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Systematically generate test cases for operation setup failure
The test suite test_suite_psa_crypto_op_fail now runs a large number of automatically generated test cases which attempt to perform a one-shot operation or to set up a multi-part operation with invalid parameters. The following cases are fully covered (based on the enumeration of valid algorithms and key types): * An algorithm is not supported. * The key type is not compatible with the algorithm (for operations that use a key). * The algorithm is not compatible for the operation. Some test functions allow the library to return PSA_ERROR_NOT_SUPPORTED where the test code generator expects PSA_ERROR_INVALID_ARGUMENT or vice versa. This may be refined in the future. Some corner cases with algorithms combining a key agreement with a key derivation are not handled properly. This will be fixed in follow-up commits. Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
This commit is contained in:
parent
390543381c
commit
f8b6b503b4
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@ -21,6 +21,7 @@ generate only the specified files.
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# limitations under the License.
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import argparse
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import enum
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import os
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import re
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import sys
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@ -307,39 +308,126 @@ class OpFail:
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"""Generate test cases for operations that must fail."""
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#pylint: disable=too-few-public-methods
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class Reason(enum.Enum):
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NOT_SUPPORTED = 0
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INVALID = 1
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INCOMPATIBLE = 2
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def __init__(self, info: Information) -> None:
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self.constructors = info.constructors
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key_type_expressions = self.constructors.generate_expressions(
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sorted(self.constructors.key_types)
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)
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self.key_types = [crypto_knowledge.KeyType(kt_expr)
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for kt_expr in key_type_expressions]
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@staticmethod
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def hash_test_cases(alg: str) -> Iterator[test_case.TestCase]:
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"""Generate hash failure test cases for the specified algorithm."""
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def make_test_case(
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self,
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alg: crypto_knowledge.Algorithm,
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category: crypto_knowledge.AlgorithmCategory,
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reason: 'Reason',
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kt: Optional[crypto_knowledge.KeyType] = None,
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not_deps: FrozenSet[str] = frozenset(),
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) -> test_case.TestCase:
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"""Construct a failure test case for a one-key or keyless operation."""
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#pylint: disable=too-many-arguments,too-many-locals
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tc = test_case.TestCase()
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is_hash = (alg.startswith('PSA_ALG_SHA') or
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alg.startswith('PSA_ALG_MD') or
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alg in frozenset(['PSA_ALG_RIPEMD160', 'PSA_ALG_ANY_HASH']))
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if is_hash:
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descr = 'not supported'
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status = 'PSA_ERROR_NOT_SUPPORTED'
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dependencies = ['!PSA_WANT_' + alg[4:]]
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pretty_alg = re.sub(r'PSA_ALG_', r'', alg.expression)
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pretty_reason = reason.name.lower()
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if kt:
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key_type = kt.expression
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pretty_type = re.sub(r'PSA_KEY_TYPE_', r'', key_type)
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else:
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descr = 'invalid'
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status = 'PSA_ERROR_INVALID_ARGUMENT'
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dependencies = automatic_dependencies(alg)
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tc.set_description('PSA hash {}: {}'
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.format(descr, re.sub(r'PSA_ALG_', r'', alg)))
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key_type = ''
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pretty_type = ''
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tc.set_description('PSA {} {}: {}{}'
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.format(category.name.lower(),
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pretty_alg,
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pretty_reason,
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' with ' + pretty_type if pretty_type else ''))
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dependencies = automatic_dependencies(alg.base_expression, key_type)
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for i, dep in enumerate(dependencies):
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if dep in not_deps:
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dependencies[i] = '!' + dep
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tc.set_dependencies(dependencies)
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tc.set_function('hash_fail')
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tc.set_arguments([alg, status])
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yield tc
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tc.set_function(category.name.lower() + '_fail')
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arguments = []
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if kt:
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key_material = kt.key_material(kt.sizes_to_test()[0])
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arguments += [key_type, test_case.hex_string(key_material)]
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arguments.append(alg.expression)
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error = ('NOT_SUPPORTED' if reason == self.Reason.NOT_SUPPORTED else
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'INVALID_ARGUMENT')
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arguments.append('PSA_ERROR_' + error)
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tc.set_arguments(arguments)
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return tc
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def test_cases_for_algorithm(self, alg: str) -> Iterator[test_case.TestCase]:
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def no_key_test_cases(
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self,
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alg: crypto_knowledge.Algorithm,
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category: crypto_knowledge.AlgorithmCategory,
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) -> Iterator[test_case.TestCase]:
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"""Generate failure test cases for keyless operations with the specified algorithm."""
