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LeafOS / LeafOS-Project / android_art / 0f6bde0ee40de32e404d5c7882fe8c8aa47de0a3 / . / libprofile / profile / profile_compilation_info_test.cc
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/*
* 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 <algorithm>
#include <stdio.h>
#include "base/arena_allocator.h"
#include "base/common_art_test.h"
#include "base/unix_file/fd_file.h"
#include "dex/compact_dex_file.h"
#include "dex/dex_file.h"
#include "dex/dex_file_loader.h"
#include "dex/method_reference.h"
#include "dex/type_reference.h"
#include "profile/profile_compilation_info.h"
#include "ziparchive/zip_writer.h"
namespace art {
using Hotness = ProfileCompilationInfo::MethodHotness;
using ProfileInlineCache = ProfileMethodInfo::ProfileInlineCache;
using ProfileSampleAnnotation = ProfileCompilationInfo::ProfileSampleAnnotation;
static constexpr size_t kMaxMethodIds = 65535;
static uint32_t kMaxHotnessFlagBootIndex =
WhichPowerOf2(static_cast<uint32_t>(Hotness::kFlagLastBoot));
static uint32_t kMaxHotnessFlagRegularIndex =
WhichPowerOf2(static_cast<uint32_t>(Hotness::kFlagLastRegular));
class ProfileCompilationInfoTest : public CommonArtTest {
public:
void SetUp() override {
CommonArtTest::SetUp();
allocator_.reset(new ArenaAllocator(&pool_));
dex1 = fake_dex_storage.AddFakeDex("location1", /* checksum= */ 1, /* num_method_ids= */ 10001);
dex2 = fake_dex_storage.AddFakeDex("location2", /* checksum= */ 2, /* num_method_ids= */ 10002);
dex3 = fake_dex_storage.AddFakeDex("location3", /* checksum= */ 3, /* num_method_ids= */ 10003);
dex4 = fake_dex_storage.AddFakeDex("location4", /* checksum= */ 4, /* num_method_ids= */ 10004);
dex1_checksum_missmatch = fake_dex_storage.AddFakeDex(
"location1", /* checksum= */ 12, /* num_method_ids= */ 10001);
dex1_renamed = fake_dex_storage.AddFakeDex(
"location1-renamed", /* checksum= */ 1, /* num_method_ids= */ 10001);
dex2_renamed = fake_dex_storage.AddFakeDex(
"location2-renamed", /* checksum= */ 2, /* num_method_ids= */ 10002);
dex_max_methods1 = fake_dex_storage.AddFakeDex(
"location-max1", /* checksum= */ 5, /* num_method_ids= */ kMaxMethodIds);
dex_max_methods2 = fake_dex_storage.AddFakeDex(
"location-max2", /* checksum= */ 6, /* num_method_ids= */ kMaxMethodIds);
}
protected:
bool AddMethod(ProfileCompilationInfo* info,
const DexFile* dex,
uint16_t method_idx,
Hotness::Flag flags = Hotness::kFlagHot,
const ProfileSampleAnnotation& annotation = ProfileSampleAnnotation::kNone) {
return info->AddMethod(ProfileMethodInfo(MethodReference(dex, method_idx)),
flags,
annotation);
}
bool AddMethod(ProfileCompilationInfo* info,
const DexFile* dex,
uint16_t method_idx,
const std::vector<ProfileInlineCache>& inline_caches,
const ProfileSampleAnnotation& annotation = ProfileSampleAnnotation::kNone) {
return info->AddMethod(
ProfileMethodInfo(MethodReference(dex, method_idx), inline_caches),
Hotness::kFlagHot,
annotation);
}
bool AddClass(ProfileCompilationInfo* info,
const DexFile* dex,
dex::TypeIndex type_index,
const ProfileSampleAnnotation& annotation = ProfileSampleAnnotation::kNone) {
std::vector<dex::TypeIndex> classes = {type_index};
return info->AddClassesForDex(dex, classes.begin(), classes.end(), annotation);
}
uint32_t GetFd(const ScratchFile& file) {
return static_cast<uint32_t>(file.GetFd());
}
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> GetMethod(
const ProfileCompilationInfo& info,
const DexFile* dex,
uint16_t method_idx,
const ProfileSampleAnnotation& annotation = ProfileSampleAnnotation::kNone) {
return info.GetHotMethodInfo(MethodReference(dex, method_idx), annotation);
}
// Creates an inline cache which will be destructed at the end of the test.
