@@ -2145,3 +2145,266 @@ def generate_random_string(length, ignore_str=string.punctuation,
str += tmp
length -= 1
return str
+
+
+class VersionableClass(object):
+ """
+ VersionableClass provides class hierarchy which automatically select right
+ version of class. Class manipulation is used for this reason.
+ By this reason is:
+ Advantage) Only one version is working in one process. Class is changed in
+ whole process.
+ Disadvantage) Only one version is working in one process.
+
+ Example of usage (in base_utils_unittest):
+
+ class FooC(object):
+ pass
+
+ #Not implemented get_version -> not used for versioning.
+ class VCP(FooC, VersionableClass):
+ def __new__(cls, *args, **kargs):
+ VCP.master_class = VCP
+ return super(VCP, cls).__new__(cls, *args, **kargs)
+
+ def foo(self):
+ pass
+
+ class VC2(VCP, VersionableClass):
+ @staticmethod
+ def get_version():
+ return "get_version_from_system"
+
+ @classmethod
+ def is_right_version(cls, version):
+ if version is not None:
+ if "version is satisfied":
+ return True
+ return False
+
+ def func1(self):
+ print "func1"
+
+ def func2(self):
+ print "func2"
+
+ # get_version could be inherited.
+ class VC3(VC2, VersionableClass):
+ @classmethod
+ def is_right_version(cls, version):
+ if version is not None:
+ if "version+1 is satisfied":
+ return True
+ return False
+
+ def func2(self):
+ print "func2_2"
+
+ class M(VCP):
+ pass
+
+ m = M() # <- When class is constructed the right version is
+ # automatically selected. In this case VC3 is selected.
+ m.func2() # call VC3.func2(m)
+ m.func1() # call VC2.func1(m)
+ m.foo() # call VC1.foo(m)
+
+ # When controlled "program" version is changed then is necessary call
+ check_repair_versions or recreate object.
+
+ m.check_repair_versions()
+
+ # priority of class. (change place where is method searched first in group
+ # of verisonable class.)
+
+ class PP(VersionableClass):
+ def __new__(cls, *args, **kargs):
+ PP.master_class = PP
+ return super(PP, cls).__new__(cls, *args, **kargs)
+
+ class PP2(PP, VersionableClass):
+ @staticmethod
+ def get_version():
+ return "get_version_from_system"
+
+ @classmethod
+ def is_right_version(cls, version):
+ if version is not None:
+ if "version is satisfied":
+ return True
+ return False
+
+ def func1(self):
+ print "PP func1"
+
+ class N(VCP, PP):
+ pass
+
+ n = N()
+
+ n.func1() # -> "func2"
+
+ n.set_priority_class(PP, [VCP, PP])
+
+ n.func1() # -> "PP func1"
+
+ Necessary for using:
+ 1) Subclass of versionable class must have implemented class methods
+ get_version and is_right_version. These two methods are necessary
+ for correct version section. Class without this method will be never
+ chosen like suitable class.
+
+ 2) Every class derived from master_class have to add to class definition
+ inheritance from VersionableClass. Direct inheritance from Versionable
+ Class is use like a mark for manipulation with VersionableClass.
+
+ 3) Master of VersionableClass have to defined class variable
+ cls.master_class.
+ """
+ def __new__(cls, *args, **kargs):
+ cls.check_repair_versions()
+ return super(VersionableClass, cls).__new__(cls, *args, **kargs)
+
+ #VersionableClass class management class.
+
+ @classmethod
+ def check_repair_versions(cls, master_classes=None):
+ """
+ Check version of versionable class and if version not
+ match repair version to correct version.
+
+ @param master_classes: Check and repair only master_class.
+ @type master_classes: list.
