compiler/profile_assistant_test.cc - platform/art - Gitiles

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * 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 <gtest/gtest.h>

 #include "base/unix_file/fd_file.h"
 #include "common_runtime_test.h"
 #include "compiler/profile_assistant.h"
 #include "jit/offline_profiling_info.h"

 namespace art {

 class ProfileAssistantTest : public CommonRuntimeTest {
  protected:
   void SetupProfile(const std::string& id,
                     uint32_t checksum,
                     uint16_t number_of_methods,
                     const ScratchFile& profile,
                     ProfileCompilationInfo* info,
                     uint16_t start_method_index = 0) {
     std::string dex_location1 = "location1" + id;
     uint32_t dex_location_checksum1 = checksum;
     std::string dex_location2 = "location2" + id;
     uint32_t dex_location_checksum2 = 10 * checksum;
     for (uint16_t i = start_method_index; i < start_method_index + number_of_methods; i++) {
       ASSERT_TRUE(info->AddData(dex_location1, dex_location_checksum1, i));
       ASSERT_TRUE(info->AddData(dex_location2, dex_location_checksum2, i));
     }
     ASSERT_TRUE(info->Save(GetFd(profile)));
     ASSERT_EQ(0, profile.GetFile()->Flush());
     ASSERT_TRUE(profile.GetFile()->ResetOffset());
   }

   uint32_t GetFd(const ScratchFile& file) const {
     return static_cast<uint32_t>(file.GetFd());
   }
 };

 TEST_F(ProfileAssistantTest, AdviseCompilationEmptyReferences) {
   ScratchFile profile1;
   ScratchFile profile2;
   ScratchFile reference_profile1;
   ScratchFile reference_profile2;

   std::vector<uint32_t> profile_fds({
       GetFd(profile1),
       GetFd(profile2)});
   std::vector<uint32_t> reference_profile_fds({
       GetFd(reference_profile1),
       GetFd(reference_profile2)});

   const uint16_t kNumberOfMethodsToEnableCompilation = 100;
   ProfileCompilationInfo info1;
   SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
   ProfileCompilationInfo info2;
   SetupProfile("p2", 2, kNumberOfMethodsToEnableCompilation, profile2, &info2);

   // We should advise compilation.
   ProfileCompilationInfo* result;
   ASSERT_TRUE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
   ASSERT_TRUE(result != nullptr);

   // The resulting compilation info must be equal to the merge of the inputs.
   ProfileCompilationInfo expected;
   ASSERT_TRUE(expected.Load(info1));
   ASSERT_TRUE(expected.Load(info2));
   ASSERT_TRUE(expected.Equals(*result));

   // The information from profiles must be transfered to the reference profiles.
   ProfileCompilationInfo file_info1;
   ASSERT_TRUE(reference_profile1.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info1.Load(GetFd(reference_profile1)));
   ASSERT_TRUE(file_info1.Equals(info1));

   ProfileCompilationInfo file_info2;
   ASSERT_TRUE(reference_profile2.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info2.Load(GetFd(reference_profile2)));
   ASSERT_TRUE(file_info2.Equals(info2));

   // Initial profiles must be cleared.
   ASSERT_EQ(0, profile1.GetFile()->GetLength());
   ASSERT_EQ(0, profile2.GetFile()->GetLength());
 }

 TEST_F(ProfileAssistantTest, AdviseCompilationNonEmptyReferences) {
   ScratchFile profile1;
   ScratchFile profile2;
   ScratchFile reference_profile1;
   ScratchFile reference_profile2;

   std::vector<uint32_t> profile_fds({
       GetFd(profile1),
       GetFd(profile2)});
   std::vector<uint32_t> reference_profile_fds({
       GetFd(reference_profile1),
       GetFd(reference_profile2)});

   // The new profile info will contain the methods with indices 0-100.
   const uint16_t kNumberOfMethodsToEnableCompilation = 100;
   ProfileCompilationInfo info1;
   SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
   ProfileCompilationInfo info2;
   SetupProfile("p2", 2, kNumberOfMethodsToEnableCompilation, profile2, &info2);


   // The reference profile info will contain the methods with indices 50-150.
   const uint16_t kNumberOfMethodsAlreadyCompiled = 100;
   ProfileCompilationInfo reference_info1;
   SetupProfile("p1", 1, kNumberOfMethodsAlreadyCompiled, reference_profile1,
       &reference_info1, kNumberOfMethodsToEnableCompilation / 2);
   ProfileCompilationInfo reference_info2;
   SetupProfile("p2", 2, kNumberOfMethodsAlreadyCompiled, reference_profile2,
       &reference_info2, kNumberOfMethodsToEnableCompilation / 2);

   // We should advise compilation.
   ProfileCompilationInfo* result;
   ASSERT_TRUE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
   ASSERT_TRUE(result != nullptr);

   // The resulting compilation info must be equal to the merge of the inputs
   ProfileCompilationInfo expected;
   ASSERT_TRUE(expected.Load(info1));
   ASSERT_TRUE(expected.Load(info2));
   ASSERT_TRUE(expected.Load(reference_info1));
   ASSERT_TRUE(expected.Load(reference_info2));
   ASSERT_TRUE(expected.Equals(*result));

   // The information from profiles must be transfered to the reference profiles.
   ProfileCompilationInfo file_info1;
   ProfileCompilationInfo merge1;
   ASSERT_TRUE(merge1.Load(info1));
   ASSERT_TRUE(merge1.Load(reference_info1));
   ASSERT_TRUE(reference_profile1.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info1.Load(GetFd(reference_profile1)));
   ASSERT_TRUE(file_info1.Equals(merge1));

   ProfileCompilationInfo file_info2;
   ProfileCompilationInfo merge2;
   ASSERT_TRUE(merge2.Load(info2));
   ASSERT_TRUE(merge2.Load(reference_info2));
   ASSERT_TRUE(reference_profile2.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info2.Load(GetFd(reference_profile2)));
   ASSERT_TRUE(file_info2.Equals(merge2));

   // Initial profiles must be cleared.
   ASSERT_EQ(0, profile1.GetFile()->GetLength());
   ASSERT_EQ(0, profile2.GetFile()->GetLength());
 }

 TEST_F(ProfileAssistantTest, DoNotAdviseCompilation) {
   ScratchFile profile1;
   ScratchFile profile2;
   ScratchFile reference_profile1;
   ScratchFile reference_profile2;

   std::vector<uint32_t> profile_fds({
       GetFd(profile1),
       GetFd(profile2)});
   std::vector<uint32_t> reference_profile_fds({
       GetFd(reference_profile1),
       GetFd(reference_profile2)});

   const uint16_t kNumberOfMethodsToSkipCompilation = 1;
   ProfileCompilationInfo info1;
   SetupProfile("p1", 1, kNumberOfMethodsToSkipCompilation, profile1, &info1);
   ProfileCompilationInfo info2;
   SetupProfile("p2", 2, kNumberOfMethodsToSkipCompilation, profile2, &info2);

   // We should not advise compilation.
   ProfileCompilationInfo* result = nullptr;
   ASSERT_TRUE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
   ASSERT_TRUE(result == nullptr);

   // The information from profiles must remain the same.
   ProfileCompilationInfo file_info1;
   ASSERT_TRUE(profile1.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info1.Load(GetFd(profile1)));
   ASSERT_TRUE(file_info1.Equals(info1));

   ProfileCompilationInfo file_info2;
   ASSERT_TRUE(profile2.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info2.Load(GetFd(profile2)));
   ASSERT_TRUE(file_info2.Equals(info2));

   // Reference profile files must remain empty.
   ASSERT_EQ(0, reference_profile1.GetFile()->GetLength());
   ASSERT_EQ(0, reference_profile2.GetFile()->GetLength());
 }

 TEST_F(ProfileAssistantTest, FailProcessingBecauseOfProfiles) {
   ScratchFile profile1;
   ScratchFile profile2;
   ScratchFile reference_profile1;
   ScratchFile reference_profile2;

   std::vector<uint32_t> profile_fds({
       GetFd(profile1),
       GetFd(profile2)});
   std::vector<uint32_t> reference_profile_fds({
       GetFd(reference_profile1),
       GetFd(reference_profile2)});

   const uint16_t kNumberOfMethodsToEnableCompilation = 100;
   // Assign different hashes for the same dex file. This will make merging of information to fail.
   ProfileCompilationInfo info1;
   SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
   ProfileCompilationInfo info2;
   SetupProfile("p1", 2, kNumberOfMethodsToEnableCompilation, profile2, &info2);

