Exemplo n.º 1
0
def generate_symbolic_paths(ppc_list, arg_list, poc_path):
    """
       This function will analyse the partial path conditions collected at each branch location and isolate
       the branch conditions added at each location, negate the constraint to create a new path
              ppc_list : a dictionary containing the partial path condition at each branch location
              returns a list of new partial path conditions
    """
    emitter.normal("\tgenerating new paths")
    path_list = []
    if values.DEFAULT_GEN_SPECIAL_PATH:
        path_list = generate_special_paths(ppc_list, arg_list, poc_path)
    path_count = len(path_list)
    result_list = generate_flipped_paths(ppc_list)
    for result in result_list:
        path_count = path_count + 1
        path_list.append((result, arg_list, poc_path))

    emitter.highlight("\t\tgenerated " + str(path_count) + " flipped path(s)")
    return path_list
Exemplo n.º 2
0
Arquivo: main.py Projeto: samithaj/CPR
def initialize():
    emitter.title("Initializing Program")
    program_path = values.CONF_PATH_PROGRAM
    extractor.extract_byte_code(program_path)
    test_input_list = values.LIST_TEST_INPUT
    second_var_list = list()
    directory_path = "/".join(str(program_path).split("/")[:-1])
    klee_out_dir = directory_path + "/klee-last"
    emitter.sub_title("Running Test-Suite")
    test_case_id = 0
    for argument_list in test_input_list:
        print_argument_list = app.configuration.extract_input_arg_list(argument_list)
        generalized_arg_list = []
        seed_file = None
        test_case_id = test_case_id + 1
        for arg in print_argument_list:
            if arg in (values.LIST_SEED_FILES + list(values.LIST_TEST_FILES.values())):
                generalized_arg_list.append("$POC")
                seed_file = arg
            else:
                generalized_arg_list.append(arg)

        emitter.sub_sub_title("Test Case #" + str(test_case_id))
        emitter.highlight("\tUsing Arguments: " + str(generalized_arg_list))
        emitter.highlight("\tUsing Input: " + str(seed_file))
        emitter.debug("input list in test case:" + argument_list)
        argument_list = app.configuration.extract_input_arg_list(argument_list)
        exit_code = run_concrete_execution(program_path + ".bc", argument_list, True)
        assert exit_code == 0
        # set location of bug/crash
        values.IS_CRASH = False
        latest_crash_loc = reader.collect_crash_point(values.FILE_MESSAGE_LOG)
        if latest_crash_loc:
            values.IS_CRASH = True
            emitter.success("\t\t\t[info] identified a crash location: " + str(latest_crash_loc))
            if latest_crash_loc not in values.CONF_LOC_LIST_CRASH:
                values.CONF_LOC_LIST_CRASH.append(latest_crash_loc)
Exemplo n.º 3
0
def initialize():
    emitter.title("Initializing Program")
    test_input_list = values.LIST_TEST_INPUT
    second_var_list = list()
    output_dir_path = definitions.DIRECTORY_OUTPUT
    emitter.sub_title("Running Test-Suite")
    test_case_id = 0
    count_seeds = len(values.LIST_SEED_INPUT)
    count_inputs = len(test_input_list)
    for argument_list in test_input_list[:count_inputs - count_seeds]:
        print_argument_list = app.configuration.extract_input_arg_list(
            argument_list)
        generalized_arg_list = []
        seed_file = None
        test_case_id = test_case_id + 1
        for arg in print_argument_list:
            if arg in (list(values.LIST_SEED_FILES.values()) +
                       list(values.LIST_TEST_FILES.values())):
                generalized_arg_list.append("$POC")
                seed_file = arg
            else:
                generalized_arg_list.append(arg)

        emitter.sub_sub_title("Test Case #" + str(test_case_id))
        emitter.highlight("\tUsing Arguments: " + str(generalized_arg_list))
        emitter.highlight("\tUsing Input File: " + str(seed_file))
        emitter.debug("input list in test case:" + argument_list)
        argument_list = app.configuration.extract_input_arg_list(argument_list)
        klee_out_dir = output_dir_path + "/klee-out-test-" + str(test_case_id -
                                                                 1)
        if values.LIST_TEST_BINARY:
            program_path = values.LIST_TEST_BINARY[test_case_id - 1]
            values.CONF_PATH_PROGRAM = program_path
        else:
            program_path = values.CONF_PATH_PROGRAM
        emitter.highlight("\tUsing Binary: " + str(program_path))
        extractor.extract_byte_code(program_path)
        if not os.path.isfile(program_path + ".bc"):
            app.utilities.error_exit("Unable to generate bytecode for " +
                                     program_path)

