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fuchsia / third_party / android / platform / external / avb / refs/tags/android-vts-11.0_r8 / . / aftltool_test.py
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#!/usr/bin/env python
# Copyright 2019, The Android Open Source Project
#
# Permission is hereby granted, free of charge, to any person
# obtaining a copy of this software and associated documentation
# files (the "Software"), to deal in the Software without
# restriction, including without limitation the rights to use, copy,
# modify, merge, publish, distribute, sublicense, and/or sell copies
# of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
"""Unit tests for aftltool."""
# pylint: disable=unused-import
from __future__ import print_function
import base64
import binascii
import io
import os
import sys
import unittest
import aftltool
import avbtool
import proto.aftl_pb2
import proto.api_pb2
import proto.trillian_pb2
# Workaround for b/149307145 in order to pick up the test data from the right
# location independent where the script is called from.
# TODO(b/149307145): Remove workaround once the referenced bug is fixed.
TEST_EXEC_PATH = os.path.dirname(os.path.realpath(__file__))
class AftltoolTestCase(unittest.TestCase):
def setUp(self):
"""Sets up the test bed for the unit tests."""
super(AftltoolTestCase, self).setUp()
# Redirects the stderr to /dev/null when running the unittests. The reason
# is that soong interprets any output on stderr as an error and marks the
# unit test as failed although the test itself succeeded.
self.stderr = sys.stderr
self.null = open(os.devnull, 'wb')
sys.stderr = self.null
# AFTL public key.
self.test_aftl_pub_key = (
'-----BEGIN PUBLIC KEY-----\n'
'MIICIjANBgkqhkiG9w0BAQEFAAOCAg8AMIICCgKCAgEA4ilqCNsenNA013iCdwgD\n'
'YPxZ853nbHG9lMBp9boXiwRcqT/8bUKHIL7YX5z7s+QoRYVY3rkMKppRabclXzyx\n'
'H59YnPMaU4uv7NqwWzjgaZo7E+vo7IF+KBjV3cJulId5Av0yIYUCsrwd7MpGtWdC\n'
'Q3S+7Vd4zwzCKEhcvliNIhnNlp1U3wNkPCxOyCAsMEn6k8O5ar12ke5TvxDv15db\n'
'rPDeHh8G2OYWoCkWL+lSN35L2kOJqKqVbLKWrrOd96RCYrrtbPCi580OADJRcUlG\n'
'lgcjwmNwmypBWvQMZ6ITj0P0ksHnl1zZz1DE2rXe1goLI1doghb5KxLaezlR8c2C\n'
'E3w/uo9KJgNmNgUVzzqZZ6FE0moyIDNOpP7KtZAL0DvEZj6jqLbB0ccPQElrg52m\n'
'Dv2/A3nYSr0mYBKeskT4+Bg7PGgoC8p7WyLSxMyzJEDYdtrj9OFx6eZaA23oqTQx\n'
'k3Qq5H8RfNBeeSUEeKF7pKH/7gyqZ2bNzBFMA2EBZgBozwRfaeN/HCv3qbaCnwvu\n'
'6caacmAsK+RxiYxSL1QsJqyhCWWGxVyenmxdc1KG/u5ypi7OIioztyzR3t2tAzD3\n'
'Nb+2t8lgHBRxbV24yiPlnvPmB1ZYEctXnlRR9Evpl1o9xA9NnybPHKr9rozN39CZ\n'
'V/USB8K6ao1y5xPZxa8CZksCAwEAAQ==\n'
'-----END PUBLIC KEY-----\n')
# Test AftlIcpEntry #1
self.test_tl_url_1 = 'aftl-test-server.google.com'
self.test_sth_1 = aftltool.TrillianLogRootDescriptor()
self.test_sth_1.tree_size = 2
self.test_sth_1.root_hash_size = 32
self.test_sth_1.root_hash = bytearray('f' * 32)
self.test_sth_1.timestamp = 0x1234567890ABCDEF
self.test_sth_1.revision = 0xFEDCBA0987654321
self.test_sth_1_bytes = bytearray(
'\x00\x01' # version
'\x00\x00\x00\x00\x00\x00\x00\x02' # tree_size
'\x20' # root_hash_size
+ 'f' * 32 + # root_hash
'\x12\x34\x56\x78\x90\xAB\xCD\xEF' # timestamp
'\xFE\xDC\xBA\x09\x87\x65\x43\x21' # revision
'\x00\x00' # metadata_size
'' # metadata (empty)
)
# Fill each structure with an easily observable pattern for easy validation.
self.test_proof_hashes_1 = []
self.test_proof_hashes_1.append(bytearray('b' * 32))
self.test_proof_hashes_1.append(bytearray('c' * 32))
self.test_proof_hashes_1.append(bytearray('d' * 32))
self.test_proof_hashes_1.append(bytearray('e' * 32))
# Valid test AftlIcpEntry #1.
self.test_entry_1 = aftltool.AftlIcpEntry()
self.test_entry_1.log_url = self.test_tl_url_1
self.test_entry_1.leaf_index = 1
self.test_entry_1.log_root_descriptor = self.test_sth_1
self.test_entry_1.proofs = self.test_proof_hashes_1
self.test_entry_1.log_root_signature = 'g' * 512 # bytearray('g' * 512)
self.test_entry_1_bytes = bytearray(
'\x00\x00\x00\x1b' # Transparency log url size.
'\x00\x00\x00\x00\x00\x00\x00\x01' # Leaf index.
'\x00\x00\x00\x3d' # Log root descriptor size.
'\x00\x00\x00\x00' # Firmware info leaf size.
'\x02\x00' # Log root signature size.
'\x04' # Number of hashes in ICP.
'\x00\x00\x00\x80' # Size of ICP in bytes.
+ self.test_tl_url_1 # Transparency log url.
+ self.test_sth_1_bytes
+ 'g' * 512 # Log root signature.
+ 'b' * 32 # Hashes...
+ 'c' * 32
+ 'd' * 32
+ 'e' * 32)
# Valid test AftlIcpEntry #2.
self.test_tl_url_2 = 'aftl-test-server.google.ch'
self.test_sth_2 = aftltool.TrillianLogRootDescriptor()
self.test_sth_2.tree_size = 4
self.test_sth_2.root_hash_size = 32
self.test_sth_2.root_hash = bytearray('e' * 32)
self.test_sth_2.timestamp = 6
self.test_sth_2.revision = 7
self.test_sth_2.metadata_size = 2
self.test_sth_2.metadata = '12'
self.test_sth_2_bytes = bytearray(
'\x00\x01' # version
'\x00\x00\x00\x00\x00\x00\x00\x04' # tree_size
'\x20' # root_hash_size
+ 'e' * 32 + # root_hash
'\x00\x00\x00\x00\x00\x00\x00\x06' # timestamp
'\x00\x00\x00\x00\x00\x00\x00\x07' # revision
'\x00\x02' # metadata_size
'12' # metadata
)
# Fill each structure with an easily observable pattern for easy validation.
self.test_proof_hashes_2 = []
self.test_proof_hashes_2.append(bytearray('g' * 32))
self.test_proof_hashes_2.append(bytearray('h' * 32))
self.test_entry_2 = aftltool.AftlIcpEntry()
self.test_entry_2.log_url = self.test_tl_url_2
self.test_entry_2.leaf_index = 2
self.test_entry_2.log_root_descriptor = self.test_sth_2
self.test_entry_2.log_root_signature = bytearray('d' * 512)
self.test_entry_2.proofs = self.test_proof_hashes_2
self.test_entry_2_bytes = bytearray(
'\x00\x00\x00\x1a' # Transparency log url size.
'\x00\x00\x00\x00\x00\x00\x00\x02' # Leaf index.
'\x00\x00\x00\x3f' # Log root descriptor size.
