# (c) 2012-2014, Michael DeHaan # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type from ansible.compat.tests import unittest from ansible.compat.tests.mock import patch, MagicMock from ansible.errors import AnsibleError, AnsibleParserError from ansible.executor.task_executor import TaskExecutor from ansible.playbook.play_context import PlayContext from ansible.plugins import action_loader, lookup_loader from ansible.parsing.yaml.objects import AnsibleUnicode from units.mock.loader import DictDataLoader class TestTaskExecutor(unittest.TestCase): def setUp(self): pass def tearDown(self): pass def test_task_executor_init(self): fake_loader = DictDataLoader({}) mock_host = MagicMock() mock_task = MagicMock() mock_play_context = MagicMock() mock_shared_loader = MagicMock() new_stdin = None job_vars = dict() mock_queue = MagicMock() te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = mock_shared_loader, rslt_q = mock_queue, ) def test_task_executor_run(self): fake_loader = DictDataLoader({}) mock_host = MagicMock() mock_task = MagicMock() mock_task._role._role_path = '/path/to/role/foo' mock_play_context = MagicMock() mock_shared_loader = MagicMock() mock_queue = MagicMock() new_stdin = None job_vars = dict() te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = mock_shared_loader, rslt_q = mock_queue, ) te._get_loop_items = MagicMock(return_value=None) te._execute = MagicMock(return_value=dict()) res = te.run() te._get_loop_items = MagicMock(return_value=[]) res = te.run() te._get_loop_items = MagicMock(return_value=['a','b','c']) te._run_loop = MagicMock(return_value=[dict(item='a', changed=True), dict(item='b', failed=True), dict(item='c')]) res = te.run() te._get_loop_items = MagicMock(side_effect=AnsibleError("")) res = te.run() self.assertIn("failed", res) def test_task_executor_get_loop_items(self): fake_loader = DictDataLoader({}) mock_host = MagicMock() mock_task = MagicMock() mock_task.loop = 'items' mock_task.loop_args = ['a', 'b', 'c'] mock_play_context = MagicMock() mock_shared_loader = MagicMock() mock_shared_loader.lookup_loader = lookup_loader new_stdin = None job_vars = dict() mock_queue = MagicMock() te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = mock_shared_loader, rslt_q = mock_queue, ) items = te._get_loop_items() self.assertEqual(items, ['a', 'b', 'c']) def test_task_executor_run_loop(self): items = ['a', 'b', 'c'] fake_loader = DictDataLoader({}) mock_host = MagicMock() def _copy(exclude_parent=False, exclude_tasks=False): new_item = MagicMock() return new_item mock_task = MagicMock() mock_task.copy.side_effect = _copy mock_play_context = MagicMock() mock_shared_loader = MagicMock() mock_queue = MagicMock() new_stdin = None job_vars = dict() te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = mock_shared_loader, rslt_q = mock_queue, ) def _execute(variables): return dict(item=variables.get('item')) te._squash_items = MagicMock(return_value=items) te._execute = MagicMock(side_effect=_execute) res = te._run_loop(items) self.assertEqual(len(res), 3) def test_task_executor_squash_items(self): items = ['a', 'b', 'c'] fake_loader = DictDataLoader({}) mock_host = MagicMock() loop_var = 'item' def _evaluate_conditional(templar, variables): item = variables.get(loop_var) if item == 'b': return False return True mock_task = MagicMock() mock_task.evaluate_conditional.side_effect = _evaluate_conditional mock_play_context = MagicMock() mock_shared_loader = None mock_queue = MagicMock() new_stdin = None job_vars = dict(pkg_mgr='yum') te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = mock_shared_loader, rslt_q = mock_queue, ) # # No replacement # mock_task.action = 'yum' new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, ['a', 'b', 'c']) self.assertIsInstance(mock_task.args, MagicMock) mock_task.action = 'foo' mock_task.args={'name': '{{item}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, ['a', 'b', 'c']) self.assertEqual(mock_task.args, {'name': '{{item}}'}) mock_task.action = 'yum' mock_task.args={'name': 