"""installs a WSGI application in place of a real URI for testing. Introduction ============ Testing a WSGI application normally involves starting a server at a local host and port, then pointing your test code to that address. Instead, this library lets you intercept calls to any specific host/port combination and redirect them into a `WSGI application`_ importable by your test program. Thus, you can avoid spawning multiple processes or threads to test your Web app. How Does It Work? ================= ``wsgi_intercept`` works by replacing ``httplib.HTTPConnection`` with a subclass, ``wsgi_intercept.WSGI_HTTPConnection``. This class then redirects specific server/port combinations into a WSGI application by emulating a socket. If no intercept is registered for the host and port requested, those requests are passed on to the standard handler. The functions ``add_wsgi_intercept(host, port, app_create_fn, script_name='')`` and ``remove_wsgi_intercept(host,port)`` specify which URLs should be redirect into what applications. Note especially that ``app_create_fn`` is a *function object* returning a WSGI application; ``script_name`` becomes ``SCRIPT_NAME`` in the WSGI app's environment, if set. Install ======= :: pip install -U wsgi_intercept Packages Intercepted ==================== Unfortunately each of the Web testing frameworks uses its own specific mechanism for making HTTP call-outs, so individual implementations are needed. At this time there are implementations for ``httplib2`` and ``requests`` in both Python 2 and 3, ``urllib2`` and ``httplib`` in Python 2 and ``urllib.request`` and ``http.client`` in Python 3. If you are using Python 2 and need support for a different HTTP client, require a version of ``wsgi_intercept<0.6``. Earlier versions include support for ``webtest``, ``webunit`` and ``zope.testbrowser``. It is quite likely that support for these versions will be relatively easy to add back in to the new version. The best way to figure out how to use interception is to inspect `the tests`_. More comprehensive documentation available upon request. .. _the tests: https://github.com/cdent/python3-wsgi-intercept/tree/master/test History ======= Pursuant to Ian Bicking's `"best Web testing framework"`_ post, Titus Brown put together an `in-process HTTP-to-WSGI interception mechanism`_ for his own Web testing system, twill_. Because the mechanism is pretty generic -- it works at the httplib level -- Titus decided to try adding it into all of the *other* Python Web testing frameworks. The Python 2 version of wsgi-intercept was the result. Kumar McMillan later took over maintenance. The current version works with Python 2.6, 2.7, 3.3 and 3.4 and was assembled by `Chris Dent`_. Testing and documentation improvements from `Sasha Hart`_. .. _twill: http://www.idyll.org/~t/www-tools/twill.html .. _"best Web testing framework": http://blog.ianbicking.org/best-of-the-web-app-test-frameworks.html .. _in-process HTTP-to-WSGI interception mechanism: http://www.advogato.org/person/titus/diary.html?start=119 .. _WSGI application: http://www.python.org/peps/pep-3333.html .. _Chris Dent: https://github.com/cdent .. _Sasha Hart: https://github.com/sashahart Project Home ============ This project lives on `GitHub`_. Please submit all bugs, patches, failing tests, et cetera using the Issue Tracker. Additional documentation is available on `Read The Docs`_. .. _GitHub: http://github.com/cdent/python3-wsgi-intercept .. _Read The Docs: http://wsgi-intercept.readthedocs.org/en/latest/ """ from __future__ import print_function __version__ = '0.8.1' import sys try: from http.client import HTTPConnection, HTTPSConnection except ImportError: from httplib import HTTPConnection, HTTPSConnection try: from io import BytesIO except ImportError: from StringIO import StringIO as BytesIO import traceback debuglevel = 0 # 1 basic # 2 verbose #### # # Specify which hosts/ports to target for interception to a given WSGI app. # # For simplicity's sake, intercept ENTIRE host/port combinations; # intercepting only specific URL subtrees gets complicated, because we don't # have that information in the HTTPConnection.connect() function that does the # redirection. # # format: key=(host, port), value=(create_app, top_url) # # (top_url becomes the SCRIPT_NAME) _wsgi_intercept = {} def add_wsgi_intercept(host, port, app_create_fn, script_name=''): """ Add a WSGI intercept call for host:port, using the app returned by app_create_fn with a SCRIPT_NAME of 'script_name' (default ''). """ _wsgi_intercept[(host, port)] = (app_create_fn, script_name) def remove_wsgi_intercept(*args): """ Remove the WSGI intercept call for (host, port). If no