'\x00\x00\x00\x00' # Firmware info leaf size.
'\x02\x00' # Log root signature size.
'\x02' # Number of hashes in ICP.
'\x00\x00\x00\x40' # Size of ICP in bytes.
+ self.test_tl_url_2 # Transparency log url.
+ self.test_sth_2_bytes # Log root
+ 'd' * 512 # Log root signature.
+ 'g' * 32 # Hashes...
+ 'h' * 32)
# Valid test AftlDescriptor made out of AftlEntry #1 and #2.
self.test_aftl_desc = aftltool.AftlDescriptor()
self.test_aftl_desc.add_icp_entry(self.test_entry_1)
self.test_aftl_desc.add_icp_entry(self.test_entry_2)
self.test_expected_aftl_descriptor_bytes = bytearray(
'AFTL' # Magic.
'\x00\x00\x00\x01' # Major version.
'\x00\x00\x00\x01' # Minor version.
'\x00\x00\x05\xb9' # Descriptor size.
'\x00\x02' # Number of ICP entries.
+ self.test_entry_1_bytes
+ self.test_entry_2_bytes)
# pylint: disable=no-member
self.test_afi_resp = proto.api_pb2.AddFirmwareInfoResponse()
self.test_afi_resp.fw_info_proof.proof.leaf_index = 6263
hashes = [
'3ad99869646980c0a51d637a9791f892d12e0bc83f6bac5d305a9e289e7f7e8b',
'2e5c664d2aee64f71cb4d292e787d0eae7ca9ed80d1e08abb41d26baca386c05',
'a671dd99f8d97e9155cc2f0a9dc776a112a5ec5b821ec71571bb258ac790717a',
'78046b839595e4e49ad4b0c73f92bf4803aacd4a3351181086509d057ef0d7a9',
'c0a7e013f03e7c69e9402070e113dadb345868cf144ccb174fabc384b5605abf',
'dc36e5dbe36abe9f4ad10f14170aa0148b6fe3fcaba9df43deaf4dede01b02e8',
'b063e7fb665370a361718208756c363dc5206e2e9af9b4d847d81289cdae30de',
'a69ea5ba88a221103636d3f4245c800570eb86ad9276121481521f97d0a04a81']
for h in hashes:
self.test_afi_resp.fw_info_proof.proof.hashes.append(
binascii.unhexlify(h))
self.test_afi_resp.fw_info_proof.sth.key_hint = binascii.unhexlify(
'5af859abce8fe1ea')
self.test_afi_resp.fw_info_proof.sth.log_root = binascii.unhexlify(
'000100000000000018782053b182b55dc1377197c938637f50093131daea4'
'd0696b1eae5b8a014bfde884a15edb28f1fc7954400000000000013a50000'
)
self.test_afi_resp.fw_info_proof.sth.log_root_signature = binascii.unhexlify(
'c264bc7986a1cf56364ca4dd04989f45515cb8764d05b4fb2b880172585ea404'
'2105f95a0e0471fb6e0f8c762b14b2e526fb78eaddcc61484917795a12f6ab3b'
'557b5571d492d07d7950595f9ad8647a606c7c633f4697c5eb59c272aeca0419'
'397c70a3b9b51537537c4ea6b49d356110e70a9286902f814cc6afbeafe612e4'
'9e180146140e902bdd9e9dae66b37b4943150a9571949027a648db88a4eea3ad'
'f930b4fa6a183e97b762ab0e55a3a26aa6b0fd44d30531e2541ecb94bf645e62'
'59e8e3151e7c3b51a09fe24557ce2fd2c0ecdada7ce99c390d2ef10e5d075801'
'7c10d49c55cdee930959cc35f0104e04f296591eeb5defbc9ebb237da7b204ca'
'a4608cb98d6bc3a01f18585a04441caf8ec7a35aa2d35f7483b92b14fd0f4a41'
'3a91133545579309adc593222ca5032a103b00d8fcaea911936dbec11349e4dd'
'419b091ea7d1130570d70e2589dd9445fd77fd7492507e1c87736847b9741cc6'
'236868af42558ff6e833e12010c8ede786e43ada40ff488f5f1870d1619887d7'
'66a24ad0a06a47cc14e2f7db07361be191172adf3155f49713807c7c265f5a84'
'040fc84246ccf7913e44721f0043cea05ee774e457e13206775eee992620c3f9'
'd2b2584f58aac19e4afe35f0a17df699c45729f94101083f9fc4302659a7e6e0'
'e7eb36f8d1ca0be2c9010160d329bd2d17bb707b010fdd63c30b667a0b886cf9'
)
self.test_afi_resp.fw_info_leaf = (
'{\"timestamp\":{\"seconds\":1580115370,\"nanos\":621454825},\"Va'
'lue\":{\"FwInfo\":{\"info\":{\"info\":{\"vbmeta_hash\":\"ViNzEQS'
'/oc/bJ13yl40fk/cvXw90bxHQbzCRxgHDIGc=\",\"version_incremental\":'
'\"1\",\"manufacturer_key_hash\":\"yBCrUOdjvaAh4git5EgqWa5neegUao'
'XeLlB67+N8ObY=\"}}}}}')
self.test_fw_info_leaf = aftltool.FirmwareInfoLeaf(
self.test_afi_resp.fw_info_leaf)
def tearDown(self):
"""Tears down the test bed for the unit tests."""
# Reconnects stderr back to the normal stderr; see setUp() for details.
sys.stderr = self.stderr
super(AftltoolTestCase, self).tearDown()
def get_testdata_path(self, relative_path):
"""Retrieves the absolute path for testdata given the relative path.
Arguments:
relative_path: The relative path to the testdata in the testdata
directory.
Returns:
The absolute path to the testdata.
"""
rel_path_parts = ['test', 'data']
rel_path_parts.extend(relative_path.split(os.path.sep))
return os.path.join(TEST_EXEC_PATH, *rel_path_parts)
class AftltoolTest(AftltoolTestCase):
def test_merkle_root_hash(self):
"""Tests validation of inclusion proof and the merkle tree calculations.
