// Copyright 2020 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. // /////////////////////////////////////////////////////////////////////////////// #include "prf_set_impl.h" #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include "tink/binary_keyset_writer.h" #include "tink/cleartext_keyset_handle.h" #include "tink/prf/prf_config.h" #include "tink/prf/prf_key_templates.h" #include "proto/testing_api.grpc.pb.h" namespace crypto { namespace tink { namespace { using ::crypto::tink::BinaryKeysetWriter; using ::crypto::tink::CleartextKeysetHandle; using ::crypto::tink::PrfKeyTemplates; using ::testing::ElementsAre; using ::testing::Eq; using ::testing::IsEmpty; using ::tink_testing_api::CreationRequest; using ::tink_testing_api::CreationResponse; using ::tink_testing_api::PrfSetComputeRequest; using ::tink_testing_api::PrfSetComputeResponse; using ::tink_testing_api::PrfSetKeyIdsRequest; using ::tink_testing_api::PrfSetKeyIdsResponse; using crypto::tink::KeysetHandle; using google::crypto::tink::KeyTemplate; std::string ValidKeyset() { const KeyTemplate& key_template = PrfKeyTemplates::HmacSha256(); auto handle_result = KeysetHandle::GenerateNew(key_template); EXPECT_TRUE(handle_result.ok()); std::stringbuf keyset; auto writer_result = BinaryKeysetWriter::New(absl::make_unique(&keyset)); EXPECT_TRUE(writer_result.ok()); auto status = CleartextKeysetHandle::Write(writer_result.value().get(), *handle_result.value()); EXPECT_TRUE(status.ok()); return keyset.str(); } class PrfSetImplTest : public ::testing::Test { protected: static void SetUpTestSuite() { ASSERT_TRUE(PrfConfig::Register().ok()); } }; TEST_F(PrfSetImplTest, CreateAeadSuccess) { tink_testing_api::PrfSetImpl prfset; std::string keyset = ValidKeyset(); CreationRequest request; request.mutable_annotated_keyset()->set_serialized_keyset(keyset); CreationResponse response; EXPECT_TRUE(prfset.Create(nullptr, &request, &response).ok()); EXPECT_THAT(response.err(), IsEmpty()); } TEST_F(PrfSetImplTest, CreateAeadFails) { tink_testing_api::PrfSetImpl prfset; CreationRequest request; request.mutable_annotated_keyset()->set_serialized_keyset("bad keyset"); CreationResponse response; EXPECT_TRUE(prfset.Create(nullptr, &request, &response).ok()); EXPECT_THAT(response.err(), Not(IsEmpty())); } TEST_F(PrfSetImplTest, KeyIdsComputeSuccess) { tink_testing_api::PrfSetImpl prfset; std::string keyset = ValidKeyset(); PrfSetKeyIdsRequest key_id_request; key_id_request.mutable_annotated_keyset()->set_serialized_keyset(keyset); PrfSetKeyIdsResponse key_id_response; EXPECT_TRUE(prfset.KeyIds(nullptr, &key_id_request, &key_id_response).ok()); EXPECT_THAT(key_id_response.err(), IsEmpty()); EXPECT_THAT(key_id_response.output().key_id(), ElementsAre(key_id_response.output().primary_key_id())); PrfSetComputeRequest comp_request; comp_request.mutable_annotated_keyset()->set_serialized_keyset(keyset); comp_request.set_key_id(key_id_response.output().primary_key_id()); comp_request.set_input_data("some data"); comp_request.set_output_length(16); PrfSetComputeResponse comp_response; EXPECT_TRUE(prfset.Compute(nullptr, &comp_request, &comp_response).ok()); EXPECT_THAT(comp_response.err(), IsEmpty()); EXPECT_THAT(comp_response.output().size(), Eq(16)); } TEST_F(PrfSetImplTest, KeyIdsBadKeysetFail) { tink_testing_api::PrfSetImpl prfset; PrfSetKeyIdsRequest key_id_request; key_id_request.mutable_annotated_keyset()->set_serialized_keyset( "bad keyset"); PrfSetKeyIdsResponse key_id_response; EXPECT_TRUE(prfset.KeyIds(nullptr, &key_id_request, &key_id_response).ok()); EXPECT_THAT(key_id_response.err(), Not(IsEmpty())); } TEST_F(PrfSetImplTest, ComputeBadKeysetFail) { tink_testing_api::PrfSetImpl prfset; PrfSetComputeRequest comp_request; comp_request.mutable_annotated_keyset()->set_serialized_keyset("bad keyset"); comp_request.set_key_id(1234); comp_request.set_input_data("some data"); comp_request.set_output_length(16); PrfSetComputeResponse comp_response; EXPECT_TRUE(prfset.Compute(nullptr, &comp_request, &comp_response).ok()); EXPECT_THAT(comp_response.err(), Not(IsEmpty())); } TEST_F(PrfSetImplTest, ComputeBadOutputLengthFail) { tink_testing_api::PrfSetImpl prfset; std::string keyset = ValidKeyset(); PrfSetKeyIdsRequest key_id_request; key_id_request.mutable_annotated_keyset()->set_serialized_keyset(keyset); PrfSetKeyIdsResponse key_id_response; EXPECT_TRUE(prfset.KeyIds(nullptr, &key_id_request, &key_id_response).ok()); EXPECT_THAT(key_id_response.err(), IsEmpty()); PrfSetComputeRequest comp_request; comp_request.mutable_annotated_keyset()->set_serialized_keyset(keyset); comp_request.set_key_id(key_id_response.output().primary_key_id()); comp_request.set_input_data("some data"); comp_request.set_output_length(123456); // bad output length PrfSetComputeResponse comp_response; EXPECT_TRUE(prfset.Compute(nullptr, &comp_request, &comp_response).ok()); EXPECT_THAT(comp_response.err(), Not(IsEmpty())); } TEST_F(PrfSetImplTest, ComputeBadKeyIdFail) { tink_testing_api::PrfSetImpl prfset; std::string keyset = ValidKeyset(); PrfSetComputeRequest comp_request; comp_request.mutable_annotated_keyset()->set_serialized_keyset(keyset); comp_request.set_key_id(12345); // bad key id comp_request.set_input_data("some data"); comp_request.set_output_length(16); PrfSetComputeResponse comp_response; EXPECT_TRUE(prfset.Compute(nullptr, &comp_request, &comp_response).ok()); EXPECT_THAT(comp_response.err(), Not(IsEmpty())); } } // namespace } // namespace tink } // namespace crypto