ProfileCompilationInfo::InlineCacheMap* CreateInlineCacheMap() {
used_inline_caches.emplace_back(new ProfileCompilationInfo::InlineCacheMap(
std::less<uint16_t>(), allocator_->Adapter(kArenaAllocProfile)));
return used_inline_caches.back().get();
}
// Creates the default inline caches used in tests.
std::vector<ProfileInlineCache> GetTestInlineCaches() {
std::vector<ProfileInlineCache> inline_caches;
// Monomorphic
for (uint16_t dex_pc = 0; dex_pc < 11; dex_pc++) {
std::vector<TypeReference> types = {TypeReference(dex1, dex::TypeIndex(0))};
inline_caches.push_back(ProfileInlineCache(dex_pc, /* missing_types*/ false, types));
}
// Polymorphic
for (uint16_t dex_pc = 11; dex_pc < 22; dex_pc++) {
std::vector<TypeReference> types = {
TypeReference(dex1, dex::TypeIndex(0)),
TypeReference(dex2, dex::TypeIndex(1)),
TypeReference(dex3, dex::TypeIndex(2))};
inline_caches.push_back(ProfileInlineCache(dex_pc, /* missing_types*/ false, types));
}
// Megamorphic
for (uint16_t dex_pc = 22; dex_pc < 33; dex_pc++) {
// we need 5 types to make the cache megamorphic
std::vector<TypeReference> types = {
TypeReference(dex1, dex::TypeIndex(0)),
TypeReference(dex1, dex::TypeIndex(1)),
TypeReference(dex1, dex::TypeIndex(2)),
TypeReference(dex1, dex::TypeIndex(3)),
TypeReference(dex1, dex::TypeIndex(4))};
inline_caches.push_back(ProfileInlineCache(dex_pc, /* missing_types*/ false, types));
}
// Missing types
for (uint16_t dex_pc = 33; dex_pc < 44; dex_pc++) {
std::vector<TypeReference> types;
inline_caches.push_back(ProfileInlineCache(dex_pc, /* missing_types*/ true, types));
}
return inline_caches;
}
void MakeMegamorphic(/*out*/std::vector<ProfileInlineCache>* inline_caches) {
for (ProfileInlineCache& cache : *inline_caches) {
uint16_t k = 5;
while (cache.classes.size() < ProfileCompilationInfo::kIndividualInlineCacheSize) {
TypeReference type_ref(dex1, dex::TypeIndex(k++));
if (std::find(cache.classes.begin(), cache.classes.end(), type_ref) ==
cache.classes.end()) {
const_cast<std::vector<TypeReference>*>(&cache.classes)->push_back(type_ref);
}
}
}
}
void SetIsMissingTypes(/*out*/std::vector<ProfileInlineCache>* inline_caches) {
for (ProfileInlineCache& cache : *inline_caches) {
*(const_cast<bool*>(&(cache.is_missing_types))) = true;
}
}
void TestProfileLoadFromZip(const char* zip_entry,
size_t zip_flags,
bool should_succeed,
bool should_succeed_with_empty_profile = false) {
// Create a valid profile.
ScratchFile profile;
ProfileCompilationInfo saved_info;
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&saved_info, dex1, /* method_idx= */ i));
ASSERT_TRUE(AddMethod(&saved_info, dex2, /* method_idx= */ i));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Prepare the profile content for zipping.
ASSERT_TRUE(profile.GetFile()->ResetOffset());
std::vector<uint8_t> data(profile.GetFile()->GetLength());
ASSERT_TRUE(profile.GetFile()->ReadFully(data.data(), data.size()));
// Zip the profile content.