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if category == alg.category:
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# Compatible operation, unsupported algorithm
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for dep in automatic_dependencies(alg.base_expression):
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yield self.make_test_case(alg, category,
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self.Reason.NOT_SUPPORTED,
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not_deps=frozenset([dep]))
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else:
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# Incompatible operation, supported algorithm
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yield self.make_test_case(alg, category, self.Reason.INVALID)
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def one_key_test_cases(
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self,
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alg: crypto_knowledge.Algorithm,
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category: crypto_knowledge.AlgorithmCategory,
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) -> Iterator[test_case.TestCase]:
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"""Generate failure test cases for one-key operations with the specified algorithm."""
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for kt in self.key_types:
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key_is_compatible = kt.can_do(alg)
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# To do: public key for a private key operation
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if key_is_compatible and category == alg.category:
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# Compatible key and operation, unsupported algorithm
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for dep in automatic_dependencies(alg.base_expression):
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yield self.make_test_case(alg, category,
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self.Reason.NOT_SUPPORTED,
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kt=kt, not_deps=frozenset([dep]))
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elif key_is_compatible:
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# Compatible key, incompatible operation, supported algorithm
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yield self.make_test_case(alg, category,
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self.Reason.INVALID,
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kt=kt)
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elif category == alg.category:
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# Incompatible key, compatible operation, supported algorithm
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yield self.make_test_case(alg, category,
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self.Reason.INCOMPATIBLE,
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kt=kt)
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else:
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# Incompatible key and operation. Don't test cases where
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# multiple things are wrong, to keep the number of test
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# cases reasonable.
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pass
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def test_cases_for_algorithm(
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self,
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alg: crypto_knowledge.Algorithm,
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) -> Iterator[test_case.TestCase]:
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"""Generate operation failure test cases for the specified algorithm."""
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yield from self.hash_test_cases(alg)
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for category in crypto_knowledge.AlgorithmCategory:
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if category == crypto_knowledge.AlgorithmCategory.PAKE:
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# PAKE operations are not implemented yet
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pass
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elif category.requires_key():
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yield from self.one_key_test_cases(alg, category)
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else:
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yield from self.no_key_test_cases(alg, category)
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def all_test_cases(self) -> Iterator[test_case.TestCase]:
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"""Generate all test cases for operations that must fail."""
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algorithms = sorted(self.constructors.algorithms)
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for alg in self.constructors.generate_expressions(algorithms):
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for expr in self.constructors.generate_expressions(algorithms):
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alg = crypto_knowledge.Algorithm(expr)
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yield from self.test_cases_for_algorithm(alg)
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@ -3,6 +3,37 @@
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#include "psa/crypto.h"
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#include "test/psa_crypto_helpers.h"
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static int test_equal_status( const char *test,
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int line_no, const char* filename,
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psa_status_t value1,
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psa_status_t value2 )
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{
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if( ( value1 == PSA_ERROR_INVALID_ARGUMENT &&
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value2 == PSA_ERROR_NOT_SUPPORTED ) ||
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( value1 == PSA_ERROR_NOT_SUPPORTED &&
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value2 == PSA_ERROR_INVALID_ARGUMENT ) )
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{
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return( 1 );
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}
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return( mbedtls_test_equal( test, line_no, filename, value1, value2 ) );
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}
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/** Like #TEST_EQUAL, but expects #psa_status_t values and treats
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* #PSA_ERROR_INVALID_ARGUMENT and #PSA_ERROR_NOT_SUPPORTED as
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* interchangeable.
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*
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* This test suite currently allows NOT_SUPPORTED and INVALID_ARGUMENT
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* to be interchangeable in places where the library's behavior does not
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* match the strict expectations of the test case generator. In the long
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* run, it would be better to clarify the expectations and reconcile the
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* library and the test case generator.
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*/
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#define TEST_STATUS( expr1, expr2 ) \
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do { \
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if( ! test_equal_status( #expr1 " == " #expr2, __LINE__, __FILE__, \
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expr1, expr2 ) ) \
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goto exit; \
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} while( 0 )
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/* END_HEADER */
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PSA_DONE( );
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}
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/* END_CASE */
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/* BEGIN_CASE */
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void mac_fail( int key_type_arg, data_t *key_data,
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int alg_arg, int expected_status_arg )
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{
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psa_status_t expected_status = expected_status_arg;
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psa_key_type_t key_type = key_type_arg;
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psa_algorithm_t alg = alg_arg;
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psa_mac_operation_t operation = PSA_MAC_OPERATION_INIT;
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psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT;
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mbedtls_svc_key_id_t key_id = MBEDTLS_SVC_KEY_ID_INIT;
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uint8_t input[1] = {'A'};
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uint8_t output[PSA_MAC_MAX_SIZE] = {0};
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size_t length = SIZE_MAX;
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PSA_INIT( );
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psa_set_key_type( &attributes, key_type );
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psa_set_key_usage_flags( &attributes,
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PSA_KEY_USAGE_SIGN_HASH |
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PSA_KEY_USAGE_VERIFY_HASH );
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psa_set_key_algorithm( &attributes, alg );
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PSA_ASSERT( psa_import_key( &attributes,
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key_data->x, key_data->len,
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&key_id ) );
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TEST_STATUS( expected_status,
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psa_mac_sign_setup( &operation, key_id, alg ) );
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TEST_STATUS( expected_status,
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psa_mac_verify_setup( &operation, key_id, alg ) );
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TEST_STATUS( expected_status,
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psa_mac_compute( key_id, alg,
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input, sizeof( input ),
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output, sizeof( output ), &length ) );
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TEST_STATUS( expected_status,
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psa_mac_verify( key_id, alg,
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input, sizeof( input ),
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output, sizeof( output ) ) );
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exit:
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psa_mac_abort( &operation );
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psa_destroy_key( key_id );
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psa_reset_key_attributes( &attributes );
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PSA_DONE( );
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}
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/* END_CASE */
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/* BEGIN_CASE */
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void cipher_fail( int key_type_arg, data_t *key_data,
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int alg_arg, int expected_status_arg )
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{
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psa_status_t expected_status = expected_status_arg;
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psa_key_type_t key_type = key_type_arg;
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psa_algorithm_t alg = alg_arg;
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psa_cipher_operation_t operation = PSA_CIPHER_OPERATION_INIT;
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psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT;
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mbedtls_svc_key_id_t key_id = MBEDTLS_SVC_KEY_ID_INIT;
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uint8_t input[1] = {'A'};
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uint8_t output[64] = {0};
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size_t length = SIZE_MAX;
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PSA_INIT( );
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psa_set_key_type( &attributes, key_type );
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psa_set_key_usage_flags( &attributes,
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PSA_KEY_USAGE_ENCRYPT |
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PSA_KEY_USAGE_DECRYPT );
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psa_set_key_algorithm( &attributes, alg );
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PSA_ASSERT( psa_import_key( &attributes,
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key_data->x, key_data->len,
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&key_id ) );
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TEST_STATUS( expected_status,
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psa_cipher_encrypt_setup( &operation, key_id, alg ) );
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TEST_STATUS( expected_status,
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psa_cipher_decrypt_setup( &operation, key_id, alg ) );
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TEST_STATUS( expected_status,