   // We should fail processing.
   ProfileCompilationInfo* result = nullptr;
   ASSERT_FALSE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
   ASSERT_TRUE(result == nullptr);

   // The information from profiles must still remain the same.
   ProfileCompilationInfo file_info1;
   ASSERT_TRUE(profile1.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info1.Load(GetFd(profile1)));
   ASSERT_TRUE(file_info1.Equals(info1));

   ProfileCompilationInfo file_info2;
   ASSERT_TRUE(profile2.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info2.Load(GetFd(profile2)));
   ASSERT_TRUE(file_info2.Equals(info2));

   // Reference profile files must still remain empty.
   ASSERT_EQ(0, reference_profile1.GetFile()->GetLength());
   ASSERT_EQ(0, reference_profile2.GetFile()->GetLength());
 }

 TEST_F(ProfileAssistantTest, FailProcessingBecauseOfReferenceProfiles) {
   ScratchFile profile1;
   ScratchFile reference_profile;

   std::vector<uint32_t> profile_fds({
       GetFd(profile1)});
   std::vector<uint32_t> reference_profile_fds({
       GetFd(reference_profile)});

   const uint16_t kNumberOfMethodsToEnableCompilation = 100;
   // Assign different hashes for the same dex file. This will make merging of information to fail.
   ProfileCompilationInfo info1;
   SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
   ProfileCompilationInfo reference_info;
   SetupProfile("p1", 2, kNumberOfMethodsToEnableCompilation, reference_profile, &reference_info);

   // We should not advise compilation.
   ProfileCompilationInfo* result = nullptr;
   ASSERT_TRUE(profile1.GetFile()->ResetOffset());
   ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
   ASSERT_FALSE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
   ASSERT_TRUE(result == nullptr);

   // The information from profiles must still remain the same.
   ProfileCompilationInfo file_info1;
   ASSERT_TRUE(profile1.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info1.Load(GetFd(profile1)));
   ASSERT_TRUE(file_info1.Equals(info1));

   ProfileCompilationInfo file_info2;
   ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
   ASSERT_TRUE(file_info2.Load(GetFd(reference_profile)));
   ASSERT_TRUE(file_info2.Equals(reference_info));
 }

 }  // namespace art
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* 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 <gtest/gtest.h>

	#include "base/unix_file/fd_file.h"
	#include "common_runtime_test.h"
	#include "compiler/profile_assistant.h"
	#include "jit/offline_profiling_info.h"

	namespace art {

	class ProfileAssistantTest : public CommonRuntimeTest {
	protected:
	void SetupProfile(const std::string& id,
	uint32_t checksum,
	uint16_t number_of_methods,
	const ScratchFile& profile,
	ProfileCompilationInfo* info,
	uint16_t start_method_index = 0) {
	std::string dex_location1 = "location1" + id;
	uint32_t dex_location_checksum1 = checksum;
	std::string dex_location2 = "location2" + id;
	uint32_t dex_location_checksum2 = 10 * checksum;
	for (uint16_t i = start_method_index; i < start_method_index + number_of_methods; i++) {
	ASSERT_TRUE(info->AddData(dex_location1, dex_location_checksum1, i));
	ASSERT_TRUE(info->AddData(dex_location2, dex_location_checksum2, i));
	}
	ASSERT_TRUE(info->Save(GetFd(profile)));
	ASSERT_EQ(0, profile.GetFile()->Flush());
	ASSERT_TRUE(profile.GetFile()->ResetOffset());
	}

	uint32_t GetFd(const ScratchFile& file) const {
	return static_cast<uint32_t>(file.GetFd());
	}
	};

	TEST_F(ProfileAssistantTest, AdviseCompilationEmptyReferences) {
	ScratchFile profile1;
	ScratchFile profile2;
	ScratchFile reference_profile1;
	ScratchFile reference_profile2;

	std::vector<uint32_t> profile_fds({
	GetFd(profile1),
	GetFd(profile2)});
	std::vector<uint32_t> reference_profile_fds({
	GetFd(reference_profile1),
	GetFd(reference_profile2)});

	const uint16_t kNumberOfMethodsToEnableCompilation = 100;
	ProfileCompilationInfo info1;
	SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
	ProfileCompilationInfo info2;
	SetupProfile("p2", 2, kNumberOfMethodsToEnableCompilation, profile2, &info2);

