# # Copyright 2010 United States Government as represented by the # Administrator of the National Aeronautics and Space Administration. # Copyright 2013 IBM Corp. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """ Utility methods for working with WSGI servers """ import errno import json import logging import os import signal import sys import time import eventlet from eventlet.green import socket from eventlet.green import ssl import eventlet.greenio import eventlet.wsgi from oslo.config import cfg from oslo import i18n from oslo.utils import importutils from paste import deploy import routes import routes.middleware import six import webob.dec import webob.exc from heat.api.aws import exception as aws_exception from heat.common import exception from heat.common.i18n import _ from heat.common import serializers URL_LENGTH_LIMIT = 50000 api_opts = [ cfg.StrOpt('bind_host', default='0.0.0.0', help=_('Address to bind the server. Useful when ' 'selecting a particular network interface.'), deprecated_group='DEFAULT'), cfg.IntOpt('bind_port', default=8004, help=_('The port on which the server will listen.'), deprecated_group='DEFAULT'), cfg.IntOpt('backlog', default=4096, help=_("Number of backlog requests " "to configure the socket with."), deprecated_group='DEFAULT'), cfg.StrOpt('cert_file', help=_("Location of the SSL certificate file " "to use for SSL mode."), deprecated_group='DEFAULT'), cfg.StrOpt('key_file', help=_("Location of the SSL key file to use " "for enabling SSL mode."), deprecated_group='DEFAULT'), cfg.IntOpt('workers', default=0, help=_("Number of workers for Heat service."), deprecated_group='DEFAULT'), cfg.IntOpt('max_header_line', default=16384, help=_('Maximum line size of message headers to be accepted. ' 'max_header_line may need to be increased when using ' 'large tokens (typically those generated by the ' 'Keystone v3 API with big service catalogs).')), ] api_group = cfg.OptGroup('heat_api') cfg.CONF.register_group(api_group) cfg.CONF.register_opts(api_opts, group=api_group) api_cfn_opts = [ cfg.StrOpt('bind_host', default='0.0.0.0', help=_('Address to bind the server. Useful when ' 'selecting a particular network interface.'), deprecated_group='DEFAULT'), cfg.IntOpt('bind_port', default=8000, help=_('The port on which the server will listen.'), deprecated_group='DEFAULT'), cfg.IntOpt('backlog', default=4096, help=_("Number of backlog requests " "to configure the socket with."), deprecated_group='DEFAULT'), cfg.StrOpt('cert_file', help=_("Location of the SSL certificate file " "to use for SSL mode."), deprecated_group='DEFAULT'), cfg.StrOpt('key_file', help=_("Location of the SSL key file to use " "for enabling SSL mode."), deprecated_group='DEFAULT'), cfg.IntOpt('workers', default=0, help=_("Number of workers for Heat service."), deprecated_group='DEFAULT'), cfg.IntOpt('max_header_line', default=16384, help=_('Maximum line size of message headers to be accepted. ' 'max_header_line may need to be increased when using ' 'large tokens (typically those generated by the ' 'Keystone v3 API with big service catalogs).')), ] api_cfn_group = cfg.OptGroup('heat_api_cfn') cfg.CONF.register_group(api_cfn_group) cfg.CONF.register_opts(api_cfn_opts, group=api_cfn_group) api_cw_opts = [ cfg.StrOpt('bind_host', default='0.0.0.0', help=_('Address to bind the server. Useful when ' 'selecting a particular network interface.'), deprecated_group='DEFAULT'), cfg.IntOpt('bind_port', default=8003, help=_('The port on which the server will listen.'), deprecated_group='DEFAULT'), cfg.IntOpt('backlog', default=4096, help=_("Number of backlog requests " "to configure the socket with."), deprecated_group='DEFAULT'), cfg.StrOpt('cert_file', help=_("Location of the SSL certificate file " "to use for SSL mode."), deprecated_group='DEFAULT'), cfg.StrOpt('key_file', help=_("Location of the SSL key file to use " "for enabling SSL mode."), deprecated_group='DEFAULT'), cfg.IntOpt('workers', default=0, help=_("Number of workers for Heat service."), deprecated_group='DEFAULT'), cfg.IntOpt('max_header_line', default=16384, help=_('Maximum line size of message headers to be accepted. ' 'max_header_line may need to be increased when using ' 'large tokens (typically those generated by the ' 'Keystone v3 API with big service catalogs.)')), ] api_cw_group = cfg.OptGroup('heat_api_cloudwatch') cfg.CONF.register_group(api_cw_group) cfg.CONF.register_opts(api_cw_opts, group=api_cw_group) cfg.CONF.import_opt('debug', 'heat.openstack.common.log') cfg.CONF.import_opt('verbose', 'heat.openstack.common.log') json_size_opt = cfg.IntOpt('max_json_body_size', default=1048576, help='Maximum raw byte size of JSON request body.' ' Should be larger than max_template_size.') cfg.CONF.register_opt(json_size_opt) def list_opts(): yield None, [json_size_opt] yield 'heat_api', api_opts yield 'heat_api_cfn', api_cfn_opts yield 'heat_api_cloudwatch', api_cw_opts class WritableLogger(object): """A thin wrapper that responds to `write` and logs.""" def __init__(self, LOG, level=logging.DEBUG): self.LOG = LOG self.level = level def write(self, msg): self.LOG.log(self.level, msg.strip("\n")) def get_bind_addr(conf, default_port=None): """Return the host and port to bind to.""" return (conf.bind_host, conf.bind_port or default_port) def get_socket(conf, default_port): """ Bind socket to bind ip:port in conf note: Mostly comes from Swift with a few small changes... :param conf: a cfg.ConfigOpts object :param default_port: port to bind to if none is specified in conf :returns : a socket object as returned from socket.listen or ssl.wrap_socket if conf specifies cert_file """ bind_addr = get_bind_addr(conf, default_port) # TODO(jaypipes): eventlet's greened socket module does not actually # support IPv6 in getaddrinfo(). We need to get around this in the # future or monitor upstream for a fix address_family = [addr[0] for addr in socket.getaddrinfo(bind_addr[0], bind_addr[1], socket.AF_UNSPEC, socket.SOCK_STREAM) if addr[0] in (socket.AF_INET, socket.AF_INET6)][0] cert_file = conf.cert_file key_file = conf.key_file use_ssl = cert_file or key_file if use_ssl and (not cert_file or not key_file): raise RuntimeError(_("When running server in SSL mode, you must " "specify both a cert_file and key_file " "option value in your configuration file")) sock = None retry_until = time.time() + 30 while not sock and time.time() < retry_until: try: sock = eventlet.listen(bind_addr, backlog=conf.backlog, family=address_family) if use_ssl: sock = ssl.wrap_socket(sock, certfile=cert_file, keyfile=key_file) except socket.error as err: if err.args[0] != errno.EADDRINUSE: raise eventlet.sleep(0.1) if not sock: raise RuntimeError(_("Could not bind to %(bind_addr)s" "after trying for 30 seconds") % {'bind_addr': bind_addr}) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) # in my experience, sockets can hang around forever without keepalive sock.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1) # This option isn't available in the OS X version of eventlet if hasattr(socket, 'TCP_KEEPIDLE'): sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_KEEPIDLE, 600) return sock class Server(object): """Server class to manage multiple WSGI sockets and applications.""" def __init__(self, threads=1000): self.threads = threads self.children = [] self.running = True def start(self, application, conf, default_port): """ Run a WSGI server with the given application. :param application: The application to run in the WSGI server :param conf: a cfg.ConfigOpts object :param default_port: Port to bind to if none is specified in conf """ def kill_children(*args): """Kills the entire process group.""" self.LOG.error(_('SIGTERM received')) signal.signal(signal.SIGTERM, signal.SIG_IGN) self.running = False os.killpg(0, signal.SIGTERM) def hup(*args): """ Shuts down the server(s), but allows running requests to complete """ self.LOG.error(_('SIGHUP received')) signal.signal(signal.SIGHUP, signal.SIG_IGN) os.killpg(0, signal.SIGHUP) signal.signal(signal.SIGHUP, hup) eventlet.wsgi.MAX_HEADER_LINE = conf.max_header_line self.application = application self.sock = get_socket(conf, default_port) self.LOG = logging.getLogger('eventlet.wsgi.server') if conf.workers == 0: # Useful for profiling, test, debug etc. self.pool = eventlet.GreenPool(size=self.threads) self.pool.spawn_n(self._single_run, application, self.sock) return self.LOG.info(_("Starting %d workers") % conf.workers) signal.signal(signal.SIGTERM, kill_children) signal.signal(signal.SIGHUP, hup) while len(self.children) < conf.workers: self.run_child() def wait_on_children(self): while self.running: try: pid, status = os.wait() if