824a9e91c4
Making the global state reference a defined part of the node makes some parts of the block device processing easier and removes the need for other global values. The state is passed to PluginNodeBase.__init__() and expected to be passed into all nodes as they are created. NodeBase.__init__() is updated with the new paramater 'state'. The parameter is removed from the create() call as nodes can simply reference it at any point as "self.state". This is similar to 1cdc8b20373c5d582ea928cfd7334469ff36dbce, except it is based on I68840594a34af28d41d9522addcfd830bd203b97 which loads the node-list from pickled state for later cmd_* calls. Thus we only build the state *once*, at cmd_create() time as we build the node list. Change-Id: I468dbf5134947629f125504513703d6f2cdace59
272 lines
9 KiB
Python
272 lines
9 KiB
Python
# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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import logging
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import networkx as nx
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import os
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from stevedore import extension
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from diskimage_builder.block_device.exception import \
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BlockDeviceSetupException
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from diskimage_builder.block_device.plugin import NodeBase
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from diskimage_builder.block_device.plugin import PluginBase
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logger = logging.getLogger(__name__)
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_extensions = extension.ExtensionManager(
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namespace='diskimage_builder.block_device.plugin',
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invoke_on_load=False)
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# check if a given name is registered as a plugin
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def is_a_plugin(name):
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return any(
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_extensions.map(lambda x: x.name == name))
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def recurse_config(config, parent_base=None):
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"""Convert a config "tree" to it's canonical name/base graph version
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This is a recursive function to convert a YAML layout "tree"
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config into a "flat" graph-based config.
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Arguments:
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:param config: the incoming config dictionary
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:param parent_base: the name of the parent node, if any
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:return: a list of expanded, graph-based config items
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"""
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output = []
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this = {}
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# We should only have one key, with multiple values, being the
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# config entries. e.g. (this was checked by config_tree_to_graph)
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# mkfs:
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# type: ext4
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# label: 1234
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assert len(config.items()) == 1
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for k, v in config.items():
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key = k
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values = v
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# If we don't have a base, we take the parent base; first element
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# can have no base, however.
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if 'base' not in values:
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if parent_base is not None:
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this['base'] = parent_base
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else:
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this['base'] = values['base']
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# If we don't have a name, it is made up as "key_base"
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if 'name' not in values:
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this['name'] = "%s_%s" % (key, this['base'])
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else:
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this['name'] = values['name']
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# Go through the the values dictionary. Either this is a "plugin"
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# key that needs to be recursed, or it is a value that is part of
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# this config entry.
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for nk, nv in values.items():
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if nk == "partitions":
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# "partitions" is a special key of the "partitioning"
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# object. It is a list. Each list-entry gets treated
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# as a top-level entry, so we need to recurse it's
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# keys. But instead of becoming its own entry in the
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# graph, it gets attached to the .partitions attribute
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# of the parent. (see end for example)
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this['partitions'] = []
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for partition in nv:
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new_part = {}
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for pk, pv in partition.items():
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if is_a_plugin(pk):
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output.extend(
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recurse_config({pk: pv}, partition['name']))
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else:
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new_part[pk] = pv
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new_part['base'] = this['base']
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this['partitions'].append(new_part)
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elif is_a_plugin(nk):
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# is this key a plugin directive? If so, we recurse
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# into it.
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output.extend(recurse_config({nk: nv}, this['name']))
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else:
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# A value entry; just save as part of this entry
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this[nk] = nv
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output.append({k: this})
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return output
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def config_tree_to_graph(config):
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"""Turn a YAML config into a graph config
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Our YAML config is a list of entries. Each
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Arguments:
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:parm config: YAML config; either graph or tree
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:return: graph-based result
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"""
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output = []
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for entry in config:
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# Top-level entries should be a dictionary and have a plugin
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# registered for it
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if not isinstance(entry, dict):
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raise BlockDeviceSetupException(
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"Config entry not a dict: %s" % entry)
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keys = list(entry.keys())
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if len(keys) != 1:
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raise BlockDeviceSetupException(
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"Config entry top-level should be a single dict: %s" % entry)
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if not is_a_plugin(keys[0]):
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raise BlockDeviceSetupException(
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"Config entry is not a plugin value: %s" % entry)
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output.extend(recurse_config(entry))
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return output
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def create_graph(config, default_config, state):
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"""Generate configuration digraph
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Generate the configuration digraph from the config
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:param config: graph configuration file
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:param default_config: default parameters (from --params)
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:param state: reference to global state dictionary.
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Passed to :func:`PluginBase.__init__`
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:return: tuple with the graph object (a :class:`nx.Digraph`),
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ordered list of :class:`NodeBase` objects
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"""
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# This is the directed graph of nodes: each parse method must
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# add the appropriate nodes and edges.
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dg = nx.DiGraph()
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for config_entry in config:
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# this should have been checked by generate_config
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assert len(config_entry) == 1
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logger.debug("Config entry [%s]", config_entry)
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cfg_obj_name = list(config_entry.keys())[0]
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cfg_obj_val = config_entry[cfg_obj_name]
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# Instantiate a "plugin" object, passing it the
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# configuration entry
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# XXX : would a "factory" pattern for plugins, where we
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# make a method call on an object stevedore has instantiated
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# be better here?
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if not is_a_plugin(cfg_obj_name):
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raise BlockDeviceSetupException(
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("Config element [%s] is not implemented" % cfg_obj_name))
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plugin = _extensions[cfg_obj_name].plugin
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assert issubclass(plugin, PluginBase)
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cfg_obj = plugin(cfg_obj_val, default_config, state)
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# Ask the plugin for the nodes it would like to insert
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# into the graph. Some plugins, such as partitioning,
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# return multiple nodes from one config entry.
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nodes = cfg_obj.get_nodes()
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assert isinstance(nodes, list)
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for node in nodes:
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# plugins should return nodes...
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assert isinstance(node, NodeBase)
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# ensure node names are unique. networkx by default
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# just appends the attribute to the node dict for
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# existing nodes, which is not what we want.
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if node.name in dg.node:
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raise BlockDeviceSetupException(
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"Duplicate node name: %s" % (node.name))
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logger.debug("Adding %s : %s", node.name, node)
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dg.add_node(node.name, obj=node)
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# Now find edges
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for name, attr in dg.nodes(data=True):
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obj = attr['obj']
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# Unfortunately, we can not determine node edges just from
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# the configuration file. It's not always simply the
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# "base:" pointer. So ask nodes for a list of nodes they
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# want to point to. *mostly* it's just base: ... but
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# mounting is different.
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# edges_from are the nodes that point to us
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# edges_to are the nodes we point to
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edges_from, edges_to = obj.get_edges()
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logger.debug("Edges for %s: f:%s t:%s", name,
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edges_from, edges_to)
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for edge_from in edges_from:
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if edge_from not in dg.node:
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raise BlockDeviceSetupException(
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"Edge not defined: %s->%s" % (edge_from, name))
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dg.add_edge(edge_from, name)
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for edge_to in edges_to:
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if edge_to not in dg.node:
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raise BlockDeviceSetupException(
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"Edge not defined: %s->%s" % (name, edge_to))
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dg.add_edge(name, edge_to)
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# this can be quite helpful debugging but needs pydotplus which
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# isn't in requirements. for debugging, do
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# .tox/py27/bin/pip install pydotplus
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# DUMP_CONFIG_GRAPH=1 tox -e py27 -- specific_test
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# dotty /tmp/graph_dump.dot
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# to see helpful output
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if 'DUMP_CONFIG_GRAPH' in os.environ:
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nx.nx_pydot.write_dot(dg, '/tmp/graph_dump.dot')
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# Topological sort (i.e. create a linear array that satisfies
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# dependencies) and return the object list
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call_order_nodes = nx.topological_sort(dg)
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logger.debug("Call order: %s", list(call_order_nodes))
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call_order = [dg.node[n]['obj'] for n in call_order_nodes]
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return dg, call_order
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#
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# On partitioning: objects
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#
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# To be concrete --
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#
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# partitioning:
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# base: loop0
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# name: mbr
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# partitions:
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# - name: partition1
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# foo: bar
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# mkfs:
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# type: xfs
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# mount:
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# mount_point: /
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#
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# gets turned into the following graph:
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#
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# partitioning:
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# partitions:
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# - name: partition1
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# base: image0
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# foo: bar
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#
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# mkfs:
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# base: partition1
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# name: mkfs_partition1
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# type: xfs
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#
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# mount:
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# base: mkfs_partition1
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# name: mount_mkfs_partition1
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# mount_point: /
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