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Direktori : /opt/alt/python37/lib/python3.7/site-packages/paste/ |
Current File : //opt/alt/python37/lib/python3.7/site-packages/paste/fixture.py |
# (c) 2005 Ian Bicking and contributors; written for Paste (http://pythonpaste.org) # Licensed under the MIT license: http://www.opensource.org/licenses/mit-license.php """ Routines for testing WSGI applications. Most interesting is the `TestApp <class-paste.fixture.TestApp.html>`_ for testing WSGI applications, and the `TestFileEnvironment <class-paste.fixture.TestFileEnvironment.html>`_ class for testing the effects of command-line scripts. """ import sys import random import urllib import urlparse import mimetypes import time import cgi import os import shutil import smtplib import shlex from Cookie import BaseCookie try: from cStringIO import StringIO except ImportError: from StringIO import StringIO import re import subprocess from paste import wsgilib from paste import lint from paste.response import HeaderDict def tempnam_no_warning(*args): """ An os.tempnam with the warning turned off, because sometimes you just need to use this and don't care about the stupid security warning. """ return os.tempnam(*args) class NoDefault(object): pass def sorted(l): l = list(l) l.sort() return l class Dummy_smtplib(object): existing = None def __init__(self, server): import warnings warnings.warn( 'Dummy_smtplib is not maintained and is deprecated', DeprecationWarning, 2) assert not self.existing, ( "smtplib.SMTP() called again before Dummy_smtplib.existing.reset() " "called.") self.server = server self.open = True self.__class__.existing = self def quit(self): assert self.open, ( "Called %s.quit() twice" % self) self.open = False def sendmail(self, from_address, to_addresses, msg): self.from_address = from_address self.to_addresses = to_addresses self.message = msg def install(cls): smtplib.SMTP = cls install = classmethod(install) def reset(self): assert not self.open, ( "SMTP connection not quit") self.__class__.existing = None class AppError(Exception): pass class TestApp(object): # for py.test disabled = True def __init__(self, app, namespace=None, relative_to=None, extra_environ=None, pre_request_hook=None, post_request_hook=None): """ Wraps a WSGI application in a more convenient interface for testing. ``app`` may be an application, or a Paste Deploy app URI, like ``'config:filename.ini#test'``. ``namespace`` is a dictionary that will be written to (if provided). This can be used with doctest or some other system, and the variable ``res`` will be assigned everytime you make a request (instead of returning the request). ``relative_to`` is a directory, and filenames used for file uploads are calculated relative to this. Also ``config:`` URIs that aren't absolute. ``extra_environ`` is a dictionary of values that should go into the environment for each request. These can provide a communication channel with the application. ``pre_request_hook`` is a function to be called prior to making requests (such as ``post`` or ``get``). This function must take one argument (the instance of the TestApp). ``post_request_hook`` is a function, similar to ``pre_request_hook``, to be called after requests are made. """ if isinstance(app, (str, unicode)): from paste.deploy import loadapp # @@: Should pick up relative_to from calling module's # __file__ app = loadapp(app, relative_to=relative_to) self.app = app self.namespace = namespace self.relative_to = relative_to if extra_environ is None: extra_environ = {} self.extra_environ = extra_environ self.pre_request_hook = pre_request_hook self.post_request_hook = post_request_hook self.reset() def reset(self): """ Resets the state of the application; currently just clears saved cookies. """ self.cookies = {} def _make_environ(self): environ = self.extra_environ.copy() environ['paste.throw_errors'] = True return environ def get(self, url, params=None, headers=None, extra_environ=None, status=None, expect_errors=False): """ Get the given url (well, actually a path like ``'/page.html'``). ``params``: A query string, or a dictionary that will be encoded into a query string. You may also include a query string on the ``url``. ``headers``: A dictionary of extra headers to send. ``extra_environ``: A dictionary of environmental variables that should be added to the request. ``status``: The integer status code you expect (if not 200 or 3xx). If you expect a 404 response, for instance, you must give ``status=404`` or it will be an error. You can also give a wildcard, like ``'3*'`` or ``'*'``. ``expect_errors``: If this is not true, then if anything is written to ``wsgi.errors`` it will be an error. If it is true, then non-200/3xx responses are also okay. Returns a `response object <class-paste.fixture.TestResponse.html>`_ """ if extra_environ is None: extra_environ = {} # Hide from py.test: __tracebackhide__ = True if params: if not isinstance(params, (str, unicode)): params = urllib.urlencode(params, doseq=True) if '?' in url: url += '&' else: url += '?' url += params environ = self._make_environ() url = str(url) if '?' in url: url, environ['QUERY_STRING'] = url.split('?', 1) else: environ['QUERY_STRING'] = '' self._set_headers(headers, environ) environ.update(extra_environ) req = TestRequest(url, environ, expect_errors) return self.do_request(req, status=status) def _gen_request(self, method, url, params='', headers=None, extra_environ=None, status=None, upload_files=None, expect_errors=False): """ Do a generic request. """ if headers is None: headers = {} if extra_environ is None: extra_environ = {} environ = self._make_environ() # @@: Should this be all non-strings? if isinstance(params, (list, tuple, dict)): params = urllib.urlencode(params) if hasattr(params, 'items'): # Some other multi-dict like format params = urllib.urlencode(params.items()) if upload_files: params = cgi.parse_qsl(params, keep_blank_values=True) content_type, params = self.encode_multipart( params, upload_files) environ['CONTENT_TYPE'] = content_type elif params: environ.setdefault('CONTENT_TYPE', 'application/x-www-form-urlencoded') if '?' in url: url, environ['QUERY_STRING'] = url.split('?', 1) else: environ['QUERY_STRING'] = '' environ['CONTENT_LENGTH'] = str(len(params)) environ['REQUEST_METHOD'] = method environ['wsgi.input'] = StringIO(params) self._set_headers(headers, environ) environ.update(extra_environ) req = TestRequest(url, environ, expect_errors) return self.do_request(req, status=status) def post(self, url, params='', headers=None, extra_environ=None, status=None, upload_files=None, expect_errors=False): """ Do a POST request. Very like the ``.get()`` method. ``params`` are put in the body of the request. ``upload_files`` is for file uploads. It should be a list of ``[(fieldname, filename, file_content)]``. You can also use just ``[(fieldname, filename)]`` and the file content will be read from disk. Returns a `response object <class-paste.fixture.TestResponse.html>`_ """ return self._gen_request('POST', url, params=params, headers=headers, extra_environ=extra_environ,status=status, upload_files=upload_files, expect_errors=expect_errors) def put(self, url, params='', headers=None, extra_environ=None, status=None, upload_files=None, expect_errors=False): """ Do a PUT request. Very like the ``.get()`` method. ``params`` are put in the body of the request. ``upload_files`` is for file uploads. It should be a list of ``[(fieldname, filename, file_content)]``. You can also use just ``[(fieldname, filename)]`` and the file content will be read from disk. Returns a `response object <class-paste.fixture.TestResponse.html>`_ """ return self._gen_request('PUT', url, params=params, headers=headers, extra_environ=extra_environ,status=status, upload_files=upload_files, expect_errors=expect_errors) def delete(self, url, params='', headers=None, extra_environ=None, status=None, expect_errors=False): """ Do a DELETE request. Very like the ``.get()`` method. ``params`` are put in the body of the request. Returns a `response object <class-paste.fixture.TestResponse.html>`_ """ return self._gen_request('DELETE', url, params=params, headers=headers, extra_environ=extra_environ,status=status, upload_files=None, expect_errors=expect_errors) def _set_headers(self, headers, environ): """ Turn any headers into environ variables """ if not headers: return for header, value in headers.items(): if header.lower() == 'content-type': var = 'CONTENT_TYPE' elif header.lower() == 'content-length': var = 'CONTENT_LENGTH' else: var = 'HTTP_%s' % header.replace('-', '_').upper() environ[var] = value def encode_multipart(self, params, files): """ Encodes a set of parameters (typically a name/value list) and a set of files (a list of (name, filename, file_body)) into a typical POST body, returning the (content_type, body). """ boundary = '----------a_BoUnDaRy%s$' % random.random() lines = [] for key, value in params: lines.append('--'+boundary) lines.append('Content-Disposition: form-data; name="%s"' % key) lines.append('') lines.append(value) for file_info in files: key, filename, value = self._get_file_info(file_info) lines.append('--'+boundary) lines.append('Content-Disposition: form-data; name="%s"; filename="%s"' % (key, filename)) fcontent = mimetypes.guess_type(filename)[0] lines.append('Content-Type: %s' % fcontent or 'application/octet-stream') lines.append('') lines.append(value) lines.append('--' + boundary + '--') lines.append('') body = '\r\n'.join(lines) content_type = 'multipart/form-data; boundary=%s' % boundary return content_type, body def _get_file_info(self, file_info): if len(file_info) == 2: # It only has a filename filename = file_info[1] if self.relative_to: filename = os.path.join(self.relative_to, filename) f = open(filename, 'rb') content = f.read() f.close() return (file_info[0], filename, content) elif len(file_info) == 3: return file_info else: raise ValueError( "upload_files need to be a list of tuples of (fieldname, " "filename, filecontent) or (fieldname, filename); " "you gave: %r" % repr(file_info)[:100]) def do_request(self, req, status): """ Executes the given request (``req``), with the expected ``status``. Generally ``.get()`` and ``.post()`` are used instead. """ if self.pre_request_hook: self.pre_request_hook(self) __tracebackhide__ = True if self.cookies: c = BaseCookie() for name, value in self.cookies.items(): c[name] = value hc = '; '.join(['='.join([m.key, m.value]) for m in c.values()]) req.environ['HTTP_COOKIE'] = hc req.environ['paste.testing'] = True req.environ['paste.testing_variables'] = {} app = lint.middleware(self.app) old_stdout = sys.stdout out = CaptureStdout(old_stdout) try: sys.stdout = out start_time = time.time() raise_on_wsgi_error = not req.expect_errors raw_res = wsgilib.raw_interactive( app, req.url, raise_on_wsgi_error=raise_on_wsgi_error, **req.environ) end_time = time.time() finally: sys.stdout = old_stdout sys.stderr.write(out.getvalue()) res = self._make_response(raw_res, end_time - start_time) res.request = req for name, value in req.environ['paste.testing_variables'].items(): if hasattr(res, name): raise ValueError( "paste.testing_variables contains the variable %r, but " "the response object already has an attribute by that " "name" % name) setattr(res, name, value) if self.namespace is not None: self.namespace['res'] = res if not req.expect_errors: self._check_status(status, res) self._check_errors(res) res.cookies_set = {} for header in res.all_headers('set-cookie'): c = BaseCookie(header) for key, morsel in c.items(): self.cookies[key] = morsel.value res.cookies_set[key] = morsel.value if self.post_request_hook: self.post_request_hook(self) if self.namespace is None: # It's annoying to return the response in doctests, as it'll # be printed, so we only return it is we couldn't assign # it anywhere return res def _check_status(self, status, res): __tracebackhide__ = True if status == '*': return if isinstance(status, (list, tuple)): if res.status not in status: raise AppError( "Bad response: %s (not one of %s for %s)\n%s" % (res.full_status, ', '.join(map(str, status)), res.request.url, res.body)) return if status is None: if res.status >= 200 and res.status < 400: return raise AppError( "Bad response: %s (not 200 OK or 3xx redirect for %s)\n%s" % (res.full_status, res.request.url, res.body)) if status != res.status: raise AppError( "Bad response: %s (not %s)" % (res.full_status, status)) def _check_errors(self, res): if res.errors: raise AppError( "Application had errors logged:\n%s" % res.errors) def _make_response(self, (status, headers, body, errors), total_time): return TestResponse(self, status, headers, body, errors, total_time) class CaptureStdout(object): def __init__(self, actual): self.captured = StringIO() self.actual = actual def write(self, s): self.captured.write(s) self.actual.write(s) def flush(self): self.actual.flush() def writelines(self, lines): for item in lines: self.write(item) def getvalue(self): return self.captured.getvalue() class TestResponse(object): # for py.test disabled = True """ Instances of this class are return by `TestApp <class-paste.fixture.TestApp.html>`_ """ def __init__(self, test_app, status, headers, body, errors, total_time): self.test_app = test_app self.status = int(status.split()[0]) self.full_status = status self.headers = headers self.header_dict = HeaderDict.fromlist(self.headers) self.body = body self.errors = errors self._normal_body = None self.time = total_time self._forms_indexed = None def forms__get(self): """ Returns a dictionary of ``Form`` objects. Indexes are both in order (from zero) and by form id (if the form is given an id). """ if self._forms_indexed is None: self._parse_forms() return self._forms_indexed forms = property(forms__get, doc=""" A list of <form>s found on the page (instances of `Form <class-paste.fixture.Form.html>`_) """) def form__get(self): forms = self.forms if not forms: raise TypeError( "You used response.form, but no forms exist") if 1 in forms: # There is more than one form raise TypeError( "You used response.form, but more than one form exists") return forms[0] form = property(form__get, doc=""" Returns a single `Form <class-paste.fixture.Form.html>`_ instance; it is an error if there are multiple forms on the page. """) _tag_re = re.compile(r'<(/?)([:a-z0-9_\-]*)(.*?)>', re.S|re.I) def _parse_forms(self): forms = self._forms_indexed = {} form_texts = [] started = None for match in self._tag_re.finditer(self.body): end = match.group(1) == '/' tag = match.group(2).lower() if tag != 'form': continue if end: assert started, ( "</form> unexpected at %s" % match.start()) form_texts.append(self.body[started:match.end()]) started = None else: assert not started, ( "Nested form tags at %s" % match.start()) started = match.start() assert not started, ( "Danging form: %r" % self.body[started:]) for i, text in enumerate(form_texts): form = Form(self, text) forms[i] = form if form.id: forms[form.id] = form def header(self, name, default=NoDefault): """ Returns the named header; an error if there is not exactly one matching header (unless you give a default -- always an error if there is more than one header) """ found = None for cur_name, value in self.headers: if cur_name.lower() == name.lower(): assert not found, ( "Ambiguous header: %s matches %r and %r" % (name, found, value)) found = value if found is None: if default is NoDefault: raise KeyError( "No header found: %r (from %s)" % (name, ', '.join([n for n, v in self.headers]))) else: return default return found def all_headers(self, name): """ Gets all headers by the ``name``, returns as a list """ found = [] for cur_name, value in self.headers: if cur_name.lower() == name.lower(): found.append(value) return found def follow(self, **kw): """ If this request is a redirect, follow that redirect. It is an error if this is not a redirect response. Returns another response object. """ assert self.status >= 300 and self.status < 400, ( "You can only follow redirect responses (not %s)" % self.full_status) location = self.header('location') type, rest = urllib.splittype(location) host, path = urllib.splithost(rest) # @@: We should test that it's not a remote redirect return self.test_app.get(location, **kw) def click(self, description=None, linkid=None, href=None, anchor=None, index=None, verbose=False): """ Click the link as described. Each of ``description``, ``linkid``, and ``url`` are *patterns*, meaning that they are either strings (regular expressions), compiled regular expressions (objects with a ``search`` method), or callables returning true or false. All the given patterns are ANDed together: * ``description`` is a pattern that matches the contents of the anchor (HTML and all -- everything between ``<a...