/* Copyright 2016 The TensorFlow Authors. All Rights Reserved. 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 "tensorflow/cc/saved_model/loader.h" #include "tensorflow/cc/saved_model/constants.h" #include "tensorflow/cc/saved_model/signature_constants.h" #include "tensorflow/cc/saved_model/tag_constants.h" #include "tensorflow/core/example/example.pb.h" #include "tensorflow/core/example/feature.pb.h" #include "tensorflow/core/framework/tensor_testutil.h" #include "tensorflow/core/lib/core/status.h" #include "tensorflow/core/lib/core/status_test_util.h" #include "tensorflow/core/lib/io/path.h" #include "tensorflow/core/lib/strings/str_util.h" #include "tensorflow/core/platform/test.h" namespace tensorflow { namespace { constexpr char kTestDataPbTxt[] = "cc/saved_model/testdata/half_plus_two_pbtxt/00000123"; constexpr char kTestDataMainOp[] = "cc/saved_model/testdata/half_plus_two_main_op/00000123"; constexpr char kTestDataSharded[] = "cc/saved_model/testdata/half_plus_two/00000123"; class LoaderTest : public ::testing::Test { protected: LoaderTest() {} string MakeSerializedExample(float x) { tensorflow::Example example; auto* feature_map = example.mutable_features()->mutable_feature(); (*feature_map)["x"].mutable_float_list()->add_value(x); return example.SerializeAsString(); } void ValidateAssets(const string& export_dir, const SavedModelBundle& bundle) { const string asset_directory = io::JoinPath(export_dir, kSavedModelAssetsDirectory); const string asset_filename = "foo.txt"; const string asset_filepath = io::JoinPath(asset_directory, asset_filename); TF_EXPECT_OK(Env::Default()->FileExists(asset_filepath)); std::vector path_outputs; TF_ASSERT_OK( bundle.session->Run({}, {"filename_tensor:0"}, {}, &path_outputs)); ASSERT_EQ(1, path_outputs.size()); test::ExpectTensorEqual( test::AsTensor({"foo.txt"}, TensorShape({})), path_outputs[0]); } void CheckSavedModelBundle(const string& export_dir, const SavedModelBundle& bundle) { ValidateAssets(export_dir, bundle); // Retrieve the regression signature from meta graph def. const auto signature_def_map = bundle.meta_graph_def.signature_def(); const auto signature_def = signature_def_map.at("regress_x_to_y"); const string input_name = signature_def.inputs().at(kRegressInputs).name(); const string output_name = signature_def.outputs().at(kRegressOutputs).name(); std::vector serialized_examples; for (float x : {0, 1, 2, 3}) { serialized_examples.push_back(MakeSerializedExample(x)); } // Validate the half plus two behavior. Tensor input = test::AsTensor(serialized_examples, TensorShape({4})); std::vector outputs; TF_ASSERT_OK(bundle.session->Run({{input_name, input}}, {output_name}, {}, &outputs)); ASSERT_EQ(outputs.size(), 1); test::ExpectTensorEqual( outputs[0], test::AsTensor({2, 2.5, 3, 3.5}, TensorShape({4, 1}))); } }; // Test for resource leaks related to TensorFlow session closing requirements // when loading and unloading large numbers of SavedModelBundles. // TODO(sukritiramesh): Increase run iterations and move outside of the test // suite. TEST_F(LoaderTest, ResourceLeakTest) { SavedModelBundle bundle; SessionOptions session_options; RunOptions run_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataSharded); for (int i = 0; i < 100; ++i) { TF_ASSERT_OK(LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe}, &bundle)); CheckSavedModelBundle(export_dir, bundle); } } TEST_F(LoaderTest, TagMatch) { SavedModelBundle bundle; SessionOptions session_options; RunOptions run_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataSharded); TF_ASSERT_OK(LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe}, &bundle)); CheckSavedModelBundle(export_dir, bundle); } TEST_F(LoaderTest, NoTagMatch) { SavedModelBundle bundle; RunOptions run_options; SessionOptions session_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataSharded); Status st = LoadSavedModel(session_options, run_options, export_dir, {"missing-tag"}, &bundle); EXPECT_FALSE(st.ok()); EXPECT_TRUE(str_util::StrContains( st.error_message(), "Could not find meta graph def matching supplied tags: { missing-tag }")) << st.error_message(); } TEST_F(LoaderTest, NoTagMatchMultiple) { SavedModelBundle bundle; RunOptions run_options; SessionOptions session_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataSharded); Status st = LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe, "missing-tag"}, &bundle); EXPECT_FALSE(st.ok()); EXPECT_TRUE(str_util::StrContains( st.error_message(), "Could not find meta graph def matching supplied tags: ")) << st.error_message(); } TEST_F(LoaderTest, SessionCreationFailure) { SavedModelBundle bundle; // Use invalid SessionOptions to cause session creation to fail. Default // options work, so provide an invalid value for the target field. SessionOptions session_options; constexpr char kInvalidTarget[] = "invalid target"; session_options.target = kInvalidTarget; RunOptions run_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataSharded); Status st = LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe}, &bundle); EXPECT_FALSE(st.ok()); EXPECT_TRUE(str_util::StrContains(st.error_message(), kInvalidTarget)) << st.error_message(); } TEST_F(LoaderTest, PbtxtFormat) { SavedModelBundle bundle; SessionOptions session_options; RunOptions run_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataPbTxt); TF_ASSERT_OK(LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe}, &bundle)); CheckSavedModelBundle(export_dir, bundle); } TEST_F(LoaderTest, MainOpFormat) { SavedModelBundle bundle; SessionOptions session_options; RunOptions run_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataMainOp); TF_ASSERT_OK(LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe}, &bundle)); CheckSavedModelBundle(export_dir, bundle); } TEST_F(LoaderTest, InvalidExportPath) { SavedModelBundle bundle; RunOptions run_options; SessionOptions session_options; const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), "missing-path"); Status st = LoadSavedModel(session_options, run_options, export_dir, {kSavedModelTagServe}, &bundle); EXPECT_FALSE(st.ok()); } TEST_F(LoaderTest, MaybeSavedModelDirectory) { // Valid SavedModel directory. const string export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), kTestDataSharded); EXPECT_TRUE(MaybeSavedModelDirectory(export_dir)); // Directory that does not exist. const string missing_export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), "missing-path"); EXPECT_FALSE(MaybeSavedModelDirectory(missing_export_dir)); // Directory that exists but is an invalid SavedModel location. const string invalid_export_dir = io::JoinPath(testing::TensorFlowSrcRoot(), "cc/saved_model"); EXPECT_FALSE(MaybeSavedModelDirectory(invalid_export_dir)); } } // namespace } // namespace tensorflow