ml/handwriting.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright 2020 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ml/handwriting.h"

 #include <memory>
 #include <string>
 #include <utility>

 #include <base/check.h>
 #include <base/check_op.h>
 #include <base/files/file_path.h>
 #include <base/logging.h>
 #include <base/memory/free_deleter.h>
 #include <base/native_library.h>
 #include <base/optional.h>
 #include <base/strings/string_util.h>

 #include "ml/util.h"

 namespace ml {
 namespace {

 using chrome_knowledge::HandwritingRecognizerModelPaths;
 using chrome_knowledge::HandwritingRecognizerOptions;
 using chromeos::machine_learning::mojom::HandwritingRecognizerSpecPtr;

 constexpr char kHandwritingLibraryRelativePath[] = "libhandwriting.so";

 // A list of supported language code.
 constexpr char kLanguageCodeEn[] = "en";
 constexpr char kLanguageCodeGesture[] = "gesture_in_context";

 // Returns HandwritingRecognizerModelPaths based on the `spec`.
 HandwritingRecognizerModelPaths GetModelPaths(
     const std::string& language, const base::FilePath& model_path) {
   HandwritingRecognizerModelPaths paths;
   if (language == kLanguageCodeEn) {
     paths.set_reco_model_path(model_path.Append("latin_indy.tflite").value());
     paths.set_seg_model_path(
         model_path.Append("latin_indy_seg.tflite").value());
     paths.set_conf_model_path(
         model_path.Append("latin_indy_conf.tflite").value());
     paths.set_fst_lm_path(model_path.Append("latin_indy.compact.fst").value());
     paths.set_recospec_path(model_path.Append("latin_indy.pb").value());
     return paths;
   }

   DCHECK_EQ(language, kLanguageCodeGesture);
   paths.set_reco_model_path(model_path.Append("gic.reco_model.tflite").value());
   paths.set_recospec_path(model_path.Append("gic.recospec.pb").value());
   return paths;
 }

 class HandwritingLibraryImpl : public HandwritingLibrary {
  public:
   HandwritingLibraryImpl();
   ~HandwritingLibraryImpl() override = default;

   Status GetStatus() const override;
   HandwritingRecognizer CreateHandwritingRecognizer() const override;
   bool LoadHandwritingRecognizer(
       HandwritingRecognizer recognizer,
       HandwritingRecognizerSpecPtr spec) const override;
   bool LoadHandwritingRecognizerFromRootFs(
       HandwritingRecognizer recognizer,
       const std::string& language) const override;
   bool RecognizeHandwriting(
       HandwritingRecognizer recognizer,
       const chrome_knowledge::HandwritingRecognizerRequest& request,
       chrome_knowledge::HandwritingRecognizerResult* result) const override;

   void DestroyHandwritingRecognizer(
       HandwritingRecognizer recognizer) const override;

  private:
   friend class base::NoDestructor<HandwritingLibraryImpl>;
   FRIEND_TEST(HandwritingLibraryTest, CanLoadLibrary);

   // Initialize the handwriting library.
   explicit HandwritingLibraryImpl(const std::string& lib_path);
   HandwritingLibraryImpl(const HandwritingLibraryImpl&) = delete;
   HandwritingLibraryImpl& operator=(const HandwritingLibraryImpl&) = delete;

   base::Optional<base::ScopedNativeLibrary> library_;
   Status status_;
   // Path that contains the library and the model files.
   const base::FilePath lib_path_;

   // Store the interface function pointers.
   // TODO(honglinyu) as pointed out by cjmcdonald@, we should group the pointers
   // into a single `HandwritingInterface` struct and make it optional, i.e.,
   // declaring something like |base::Optional<HandwritingInterface> interface_|.
   CreateHandwritingRecognizerFn create_handwriting_recognizer_;
   LoadHandwritingRecognizerFn load_handwriting_recognizer_;
   RecognizeHandwritingFn recognize_handwriting_;
   DeleteHandwritingResultDataFn delete_handwriting_result_data_;
   DestroyHandwritingRecognizerFn destroy_handwriting_recognizer_;
 };

