mbedtls/tests/scripts/generate_pkcs7_tests.py

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#!/usr/bin/env python3
#
# Copyright The Mbed TLS Contributors
# SPDX-License-Identifier: Apache-2.0
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""
Make fuzz like testing for pkcs7 tests
Given a valid DER pkcs7 file add tests to the test_suite_pkcs7.data file
- It is expected that the pkcs7_asn1_fail( data_t *pkcs7_buf )
function is defined in test_suite_pkcs7.function
- This is not meant to be portable code, if anything it is meant to serve as
documentation for showing how those ugly tests in test_suite_pkcs7.data were created
"""
import sys
from os.path import exists
PKCS7_TEST_FILE = "../suites/test_suite_pkcs7.data"
class Test: # pylint: disable=too-few-public-methods
"""
A instance of a test in test_suite_pkcs7.data
"""
def __init__(self, name, depends, func_call):
self.name = name
self.depends = depends
self.func_call = func_call
# pylint: disable=no-self-use
def to_string(self):
return "\n" + self.name + "\n" + self.depends + "\n" + self.func_call + "\n"
class TestData:
"""
Take in test_suite_pkcs7.data file.
Allow for new tests to be added.
"""
mandatory_dep = "MBEDTLS_SHA256_C"
test_name = "PKCS7 Parse Failure Invalid ASN1"
test_function = "pkcs7_asn1_fail:"
def __init__(self, file_name):
self.file_name = file_name
self.last_test_num, self.old_tests = self.read_test_file(file_name)
self.new_tests = []
def read_test_file(self, file):
"""
Parse the test_suite_pkcs7.data file.
"""
tests = []
if not exists(file):
print(file + " Does not exist")
sys.exit()
with open(file, "r", encoding='UTF-8') as fp:
data = fp.read()
lines = [line.strip() for line in data.split('\n') if len(line.strip()) > 1]
i = 0
while i < len(lines):
if "depends" in lines[i+1]:
tests.append(Test(lines[i], lines[i+1], lines[i+2]))
i += 3
else:
tests.append(Test(lines[i], None, lines[i+1]))
i += 2
latest_test_num = float(tests[-1].name.split('#')[1])
return latest_test_num, tests
def add(self, name, func_call):
self.last_test_num += 1
self.new_tests.append(Test(self.test_name + ": " + name + " #" + \
str(self.last_test_num), "depends_on:" + self.mandatory_dep, \
self.test_function + '"' + func_call + '"'))
def write_changes(self):
with open(self.file_name, 'a', encoding='UTF-8') as fw:
fw.write("\n")
for t in self.new_tests:
fw.write(t.to_string())
def asn1_mutate(data):
"""
We have been given an asn1 structure representing a pkcs7.
We want to return an array of slightly modified versions of this data
they should be modified in a way which makes the structure invalid
We know that asn1 structures are:
|---1 byte showing data type---|----byte(s) for length of data---|---data content--|
We know that some data types can contain other data types.
Return a dictionary of reasons and mutated data types.
"""
# off the bat just add bytes to start and end of the buffer
mutations = []
reasons = []
mutations.append(["00"] + data)
reasons.append("Add null byte to start")
mutations.append(data + ["00"])
reasons.append("Add null byte to end")
# for every asn1 entry we should attempt to:
# - change the data type tag
# - make the length longer than actual
# - make the length shorter than actual
i = 0
while i < len(data):
tag_i = i
leng_i = tag_i + 1
data_i = leng_i + 1 + (int(data[leng_i][1], 16) if data[leng_i][0] == '8' else 0)
if data[leng_i][0] == '8':
length = int(''.join(data[leng_i + 1: data_i]), 16)
else:
length = int(data[leng_i], 16)
tag = data[tag_i]
print("Looking at ans1: offset " + str(i) + " tag = " + tag + \
", length = " + str(length)+ ":")
print(''.join(data[data_i:data_i+length]))
# change tag to something else
if tag == "02":
# turn integers into octet strings
new_tag = "04"
else:
# turn everything else into an integer
new_tag = "02"
mutations.append(data[:tag_i] + [new_tag] + data[leng_i:])
reasons.append("Change tag " + tag + " to " + new_tag)
# change lengths to too big
# skip any edge cases which would cause carry over
if int(data[data_i - 1], 16) < 255:
new_length = str(hex(int(data[data_i - 1], 16) + 1))[2:]
if len(new_length) == 1:
new_length = "0"+new_length
mutations.append(data[:data_i -1] + [new_length] + data[data_i:])
reasons.append("Change length from " + str(length) + " to " \
+ str(length + 1))
# we can add another test here for tags that contain other tags \
# where they have more data than there containing tags account for
if tag in ["30", "a0", "31"]:
mutations.append(data[:data_i -1] + [new_length] + \
data[data_i:data_i + length] + ["00"] + \
data[data_i + length:])
reasons.append("Change contents of tag " + tag + " to contain \
one unaccounted extra byte")
# change lengths to too small
if int(data[data_i - 1], 16) > 0:
new_length = str(hex(int(data[data_i - 1], 16) - 1))[2:]
if len(new_length) == 1:
new_length = "0"+new_length
mutations.append(data[:data_i -1] + [new_length] + data[data_i:])
reasons.append("Change length from " + str(length) + " to " + str(length - 1))
# some tag types contain other tag types so we should iterate into the data
if tag in ["30", "a0", "31"]:
i = data_i
else:
i = data_i + length
return list(zip(reasons, mutations))
if __name__ == "__main__":
if len(sys.argv) < 2:
print("USAGE: " + sys.argv[0] + " <pkcs7_der_file>")
sys.exit()
DATA_FILE = sys.argv[1]
TEST_DATA = TestData(PKCS7_TEST_FILE)
with open(DATA_FILE, 'rb') as f:
DATA_STR = f.read().hex()
# make data an array of byte strings eg ['de','ad','be','ef']
HEX_DATA = list(map(''.join, [[DATA_STR[i], DATA_STR[i+1]] for i in range(0, len(DATA_STR), \
2)]))
# returns tuples of test_names and modified data buffers
MUT_ARR = asn1_mutate(HEX_DATA)
print("made " + str(len(MUT_ARR)) + " new tests")
for new_test in MUT_ARR:
TEST_DATA.add(new_test[0], ''.join(new_test[1]))
TEST_DATA.write_changes()