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psa_cipher_encrypt( key_id, alg,
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input, sizeof( input ),
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output, sizeof( output ), &length ) );
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TEST_STATUS( expected_status,
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psa_cipher_decrypt( key_id, alg,
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input, sizeof( input ),
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output, sizeof( output ), &length ) );
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exit:
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psa_cipher_abort( &operation );
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psa_destroy_key( key_id );
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psa_reset_key_attributes( &attributes );
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PSA_DONE( );
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}
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/* END_CASE */
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/* BEGIN_CASE */
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void aead_fail( int key_type_arg, data_t *key_data,
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int alg_arg, int expected_status_arg )
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{
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psa_status_t expected_status = expected_status_arg;
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psa_key_type_t key_type = key_type_arg;
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psa_algorithm_t alg = alg_arg;
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psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT;
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mbedtls_svc_key_id_t key_id = MBEDTLS_SVC_KEY_ID_INIT;
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uint8_t input[16] = "ABCDEFGHIJKLMNO";
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uint8_t output[64] = {0};
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size_t length = SIZE_MAX;
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PSA_INIT( );
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psa_set_key_type( &attributes, key_type );
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psa_set_key_usage_flags( &attributes,
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PSA_KEY_USAGE_ENCRYPT |
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PSA_KEY_USAGE_DECRYPT );
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psa_set_key_algorithm( &attributes, alg );
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PSA_ASSERT( psa_import_key( &attributes,
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key_data->x, key_data->len,
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&key_id ) );
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TEST_STATUS( expected_status,
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psa_aead_encrypt( key_id, alg,
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input, sizeof( input ),
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NULL, 0, input, sizeof( input ),
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output, sizeof( output ), &length ) );
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TEST_STATUS( expected_status,
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psa_aead_decrypt( key_id, alg,
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input, sizeof( input ),
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NULL, 0, input, sizeof( input ),
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output, sizeof( output ), &length ) );
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exit:
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psa_destroy_key( key_id );
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psa_reset_key_attributes( &attributes );
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PSA_DONE( );
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}
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/* END_CASE */
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/* BEGIN_CASE */
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void sign_fail( int key_type_arg, data_t *key_data,
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int alg_arg, int expected_status_arg )
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{
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psa_status_t expected_status = expected_status_arg;
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psa_key_type_t key_type = key_type_arg;
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psa_algorithm_t alg = alg_arg;
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psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT;
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mbedtls_svc_key_id_t key_id = MBEDTLS_SVC_KEY_ID_INIT;
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uint8_t input[1] = {'A'};
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uint8_t output[PSA_SIGNATURE_MAX_SIZE] = {0};
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size_t length = SIZE_MAX;
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PSA_INIT( );
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psa_set_key_type( &attributes, key_type );
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psa_set_key_usage_flags( &attributes,
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PSA_KEY_USAGE_SIGN_HASH |
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PSA_KEY_USAGE_VERIFY_HASH );
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psa_set_key_algorithm( &attributes, alg );
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PSA_ASSERT( psa_import_key( &attributes,
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key_data->x, key_data->len,
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&key_id ) );
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TEST_STATUS( expected_status,
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psa_sign_hash( key_id, alg,
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input, sizeof( input ),
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output, sizeof( output ), &length ) );
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TEST_STATUS( expected_status,
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psa_verify_hash( key_id, alg,
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input, sizeof( input ),
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output, sizeof( output ) ) );
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exit:
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psa_destroy_key( key_id );
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psa_reset_key_attributes( &attributes );
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PSA_DONE( );
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}
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/* END_CASE */
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/* BEGIN_CASE */
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void asymmetric_encryption_fail( int key_type_arg, data_t *key_data,
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int alg_arg, int expected_status_arg )
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{
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psa_status_t expected_status = expected_status_arg;
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psa_key_type_t key_type = key_type_arg;
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psa_algorithm_t alg = alg_arg;
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psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT;
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mbedtls_svc_key_id_t key_id = MBEDTLS_SVC_KEY_ID_INIT;
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uint8_t plaintext[PSA_ASYMMETRIC_DECRYPT_OUTPUT_MAX_SIZE] = {0};
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uint8_t ciphertext[PSA_ASYMMETRIC_ENCRYPT_OUTPUT_MAX_SIZE] = {0};
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size_t length = SIZE_MAX;
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PSA_INIT( );
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psa_set_key_type( &attributes, key_type );
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psa_set_key_usage_flags( &attributes,
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PSA_KEY_USAGE_ENCRYPT |
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PSA_KEY_USAGE_DECRYPT );
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psa_set_key_algorithm( &attributes, alg );
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PSA_ASSERT( psa_import_key( &attributes,
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key_data->x, key_data->len,
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&key_id ) );
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TEST_STATUS( expected_status,
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psa_asymmetric_encrypt( key_id, alg,
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plaintext, 1,
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NULL, 0,
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ciphertext, sizeof( ciphertext ),
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&length ) );
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TEST_STATUS( expected_status,
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psa_asymmetric_decrypt( key_id, alg,
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ciphertext, sizeof( ciphertext ),
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NULL, 0,
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plaintext, sizeof( plaintext ),
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&length ) );
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exit:
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psa_destroy_key( key_id );
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psa_reset_key_attributes( &attributes );
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PSA_DONE( );
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}
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/* END_CASE */
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/* BEGIN_CASE */
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void key_derivation_fail( int alg_arg, int expected_status_arg )
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{
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psa_status_t expected_status = expected_status_arg;
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psa_algorithm_t alg = alg_arg;
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psa_key_derivation_operation_t operation = PSA_KEY_DERIVATION_OPERATION_INIT;
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PSA_INIT( );
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|
||||
TEST_EQUAL( expected_status,
|
||||
psa_key_derivation_setup( &operation, alg ) );
|
||||
|
||||
exit:
|
||||
psa_key_derivation_abort( &operation );
|
||||
PSA_DONE( );
|
||||
}
|
||||
/* END_CASE */
|
||||
|
||||
/* BEGIN_CASE */
|
||||
void key_agreement_fail( int key_type_arg, data_t *key_data,
|
||||
int alg_arg, int expected_status_arg )
|
||||
{
|
||||
psa_status_t expected_status = expected_status_arg;
|
||||
psa_key_type_t key_type = key_type_arg;
|
||||
psa_algorithm_t alg = alg_arg;
|
||||
psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT;
|
||||
mbedtls_svc_key_id_t key_id = MBEDTLS_SVC_KEY_ID_INIT;
|
||||
uint8_t public_key[PSA_EXPORT_PUBLIC_KEY_MAX_SIZE] = {0};
|
||||
size_t public_key_length = SIZE_MAX;
|
||||
uint8_t output[PSA_SIGNATURE_MAX_SIZE] = {0};
|
||||
size_t length = SIZE_MAX;
|
||||
psa_key_derivation_operation_t operation = PSA_KEY_DERIVATION_OPERATION_INIT;
|
||||
|
||||
PSA_INIT( );
|
||||
|
||||
psa_set_key_type( &attributes, key_type );
|
||||
psa_set_key_usage_flags( &attributes,
|
||||
PSA_KEY_USAGE_DERIVE );
|
||||
psa_set_key_algorithm( &attributes, alg );
|
||||
PSA_ASSERT( psa_import_key( &attributes,
|
||||
key_data->x, key_data->len,
|
||||
&key_id ) );
|
||||
if( PSA_KEY_TYPE_IS_KEY_PAIR( key_type ) ||
|
||||
PSA_KEY_TYPE_IS_PUBLIC_KEY( key_type ) )
|
||||
{
|
||||
PSA_ASSERT( psa_export_public_key( key_id,
|
||||
public_key, sizeof( public_key ),
|
||||
&public_key_length ) );
|
||||
}
|
||||
|
||||
TEST_STATUS( expected_status,
|
||||
psa_raw_key_agreement( alg, key_id,
|
||||
public_key, public_key_length,
|
||||
output, sizeof( output ), &length ) );
|
||||
|
||||
#if defined(PSA_WANT_ALG_HKDF) && defined(PSA_WANT_ALG_SHA_256)
|
||||
PSA_ASSERT( psa_key_derivation_setup( &operation,
|
||||
PSA_ALG_HKDF( PSA_ALG_SHA_256 ) ) );
|
||||
TEST_STATUS( expected_status,
|
||||
psa_key_derivation_key_agreement(
|
||||
&operation,
|
||||
PSA_KEY_DERIVATION_INPUT_SECRET,
|
||||
key_id,
|
||||
public_key, public_key_length ) );
|
||||
#endif
|
||||
|
||||
exit:
|
||||
psa_key_derivation_abort( &operation );
|
||||
psa_destroy_key( key_id );
|
||||
psa_reset_key_attributes( &attributes );
|
||||
PSA_DONE( );
|
||||
}
|
||||
/* END_CASE */
|
||||
|
|
File diff suppressed because it is too large
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Reference in a new issue