	// We should advise compilation.
	ProfileCompilationInfo* result;
	ASSERT_TRUE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
	ASSERT_TRUE(result != nullptr);

	// The resulting compilation info must be equal to the merge of the inputs.
	ProfileCompilationInfo expected;
	ASSERT_TRUE(expected.Load(info1));
	ASSERT_TRUE(expected.Load(info2));
	ASSERT_TRUE(expected.Equals(*result));

	// The information from profiles must be transfered to the reference profiles.
	ProfileCompilationInfo file_info1;
	ASSERT_TRUE(reference_profile1.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info1.Load(GetFd(reference_profile1)));
	ASSERT_TRUE(file_info1.Equals(info1));

	ProfileCompilationInfo file_info2;
	ASSERT_TRUE(reference_profile2.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info2.Load(GetFd(reference_profile2)));
	ASSERT_TRUE(file_info2.Equals(info2));

	// Initial profiles must be cleared.
	ASSERT_EQ(0, profile1.GetFile()->GetLength());
	ASSERT_EQ(0, profile2.GetFile()->GetLength());
	}

	TEST_F(ProfileAssistantTest, AdviseCompilationNonEmptyReferences) {
	ScratchFile profile1;
	ScratchFile profile2;
	ScratchFile reference_profile1;
	ScratchFile reference_profile2;

	std::vector<uint32_t> profile_fds({
	GetFd(profile1),
	GetFd(profile2)});
	std::vector<uint32_t> reference_profile_fds({
	GetFd(reference_profile1),
	GetFd(reference_profile2)});

	// The new profile info will contain the methods with indices 0-100.
	const uint16_t kNumberOfMethodsToEnableCompilation = 100;
	ProfileCompilationInfo info1;
	SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
	ProfileCompilationInfo info2;
	SetupProfile("p2", 2, kNumberOfMethodsToEnableCompilation, profile2, &info2);


	// The reference profile info will contain the methods with indices 50-150.
	const uint16_t kNumberOfMethodsAlreadyCompiled = 100;
	ProfileCompilationInfo reference_info1;
	SetupProfile("p1", 1, kNumberOfMethodsAlreadyCompiled, reference_profile1,
	&reference_info1, kNumberOfMethodsToEnableCompilation / 2);
	ProfileCompilationInfo reference_info2;
	SetupProfile("p2", 2, kNumberOfMethodsAlreadyCompiled, reference_profile2,
	&reference_info2, kNumberOfMethodsToEnableCompilation / 2);

	// We should advise compilation.
	ProfileCompilationInfo* result;
	ASSERT_TRUE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
	ASSERT_TRUE(result != nullptr);

	// The resulting compilation info must be equal to the merge of the inputs
	ProfileCompilationInfo expected;
	ASSERT_TRUE(expected.Load(info1));
	ASSERT_TRUE(expected.Load(info2));
	ASSERT_TRUE(expected.Load(reference_info1));
	ASSERT_TRUE(expected.Load(reference_info2));
	ASSERT_TRUE(expected.Equals(*result));

	// The information from profiles must be transfered to the reference profiles.
	ProfileCompilationInfo file_info1;
	ProfileCompilationInfo merge1;
	ASSERT_TRUE(merge1.Load(info1));
	ASSERT_TRUE(merge1.Load(reference_info1));
	ASSERT_TRUE(reference_profile1.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info1.Load(GetFd(reference_profile1)));
	ASSERT_TRUE(file_info1.Equals(merge1));

	ProfileCompilationInfo file_info2;
	ProfileCompilationInfo merge2;
	ASSERT_TRUE(merge2.Load(info2));
	ASSERT_TRUE(merge2.Load(reference_info2));
	ASSERT_TRUE(reference_profile2.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info2.Load(GetFd(reference_profile2)));
	ASSERT_TRUE(file_info2.Equals(merge2));

	// Initial profiles must be cleared.
	ASSERT_EQ(0, profile1.GetFile()->GetLength());
	ASSERT_EQ(0, profile2.GetFile()->GetLength());
	}

