1. Ben Rousch
  2. CherryPy


CherryPy / cherrypy / _cpwsgi.py

"""WSGI interface (see PEP 333)."""

import StringIO as _StringIO
import sys as _sys

import cherrypy as _cherrypy
from cherrypy import _cperror, wsgiserver
from cherrypy.lib import http as _http

#                           WSGI-to-CP Adapter                           #

class AppResponse(object):
    """A WSGI application for CherryPy Application responses.
    recursive: if False (the default), each URL (path + qs) will be stored,
    and, if the same URL is requested again via an InternalRedirect,
    RuntimeError will be raised. If 'recursive' is True, no such error
    will be raised.
    throws = (KeyboardInterrupt, SystemExit)
    request = None
    def __init__(self, environ, start_response, cpapp, recursive=False):
        self.redirections = []
        self.recursive = recursive
        self.environ = environ
        self.start_response = start_response
        self.cpapp = cpapp
    def setapp(self):
        # Stage 1: by whatever means necessary, obtain a status, header
        #          set and body, with an optional exception object.
            self.request = self.get_engine_request()
            s, h, b = self.get_response()
            exc = None
        except self.throws:
        except _cherrypy.InternalRedirect, ir:
            self.environ['cherrypy.previous_request'] = _cherrypy._serving.request
            self.iredirect(ir.path, ir.query_string)
            if getattr(self.request, "throw_errors", False):
            tb = _cperror.format_exc()
            if not getattr(self.request, "show_tracebacks", True):
                tb = ""
            s, h, b = _cperror.bare_error(tb)
            exc = _sys.exc_info()
        self.iter_response = iter(b)
        # Stage 2: now that we have a status, header set, and body,
        #          finish the WSGI conversation by calling start_response.
            self.start_response(s, h, exc)
        except self.throws:
            if getattr(self.request, "throw_errors", False):
            # CherryPy test suite expects bare_error body to be output,
            # so don't call start_response (which, according to PEP 333,
            # may raise its own error at that point).
            s, h, b = _cperror.bare_error()
            self.iter_response = iter(b)
    def iredirect(self, path, query_string):
        """Doctor self.environ and perform an internal redirect.
        When cherrypy.InternalRedirect is raised, this method is called.
        It rewrites the WSGI environ using the new path and query_string,
        and calls a new CherryPy Request object. Because the wsgi.input
        stream may have already been consumed by the next application,
        the redirected call will always be of HTTP method "GET"; therefore,
        any params must be passed in the query_string argument, which is
        formed from InternalRedirect.query_string when using that exception.
        If you need something more complicated, make and raise your own
        exception and write your own AppResponse subclass to trap it. ;)
        It would be a bad idea to redirect after you've already yielded
        response content, although an enterprising soul could choose
        to abuse this.
        env = self.environ
        if not self.recursive:
            sn = env.get('SCRIPT_NAME', '')
            qs = query_string
            if qs:
                qs = "?" + qs
            if sn + path + qs in self.redirections:
                raise RuntimeError("InternalRedirector visited the "
                                   "same URL twice: %r + %r + %r" %
                                   (sn, path, qs))
                # Add the *previous* path_info + qs to redirections.
                p = env.get('PATH_INFO', '')
                qs = env.get('QUERY_STRING', '')
                if qs:
                    qs = "?" + qs
                self.redirections.append(sn + p + qs)
        # Munge environment and try again.
        env['REQUEST_METHOD'] = "GET"
        env['PATH_INFO'] = path
        env['QUERY_STRING'] = query_string
        env['wsgi.input'] = _StringIO.StringIO()
        env['CONTENT_LENGTH'] = "0"
    def __iter__(self):
        return self
    def next(self):
            chunk = self.iter_response.next()
            # WSGI requires all data to be of type "str". This coercion should
            # not take any time at all if chunk is already of type "str".
            # If it's unicode, it could be a big performance hit (x ~500).
            if not isinstance(chunk, str):
                chunk = chunk.encode("ISO-8859-1")
            return chunk
        except self.throws:
        except _cherrypy.InternalRedirect, ir:
            self.environ['cherrypy.previous_request'] = _cherrypy._serving.request
            self.iredirect(ir.path, ir.query_string)
        except StopIteration:
            if getattr(self.request, "throw_errors", False):
            # CherryPy test suite expects bare_error body to be output,
            # so don't call start_response (which, according to PEP 333,
            # may raise its own error at that point).
            s, h, b = _cperror.bare_error()
            self.iter_response = iter([])
            return "".join(b)
    def close(self):
    def get_response(self):
        """Grab a request object from the engine and return its response."""
        meth = self.environ['REQUEST_METHOD']
        path = (self.environ.get('SCRIPT_NAME', '') +
                self.environ.get('PATH_INFO', ''))
        qs = self.environ.get('QUERY_STRING', '')
        rproto = self.environ.get('SERVER_PROTOCOL')
        headers = self.translate_headers(self.environ)
        rfile = self.environ['wsgi.input']
        response = self.request.run(meth, path, qs, rproto, headers, rfile)
        return response.status, response.header_list, response.body
    def get_engine_request(self):
        """Return a Request object from the CherryPy Engine using environ."""
        env = self.environ.get
        local = _http.Host('', int(env('SERVER_PORT', 80)),
                           env('SERVER_NAME', ''))
        remote = _http.Host(env('REMOTE_ADDR', ''),
                            int(env('REMOTE_PORT', -1)),
                            env('REMOTE_HOST', ''))
        scheme = env('wsgi.url_scheme')
        sproto = env('ACTUAL_SERVER_PROTOCOL', "HTTP/1.1")
        request = _cherrypy.engine.request(local, remote, scheme, sproto)
        # LOGON_USER is served by IIS, and is the name of the
        # user after having been mapped to a local account.
        # Both IIS and Apache set REMOTE_USER, when possible.
        request.login = env('LOGON_USER') or env('REMOTE_USER') or None
        request.multithread = self.environ['wsgi.multithread']
        request.multiprocess = self.environ['wsgi.multiprocess']
        request.wsgi_environ = self.environ
        request.app = self.cpapp
        request.prev = env('cherrypy.previous_request', None)
        return request
    headerNames = {'HTTP_CGI_AUTHORIZATION': 'Authorization',
                   'CONTENT_LENGTH': 'Content-Length',
                   'CONTENT_TYPE': 'Content-Type',
                   'REMOTE_HOST': 'Remote-Host',
                   'REMOTE_ADDR': 'Remote-Addr',
    def translate_headers(self, environ):
        """Translate CGI-environ header names to HTTP header names."""
        for cgiName in environ:
            # We assume all incoming header keys are uppercase already.
            if cgiName in self.headerNames:
                yield self.headerNames[cgiName], environ[cgiName]
            elif cgiName[:5] == "HTTP_":
                # Hackish attempt at recovering original header names.
                translatedHeader = cgiName[5:].replace("_", "-")
                yield translatedHeader, environ[cgiName]

