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import graph.oval_graph |
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2
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import os |
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3
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import py |
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4
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import json |
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5
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6
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7
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def any_test_treeEvaluation(tree, expect,file_name=None): |
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8
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if file_name is not None and tree is None: |
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9
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if file_name.startswith('AND'): |
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10
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dir='test_data_and' |
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11
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elif file_name.startswith('OR'): |
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12
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dir='test_data_or' |
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13
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elif file_name.startswith('XOR'): |
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14
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dir='test_data_xor' |
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15
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elif file_name.startswith('ONE'): |
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dir='test_data_one' |
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else: |
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dir='test_data_NONE' |
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19
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20
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src='test_data/'+dir+'/'+file_name |
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21
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_dir = os.path.dirname(os.path.realpath(__file__)) |
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22
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FIXTURE_DIR = py.path.local(_dir) / src |
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23
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data = dict() |
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24
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with open(str(FIXTURE_DIR), "r") as f: |
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data = json.load(f) |
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assert graph.oval_graph.restore_dict_to_tree(data).evaluate_tree() == expect |
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27
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else: |
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28
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assert tree.evaluate_tree() == expect |
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29
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30
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31
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def any_test_parsing_and_evaluate_scan_rule(src, rule_id, result): |
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32
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_dir = os.path.dirname(os.path.realpath(__file__)) |
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33
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FIXTURE_DIR = py.path.local(_dir) / src |
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34
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35
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oval_tree = graph.oval_graph.build_nodes_form_xml( |
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36
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str(FIXTURE_DIR), rule_id) |
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37
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any_test_treeEvaluation(oval_tree, result) |
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38
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39
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40
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def any_get_test_data_json(src): |
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41
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_dir = os.path.dirname(os.path.realpath(__file__)) |
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42
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FIXTURE_DIR = py.path.local(_dir) / src |
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43
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44
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with open(str(FIXTURE_DIR), 'r') as f: |
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data = json.load(f) |
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return data |
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47
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48
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49
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def any_test_create_node_dict_for_sigmaJs(Tree, out): |
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50
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assert Tree._create_node(0, 0) == out |
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51
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52
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53
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def get_simple_tree(): |
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54
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return graph.oval_graph.OvalNode(1, 'operator', 'and', [ |
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55
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graph.oval_graph.OvalNode(2, 'value', "true"), |
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56
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graph.oval_graph.OvalNode(3, 'value', "false"), |
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57
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graph.oval_graph.OvalNode(4, 'operator', 'or', [ |
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58
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graph.oval_graph.OvalNode(5, 'value', "false"), |
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59
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graph.oval_graph.OvalNode(6, 'value', "true") |
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60
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] |
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61
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) |
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62
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] |
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63
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) |
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64
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65
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66
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def get_dict_of_simple_tree(): |
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67
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return get_simple_tree().save_tree_to_dict() |
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68
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69
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70
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def any_test_transformation_tree_to_Json_for_SigmaJs( |
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71
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src, test_data_src, rule_id): |
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72
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test_data = any_get_test_data_json(test_data_src) |
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73
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74
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oval_tree = graph.oval_graph.build_nodes_form_xml(src, rule_id) |
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75
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76
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if oval_tree.node_id == rule_id: |
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77
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out_data = oval_tree.to_sigma_dict(0, 0) |
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78
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for i in range(len(out_data['nodes'])): |
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79
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assert out_data['nodes'][i]['label'] == test_data['nodes'][i]['label'] |
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80
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assert out_data['nodes'][i]['text'] == test_data['nodes'][i]['text'] |
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81
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assert out_data['nodes'][i]['url'] == test_data['nodes'][i]['url'] |
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82
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OpenSCAP /
oval-graph