os.WIFEXITED(status) or os.WIFSIGNALED(status): self.LOG.error(_('Removing dead child %s') % pid) self.children.remove(pid) self.run_child() except OSError as err: if err.errno not in (errno.EINTR, errno.ECHILD): raise except KeyboardInterrupt: self.LOG.info(_('Caught keyboard interrupt. Exiting.')) os.killpg(0, signal.SIGTERM) break eventlet.greenio.shutdown_safe(self.sock) self.sock.close() self.LOG.debug('Exited') def wait(self): """Wait until all servers have completed running.""" try: if self.children: self.wait_on_children() else: self.pool.waitall() except KeyboardInterrupt: pass def run_child(self): pid = os.fork() if pid == 0: signal.signal(signal.SIGHUP, signal.SIG_DFL) signal.signal(signal.SIGTERM, signal.SIG_DFL) self.run_server() self.LOG.info(_('Child %d exiting normally') % os.getpid()) return else: self.LOG.info(_('Started child %s') % pid) self.children.append(pid) def run_server(self): """Run a WSGI server.""" eventlet.wsgi.HttpProtocol.default_request_version = "HTTP/1.0" eventlet.hubs.use_hub('poll') eventlet.patcher.monkey_patch(all=False, socket=True) self.pool = eventlet.GreenPool(size=self.threads) try: eventlet.wsgi.server(self.sock, self.application, custom_pool=self.pool, url_length_limit=URL_LENGTH_LIMIT, log=WritableLogger(self.LOG), debug=cfg.CONF.debug) except socket.error as err: if err[0] != errno.EINVAL: raise self.pool.waitall() def _single_run(self, application, sock): """Start a WSGI server in a new green thread.""" self.LOG.info(_("Starting single process server")) eventlet.wsgi.server(sock, application, custom_pool=self.pool, url_length_limit=URL_LENGTH_LIMIT, log=WritableLogger(self.LOG), debug=cfg.CONF.debug) class Middleware(object): """ Base WSGI middleware wrapper. These classes require an application to be initialized that will be called next. By default the middleware will simply call its wrapped app, or you can override __call__ to customize its behavior. """ def __init__(self, application): self.application = application def process_request(self, req): """ Called on each request. If this returns None, the next application down the stack will be executed. If it returns a response then that response will be returned and execution will stop here. """ return None def process_response(self, response): """Do whatever you'd like to the response.""" return response @webob.dec.wsgify def __call__(self, req): response = self.process_request(req) if response: return response response = req.get_response(self.application) return self.process_response(response) class Debug(Middleware): """ Helper class that can be inserted into any WSGI application chain to get information about the request and response. """ @webob.dec.wsgify def __call__(self, req): print(("*" * 40) + " REQUEST ENVIRON") for key, value in req.environ.items(): print(key, "=", value) print resp = req.get_response(self.application) print(("*" * 40) + " RESPONSE HEADERS") for (key, value) in six.iteritems(resp.headers): print(key, "=", value) print resp.app_iter = self.print_generator(resp.app_iter) return resp @staticmethod def print_generator(app_iter): """ Iterator that prints the contents of a wrapper string iterator when iterated. """ print(("*" * 40) + " BODY") for part in app_iter: sys.stdout.write(part) sys.stdout.flush() yield part print def debug_filter(app, conf, **local_conf): return Debug(app) class Router(object): """ WSGI middleware that maps incoming requests to WSGI apps. """ def __init__(self, mapper): """ Create a router for the given routes.Mapper. Each route in `mapper` must specify a 'controller', which is a WSGI app to call. You'll probably want to specify an 'action' as well and have your controller be a wsgi.Controller, who will route the request to the action method. Examples: mapper = routes.Mapper() sc = ServerController() # Explicit mapping of one route to a controller+action mapper.connect(None, "/svrlist", controller=sc, action="list") # Actions are all implicitly defined mapper.resource("server", "servers", controller=sc) # Pointing to an arbitrary WSGI app. You can specify the # {path_info:.*} parameter so the target app can be handed just that # section of the URL. mapper.connect(None, "/v1.0/{path_info:.