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import sys, re
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from collections import defaultdict
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from slither.detectors.variables.unused_state_variables import UnusedStateVars
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from slither.detectors.attributes.incorrect_solc import IncorrectSolc
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from slither.detectors.attributes.constant_pragma import ConstantPragma
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from slither.detectors.naming_convention.naming_convention import NamingConvention
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from slither.detectors.functions.external_function import ExternalFunction
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from slither.detectors.variables.possible_const_state_variables import ConstCandidateStateVars
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from slither.detectors.attributes.const_functions import ConstantFunctions
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from slither.slithir.operations import InternalCall
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from slither.core.expressions.call_expression import CallExpression
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from slither.core.expressions.expression import Expression
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from slither.core.expressions.identifier import Identifier
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from slither_format.format_unused_state import FormatUnusedState
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from slither_format.format_solc_version import FormatSolcVersion
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from slither_format.format_pragma import FormatPragma
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from slither_format.format_naming_convention import FormatNamingConvention
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from slither_format.format_external_function import FormatExternalFunction
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from slither_format.format_constable_states import FormatConstableStates
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from slither_format.format_constant_function import FormatConstantFunction
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all_detectors = {
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'unused-state': UnusedStateVars,
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'solc-version': IncorrectSolc,
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'pragma': ConstantPragma,
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'naming-convention': NamingConvention,
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'external-function': ExternalFunction,
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'constable-states' : ConstCandidateStateVars,
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'constant-function': ConstantFunctions
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}
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def slither_format(args, slither):
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patches = defaultdict(list)
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detectors_to_run = choose_detectors(args)
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for detector in detectors_to_run:
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slither.register_detector(detector)
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results = []
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detector_results = slither.run_detectors()
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detector_results = [x for x in detector_results if x] # remove empty results
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detector_results = [item for sublist in detector_results for item in sublist] # flatten
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results.extend(detector_results)
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number_of_slither_results = get_number_of_slither_results(detector_results)
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apply_detector_results(slither, patches, detector_results)
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sort_and_flag_overlapping_patches(patches)
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prune_overlapping_patches(args, patches)
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if args.verbose_json:
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print_patches_json(number_of_slither_results, patches)
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if args.verbose_test:
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print_patches(number_of_slither_results, patches)
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apply_patches(slither, patches)
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def sort_and_flag_overlapping_patches(patches):
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for file in patches:
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n = len(patches[file])
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for i in range(n):
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for j in range (0,n-i-1):
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# Sort check
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if int(patches[file][j]['start']) > int(patches[file][j+1]['start']):
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temp = patches[file][j+1]
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patches[file][j+1] = patches[file][j]
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patches[file][j] = temp
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# Overlap check
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if (int(patches[file][j]['start']) >= int(patches[file][j+1]['start']) and
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int(patches[file][j]['start']) <= int(patches[file][j+1]['end'])):
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patches[file][j]['overlaps'] = "Yes"
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patches[file][j+1]['overlaps'] = "Yes"
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def is_overlap_patch(args, patch):
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if 'overlaps' in patch:
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if args.verbose_test:
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print("Overlapping patch won't be applied!")
