lib/xos-genx/tests/general_security_test.py - xos - Gitiles

 import unittest
 from xosgenx.generator import XOSGenerator
 from helpers import FakeArgs, XProtoTestHelpers

 """The function below is for eliminating warnings arising due to the missing policy_output_enforcer,
 which is generated and loaded dynamically.
 """
 def policy_output_enforcer(x, y):
     raise Exception("Security enforcer not generated. Test failed.")
     return False

 """
 The tests below use the Python code target to generate
 Python security policies, set up an appropriate environment and execute the Python.
 """
 class XProtoSecurityTest(unittest.TestCase):
     def setUp(self):
         self.target = XProtoTestHelpers.write_tmp_target("{{ xproto_fol_to_python_test('output', proto.policies.test_policy, None, '0') }}")

     def test_constant(self):
         xproto = \
 """
     policy test_policy < True >
 """
         args = FakeArgs()
         args.inputs = xproto
         args.target = self.target

         output = XOSGenerator.generate(args)

         exec(output) # This loads the generated function, which should look like this:

         """
         def policy_output_enforcer(obj, ctx):
             i1 = True
             return i1
         """

         verdict = policy_output_enforcer({}, {})
         self.assertTrue(verdict)

     def test_equal(self):
         xproto = \
 """
     policy test_policy < ctx.user = obj.user >
 """

         args = FakeArgs()
         args.inputs = xproto
         args.target = self.target

         output = XOSGenerator.generate(args)

         exec(output) # This loads the generated function, which should look like this:

         """
         def policy_output_enforcer(obj, ctx):
             i1 = (ctx.user == obj.user)
             return i1
         """

         obj = FakeArgs()
 	obj.user = 1
         ctx = FakeArgs()
 	ctx.user = 1

         verdict = policy_output_enforcer(obj, ctx)

     def test_bin(self):
         xproto = \
 """
     policy test_policy < ctx.is_admin = True | obj.empty = True>
 """

         args = FakeArgs()
         args.inputs = xproto
         args.target = self.target

         output = XOSGenerator.generate(args)
         exec(output) # This loads the generated function, which should look like this:

         """
 	def policy_output_enforcer(obj, ctx):
 	    i2 = (ctx.is_admin == True)
 	    i3 = (obj.empty == True)
 	    i1 = (i2 or i3)
 	    return i1
         """

         obj = FakeArgs()
 	obj.empty = True

 	ctx = FakeArgs()
 	ctx.is_admin = True

         verdict = policy_output_enforcer(obj, ctx)

         self.assertTrue(verdict)


     def test_exists(self):
         xproto = \
 """
     policy test_policy < exists Privilege: Privilege.object_id = obj.id >
 """
 	args = FakeArgs()
         args.inputs = xproto
         args.target = self.target

         output = XOSGenerator.generate(args)
         exec(output) # This loads the generated function, which should look like this:

         """
 	def policy_output_enforcer(obj, ctx):
 	    i1 = Privilege.objects.filter(object_id=obj.id)
     	    return i1
         """

         self.assertTrue(policy_output_enforcer is not None)

     def test_python(self):
         xproto = \
 """
     policy test_policy < {{ "jack" in ["the", "box"] }} = False >
 """
 	args = FakeArgs()
         args.inputs = xproto
         args.target = self.target
         output = XOSGenerator.generate(args)
         exec(output) # This loads the generated function, which should look like this:

         """
         def policy_output_enforcer(obj, ctx):
             i2 = ('jack' in ['the', 'box'])
             i1 = (i2 == False)
             return i1
         """

         self.assertTrue(policy_output_enforcer({}, {}) is True)

     def test_forall(self):
         # This one we only parse
         xproto = \
 """
     policy test_policy < forall Credential: Credential.obj_id = obj_id >
 """

         args = FakeArgs()
         args.inputs = xproto
         args.target = self.target

         output = XOSGenerator.generate(args)
         """
         def policy_output_enforcer(obj, ctx):
             i2 = Credential.objects.filter((~ Q(obj_id=obj_id)))[0]
             i1 = (not i2)
             return i1
         """
         exec(output)

 if __name__ == '__main__':
     unittest.main()
	import unittest
	from xosgenx.generator import XOSGenerator
	from helpers import FakeArgs, XProtoTestHelpers