*}", controller=BlogApp()) """ self.map = mapper self._router = routes.middleware.RoutesMiddleware(self._dispatch, self.map) @webob.dec.wsgify def __call__(self, req): """ Route the incoming request to a controller based on self.map. If no match, return a 404. """ return self._router @staticmethod @webob.dec.wsgify def _dispatch(req): """ Called by self._router after matching the incoming request to a route and putting the information into req.environ. Either returns 404 or the routed WSGI app's response. """ match = req.environ['wsgiorg.routing_args'][1] if not match: return webob.exc.HTTPNotFound() app = match['controller'] return app class Request(webob.Request): """Add some OpenStack API-specific logic to the base webob.Request.""" def best_match_content_type(self): """Determine the requested response content-type.""" supported = ('application/json',) bm = self.accept.best_match(supported) return bm or 'application/json' def get_content_type(self, allowed_content_types): """Determine content type of the request body.""" if "Content-Type" not in self.headers: raise exception.InvalidContentType(content_type=None) content_type = self.content_type if content_type not in allowed_content_types: raise exception.InvalidContentType(content_type=content_type) else: return content_type def best_match_language(self): """Determines best available locale from the Accept-Language header. :returns: the best language match or None if the 'Accept-Language' header was not available in the request. """ if not self.accept_language: return None all_languages = i18n.get_available_languages('heat') return self.accept_language.best_match(all_languages) def is_json_content_type(request): if request.method == 'GET': try: aws_content_type = request.params.get("ContentType") except Exception: aws_content_type = None #respect aws_content_type when both available content_type = aws_content_type or request.content_type else: content_type = request.content_type #bug #1887882 #for back compatible for null or plain content type if not content_type or content_type.startswith('text/plain'): content_type = 'application/json' if content_type in ('JSON', 'application/json')\ and request.body.startswith('{'): return True return False class JSONRequestDeserializer(object): def has_body(self, request): """ Returns whether a Webob.Request object will possess an entity body. :param request: Webob.Request object """ if request.content_length > 0 and is_json_content_type(request): return True return False def from_json(self, datastring): try: if len(datastring) > cfg.CONF.max_json_body_size: msg = _('JSON body size (%(len)s bytes) exceeds maximum ' 'allowed size (%(limit)s bytes).') % \ {'len': len(datastring), 'limit': cfg.CONF.max_json_body_size} raise exception.RequestLimitExceeded(message=msg) return json.loads(datastring) except ValueError as ex: raise webob.exc.HTTPBadRequest(six.text_type(ex)) def default(self, request): if self.has_body(request): return {'body': self.from_json(request.body)} else: return {} class Resource(object): """ WSGI app that handles (de)serialization and controller dispatch. Reads routing information supplied by RoutesMiddleware and calls the requested action method upon its deserializer, controller, and serializer. Those three objects may implement any of the basic controller action methods (create, update, show, index, delete) along with any that may be specified in the api router. A 'default' method may also be implemented to be used in place of any non-implemented actions. Deserializer methods must accept a request argument and return a dictionary. Controller methods must accept a request argument. Additionally, they must also accept keyword arguments that represent the keys returned by the Deserializer. They may raise a webob.exc exception or return a dict, which will be serialized by requested content type. """ def __init__(self, controller, deserializer, serializer=None): """ :param controller: object that implement methods created by routes lib :param deserializer: object that supports webob request deserialization through controller-like actions :param serializer: object that supports webob response serialization through controller-like actions """ self.controller = controller self.deserializer = deserializer self.serializer = serializer @webob.dec.wsgify(RequestClass=Request) def __call__(self, request): """WSGI method that controls (de)serialization and