ScratchFile zip;
FILE* file = fopen(zip.GetFile()->GetPath().c_str(), "wb");
ZipWriter writer(file);
writer.StartEntry(zip_entry, zip_flags);
writer.WriteBytes(data.data(), data.size());
writer.FinishEntry();
writer.Finish();
fflush(file);
fclose(file);
// Verify loading from the zip archive.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(zip.GetFile()->ResetOffset());
ASSERT_EQ(should_succeed, loaded_info.Load(zip.GetFile()->GetPath(), false));
if (should_succeed) {
if (should_succeed_with_empty_profile) {
ASSERT_TRUE(loaded_info.IsEmpty());
} else {
ASSERT_TRUE(loaded_info.Equals(saved_info));
}
}
}
bool IsEmpty(const ProfileCompilationInfo& info) {
return info.IsEmpty();
}
void SizeStressTest(bool random) {
ProfileCompilationInfo boot_profile(/*for_boot_image*/ true);
ProfileCompilationInfo reg_profile(/*for_boot_image*/ false);
static constexpr size_t kNumDexFiles = 5;
FakeDexStorage local_storage;
std::vector<const DexFile*> dex_files;
for (uint32_t i = 0; i < kNumDexFiles; i++) {
dex_files.push_back(local_storage.AddFakeDex(std::to_string(i), i, kMaxMethodIds));
}
std::srand(0);
// Set a few flags on a 2 different methods in each of the profile.
for (const DexFile* dex_file : dex_files) {
for (uint32_t method_idx = 0; method_idx < kMaxMethodIds; method_idx++) {
for (uint32_t flag_index = 0; flag_index <= kMaxHotnessFlagBootIndex; flag_index++) {
if (!random || rand() % 2 == 0) {
ASSERT_TRUE(AddMethod(
&boot_profile,
dex_file,
method_idx,
static_cast<Hotness::Flag>(1 << flag_index)));
}
}
for (uint32_t flag_index = 0; flag_index <= kMaxHotnessFlagRegularIndex; flag_index++) {
if (!random || rand() % 2 == 0) {
ASSERT_TRUE(AddMethod(
&reg_profile,
dex_file,
method_idx,
static_cast<Hotness::Flag>(1 << flag_index)));
}
}
}
}
ScratchFile boot_file;
ScratchFile reg_file;
ASSERT_TRUE(boot_profile.Save(GetFd(boot_file)));
ASSERT_TRUE(reg_profile.Save(GetFd(reg_file)));
ASSERT_TRUE(boot_file.GetFile()->ResetOffset());
ASSERT_TRUE(reg_file.GetFile()->ResetOffset());
ProfileCompilationInfo loaded_boot;
ProfileCompilationInfo loaded_reg;
ASSERT_TRUE(loaded_boot.Load(GetFd(boot_file)));
ASSERT_TRUE(loaded_reg.Load(GetFd(reg_file)));
}
// Cannot sizeof the actual arrays so hard code the values here.
// They should not change anyway.
static constexpr int kProfileMagicSize = 4;
static constexpr int kProfileVersionSize = 4;
MallocArenaPool pool_;
std::unique_ptr<ArenaAllocator> allocator_;
const DexFile* dex1;
const DexFile* dex2;
const DexFile* dex3;
const DexFile* dex4;
const DexFile* dex1_checksum_missmatch;
const DexFile* dex1_renamed;
const DexFile* dex2_renamed;
const DexFile* dex_max_methods1;
const DexFile* dex_max_methods2;
// Cache of inline caches generated during tests.
// This makes it easier to pass data between different utilities and ensure that
// caches are destructed at the end of the test.
std::vector<std::unique_ptr<ProfileCompilationInfo::InlineCacheMap>> used_inline_caches;
FakeDexStorage fake_dex_storage;
};
TEST_F(ProfileCompilationInfoTest, SaveFd) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
// Save a few methods.
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&saved_info, dex1, /* method_idx= */ i));
ASSERT_TRUE(AddMethod(&saved_info, dex2, /* method_idx= */ i));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(saved_info));
// Save more methods.
for (uint16_t i = 0; i < 100; i++) {
ASSERT_TRUE(AddMethod(&saved_info, dex1, /* method_idx= */ i));
ASSERT_TRUE(AddMethod(&saved_info, dex2, /* method_idx= */ i));
ASSERT_TRUE(AddMethod(&saved_info, dex3, /* method_idx= */ i));
}
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back everything we saved.