 HandwritingLibraryImpl::HandwritingLibraryImpl(const std::string& lib_path)
     : status_(Status::kUninitialized),
       lib_path_(lib_path),
       create_handwriting_recognizer_(nullptr),
       load_handwriting_recognizer_(nullptr),
       recognize_handwriting_(nullptr),
       delete_handwriting_result_data_(nullptr),
       destroy_handwriting_recognizer_(nullptr) {
   if (!IsHandwritingLibrarySupported()) {
     status_ = Status::kNotSupported;
     return;
   }
   // Load the library with an option preferring own symbols. Otherwise the
   // library will try to call, e.g., external tflite, which leads to crash.
   base::NativeLibraryOptions native_library_options;
   native_library_options.prefer_own_symbols = true;
   library_.emplace(base::LoadNativeLibraryWithOptions(
       lib_path_.Append(kHandwritingLibraryRelativePath), native_library_options,
       nullptr));
   if (!library_->is_valid()) {
     status_ = Status::kLoadLibraryFailed;
     return;
   }

 // Helper macro to look up functions from the library, assuming the function
 // pointer type is named as (name+"Fn"), which is the case in
 // "libhandwriting/handwriting_interface.h".
 #define ML_HANDWRITING_LOOKUP_FUNCTION(function_ptr, name)             \
   function_ptr =                                                       \
       reinterpret_cast<name##Fn>(library_->GetFunctionPointer(#name)); \
   if (function_ptr == NULL) {                                          \
     status_ = Status::kFunctionLookupFailed;                           \
     return;                                                            \
   }
   // Look up the function pointers.
   ML_HANDWRITING_LOOKUP_FUNCTION(create_handwriting_recognizer_,
                                  CreateHandwritingRecognizer);
   ML_HANDWRITING_LOOKUP_FUNCTION(load_handwriting_recognizer_,
                                  LoadHandwritingRecognizer);
   ML_HANDWRITING_LOOKUP_FUNCTION(recognize_handwriting_, RecognizeHandwriting);
   ML_HANDWRITING_LOOKUP_FUNCTION(delete_handwriting_result_data_,
                                  DeleteHandwritingResultData);
   ML_HANDWRITING_LOOKUP_FUNCTION(destroy_handwriting_recognizer_,
                                  DestroyHandwritingRecognizer);
 #undef ML_HANDWRITING_LOOKUP_FUNCTION

   status_ = Status::kOk;
 }

 HandwritingLibrary::Status HandwritingLibraryImpl::GetStatus() const {
   return status_;
 }

 // Proxy functions to the library function pointers.
 HandwritingRecognizer HandwritingLibraryImpl::CreateHandwritingRecognizer()
     const {
   DCHECK(status_ == Status::kOk);
   return (*create_handwriting_recognizer_)();
 }

 bool HandwritingLibraryImpl::LoadHandwritingRecognizerFromRootFs(
     HandwritingRecognizer const recognizer, const std::string& language) const {
   DCHECK(status_ == Status::kOk);

   // options is not used for now.
   const std::string options_pb =
       HandwritingRecognizerOptions().SerializeAsString();

   const std::string paths_pb =
       GetModelPaths(language, lib_path_).SerializeAsString();
   return (*load_handwriting_recognizer_)(recognizer, options_pb.data(),
                                          options_pb.size(), paths_pb.data(),
                                          paths_pb.size());
 }

 bool HandwritingLibraryImpl::LoadHandwritingRecognizer(
     HandwritingRecognizer const recognizer,
     const HandwritingRecognizerSpecPtr spec) const {
   DCHECK(status_ == Status::kOk);

   // options is not used for now.
   const std::string options_pb =
       HandwritingRecognizerOptions().SerializeAsString();

   base::FilePath model_path;

   // If enabled, get model data from Language Packs instead of the path on
   // rootfs.
   if (ml::HandwritingLibrary::IsUseLanguagePacksEnabled()) {
     if (!spec->language_pack_path) {
       LOG(ERROR) << "Language Pack path cannot be empty.";
       return false;
     }
     const std::string target_path = spec->language_pack_path.value();
     const base::Optional<base::FilePath> real_language_pack_path =
         GetRealPath(base::FilePath(target_path));
     if (!real_language_pack_path) {
       LOG(ERROR) << "Bad Language Pack path" << target_path;
       return false;
     }
     // For security, we check that the path is pointing to a safe location on
     // disk.
     if (!IsDlcPathValid(model_path)) {
       LOG(ERROR) << "Not a valid Language Pack path " << target_path;
       return false;
     }
     model_path = real_language_pack_path.value();
   } else {
     model_path = lib_path_;
   }