	TEST_F(ProfileAssistantTest, DoNotAdviseCompilation) {
	ScratchFile profile1;
	ScratchFile profile2;
	ScratchFile reference_profile1;
	ScratchFile reference_profile2;

	std::vector<uint32_t> profile_fds({
	GetFd(profile1),
	GetFd(profile2)});
	std::vector<uint32_t> reference_profile_fds({
	GetFd(reference_profile1),
	GetFd(reference_profile2)});

	const uint16_t kNumberOfMethodsToSkipCompilation = 1;
	ProfileCompilationInfo info1;
	SetupProfile("p1", 1, kNumberOfMethodsToSkipCompilation, profile1, &info1);
	ProfileCompilationInfo info2;
	SetupProfile("p2", 2, kNumberOfMethodsToSkipCompilation, profile2, &info2);

	// We should not advise compilation.
	ProfileCompilationInfo* result = nullptr;
	ASSERT_TRUE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
	ASSERT_TRUE(result == nullptr);

	// The information from profiles must remain the same.
	ProfileCompilationInfo file_info1;
	ASSERT_TRUE(profile1.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info1.Load(GetFd(profile1)));
	ASSERT_TRUE(file_info1.Equals(info1));

	ProfileCompilationInfo file_info2;
	ASSERT_TRUE(profile2.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info2.Load(GetFd(profile2)));
	ASSERT_TRUE(file_info2.Equals(info2));

	// Reference profile files must remain empty.
	ASSERT_EQ(0, reference_profile1.GetFile()->GetLength());
	ASSERT_EQ(0, reference_profile2.GetFile()->GetLength());
	}

	TEST_F(ProfileAssistantTest, FailProcessingBecauseOfProfiles) {
	ScratchFile profile1;
	ScratchFile profile2;
	ScratchFile reference_profile1;
	ScratchFile reference_profile2;

	std::vector<uint32_t> profile_fds({
	GetFd(profile1),
	GetFd(profile2)});
	std::vector<uint32_t> reference_profile_fds({
	GetFd(reference_profile1),
	GetFd(reference_profile2)});

	const uint16_t kNumberOfMethodsToEnableCompilation = 100;
	// Assign different hashes for the same dex file. This will make merging of information to fail.
	ProfileCompilationInfo info1;
	SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
	ProfileCompilationInfo info2;
	SetupProfile("p1", 2, kNumberOfMethodsToEnableCompilation, profile2, &info2);

	// We should fail processing.
	ProfileCompilationInfo* result = nullptr;
	ASSERT_FALSE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
	ASSERT_TRUE(result == nullptr);

	// The information from profiles must still remain the same.
	ProfileCompilationInfo file_info1;
	ASSERT_TRUE(profile1.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info1.Load(GetFd(profile1)));
	ASSERT_TRUE(file_info1.Equals(info1));

	ProfileCompilationInfo file_info2;
	ASSERT_TRUE(profile2.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info2.Load(GetFd(profile2)));
	ASSERT_TRUE(file_info2.Equals(info2));

	// Reference profile files must still remain empty.
	ASSERT_EQ(0, reference_profile1.GetFile()->GetLength());
	ASSERT_EQ(0, reference_profile2.GetFile()->GetLength());
	}

	TEST_F(ProfileAssistantTest, FailProcessingBecauseOfReferenceProfiles) {
	ScratchFile profile1;
	ScratchFile reference_profile;

	std::vector<uint32_t> profile_fds({
	GetFd(profile1)});
	std::vector<uint32_t> reference_profile_fds({
	GetFd(reference_profile)});

	const uint16_t kNumberOfMethodsToEnableCompilation = 100;
	// Assign different hashes for the same dex file. This will make merging of information to fail.
	ProfileCompilationInfo info1;
	SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, profile1, &info1);
	ProfileCompilationInfo reference_info;
	SetupProfile("p1", 2, kNumberOfMethodsToEnableCompilation, reference_profile, &reference_info);

	// We should not advise compilation.
	ProfileCompilationInfo* result = nullptr;
	ASSERT_TRUE(profile1.GetFile()->ResetOffset());
	ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
	ASSERT_FALSE(ProfileAssistant::ProcessProfiles(profile_fds, reference_profile_fds, &result));
	ASSERT_TRUE(result == nullptr);

	// The information from profiles must still remain the same.
	ProfileCompilationInfo file_info1;
	ASSERT_TRUE(profile1.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info1.Load(GetFd(profile1)));
	ASSERT_TRUE(file_info1.Equals(info1));

	ProfileCompilationInfo file_info2;
	ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
	ASSERT_TRUE(file_info2.Load(GetFd(reference_profile)));
	ASSERT_TRUE(file_info2.Equals(reference_info));
	}

	} // namespace art