ProfileCompilationInfo loaded_info2;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info2.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info2.Equals(saved_info));
}
TEST_F(ProfileCompilationInfoTest, AddMethodsAndClassesFail) {
ScratchFile profile;
ProfileCompilationInfo info;
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ 1));
// Trying to add info for an existing file but with a different checksum.
ASSERT_FALSE(AddMethod(&info, dex1_checksum_missmatch, /* method_idx= */ 2));
}
TEST_F(ProfileCompilationInfoTest, MergeFail) {
ScratchFile profile;
ProfileCompilationInfo info1;
ASSERT_TRUE(AddMethod(&info1, dex1, /* method_idx= */ 1));
// Use the same file, change the checksum.
ProfileCompilationInfo info2;
ASSERT_TRUE(AddMethod(&info2, dex1_checksum_missmatch, /* method_idx= */ 2));
ASSERT_FALSE(info1.MergeWith(info2));
}
TEST_F(ProfileCompilationInfoTest, MergeFdFail) {
ScratchFile profile;
ProfileCompilationInfo info1;
ASSERT_TRUE(AddMethod(&info1, dex1, /* method_idx= */ 1));
// Use the same file, change the checksum.
ProfileCompilationInfo info2;
ASSERT_TRUE(AddMethod(&info2, dex1_checksum_missmatch, /* method_idx= */ 2));
ASSERT_TRUE(info1.Save(profile.GetFd()));
ASSERT_EQ(0, profile.GetFile()->Flush());
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_FALSE(info2.Load(profile.GetFd()));
}
TEST_F(ProfileCompilationInfoTest, SaveMaxMethods) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
// Save the maximum number of methods
for (uint16_t i = 0; i < std::numeric_limits<uint16_t>::max(); i++) {
ASSERT_TRUE(AddMethod(&saved_info, dex_max_methods1, /* method_idx= */ i));
ASSERT_TRUE(AddMethod(&saved_info, dex_max_methods2, /* method_idx= */ i));
}
// Save the maximum number of classes
for (uint16_t i = 0; i < std::numeric_limits<uint16_t>::max(); i++) {
ASSERT_TRUE(AddClass(&saved_info, dex1, dex::TypeIndex(i)));
ASSERT_TRUE(AddClass(&saved_info, dex2, dex::TypeIndex(i)));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(saved_info));
}
TEST_F(ProfileCompilationInfoTest, SaveEmpty) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(saved_info));
}
TEST_F(ProfileCompilationInfoTest, LoadEmpty) {
ScratchFile profile;
ProfileCompilationInfo empty_info;
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(empty_info));
}
TEST_F(ProfileCompilationInfoTest, BadMagic) {
ScratchFile profile;
uint8_t buffer[] = { 1, 2, 3, 4 };
ASSERT_TRUE(profile.GetFile()->WriteFully(buffer, sizeof(buffer)));
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_FALSE(loaded_info.Load(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, BadVersion) {
ScratchFile profile;
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileMagic, kProfileMagicSize));
uint8_t version[] = { 'v', 'e', 'r', 's', 'i', 'o', 'n' };
ASSERT_TRUE(profile.GetFile()->WriteFully(version, sizeof(version)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_FALSE(loaded_info.Load(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, Incomplete) {
ScratchFile profile;
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileMagic, kProfileMagicSize));
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileVersion, kProfileVersionSize));
// Write that we have at least one line.
uint8_t line_number[] = { 0, 1 };
ASSERT_TRUE(profile.GetFile()->WriteFully(line_number, sizeof(line_number)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_FALSE(loaded_info.Load(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, TooLongDexLocation) {
ScratchFile profile;
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileMagic, kProfileMagicSize));
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileVersion, kProfileVersionSize));
// Write that we have at least one line.
uint8_t line_number[] = { 0, 1 };
ASSERT_TRUE(profile.GetFile()->WriteFully(line_number, sizeof(line_number)));
// dex_location_size, methods_size, classes_size, checksum.