The test vectors have been taken from the Trillian tests:
https://github.com/google/trillian/blob/v1.3.3/merkle/log_verifier_test.go
"""
inclusion_proofs = [
(1,
8,
[
binascii.unhexlify('96a296d224f285c67bee93c30f8a3091'
'57f0daa35dc5b87e410b78630a09cfc7'),
binascii.unhexlify('5f083f0a1a33ca076a95279832580db3'
'e0ef4584bdff1f54c8a360f50de3031e'),
binascii.unhexlify('6b47aaf29ee3c2af9af889bc1fb9254d'
'abd31177f16232dd6aab035ca39bf6e4')
]),
(6,
8,
[
binascii.unhexlify('bc1a0643b12e4d2d7c77918f44e0f4f7'
'9a838b6cf9ec5b5c283e1f4d88599e6b'),
binascii.unhexlify('ca854ea128ed050b41b35ffc1b87b8eb'
'2bde461e9e3b5596ece6b9d5975a0ae0'),
binascii.unhexlify('d37ee418976dd95753c1c73862b9398f'
'a2a2cf9b4ff0fdfe8b30cd95209614b7')
]),
(3,
3,
[
binascii.unhexlify('fac54203e7cc696cf0dfcb42c92a1d9d'
'baf70ad9e621f4bd8d98662f00e3c125')
]),
(2,
5,
[
binascii.unhexlify('6e340b9cffb37a989ca544e6bb780a2c'
'78901d3fb33738768511a30617afa01d'),
binascii.unhexlify('5f083f0a1a33ca076a95279832580db3'
'e0ef4584bdff1f54c8a360f50de3031e'),
binascii.unhexlify('bc1a0643b12e4d2d7c77918f44e0f4f7'
'9a838b6cf9ec5b5c283e1f4d88599e6b')
]
)
]
leaves = [
binascii.unhexlify(''),
binascii.unhexlify('00'),
binascii.unhexlify('10'),
binascii.unhexlify('2021'),
binascii.unhexlify('3031'),
binascii.unhexlify('40414243'),
binascii.unhexlify('5051525354555657'),
binascii.unhexlify('606162636465666768696a6b6c6d6e6f'),
]
roots = [
binascii.unhexlify('6e340b9cffb37a989ca544e6bb780a2c'
'78901d3fb33738768511a30617afa01d'),
binascii.unhexlify('fac54203e7cc696cf0dfcb42c92a1d9d'
'baf70ad9e621f4bd8d98662f00e3c125'),
binascii.unhexlify('aeb6bcfe274b70a14fb067a5e5578264'
'db0fa9b51af5e0ba159158f329e06e77'),
binascii.unhexlify('d37ee418976dd95753c1c73862b9398f'
'a2a2cf9b4ff0fdfe8b30cd95209614b7'),
binascii.unhexlify('4e3bbb1f7b478dcfe71fb631631519a3'
'bca12c9aefca1612bfce4c13a86264d4'),
binascii.unhexlify('76e67dadbcdf1e10e1b74ddc608abd2f'
'98dfb16fbce75277b5232a127f2087ef'),
binascii.unhexlify('ddb89be403809e325750d3d263cd7892'
'9c2942b7942a34b77e122c9594a74c8c'),
binascii.unhexlify('5dc9da79a70659a9ad559cb701ded9a2'
'ab9d823aad2f4960cfe370eff4604328'),
]
for icp in inclusion_proofs:
leaf_id = icp[0] - 1
leaf_hash = aftltool.rfc6962_hash_leaf(leaves[leaf_id])
root_hash = aftltool.root_from_icp(leaf_id, icp[1], icp[2], leaf_hash)
self.assertEqual(root_hash, roots[icp[1] -1])
class AftlDescriptorTest(AftltoolTestCase):
def test__init__(self):
"""Tests the constructor."""
# Calls constructor without data.
d = aftltool.AftlDescriptor()
self.assertIsInstance(d.icp_header, aftltool.AftlIcpHeader)
self.assertEqual(d.icp_header.icp_count, 0)
self.assertEqual(d.icp_entries, [])
self.assertTrue(d.is_valid())
# Calls constructor with data.
d = aftltool.AftlDescriptor(self.test_expected_aftl_descriptor_bytes)
self.assertIsInstance(d.icp_header, aftltool.AftlIcpHeader)
self.assertEqual(d.icp_header.icp_count, 2)
self.assertEqual(len(d.icp_entries), 2)
for entry in d.icp_entries:
self.assertIsInstance(entry, aftltool.AftlIcpEntry)
self.assertTrue(d.is_valid())
def test_add_icp_entry(self):
"""Tests the add_icp_entry method."""
d = aftltool.AftlDescriptor()
# Adds 1st ICP.
d.add_icp_entry(self.test_entry_1)
self.assertEqual(d.icp_header.icp_count, 1)
self.assertEqual(len(d.icp_entries), 1)
self.assertTrue(d.is_valid())
# Adds 2nd ICP.
d.add_icp_entry(self.test_entry_2)
self.assertEqual(d.icp_header.icp_count, 2)
self.assertEqual(len(d.icp_entries), 2)
self.assertTrue(d.is_valid())
def test_verify_vbmeta_image_with_1_icp(self):
"""Tests the verify_vbmeta_image method."""
# Valid vbmeta image without footer with 1 ICP.
tool = aftltool.Aftl()
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_1_icp.img')
vbmeta_image, _ = tool.get_vbmeta_image(image_path)
desc = tool.get_aftl_descriptor(image_path)
# Valid image checked against correct log key.
self.assertTrue(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('aftltool/aftl_pubkey_1.pub')]))
# Valid image checked with a key from another log.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('aftltool/aftl_pubkey_2.pub')]))
# Valid image checked with non existed key file path.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('non_existent_blabli')]))
# Valid image checked with an invalid key.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('large_blob.bin')]))
# Valid image checked with empty list of keys.
self.assertFalse(desc.verify_vbmeta_image(vbmeta_image, []))
# Valid image checked with empty list of keys.
self.assertFalse(desc.verify_vbmeta_image(vbmeta_image, None))
def test_verify_vbmeta_image_with_2_icp_from_same_log(self):
"""Tests the verify_vbmeta_image method."""
# Valid vbmeta image without footer with 2 ICPs from same log.
tool = aftltool.Aftl()
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_2_icp_same_log.img')
vbmeta_image, _ = tool.get_vbmeta_image(image_path)
desc = tool.get_aftl_descriptor(image_path)
# Valid image checked against correct log key.
self.assertTrue(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('aftltool/aftl_pubkey_1.pub')]))
# Valid vbmeta image checked with key from another log.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('aftltool/aftl_pubkey_2.pub')]))
# Valid image checked with non existed key file path.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('non_existent_blabli')]))
# Valid image checked with invalid key.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('large_blob.bin')]))
# Valid image but checked with empty list of keys.
self.assertFalse(desc.verify_vbmeta_image(vbmeta_image, []))
def test_verify_vbmeta_image_with_2_icp_from_different_logs(self):
"""Tests the verify_vbmeta_image method."""
# Valid vbmeta image without footer with 2 ICPs from different logs.
tool = aftltool.Aftl()
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_2_icp_different_logs.img')
vbmeta_image, _ = tool.get_vbmeta_image(image_path)
desc = tool.get_aftl_descriptor(image_path)
# Valid image checked against log keys from both logs.
self.assertTrue(desc.verify_vbmeta_image(
vbmeta_image, [
self.get_testdata_path('aftltool/aftl_pubkey_1.pub'),
self.get_testdata_path('aftltool/aftl_pubkey_2.pub')
]))
# Valid image checked with one of the keys with an invalid file path.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [
self.get_testdata_path('aftltool/aftl_pubkey_1.pub'),
self.get_testdata_path('non_existent_blabli')
]))
# Valid image checked with one of the keys being a invalid key.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [
self.get_testdata_path('aftltool/aftl_pubkey_1.pub'),
self.get_testdata_path('large_blob.bin')
]))
# Valid image checked with one of the keys being None.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [
self.get_testdata_path('aftltool/aftl_pubkey_1.pub'),
None
]))
# Valid vbmeta image checked against only one of the log keys.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('aftltool/aftl_pubkey_1.pub')]))
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('aftltool/aftl_pubkey_2.pub')]))
# Valid image checked with invalid key.
self.assertFalse(desc.verify_vbmeta_image(
vbmeta_image, [self.get_testdata_path('large_blob.bin')]))
# Valid image but checked with empty list of keys.
self.assertFalse(desc.verify_vbmeta_image(vbmeta_image, []))
def test_save(self):
"""Tests save method."""
buf = io.BytesIO()
self.test_aftl_desc.save(buf)
self.assertEqual(buf.getvalue(), self.test_expected_aftl_descriptor_bytes)
def test_encode(self):
"""Tests encode method."""
desc_bytes = self.test_aftl_desc.encode()
self.assertEqual(desc_bytes, self.test_expected_aftl_descriptor_bytes)
def test_is_valid(self):
"""Tests is_valid method."""
