mirror of
https://github.com/yuzu-emu/mbedtls.git
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efb584d4c0
Test keys with various persistence levels, enumerated from the metadata tests. For read-only keys, do not attempt to create or destroy the key through the API, only to read a key that has been injected into storage directly through filesystem access. Do not test keys with a non-default location, since they require a driver and we do not yet have a dependency mechanism to require the presence of a driver for a specific location value. Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
204 lines
7.9 KiB
Python
204 lines
7.9 KiB
Python
"""Knowledge about the PSA key store as implemented in Mbed TLS.
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"""
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# Copyright The Mbed TLS Contributors
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# SPDX-License-Identifier: Apache-2.0
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import re
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import struct
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from typing import Dict, List, Optional, Set, Union
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import unittest
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from mbedtls_dev import c_build_helper
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class Expr:
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"""Representation of a C expression with a known or knowable numerical value."""
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def __init__(self, content: Union[int, str]):
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if isinstance(content, int):
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digits = 8 if content > 0xffff else 4
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self.string = '{0:#0{1}x}'.format(content, digits + 2)
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self.value_if_known = content #type: Optional[int]
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else:
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self.string = content
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self.unknown_values.add(self.normalize(content))
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self.value_if_known = None
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value_cache = {} #type: Dict[str, int]
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"""Cache of known values of expressions."""
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unknown_values = set() #type: Set[str]
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"""Expressions whose values are not present in `value_cache` yet."""
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def update_cache(self) -> None:
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"""Update `value_cache` for expressions registered in `unknown_values`."""
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expressions = sorted(self.unknown_values)
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values = c_build_helper.get_c_expression_values(
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'unsigned long', '%lu',
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expressions,
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header="""
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#include <psa/crypto.h>
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""",
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include_path=['include']) #type: List[str]
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for e, v in zip(expressions, values):
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self.value_cache[e] = int(v, 0)
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self.unknown_values.clear()
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@staticmethod
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def normalize(string: str) -> str:
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"""Put the given C expression in a canonical form.
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This function is only intended to give correct results for the
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relatively simple kind of C expression typically used with this
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module.
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"""
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return re.sub(r'\s+', r'', string)
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def value(self) -> int:
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"""Return the numerical value of the expression."""
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if self.value_if_known is None:
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if re.match(r'([0-9]+|0x[0-9a-f]+)\Z', self.string, re.I):
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return int(self.string, 0)
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normalized = self.normalize(self.string)
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if normalized not in self.value_cache:
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self.update_cache()
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self.value_if_known = self.value_cache[normalized]
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return self.value_if_known
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Exprable = Union[str, int, Expr]
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"""Something that can be converted to a C expression with a known numerical value."""
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def as_expr(thing: Exprable) -> Expr:
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"""Return an `Expr` object for `thing`.
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If `thing` is already an `Expr` object, return it. Otherwise build a new
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`Expr` object from `thing`. `thing` can be an integer or a string that
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contains a C expression.
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"""
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if isinstance(thing, Expr):
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return thing
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else:
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return Expr(thing)
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class Key:
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"""Representation of a PSA crypto key object and its storage encoding.
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"""
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LATEST_VERSION = 0
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"""The latest version of the storage format."""
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def __init__(self, *,
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version: Optional[int] = None,
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id: Optional[int] = None, #pylint: disable=redefined-builtin
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lifetime: Exprable = 'PSA_KEY_LIFETIME_PERSISTENT',
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type: Exprable, #pylint: disable=redefined-builtin
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bits: int,
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usage: Exprable, alg: Exprable, alg2: Exprable,
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material: bytes #pylint: disable=used-before-assignment
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) -> None:
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self.version = self.LATEST_VERSION if version is None else version
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self.id = id #pylint: disable=invalid-name #type: Optional[int]
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self.lifetime = as_expr(lifetime) #type: Expr
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self.type = as_expr(type) #type: Expr
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self.bits = bits #type: int
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self.usage = as_expr(usage) #type: Expr
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self.alg = as_expr(alg) #type: Expr
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self.alg2 = as_expr(alg2) #type: Expr
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self.material = material #type: bytes
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MAGIC = b'PSA\000KEY\000'
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@staticmethod
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def pack(
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fmt: str,
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*args: Union[int, Expr]
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) -> bytes: #pylint: disable=used-before-assignment
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"""Pack the given arguments into a byte string according to the given format.
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This function is similar to `struct.pack`, but with the following differences:
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* All integer values are encoded with standard sizes and in
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little-endian representation. `fmt` must not include an endianness
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prefix.
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* Arguments can be `Expr` objects instead of integers.
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* Only integer-valued elements are supported.
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"""
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return struct.pack('<' + fmt, # little-endian, standard sizes
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*[arg.value() if isinstance(arg, Expr) else arg
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for arg in args])
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def bytes(self) -> bytes:
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"""Return the representation of the key in storage as a byte array.
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This is the content of the PSA storage file. When PSA storage is
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implemented over stdio files, this does not include any wrapping made
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by the PSA-storage-over-stdio-file implementation.
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"""
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header = self.MAGIC + self.pack('L', self.version)
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if self.version == 0:
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attributes = self.pack('LHHLLL',
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self.lifetime, self.type, self.bits,
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self.usage, self.alg, self.alg2)
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material = self.pack('L', len(self.material)) + self.material
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else:
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raise NotImplementedError
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return header + attributes + material
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def hex(self) -> str:
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"""Return the representation of the key as a hexadecimal string.
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This is the hexadecimal representation of `self.bytes`.
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"""
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return self.bytes().hex()
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def location_value(self) -> int:
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"""The numerical value of the location encoded in the key's lifetime."""
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return self.lifetime.value() >> 8
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class TestKey(unittest.TestCase):
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# pylint: disable=line-too-long
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"""A few smoke tests for the functionality of the `Key` class."""
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def test_numerical(self):
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key = Key(version=0,
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id=1, lifetime=0x00000001,
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type=0x2400, bits=128,
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usage=0x00000300, alg=0x05500200, alg2=0x04c01000,
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material=b'@ABCDEFGHIJKLMNO')
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expected_hex = '505341004b45590000000000010000000024800000030000000250050010c00410000000404142434445464748494a4b4c4d4e4f'
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self.assertEqual(key.bytes(), bytes.fromhex(expected_hex))
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self.assertEqual(key.hex(), expected_hex)
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def test_names(self):
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length = 0xfff8 // 8 # PSA_MAX_KEY_BITS in bytes
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key = Key(version=0,
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id=1, lifetime='PSA_KEY_LIFETIME_PERSISTENT',
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type='PSA_KEY_TYPE_RAW_DATA', bits=length*8,
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usage=0, alg=0, alg2=0,
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material=b'\x00' * length)
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expected_hex = '505341004b45590000000000010000000110f8ff000000000000000000000000ff1f0000' + '00' * length
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self.assertEqual(key.bytes(), bytes.fromhex(expected_hex))
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self.assertEqual(key.hex(), expected_hex)
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def test_defaults(self):
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key = Key(type=0x1001, bits=8,
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usage=0, alg=0, alg2=0,
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material=b'\x2a')
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expected_hex = '505341004b455900000000000100000001100800000000000000000000000000010000002a'
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self.assertEqual(key.bytes(), bytes.fromhex(expected_hex))
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self.assertEqual(key.hex(), expected_hex)
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