// Dex location size is too big and should be rejected.
uint8_t line[] = { 255, 255, 0, 1, 0, 1, 0, 0, 0, 0 };
ASSERT_TRUE(profile.GetFile()->WriteFully(line, sizeof(line)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_FALSE(loaded_info.Load(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, UnexpectedContent) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&saved_info, dex1, /* method_idx= */ i));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
uint8_t random_data[] = { 1, 2, 3};
ASSERT_TRUE(profile.GetFile()->WriteFully(random_data, sizeof(random_data)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we fail because of unexpected data at the end of the file.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_FALSE(loaded_info.Load(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, SaveInlineCaches) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
std::vector<ProfileInlineCache> inline_caches = GetTestInlineCaches();
// Add methods with inline caches.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
// Add a method which is part of the same dex file as one of the
// class from the inline caches.
ASSERT_TRUE(AddMethod(&saved_info, dex1, method_idx, inline_caches));
// Add a method which is outside the set of dex files.
ASSERT_TRUE(AddMethod(&saved_info, dex4, method_idx, inline_caches));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(saved_info));
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi1 =
GetMethod(loaded_info, dex1, /* method_idx= */ 3);
ASSERT_TRUE(loaded_pmi1 != nullptr);
ASSERT_TRUE(*loaded_pmi1 == inline_caches);
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi2 =
GetMethod(loaded_info, dex4, /* method_idx= */ 3);
ASSERT_TRUE(loaded_pmi2 != nullptr);
ASSERT_TRUE(*loaded_pmi2 == inline_caches);
}
TEST_F(ProfileCompilationInfoTest, MegamorphicInlineCaches) {
ProfileCompilationInfo saved_info;
std::vector<ProfileInlineCache> inline_caches = GetTestInlineCaches();
// Add methods with inline caches.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&saved_info, dex1, method_idx, inline_caches));
}
ScratchFile profile;
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Make the inline caches megamorphic and add them to the profile again.
ProfileCompilationInfo saved_info_extra;
std::vector<ProfileInlineCache> inline_caches_extra = GetTestInlineCaches();
MakeMegamorphic(&inline_caches_extra);
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&saved_info_extra, dex1, method_idx, inline_caches_extra));
}
ScratchFile extra_profile;
ASSERT_TRUE(saved_info_extra.Save(GetFd(extra_profile)));
ASSERT_EQ(0, extra_profile.GetFile()->Flush());
// Merge the profiles so that we have the same view as the file.
ASSERT_TRUE(saved_info.MergeWith(saved_info_extra));
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(extra_profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(extra_profile)));
ASSERT_TRUE(loaded_info.Equals(saved_info));
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi1 =
GetMethod(loaded_info, dex1, /* method_idx= */ 3);
ASSERT_TRUE(loaded_pmi1 != nullptr);
ASSERT_TRUE(*loaded_pmi1 == inline_caches_extra);
}
TEST_F(ProfileCompilationInfoTest, MissingTypesInlineCaches) {
ProfileCompilationInfo saved_info;
std::vector<ProfileInlineCache> inline_caches = GetTestInlineCaches();
// Add methods with inline caches.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&saved_info, dex1, method_idx, inline_caches));
}
ScratchFile profile;
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Make some inline caches megamorphic and add them to the profile again.
ProfileCompilationInfo saved_info_extra;
std::vector<ProfileInlineCache> inline_caches_extra = GetTestInlineCaches();
MakeMegamorphic(&inline_caches_extra);
for (uint16_t method_idx = 5; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&saved_info_extra, dex1, method_idx, inline_caches));
}
// Mark all inline caches with missing types and add them to the profile again.
// This will verify that all inline caches (megamorphic or not) should be marked as missing types.
std::vector<ProfileInlineCache> missing_types = GetTestInlineCaches();
SetIsMissingTypes(&missing_types);
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&saved_info_extra, dex1, method_idx, missing_types));
}
ScratchFile extra_profile;
ASSERT_TRUE(saved_info_extra.Save(GetFd(extra_profile)));
ASSERT_EQ(0, extra_profile.GetFile()->Flush());
// Merge the profiles so that we have the same view as the file.