arguments are given, removes all intercepts """ global _wsgi_intercept if len(args) == 0: _wsgi_intercept = {} else: key = (args[0], args[1]) if key in _wsgi_intercept: del _wsgi_intercept[key] # # make_environ: behave like a Web server. Take in 'input', and behave # as if you're bound to 'host' and 'port'; build an environment dict # for the WSGI app. # # This is where the magic happens, folks. # def make_environ(inp, host, port, script_name): """ Take 'inp' as if it were HTTP-speak being received on host:port, and parse it into a WSGI-ok environment dictionary. Return the dictionary. Set 'SCRIPT_NAME' from the 'script_name' input, and, if present, remove it from the beginning of the PATH_INFO variable. """ # # parse the input up to the first blank line (or its end). # environ = {} method_line = inp.readline() if sys.version_info[0] > 2: method_line = method_line.decode('ISO-8859-1') content_type = None content_length = None cookies = [] for line in inp: if not line.strip(): break k, v = line.strip().split(b':', 1) v = v.lstrip() v = v.decode('ISO-8859-1') # # take care of special headers, and for the rest, put them # into the environ with HTTP_ in front. # if k.lower() == b'content-type': content_type = v elif k.lower() == b'content-length': content_length = v elif k.lower() == b'cookie' or k.lower() == b'cookie2': cookies.append(v) else: h = k.upper() h = h.replace(b'-', b'_') environ['HTTP_' + h.decode('ISO-8859-1')] = v if debuglevel >= 2: print('HEADER:', k, v) # # decode the method line # if debuglevel >= 2: print('METHOD LINE:', method_line) method, url, protocol = method_line.split(' ') # clean the script_name off of the url, if it's there. if not url.startswith(script_name): script_name = '' # @CTB what to do -- bad URL. scrap? else: url = url[len(script_name):] url = url.split('?', 1) path_info = url[0] query_string = "" if len(url) == 2: query_string = url[1] if debuglevel: print("method: %s; script_name: %s; path_info: %s; query_string: %s" % (method, script_name, path_info, query_string)) r = inp.read() inp = BytesIO(r) # # fill out our dictionary. # environ.update({ "wsgi.version": (1, 0), "wsgi.url_scheme": "http", "wsgi.input": inp, # to read for POSTs "wsgi.errors": BytesIO(), "wsgi.multithread": 0, "wsgi.multiprocess": 0, "wsgi.run_once": 0, "PATH_INFO": path_info, "REMOTE_ADDR": '127.0.0.1', "REQUEST_METHOD": method, "SCRIPT_NAME": script_name, "SERVER_NAME": host, "SERVER_PORT": port, "SERVER_PROTOCOL": protocol, }) # # query_string, content_type & length are optional. # if query_string: environ['QUERY_STRING'] = query_string if content_type: environ['CONTENT_TYPE'] = content_type if debuglevel >= 2: print('CONTENT-TYPE:', content_type) if content_length: environ['CONTENT_LENGTH'] = content_length if debuglevel >= 2: print('CONTENT-LENGTH:', content_length) # # handle cookies. # if cookies: environ['HTTP_COOKIE'] = "; ".join(cookies) if debuglevel: print('WSGI environ dictionary:', environ) return environ class WSGIAppError(Exception): """ An exception that wraps any Exception raised by the WSGI app that is called. This is done for two reasons: it ensures that intercepted libraries (such as requests) which use exceptions to trigger behaviors are not interfered with by exceptions from the WSGI app. It also helps to define a solid boundary, akin to the network boundary between server and client, in the testing environment. """ def __init__(self, error, exc_info): Exception.__init__(self) self.error = error self.exception_type = exc_info[0] self.exception_value = exc_info[1] self.traceback = exc_info[2] def __str__(self): frame = traceback.extract_tb(self.traceback)[-1] formatted = "{0!r} at {1}:{2}".format( self.error, frame[0], frame[1], ) return formatted # # fake socket for WSGI intercept stuff. # class wsgi_fake_socket: """ Handle HTTP traffic and stuff into a WSGI application object instead. Note that this class assumes: 1. 'makefile' is called (by the response class) only after all of the data has been sent to the socket by the request class; 2. non-persistent (i.e. non-HTTP/1.1) connections. """ def __init__(self, app, host, port, script_name): self.app = app # WSGI app object self.host = host self.port = port self.script_name = script_name # SCRIPT_NAME (app mount point) self.inp = BytesIO() # stuff written into this "socket" self.write_results = [] # results from the 'write_fn' self.results = None # results from running the app self.output = BytesIO() # all output from the app, incl headers def makefile(self, *args, **kwargs): """ 'makefile' is called by the HTTPResponse class once all of the data has been written. So, in this interceptor class, we need to: 1. build a