'static'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, ['a', 'b', 'c']) self.assertEqual(mock_task.args, {'name': 'static'}) mock_task.action = 'yum' mock_task.args={'name': '{{pkg_mgr}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, ['a', 'b', 'c']) self.assertEqual(mock_task.args, {'name': '{{pkg_mgr}}'}) mock_task.action = '{{unknown}}' mock_task.args={'name': '{{item}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, ['a', 'b', 'c']) self.assertEqual(mock_task.args, {'name': '{{item}}'}) # Could do something like this to recover from bad deps in a package job_vars = dict(pkg_mgr='yum', packages=['a', 'b']) items = [ 'absent', 'latest' ] mock_task.action = 'yum' mock_task.args = {'name': '{{ packages }}', 'state': '{{ item }}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{ packages }}', 'state': '{{ item }}'}) # Maybe should raise an error in this case. The user would have to specify: # - yum: name="{{ packages[item] }}" # with_items: # - ['a', 'b'] # - ['foo', 'bar'] # you can't use a list as a dict key so that would probably throw # an error later. If so, we can throw it now instead. # Squashing in this case would not be intuitive as the user is being # explicit in using each list entry as a key. job_vars = dict(pkg_mgr='yum', packages={ "a": "foo", "b": "bar", "foo": "baz", "bar": "quux" }) items = [['a', 'b'], ['foo', 'bar']] mock_task.action = 'yum' mock_task.args = {'name': '{{ packages[item] }}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{ packages[item] }}'}) # # Replaces # items = ['a', 'b', 'c'] mock_task.action = 'yum' mock_task.args={'name': '{{item}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, [['a','c']]) self.assertEqual(mock_task.args, {'name': ['a','c']}) mock_task.action = '{{pkg_mgr}}' mock_task.args={'name': '{{item}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) self.assertEqual(new_items, [['a', 'c']]) self.assertEqual(mock_task.args, {'name': ['a','c']}) # New loop_var mock_task.action = 'yum' mock_task.args = {'name': '{{a_loop_var_item}}'} mock_task.loop_control = {'loop_var': 'a_loop_var_item'} loop_var = 'a_loop_var_item' new_items = te._squash_items(items=items, loop_var='a_loop_var_item', variables=job_vars) self.assertEqual(new_items, [['a', 'c']]) self.assertEqual(mock_task.args, {'name': ['a','c']}) loop_var = 'item' # # These are presently not optimized but could be in the future. # Expected output if they were optimized is given as a comment # Please move these to a different section if they are optimized # # Squashing lists job_vars = dict(pkg_mgr='yum') items = [['a', 'b'], ['foo', 'bar']] mock_task.action = 'yum' mock_task.args = {'name': '{{ item }}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) #self.assertEqual(new_items, [['a', 'b', 'foo', 'bar']]) #self.assertEqual(mock_task.args, {'name': ['a', 'b', 'foo', 'bar']}) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{ item }}'}) # Retrieving from a dict items = ['a', 'b', 'foo'] mock_task.action = 'yum' mock_task.args = {'name': '{{ packages[item] }}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) #self.assertEqual(new_items, [['foo', 'baz']]) #self.assertEqual(mock_task.args, {'name': ['foo', 'baz']}) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{ packages[item] }}'}) # Another way to retrieve from a dict job_vars = dict(pkg_mgr='yum') items = [{'package': 'foo'}, {'package': 'bar'}] mock_task.action = 'yum' mock_task.args = {'name': '{{ item["package"] }}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) #self.assertEqual(new_items, [['foo', 'bar']]) #self.assertEqual(mock_task.args, {'name': ['foo', 'bar']}) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{ item["package"] }}'}) items = [dict(name='a', state='present'), dict(name='b', state='present'), dict(name='c', state='present')] mock_task.action = 'yum' mock_task.args={'name': '{{item.name}}', 'state': '{{item.state}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) #self.assertEqual(new_items, [dict(name=['a', 'b', 'c'], state='present')]) #self.assertEqual(mock_task.args, {'name': ['a', 'b', 'c'], 'state': 'present'}) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{item.name}}', 'state': '{{item.state}}'}) items = [dict(name='a', state='present'), dict(name='b', state='present'), dict(name='c', state='absent')] mock_task.action = 'yum' mock_task.args={'name': '{{item.name}}', 'state': '{{item.state}}'} new_items = te._squash_items(items=items, loop_var='item', variables=job_vars) #self.assertEqual(new_items, [dict(name=['a', 'b'], state='present'), # dict(name='c', state='absent')]) #self.assertEqual(mock_task.args, {'name': '{{item.name}}', 'state': '{{item.state}}'}) self.assertEqual(new_items, items) self.assertEqual(mock_task.args, {'name': '{{item.name}}', 'state': '{{item.state}}'}) def test_task_executor_execute(self): fake_loader = DictDataLoader({}) mock_host = MagicMock() mock_task = MagicMock() mock_task.args = dict() mock_task.retries = 0 mock_task.delay = -1 mock_task.register = 'foo' mock_task.until = None mock_task.changed_when = None mock_task.failed_when = None mock_task.post_validate.return_value = None # mock_task.async cannot be left unset, because on Python 3 MagicMock() # > 0 raises a TypeError There are two reasons for using the value 1 # here: on Python 2 comparing MagicMock() > 0 returns True, and the # other reason is that if I specify 0 here, the test fails. ;) mock_task.async = 1 mock_task.poll = 0 mock_play_context = MagicMock() mock_play_context.post_validate.return_value = None mock_play_context.update_vars.return_value = None mock_connection = MagicMock() mock_connection.set_host_overrides.return_value = None mock_connection._connect.return_value = None mock_action = MagicMock() mock_queue = MagicMock() shared_loader = None new_stdin = None job_vars = dict(omit="XXXXXXXXXXXXXXXXXXX") te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = shared_loader, rslt_q = mock_queue, ) te._get_connection = MagicMock(return_value=mock_connection) te._get_action_handler = MagicMock(return_value=mock_action) mock_action.run.return_value = dict(ansible_facts=dict()) res = te._execute() mock_task.changed_when = MagicMock(return_value=AnsibleUnicode("1 == 1")) res = te._execute() mock_task.changed_when = None mock_task.failed_when = MagicMock(return_value=AnsibleUnicode("1 == 1")) res = te._execute() mock_task.failed_when = None mock_task.evaluate_conditional.return_value = False res = te._execute() mock_task.evaluate_conditional.return_value = True mock_task.args = dict(_raw_params='foo.yml', a='foo', b='bar') mock_task.action = 'include' res = te._execute() def test_task_executor_poll_async_result(self): fake_loader = DictDataLoader({}) mock_host = MagicMock() mock_task = MagicMock() mock_task.async = 0.1 mock_task.poll = 0.05 mock_play_context = MagicMock() mock_connection = MagicMock() mock_action = MagicMock() mock_queue = MagicMock() shared_loader = MagicMock() shared_loader.action_loader = action_loader new_stdin = None job_vars = dict(omit="XXXXXXXXXXXXXXXXXXX") te = TaskExecutor( host = mock_host, task = mock_task, job_vars = job_vars, play_context = mock_play_context, new_stdin = new_stdin, loader = fake_loader, shared_loader_obj = shared_loader, rslt_q = mock_queue, ) te._connection = MagicMock() def _get(*args, **kwargs): mock_action = MagicMock() mock_action.run.return_value = dict(stdout='') return mock_action # testing with some bad values in the result passed to poll async, # and with a bad value returned from the mock action with patch.object(action_loader, 'get', _get): mock_templar = MagicMock() res = te._poll_async_result(result=dict(), templar=mock_templar) self.assertIn('failed', res) res = te._poll_async_result(result=dict(ansible_job_id=1), templar=mock_templar) self.assertIn('failed', res) def _get(*args, **kwargs): mock_action = MagicMock() mock_action.run.return_value = dict(finished=1) return mock_action # now testing with good values with patch.object(action_loader, 'get', _get): mock_templar = MagicMock() res = te._poll_async_result(result=dict(ansible_job_id=1), templar=mock_templar) self.assertEqual(res, dict(finished=1))