        exit_code = run_concrete_execution(program_path + ".bc", argument_list,
                                           True, klee_out_dir)
        assert exit_code == 0
        # set location of bug/crash
        values.IS_CRASH = False
        latest_crash_loc = reader.collect_crash_point(values.FILE_MESSAGE_LOG)
        # if oracle.is_loc_in_trace(values.CONF_LOC_PATCH):
        #     values.USEFUL_SEED_ID_LIST.append(test_case_id)
        if latest_crash_loc:
            values.IS_CRASH = True
            emitter.success("\t\t\t[info] identified a crash location: " +
                            str(latest_crash_loc))
            if latest_crash_loc not in values.CONF_LOC_LIST_CRASH:
                values.CONF_LOC_LIST_CRASH.append(latest_crash_loc)
Exemplo n.º 4
0
def check_infeasible_paths(patch_list):
    global list_path_inprogress, list_path_infeasible, list_path_detected
    emitter.sub_title("Evaluating Path Pool")
    emitter.normal("\tcomputing infeasibility on remaining paths")
    count = 0
    for path in list_path_inprogress:
        count = count + 1
        emitter.sub_sub_title("Path #" + str(count))
        control_loc, generated_path, ppc_len, reach_patch_loc, reach_obs_loc, _, _ = path
        feasible_patch_list = select_patch_constraint_for_input(
            patch_list, generated_path)
        if not feasible_patch_list:
            list_path_infeasible.append(path)
            list_path_inprogress.remove(path)
    emitter.highlight("\ttotal discovered: " + str(len(list_path_detected)) +
                      " path(s)")
    emitter.highlight("\ttotal remaining: " + str(len(list_path_inprogress)) +
                      " path(s)")
    emitter.highlight("\ttotal infeasible: " + str(len(list_path_infeasible)) +
                      " path(s)")
Exemplo n.º 5
0
def run_concolic_exploration(program_path, patch_list):
    values.CONF_TIME_CHECK = None
    satisfied = utilities.check_budget(values.DEFAULT_TIMEOUT_CEGIS_EXPLORE)
    iteration = 0
    emitter.sub_title("Concolic Path Exploration")
    assertion_template = values.SPECIFICATION_TXT
    max_count = 0

    largest_assertion = None
    largest_path_condition = None
    while not satisfied:
        if iteration == 0:
            second_var_list = list()
            seed_id = 0
            test_input_list = values.LIST_TEST_INPUT
            for argument_list in test_input_list:
                poc_path = None
                iteration = iteration + 1
                seed_id = seed_id + 1
                values.ITERATION_NO = iteration
                emitter.sub_sub_title("Iteration: " + str(iteration))
                output_dir_path = definitions.DIRECTORY_OUTPUT
                klee_out_dir = output_dir_path + "/klee-out-repair-" + str(
                    iteration - 1)
                argument_list = app.configuration.extract_input_arg_list(
                    argument_list)
                generalized_arg_list = []
                for arg in argument_list:
                    if arg in (list(values.LIST_SEED_FILES.values()) +
                               list(values.LIST_TEST_FILES.values())):
                        poc_path = arg
                        values.FILE_POC_SEED = arg
                        values.FILE_POC_GEN = arg
                        generalized_arg_list.append("$POC")
                    else:
                        generalized_arg_list.append(arg)
                emitter.sub_sub_title("Iteration: " + str(iteration) +
                                      " - Using Seed #" + str(seed_id))
                emitter.highlight("\tUsing Arguments: " +
                                  str(generalized_arg_list))
                emitter.highlight("\tUsing Input File: " + str(poc_path))
                if values.LIST_TEST_BINARY:
                    program_path = values.LIST_TEST_BINARY[seed_id - 1]
                    values.CONF_PATH_PROGRAM = program_path
                else:
                    program_path = values.CONF_PATH_PROGRAM
                extractor.extract_byte_code(program_path)
                if not os.path.isfile(program_path + ".bc"):
                    app.utilities.error_exit(
                        "Unable to generate bytecode for " + program_path)

                values.ARGUMENT_LIST = generalized_arg_list
                _, second_var_list = generator.generate_angelic_val(
                    klee_out_dir, generalized_arg_list, poc_path)

                exit_code = run_concolic_execution(program_path + ".bc",
                                                   generalized_arg_list,
                                                   second_var_list, True,
                                                   klee_out_dir)
                # assert exit_code == 0
                generated_path_list = app.parallel.generate_symbolic_paths(
                    values.LIST_PPC, generalized_arg_list, poc_path,
                    program_path)
                if generated_path_list:
                    values.LIST_GENERATED_PATH = generated_path_list + values.LIST_GENERATED_PATH
                values.LIST_PPC = []
                # klee_dir = Path(binary_dir_path + "/klee-last/").resolve()
                assertion, count_obs = generator.generate_assertion(
                    assertion_template, klee_out_dir)
                if count_obs > max_count:
                    max_count = count_obs
                    largest_assertion = assertion
                    path_constraint_file_path = str(
                        klee_out_dir) + "/test000001.smt2"
                    largest_path_condition = extractor.extract_formula_from_file(
                        path_constraint_file_path)