d = aftltool.AftlDescriptor()
d.add_icp_entry(self.test_entry_1)
d.add_icp_entry(self.test_entry_2)
# Force invalid ICP header.
old_magic = d.icp_header.magic
d.icp_header.magic = 'YOLO'
self.assertFalse(d.is_valid())
d.icp_header.magic = old_magic
self.assertTrue(d.is_valid())
# Force count mismatch between header and actual entries.
old_icp_count = d.icp_header.icp_count
d.icp_header.icp_count = 1
self.assertFalse(d.is_valid())
d.icp_header.icp_count = old_icp_count
self.assertTrue(d.is_valid())
# Force invalid ICP entry.
old_leaf_index = d.icp_entries[0].leaf_index
d.icp_entries[0].leaf_index = -10
self.assertFalse(d.is_valid())
d.icp_entries[0].leaf_index = old_leaf_index
self.assertTrue(d.is_valid())
def test_print_desc(self):
"""Tests print_desc method."""
buf = io.BytesIO()
self.test_aftl_desc.print_desc(buf)
desc = buf.getvalue()
# Cursory check whether the printed description contains something useful.
self.assertGreater(len(desc), 0)
self.assertIn('Log Root Descriptor:', desc)
class AftlIcpHeaderTest(AftltoolTestCase):
"""Test suite for testing the AftlIcpHeader descriptor."""
def setUp(self):
"""Sets up the test bed for the unit tests."""
super(AftlIcpHeaderTest, self).setUp()
self.test_header_valid = aftltool.AftlIcpHeader()
self.test_header_valid.icp_count = 1
self.test_header_invalid = aftltool.AftlIcpHeader()
self.test_header_invalid.icp_count = -34
self.test_header_bytes = bytearray('\x41\x46\x54\x4c\x00\x00\x00\x01'
'\x00\x00\x00\x01\x00\x00\x00\x12'
'\x00\x01')
def test__init__(self):
"""Tests constructor."""
# Calls constructor without data.
header = aftltool.AftlIcpHeader()
self.assertEqual(header.magic, 'AFTL')
self.assertEqual(header.required_icp_version_major,
avbtool.AVB_VERSION_MAJOR)
self.assertEqual(header.required_icp_version_minor,
avbtool.AVB_VERSION_MINOR)
self.assertEqual(header.aftl_descriptor_size, aftltool.AftlIcpHeader.SIZE)
self.assertEqual(header.icp_count, 0)
self.assertTrue(header.is_valid())
# Calls constructor with data.
header = aftltool.AftlIcpHeader(self.test_header_bytes)
self.assertEqual(header.magic, 'AFTL')
self.assertEqual(header.required_icp_version_major, 1)
self.assertEqual(header.required_icp_version_minor, 1)
self.assertEqual(header.aftl_descriptor_size, aftltool.AftlIcpHeader.SIZE)
self.assertTrue(header.icp_count, 1)
self.assertTrue(header.is_valid())
def test_save(self):
"""Tests save method."""
buf = io.BytesIO()
self.test_header_valid.save(buf)
self.assertEqual(buf.getvalue(), self.test_header_bytes)
def test_encode(self):
"""Tests encode method."""
# Valid header.
header_bytes = self.test_header_valid.encode()
self.assertEqual(header_bytes, self.test_header_bytes)
# Invalid header
with self.assertRaises(aftltool.AftlError):
header_bytes = self.test_header_invalid.encode()
def test_is_valid(self):
"""Tests is_valid method."""
# Valid default record.
header = aftltool.AftlIcpHeader()
self.assertTrue(header.is_valid())
# Invalid magic.
header = aftltool.AftlIcpHeader()
header.magic = 'YOLO'
self.assertFalse(header.is_valid())
# Valid ICP count.
self.assertTrue(self.test_header_valid.is_valid())
# Invalid ICP count.
self.assertFalse(self.test_header_invalid.is_valid())
header = aftltool.AftlIcpHeader()
header.icp_count = 10000000
self.assertFalse(header.is_valid())
# Invalid ICP major version.
header = aftltool.AftlIcpHeader()
header.required_icp_version_major = avbtool.AVB_VERSION_MAJOR + 1
self.assertFalse(header.is_valid())
# Invalid ICP minor version.
header = aftltool.AftlIcpHeader()
header.required_icp_version_minor = avbtool.AVB_VERSION_MINOR + 1
self.assertFalse(header.is_valid())
def test_print_desc(self):
"""Tests print_desc method."""
buf = io.BytesIO()
self.test_header_valid.print_desc(buf)
desc = buf.getvalue()
# Cursory check whether the printed description contains something useful.
self.assertGreater(len(desc), 0)
self.assertIn('Major version:', desc)
class AftlIcpEntryTest(AftltoolTestCase):
"""Test suite for testing the AftlIcpEntry descriptor."""
def test__init__and_properties(self):
"""Tests constructor and properties methods."""
# Calls constructor without data.
entry = aftltool.AftlIcpEntry()
self.assertEqual(entry.log_url_size, 0)
self.assertEqual(entry.leaf_index, 0)
self.assertEqual(entry.log_root_descriptor_size, 29)
self.assertEqual(entry.fw_info_leaf_size, 0)
self.assertEqual(entry.log_root_sig_size, 0)
self.assertEqual(entry.proof_hash_count, 0)
self.assertEqual(entry.inc_proof_size, 0)
self.assertEqual(entry.log_url, '')
self.assertIsInstance(entry.log_root_descriptor,
aftltool.TrillianLogRootDescriptor)
self.assertEqual(entry.proofs, [])
self.assertTrue(entry.is_valid())
# Calls constructor with data.
entry = aftltool.AftlIcpEntry(self.test_entry_1_bytes)
self.assertEqual(entry.log_url_size, len(self.test_tl_url_1))
self.assertEqual(entry.leaf_index, 1)
self.assertEqual(entry.fw_info_leaf_size, 0)
self.assertEqual(entry.log_root_sig_size, 512)
self.assertEqual(entry.proof_hash_count, len(self.test_proof_hashes_1))
self.assertEqual(entry.inc_proof_size, 128)
self.assertEqual(entry.log_url, self.test_tl_url_1)
self.assertEqual(entry.proofs, self.test_proof_hashes_1)
self.assertTrue(entry.is_valid())
def test_encode(self):
"""Tests encode method."""
entry_bytes = self.test_entry_1.encode()
self.assertEqual(entry_bytes, self.test_entry_1_bytes)
def test_save(self):
"""Tests save method."""
buf = io.BytesIO()
self.test_entry_1.save(buf)
self.assertEqual(buf.getvalue(), self.test_entry_1_bytes)
def test_get_expected_size(self):
"""Tests get_expected_size method."""
# Default record.
entry = aftltool.AftlIcpEntry()
self.assertEqual(entry.get_expected_size(), 56)
self.assertEqual(entry.get_expected_size(), len(entry.encode()))
# Test record.
self.assertEqual(self.test_entry_1.get_expected_size(), 755)
self.assertEqual(self.test_entry_1.get_expected_size(),
len(self.test_entry_1.encode()))
def test_is_valid(self):
"""Tests is_valid method."""
# Valid default record.
entry = aftltool.AftlIcpEntry()
entry.leaf_index = 2
entry.log_url = self.test_tl_url_1
entry.set_log_root_descriptor = self.test_sth_1
entry.proofs = self.test_proof_hashes_1
self.assertTrue(entry.is_valid())
# Invalid leaf index.
entry = aftltool.AftlIcpEntry()
entry.leaf_index = -1
self.assertFalse(entry.is_valid())
# Invalid log_root_descriptor
entry = aftltool.AftlIcpEntry()
entry.log_root_descriptor = None
self.assertFalse(entry.is_valid())
entry.log_root_descriptor = ''
self.assertFalse(entry.is_valid())
entry.log_root_descriptor = 'blabli'
self.assertFalse(entry.is_valid())
def test_translate_response(self):
"""Tests translate_response method."""
entry = aftltool.AftlIcpEntry()
entry.translate_response('aftl-test.foo.bar:80', self.test_afi_resp)
self.assertEqual(entry.log_url, 'aftl-test.foo.bar:80')
self.assertEqual(entry.leaf_index, 6263)
self.assertEqual(entry.log_root_descriptor.encode(),
self.test_afi_resp.fw_info_proof.sth.log_root)
self.assertEqual(entry.log_root_signature,
self.test_afi_resp.fw_info_proof.sth.log_root_signature)
self.assertEqual(entry.proofs,
self.test_afi_resp.fw_info_proof.proof.hashes)
def test_verify_icp(self):
"""Tests verify_icp method."""
key_file = 'transparency_log_pub_key.pem'
with open(key_file, 'w') as f:
f.write(self.test_aftl_pub_key)
# Valid ICP.
entry = aftltool.AftlIcpEntry()
entry.translate_response(self.test_tl_url_1, self.test_afi_resp)
self.assertTrue(entry.verify_icp(key_file))
# Invalid ICP where fw_info_leaf is not matching up with proofs.
entry = aftltool.AftlIcpEntry()
entry.translate_response(self.test_tl_url_1, self.test_afi_resp)
fw_info_leaf_bytes = entry.fw_info_leaf._fw_info_leaf_bytes.replace(
'ViNzEQS', '1234567')
entry.fw_info_leaf._fw_info_leaf_bytes = fw_info_leaf_bytes
self.assertFalse(entry.verify_icp(key_file))
os.remove(key_file)
def test_verify_vbmeta_image(self):
"""Tests the verify_vbmeta_image method."""
# Valid vbmeta image without footer with 1 ICP.
tool = aftltool.Aftl()
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_1_icp.img')
vbmeta_image, _ = tool.get_vbmeta_image(image_path)
desc = tool.get_aftl_descriptor(image_path)
# Checks that there is 1 ICP.
self.assertEqual(desc.icp_header.icp_count, 1)
entry = desc.icp_entries[0]
# Valid vbmeta image checked with correct log key.
self.assertTrue(entry.verify_vbmeta_image(
vbmeta_image, self.get_testdata_path('aftltool/aftl_pubkey_1.pub')))
# Valid vbmeta image checked with public key of another log.
self.assertFalse(entry.verify_vbmeta_image(
vbmeta_image, self.get_testdata_path('aftltool/aftl_pubkey_2.pub')))
# Valid vbmeta image checked with invalid key.
self.assertFalse(entry.verify_vbmeta_image(
vbmeta_image, self.get_testdata_path('large_blob.bin')))
# Valid vbmeta image checked with no key.
self.assertFalse(entry.verify_vbmeta_image(vbmeta_image, None))
def test_verify_invalid_vbmeta_image(self):
"""Tests the verify_vbmeta_image method."""
# Valid vbmeta image without footer with 1 ICP.
tool = aftltool.Aftl()
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_1_icp.img')
vbmeta_image, _ = tool.get_vbmeta_image(image_path)
desc = tool.get_aftl_descriptor(image_path)
self.assertEqual(desc.icp_header.icp_count, 1)
entry = desc.icp_entries[0]
# Modify vbmeta image to become invalid
vbmeta_image = 'A' * len(vbmeta_image)
# Invalid vbmeta image checked with correct log key.
self.assertFalse(entry.verify_vbmeta_image(
vbmeta_image, self.get_testdata_path('aftltool/aftl_pubkey_1.pub')))
# Invalid vbmeta image checked with invalid key.
self.assertFalse(entry.verify_vbmeta_image(
vbmeta_image, self.get_testdata_path('large_blob.bin')))
# Valid vbmeta image checked with no key.
self.assertFalse(entry.verify_vbmeta_image(vbmeta_image, None))
# None image checked with a key.
self.assertFalse(entry.verify_vbmeta_image(
None, self.get_testdata_path('aftltool/aftl_pubkey_1.pub')))
def test_print_desc(self):
"""Tests print_desc method."""
buf = io.BytesIO()
self.test_entry_1.print_desc(buf)
desc = buf.getvalue()
# Cursory check whether the printed description contains something useful.
self.assertGreater(len(desc), 0)
self.assertIn('ICP hashes:', desc)
class TrillianLogRootDescriptorTest(AftltoolTestCase):
"""Test suite for testing the TrillianLogRootDescriptor descriptor."""
def setUp(self):
"""Sets up the test bed for the unit tests."""
super(TrillianLogRootDescriptorTest, self).setUp()
# Creates basic log root without metadata fields.
base_log_root = (
'0001' # version
'00000000000002e5' # tree_size
'20' # root_hash_size
'2d614759ad408a111a3351c0cb33c099' # root_hash
'422c30a5c5104788a343332bde2b387b'
'15e1c97e3b4bd239' # timestamp
'00000000000002e4' # revision
)
# Create valid log roots with metadata fields w/ and w/o metadata.
self.test_log_root_bytes_wo_metadata = binascii.unhexlify(
base_log_root + '0000')
self.test_log_root_bytes_with_metadata = binascii.unhexlify(
base_log_root + '00023132')
def test__init__(self):
"""Tests constructor."""
# Calls constructor without data.
d = aftltool.TrillianLogRootDescriptor()
self.assertTrue(d.is_valid())
self.assertEqual(d.version, 1)
self.assertEqual(d.tree_size, 0)
self.assertEqual(d.root_hash_size, 0)
self.assertEqual(d.root_hash, bytearray())
self.assertEqual(d.timestamp, 0)
self.assertEqual(d.revision, 0)
self.assertEqual(d.metadata_size, 0)
self.assertEqual(d.metadata, bytearray())
# Calls constructor with log_root w/o metadata
d = aftltool.TrillianLogRootDescriptor(self.test_log_root_bytes_wo_metadata)
self.assertTrue(d.is_valid())
self.assertEqual(d.version, 1)
self.assertEqual(d.tree_size, 741)
self.assertEqual(d.root_hash_size, 32)
self.assertEqual(d.root_hash,
binascii.unhexlify('2d614759ad408a111a3351c0cb33c099'
'422c30a5c5104788a343332bde2b387b'))
self.assertEqual(d.timestamp, 1576762888554271289)
self.assertEqual(d.revision, 740)
self.assertEqual(d.metadata_size, 0)
self.assertEqual(d.metadata, bytearray())
# Calls constructor with log_root with metadata
d = aftltool.TrillianLogRootDescriptor(
self.test_log_root_bytes_with_metadata)
self.assertEqual(d.metadata_size, 2)
self.assertEqual(d.metadata, bytearray('12'))
def test_get_expected_size(self):
"""Tests get_expected_size method."""
# Default constructor.
d = aftltool.TrillianLogRootDescriptor()
self.assertEqual(d.get_expected_size(), 11 + 18)
# Log root without metadata.
d = aftltool.TrillianLogRootDescriptor(self.test_log_root_bytes_wo_metadata)
self.assertEqual(d.get_expected_size(), 11 + 18 + 32)
# Log root with metadata.
d = aftltool.TrillianLogRootDescriptor(
self.test_log_root_bytes_with_metadata)
self.assertEqual(d.get_expected_size(), 11 + 18 + 32 + 2)
def test_encode(self):
"""Tests encode method."""