   const std::string paths_pb =
       GetModelPaths(spec->language, model_path).SerializeAsString();
   return (*load_handwriting_recognizer_)(recognizer, options_pb.data(),
                                          options_pb.size(), paths_pb.data(),
                                          paths_pb.size());
 }

 bool HandwritingLibraryImpl::RecognizeHandwriting(
     HandwritingRecognizer const recognizer,
     const chrome_knowledge::HandwritingRecognizerRequest& request,
     chrome_knowledge::HandwritingRecognizerResult* const result) const {
   DCHECK(status_ == Status::kOk);
   const std::string request_pb = request.SerializeAsString();
   char* result_data = nullptr;
   int result_size = 0;
   const bool recognize_result =
       (*recognize_handwriting_)(recognizer, request_pb.data(),
                                 request_pb.size(), &result_data, &result_size);
   if (recognize_result) {
     const bool parse_result_status =
         result->ParseFromArray(result_data, result_size);
     DCHECK(parse_result_status);
     // only need to delete result_data if succeeds.
     (*delete_handwriting_result_data_)(result_data);
   }

   return recognize_result;
 }

 void HandwritingLibraryImpl::DestroyHandwritingRecognizer(
     HandwritingRecognizer const recognizer) const {
   DCHECK(status_ == Status::kOk);
   (*destroy_handwriting_recognizer_)(recognizer);
 }

 static HandwritingLibrary* g_fake_handwriting_library = nullptr;

 }  // namespace

 constexpr char HandwritingLibrary::kHandwritingDefaultInstallDir[];

 HandwritingLibrary* HandwritingLibrary::GetInstance(
     const std::string& lib_path) {
   if (g_fake_handwriting_library) {
     return g_fake_handwriting_library;
   }
   static base::NoDestructor<HandwritingLibraryImpl> instance(lib_path);
   return instance.get();
 }

 void HandwritingLibrary::UseFakeHandwritingLibraryForTesting(
     HandwritingLibrary* const fake_handwriting_library) {
   g_fake_handwriting_library = fake_handwriting_library;
 }

 }  // namespace ml
	// Copyright 2020 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ml/handwriting.h"

	#include <memory>
	#include <string>
	#include <utility>

	#include <base/check.h>
	#include <base/check_op.h>
	#include <base/files/file_path.h>
	#include <base/logging.h>
	#include <base/memory/free_deleter.h>
	#include <base/native_library.h>
	#include <base/optional.h>
	#include <base/strings/string_util.h>

	#include "ml/util.h"

	namespace ml {
	namespace {

	using chrome_knowledge::HandwritingRecognizerModelPaths;
	using chrome_knowledge::HandwritingRecognizerOptions;
	using chromeos::machine_learning::mojom::HandwritingRecognizerSpecPtr;

	constexpr char kHandwritingLibraryRelativePath[] = "libhandwriting.so";

	// A list of supported language code.
	constexpr char kLanguageCodeEn[] = "en";
	constexpr char kLanguageCodeGesture[] = "gesture_in_context";

	// Returns HandwritingRecognizerModelPaths based on the `spec`.
	HandwritingRecognizerModelPaths GetModelPaths(
	const std::string& language, const base::FilePath& model_path) {
	HandwritingRecognizerModelPaths paths;
	if (language == kLanguageCodeEn) {
	paths.set_reco_model_path(model_path.Append("latin_indy.tflite").value());
	paths.set_seg_model_path(
	model_path.Append("latin_indy_seg.tflite").value());
	paths.set_conf_model_path(
	model_path.Append("latin_indy_conf.tflite").value());
	paths.set_fst_lm_path(model_path.Append("latin_indy.compact.fst").value());
	paths.set_recospec_path(model_path.Append("latin_indy.pb").value());
	return paths;
	}

	DCHECK_EQ(language, kLanguageCodeGesture);
	paths.set_reco_model_path(model_path.Append("gic.reco_model.tflite").value());
	paths.set_recospec_path(model_path.Append("gic.recospec.pb").value());
	return paths;
	}

	class HandwritingLibraryImpl : public HandwritingLibrary {
	public:
	HandwritingLibraryImpl();
	~HandwritingLibraryImpl() override = default;

