# Copyright 2022 Google LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS-IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """A basic example for using the signature API.""" # [START signature-basic-example] import tink from tink import cleartext_keyset_handle from tink import signature def example(): """Sign and verify using digital signatures.""" # Register the signature key managers. This is needed to create # PublicKeySign and PublicKeyVerify primitives later. signature.register() # A private keyset created with # "tinkey create-keyset --key-template=ECDSA_P256 --out private_keyset.cfg". # Note that this keyset has the secret key information in cleartext. private_keyset = r"""{ "key": [{ "keyData": { "keyMaterialType": "ASYMMETRIC_PRIVATE", "typeUrl": "type.googleapis.com/google.crypto.tink.EcdsaPrivateKey", "value": "EkwSBggDEAIYAhogEiSZ9u2nDtvZuDgWgGsVTIZ5/V08N4ycUspTX0RYRrkiIHpEwHxQd1bImkyMvV2bqtUbgMh5uPSTdnUEGrPXdt56GiEA3iUi+CRN71qy0fOCK66xAW/IvFyjOGtxjppRhSFUneo=" }, "keyId": 611814836, "outputPrefixType": "TINK", "status": "ENABLED" }], "primaryKeyId": 611814836 }""" # The corresponding public keyset created with # "tinkey create-public-keyset --in private_keyset.cfg" public_keyset = r"""{ "key": [{ "keyData": { "keyMaterialType": "ASYMMETRIC_PUBLIC", "typeUrl": "type.googleapis.com/google.crypto.tink.EcdsaPublicKey", "value": "EgYIAxACGAIaIBIkmfbtpw7b2bg4FoBrFUyGef1dPDeMnFLKU19EWEa5IiB6RMB8UHdWyJpMjL1dm6rVG4DIebj0k3Z1BBqz13beeg==" }, "keyId": 611814836, "outputPrefixType": "TINK", "status": "ENABLED" }], "primaryKeyId": 611814836 }""" # Create a keyset handle from the cleartext keyset in the previous # step. The keyset handle provides abstract access to the underlying keyset to # limit the exposure of accessing the raw key material. WARNING: In practice, # it is unlikely you will want to use a cleartext_keyset_handle, as it implies # that your key material is passed in cleartext which is a security risk. private_keyset_handle = cleartext_keyset_handle.read( tink.JsonKeysetReader(private_keyset)) # Retrieve the PublicKeySign primitive we want to use from the keyset # handle. sign_primitive = private_keyset_handle.primitive(signature.PublicKeySign) # Use the primitive to sign a message. In this case the primary key of the # keyset will be used (which is also the only key in this example). sig = sign_primitive.sign(b'msg') # Create a keyset handle from the keyset containing the public key. Because # this keyset does not contain any secrets, we can use # `tink.read_no_secret_keyset_handle`. public_keyset_handle = tink.read_no_secret_keyset_handle( tink.JsonKeysetReader(public_keyset)) # Retrieve the PublicKeyVerify primitive we want to use from the keyset # handle. verify_primitive = public_keyset_handle.primitive(signature.PublicKeyVerify) # Use the primitive to verify that `sig` is valid signature for the message. # Verify finds the correct key in the keyset. If no key is found or # verification fails, it raises an error. verify_primitive.verify(sig, b'msg') # Note that we can also get the public keyset handle from the private keyset # handle. The verification works the same as above. public_keyset_handle2 = private_keyset_handle.public_keyset_handle() verify_primitive2 = public_keyset_handle2.primitive(signature.PublicKeyVerify) verify_primitive2.verify(sig, b'msg') # [END signature-basic-example]