+ """
+ if master_classes is None:
+ master_classes = cls._find_versionable_baseclass()
+ for base in master_classes:
+ cls._check_repair_version_class(base)
+
+
+ @classmethod
+ def set_priority_class(cls, prioritized_class, group_classes):
+ """
+ Set class priority. Limited only for change bases class priority inside
+ one subclass.__bases__ after that continue to another class.
+ """
+ def change_position(ccls):
+ if not VersionableClass in ccls.__bases__:
+ bases = list(ccls.__bases__)
+
+ index = None
+ remove_variant = None
+ for i, item in enumerate(ccls.__bases__):
+ if (VersionableClass in item.__bases__ and
+ item.master_class in group_classes):
+ if index is None:
+ index = i
+ if item.master_class is prioritized_class:
+ remove_variant = item
+ bases.remove(item)
+ break
+ else:
+ return
+
+ bases.insert(index, remove_variant)
+ ccls.__bases__ = tuple(bases)
+
+ def find_cls(ccls):
+ change_position(ccls)
+ for base in ccls.__bases__:
+ find_cls(base)
+
+ find_cls(cls)
+
+
+ @classmethod
+ def _check_repair_version_class(cls, master_class):
+ version = None
+ for class_version in master_class._find_versionable_subclass():
+ try:
+ version = class_version.get_version()
+ if class_version.is_right_version(version):
+ cls._switch_by_class(class_version)
+ break
+ except NotImplementedError:
+ continue
+ else:
+ cls._switch_by_class(class_version)
+
+
+ @classmethod
+ def _find_versionable_baseclass(cls):
+ """
+ Find versionable class in master class.
+ """
+ ver_class = []
+ for superclass in cls.mro():
+ if VersionableClass in superclass.__bases__:
+ ver_class.append(superclass.master_class)
+
+ return set(ver_class)
+
+
+ @classmethod
+ def _find_versionable_subclass(cls):
+ """
+ Find versionable subclasses which subclass.master_class == cls
+ """
+ subclasses = [cls]
+ for sub in cls.__subclasses__():
+ if VersionableClass in list(sub.__bases__):
+ subclasses.extend(sub._find_versionable_subclass())
+ return subclasses
+
+
+ @classmethod
+ def _switch_by_class(cls, new_class):
+ """
+ Finds all class with same master_class as new_class in class tree
+ and replaces them by new_class.
+
+ @param new_class: Class for replacing.
+ """
+ def find_replace_class(bases):
+ for base in bases:
+ if (VersionableClass in base.__bases__ and
+ base.master_class == new_class.master_class):
+ bnew = list(bases)
+ bnew[bnew.index(base)] = new_class
+ return tuple(bnew)
+ else:
+ bnew = find_replace_class(base.__bases__)
+ if bnew:
+ base.__bases__ = bnew
+
+ bnew = find_replace_class(cls.__bases__)
+ if bnew:
+ cls.__bases__ = bnew
+
+
+ # Method defined in part below must be defined in
+ # verisonable class subclass.
+
+ @classmethod
+ def get_version(cls):
+ """
+ Get version of installed OpenVSwtich.
+ Must be re-implemented for in child class.
+
+ @return: Version or None when get_version is unsuccessful.
+ """
+ raise NotImplementedError("Method 'get_verison' must be"
+ " implemented in child class")
+
+
+ @classmethod
+ def is_right_version(cls, version):
+ """
+ Check condition for select control class.
+ Function must be re-implemented in new OpenVSwitchControl class.
+ Must be re-implemented for in child class.
+
+ @param version: version of OpenVSwtich
+ """
+ raise NotImplementedError("Method 'is_right_version' must be"
+ " implemented in child class")
@@ -834,5 +834,238 @@ class test_get_random_port(unittest.TestCase):
self.assert_(s.getsockname())
+class test_VersionableClass(unittest.TestCase):
+ def setUp(self):
+ self.god = mock.mock_god(ut=self)
+ self.god.stub_function(base_utils.logging, 'warn')
+ self.god.stub_function(base_utils.logging, 'debug')
+ self.version = 1
+
+
+ def tearDown(self):
+ self.god.unstub_all()
+
+
+ class FooC(object):
+ pass
+
+ #Not implemented get_version -> not used for versioning.
+ class VCP(FooC, base_utils.VersionableClass):
+ def __new__(cls, *args, **kargs):
+ test_VersionableClass.VCP.version = 1 # Only for unittesting.
+ test_VersionableClass.VCP.master_class = test_VersionableClass.VCP
+ return (super(test_VersionableClass.VCP, cls)
+ .__new__(cls, *args, **kargs))
+
+
+ def foo(self):
+ pass
+
+ class VC2(VCP, base_utils.VersionableClass):
+ @classmethod
+ def get_version(cls):
+ return cls.version
+
+ @classmethod
+ def is_right_version(cls, version):
+ if version is not None:
+ if version == 1:
+ return True
+ return False
+
+ def func1(self):
+ logging.info("func1")
+
+ def func2(self):
+ logging.info("func2")
+
+ # get_version could be inherited.
+ class VC3(VC2, base_utils.VersionableClass):
+ @classmethod
+ def is_right_version(cls, version):
+ if version is not None:
+ if version == 2:
+ return True
+ return False
+
+ def func2(self):
+ logging.info("func2_2")
+
+ class PP(base_utils.VersionableClass):
+ def __new__(cls, *args, **kargs):
+ test_VersionableClass.PP.version = 1 # Only for unittesting.
+ test_VersionableClass.PP.master_class = test_VersionableClass.PP
+ return (super(test_VersionableClass.PP, cls)
+ .__new__(cls, *args, **kargs))
+
+ class PP2(PP, base_utils.VersionableClass):
+ @classmethod
+ def get_version(cls):
+ return cls.version
+
+ @classmethod
+ def is_right_version(cls, version):
+ if version is not None:
+ if cls.version == 1:
+ return True
+ return False
+
+ def func1(self):
+ print "PP func1"
+
+
+ class WP(base_utils.VersionableClass):
+ def __new__(cls, *args, **kargs):
+ test_VersionableClass.WP.version = 1 # Only for unittesting.
+ test_VersionableClass.WP.master_class = test_VersionableClass.WP
+ return (super(test_VersionableClass.WP, cls)
+ .__new__(cls, *args, **kargs))
+
+ class WP2(WP, base_utils.VersionableClass):
+ @classmethod
+ def get_version(cls):
+ return cls.version
+
+ def func1(self):
+ print "WP func1"
+
+
+ class N(VCP, PP):
+ pass
+
+ class NN(N):
+ pass
+
+ class M(VCP):
+ pass
+
+ class MM(M):
+ pass
+
+ class W(WP):
+ pass
+
+
+ def test_simple_versioning(self):
+ self.god.stub_function(test_VersionableClass.VCP, "foo")
+ self.god.stub_function(test_VersionableClass.VC2, "func1")
+ self.god.stub_function(test_VersionableClass.VC2, "func2")
+ self.god.stub_function(test_VersionableClass.VC3, "func2")
+
+ test_VersionableClass.VC2.func2.expect_call()
+ test_VersionableClass.VC2.func1.expect_call()
+ test_VersionableClass.VCP.foo.expect_call()
+ test_VersionableClass.VC3.func2.expect_call()
+
+ test_VersionableClass.VC2.func2.expect_call()
+ test_VersionableClass.VC2.func1.expect_call()
+ test_VersionableClass.VCP.foo.expect_call()
+ test_VersionableClass.VC3.func2.expect_call()
+
+ m = test_VersionableClass.M()
+ m.func2() # call VC3.func2(m)
+ m.func1() # call VC2.func1(m)
+ m.foo() # call VC1.foo(m)
+ m.version = 2
+ m.check_repair_versions()
+ m.func2()
+
+ #m.version = 1
+ #m.check_repair_versions()
+
+ mm = test_VersionableClass.MM()
+ mm.func2() # call VC3.func2(m)
+ mm.func1() # call VC2.func1(m)
+ mm.foo() # call VC1.foo(m)
+ mm.version = 2
+ mm.check_repair_versions()
+ mm.func2()
+
+ self.god.check_playback()
+
+ def test_set_class_priority(self):
+ self.god.stub_function(test_VersionableClass.VC2, "func1")
+ self.god.stub_function(test_VersionableClass.VC2, "func2")
+ self.god.stub_function(test_VersionableClass.VC3, "func2")
+ self.god.stub_function(test_VersionableClass.PP2, "func1")
+
+ test_VersionableClass.VC2.func1.expect_call()
+ test_VersionableClass.PP2.func1.expect_call()
+ test_VersionableClass.VC3.func2.expect_call()
+ test_VersionableClass.PP2.func1.expect_call()
+ test_VersionableClass.VC2.func1.expect_call()
+ test_VersionableClass.VC2.func2.expect_call()
+
+ m = test_VersionableClass.N()
+ m.func1()
+ m.set_priority_class(test_VersionableClass.PP,
+ [test_VersionableClass.PP,
+ test_VersionableClass.VCP])
+ m.func1()
+
+ m.version = 2
+ m.check_repair_versions()
+ m.func2()
+ m.func1()
+
+ m.set_priority_class(test_VersionableClass.VCP,
+ [test_VersionableClass.PP,
+ test_VersionableClass.VCP])
+
+ m.func1()
+
+ m.version = 1
+ m.check_repair_versions()
+ m.func2()
+
+ self.god.check_playback()
+
+
+ def test_set_class_priority_deep(self):
+ self.god.stub_function(test_VersionableClass.VC2, "func1")
+ self.god.stub_function(test_VersionableClass.VC2, "func2")
+ self.god.stub_function(test_VersionableClass.VC3, "func2")
+ self.god.stub_function(test_VersionableClass.PP2, "func1")
+
+ test_VersionableClass.VC2.func1.expect_call()
+ test_VersionableClass.PP2.func1.expect_call()
+ test_VersionableClass.VC3.func2.expect_call()
+ test_VersionableClass.PP2.func1.expect_call()
+ test_VersionableClass.VC2.func1.expect_call()
+ test_VersionableClass.VC2.func2.expect_call()
+
+ m = test_VersionableClass.NN()
+ m.func1()
+ m.set_priority_class(test_VersionableClass.PP,
+ [test_VersionableClass.PP,
+ test_VersionableClass.VCP])
+ m.func1()
+
+ m.version = 2
+ m.check_repair_versions()
+ m.func2()
+ m.func1()
+
+ m.set_priority_class(test_VersionableClass.VCP,
+ [test_VersionableClass.PP,
+ test_VersionableClass.VCP])
+
+ m.func1()
+
+ m.version = 1
+ m.check_repair_versions()
+ m.func2()
+
+ self.god.check_playback()
+
+
+ def test_check_not_implemented(self):
+ m = test_VersionableClass.W()
+ self.assertEqual(m.__class__.__bases__,
+ tuple([test_VersionableClass.WP2]),
+ "Class should be WP2 (last defined class in class"
+ " hierarchy).")
+
+
if __name__ == "__main__":
unittest.main()
VersionableClass provides class hierarchy which automatically select right version of class. Class manipulation is used for this reason. Closer description is in autotest/client/shared/base_utils.py class VersionableClass Working example is in autotest/client/shared/base_utils_unittest.py Signed-off-by: Ji?í Župka <jzupka@redhat.com> --- client/shared/base_utils.py | 263 ++++++++++++++++++++++++++++++++++ client/shared/base_utils_unittest.py | 233 ++++++++++++++++++++++++++++++ 2 files changed, 496 insertions(+), 0 deletions(-)