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Edit File: launchpad.py
# Copyright 2008 Canonical Ltd. # This file is part of launchpadlib. # # launchpadlib is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as # published by the Free Software Foundation, either version 3 of the # License, or (at your option) any later version. # # launchpadlib is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with launchpadlib. If not, see # <http://www.gnu.org/licenses/>. """Testing API allows fake data to be used in unit tests. Testing launchpadlib code is tricky, because it depends so heavily on a remote, unique webservice: Launchpad. This module helps you write tests for your launchpadlib application that can be run locally and quickly. Say you were writing some code that needed to call out to Launchpad and get the branches owned by the logged-in person, and then do something to them. For example, something like this:: def collect_unique_names(lp): names = [] for branch in lp.me.getBranches(): names.append(branch.unique_name) return names To test it, you would first prepare a L{FakeLaunchpad} object, and give it some sample data of your own devising:: lp = FakeLaunchpad() my_branches = [dict(unique_name='~foo/bar/baz')] lp.me = dict(getBranches: lambda status: my_branches) Then, in the test, call your own code and assert that it behaves correctly given the data. names = collect_unique_names(lp) self.assertEqual(['~foo/bar/baz'], names) And that's it. The L{FakeLaunchpad} code uses a WADL file to type-check any objects created or returned. This means you can be sure that you won't accidentally store sample data with misspelled attribute names. The WADL file that we use by default is for version 1.0 of the Launchpad API. If you want to work against a more recent version of the API, download the WADL yourself (see <https://help.launchpad.net/API/Hacking>) and construct your C{FakeLaunchpad} like this:: from wadllib.application import Application lp = FakeLaunchpad( Application('https://api.launchpad.net/devel/', '/path/to/wadl.xml')) Where 'https://api.launchpad.net/devel/' is the URL for the WADL file, found also in the WADL file itelf. """ from datetime import datetime try: from collections.abc import Callable except ImportError: from collections import Callable import sys if sys.version_info[0] >= 3: basestring = str JSON_MEDIA_TYPE = "application/json" class IntegrityError(Exception): """Raised when bad sample data is used with a L{FakeLaunchpad} instance.""" class FakeLaunchpad(object): """A fake Launchpad API class for unit tests that depend on L{Launchpad}. @param application: A C{wadllib.application.Application} instance for a Launchpad WADL definition file. """ def __init__( self, credentials=None, service_root=None, cache=None, timeout=None, proxy_info=None, application=None, ): if application is None: from launchpadlib.testing.resources import get_application application = get_application() root_resource = FakeRoot(application) self.__dict__.update( { "credentials": credentials, "_application": application, "_service_root": root_resource, } ) def __setattr__(self, name, values): """Set sample data. @param name: The name of the attribute. @param values: A dict representing an object matching a resource defined in Launchpad's WADL definition. """ service_root = self._service_root setattr(service_root, name, values) def __getattr__(self, name): """Get sample data. @param name: The name of the attribute. """ return getattr(self._service_root, name) @classmethod def login( cls, consumer_name, token_string, access_secret, service_root=None, cache=None, timeout=None, proxy_info=None, ): """Convenience for setting up access credentials.""" from launchpadlib.testing.resources import get_application return cls(object(), application=get_application()) @classmethod def get_token_and_login( cls, consumer_name, service_root=None, cache=None, timeout=None, proxy_info=None, ): """Get credentials from Launchpad and log into the service root.""" from launchpadlib.testing.resources import get_application return cls(object(), application=get_application()) @classmethod def login_with( cls, consumer_name, service_root=None, launchpadlib_dir=None, timeout=None, proxy_info=None, ): """Log in to Launchpad with possibly cached credentials.""" from launchpadlib.testing.resources import get_application return cls(object(), application=get_application()) def find_by_attribute(element, name, value): """Find children of element where attribute name is equal to value.""" return [child for child in element if child.get(name) == value] def strip_suffix(string, suffix): if string.endswith(suffix): return string[: -len(suffix)] return string class FakeResource(object): """ Represents valid sample data on L{FakeLaunchpad} instances. @ivar _children: A dictionary of child resources, each of type C{FakeResource}. @ivar _values: A dictionary of values associated with this resource. e.g. "display_name" or "date_created". The values of this dictionary will never be C{FakeResource}s. Note that if C{_children} has a key, then C{_values} will not, and vice versa. That is, they are distinct dicts. """ special_methods = ["lp_save"] def __init__(self, application, resource_type, values=None): """Construct a FakeResource. @param application: A C{waddlib.application.Application} instance. @param resource_type: A C{wadllib.application.ResourceType} instance for this resource. @param values: Optionally, a dict representing attribute key/value pairs for this resource. """ if values is None: values = {} self.__dict__.update( { "_application": application, "_resource_type": resource_type, "_children": {}, "_values": values, } ) def __setattr__(self, name, value): """Set sample data. C{value} can be a dict representing an object matching a resource defined in the WADL definition. Alternatively, C{value} could be a resource itself. Either way, it is checked for type correctness against the WADL definition. """ if isinstance(value, dict): self._children[name] = self._create_child_resource(name, value) else: values = {} values.update(self._values) values[name] = value # Confirm that the new 'values' dict is a partial type match for # this resource. self._check_resource_type(self._resource_type, values) self.