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print("xDetector: " + patch['detector'])
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print("xOld string: " + patch['old_string'].replace("\n",""))
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print("xNew string: " + patch['new_string'].replace("\n",""))
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print("xLocation start: " + str(patch['start']))
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print("xLocation end: " + str(patch['end']))
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return True
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return False
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def prune_overlapping_patches(args, patches):
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for file in patches:
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non_overlapping_patches = [patch for patch in patches[file] if not is_overlap_patch(args, patch)]
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patches[file] = non_overlapping_patches
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def apply_patches(slither, patches):
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for file in patches:
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_in_file = file
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in_file_str = slither.source_code[_in_file]
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out_file_str = ""
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for i in range(len(patches[file])):
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if i != 0:
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out_file_str += in_file_str[int(patches[file][i-1]['end']):int(patches[file][i]['start'])]
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else:
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out_file_str += in_file_str[:int(patches[file][i]['start'])]
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out_file_str += patches[file][i]['new_string']
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out_file_str += in_file_str[int(patches[file][i]['end']):]
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out_file = open(_in_file+".format",'w')
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out_file.write(out_file_str)
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out_file.close()
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def print_patches(number_of_slither_results, patches):
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print("Number of Slither results: " + str(number_of_slither_results))
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number_of_patches = 0
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for file in patches:
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number_of_patches += len(patches[file])
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print("Number of patches: " + str(number_of_patches))
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for file in patches:
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print("Patch file: " + file)
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for patch in patches[file]:
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print("Detector: " + patch['detector'])
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print("Old string: " + patch['old_string'].replace("\n",""))
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print("New string: " + patch['new_string'].replace("\n",""))
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print("Location start: " + str(patch['start']))
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print("Location end: " + str(patch['end']))
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def print_patches_json(number_of_slither_results, patches):
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print('{',end='')
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print("\"Number of Slither results\":" + '"' + str(number_of_slither_results) + '",')
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print("\"Number of patchlets\":" + "\"" + str(len(patches)) + "\"", ',')
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print("\"Patchlets\":" + '[')
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for index, file in enumerate(patches):
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if index > 0:
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print(',')
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print('{',end='')
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print("\"Patch file\":" + '"' + file + '",')
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print("\"Number of patches\":" + "\"" + str(len(patches[file])) + "\"", ',')
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print("\"Patches\":" + '[')
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for index, patch in enumerate(patches[file]):
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if index > 0:
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print(',')
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print('{',end='')
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print("\"Detector\":" + '"' + patch['detector'] + '",')
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print("\"Old string\":" + '"' + patch['old_string'].replace("\n","") + '",')
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print("\"New string\":" + '"' + patch['new_string'].replace("\n","") + '",')
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print("\"Location start\":" + '"' + str(patch['start']) + '",')
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print("\"Location end\":" + '"' + str(patch['end']) + '"')
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if 'overlaps' in patch:
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print("\"Overlaps\":" + "Yes")
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print('}',end='')
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print(']',end='')
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print('}',end='')
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print(']',end='')
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print('}')
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def choose_detectors(args):
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# If detectors are specified, run only these ones
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detectors_to_run = []
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if args.detectors_to_run == 'all':
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for d in all_detectors:
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detectors_to_run.append(all_detectors[d])
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else:
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for d in args.detectors_to_run.split(','):
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if d in all_detectors:
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detectors_to_run.append(all_detectors[d])
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else:
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raise Exception('Error: {} is not a detector'.format(d))
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return detectors_to_run
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def apply_detector_results(slither, patches, detector_results):
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for result in detector_results:
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if result['check'] == 'unused-state':
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FormatUnusedState.format(slither, patches, result['elements'])
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elif result['check'] == 'solc-version':
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FormatSolcVersion.format(slither, patches, result['elements'])
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elif result['check'] == 'pragma':
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FormatPragma.format(slither, patches, result['elements'])
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elif result['check'] == 'naming-convention':
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FormatNamingConvention.format(slither, patches, result['elements'])
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elif result['check'] == 'external-function':
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FormatExternalFunction.format(slither, patches, result['elements'])
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elif result['check'] == 'constable-states':
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FormatConstableStates.format(slither, patches, result['elements'])
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elif result['check'] == 'constant-function':
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FormatConstantFunction.format(slither, patches, result['elements'])
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else:
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print("Not Supported Yet.")
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sys.exit(-1)
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def get_number_of_slither_results (detector_results):
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number_of_slither_results = 0
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for result in detector_results:
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for elem in result['elements']:
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if (result['check'] == 'constant-function' and elem['type'] != "function"):
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continue
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if (result['check'] == 'unused-state' and elem['type'] != "variable"):
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continue
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number_of_slither_results += 1
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return number_of_slither_results
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