                satisfied = utilities.check_budget(
                    values.DEFAULT_TIMEOUT_CEGIS_EXPLORE)
                # check if new path hits patch location / fault location
                gen_masked_byte_list = generator.generate_mask_bytes(
                    klee_out_dir, poc_path)
                if values.FILE_POC_SEED not in values.MASK_BYTE_LIST:
                    values.MASK_BYTE_LIST[
                        values.FILE_POC_SEED] = gen_masked_byte_list
                else:
                    current_mask_list = values.MASK_BYTE_LIST[
                        values.FILE_POC_SEED]
                    values.MASK_BYTE_LIST[values.FILE_POC_SEED] = sorted(
                        list(set(current_mask_list + gen_masked_byte_list)))
                distance.update_distance_map()
                if not oracle.is_loc_in_trace(values.CONF_LOC_PATCH):
                    continue
                if not values.SPECIFICATION_TXT and not oracle.is_loc_in_trace(
                        values.CONF_LOC_BUG):
                    continue
                if satisfied:
                    emitter.warning("\t[warning] ending due to timeout of " +
                                    str(values.DEFAULT_TIMEOUT_CEGIS_EXPLORE) +
                                    " minutes")
        else:
            iteration = iteration + 1
            values.ITERATION_NO = iteration
            emitter.sub_sub_title("Iteration: " + str(iteration))

            argument_list = values.ARGUMENT_LIST
            second_var_list = values.SECOND_VAR_LIST
            gen_arg_list, gen_var_list, patch_list, argument_list, poc_path, program_path = select_new_input(
                patch_list)
            output_dir_path = definitions.DIRECTORY_OUTPUT
            klee_out_dir = output_dir_path + "/klee-out-repair-" + str(
                iteration - 1)
            if not patch_list:
                emitter.warning("\t\t[warning] unable to generate a patch")
                break
            elif not gen_arg_list and not gen_var_list:
                emitter.warning(
                    "\t\t[warning] no more paths to generate new input")
                break
            assert gen_arg_list  # there should be a concrete input
            time_check = time.time()
            ## Concolic execution of concrete input and patch candidate to retrieve path constraint.
            exit_code = run_concolic_execution(program_path + ".bc",
                                               gen_arg_list, gen_var_list,
                                               False, klee_out_dir)
            duration = (time.time() - time_check) / 60
            values.TIME_TO_EXPLORE = values.TIME_TO_EXPLORE + duration
            # assert exit_code == 0
            # klee_dir = Path(binary_dir_path + "/klee-last/").resolve()
            assertion, count_obs = generator.generate_assertion(
                assertion_template, klee_out_dir)
            if count_obs > max_count:
                max_count = count_obs
                largest_assertion = assertion
                path_constraint_file_path = str(
                    klee_out_dir) + "/test000001.smt2"
                largest_path_condition = extractor.extract_formula_from_file(
                    path_constraint_file_path)

            # Checks for the current coverage.
            satisfied = utilities.check_budget(
                values.DEFAULT_TIMEOUT_CEGIS_EXPLORE)
            values.LIST_GENERATED_PATH = app.parallel.generate_symbolic_paths(
                values.LIST_PPC, argument_list, poc_path, program_path)
            values.LIST_PPC = []
            # check if new path hits patch location / fault location
            if not oracle.is_loc_in_trace(values.CONF_LOC_PATCH):
                continue
            if not values.SPECIFICATION_TXT and not oracle.is_loc_in_trace(
                    values.CONF_LOC_BUG):
                continue
            distance.update_distance_map()
            if satisfied:
                emitter.warning("\t[warning] ending due to timeout of " +
                                str(values.DEFAULT_TIMEOUT_CEGIS_EXPLORE) +
                                " minutes")
    return largest_assertion, largest_path_condition
Exemplo n.º 6
0
def select_new_input(patch_list=None):
    """
    This function will select a new path for the next concolic execution and generate the inputs that satisfies the path
           log_path : log file for the previous concolic execution that captures PPC
           project_path: project path is the root directory of the program to filter PPC from libraries
    """
    logger.info("generating new input for new path")
    global list_path_explored, list_path_inprogress, count_discovered

    # input_file_byte_list = list()
    # input_file_stat_byte_list = list()

    generated_path_list = values.LIST_GENERATED_PATH
    var_expr_map = reader.collect_symbolic_expression(values.FILE_EXPR_LOG)