__dict__["_values"] = values def __getattr__(self, name, _marker=object()): """Get sample data. @param name: The name of the attribute. """ result = self._children.get(name, _marker) if result is _marker: result = self._values.get(name, _marker) if isinstance(result, Callable): return self._wrap_method(name, result) if name in self.special_methods: return lambda: True if result is _marker: raise AttributeError("%r has no attribute '%s'" % (self, name)) return result def _wrap_method(self, name, method): """Wrapper around methods validates results when it's run. @param name: The name of the method. @param method: The callable to run when the method is called. """ def wrapper(*args, **kwargs): return self._run_method(name, method, *args, **kwargs) return wrapper def _create_child_resource(self, name, values): """ Ensure that C{values} is a valid object for the C{name} attribute and return a resource object to represent it as API data. @param name: The name of the attribute to check the C{values} object against. @param values: A dict with key/value pairs representing attributes and methods of an object matching the C{name} resource's definition. @return: A L{FakeEntry} for an ordinary resource or a L{FakeCollection} for a resource that represents a collection. @raises IntegrityError: Raised if C{name} isn't a valid attribute for this resource or if C{values} isn't a valid object for the C{name} attribute. """ root_resource = self._application.get_resource_by_path("") is_link = False param = root_resource.get_parameter( name + "_collection_link", JSON_MEDIA_TYPE ) if param is None: is_link = True param = root_resource.get_parameter( name + "_link", JSON_MEDIA_TYPE ) if param is None: raise IntegrityError("%s isn't a valid property." % (name,)) resource_type = self._get_resource_type(param) if is_link: self._check_resource_type(resource_type, values) return FakeEntry(self._application, resource_type, values) else: name, child_resource_type = self._check_collection_type( resource_type, values ) return FakeCollection( self._application, resource_type, values, name, child_resource_type, ) def _get_resource_type(self, param): """Get the resource type for C{param}. @param param: An object representing a C{_link} or C{_collection_link} parameter. @return: The resource type for the parameter, or None if one isn't available. """ [link] = list(param.tag) name = link.get("resource_type") return self._application.get_resource_type(name) def _check_resource_type(self, resource_type, partial_object): """ Ensure that attributes and methods defined for C{partial_object} match attributes and methods defined for C{resource_type}. @param resource_type: The resource type to check the attributes and methods against. @param partial_object: A dict with key/value pairs representing attributes and methods. """ for name, value in partial_object.items(): if isinstance(value, Callable): # Performs an integrity check. self._get_method(resource_type, name) else: self._check_attribute(resource_type, name, value) def _check_collection_type(self, resource_type, partial_object): """ Ensure that attributes and methods defined for C{partial_object} match attributes and methods defined for C{resource_type}. Collection entries are treated specially. @param resource_type: The resource type to check the attributes and methods against. @param partial_object: A dict with key/value pairs representing attributes and methods. @return: (name, resource_type), where 'name' is the name of the child resource type and 'resource_type' is the corresponding resource type. """ name = None child_resource_type = None for name, value in partial_object.items(): if name == "entries": name, child_resource_type = self._check_entries( resource_type, value ) elif isinstance(value, Callable): # Performs an integrity check. self._get_method(resource_type, name) else: self._check_attribute(resource_type, name, value) return name, child_resource_type def _find_representation_id(self, resource_type, name): """Find the WADL XML id for the representation of C{resource_type}. Looks in the WADL for the first representiation associated with the method for a resource type. :return: An XML id (a string). """ get_method = self._get_method(resource_type, name) for response in get_method: for representation in response: representation_url = representation.get("href") if representation_url is not None: return self._application.lookup_xml_id(representation_url) def _check_attribute(self, resource_type, name, value): """ Ensure that C{value} is a valid C{name} attribute on C{resource_type}. Does this by finding the representation for the default, canonical GET method (as opposed to the many "named" GET methods that exist.) @param resource_type: The resource type to check the attribute against. @param name: The name of the attribute. @param value: The value to check. """ xml_id = self._find_representation_id(resource_type, "get") self._check_attribute_representation(xml_id, name, value) def _check_attribute_representation(self, xml_id, name, value): """ Ensure that C{value} is a valid value for C{name} with the representation definition matching C{xml_id}. @param xml_id: The XML ID for the representation to check the attribute against. @param name: The name of the attribute. @param value: The value to check. @raises IntegrityError: Raised if C{name} is not a valid attribute name or if C{value}'s type is not valid for the attribute. """ representation = self._application.representation_definitions[xml_id] parameters = {child.get("name"): child for child in representation.tag} if name not in parameters: raise IntegrityError("%s not found" % name) parameter = parameters[name] data_type = parameter.get("type") if data_type is None: if not isinstance(value, basestring): raise IntegrityError( "%s is not a str or unicode for %s" % (value, name) ) elif data_type == "xsd:dateTime": if not isinstance(value, datetime): raise IntegrityError( "%s is not a datetime for %s" % (value, name) ) def _get_method(self, resource_type, name): """Get the C{name} method on C{resource_type}. @param resource_type: The method's resource type. @param name: The name of the method. @raises IntegrityError: Raised if a method called C{name} is not available on C{resource_type}. @return: The XML element for the method from the WADL. """ if name in self.special_methods: return resource_name = resource_type.tag.get("id") xml_id = "%s-%s" % (resource_name, name) try: [get_method] = find_by_attribute(resource_type.tag, "id", xml_id) except ValueError: raise IntegrityError( "%s is not a method of %s" % (name, resource_name) ) return get_method def _run_method(self, name, method, *args, **kwargs): """Run a method and convert its result into a L{FakeResource}. If the result represents an object it is validated against the WADL definition before being returned. @param name: The name of the method. @param method: A callable. @param args: Arguments to pass to the callable. @param kwargs: Keyword arguments to pass to the callable. @return: A L{FakeResource} representing the result if it's an object. @raises IntegrityError: Raised if the return value from the method isn't valid. """ result = method(*args, **kwargs) if name in self.special_methods: return result else: return self._create_resource(self._resource_type, name, result) def _create_resource(self, resource_type, name, result): """Create a new L{FakeResource} for C{resource_type} method call result. @param resource_type: The resource type of the method. @param name: The name of the method on C{resource_type}. @param result: The result of calling the method. @raises IntegrityError: Raised if C{result} is an invalid return value for the method. @return: A L{FakeResource} for C{result}. """ resource_name = resource_type.tag.get("id") if resource_name == name: name = "get" xml_id = self._find_representation_id(resource_type, name) xml_id = strip_suffix(xml_id, "-full") if xml_id not in self._application.resource_types: xml_id += "-resource" result_resource_type = self._application.resource_types[xml_id] self._check_resource_type(result_resource_type, result) # XXX: Should this wrap in collection? return FakeResource(self._application, result_resource_type, result) def _get_child_resource_type(self, resource_type): """Get the name and resource type for the entries in a collection. @param resource_type: The resource type for a collection. @return: (name, resource_type), where 'name' is the name of the child resource type and 'resource_type' is the corresponding resource type. """ xml_id = self._find_representation_id(resource_type, "get") representation_definition = ( self._application.representation_definitions[xml_id] ) [entry_links] = find_by_attribute( representation_definition.tag, "name", "entry_links" ) [resource_type] = list(entry_links) resource_type_url = resource_type.get("resource_type") resource_type_name = resource_type_url.split("#")[1] return ( resource_type_name, self._application.get_resource_type(resource_type_url), ) def _check_entries(self, resource_type, entries): """Ensure that C{entries} are valid for a C{resource_type} collection. @param resource_type: The resource type of the collection the entries are in. @param entries: A list of dicts representing objects in the collection. @return: (name, resource_type), where 'name' is the name of the child resource type and 'resource_type' is the corresponding resource type. """ name, child_resource_type = self._get_child_resource_type( resource_type ) for entry in entries: self._check_resource_type(child_resource_type, entry) return name, child_resource_type def __repr__(self): """ The resource type, identifier if available, and memory address are used to generate a representation of this fake resource. """ name = self._resource_type.tag.get("id") key = "object" key = self._values.get("id", key) key = self._values.get("name", key) return "<%s %s %s at %s>" % ( self.__class__.__name__, name, key, hex(id(self)), ) class FakeRoot(FakeResource): """Fake root object for an application.""" def __init__(self, application): """Create a L{FakeResource} for the service root of C{application}. @param application: A C{wadllib.application.Application} instance. """ resource_type = application.get_resource_type( application.markup_url + "#service-root" ) super(FakeRoot, self).__init__(application, resource_type) class FakeEntry(FakeResource): """A fake resource for an entry.""" class FakeCollection(FakeResource): """A fake resource for a collection.""" def __init__( self, application, resource_type, values=None, name=None, child_resource_type=None, ): super(FakeCollection, self).__init__( application, resource_type, values ) self.__dict__.update( {"_name": name, "_child_resource_type": child_resource_type} ) def __iter__(self): """Iterate items if this resource has an C{entries} attribute.""" entries = self._values.get("entries", ()) for entry in entries: yield self._create_resource( self._child_resource_type, self._name, entry ) def __getitem__(self, key): """Look up a slice, or a subordinate resource by index. @param key: An individual object key or a C{slice}. @raises IndexError: Raised if an invalid key is provided. @return: A L{FakeResource} instance for the entry matching C{key}. """ entries = list(self) if isinstance(key, slice): start = key.start or 0 stop = key.stop if start < 0: raise ValueError( "Collection slices must have a nonnegative " "start point." ) if stop < 0: raise ValueError( "Collection slices must have a definite, " "nonnegative end point." ) return entries.__getitem__(key) elif isinstance(key, int): return entries.__getitem__(key) else: raise IndexError("Do not support index lookups yet.")