AIL-framework/doc/generate_graph_data.py

132 lines
5.1 KiB
Python
Executable File

#!/usr/bin/env python3
# -*-coding:UTF-8 -*
import os
import argparse
def main():
content = ""
modules = {}
all_modules = []
curr_module = ""
streamingPub = {}
streamingSub = {}
path = os.path.join(os.environ['AIL_BIN'], 'packages/modules.cfg') # path to module config file
path2 = os.path.join(os.environ['AIL_HOME'], 'doc/all_modules.txt') # path and name of the output file, this file contain a list off all modules
parser = argparse.ArgumentParser(
description='''This script is a part of the Analysis Information Leak
framework. It create a graph that represent the flow between modules".''',
epilog='Example: ./generate_graph_data.py 0')
parser.add_argument('type', type=int, default=0,
help='''The graph type (default 0),
0: module graph,
1: data graph''',
choices=[0, 1], action='store')
parser.add_argument('spline', type=str, default="ortho",
help='''The graph splines type, spline:default , ortho: orthogonal''',
choices=["ortho", "spline"], action='store')
args = parser.parse_args()
with open(path, 'r') as f:
# get all modules, subscriber and publisher for each module
for line in f:
if line[0] != '#':
# module name
if line[0] == '[':
curr_name = line.replace('[','').replace(']','').replace('\n', '').replace(' ', '')
all_modules.append(curr_name)
modules[curr_name] = {'sub': [], 'pub': []}
curr_module = curr_name
elif curr_module != "": # searching for sub or pub
# subscriber list
if line.startswith("subscribe"):
curr_subscribers = [w for w in line.replace('\n', '').replace(' ', '').split('=')[1].split(',')]
modules[curr_module]['sub'] = curr_subscribers
for sub in curr_subscribers:
streamingSub[sub] = curr_module
# publisher list
elif line.startswith("publish"):
curr_publishers = [w for w in line.replace('\n', '').replace(' ', '').split('=')[1].split(',')]
modules[curr_module]['pub'] = curr_publishers
for pub in curr_publishers:
streamingPub[pub] = curr_module
else:
continue
output_set_graph = set()
with open(path2, 'w') as f2:
for e in all_modules:
f2.write(e+"\n")
output_text_graph = ""
# flow between modules
if args.type == 0:
for module in modules.keys():
for stream_in in modules[module]['sub']:
if stream_in not in streamingPub.keys():
output_set_graph.add("\"" + stream_in + "\" [color=darkorange1] ;\n")
output_set_graph.add("\"" + stream_in + "\"" + "->" + module + ";\n")
else:
output_set_graph.add("\"" + streamingPub[stream_in] + "\"" + "->" + module + ";\n")
for stream_out in modules[module]['pub']:
if stream_out not in streamingSub.keys():
#output_set_graph.add("\"" + stream_out + "\" [color=darkorange1] ;\n")
output_set_graph.add("\"" + module + "\"" + "->" + stream_out + ";\n")
else:
output_set_graph.add("\"" + module + "\"" + "->" + streamingSub[stream_out] + ";\n")
# graph head
output_text_graph += "digraph unix {\n"
output_text_graph += "graph [pad=\"0.5\"];\n"
output_text_graph += "size=\"25,25\";\n"
output_text_graph += "splines="
output_text_graph += args.spline
output_text_graph += ";\n"
output_text_graph += "node [color=lightblue2, style=filled];\n"
# flow between data
if args.type == 1:
for module in modules.keys():
for stream_in in modules[module]['sub']:
for stream_out in modules[module]['pub']:
if stream_in not in streamingPub.keys():
output_set_graph.add("\"" + stream_in + "\" [color=darkorange1] ;\n")
output_set_graph.add("\"" + stream_in + "\"" + "->" + stream_out + ";\n")
# graph head
output_text_graph += "digraph unix {\n"
output_text_graph += "graph [pad=\"0.5\"];\n"
output_text_graph += "size=\"25,25\";\n"
output_text_graph += "splines="
output_text_graph += args.spline
output_text_graph += ";\n"
output_text_graph += "node [color=tan, style=filled];\n"
# create final txt graph
for elem in output_set_graph:
output_text_graph += elem
output_text_graph += "}"
print(output_text_graph)
if __name__ == "__main__":
main()