionHintHandlers() for hint_type, handler_name in handlers.items(): handler = self._foolscap_connection_handlers.get(handler_name) if handler: tub.addConnectionHintHandler(hint_type, handler) return tub def _convert_tub_port(self, s): if re.search(r'^\d+$', s): return "tcp:%d" % int(s) return s def get_tub_portlocation(self, cfg_tubport, cfg_location): # return None, or tuple of (port, location) tubport_disabled = False if cfg_tubport is not None: cfg_tubport = cfg_tubport.strip() if cfg_tubport == "": raise ValueError("tub.port must not be empty") if cfg_tubport == "disabled": tubport_disabled = True location_disabled = False if cfg_location is not None: cfg_location = cfg_location.strip() if cfg_location == "": raise ValueError("tub.location must not be empty") if cfg_location == "disabled": location_disabled = True if tubport_disabled and location_disabled: return None if tubport_disabled and not location_disabled: raise ValueError("tub.port is disabled, but not tub.location") if location_disabled and not tubport_disabled: raise ValueError("tub.location is disabled, but not tub.port") if cfg_tubport is None: # For 'tub.port', tahoe.cfg overrides the individual file on # disk. So only read self._portnumfile if tahoe.cfg doesn't # provide a value. if os.path.exists(self.config.portnum_fname): file_tubport = fileutil.read(self.config.portnum_fname).strip() tubport = self._convert_tub_port(file_tubport) else: tubport = "tcp:%d" % iputil.allocate_tcp_port() fileutil.write_atomically(self.config.portnum_fname, tubport + "\n", mode="") else: tubport = self._convert_tub_port(cfg_tubport) if cfg_location is None: cfg_location = "AUTO" local_portnum = None # needed to hush lgtm.com static analyzer # Replace the location "AUTO", if present, with the detected local # addresses. Don't probe for local addresses unless necessary. split_location = cfg_location.split(",") if "AUTO" in split_location: if not self._reveal_ip: raise PrivacyError("tub.location uses AUTO") local_addresses = iputil.get_local_addresses_sync() # tubport must be like "tcp:12345" or "tcp:12345:morestuff" local_portnum = int(tubport.split(":")[1]) new_locations = [] for loc in split_location: if loc == "AUTO": new_locations.extend(["tcp:%s:%d" % (ip, local_portnum) for ip in local_addresses]) else: if not self._reveal_ip: # Legacy hints are "host:port". We use Foolscap's utility # function to convert all hints into the modern format # ("tcp:host:port") because that's what the receiving # client will probably do. We test the converted hint for # TCP-ness, but publish the original hint because that # was the user's intent. from foolscap.connections.tcp import convert_legacy_hint converted_hint = convert_legacy_hint(loc) hint_type = converted_hint.split(":")[0] if hint_type == "tcp": raise PrivacyError("tub.location includes tcp: hint") new_locations.append(loc) location = ",".join(new_locations) return tubport, location def create_main_tub(self): certfile = self.config.get_private_path(self.CERTFILE) self.tub = self._create_tub(certFile=certfile) self.nodeid = b32decode(self.tub.tubID.upper()) # binary format self.config.write_config_file("my_nodeid", b32encode(self.nodeid).lower() + "\n") self.short_nodeid = b32encode(self.nodeid).lower()[:8] # for printing cfg_tubport = self.config.get_config("node", "tub.port", None) cfg_location = self.config.get_config("node", "tub.location", None) portlocation = self.get_tub_portlocation(cfg_tubport, cfg_location) if portlocation: tubport, location = portlocation for port in tubport.split(","): if port in ("0", "tcp:0"): raise ValueError("tub.port cannot be 0: you must choose") if port == "listen:i2p": # the I2P provider will read its section of tahoe.cfg and # return either a fully-formed Endpoint, or a descriptor # that will create one, so we don't have to stuff all the # options into the tub.port string (which would need a lot # of escaping) port_or_endpoint = self._i2p_provider.get_listener() elif port == "listen:tor": port_or_endpoint = self._tor_provider.get_listener() else: port_or_endpoint = port self.tub.listenOn(port_or_endpoint) self.tub.setLocation(location) self._tub_is_listening = True self.log("Tub location set to %s" % (location,)) # the Tub is now ready for tub.registerReference() else: self._tub_is_listening = False self.log("Tub is not listening") self.tub.setServiceParent(self) def create_control_tub(self): # the control port uses a localhost-only ephemeral Tub, with no # control over the listening port or location self.control_tub = Tub() portnum = iputil.allocate_tcp_port() port = "tcp:%d:interface=127.0.0.1" % portnum location = "tcp:127.0.0.1:%d" % portnum self.control_tub.listenOn(port) self.control_tub.setLocation(location) self.log("Control Tub location set to %s" % (location,)) self.control_tub.setServiceParent(self) def create_log_tub(self): # The logport uses a localhost-only ephemeral Tub, with no control # over the listening port or location. This might change if we # discover a compelling reason for it in the future (e.g. being able # to use "flogtool tail" against a remote server), but for now I # think we can live without it. self.log_tub = Tub() portnum = iputil.allocate_tcp_port() port = "tcp:%d:interface=127.0.0.1" % portnum location = "tcp:127.0.0.1:%d" % portnum self.log_tub.listenOn(port) self.log_tub.setLocation(location) self.log("Log Tub location set to %s" % (location,)) self.log_tub.setServiceParent(self) def startService(self): # Note: this class can be started and stopped at most once. self.log("Node.startService") # Record the process id in the twisted log, after startService() # (__init__ is called before fork(), but startService is called # after). Note that Foolscap logs handle pid-logging by itself, no # need to send a pid to the foolscap log here. twlog.msg("My pid: %s" % os.getpid()) try: os.chmod("twistd.pid", 0644) except EnvironmentError: pass service.MultiService.startService(self) self.log("%s running" % self.NODETYPE) twlog.msg("%s running" % self.NODETYPE) def stopService(self): self.log("Node.stopService") return service.MultiService.stopService(self) def shutdown(self): """Shut down the node. Returns a Deferred that fires (with None) when it finally stops kicking.""" self.log("Node.shutdown") return self.stopService() def setup_logging(self): # we replace the formatTime() method of the log observer that # twistd set up for us, with a method that uses our preferred # timestamp format. for o in twlog.theLogPublisher.observers: # o might be a FileLogObserver's .emit method if type(o) is type(self.setup_logging): # bound method ob = o.im_self if isinstance(ob, twlog.FileLogObserver): newmeth = types.UnboundMethodType(formatTimeTahoeStyle, ob, ob.__class__) ob.formatTime = newmeth # TODO: twisted >2.5.0 offers maxRotatedFiles=50 lgfurl_file = self.config.get_private_path("logport.furl").encode(get_filesystem_encoding()) if os.path.exists(lgfurl_file): os.remove(lgfurl_file) self.log_tub.setOption("logport-furlfile", lgfurl_file) lgfurl = self.config.get_config("node", "log_gatherer.furl", "") if lgfurl: # this is in addition to the contents of log-gatherer-furlfile self.log_tub.setOption("log-gatherer-furl", lgfurl) self.log_tub.setOption("log-gatherer-furlfile", self.config.get_config_path("log_gatherer.furl")) incident_dir = self.config.get_config_path("logs", "incidents") foolscap.logging.log.setLogDir(incident_dir.encode(get_filesystem_encoding())) twlog.msg("Foolscap logging initialized") twlog.msg("Note to developers: twistd.log does not receive very much.") twlog.msg("Use 'flogtool tail -c NODEDIR/private/logport.furl' instead") twlog.msg("and read docs/logging.rst") def log(self, *args, **kwargs): return log.msg(*args, **kwargs) def add_service(self, s): s.setServiceParent(self) return s