RSASSA#
Module for RSASSA.
- protocol crypto_condor.primitives.RSASSA.Sign#
Bases:
Protocol
Represents a function that signs with RSASSA-PKCS1-v1_5 or RSASSA-PSS.
Classes that implement this protocol must have the following methods / attributes:
- __call__(private_key, message)#
Signs a message with RSA.
- Parameters:
private_key (bytes) – The private key in PEM format.
message (bytes) – The message to sign.
- Returns:
The signature.
- Return type:
bytes
- protocol crypto_condor.primitives.RSASSA.VerifyPkcs#
Bases:
Protocol
Represents a function that verifies RSASSA-PKCS1-v1_5 signatures.
Classes that implement this protocol must have the following methods / attributes:
- __call__(public_key, message, signature)#
Verifies an RSA signature.
- Parameters:
public_key (bytes) – The public part of the key used to sign the message in PEM format.
message (bytes) – The signed message.
signature (bytes) – The signature to verify.
- Returns:
True if the signature is valid, False otherwise.
- Return type:
bool
- protocol crypto_condor.primitives.RSASSA.VerifyPss#
Bases:
Protocol
Represents a function that verifies RSASSA-PSS signatures.
Classes that implement this protocol must have the following methods / attributes:
- __call__(public_key, message, signature, salt_length)#
Verifies an RSA signature.
- Parameters:
public_key (bytes) – The public part of the key used to sign the message in PEM format.
message (bytes) – The signed message.
signature (bytes) – The signature to verify.
salt_length (int) – The length of the salt used in MGF1, in bytes.
- Returns:
True if the signature is valid, False otherwise.
- Return type:
bool
- enum crypto_condor.primitives.RSASSA.Wrapper(value)#
Bases:
StrEnum
Available wrappers.
- Member Type:
str
Valid values are as follows:
- PYTHON = <Wrapper.PYTHON: 'Python'>#
- crypto_condor.primitives.RSASSA.run_wrapper(
- language,
- scheme,
- hash_algorithm,
- mgf_hash=None,
- run_sign=True,
- run_verify=True,
Runs the corresponding wrapper.
- Parameters:
language (Wrapper) – The language of the wrapper to run.
scheme (Scheme) – The RSA signature scheme to test.
hash_algorithm (Hash) – The hash algorithm used.
mgf_hash (Hash | None) – (RSASSA-PSS only) The hash algorithm to use with MGF1.
run_sign (bool) – Whether to test signature generation.
run_verify (bool) – Whether to test signature verification.
- Returns:
The results of
test_sign()
,test_verify_pss()
, ortest_verify_pkcs()
depending on the options used.- Return type:
- crypto_condor.primitives.RSASSA.test_sign(sign_function, scheme, hash_algorithm, *, pre_hashed=False)#
Tests a signing function with NIST test vectors.
- Parameters:
- Keyword Arguments:
pre_hashed – If True, the messages are hashed before passing them to
sign_function
.- Returns:
A dictionary containing a Results instance per vectors file, indexed by its filename. If there are no vectors available the dictionary is empty.
- Return type:
- crypto_condor.primitives.RSASSA.test_verify_pkcs(
- verify_function,
- hash_algorithm,
- compliance=True,
- resilience=True,
Tests a signature verification function.
- Parameters:
verify_function (VerifyPkcs) – The function to test.
hash_algorithm (Hash) – The hash algorithm used to generate the signatures.
compliance (bool) – Whether to use compliance test vectors.
resilience (bool) – Whether to use resilience test vectors.
- Returns:
A dictionary of Results, one for each vectors file, indexed by the filename. If there are no vectors available the dictionary is empty.
- Return type:
- crypto_condor.primitives.RSASSA.test_verify_pss(
- verify_function,
- hash_algorithm,
- mgf_hash=None,
- compliance=True,
- resilience=True,
Tests a function that verifies RSASSA-PSS signatures.
- Parameters:
verify_function (VerifyPss) – The function to test.
hash_algorithm (Hash) – The hash algorithm used to generate the signatures.
mgf_hash (Hash | None) – The hash function to use with MGF1.
compliance (bool) – Whether to use compliance test vectors.
resilience (bool) – Whether to use resilience test vectors.
- Returns:
A dictionary containing a Results instance per vectors file, indexed by its filename. If there are no vectors available the dictionary is empty.
- Return type: