# Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import logging from diskimage_builder.block_device.config import config_tree_to_graph from diskimage_builder.block_device.config import create_graph from diskimage_builder.block_device.exception import \ BlockDeviceSetupException from diskimage_builder.block_device.tests.test_base import TestBase logger = logging.getLogger(__name__) class TestConfig(TestBase): """Helper for setting up and reading a config""" def setUp(self): super(TestConfig, self).setUp() # previously we mocked some globals here ... class TestGraphGeneration(TestConfig): """Extra helper class for testing graph generation""" def setUp(self): super(TestGraphGeneration, self).setUp() self.fake_default_config = { 'build-dir': '/fake', 'image-size': '1000', 'image-dir': '/fake', 'mount-base': '/fake', } class TestConfigParsing(TestConfig): """Test parsing config file into a graph""" # test an entry in the config not being a valid plugin def test_config_bad_plugin(self): config = self.load_config_file('bad_plugin.yaml') self.assertRaises(BlockDeviceSetupException, config_tree_to_graph, config) # test a config that has multiple keys for a top-level entry def test_config_multikey_node(self): config = self.load_config_file('multi_key_node.yaml') self.assertRaisesRegex(BlockDeviceSetupException, "Config entry top-level should be a single " "dict:", config_tree_to_graph, config) # a graph should remain the same def test_graph(self): graph = self.load_config_file('simple_graph.yaml') parsed_graph = config_tree_to_graph(graph) self.assertCountEqual(parsed_graph, graph) # equivalence of simple tree to graph def test_simple_tree(self): tree = self.load_config_file('simple_tree.yaml') graph = self.load_config_file('simple_graph.yaml') parsed_graph = config_tree_to_graph(tree) self.assertCountEqual(parsed_graph, graph) # equivalence of a deeper tree to graph def test_deep_tree(self): tree = self.load_config_file('deep_tree.yaml') graph = self.load_config_file('deep_graph.yaml') parsed_graph = config_tree_to_graph(tree) self.assertCountEqual(parsed_graph, graph) # equivalence of a complicated multi-partition tree to graph def test_multipart_tree(self): tree = self.load_config_file('multiple_partitions_tree.yaml') graph = self.load_config_file('multiple_partitions_graph.yaml') parsed_graph = config_tree_to_graph(tree) logger.debug(parsed_graph) self.assertCountEqual(parsed_graph, graph) class TestCreateGraph(TestGraphGeneration): # Test a graph with bad edge pointing to an invalid node def test_invalid_missing(self): config = self.load_config_file('bad_edge_graph.yaml') self.assertRaisesRegex(BlockDeviceSetupException, "Edge not defined: this_is_not_a_node", create_graph, config, self.fake_default_config, {}) # Test a graph with bad edge pointing to an invalid node def test_duplicate_name(self): config = self.load_config_file('duplicate_name.yaml') self.assertRaisesRegex(BlockDeviceSetupException, "Duplicate node name: " "this_is_a_duplicate", create_graph, config, self.fake_default_config, {}) # Test digraph generation from deep_graph config file def test_deep_graph_generator(self): config = self.load_config_file('deep_graph.yaml') graph, call_order = create_graph(config, self.fake_default_config, {}) call_order_list = [n.name for n in call_order] # manually created from deep_graph.yaml # Note unlike below, the sort here is stable because the graph # doesn't have multiple paths with only one partition call_order_names = ['image0', 'root', 'mkfs_root', 'mount_mkfs_root', 'fstab_mount_mkfs_root'] self.assertListEqual(call_order_list, call_order_names) # Test multiple partition digraph generation def test_multiple_partitions_graph_generator(self): config = self.load_config_file('multiple_partitions_graph.yaml') graph, call_order = create_graph(config, self.fake_default_config, {}) call_order_list = [n.name for n in call_order] # The sort creating call_order_list is unstable. # We want to ensure we see the "partitions" object in # root->var->var_log order root_pos = call_order_list.index('root') var_pos = call_order_list.index('var') var_log_pos = call_order_list.index('var_log') self.assertGreater(var_pos, root_pos) self.assertGreater(var_log_pos, var_pos) # Ensure mkfs happens after partition mkfs_root_pos = call_order_list.index('mkfs_root') self.assertLess(root_pos, mkfs_root_pos) mkfs_var_pos = call_order_list.index('mkfs_var') self.assertLess(var_pos, mkfs_var_pos) mkfs_var_log_pos = call_order_list.index('mkfs_var_log') self.assertLess(var_log_pos, mkfs_var_log_pos)