method dispatch.""" action_args = self.get_action_args(request.environ) action = action_args.pop('action', None) # From reading the boto code, and observation of real AWS api responses # it seems that the AWS api ignores the content-type in the html header # Instead it looks at a "ContentType" GET query parameter # This doesn't seem to be documented in the AWS cfn API spec, but it # would appear that the default response serialization is XML, as # described in the API docs, but passing a query parameter of # ContentType=JSON results in a JSON serialized response... content_type = request.params.get("ContentType") try: deserialized_request = self.dispatch(self.deserializer, action, request) action_args.update(deserialized_request) logging.debug( _('Calling %(controller)s : %(action)s'), {'controller': self.controller, 'action': action}) action_result = self.dispatch(self.controller, action, request, **action_args) except TypeError as err: logging.error(_('Exception handling resource: %s') % err) msg = _('The server could not comply with the request since ' 'it is either malformed or otherwise incorrect.') err = webob.exc.HTTPBadRequest(msg) http_exc = translate_exception(err, request.best_match_language()) # NOTE(luisg): We disguise HTTP exceptions, otherwise they will be # treated by wsgi as responses ready to be sent back and they # won't make it into the pipeline app that serializes errors raise exception.HTTPExceptionDisguise(http_exc) except webob.exc.HTTPException as err: if isinstance(err, aws_exception.HeatAPIException): # The AWS compatible API's don't use faultwrap, so # we want to detect the HeatAPIException subclasses # and raise rather than wrapping in HTTPExceptionDisguise raise if not isinstance(err, webob.exc.HTTPError): # Some HTTPException are actually not errors, they are # responses ready to be sent back to the users, so we don't # error log, disguise or translate those raise if isinstance(err, webob.exc.HTTPServerError): logging.error( _("Returning %(code)s to user: %(explanation)s"), {'code': err.code, 'explanation': err.explanation}) http_exc = translate_exception(err, request.best_match_language()) raise exception.HTTPExceptionDisguise(http_exc) except exception.HeatException as err: raise translate_exception(err, request.best_match_language()) except Exception as err: log_exception(err, sys.exc_info()) raise translate_exception(err, request.best_match_language()) # Here we support either passing in a serializer or detecting it # based on the content type. try: serializer = self.serializer if serializer is None: if content_type == "JSON": serializer = serializers.JSONResponseSerializer() else: serializer = serializers.XMLResponseSerializer() response = webob.Response(request=request) self.dispatch(serializer, action, response, action_result) return response # return unserializable result (typically an exception) except Exception: # Here we should get API exceptions derived from HeatAPIException # these implement get_unserialized_body(), which allow us to get # a dict containing the unserialized error response. # We only need to serialize for JSON content_type, as the # exception body is pre-serialized to the default XML in the # HeatAPIException constructor # If we get something else here (e.g a webob.exc exception), # this will fail, and we just return it without serializing, # which will not conform to the expected AWS error response format if content_type == "JSON": try: err_body = action_result.get_unserialized_body() serializer.default(action_result, err_body) except Exception: logging.warning(_("Unable to serialize exception " "response")) return action_result def dispatch(self, obj, action, *args, **kwargs): """Find action-specific method on self and call it.""" try: method = getattr(obj, action) except AttributeError: method = getattr(obj, 'default') return method(*args, **kwargs) def get_action_args(self, request_environment): """Parse dictionary created by routes library.""" try: args = request_environment['wsgiorg.routing_args'][1].copy() except Exception: return {} try: del args['controller'] except KeyError: pass try: del args['format'] except KeyError: pass return args def log_exception(err, exc_info): args = {'exc_info': exc_info} if cfg.CONF.verbose or cfg.CONF.debug else {} logging.error(_("Unexpected error occurred