# Log root from default constructor.
d = aftltool.TrillianLogRootDescriptor()
expected_bytes = (
'0001' # version
'0000000000000000' # tree_size
'00' # root_hash_size
'' # root_hash (empty)
'0000000000000000' # timestamp
'0000000000000000' # revision
'0000' # metadata size
'' # metadata (empty)
)
self.assertEqual(d.encode(), binascii.unhexlify(expected_bytes))
# Log root without metadata.
d = aftltool.TrillianLogRootDescriptor(self.test_log_root_bytes_wo_metadata)
self.assertEqual(d.encode(), self.test_log_root_bytes_wo_metadata)
# Log root with metadata.
d = aftltool.TrillianLogRootDescriptor(
self.test_log_root_bytes_with_metadata)
self.assertEqual(d.encode(), self.test_log_root_bytes_with_metadata)
def test_is_valid(self):
"""Tests is_valid method."""
d = aftltool.TrillianLogRootDescriptor()
self.assertTrue(d.is_valid())
# Invalid version.
d = aftltool.TrillianLogRootDescriptor()
d.version = 2
self.assertFalse(d.is_valid())
# Invalid tree_size.
d = aftltool.TrillianLogRootDescriptor()
d.tree_size = -1
self.assertFalse(d.is_valid())
# Invalid root_hash_size.
d = aftltool.TrillianLogRootDescriptor()
d.root_hash_size = -1
self.assertFalse(d.is_valid())
d.root_hash_size = 300
self.assertFalse(d.is_valid())
# Invalid/valid root_hash_size / root_hash combination.
d = aftltool.TrillianLogRootDescriptor()
d.root_hash_size = 4
d.root_hash = '123'
self.assertFalse(d.is_valid())
d.root_hash = '1234'
self.assertTrue(d.is_valid())
# Invalid timestamp.
d = aftltool.TrillianLogRootDescriptor()
d.timestamp = -1
self.assertFalse(d.is_valid())
# Invalid revision.
d = aftltool.TrillianLogRootDescriptor()
d.revision = -1
self.assertFalse(d.is_valid())
# Invalid metadata_size.
d = aftltool.TrillianLogRootDescriptor()
d.metadata_size = -1
self.assertFalse(d.is_valid())
d.metadata_size = 70000
self.assertFalse(d.is_valid())
# Invalid/valid metadata_size / metadata combination.
d = aftltool.TrillianLogRootDescriptor()
d.metadata_size = 4
d.metadata = '123'
self.assertFalse(d.is_valid())
d.metadata = '1234'
self.assertTrue(d.is_valid())
def test_print_desc(self):
"""Tests print_desc method."""
# Log root without metadata
buf = io.BytesIO()
d = aftltool.TrillianLogRootDescriptor(self.test_log_root_bytes_wo_metadata)
d.print_desc(buf)
desc = buf.getvalue()
# Cursory check whether the printed description contains something useful.
self.assertGreater(len(desc), 0)
self.assertIn('Version:', desc)
self.assertNotIn('Metadata:', desc)
# Log root with metadata
buf = io.BytesIO()
d = aftltool.TrillianLogRootDescriptor(
self.test_log_root_bytes_with_metadata)
d.print_desc(buf)
desc = buf.getvalue()
# Cursory check whether the printed description contains something useful.
self.assertGreater(len(desc), 0)
self.assertIn('Version:', desc)
self.assertIn('Metadata:', desc)
class FirmwareInfoLeafTest(AftltoolTestCase):
"""Test suite for testing the FirmwareInfoLeaf."""
def test__init__(self):
"""Tests constructor and properties methods."""
# Calls constructor without data.
leaf = aftltool.FirmwareInfoLeaf()
self.assertTrue(leaf.is_valid())
self.assertEqual(leaf.vbmeta_hash, None)
self.assertEqual(leaf.version_incremental, None)
self.assertEqual(leaf.platform_key, None)
self.assertEqual(leaf.manufacturer_key_hash, None)
self.assertEqual(leaf.description, None)
# Calls constructor with data.
leaf = aftltool.FirmwareInfoLeaf(self.test_afi_resp.fw_info_leaf)
self.assertTrue(leaf.is_valid())
self.assertEqual(
leaf.vbmeta_hash,
base64.b64decode('ViNzEQS/oc/bJ13yl40fk/cvXw90bxHQbzCRxgHDIGc='))
self.assertEqual(leaf.version_incremental, '1')
self.assertEqual(leaf.platform_key, None)
self.assertEqual(
leaf.manufacturer_key_hash,
base64.b64decode('yBCrUOdjvaAh4git5EgqWa5neegUaoXeLlB67+N8ObY='))
self.assertEqual(leaf.description, None)
# Calls constructor with invalid JSON data.
with self.assertRaises(aftltool.AftlError):
leaf = aftltool.FirmwareInfoLeaf('Invalid JSON.')
def test_get_expected_size(self):
"""Tests get_expected_size method."""
# Calls constructor without data.
leaf = aftltool.FirmwareInfoLeaf()
self.assertEqual(leaf.get_expected_size(), 0)
# Calls constructor with data.
leaf = aftltool.FirmwareInfoLeaf(self.test_afi_resp.fw_info_leaf)
self.assertEqual(leaf.get_expected_size(),
len(self.test_afi_resp.fw_info_leaf))
def test_encode(self):
"""Tests encode method."""
# Calls constructor without data.
leaf = aftltool.FirmwareInfoLeaf()
self.assertEqual(leaf.encode(), '')
# Calls constructor with data.
self.assertEqual(self.test_fw_info_leaf.encode(),
self.test_afi_resp.fw_info_leaf)
def test_is_valid(self):
"""Tests is_valid method."""
# Calls constructor without data.
leaf = aftltool.FirmwareInfoLeaf()
self.assertTrue(leaf.is_valid())
# Calls constructor with data.
self.assertTrue(self.test_fw_info_leaf.is_valid())
# Incorrect name for Value key.
invalid_value_key_name = (
'{\"timestamp\":{\"seconds\":1580115370,\"nanos\":621454825},\"In'
'val\":{\"FwInfo\":{\"info\":{\"info\":{\"vbmeta_hash\":\"ViNzEQS'
'/oc/bJ13yl40fk/cvXw90bxHQbzCRxgHDIGc=\",\"version_incremental\":'
'\"1\",\"manufacturer_key_hash\":\"yBCrUOdjvaAh4git5EgqWa5neegUao'
'XeLlB67+N8ObY=\"}}}}}')
with self.assertRaises(aftltool.AftlError):
aftltool.FirmwareInfoLeaf(invalid_value_key_name)
# Within Firmware Info having a field which does not exist in
# proto.aftl_pb2.FirmwareInfo.
invalid_fields = (
'{\"timestamp\":{\"seconds\":1580115370,\"nanos\":621454825},\"Va'
'lue\":{\"FwInfo\":{\"info\":{\"info\":{\"invalid_field\":\"ViNzEQS'
'/oc/bJ13yl40fk/cvXw90bxHQbzCRxgHDIGc=\",\"version_incremental\":'
'\"1\",\"manufacturer_key_hash\":\"yBCrUOdjvaAh4git5EgqWa5neegUao'
'XeLlB67+N8ObY=\"}}}}}')
with self.assertRaises(aftltool.AftlError):
aftltool.FirmwareInfoLeaf(invalid_fields)
def test_print_desc(self):
"""Tests print_desc method."""
buf = io.BytesIO()
self.test_fw_info_leaf.print_desc(buf)
desc = buf.getvalue()
# Cursory check whether the printed description contains something useful.
self.assertGreater(len(desc), 0)
self.assertIn('VBMeta hash:', desc)
class AftlMockCommunication(aftltool.AftlCommunication):
"""Testing Mock implementation of AftlCommunication."""
def __init__(self, transparency_log, canned_response):
"""Initializes the object.
Arguments:
transparency_log: String containing the URL of a transparency log server.
canned_response: AddFirmwareInfoResponse to return or the Exception to
raise.
"""
super(AftlMockCommunication, self).__init__(transparency_log, timeout=None)
self.request = None
self.canned_response = canned_response
def add_firmware_info(self, request):
"""Records the request and returns the canned response."""
self.request = request
if isinstance(self.canned_response, aftltool.AftlError):
raise self.canned_response
return self.canned_response
class AftlMock(aftltool.Aftl):
"""Mock for aftltool.Aftl to mock the communication piece."""
def __init__(self, canned_response):
"""Initializes the object.
Arguments:
canned_response: AddFirmwareInfoResponse to return or the Exception to
raise.