ASSERT_TRUE(saved_info.MergeWith(saved_info_extra));
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(extra_profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(extra_profile)));
ASSERT_TRUE(loaded_info.Equals(saved_info));
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi1 =
GetMethod(loaded_info, dex1, /* method_idx= */ 3);
ASSERT_TRUE(loaded_pmi1 != nullptr);
ASSERT_TRUE(*loaded_pmi1 == missing_types);
}
TEST_F(ProfileCompilationInfoTest, InvalidChecksumInInlineCache) {
ScratchFile profile;
ProfileCompilationInfo info;
std::vector<ProfileInlineCache> inline_caches1 = GetTestInlineCaches();
std::vector<ProfileInlineCache> inline_caches2 = GetTestInlineCaches();
// Modify the checksum to trigger a mismatch.
std::vector<TypeReference>* types = const_cast<std::vector<TypeReference>*>(
&inline_caches2[0].classes);
types->front().dex_file = dex1_checksum_missmatch;
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ 0, inline_caches1));
ASSERT_FALSE(AddMethod(&info, dex2, /* method_idx= */ 0, inline_caches2));
}
// Verify that profiles behave correctly even if the methods are added in a different
// order and with a different dex profile indices for the dex files.
TEST_F(ProfileCompilationInfoTest, MergeInlineCacheTriggerReindex) {
ScratchFile profile;
ProfileCompilationInfo info;
ProfileCompilationInfo info_reindexed;
std::vector<ProfileInlineCache> inline_caches;
for (uint16_t dex_pc = 1; dex_pc < 5; dex_pc++) {
std::vector<TypeReference> types = {
TypeReference(dex1, dex::TypeIndex(0)),
TypeReference(dex2, dex::TypeIndex(1))};
inline_caches.push_back(ProfileInlineCache(dex_pc, /* missing_types*/ false, types));
}
std::vector<ProfileInlineCache> inline_caches_reindexed;
for (uint16_t dex_pc = 1; dex_pc < 5; dex_pc++) {
std::vector<TypeReference> types = {
TypeReference(dex2, dex::TypeIndex(1)),
TypeReference(dex1, dex::TypeIndex(0))};
inline_caches_reindexed.push_back(ProfileInlineCache(dex_pc, /* missing_types*/ false, types));
}
// Profile 1 and Profile 2 get the same methods but in different order.
// This will trigger a different dex numbers.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&info, dex1, method_idx, inline_caches));
ASSERT_TRUE(AddMethod(&info, dex2, method_idx, inline_caches));
}
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(AddMethod(&info_reindexed, dex2, method_idx, inline_caches_reindexed));
ASSERT_TRUE(AddMethod(&info_reindexed, dex1, method_idx, inline_caches_reindexed));
}
ProfileCompilationInfo info_backup;
info_backup.MergeWith(info);
ASSERT_TRUE(info.MergeWith(info_reindexed));
// Merging should have no effect as we're adding the exact same stuff.
ASSERT_TRUE(info.Equals(info_backup));
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi1 =
GetMethod(info, dex1, method_idx);
ASSERT_TRUE(loaded_pmi1 != nullptr);
ASSERT_TRUE(*loaded_pmi1 == inline_caches);
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi2 =
GetMethod(info, dex2, method_idx);
ASSERT_TRUE(loaded_pmi2 != nullptr);
ASSERT_TRUE(*loaded_pmi2 == inline_caches);
}
}
TEST_F(ProfileCompilationInfoTest, AddMoreDexFileThanLimit) {
FakeDexStorage local_storage;
ProfileCompilationInfo info;
// Save a few methods.
for (uint16_t i = 0; i < std::numeric_limits<uint8_t>::max(); i++) {
std::string location = std::to_string(i);
const DexFile* dex = local_storage.AddFakeDex(
location, /* checksum= */ 1, /* num_method_ids= */ 1);
ASSERT_TRUE(AddMethod(&info, dex, /* method_idx= */ 0));
}
// We only support at most 255 dex files.
const DexFile* dex = local_storage.AddFakeDex("256", /* checksum= */ 1, /* num_method_ids= */ 1);
ASSERT_FALSE(AddMethod(&info, dex, /* method_idx= */ 0));
}
TEST_F(ProfileCompilationInfoTest, MegamorphicInlineCachesMerge) {
// Create a megamorphic inline cache.
std::vector<ProfileInlineCache> inline_caches;
std::vector<TypeReference> types = {
TypeReference(dex1, dex::TypeIndex(0)),
TypeReference(dex1, dex::TypeIndex(1)),
TypeReference(dex1, dex::TypeIndex(2)),
TypeReference(dex1, dex::TypeIndex(3)),
TypeReference(dex1, dex::TypeIndex(4))};
inline_caches.push_back(ProfileInlineCache(0, /* missing_types*/ false, types));
ProfileCompilationInfo info_megamorphic;
ASSERT_TRUE(AddMethod(&info_megamorphic, dex1, 0, inline_caches));
// Create a profile with no inline caches (for the same method).