    # generated_path_list = generate_new_symbolic_paths(constraint_list)
    # list_path_explored = list(set(list_path_explored + current_path_list))
    selected_patch = None
    patch_constraint = TRUE
    new_path_count = 0

    for (control_loc, generated_path,
         ppc_len), arg_list, poc_path, bin_path in generated_path_list:
        path_str = str(generated_path.serialize())
        if path_str not in (list_path_detected + list_path_explored):
            reach_patch_loc = 100 - path_str.count("angelic!")
            reach_obs_loc = 100 - path_str.count("obs!")
            ppc_len = 10000 - ppc_len
            list_path_inprogress.append(
                (control_loc, generated_path, ppc_len, reach_patch_loc,
                 reach_obs_loc, arg_list, poc_path, bin_path))
            list_path_detected.append(str(generated_path.serialize()))
            new_path_count = new_path_count + 1

    count_discovered = count_discovered + new_path_count
    emitter.highlight("\tidentified " + str(new_path_count) + " new path(s)")
    emitter.highlight("\ttotal discovered: " + str(count_discovered) +
                      " path(s)")
    emitter.highlight("\ttotal remaining: " + str(len(list_path_inprogress)) +
                      " path(s)")
    emitter.highlight("\ttotal infeasible: " + str(len(list_path_infeasible)) +
                      " path(s)")
    if not list_path_inprogress:
        emitter.note("\t\tCount paths explored: " +
                     str(len(list_path_explored)))
        emitter.note("\t\tCount paths remaining: " +
                     str(len(list_path_inprogress)))
        return None, None, patch_list, None, None, None
    values.LIST_GENERATED_PATH = []
    patch_constraint = None
    selected_new_path = ""
    selected_control_loc = ""
    if patch_list:
        while not patch_constraint:
            emitter.normal("\tfinding a feasible path for current patch set")
            if not list_path_inprogress:
                emitter.note("\t\tCount paths explored: " +
                             str(len(list_path_explored)))
                emitter.note("\t\tCount paths remaining: " +
                             str(len(list_path_inprogress)))
                return None, None, patch_list, None, None, None
            selected_new_path, selected_control_loc, argument_list, poc_path, bin_path = select_new_path_condition(
            )
            patch_constraint = select_patch_constraint_for_input(
                patch_list, selected_new_path)
            if patch_constraint:
                list_path_explored.append(str(selected_new_path.serialize()))
                if is_sat(And(selected_new_path, patch_constraint)):
                    selected_new_path = And(selected_new_path,
                                            patch_constraint)
                else:
                    emitter.warning("\t[warning] no model generated")
            else:
                list_path_infeasible.append(str(selected_new_path.serialize()))
    else:
        selected_new_path, selected_control_loc, argument_list, poc_path, bin_path = select_new_path_condition(
        )
        list_path_explored.append(str(selected_new_path.serialize()))
    emitter.highlight("\tSelected control location: " + selected_control_loc)
    emitter.highlight("\tSelected path: " + str(selected_new_path))
    emitter.highlight("\tSelected binary: " + str(bin_path))
    emitter.highlight("\tSelected arguments for mutation: " +
                      str(argument_list))
    if poc_path:
        emitter.highlight("\tSelected seed file: " + str(poc_path))
    input_arg_list, input_var_list = generator.generate_new_input(
        selected_new_path, argument_list, poc_path)
    if input_arg_list is None and input_var_list is None:
        return None, None, patch_list, argument_list, poc_path, bin_path
    return input_arg_list, input_var_list, patch_list, argument_list, poc_path, bin_path
Exemplo n.º 7
0
def run_cpr(program_path, patch_list):
    emitter.sub_title("Evaluating Patch Pool")
    values.CONF_TIME_CHECK = None
    satisfied = utilities.check_budget(values.DEFAULT_TIME_DURATION)
    if satisfied:
        emitter.warning("\t[warning] ending due to timeout of " +
                        str(values.DEFAULT_TIME_DURATION) + " minutes")
    iteration = 0
    assertion_template = values.SPECIFICATION_TXT
    binary_dir_path = "/".join(program_path.split("/")[:-1])