"""
self.mock_canned_response = canned_response
def request_inclusion_proof(self, transparency_log, vbmeta_descriptor,
version_inc, manufacturer_key_path,
signing_helper, signing_helper_with_files,
timeout, aftl_comms=None):
"""Mocked request_inclusion_proof function."""
aftl_comms = AftlMockCommunication(transparency_log,
self.mock_canned_response)
return super(AftlMock, self).request_inclusion_proof(
transparency_log, vbmeta_descriptor, version_inc, manufacturer_key_path,
signing_helper, signing_helper_with_files, timeout,
aftl_comms=aftl_comms)
class AftlTestCase(AftltoolTestCase):
def setUp(self):
"""Sets up the test bed for the unit tests."""
super(AftlTestCase, self).setUp()
self.set_up_environment()
self.output_filename = 'vbmeta_icp.img'
self.make_icp_default_params = {
'vbmeta_image_path': self.vbmeta_image,
'output': None,
'signing_helper': None,
'signing_helper_with_files': None,
'version_incremental': '1',
'transparency_log_servers': [self.aftl_host],
'transparency_log_pub_keys': [self.aftl_pubkey],
'manufacturer_key': self.manufacturer_key,
'padding_size': 0,
'timeout': None
}
self.info_icp_default_params = {
'vbmeta_image_path': self.output_filename,
'output': io.BytesIO()
}
self.verify_icp_default_params = {
'vbmeta_image_path': self.output_filename,
'transparency_log_pub_keys': [self.aftl_pubkey],
'output': io.BytesIO()
}
self.load_test_aftl_default_params = {
'vbmeta_image_path': self.vbmeta_image,
'output': io.BytesIO(),
'transparency_log_server': self.aftl_host,
'transparency_log_pub_key': self.aftl_pubkey,
'manufacturer_key': self.manufacturer_key,
'process_count': 1,
'submission_count': 1,
'stats_filename': None,
'preserve_icp_images': False,
'timeout': None
}
self.load_test_stats_file_p1_s1 = 'load_test_p1_s1.csv'
self.load_test_stats_file_p2_p2 = 'load_test_p2_s2.csv'
self.files_to_cleanup = [
self.output_filename,
self.load_test_stats_file_p1_s1,
self.load_test_stats_file_p2_p2
]
def tearDown(self):
"""Tears down the test bed for the unit tests."""
for filename in self.files_to_cleanup:
try:
os.remove(filename)
except OSError:
pass
super(AftlTestCase, self).tearDown()
def set_up_environment(self):
"""Sets up member variables for the particular test environment.
This allows to have different settings and mocking for unit tests and
integration tests.
"""
raise NotImplementedError('set_up_environment() needs to be implemented '
'by subclass.')
def get_aftl_implementation(self):
"""Gets the aftltool.Aftl implementation used for testing.
This allows to have different Aftl implementations for unit tests and
integration tests.
"""
raise NotImplementedError('get_aftl_implementation() needs to be'
'implemented by subclass.')
class AftlTest(AftlTestCase):
def setUp(self):
"""Sets up the test bed for the unit tests."""
super(AftlTest, self).setUp()
self.mock_aftl_host = 'test.foo.bar:9000'
def set_up_environment(self):
"""Sets up the environment for unit testing without networking."""
self.aftl_host = 'test.foo.bar:9000'
self.aftl_pubkey = self.get_testdata_path('aftltool/aftl_pubkey_1.pub')
self.vbmeta_image = self.get_testdata_path('aftltool/aftl_input_vbmeta.img')
self.manufacturer_key = self.get_testdata_path('testkey_rsa4096.pem')
def get_aftl_implementation(self, canned_response):
"""Retrieves the AftlMock for unit testing without networking."""
return AftlMock(canned_response)
def test_get_vbmeta_image(self):
"""Tests the get_vbmeta_image method."""
tool = aftltool.Aftl()
# Valid vbmeta image without footer and AftlDescriptor.
image, footer = tool.get_vbmeta_image(
self.get_testdata_path('aftltool/aftl_input_vbmeta.img'))
self.assertIsNotNone(image)
self.assertEqual(len(image), 4352)
self.assertIsNone(footer)
# Valid vbmeta image without footer but with AftlDescriptor.
image, footer = tool.get_vbmeta_image(
self.get_testdata_path('aftltool/aftl_output_vbmeta_with_1_icp.img'))
self.assertIsNotNone(image)
self.assertEqual(len(image), 4352)
self.assertIsNone(footer)
# Invalid vbmeta image.
image, footer = tool.get_vbmeta_image(
self.get_testdata_path('large_blob.bin'))
self.assertIsNone(image)
self.assertIsNone(footer)
# Invalid file path.
image, footer = tool.get_vbmeta_image(
self.get_testdata_path('blabli_not_existing_file'))
self.assertIsNone(image)
self.assertIsNone(footer)
def test_get_aftl_descriptor(self):
"""Tests the get_aftl_descriptor method."""
tool = aftltool.Aftl()
# Valid vbmeta image without footer with AftlDescriptor.
desc = tool.get_aftl_descriptor(
self.get_testdata_path('aftltool/aftl_output_vbmeta_with_1_icp.img'))
self.assertIsInstance(desc, aftltool.AftlDescriptor)
# Valid vbmeta image without footer and AftlDescriptor.
desc = tool.get_aftl_descriptor(
self.get_testdata_path('aftltool/aftl_input_vbmeta.img'))
self.assertIsNone(desc)
# Invalid vbmeta image.
desc = tool.get_aftl_descriptor(self.get_testdata_path('large_blob.bin'))
self.assertIsNone(desc)
# pylint: disable=no-member
def test_request_inclusion_proof(self):
"""Tests the request_inclusion_proof method."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(self.test_afi_resp)
icp = aftl.request_inclusion_proof(
self.mock_aftl_host, 'a' * 1024, '1',
self.get_testdata_path('testkey_rsa4096.pem'), None, None, None)
self.assertEqual(icp.leaf_index,
self.test_afi_resp.fw_info_proof.proof.leaf_index)
self.assertEqual(icp.proof_hash_count,
len(self.test_afi_resp.fw_info_proof.proof.hashes))
self.assertEqual(icp.log_url, self.mock_aftl_host)
self.assertEqual(
icp.log_root_descriptor.root_hash, binascii.unhexlify(
'53b182b55dc1377197c938637f50093131daea4d0696b1eae5b8a014bfde884a'))
self.assertEqual(icp.fw_info_leaf.version_incremental, '1')
# To calculate the hash of the a RSA key use the following command:
# openssl rsa -in test/data/testkey_rsa4096.pem -pubout \
# -outform DER | sha256sum
self.assertEqual(icp.fw_info_leaf.manufacturer_key_hash, base64.b64decode(
'yBCrUOdjvaAh4git5EgqWa5neegUaoXeLlB67+N8ObY='))
self.assertEqual(icp.log_root_signature,
self.test_afi_resp.fw_info_proof.sth.log_root_signature)
self.assertEqual(icp.proofs, self.test_afi_resp.fw_info_proof.proof.hashes)
# pylint: disable=no-member
def test_request_inclusion_proof_failure(self):
"""Tests the request_inclusion_proof method in case of a comms problem."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(aftltool.AftlError('Comms error'))
with self.assertRaises(aftltool.AftlError):
aftl.request_inclusion_proof(
self.mock_aftl_host, 'a' * 1024, 'version_inc',
self.get_testdata_path('testkey_rsa4096.pem'), None, None, None)
def test_request_inclusion_proof_manuf_key_not_4096(self):
"""Tests request_inclusion_proof with manufacturing key not of size 4096."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(self.test_afi_resp)
with self.assertRaises(aftltool.AftlError) as e:
aftl.request_inclusion_proof(
self.mock_aftl_host, 'a' * 1024, 'version_inc',
self.get_testdata_path('testkey_rsa2048.pem'), None, None, None)
self.assertIn('not of size 4096: 2048', str(e.exception))
def test_make_and_verify_icp_with_1_log(self):
"""Tests make_icp_from_vbmeta, verify_image_icp & info_image_icp."""
