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Add [generator] statistics

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niclas 2024-01-31 11:32:12 +01:00
parent b53616024f
commit 45bd5f7ddb
1 changed files with 113 additions and 40 deletions
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153
tools/mkdocs/generator.py
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@ -19,6 +19,19 @@ for f in os.listdir(pathClusters):
galaxies_fnames.sort()
galaxy_output = {}
# Variables for statistics
public_relations_count = 0
private_relations_count = 0
private_clusters = []
public_clusters = []
relation_count_dict = {}
synonyms_count_dict = {}
empty_uuids_dict = {}
intro = """
# MISP Galaxy
@ -131,8 +144,12 @@ class Cluster():
self.entry += f' "synonyms" in the meta part typically refer to alternate names or labels that are associated with a particular {self.value}.\n\n'
self.entry += f' | Known Synonyms |\n'
self.entry += f' |---------------------|\n'
global synonyms_count_dict
synonyms_count = 0
for synonym in sorted(self.meta['synonyms']):
synonyms_count += 1
self.entry += f' | `{synonym}` |\n'
synonyms_count_dict[self.value] = synonyms_count
def _create_uuid_entry(self):
if self.uuid:
@ -167,40 +184,78 @@ class Cluster():
for meta in sorted(self.meta.keys()):
if meta not in excluded_meta:
self.entry += f' | {meta} | {self.meta[meta]} |\n'
def get_related_clusters(self, depth=-1, visited=None):
global public_relations_count
global private_relations_count
global public_clusters
global private_clusters
global empty_uuids_dict
empty_uuids = 0
if visited is None:
visited = set()
def _get_related_clusters(self, depht=4):
if depht == 0:
return []
related_clusters = []
if self.related_list:
for cluster in self.related_list:
if cluster["dest-uuid"] not in cluster_dict:
print(f'Cluster {cluster} not found in dictionary')
related_clusters.append(cluster_dict[cluster["dest-uuid"]])
if depht > 1:
related_clusters += cluster_dict[cluster["dest-uuid"]]._get_related_clusters(depht=depht-1)
if depth == 0 or not self.related_list:
return related_clusters
for cluster in self.related_list:
dest_uuid = cluster["dest-uuid"]
if dest_uuid not in cluster_dict:
# Check if UUID is empty
if not dest_uuid:
empty_uuids += 1
continue
private_relations_count += 1
if dest_uuid not in private_clusters:
private_clusters.append(dest_uuid)
related_clusters.append((self, Cluster(value="Private Cluster", uuid=dest_uuid, date=None, description=None, related_list=None, meta=None)))
continue
if dest_uuid in visited:
continue
visited.add(dest_uuid)
related_cluster = cluster_dict[dest_uuid]
public_relations_count += 1
if dest_uuid not in public_clusters:
public_clusters.append(dest_uuid)
related_clusters.append((self, related_cluster))
if depth > 1 or depth == -1:
new_depth = depth - 1 if depth > 1 else -1
related_clusters += related_cluster.get_related_clusters(depth=new_depth, visited=visited)
if empty_uuids > 0:
empty_uuids_dict[self.value] = empty_uuids
for cluster in related_clusters:
if (cluster[1], cluster[0]) in related_clusters:
related_clusters.remove(cluster)
return related_clusters
def _create_related_entry(self):
if self.related_list and cluster_dict:
related_clusters = []
for cluster in self.related_list:
if cluster["dest-uuid"] not in cluster_dict:
print(f'Cluster {cluster} not found in dictionary')
related_clusters.append(cluster_dict[cluster["dest-uuid"]].value)
related_clusters = self.get_related_clusters()
self.entry += f'\n'
self.entry += f'??? info "Related clusters"\n'
self.entry += f'\n'
self.entry += f'```mermaid\n'
self.entry += f'graph TD\n'
for related in self.related_list:
self.entry += f' {self.value} --> {related}\n'
self.entry += f'```\n'
self.entry += f' ```mermaid\n'
self.entry += f' graph TD\n'