    while not satisfied and len(patch_list) > 0:
        if iteration == 0:
            test_input_list = values.LIST_TEST_INPUT
            seed_id = 0
            for argument_list in test_input_list:
                time_check = time.time()
                poc_path = None
                iteration = iteration + 1
                seed_id = seed_id + 1
                values.ITERATION_NO = iteration
                klee_out_dir = binary_dir_path + "/klee-out-" + str(
                    test_input_list.index(argument_list))
                argument_list = app.configuration.extract_input_arg_list(
                    argument_list)
                generalized_arg_list = []
                for arg in argument_list:
                    if arg in (values.LIST_SEED_FILES +
                               list(values.LIST_TEST_FILES.values())):
                        poc_path = arg
                        values.FILE_POC_SEED = arg
                        values.FILE_POC_GEN = arg
                        generalized_arg_list.append("$POC")
                    else:
                        generalized_arg_list.append(arg)
                emitter.sub_sub_title("Iteration: " + str(iteration) +
                                      " - Using Seed #" + str(seed_id))
                emitter.highlight("\tUsing Arguments: " +
                                  str(generalized_arg_list))
                emitter.highlight("\tUsing Input: " + str(poc_path))
                values.ARGUMENT_LIST = generalized_arg_list
                _, second_var_list = generator.generate_angelic_val(
                    klee_out_dir, generalized_arg_list, poc_path)
                exit_code = run_concolic_execution(program_path + ".bc",
                                                   generalized_arg_list,
                                                   second_var_list, True)
                # assert exit_code == 0
                duration = (time.time() - time_check) / 60
                generated_path_list = app.parallel.generate_symbolic_paths(
                    values.LIST_PPC, generalized_arg_list, poc_path)
                if generated_path_list:
                    values.LIST_GENERATED_PATH = generated_path_list + values.LIST_GENERATED_PATH
                values.LIST_PPC = []
                values.TIME_TO_EXPLORE = values.TIME_TO_EXPLORE + duration
                # check if new path hits patch location / fault location
                gen_masked_byte_list = generator.generate_mask_bytes(
                    klee_out_dir, poc_path)
                if values.FILE_POC_SEED not in values.MASK_BYTE_LIST:
                    values.MASK_BYTE_LIST[
                        values.FILE_POC_SEED] = gen_masked_byte_list
                else:
                    current_mask_list = values.MASK_BYTE_LIST[
                        values.FILE_POC_SEED]
                    values.MASK_BYTE_LIST[values.FILE_POC_SEED] = sorted(
                        list(set(current_mask_list + gen_masked_byte_list)))
                distance.update_distance_map()
                if not oracle.is_loc_in_trace(values.CONF_LOC_PATCH):
                    continue
                if not values.SPECIFICATION_TXT and not oracle.is_loc_in_trace(
                        values.CONF_LOC_BUG):
                    continue
                time_check = time.time()
                assertion, count_obs = generator.generate_assertion(
                    assertion_template,
                    Path(binary_dir_path + "/klee-last/").resolve())
                # print(assertion.serialize())
                patch_list = reduce(
                    patch_list,
                    Path(binary_dir_path + "/klee-last/").resolve(), assertion)
                emitter.note(
                    "\t\t|P|=" +
                    str(utilities.count_concrete_patches(patch_list)) + ":" +
                    str(len(patch_list)))
                duration = (time.time() - time_check) / 60
                values.TIME_TO_REDUCE = values.TIME_TO_REDUCE + duration
                satisfied = utilities.check_budget(
                    values.DEFAULT_TIME_DURATION)
                if satisfied:
                    emitter.warning("\t[warning] ending due to timeout of " +
                                    str(values.DEFAULT_TIME_DURATION) +
                                    " minutes")
                    break
            emitter.success(
                "\t\tend of concolic exploration using user-provided seeds")
            emitter.success("\t\t\t|P|=" +
                            str(utilities.count_concrete_patches(patch_list)) +
                            ":" + str(len(patch_list)))
            values.COUNT_TEMPLATE_END_SEED = len(patch_list)
            values.COUNT_PATCH_END_SEED = utilities.count_concrete_patches(
                patch_list)

        else:
            iteration = iteration + 1
            values.ITERATION_NO = iteration
            emitter.sub_sub_title("Iteration: " + str(iteration))
            time_check = time.time()
            argument_list = values.ARGUMENT_LIST
            second_var_list = values.SECOND_VAR_LIST
            # if oracle.is_loc_in_trace(values.CONF_LOC_PATCH):
            gen_arg_list, gen_var_list, patch_list, argument_list, poc_path = select_new_input(
                patch_list)

            if not patch_list:
                emitter.warning("\t\t[warning] unable to generate a patch")
                break
            elif not gen_arg_list and not gen_var_list:
                emitter.warning(
                    "\t\t[warning] no more paths to generate new input")
                break
            assert gen_arg_list  # there should be a concrete input
            # print(">> new input: " + str(gen_arg_list))