aftl = self.get_aftl_implementation(self.test_afi_resp)
# Make a VBmeta image with ICP.
with open(self.output_filename, 'wb') as output_file:
self.make_icp_default_params['output'] = output_file
result = aftl.make_icp_from_vbmeta(**self.make_icp_default_params)
self.assertTrue(result)
# Checks that there is 1 ICP.
aftl_descriptor = aftl.get_aftl_descriptor(self.output_filename)
self.assertEqual(aftl_descriptor.icp_header.icp_count, 1)
# Verifies the generated image.
result = aftl.verify_image_icp(**self.verify_icp_default_params)
self.assertTrue(result)
# Prints the image details.
result = aftl.info_image_icp(**self.info_icp_default_params)
self.assertTrue(result)
def test_make_and_verify_icp_with_2_logs(self):
"""Tests make_icp_from_vbmeta, verify_image_icp & info_image_icp."""
aftl = self.get_aftl_implementation(self.test_afi_resp)
# Reconfigures default parameters with two transparency logs.
self.make_icp_default_params['transparency_log_servers'] = [
self.aftl_host, self.aftl_host]
self.make_icp_default_params['transparency_log_pub_keys'] = [
self.aftl_pubkey, self.aftl_pubkey]
# Make a VBmeta image with ICP.
with open(self.output_filename, 'wb') as output_file:
self.make_icp_default_params['output'] = output_file
result = aftl.make_icp_from_vbmeta(
**self.make_icp_default_params)
self.assertTrue(result)
# Checks that there are 2 ICPs.
aftl_descriptor = aftl.get_aftl_descriptor(self.output_filename)
self.assertEqual(aftl_descriptor.icp_header.icp_count, 2)
# Verifies the generated image.
result = aftl.verify_image_icp(**self.verify_icp_default_params)
self.assertTrue(result)
# Prints the image details.
result = aftl.info_image_icp(**self.info_icp_default_params)
self.assertTrue(result)
def test_info_image_icp(self):
"""Tests info_image_icp with vbmeta image with 2 ICP."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(self.test_afi_resp)
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_2_icp_different_logs.img')
self.info_icp_default_params['vbmeta_image_path'] = image_path
# Verifies the generated image.
result = aftl.info_image_icp(**self.info_icp_default_params)
self.assertTrue(result)
def test_info_image_icp_fail(self):
"""Tests info_image_icp with invalid vbmeta image."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(self.test_afi_resp)
image_path = self.get_testdata_path('large_blob.bin')
self.info_icp_default_params['vbmeta_image_path'] = image_path
# Verifies the generated image.
result = aftl.info_image_icp(**self.info_icp_default_params)
self.assertFalse(result)
def test_verify_image_icp(self):
"""Tets verify_image_icp with 2 ICP with all matching log keys."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(self.test_afi_resp)
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_2_icp_different_logs.img')
self.verify_icp_default_params['vbmeta_image_path'] = image_path
self.verify_icp_default_params['transparency_log_pub_keys'] = [
self.get_testdata_path('aftltool/aftl_pubkey_1.pub'),
self.get_testdata_path('aftltool/aftl_pubkey_2.pub')
]
result = aftl.verify_image_icp(**self.verify_icp_default_params)
self.assertTrue(result)
def test_verify_image_icp_failure(self):
"""Tests verify_image_icp with 2 ICP but only one matching log key."""
# Always work with a mock independent if run as unit or integration tests.
aftl = AftlMock(self.test_afi_resp)
image_path = self.get_testdata_path(
'aftltool/aftl_output_vbmeta_with_2_icp_different_logs.img')
self.verify_icp_default_params['vbmeta_image_path'] = image_path
self.verify_icp_default_params['transparency_log_pub_keys'] = [
self.get_testdata_path('aftltool/aftl_pubkey_1.pub')
]
result = aftl.verify_image_icp(**self.verify_icp_default_params)
self.assertFalse(result)
def test_make_icp_with_invalid_grpc_service(self):
"""Tests make_icp_from_vbmeta command with a host that does not support GRPC."""
aftl = self.get_aftl_implementation(aftltool.AftlError('Comms error'))
self.make_icp_default_params[
'transparency_log_servers'] = ['www.google.com:80']
with open(self.output_filename, 'wb') as output_file:
self.make_icp_default_params['output'] = output_file
result = aftl.make_icp_from_vbmeta(
**self.make_icp_default_params)
self.assertFalse(result)
def test_make_icp_grpc_timeout(self):
"""Tests make_icp_from_vbmeta command when running into GRPC timeout."""
aftl = self.get_aftl_implementation(aftltool.AftlError('Comms error'))
# The timeout is set to 1 second which is way below the minimum processing
# time of the transparency log per load test results in b/139407814#2 where
# it was 3.43 seconds.
self.make_icp_default_params['timeout'] = 1
with open(self.output_filename, 'wb') as output_file:
self.make_icp_default_params['output'] = output_file
result = aftl.make_icp_from_vbmeta(
**self.make_icp_default_params)
self.assertFalse(result)
def test_load_test_single_process_single_submission(self):
"""Tests load_test_aftl command with 1 process which does 1 submission."""
aftl = self.get_aftl_implementation(self.test_afi_resp)
result = aftl.load_test_aftl(**self.load_test_aftl_default_params)
self.assertTrue(result)
output = self.load_test_aftl_default_params['output'].getvalue()
self.assertRegexpMatches(output, 'Succeeded:.+?1\n')
self.assertRegexpMatches(output, 'Failed:.+?0\n')
self.assertTrue(os.path.exists(self.load_test_stats_file_p1_s1))
def test_load_test_multi_process_multi_submission(self):
"""Tests load_test_aftl command with 2 processes and 2 submissions each."""
aftl = self.get_aftl_implementation(self.test_afi_resp)
self.load_test_aftl_default_params['process_count'] = 2
self.load_test_aftl_default_params['submission_count'] = 2
result = aftl.load_test_aftl(**self.load_test_aftl_default_params)
self.assertTrue(result)
output = self.load_test_aftl_default_params['output'].getvalue()
self.assertRegexpMatches(output, 'Succeeded:.+?4\n')
self.assertRegexpMatches(output, 'Failed:.+?0\n')
self.assertTrue(os.path.exists(self.load_test_stats_file_p2_p2))
def test_load_test_invalid_grpc_service(self):
"""Tests load_test_aftl command with a host that does not support GRPC."""
aftl = self.get_aftl_implementation(aftltool.AftlError('Comms error'))
self.load_test_aftl_default_params[
'transparency_log_server'] = 'www.google.com:80'
result = aftl.load_test_aftl(**self.load_test_aftl_default_params)
self.assertFalse(result)
output = self.load_test_aftl_default_params['output'].getvalue()
self.assertRegexpMatches(output, 'Succeeded:.+?0\n')
self.assertRegexpMatches(output, 'Failed:.+?1\n')
def test_load_test_grpc_timeout(self):
"""Tests load_test_aftl command when running into timeout."""
aftl = self.get_aftl_implementation(aftltool.AftlError('Comms error'))
self.load_test_aftl_default_params['timeout'] = 1
result = aftl.load_test_aftl(**self.load_test_aftl_default_params)
self.assertFalse(result)
output = self.load_test_aftl_default_params['output'].getvalue()
self.assertRegexpMatches(output, 'Succeeded:.+?0\n')
self.assertRegexpMatches(output, 'Failed:.+?1\n')
if __name__ == '__main__':
unittest.main(verbosity=2)