	Status GetStatus() const override;
	HandwritingRecognizer CreateHandwritingRecognizer() const override;
	bool LoadHandwritingRecognizer(
	HandwritingRecognizer recognizer,
	HandwritingRecognizerSpecPtr spec) const override;
	bool LoadHandwritingRecognizerFromRootFs(
	HandwritingRecognizer recognizer,
	const std::string& language) const override;
	bool RecognizeHandwriting(
	HandwritingRecognizer recognizer,
	const chrome_knowledge::HandwritingRecognizerRequest& request,
	chrome_knowledge::HandwritingRecognizerResult* result) const override;

	void DestroyHandwritingRecognizer(
	HandwritingRecognizer recognizer) const override;

	private:
	friend class base::NoDestructor<HandwritingLibraryImpl>;
	FRIEND_TEST(HandwritingLibraryTest, CanLoadLibrary);

	// Initialize the handwriting library.
	explicit HandwritingLibraryImpl(const std::string& lib_path);
	HandwritingLibraryImpl(const HandwritingLibraryImpl&) = delete;
	HandwritingLibraryImpl& operator=(const HandwritingLibraryImpl&) = delete;

	base::Optional<base::ScopedNativeLibrary> library_;
	Status status_;
	// Path that contains the library and the model files.
	const base::FilePath lib_path_;

	// Store the interface function pointers.
	// TODO(honglinyu) as pointed out by cjmcdonald@, we should group the pointers
	// into a single `HandwritingInterface` struct and make it optional, i.e.,
	// declaring something like \|base::Optional<HandwritingInterface> interface_\|.
	CreateHandwritingRecognizerFn create_handwriting_recognizer_;
	LoadHandwritingRecognizerFn load_handwriting_recognizer_;
	RecognizeHandwritingFn recognize_handwriting_;
	DeleteHandwritingResultDataFn delete_handwriting_result_data_;
	DestroyHandwritingRecognizerFn destroy_handwriting_recognizer_;
	};

	HandwritingLibraryImpl::HandwritingLibraryImpl(const std::string& lib_path)
	: status_(Status::kUninitialized),
	lib_path_(lib_path),
	create_handwriting_recognizer_(nullptr),
	load_handwriting_recognizer_(nullptr),
	recognize_handwriting_(nullptr),
	delete_handwriting_result_data_(nullptr),
	destroy_handwriting_recognizer_(nullptr) {
	if (!IsHandwritingLibrarySupported()) {
	status_ = Status::kNotSupported;
	return;
	}
	// Load the library with an option preferring own symbols. Otherwise the
	// library will try to call, e.g., external tflite, which leads to crash.
	base::NativeLibraryOptions native_library_options;
	native_library_options.prefer_own_symbols = true;
	library_.emplace(base::LoadNativeLibraryWithOptions(
	lib_path_.Append(kHandwritingLibraryRelativePath), native_library_options,
	nullptr));
	if (!library_->is_valid()) {
	status_ = Status::kLoadLibraryFailed;
	return;
	}

	// Helper macro to look up functions from the library, assuming the function
	// pointer type is named as (name+"Fn"), which is the case in
	// "libhandwriting/handwriting_interface.h".
	#define ML_HANDWRITING_LOOKUP_FUNCTION(function_ptr, name) \
	function_ptr = \
	reinterpret_cast<name##Fn>(library_->GetFunctionPointer(#name)); \
	if (function_ptr == NULL) { \
	status_ = Status::kFunctionLookupFailed; \
	return; \
	}
	// Look up the function pointers.
	ML_HANDWRITING_LOOKUP_FUNCTION(create_handwriting_recognizer_,
	CreateHandwritingRecognizer);
	ML_HANDWRITING_LOOKUP_FUNCTION(load_handwriting_recognizer_,
	LoadHandwritingRecognizer);
	ML_HANDWRITING_LOOKUP_FUNCTION(recognize_handwriting_, RecognizeHandwriting);
	ML_HANDWRITING_LOOKUP_FUNCTION(delete_handwriting_result_data_,
	DeleteHandwritingResultData);
	ML_HANDWRITING_LOOKUP_FUNCTION(destroy_handwriting_recognizer_,
	DestroyHandwritingRecognizer);
	#undef ML_HANDWRITING_LOOKUP_FUNCTION

	status_ = Status::kOk;
	}

	HandwritingLibrary::Status HandwritingLibraryImpl::GetStatus() const {
	return status_;
	}