global relation_count_dict
relation_count = 0
for relation in related_clusters:
relation_count += 1
# print(self.value)
# print(relation)
# print(relation[0].value)
# print(relation[1].value)
self.entry += f' {relation[0].uuid}[{relation[0].value}] --- {relation[1].uuid}[{relation[1].value}]\n'
self.entry += f' ```\n'
relation_count_dict[self.value] = relation_count
def create_entry(self):
self._create_title_entry()
self._create_description_entry()
@ -211,8 +266,6 @@ class Cluster():
self._create_related_entry()
return self.entry
galaxies = []
for galaxy in galaxies_fnames:
with open(os.path.join(pathClusters, galaxy)) as fr:
@ -224,8 +277,8 @@ for galaxy in galaxies:
for cluster in galaxy.clusters:
cluster_dict[cluster.uuid] = cluster
test = cluster_dict['f0ec2df5-2e38-4df3-970d-525352006f2e']
print(test._get_related_clusters())
# test = cluster_dict['f0ec2df5-2e38-4df3-970d-525352006f2e']
# print(test.get_related_clusters())
def create_index(intro, contributing, galaxies):
index_output = intro
@ -240,17 +293,37 @@ def create_galaxies(galaxies):
galaxy_output[galaxie.json_file_name] = galaxie.create_entry()
return galaxy_output
# if __name__ == "__main__":
# index_output = create_index(intro, contributing, galaxies)
# galaxy_output = create_galaxies(galaxies)
if __name__ == "__main__":
index_output = create_index(intro, contributing, galaxies)
galaxy_output = create_galaxies(galaxies)
# with open(os.path.join(pathSite, 'index.md'), "w") as index:
# index.write(index_output)
if not os.path.exists(pathSite):
os.mkdir(pathSite)
with open(os.path.join(pathSite, 'index.md'), "w") as index:
index.write(index_output)
for f in galaxies_fnames:
cluster_filename = f.split('.')[0]
pathSiteCluster = os.path.join(pathSite, cluster_filename)
if not os.path.exists(pathSiteCluster):
os.mkdir(pathSiteCluster)
with open(os.path.join(pathSiteCluster, 'index.md'), "w") as index:
index.write(galaxy_output[cluster_filename])
print(f"Public relations: {public_relations_count}")
print(f"Private relations: {private_relations_count}")
print(f"Total relations: {public_relations_count + private_relations_count}")
print(f"Percetage of private relations: {private_relations_count / (public_relations_count + private_relations_count) * 100}%")
print(f"Private clusters: {len(private_clusters)}")
print(f"Public clusters: {len(public_clusters)}")
print(f"Total clusters: {len(private_clusters) + len(public_clusters)}")
print(f"Percentage of private clusters: {len(private_clusters) / (len(private_clusters) + len(public_clusters)) * 100}%")
print(f"Average number of relations per cluster: {sum(relation_count_dict.values()) / len(relation_count_dict)}")
print(f"Max number of relations per cluster: {max(relation_count_dict.values())} from {max(relation_count_dict, key=relation_count_dict.get)}")
print(f"Min number of relations per cluster: {min(relation_count_dict.values())} from {min(relation_count_dict, key=relation_count_dict.get)}")
print(f"Average number of synonyms per cluster: {sum(synonyms_count_dict.values()) / len(synonyms_count_dict)}")
print(f"Max number of synonyms per cluster: {max(synonyms_count_dict.values())} from {max(synonyms_count_dict, key=synonyms_count_dict.get)}")
print(f"Min number of synonyms per cluster: {min(synonyms_count_dict.values())} from {min(synonyms_count_dict, key=synonyms_count_dict.get)}")
print(f"Number of empty UUIDs: {sum(empty_uuids_dict.values())}")
print(f"Empty UUIDs per cluster: {empty_uuids_dict}")
# for f in galaxies_fnames:
# cluster_filename = f.split('.')[0]
# pathSiteCluster = os.path.join(pathSite, cluster_filename)
# if not os.path.exists(pathSiteCluster):
# os.mkdir(pathSiteCluster)
# with open(os.path.join(pathSiteCluster, 'index.md'), "w") as index:
# index.write(galaxy_output[cluster_filename])