>`` and ``</a>``) * ``linkid`` is a pattern that matches the ``id`` attribute of the anchor. It will receive the empty string if no id is given. * ``href`` is a pattern that matches the ``href`` of the anchor; the literal content of that attribute, not the fully qualified attribute. * ``anchor`` is a pattern that matches the entire anchor, with its contents. If more than one link matches, then the ``index`` link is followed. If ``index`` is not given and more than one link matches, or if no link matches, then ``IndexError`` will be raised. If you give ``verbose`` then messages will be printed about each link, and why it does or doesn't match. If you use ``app.click(verbose=True)`` you'll see a list of all the links. You can use multiple criteria to essentially assert multiple aspects about the link, e.g., where the link's destination is. """ __tracebackhide__ = True found_html, found_desc, found_attrs = self._find_element( tag='a', href_attr='href', href_extract=None, content=description, id=linkid, href_pattern=href, html_pattern=anchor, index=index, verbose=verbose) return self.goto(found_attrs['uri']) def clickbutton(self, description=None, buttonid=None, href=None, button=None, index=None, verbose=False): """ Like ``.click()``, except looks for link-like buttons. This kind of button should look like ``<button onclick="...location.href='url'...">``. """ __tracebackhide__ = True found_html, found_desc, found_attrs = self._find_element( tag='button', href_attr='onclick', href_extract=re.compile(r"location\.href='(.*?)'"), content=description, id=buttonid, href_pattern=href, html_pattern=button, index=index, verbose=verbose) return self.goto(found_attrs['uri']) def _find_element(self, tag, href_attr, href_extract, content, id, href_pattern, html_pattern, index, verbose): content_pat = _make_pattern(content) id_pat = _make_pattern(id) href_pat = _make_pattern(href_pattern) html_pat = _make_pattern(html_pattern) _tag_re = re.compile(r'<%s\s+(.*?)>(.*?)</%s>' % (tag, tag), re.I+re.S) def printlog(s): if verbose: print s found_links = [] total_links = 0 for match in _tag_re.finditer(self.body): el_html = match.group(0) el_attr = match.group(1) el_content = match.group(2) attrs = _parse_attrs(el_attr) if verbose: printlog('Element: %r' % el_html) if not attrs.get(href_attr): printlog(' Skipped: no %s attribute' % href_attr) continue el_href = attrs[href_attr] if href_extract: m = href_extract.search(el_href) if not m: printlog(" Skipped: doesn't match extract pattern") continue el_href = m.group(1) attrs['uri'] = el_href if el_href.startswith('#'): printlog(' Skipped: only internal fragment href') continue if el_href.startswith('javascript:'): printlog(' Skipped: cannot follow javascript:') continue total_links += 1 if content_pat and not content_pat(el_content): printlog(" Skipped: doesn't match description") continue if id_pat and not id_pat(attrs.get('id', '')): printlog(" Skipped: doesn't match id") continue if href_pat and not href_pat(el_href): printlog(" Skipped: doesn't match href") continue if html_pat and not html_pat(el_html): printlog(" Skipped: doesn't match html") continue printlog(" Accepted") found_links.append((el_html, el_content, attrs)) if not found_links: raise IndexError( "No matching elements found (from %s possible)" % total_links) if index is None: if len(found_links) > 1: raise IndexError( "Multiple links match: %s" % ', '.join([repr(anc) for anc, d, attr in found_links])) found_link = found_links[0] else: try: found_link = found_links[index] except IndexError: raise IndexError( "Only %s (out of %s) links match; index %s out of range" % (len(found_links), total_links, index)) return found_link def goto(self, href, method='get', **args): """ Go to the (potentially relative) link ``href``, using the given method (``'get'`` or ``'post'``) and any extra arguments you want to pass to the ``app.get()`` or ``app.post()`` methods. All hostnames and schemes will be ignored. """ scheme, host, path, query, fragment = urlparse.urlsplit(href) # We scheme = host = fragment = '' href = urlparse.urlunsplit((scheme, host, path, query, fragment)) href = urlparse.urljoin(self.request.full_url, href) method = method.lower() assert method in ('get', 'post'), ( 'Only "get" or "post" are allowed for method (you gave %r)' % method) if method == 'get': method = self.test_app.get else: method = self.test_app.post return method(href, **args) _normal_body_regex = re.compile(r'[ \n\r\t]+') def normal_body__get(self): if self._normal_body is None: self._normal_body = self._normal_body_regex.sub( ' ', self.body) return self._normal_body normal_body = property(normal_body__get, doc=""" Return the whitespace-normalized body """) def __contains__(self, s): """ A response 'contains' a string if it is present in the body of the response. Whitespace is normalized when searching for a string. """ if not isinstance(s, (str, unicode)): s = str(s) if isinstance(s, unicode): ## FIXME: we don't know that this response uses utf8: s = s.encode('utf8') return (self.body.find(s) != -1 or self.normal_body.find(s) != -1) def mustcontain(self, *strings, **kw): """ Assert that the response contains all of the strings passed in as arguments. Equivalent to:: assert string in res """ if 'no' in kw: no = kw['no'] del kw['no'] if isinstance(no, basestring): no = [no] else: no = [] if kw: raise TypeError( "The only keyword argument allowed is 'no'") for s in strings: if not s in self: print >> sys.stderr, "Actual response (no %r):" % s print >> sys.stderr, self raise IndexError( "Body does not contain string %r" % s) for no_s in no: if no_s in self: print >> sys.stderr, "Actual response (has %r)" % no_s print >> sys.stderr, self raise IndexError( "Body contains string %r" % s) def __repr__(self): return '<Response %s %r>' % (self.full_status, self.body[:20]) def __str__(self): simple_body = '\n'.join([l for l in self.body.splitlines() if l.strip()]) return 'Response: %s\n%s\n%s' % ( self.status, '\n'.join(['%s: %s' % (n, v) for n, v in self.headers]), simple_body) def showbrowser(self): """ Show this response in a browser window (for debugging purposes, when it's hard to read the HTML). """ import webbrowser fn = tempnam_no_warning(None, 'paste-fixture') + '.html' f = open(fn, 'wb') f.write(self.body) f.close() url = 'file:' + fn.replace(os.sep, '/') webbrowser.open_new(url) class TestRequest(object): # for py.test disabled = True """ Instances of this class are created by `TestApp <class-paste.fixture.TestApp.html>`_ with the ``.get()`` and ``.post()`` methods, and are consumed there by ``.do_request()``. Instances are also available as a ``.req`` attribute on `TestResponse <class-paste.fixture.TestResponse.html>`_ instances. Useful attributes: ``url``: The url (actually usually the path) of the request, without query string. ``environ``: The environment dictionary used for the request. ``full_url``: The url/path, with query string. """ def __init__(self, url, environ, expect_errors=False): if url.startswith('http://localhost'): url = url[len('http://localhost'):] self.url = url self.environ = environ if environ.get('QUERY_STRING'): self.full_url = url + '?' + environ['QUERY_STRING'] else: self.full_url = url self.expect_errors = expect_errors class Form(object): """ This object represents a form that has been found in a page. This has a couple useful attributes: ``text``: the full HTML of the form. ``action``: the relative URI of the action. ``method``: the method (e.g., ``'GET'``). ``id``: the id, or None if not given. ``fields``: a dictionary of fields, each value is a list of fields by that name. ``<input type=\"radio\">`` and ``<select>`` are both represented as single fields with multiple options. """ # @@: This really should be using Mechanize/ClientForm or # something... _tag_re = re.compile(r'<(/?)([:a-z0-9_\-]*)([^>]*?)>', re.I) def __init__(self, response, text): self.response = response self.text = text self._parse_fields() self._parse_action() def _parse_fields(self): in_select = None in_textarea = None fields = {} for match in self._tag_re.finditer(self.text): end = match.group(1) == '/' tag = match.group(2).lower() if tag not in ('input', 'select', 'option', 'textarea', 'button'): continue if tag == 'select' and end: assert in_select, ( '%r without starting select' % match.group(0)) in_select = None continue if tag == 'textarea' and end: assert in_textarea, ( "</textarea> with no <textarea> at %s" % match.start()) in_textarea[0].value = html_unquote(self.text[in_textarea[1]:match.start()]) in_textarea = None continue if end: continue attrs = _parse_attrs(match.group(3)) if 'name' in attrs: name = attrs.pop('name') else: name = None if tag == 'option': in_select.options.append((attrs.get('value'), 'selected' in attrs)) continue if tag == 'input' and attrs.get('type') == 'radio': field = fields.get(name) if not field: field = Radio(self, tag, name, match.start(), **attrs) fields.setdefault(name, []).append(field) else: field = field[0] assert isinstance(field, Radio) field.options.append((attrs.get('value'), 'checked' in attrs)) continue tag_type = tag if tag == 'input': tag_type = attrs.get('type', 'text').lower() FieldClass = Field.classes.get(tag_type, Field) field = FieldClass(self, tag, name, match.start(), **attrs) if tag == 'textarea': assert not in_textarea, ( "Nested textareas: %r and %r" % (in_textarea, match.group(0))) in_textarea = field, match.end() elif tag == 'select': assert not in_select, ( "Nested selects: %r and %r" % (in_select, match.group(0))) in_select = field fields.setdefault(name, []).append(field) self.fields = fields def _parse_action(self): self.action = None for match in self._tag_re.finditer(self.text): end = match.group(1) == '/' tag = match.group(2).lower() if tag != 'form': continue if end: break attrs = _parse_attrs(match.group(3)) self.action = attrs.get('action', '') self.method = attrs.get('method', 'GET') self.id = attrs.get('id') # @@: enctype? else: assert 0, "No </form> tag found" assert self.action is not None, ( "No <form> tag found") def __setitem__(self, name, value): """ Set the value of the named field. If there is 0 or multiple fields by that name, it is an error. Setting the value of a ``<select>`` selects the given option (and confirms it is an option). Setting radio fields does the same. Checkboxes get boolean values. You cannot set hidden fields or buttons. Use ``.set()`` if there is any ambiguity and you must provide an index. """ fields = self.fields.get(name) assert fields is not None, ( "No field by the name %r found (fields: %s)" % (name, ', '.join(map(repr, self.fields.keys())))) assert len(fields) == 1, ( "Multiple fields match %r: %s" % (name, ', '.join(map(repr, fields)))) fields[0].value = value def __getitem__(self, name): """ Get the named field object (ambiguity is an error). """ fields = self.fields.get(name) assert fields is not None, ( "No field by the name %r found" % name) assert len(fields) == 1, ( "Multiple fields match %r: %s" % (name, ', '.join(map(repr, fields)))) return fields[0] def set(self, name, value, index=None): """ Set the given name, using ``index`` to disambiguate. """ if index is None: self[name] = value else: fields = self.fields.get(name) assert fields is not None, ( "No fields found matching %r" % name) field = fields[index] field.value = value def get(self, name, index=None, default=NoDefault): """ Get the named/indexed field object, or ``default`` if no field is found. """ fields = self.fields.get(name) if fields is None and default is not NoDefault: return default if index is None: return self[name] else: fields = self.fields.get(name) assert fields is not None, ( "No fields found matching %r" % name) field = fields[index] return field def select(self, name, value, index=None): """ Like ``.set()``, except also confirms the target is a ``<select>``. """ field = self.get(name, index=index) assert isinstance(field, Select) field.value = value def submit(self, name=None, index=None, **args): """ Submits the form. If ``name`` is given, then also select that button (using ``index`` to disambiguate)``. Any extra keyword arguments are passed to the ``.get()`` or ``.post()`` method. Returns a response object. """ fields = self.submit_fields(name, index=index) return self.response.goto(self.action, method=self.method, params=fields, **args) def submit_fields(self, name=None, index=None): """ Return a list of ``[(name, value), ...]`` for the current state of the form. """ submit = [] if name is not None: field = self.get(name, index=index) submit.append((field.name, field.value_if_submitted())) for name, fields in self.fields.items(): if name is None: continue for field in fields: value = field.value if value is None: continue submit.append((name, value)) return submit _attr_re = re.compile(r'([^= \n\r\t]+)[ \n\r\t]*(?:=[ \n\r\t]*(?:"([^"]*)"|([^"][^ \n\r\t>]*)))?', re.S) def _parse_attrs(text): attrs = {} for match in _attr_re.finditer(text): attr_name = match.group(1).lower() attr_body = match.group(2) or match.group(3) attr_body = html_unquote(attr_body or '') attrs[attr_name] = attr_body return attrs class Field(object): """ Field object. """ # Dictionary of field types (select, radio, etc) to classes classes = {} settable = True def __init__(self, form, tag, name, pos, value=None, id=None, **attrs): self.form = form self.tag = tag self.name = name self.pos = pos self._value = value self.id = id self.attrs = attrs def value__set(self, value): if not self.settable: raise AttributeError( "You cannot set the value of the <%s> field %r" % (self.tag, self.name)) self._value = value def force_value(self, value): """ Like setting a value, except forces it even for, say, hidden fields. """ self._value = value def value__get(self): return self._value value = property(value__get, value__set) class Select(Field): """ Field representing ``<select>`` """ def __init__(self, *args, **attrs): super(Select, self).__init__(*args, **attrs) self.options = [] self.multiple = attrs.get('multiple') assert not self.multiple, ( "<select multiple> not yet supported") # Undetermined yet: self.selectedIndex = None def value__set(self, value): for i, (option, checked) in enumerate(self.options): if option == str(value): self.selectedIndex = i break else: raise ValueError( "Option %r not found (from %s)" % (value, ', '.join( [repr(o) for o, c in self.options]))) def value__get(self): if self.selectedIndex is not None: return self.options[self.selectedIndex][0] else: for option, checked in self.options: if checked: return option else: if self.options: return self.options[0][0] else: return None value = property(value__get, value__set) Field.classes['select'] = Select class Radio(Select): """ Field representing ``<input type="radio">`` """ Field.classes['radio'] = Radio class Checkbox(Field): """ Field representing ``<input type="checkbox">`` """ def __init__(self, *args, **attrs): super(Checkbox, self).__init__(*args, **attrs) self.checked = 'checked' in attrs def value__set(self, value): self.checked = not not value def value__get(self): if self.checked: if self._value is None: return 'on' else: return self._value else: return None value = property(value__get, value__set) Field.classes['checkbox'] = Checkbox class Text(Field): """ Field representing ``<input type="text">`` """ def __init__(self, form, tag, name, pos, value='', id=None, **attrs): #text fields default to empty string Field.