	// Proxy functions to the library function pointers.
	HandwritingRecognizer HandwritingLibraryImpl::CreateHandwritingRecognizer()
	const {
	DCHECK(status_ == Status::kOk);
	return (*create_handwriting_recognizer_)();
	}

	bool HandwritingLibraryImpl::LoadHandwritingRecognizerFromRootFs(
	HandwritingRecognizer const recognizer, const std::string& language) const {
	DCHECK(status_ == Status::kOk);

	// options is not used for now.
	const std::string options_pb =
	HandwritingRecognizerOptions().SerializeAsString();

	const std::string paths_pb =
	GetModelPaths(language, lib_path_).SerializeAsString();
	return (*load_handwriting_recognizer_)(recognizer, options_pb.data(),
	options_pb.size(), paths_pb.data(),
	paths_pb.size());
	}

	bool HandwritingLibraryImpl::LoadHandwritingRecognizer(
	HandwritingRecognizer const recognizer,
	const HandwritingRecognizerSpecPtr spec) const {
	DCHECK(status_ == Status::kOk);

	// options is not used for now.
	const std::string options_pb =
	HandwritingRecognizerOptions().SerializeAsString();

	base::FilePath model_path;

	// If enabled, get model data from Language Packs instead of the path on
	// rootfs.
	if (ml::HandwritingLibrary::IsUseLanguagePacksEnabled()) {
	if (!spec->language_pack_path) {
	LOG(ERROR) << "Language Pack path cannot be empty.";
	return false;
	}
	const std::string target_path = spec->language_pack_path.value();
	const base::Optional<base::FilePath> real_language_pack_path =
	GetRealPath(base::FilePath(target_path));
	if (!real_language_pack_path) {
	LOG(ERROR) << "Bad Language Pack path" << target_path;
	return false;
	}
	// For security, we check that the path is pointing to a safe location on
	// disk.
	if (!IsDlcPathValid(model_path)) {
	LOG(ERROR) << "Not a valid Language Pack path " << target_path;
	return false;
	}
	model_path = real_language_pack_path.value();
	} else {
	model_path = lib_path_;
	}

	const std::string paths_pb =
	GetModelPaths(spec->language, model_path).SerializeAsString();
	return (*load_handwriting_recognizer_)(recognizer, options_pb.data(),
	options_pb.size(), paths_pb.data(),
	paths_pb.size());
	}

	bool HandwritingLibraryImpl::RecognizeHandwriting(
	HandwritingRecognizer const recognizer,
	const chrome_knowledge::HandwritingRecognizerRequest& request,
	chrome_knowledge::HandwritingRecognizerResult* const result) const {
	DCHECK(status_ == Status::kOk);
	const std::string request_pb = request.SerializeAsString();
	char* result_data = nullptr;
	int result_size = 0;
	const bool recognize_result =
	(*recognize_handwriting_)(recognizer, request_pb.data(),
	request_pb.size(), &result_data, &result_size);
	if (recognize_result) {
	const bool parse_result_status =
	result->ParseFromArray(result_data, result_size);
	DCHECK(parse_result_status);
	// only need to delete result_data if succeeds.
	(*delete_handwriting_result_data_)(result_data);
	}

	return recognize_result;
	}

	void HandwritingLibraryImpl::DestroyHandwritingRecognizer(
	HandwritingRecognizer const recognizer) const {
	DCHECK(status_ == Status::kOk);
	(*destroy_handwriting_recognizer_)(recognizer);
	}

	static HandwritingLibrary* g_fake_handwriting_library = nullptr;

	} // namespace

	constexpr char HandwritingLibrary::kHandwritingDefaultInstallDir[];

	HandwritingLibrary* HandwritingLibrary::GetInstance(
	const std::string& lib_path) {
	if (g_fake_handwriting_library) {
	return g_fake_handwriting_library;
	}
	static base::NoDestructor<HandwritingLibraryImpl> instance(lib_path);
	return instance.get();
	}

	void HandwritingLibrary::UseFakeHandwritingLibraryForTesting(
	HandwritingLibrary* const fake_handwriting_library) {
	g_fake_handwriting_library = fake_handwriting_library;
	}

	} // namespace ml