ProfileCompilationInfo info_no_inline_cache;
ASSERT_TRUE(AddMethod(&info_no_inline_cache, dex1, 0));
// Merge the megamorphic cache into the empty one.
ASSERT_TRUE(info_no_inline_cache.MergeWith(info_megamorphic));
ScratchFile profile;
// Saving profile should work without crashing (b/35644850).
ASSERT_TRUE(info_no_inline_cache.Save(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, MissingTypesInlineCachesMerge) {
// Create an inline cache with missing types
std::vector<ProfileInlineCache> inline_caches;
std::vector<TypeReference> types = {};
inline_caches.push_back(ProfileInlineCache(0, /* missing_types*/ true, types));
ProfileCompilationInfo info_missing_types;
ASSERT_TRUE(AddMethod(&info_missing_types, dex1, /*method_idx=*/ 0, inline_caches));
// Create a profile with no inline caches (for the same method).
ProfileCompilationInfo info_no_inline_cache;
ASSERT_TRUE(AddMethod(&info_no_inline_cache, dex1, /*method_idx=*/ 0));
// Merge the missing type cache into the empty one.
// Everything should be saved without errors.
ASSERT_TRUE(info_no_inline_cache.MergeWith(info_missing_types));
ScratchFile profile;
ASSERT_TRUE(info_no_inline_cache.Save(GetFd(profile)));
}
TEST_F(ProfileCompilationInfoTest, SampledMethodsTest) {
ProfileCompilationInfo test_info;
AddMethod(&test_info, dex1, 1, Hotness::kFlagStartup);
AddMethod(&test_info, dex1, 5, Hotness::kFlagPostStartup);
AddMethod(&test_info, dex2, 2, Hotness::kFlagStartup);
AddMethod(&test_info, dex2, 4, Hotness::kFlagPostStartup);
auto run_test = [&dex1 = dex1, &dex2 = dex2](const ProfileCompilationInfo& info) {
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 2)).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 4)).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 1)).IsStartup());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 3)).IsStartup());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 5)).IsPostStartup());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 6)).IsStartup());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex2, 2)).IsStartup());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex2, 4)).IsPostStartup());
};
run_test(test_info);
// Save the profile.
ScratchFile profile;
ASSERT_TRUE(test_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Load the profile and make sure we can read the data and it matches what we expect.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
run_test(loaded_info);
// Test that the bitmap gets merged properly.
EXPECT_FALSE(test_info.GetMethodHotness(MethodReference(dex1, 11)).IsStartup());
{
ProfileCompilationInfo merge_info;
AddMethod(&merge_info, dex1, 11, Hotness::kFlagStartup);
test_info.MergeWith(merge_info);
}
EXPECT_TRUE(test_info.GetMethodHotness(MethodReference(dex1, 11)).IsStartup());
// Test bulk adding.
{
std::unique_ptr<const DexFile> dex(OpenTestDexFile("ManyMethods"));
ProfileCompilationInfo info;
std::vector<uint16_t> hot_methods = {1, 3, 5};
std::vector<uint16_t> startup_methods = {1, 2};
std::vector<uint16_t> post_methods = {0, 2, 6};
ASSERT_GE(dex->NumMethodIds(), 7u);
info.AddMethodsForDex(static_cast<Hotness::Flag>(Hotness::kFlagHot | Hotness::kFlagStartup),
dex.get(),
hot_methods.begin(),
hot_methods.end());
info.AddMethodsForDex(Hotness::kFlagStartup,
dex.get(),
startup_methods.begin(),
startup_methods.end());
info.AddMethodsForDex(Hotness::kFlagPostStartup,
dex.get(),
post_methods.begin(),
post_methods.end());
for (uint16_t id : hot_methods) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex.get(), id)).IsHot());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex.get(), id)).IsStartup());
}
for (uint16_t id : startup_methods) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex.get(), id)).IsStartup());
}
for (uint16_t id : post_methods) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex.get(), id)).IsPostStartup());
}
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex.get(), 6)).IsPostStartup());
// Check that methods that shouldn't have been touched are OK.