            ## Concolic execution of concrete input and patch candidate to retrieve path constraint.
            exit_code = run_concolic_execution(program_path + ".bc",
                                               gen_arg_list, gen_var_list)
            # assert exit_code == 0
            duration = (time.time() - time_check) / 60
            values.TIME_TO_EXPLORE = values.TIME_TO_EXPLORE + duration
            # Checks for the current coverage.
            satisfied = utilities.check_budget(values.DEFAULT_TIME_DURATION)
            time_check = time.time()
            values.LIST_GENERATED_PATH = app.parallel.generate_symbolic_paths(
                values.LIST_PPC, argument_list, poc_path)
            values.LIST_PPC = []
            # check if new path hits patch location / fault location
            if not oracle.is_loc_in_trace(values.CONF_LOC_PATCH):
                continue
            if not values.SPECIFICATION_TXT and not oracle.is_loc_in_trace(
                    values.CONF_LOC_BUG):
                continue
            distance.update_distance_map()
            ## Reduces the set of patch candidates based on the current path constraint
            assertion, count_obs = generator.generate_assertion(
                assertion_template,
                Path(binary_dir_path + "/klee-last/").resolve())
            # print(assertion.serialize())
            patch_list = reduce(
                patch_list,
                Path(binary_dir_path + "/klee-last/").resolve(), assertion)
            emitter.note("\t\t|P|=" +
                         str(utilities.count_concrete_patches(patch_list)) +
                         ":" + str(len(patch_list)))
            duration = (time.time() - time_check) / 60
            values.TIME_TO_REDUCE = values.TIME_TO_REDUCE + duration
            if satisfied:
                emitter.warning("\t[warning] ending due to timeout of " +
                                str(values.DEFAULT_TIME_DURATION) + " minutes")
        if values.DEFAULT_COLLECT_STAT:
            ranked_patch_list = rank_patches(patch_list)
            update_rank_matrix(ranked_patch_list, iteration)
            definitions.FILE_PATCH_SET = definitions.DIRECTORY_OUTPUT + "/patch-set-ranked-" + str(
                iteration)
            writer.write_patch_set(ranked_patch_list,
                                   definitions.FILE_PATCH_SET)
            writer.write_as_json(values.LIST_PATCH_RANKING,
                                 definitions.FILE_PATCH_RANK_MATRIX)