serving API: %s") % err, **args) def translate_exception(exc, locale): """Translates all translatable elements of the given exception.""" if isinstance(exc, exception.HeatException): exc.message = i18n.translate(exc.message, locale) else: exc.message = i18n.translate(six.text_type(exc), locale) if isinstance(exc, webob.exc.HTTPError): # If the explanation is not a Message, that means that the # explanation is the default, generic and not translatable explanation # from webop.exc. Since the explanation is the error shown when the # exception is converted to a response, let's actually swap it with # message, since message is what gets passed in at construction time # in the API if not isinstance(exc.explanation, i18n._message.Message): exc.explanation = six.text_type(exc) exc.detail = '' else: exc.explanation = \ i18n.translate(exc.explanation, locale) exc.detail = i18n.translate(exc.detail, locale) return exc class BasePasteFactory(object): """A base class for paste app and filter factories. Sub-classes must override the KEY class attribute and provide a __call__ method. """ KEY = None def __init__(self, conf): self.conf = conf def __call__(self, global_conf, **local_conf): raise NotImplementedError def _import_factory(self, local_conf): """Import an app/filter class. Lookup the KEY from the PasteDeploy local conf and import the class named there. This class can then be used as an app or filter factory. Note we support the : format. Note also that if you do e.g. key = value then ConfigParser returns a value with a leading newline, so we strip() the value before using it. """ class_name = local_conf[self.KEY].replace(':', '.').strip() return importutils.import_class(class_name) class AppFactory(BasePasteFactory): """A Generic paste.deploy app factory. This requires heat.app_factory to be set to a callable which returns a WSGI app when invoked. The format of the name is : e.g. [app:apiv1app] paste.app_factory = heat.common.wsgi:app_factory heat.app_factory = heat.api.cfn.v1:API The WSGI app constructor must accept a ConfigOpts object and a local config dict as its two arguments. """ KEY = 'heat.app_factory' def __call__(self, global_conf, **local_conf): """The actual paste.app_factory protocol method.""" factory = self._import_factory(local_conf) return factory(self.conf, **local_conf) class FilterFactory(AppFactory): """A Generic paste.deploy filter factory. This requires heat.filter_factory to be set to a callable which returns a WSGI filter when invoked. The format is : e.g. [filter:cache] paste.filter_factory = heat.common.wsgi:filter_factory heat.filter_factory = heat.api.middleware.cache:CacheFilter The WSGI filter constructor must accept a WSGI app, a ConfigOpts object and a local config dict as its three arguments. """ KEY = 'heat.filter_factory' def __call__(self, global_conf, **local_conf): """The actual paste.filter_factory protocol method.""" factory = self._import_factory(local_conf) def filter(app): return factory(app, self.conf, **local_conf) return filter def setup_paste_factories(conf): """Set up the generic paste app and filter factories. Set things up so that: paste.app_factory = heat.common.wsgi:app_factory and paste.filter_factory = heat.common.wsgi:filter_factory work correctly while loading PasteDeploy configuration. The app factories are constructed at runtime to allow us to pass a ConfigOpts object to the WSGI classes. :param conf: a ConfigOpts object """ global app_factory, filter_factory app_factory = AppFactory(conf) filter_factory = FilterFactory(conf) def teardown_paste_factories(): """Reverse the effect of setup_paste_factories().""" global app_factory, filter_factory del app_factory del filter_factory def paste_deploy_app(paste_config_file, app_name, conf): """Load a WSGI app from a PasteDeploy configuration. Use deploy.loadapp() to load the app from the PasteDeploy configuration, ensuring that the supplied ConfigOpts object is passed to the app and filter constructors. :param paste_config_file: a PasteDeploy config file :param app_name: the name of the app/pipeline to load from the file :param conf: a ConfigOpts object to supply to the app and its filters :returns: the WSGI app """ setup_paste_factories(conf) try: return deploy.loadapp("config:%s" % paste_config_file, name=app_name) finally: teardown_paste_factories()