class CPWSGIApp(object):
    """A WSGI application object for a CherryPy Application.
    pipeline: a list of (name, wsgiapp) pairs. Each 'wsgiapp' MUST be a
        constructor that takes an initial, positional 'nextapp' argument,
        plus optional keyword arguments, and returns a WSGI application
        (that takes environ and start_response arguments). The 'name' can
        be any you choose, and will correspond to keys in self.config.
    head: rather than nest all apps in the pipeline on each call, it's only
        done the first time, and the result is memoized into self.head. Set
        this to None again if you change self.pipeline after calling self.
    config: a dict whose keys match names listed in the pipeline. Each
        value is a further dict which will be passed to the corresponding
        named WSGI callable (from the pipeline) as keyword arguments.
    pipeline = []
    head = None
    config = {}
    response_class = AppResponse
    def __init__(self, cpapp, pipeline=None):
        self.cpapp = cpapp
        self.pipeline = self.pipeline[:]
        if pipeline:
        self.config = self.config.copy()
    def tail(self, environ, start_response):
        """WSGI application callable for the actual CherryPy application.
        You probably shouldn't call this; call self.__call__ instead,
        so that any WSGI middleware in self.pipeline can run first.
        return self.response_class(environ, start_response, self.cpapp)
    def __call__(self, environ, start_response):
        head = self.head
        if head is None:
            # Create and nest the WSGI apps in our pipeline (in reverse order).
            # Then memoize the result in self.head.
            head = self.tail
            for name, callable in self.pipeline[::-1]:
                conf = self.config.get(name, {})
                head = callable(head, **conf)
            self.head = head
        return head(environ, start_response)
    def namespace_handler(self, k, v):
        """Config handler for the 'wsgi' namespace."""
        if k == "pipeline":
            # Note this allows multiple 'wsgi.pipeline' config entries
            # (but each entry will be processed in a 'random' order).
            # It should also allow developers to set default middleware
            # in code (passed to self.__init__) that deployers can add to
            # (but not remove) via config.
            name, arg = k.split(".", 1)
            bucket = self.config.setdefault(name, {})
            bucket[arg] = v

#                            Server components                            #

class CPHTTPRequest(wsgiserver.HTTPRequest):
    def parse_request(self):
        mhs = _cherrypy.server.max_request_header_size
        if mhs > 0:
            self.rfile = _http.SizeCheckWrapper(self.rfile, mhs)
        except _http.MaxSizeExceeded:
            self.simple_response("413 Request Entity Too Large")
    def decode_chunked(self):
        """Decode the 'chunked' transfer coding."""
        if isinstance(self.rfile, _http.SizeCheckWrapper):
            self.rfile = self.rfile.rfile
        mbs = _cherrypy.server.max_request_body_size
        if mbs > 0:
            self.rfile = _http.SizeCheckWrapper(self.rfile, mbs)
            return wsgiserver.HTTPRequest.decode_chunked(self)
        except _http.MaxSizeExceeded:
            self.simple_response("413 Request Entity Too Large")
            return False

class CPHTTPConnection(wsgiserver.HTTPConnection):
    RequestHandlerClass = CPHTTPRequest

class CPWSGIServer(wsgiserver.CherryPyWSGIServer):
    """Wrapper for wsgiserver.CherryPyWSGIServer.
    wsgiserver has been designed to not reference CherryPy in any way,
    so that it can be used in other frameworks and applications. Therefore,
    we wrap it here, so we can set our own mount points from cherrypy.tree.
    ConnectionClass = CPHTTPConnection
    def __init__(self):
        server = _cherrypy.server
        sockFile = server.socket_file
        if sockFile:
            bind_addr = sockFile
            bind_addr = (server.socket_host, server.socket_port)
        s = wsgiserver.CherryPyWSGIServer
        # We could just pass cherrypy.tree, but by passing tree.apps,
        # we get correct SCRIPT_NAMEs as early as possible.
        s.__init__(self, bind_addr, _cherrypy.tree.apps.items(),
                   request_queue_size = server.socket_queue_size,
                   timeout = server.socket_timeout,
        self.protocol = server.protocol_version
        self.ssl_certificate = server.ssl_certificate
        self.ssl_private_key = server.ssl_private_key