    if not patch_list:
        values.COUNT_PATCH_END = len(patch_list)
        emitter.warning("\t\t[warning] unable to generate a patch")
    else:
        definitions.FILE_PATCH_SET = definitions.DIRECTORY_OUTPUT + "/patch-set-original"
        writer.write_patch_set(patch_list, definitions.FILE_PATCH_SET)
        ranked_patch_list = rank_patches(patch_list)
        print_patch_list(ranked_patch_list)
        definitions.FILE_PATCH_SET = definitions.DIRECTORY_OUTPUT + "/patch-set-ranked"
        writer.write_patch_set(ranked_patch_list, definitions.FILE_PATCH_SET)
        if values.DEFAULT_COLLECT_STAT:
            check_infeasible_paths(patch_list)
        if values.DEFAULT_PATCH_TYPE == values.OPTIONS_PATCH_TYPE[1]:
            values.COUNT_PATCH_END = utilities.count_concrete_patches(
                ranked_patch_list)
            values.COUNT_TEMPLATE_END = len(patch_list)
        else:
            values.COUNT_PATCH_END = len(ranked_patch_list)
Exemplo n.º 8
0
def run_cegis(program_path, project_path, patch_list):
    test_output_list = values.LIST_TEST_OUTPUT
    test_template = reader.collect_specification(test_output_list[0])
    binary_dir_path = "/".join(program_path.split("/")[:-1])
    time_check = time.time()
    assertion, largest_path_condition = concolic.run_concolic_exploration(
        program_path, patch_list)
    duration = (time.time() - time_check) / 60
    values.TIME_TO_EXPLORE = duration
    emitter.normal("\tcombining explored program paths")
    if not assertion:
        patch = patch_list[0]
        emitter.emit_patch(patch, message="\tfinal patch: ")
        return
    program_specification = generator.generate_program_specification(
        binary_dir_path)
    complete_specification = And(Not(assertion), program_specification)
    emitter.normal("\tcomputed the program specification formula")
    emitter.sub_title("Evaluating Patch Pool")
    iteration = 0
    output_dir = definitions.DIRECTORY_OUTPUT
    counter_example_list = []
    time_check = time.time()
    values.CONF_TIME_CHECK = None
    satisfied = utilities.check_budget(values.DEFAULT_TIMEOUT_CEGIS_REFINE)
    patch_generator = generator.generate_patch(project_path,
                                               counter_example_list)
    count_throw = 0
    while not satisfied:
        iteration = iteration + 1
        values.ITERATION_NO = iteration
        emitter.sub_sub_title("Iteration: " + str(iteration))
        patch = next(patch_generator, None)
        if not patch:
            emitter.error("[error] cannot generate a patch")
        patch_formula = app.generator.generate_formula_from_patch(patch)
        emitter.emit_patch(patch, message="\tgenerated patch: ")
        patch_formula_extended = generator.generate_extended_patch_formula(
            patch_formula, largest_path_condition)
        violation_check = And(complete_specification, patch_formula_extended)
        if is_sat(violation_check):
            model = generator.generate_model(violation_check)
            # print(model)
            arg_list = values.ARGUMENT_LIST
            poc_path = values.CONF_PATH_POC
            values.FILE_POC_GEN = definitions.DIRECTORY_OUTPUT + "/violation-" + str(
                values.ITERATION_NO)
            gen_path = values.FILE_POC_GEN
            input_arg_list, input_var_list = generator.generate_new_input(
                violation_check, arg_list, poc_path, gen_path)
            klee_out_dir = output_dir + "/klee-output-" + str(iteration)
            klee_test_file = output_dir + "/klee-test-" + str(iteration)
            exit_code = concolic.run_concrete_execution(
                program_path + ".bc", input_arg_list, True, klee_out_dir)
            # assert exit_code == 0
            emitter.normal("\t\tgenerating new assertion")
            test_assertion, count_obs = generator.generate_assertion(
                test_template, klee_out_dir)
            write_smtlib(test_assertion, klee_test_file)
            counter_example_list.append((klee_test_file, klee_out_dir))
            emitter.highlight("\t\tnew counter-example added")
            patch = None
            emitter.highlight("\t\tremoving current patch")
            count_throw = count_throw + 1
        else:
            klee_test_file = output_dir + "/klee-test-FINAL"
            # print(to_smtlib(violation_check, False))
            write_smtlib(violation_check, klee_test_file)
            break
        satisfied = utilities.check_budget(values.DEFAULT_TIMEOUT_CEGIS_REFINE)
        if satisfied:
            emitter.warning("\t[warning] ending due to timeout of " +
                            str(values.DEFAULT_TIMEOUT_CEGIS_REFINE) +
                            " minutes")
    duration = (time.time() - time_check) / 60
    values.TIME_TO_REDUCE = duration
    # patch_list = [patch]
    # definitions.FILE_PATCH_SET = definitions.DIRECTORY_OUTPUT + "/patch-set-cegis"
    # writer.write_patch_set(patch_list, definitions.FILE_PATCH_SET)
    # patch = next(patch_generator, None)
    # while patch is not None:
    #     patch_formula = app.generator.generate_formula_from_patch(patch)
    #     patch_formula_extended = generator.generate_extended_patch_formula(patch_formula, largest_path_condition)
    #     violation_check = And(complete_specification, patch_formula_extended)
    #     if is_unsat(violation_check):
    #         count_final = count_final + 1
    #     patch = next(patch_generator, None)
    emitter.emit_patch(patch, message="\tfinal patch: ")
    values.COUNT_PATCH_END = values.COUNT_PATCH_START - count_throw
Exemplo n.º 9
0
def print_patch_list(patch_list):
    template_count = 0
    emitter.sub_title("List of Top " + str(values.DEFAULT_PATCH_RANK_LIMIT) +
                      " Correct Patches")
    if not patch_list:
        emitter.warning("\t[warning] unable to generate any patch")
        return
    for patch in patch_list:
        template_count = template_count + 1
        emitter.sub_sub_title("Patch #" + str(template_count))
        emitter.emit_patch(patch, message="\t\t")
        patch_formula = app.generator.generate_formula_from_patch(patch)
        patch_formula_str = patch_formula.serialize()
        patch_index = utilities.get_hash(patch_formula_str)
        patch_score = values.LIST_PATCH_SCORE[patch_index]
        concrete_patch_count = 1
        if values.DEFAULT_PATCH_TYPE == values.OPTIONS_PATCH_TYPE[1]:
            patch_space = values.LIST_PATCH_SPACE[patch_index]
            partition_count = 0
            for partition in patch_space:
                partition_count = partition_count + 1
                emitter.highlight("\t\tPartition: " + str(partition_count))
                for constant_name in partition:
                    emitter.highlight("\t\t\tConstant: " + constant_name)
                    constant_info = partition[constant_name]
                    lower_bound = str(constant_info['lower-bound'])
                    upper_bound = str(constant_info['upper-bound'])
                    emitter.highlight("\t\t\tRange: " + lower_bound + " <= " +
                                      constant_name + " <= " + upper_bound)
                    dimension = len(
                        range(int(lower_bound),
                              int(upper_bound) + 1))
                    emitter.highlight("\t\t\tDimension: " + str(dimension))
                    concrete_patch_count = utilities.count_concrete_patches_per_template(
                        patch)
        emitter.highlight("\t\tPatch Count: " + str(concrete_patch_count))
        emitter.highlight("\t\tPath Coverage: " + str(patch_score))
        emitter.highlight(
            "\t\tIs Under-approximating: " +
            str(values.LIST_PATCH_UNDERAPPROX_CHECK[patch_index]))
        emitter.highlight("\t\tIs Over-approximating: " +
                          str(values.LIST_PATCH_OVERAPPROX_CHECK[patch_index]))
        if template_count == values.DEFAULT_PATCH_RANK_LIMIT:
            break
Exemplo n.º 10
0
def generate_patch_set(project_path, model_list=None) -> List[Dict[str, Program]]:

    definitions.FILE_PATCH_SET = definitions.DIRECTORY_OUTPUT + "/patch-set"
    definitions.FILE_PATCH_RANK_INDEX = definitions.DIRECTORY_OUTPUT + "/patch-index"
    definitions.FILE_PATCH_RANK_MATRIX = definitions.DIRECTORY_OUTPUT + "/patch-rank-matrix"

    if values.CONF_SKIP_GEN:
        emitter.sub_title("Loading Patch Pool")
        list_of_patches = reader.read_pickle(definitions.FILE_PATCH_SET)
        emitter.normal("\tnumber of patches in pool: " + str(len(list_of_patches)))
        return list_of_patches

    emitter.sub_title("Generating Patch Pool")
    test_output_list = values.LIST_TEST_OUTPUT
    test_input_list = values.LIST_TEST_INPUT
    test_file_list = values.LIST_TEST_FILES
    components = values.LIST_COMPONENTS
    depth = values.DEFAULT_DEPTH
    if values.CONF_DEPTH_VALUE.isnumeric():
        depth = int(values.CONF_DEPTH_VALUE)

    spec_files = []
    binary_dir_path = "/".join(values.CONF_PATH_PROGRAM.split("/")[:-1])
    emitter.sub_sub_title("Loading Test-Results")
    test_index = -1
    for arg_list in test_input_list:
        seed_file = None
        test_index = test_index + 1
        expected_output_file = None
        output_spec_path = None
        for arg in arg_list:
            if arg in list(test_file_list.values()):
                seed_file = arg
                break
        if seed_file:
            seed_name = seed_file.split("/")[-1].split(".")[0]
            expected_output_file = project_path + "/" + values.CONF_TEST_OUTPUT_DIR + "/" + seed_name
            if os.path.isfile(expected_output_file):
                output_spec_path = Path(os.path.abspath(expected_output_file))
            arg_list = [x.replace(seed_file, "$POC") for x in arg_list]
        else:
            expected_output_file = project_path + "/" + test_output_list[test_index]
            if os.path.isfile(expected_output_file):
                output_spec_path = Path(os.path.abspath(expected_output_file))
        klee_spec_path = None
        if output_spec_path:
            klee_spec_path = Path(binary_dir_path + "/klee-out-" + str(test_index))
            spec_files.append((output_spec_path, klee_spec_path))
        emitter.normal("\tTest #" + str(test_index + 1))
        emitter.highlight("\tInput Arg: " + str(arg_list))
        if seed_file:
            emitter.highlight("\tInput file: " + str(seed_file))
        emitter.highlight("\tOutput file: " + str(expected_output_file))
        emitter.highlight("\tKlee Run: " + str(klee_spec_path))

    if model_list:
        for output_spec_path, klee_spec_path in model_list:
            spec_files.append((Path(output_spec_path), Path(klee_spec_path)))

    specification = load_specification(spec_files)
    values.TEST_SPECIFICATION = specification
    concrete_enumeration = False
    if values.DEFAULT_PATCH_TYPE == values.OPTIONS_PATCH_TYPE[0]:
        concrete_enumeration = True
    lower_bound = values.DEFAULT_PATCH_LOWER_BOUND
    upper_bound = values.DEFAULT_PATCH_UPPER_BOUND + 1
    emitter.sub_sub_title("Synthesising Patches")
    emitter.normal("\tenumerating patch space")
    if values.DEFAULT_PATCH_TYPE == values.OPTIONS_PATCH_TYPE[0]:
        result = synthesize_lazy(components, depth, specification, concrete_enumeration, lower_bound, upper_bound)
    else:
        result = synthesize_parallel(components, depth, specification, concrete_enumeration, lower_bound, upper_bound)

    list_of_patches = [_ for _ in result]
    filtered_patch_list = []
    # writer.write_as_pickle(list_of_patches, definitions.FILE_PATCH_SET)
    # values.COUNT_TEMPLATE_GEN = len(list_of_patches)
    # values.COUNT_PATCH_GEN = utilities.count_concrete_patches(list_of_patches)
    emitter.highlight("\tnumber of patches in pool: " + str(len(list_of_patches)))
    return list_of_patches