__init__(self, form, tag, name, pos, value=value, id=id, **attrs) Field.classes['text'] = Text class Textarea(Text): """ Field representing ``<textarea>`` """ Field.classes['textarea'] = Textarea class Hidden(Text): """ Field representing ``<input type="hidden">`` """ Field.classes['hidden'] = Hidden class Submit(Field): """ Field representing ``<input type="submit">`` and ``<button>`` """ settable = False def value__get(self): return None value = property(value__get) def value_if_submitted(self): return self._value Field.classes['submit'] = Submit Field.classes['button'] = Submit Field.classes['image'] = Submit ############################################################ ## Command-line testing ############################################################ class TestFileEnvironment(object): """ This represents an environment in which files will be written, and scripts will be run. """ # for py.test disabled = True def __init__(self, base_path, template_path=None, script_path=None, environ=None, cwd=None, start_clear=True, ignore_paths=None, ignore_hidden=True): """ Creates an environment. ``base_path`` is used as the current working directory, and generally where changes are looked for. ``template_path`` is the directory to look for *template* files, which are files you'll explicitly add to the environment. This is done with ``.writefile()``. ``script_path`` is the PATH for finding executables. Usually grabbed from ``$PATH``. ``environ`` is the operating system environment, ``os.environ`` if not given. ``cwd`` is the working directory, ``base_path`` by default. If ``start_clear`` is true (default) then the ``base_path`` will be cleared (all files deleted) when an instance is created. You can also use ``.clear()`` to clear the files. ``ignore_paths`` is a set of specific filenames that should be ignored when created in the environment. ``ignore_hidden`` means, if true (default) that filenames and directories starting with ``'.'`` will be ignored. """ self.base_path = base_path self.template_path = template_path if environ is None: environ = os.environ.copy() self.environ = environ if script_path is None: if sys.platform == 'win32': script_path = environ.get('PATH', '').split(';') else: script_path = environ.get('PATH', '').split(':') self.script_path = script_path if cwd is None: cwd = base_path self.cwd = cwd if start_clear: self.clear() elif not os.path.exists(base_path): os.makedirs(base_path) self.ignore_paths = ignore_paths or [] self.ignore_hidden = ignore_hidden def run(self, script, *args, **kw): """ Run the command, with the given arguments. The ``script`` argument can have space-separated arguments, or you can use the positional arguments. Keywords allowed are: ``expect_error``: (default False) Don't raise an exception in case of errors ``expect_stderr``: (default ``expect_error``) Don't raise an exception if anything is printed to stderr ``stdin``: (default ``""``) Input to the script ``printresult``: (default True) Print the result after running ``cwd``: (default ``self.cwd``) The working directory to run in Returns a `ProcResponse <class-paste.fixture.ProcResponse.html>`_ object. """ __tracebackhide__ = True expect_error = _popget(kw, 'expect_error', False) expect_stderr = _popget(kw, 'expect_stderr', expect_error) cwd = _popget(kw, 'cwd', self.cwd) stdin = _popget(kw, 'stdin', None) printresult = _popget(kw, 'printresult', True) args = map(str, args) assert not kw, ( "Arguments not expected: %s" % ', '.join(kw.keys())) if ' ' in script: assert not args, ( "You cannot give a multi-argument script (%r) " "and arguments (%s)" % (script, args)) script, args = script.split(None, 1) args = shlex.split(args) script = self._find_exe(script) all = [script] + args files_before = self._find_files() proc = subprocess.Popen(all, stdin=subprocess.PIPE, stderr=subprocess.PIPE, stdout=subprocess.PIPE, cwd=cwd, env=self.environ) stdout, stderr = proc.communicate(stdin) files_after = self._find_files() result = ProcResult( self, all, stdin, stdout, stderr, returncode=proc.returncode, files_before=files_before, files_after=files_after) if printresult: print result print '-'*40 if not expect_error: result.assert_no_error() if not expect_stderr: result.assert_no_stderr() return result def _find_exe(self, script_name): if self.script_path is None: script_name = os.path.join(self.cwd, script_name) if not os.path.exists(script_name): raise OSError( "Script %s does not exist" % script_name) return script_name for path in self.script_path: fn = os.path.join(path, script_name) if os.path.exists(fn): return fn raise OSError( "Script %s could not be found in %s" % (script_name, ':'.join(self.script_path))) def _find_files(self): result = {} for fn in os.listdir(self.base_path): if self._ignore_file(fn): continue self._find_traverse(fn, result) return result def _ignore_file(self, fn): if fn in self.ignore_paths: return True if self.ignore_hidden and os.path.basename(fn).startswith('.'): return True return False def _find_traverse(self, path, result): full = os.path.join(self.base_path, path) if os.path.isdir(full): result[path] = FoundDir(self.base_path, path) for fn in os.listdir(full): fn = os.path.join(path, fn) if self._ignore_file(fn): continue self._find_traverse(fn, result) else: result[path] = FoundFile(self.base_path, path) def clear(self): """ Delete all the files in the base directory. """ if os.path.exists(self.base_path): shutil.rmtree(self.base_path) os.mkdir(self.base_path) def writefile(self, path, content=None, frompath=None): """ Write a file to the given path. If ``content`` is given then that text is written, otherwise the file in ``frompath`` is used. ``frompath`` is relative to ``self.template_path`` """ full = os.path.join(self.base_path, path) if not os.path.exists(os.path.dirname(full)): os.makedirs(os.path.dirname(full)) f = open(full, 'wb') if content is not None: f.write(content) if frompath is not None: if self.template_path: frompath = os.path.join(self.template_path, frompath) f2 = open(frompath, 'rb') f.write(f2.read()) f2.close() f.close() return FoundFile(self.base_path, path) class ProcResult(object): """ Represents the results of running a command in `TestFileEnvironment <class-paste.fixture.TestFileEnvironment.html>`_. Attributes to pay particular attention to: ``stdout``, ``stderr``: What is produced ``files_created``, ``files_deleted``, ``files_updated``: Dictionaries mapping filenames (relative to the ``base_dir``) to `FoundFile <class-paste.fixture.FoundFile.html>`_ or `FoundDir <class-paste.fixture.FoundDir.html>`_ objects. """ def __init__(self, test_env, args, stdin, stdout, stderr, returncode, files_before, files_after): self.test_env = test_env self.args = args self.stdin = stdin self.stdout = stdout self.stderr = stderr self.returncode = returncode self.files_before = files_before self.files_after = files_after self.files_deleted = {} self.files_updated = {} self.files_created = files_after.copy() for path, f in files_before.items(): if path not in files_after: self.files_deleted[path] = f continue del self.files_created[path] if f.mtime < files_after[path].mtime: self.files_updated[path] = files_after[path] def assert_no_error(self): __tracebackhide__ = True assert self.returncode == 0, ( "Script returned code: %s" % self.returncode) def assert_no_stderr(self): __tracebackhide__ = True if self.stderr: print 'Error output:' print self.stderr raise AssertionError("stderr output not expected") def __str__(self): s = ['Script result: %s' % ' '.join(self.args)] if self.returncode: s.append(' return code: %s' % self.returncode) if self.stderr: s.append('-- stderr: --------------------') s.append(self.stderr) if self.stdout: s.append('-- stdout: --------------------') s.append(self.stdout) for name, files, show_size in [ ('created', self.files_created, True), ('deleted', self.files_deleted, True), ('updated', self.files_updated, True)]: if files: s.append('-- %s: -------------------' % name) files = files.items() files.sort() last = '' for path, f in files: t = ' %s' % _space_prefix(last, path, indent=4, include_sep=False) last = path if show_size and f.size != 'N/A': t += ' (%s bytes)' % f.size s.append(t) return '\n'.join(s) class FoundFile(object): """ Represents a single file found as the result of a command. Has attributes: ``path``: The path of the file, relative to the ``base_path`` ``full``: The full path ``stat``: The results of ``os.stat``. Also ``mtime`` and ``size`` contain the ``.st_mtime`` and ``st_size`` of the stat. ``bytes``: The contents of the file. You may use the ``in`` operator with these objects (tested against the contents of the file), and the ``.mustcontain()`` method. """ file = True dir = False def __init__(self, base_path, path): self.base_path = base_path self.path = path self.full = os.path.join(base_path, path) self.stat = os.stat(self.full) self.mtime = self.stat.st_mtime self.size = self.stat.st_size self._bytes = None def bytes__get(self): if self._bytes is None: f = open(self.full, 'rb') self._bytes = f.read() f.close() return self._bytes bytes = property(bytes__get) def __contains__(self, s): return s in self.bytes def mustcontain(self, s): __tracebackhide__ = True bytes = self.bytes if s not in bytes: print 'Could not find %r in:' % s print bytes assert s in bytes def __repr__(self): return '<%s %s:%s>' % ( self.__class__.__name__, self.base_path, self.path) class FoundDir(object): """ Represents a directory created by a command. """ file = False dir = True def __init__(self, base_path, path): self.base_path = base_path self.path = path self.full = os.path.join(base_path, path) self.size = 'N/A' self.mtime = 'N/A' def __repr__(self): return '<%s %s:%s>' % ( self.__class__.__name__, self.base_path, self.path) def _popget(d, key, default=None): """ Pop the key if found (else return default) """ if key in d: return d.pop(key) return default def _space_prefix(pref, full, sep=None, indent=None, include_sep=True): """ Anything shared by pref and full will be replaced with spaces in full, and full returned. """ if sep is None: sep = os.path.sep pref = pref.split(sep) full = full.split(sep) padding = [] while pref and full and pref[0] == full[0]: if indent is None: padding.append(' ' * (len(full[0]) + len(sep))) else: padding.append(' ' * indent) full.pop(0) pref.pop(0) if padding: if include_sep: return ''.join(padding) + sep + sep.join(full) else: return ''.join(padding) + sep.join(full) else: return sep.join(full) def _make_pattern(pat): if pat is None: return None if isinstance(pat, (str, unicode)): pat = re.compile(pat) if hasattr(pat, 'search'): return pat.search if callable(pat): return pat assert 0, ( "Cannot make callable pattern object out of %r" % pat) def setup_module(module=None): """ This is used by py.test if it is in the module, so you can import this directly. Use like:: from paste.fixture import setup_module """ # Deprecated June 2008 import warnings warnings.warn( 'setup_module is deprecated', DeprecationWarning, 2) if module is None: # The module we were called from must be the module... module = sys._getframe().f_back.f_globals['__name__'] if isinstance(module, (str, unicode)): module = sys.modules[module] if hasattr(module, 'reset_state'): module.reset_state() def html_unquote(v): """ Unquote (some) entities in HTML. (incomplete) """ for ent, repl in [(' ', ' '), ('>', '>'), ('<', '<'), ('"', '"'), ('&', '&')]: v = v.replace(ent, repl) return v