	"""The function below is for eliminating warnings arising due to the missing policy_output_enforcer,
	which is generated and loaded dynamically.
	"""
	def policy_output_enforcer(x, y):
	raise Exception("Security enforcer not generated. Test failed.")
	return False

	"""
	The tests below use the Python code target to generate
	Python security policies, set up an appropriate environment and execute the Python.
	"""
	class XProtoSecurityTest(unittest.TestCase):
	def setUp(self):
	self.target = XProtoTestHelpers.write_tmp_target("{{ xproto_fol_to_python_test('output', proto.policies.test_policy, None, '0') }}")

	def test_constant(self):
	xproto = \
	"""
	policy test_policy < True >
	"""
	args = FakeArgs()
	args.inputs = xproto
	args.target = self.target

	output = XOSGenerator.generate(args)

	exec(output) # This loads the generated function, which should look like this:

	"""
	def policy_output_enforcer(obj, ctx):
	i1 = True
	return i1
	"""

	verdict = policy_output_enforcer({}, {})
	self.assertTrue(verdict)

	def test_equal(self):
	xproto = \
	"""
	policy test_policy < ctx.user = obj.user >
	"""

	args = FakeArgs()
	args.inputs = xproto
	args.target = self.target

	output = XOSGenerator.generate(args)

	exec(output) # This loads the generated function, which should look like this:

	"""
	def policy_output_enforcer(obj, ctx):
	i1 = (ctx.user == obj.user)
	return i1
	"""

	obj = FakeArgs()
	obj.user = 1
	ctx = FakeArgs()
	ctx.user = 1

	verdict = policy_output_enforcer(obj, ctx)

	def test_bin(self):
	xproto = \
	"""
	policy test_policy < ctx.is_admin = True \| obj.empty = True>
	"""

	args = FakeArgs()
	args.inputs = xproto
	args.target = self.target

	output = XOSGenerator.generate(args)
	exec(output) # This loads the generated function, which should look like this:

	"""
	def policy_output_enforcer(obj, ctx):
	i2 = (ctx.is_admin == True)
	i3 = (obj.empty == True)
	i1 = (i2 or i3)
	return i1
	"""

	obj = FakeArgs()
	obj.empty = True

	ctx = FakeArgs()
	ctx.is_admin = True

	verdict = policy_output_enforcer(obj, ctx)

	self.assertTrue(verdict)


	def test_exists(self):
	xproto = \
	"""
	policy test_policy < exists Privilege: Privilege.object_id = obj.id >
	"""
	args = FakeArgs()
	args.inputs = xproto
	args.target = self.target

	output = XOSGenerator.generate(args)
	exec(output) # This loads the generated function, which should look like this:

	"""
	def policy_output_enforcer(obj, ctx):
	i1 = Privilege.objects.filter(object_id=obj.id)
	return i1
	"""

	self.assertTrue(policy_output_enforcer is not None)

	def test_python(self):
	xproto = \
	"""
	policy test_policy < {{ "jack" in ["the", "box"] }} = False >
	"""
	args = FakeArgs()
	args.inputs = xproto
	args.target = self.target
	output = XOSGenerator.generate(args)
	exec(output) # This loads the generated function, which should look like this:

	"""
	def policy_output_enforcer(obj, ctx):
	i2 = ('jack' in ['the', 'box'])
	i1 = (i2 == False)
	return i1
	"""

	self.assertTrue(policy_output_enforcer({}, {}) is True)

	def test_forall(self):
	# This one we only parse
	xproto = \
	"""
	policy test_policy < forall Credential: Credential.obj_id = obj_id >
	"""

	args = FakeArgs()
	args.inputs = xproto
	args.target = self.target

	output = XOSGenerator.generate(args)
	"""
	def policy_output_enforcer(obj, ctx):
	i2 = Credential.objects.filter((~ Q(obj_id=obj_id)))[0]
	i1 = (not i2)
	return i1
	"""
	exec(output)

	if __name__ == '__main__':
	unittest.main()