// Copyright 2017 Google Inc. // // 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 "tink/binary_keyset_reader.h" #include #include #include #include #include #include #include #include "gtest/gtest.h" #include "tink/util/test_util.h" #include "proto/tink.pb.h" using crypto::tink::test::AddRawKey; using crypto::tink::test::AddTinkKey; using google::crypto::tink::EncryptedKeyset; using google::crypto::tink::KeyData; using google::crypto::tink::Keyset; using google::crypto::tink::KeyStatusType; namespace crypto { namespace tink { namespace { class BinaryKeysetReaderTest : public ::testing::Test { protected: void SetUp() override { Keyset::Key key; AddTinkKey("some key type", 42, key, KeyStatusType::ENABLED, KeyData::SYMMETRIC, &keyset_); AddRawKey("some other key type", 711, key, KeyStatusType::ENABLED, KeyData::SYMMETRIC, &keyset_); keyset_.set_primary_key_id(42); good_serialized_keyset_ = keyset_.SerializeAsString(); bad_serialized_keyset_ = "some weird string"; encrypted_keyset_.set_encrypted_keyset("some ciphertext with keyset"); auto keyset_info = encrypted_keyset_.mutable_keyset_info(); keyset_info->set_primary_key_id(42); auto key_info = keyset_info->add_key_info(); key_info->set_type_url("some type_url"); key_info->set_key_id(42); good_serialized_encrypted_keyset_ = encrypted_keyset_.SerializeAsString(); } EncryptedKeyset encrypted_keyset_; Keyset keyset_; std::string bad_serialized_keyset_; std::string good_serialized_keyset_; std::string good_serialized_encrypted_keyset_; }; TEST_F(BinaryKeysetReaderTest, testReaderCreation) { { // Input stream is null. std::unique_ptr null_stream(nullptr); auto reader_result = BinaryKeysetReader::New(std::move(null_stream)); EXPECT_FALSE(reader_result.ok()); EXPECT_EQ(absl::StatusCode::kInvalidArgument, reader_result.status().code()); } { // Good serialized keyset. auto reader_result = BinaryKeysetReader::New(good_serialized_keyset_); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); } { // Stream with good keyset. std::unique_ptr good_keyset_stream(new std::stringstream( std::string(good_serialized_keyset_), std::ios_base::in)); auto reader_result = BinaryKeysetReader::New(std::move(good_keyset_stream)); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); } { // Bad serialized keyset. auto reader_result = BinaryKeysetReader::New(bad_serialized_keyset_); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); } { // Stream with bad keyset. std::unique_ptr bad_keyset_stream(new std::stringstream( std::string(bad_serialized_keyset_), std::ios_base::in)); auto reader_result = BinaryKeysetReader::New(std::move(bad_keyset_stream)); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); } } TEST_F(BinaryKeysetReaderTest, testReadFromString) { { // Good string. auto reader_result = BinaryKeysetReader::New(good_serialized_keyset_); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_result = reader->Read(); EXPECT_TRUE(read_result.ok()) << read_result.status(); auto keyset = std::move(read_result.value()); EXPECT_EQ(good_serialized_keyset_, keyset->SerializeAsString()); } { // Bad string. auto reader_result = BinaryKeysetReader::New(bad_serialized_keyset_); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_result = reader->Read(); EXPECT_FALSE(read_result.ok()); EXPECT_EQ(absl::StatusCode::kInvalidArgument, read_result.status().code()); } } TEST_F(BinaryKeysetReaderTest, testReadFromStream) { { // Good stream. std::unique_ptr good_keyset_stream(new std::stringstream( std::string(good_serialized_keyset_), std::ios_base::in)); auto reader_result = BinaryKeysetReader::New(std::move(good_keyset_stream)); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_result = reader->Read(); EXPECT_TRUE(read_result.ok()) << read_result.status(); auto keyset = std::move(read_result.value()); EXPECT_EQ(good_serialized_keyset_, keyset->SerializeAsString()); } { // Bad stream. std::unique_ptr bad_keyset_stream(new std::stringstream( std::string(bad_serialized_keyset_), std::ios_base::in)); auto reader_result = BinaryKeysetReader::New(std::move(bad_keyset_stream)); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_result = reader->Read(); EXPECT_FALSE(read_result.ok()); EXPECT_EQ(absl::StatusCode::kInvalidArgument, read_result.status().code()); } } TEST_F(BinaryKeysetReaderTest, testReadEncryptedFromString) { { // Good string. auto reader_result = BinaryKeysetReader::New(good_serialized_encrypted_keyset_); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_encrypted_result = reader->ReadEncrypted(); EXPECT_TRUE(read_encrypted_result.ok()) << read_encrypted_result.status(); auto encrypted_keyset = std::move(read_encrypted_result.value()); EXPECT_EQ(good_serialized_encrypted_keyset_, encrypted_keyset->SerializeAsString()); } { // Bad string. auto reader_result = BinaryKeysetReader::New(bad_serialized_keyset_); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_encrypted_result = reader->ReadEncrypted(); EXPECT_FALSE(read_encrypted_result.ok()); EXPECT_EQ(absl::StatusCode::kInvalidArgument, read_encrypted_result.status().code()); } } TEST_F(BinaryKeysetReaderTest, testReadEncryptedFromStream) { { // Good stream. std::unique_ptr good_encrypted_keyset_stream( new std::stringstream(std::string(good_serialized_encrypted_keyset_), std::ios_base::in)); auto reader_result = BinaryKeysetReader::New(std::move(good_encrypted_keyset_stream)); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_encrypted_result = reader->ReadEncrypted(); EXPECT_TRUE(read_encrypted_result.ok()) << read_encrypted_result.status(); auto encrypted_keyset = std::move(read_encrypted_result.value()); EXPECT_EQ(good_serialized_encrypted_keyset_, encrypted_keyset->SerializeAsString()); } { // Bad string. std::unique_ptr bad_keyset_stream(new std::stringstream( std::string(bad_serialized_keyset_), std::ios_base::in)); auto reader_result = BinaryKeysetReader::New(std::move(bad_keyset_stream)); EXPECT_TRUE(reader_result.ok()) << reader_result.status(); auto reader = std::move(reader_result.value()); auto read_encrypted_result = reader->ReadEncrypted(); EXPECT_FALSE(read_encrypted_result.ok()); EXPECT_EQ(absl::StatusCode::kInvalidArgument, read_encrypted_result.status().code()); } } } // namespace } // namespace tink } // namespace crypto