unleashed-firmware/scripts/flipper/utils/fstree.py

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from enum import Enum
from collections import OrderedDict
class FsNode:
class NodeType(Enum):
File = 0
Directory = 1
def __init__(self, name: str, nodetype: "FsNode.Type", **kwargs):
self.name = name
self.nodetype = nodetype
self.data = kwargs
self.parent = None
self.children = OrderedDict()
def addChild(self, node: "FsNode"):
self.children[node.name] = node
node.parent = self
def addDirectory(self, path):
fragments = path.split("/")
name = fragments[-1]
fragments = fragments[:-1]
parent_node = self.traverse(fragments)
if not parent_node:
raise Exception(f"No parent node found for: {path}")
parent_node.addChild(FsNode(name, FsNode.NodeType.Directory))
def addFile(self, path, md5, size):
fragments = path.split("/")
name = fragments[-1]
fragments = fragments[:-1]
parent_node = self.traverse(fragments)
if not parent_node:
raise Exception(f"No parent node found for: {path}")
parent_node.addChild(FsNode(name, FsNode.NodeType.File, md5=md5, size=size))
def getChild(self, name):
return self.children[name]
def traverse(self, fragments):
current = self
for fragment in fragments:
current = current.getChild(fragment)
if not current:
break
return current
def getPath(self):
fragments = []
current = self
while current.parent:
fragments.append(current.name)
current = current.parent
return "/".join(reversed(fragments))
def dump(self):
ret = {}
ret["name"] = (self.name,)
ret["type"] = (self.nodetype,)
ret["path"] = (self.getPath(),)
if len(self.children):
ret["children"] = [node.dump() for node in self.children.values()]
return ret
def walk_nodes(node: FsNode):
yield node
for child in node.children.values():
yield from walk_nodes(child)
# Returns filenames: [only_in_left], [changed], [only_in_right]
def compare_fs_trees(left: FsNode, right: FsNode):
# import pprint
# pprint.pprint(left.dump())
# pprint.pprint(right.dump())
left_dict = dict((node.getPath(), node) for node in walk_nodes(left))
right_dict = dict((node.getPath(), node) for node in walk_nodes(right))
left_names = set(left_dict.keys())
right_names = set(right_dict.keys())
common_names = left_names.intersection(right_names)
return (
list(left_names - right_names),
list(
name
for name in common_names
if left_dict[name].data != right_dict[name].data
),
list(right_names - left_names),
)