start_response function that grabs all the headers returned by the WSGI app; 2. create a wsgi.input file object 'inp', containing all of the traffic; 3. build an environment dict out of the traffic in inp; 4. run the WSGI app & grab the result object; 5. concatenate & return the result(s) read from the result object. @CTB: 'start_response' should return a function that writes directly to self.result, too. """ # dynamically construct the start_response function for no good reason. def start_response(status, headers, exc_info=None): # construct the HTTP request. self.output.write(b"HTTP/1.0 " + status.encode('utf-8') + b"\n") for k, v in headers: try: k = k.encode('utf-8') except AttributeError: pass try: v = v.encode('utf-8') except AttributeError: pass self.output.write(k + b': ' + v + b"\n") self.output.write(b'\n') def write_fn(s): self.write_results.append(s) return write_fn # construct the wsgi.input file from everything that's been # written to this "socket". inp = BytesIO(self.inp.getvalue()) # build the environ dictionary. environ = make_environ(inp, self.host, self.port, self.script_name) # run the application. try: app_result = self.app(environ, start_response) except Exception as error: raise WSGIAppError(error, sys.exc_info()) self.result = iter(app_result) ### # read all of the results. the trick here is to get the *first* # bit of data from the app via the generator, *then* grab & return # the data passed back from the 'write' function, and then return # the generator data. this is because the 'write' fn doesn't # necessarily get called until the first result is requested from # the app function. try: generator_data = None try: generator_data = next(self.result) finally: for data in self.write_results: self.output.write(data) if generator_data: try: self.output.write(generator_data) except TypeError as exc: raise TypeError('bytes required in response: %s' % exc) while 1: data = next(self.result) self.output.write(data) except StopIteration: pass if hasattr(app_result, 'close'): app_result.close() if debuglevel >= 2: print("***", self.output.getvalue(), "***") # return the concatenated results. return BytesIO(self.output.getvalue()) def sendall(self, content): """ Save all the traffic to self.inp. """ if debuglevel >= 2: print(">>>", content, ">>>") try: self.inp.write(content) except TypeError: self.inp.write(content.encode('utf-8')) def close(self): "Do nothing, for now." pass # # WSGI_HTTPConnection # class WSGI_HTTPConnection(HTTPConnection): """ Intercept all traffic to certain hosts & redirect into a WSGI application object. """ def get_app(self, host, port): """ Return the app object for the given (host, port). """ key = (host, int(port)) app, script_name = None, None if key in _wsgi_intercept: (app_fn, script_name) = _wsgi_intercept[key] app = app_fn() return app, script_name def connect(self): """ Override the connect() function to intercept calls to certain host/ports. If no app at host/port has been registered for interception then a normal HTTPConnection is made. """ if debuglevel: sys.stderr.write('connect: %s, %s\n' % (self.host, self.port,)) try: (app, script_name) = self.get_app(self.host, self.port) if app: if debuglevel: sys.stderr.write('INTERCEPTING call to %s:%s\n' % (self.host, self.port,)) self.sock = wsgi_fake_socket(app, self.host, self.port, script_name) else: HTTPConnection.connect(self) except Exception: if debuglevel: # intercept & print out tracebacks traceback.print_exc() raise # # WSGI_HTTPSConnection # class WSGI_HTTPSConnection(HTTPSConnection, WSGI_HTTPConnection): """ Intercept all traffic to certain hosts & redirect into a WSGI application object. """ def __init__(self, *args, **kwargs): if 'strict' in kwargs: del kwargs['strict'] HTTPSConnection.__init__(self, *args, **kwargs) def get_app(self, host, port): """ Return the app object for the given (host, port). """ key = (host, int(port)) app, script_name = None, None if key in _wsgi_intercept: (app_fn, script_name) = _wsgi_intercept[key] app = app_fn() return app, script_name def connect(self): """ Override the connect() function to intercept calls to certain host/ports. If no app at host/port has been registered for interception then a normal HTTPSConnection is made. """ if debuglevel: sys.stderr.write('connect: %s, %s\n' % (self.host, self.port,)) try: (app, script_name) = self.get_app(self.host, self.port) if app: if debuglevel: sys.stderr.write('INTERCEPTING call to %s:%s\n' % (self.host, self.port,)) self.sock = wsgi_fake_socket(app, self.host, self.port, script_name) else: HTTPSConnection.connect(self) except Exception: if debuglevel: # intercept & print out tracebacks traceback.print_exc() raise