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex.get(), 0)).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex.get(), 4)).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex.get(), 7)).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex.get(), 1)).IsPostStartup());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex.get(), 4)).IsStartup());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex.get(), 6)).IsStartup());
}
}
TEST_F(ProfileCompilationInfoTest, LoadFromZipCompress) {
TestProfileLoadFromZip("primary.prof",
ZipWriter::kCompress | ZipWriter::kAlign32,
/*should_succeed=*/true);
}
TEST_F(ProfileCompilationInfoTest, LoadFromZipUnCompress) {
TestProfileLoadFromZip("primary.prof",
ZipWriter::kAlign32,
/*should_succeed=*/true);
}
TEST_F(ProfileCompilationInfoTest, LoadFromZipUnAligned) {
TestProfileLoadFromZip("primary.prof",
0,
/*should_succeed=*/true);
}
TEST_F(ProfileCompilationInfoTest, LoadFromZipFailBadZipEntry) {
TestProfileLoadFromZip("invalid.profile.entry",
0,
/*should_succeed=*/true,
/*should_succeed_with_empty_profile=*/true);
}
TEST_F(ProfileCompilationInfoTest, LoadFromZipFailBadProfile) {
// Create a bad profile.
ScratchFile profile;
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileMagic, kProfileMagicSize));
ASSERT_TRUE(profile.GetFile()->WriteFully(
ProfileCompilationInfo::kProfileVersion, kProfileVersionSize));
// Write that we have at least one line.
uint8_t line_number[] = { 0, 1 };
ASSERT_TRUE(profile.GetFile()->WriteFully(line_number, sizeof(line_number)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Prepare the profile content for zipping.
ASSERT_TRUE(profile.GetFile()->ResetOffset());
std::vector<uint8_t> data(profile.GetFile()->GetLength());
ASSERT_TRUE(profile.GetFile()->ReadFully(data.data(), data.size()));
// Zip the profile content.
ScratchFile zip;
FILE* file = fopen(zip.GetFile()->GetPath().c_str(), "wb");
ZipWriter writer(file);
writer.StartEntry("primary.prof", ZipWriter::kAlign32);
writer.WriteBytes(data.data(), data.size());
writer.FinishEntry();
writer.Finish();
fflush(file);
fclose(file);
// Check that we failed to load.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(zip.GetFile()->ResetOffset());
ASSERT_FALSE(loaded_info.Load(GetFd(zip)));
}
TEST_F(ProfileCompilationInfoTest, UpdateProfileKeyOk) {
std::vector<std::unique_ptr<const DexFile>> dex_files;
dex_files.push_back(std::unique_ptr<const DexFile>(dex1_renamed));
dex_files.push_back(std::unique_ptr<const DexFile>(dex2_renamed));
ProfileCompilationInfo info;
AddMethod(&info, dex1, /* method_idx= */ 0);
AddMethod(&info, dex2, /* method_idx= */ 0);
// Update the profile keys based on the original dex files
ASSERT_TRUE(info.UpdateProfileKeys(dex_files));
// Verify that we find the methods when searched with the original dex files.
for (const std::unique_ptr<const DexFile>& dex : dex_files) {
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi =
GetMethod(info, dex.get(), /* method_idx= */ 0);
ASSERT_TRUE(loaded_pmi != nullptr);
}
// Release the ownership as this is held by the test class;
for (std::unique_ptr<const DexFile>& dex : dex_files) {
UNUSED(dex.release());
}
}
TEST_F(ProfileCompilationInfoTest, UpdateProfileKeyOkButNoUpdate) {
std::vector<std::unique_ptr<const DexFile>> dex_files;
dex_files.push_back(std::unique_ptr<const DexFile>(dex1));
ProfileCompilationInfo info;
AddMethod(&info, dex2, /* method_idx= */ 0);
// Update the profile keys based on the original dex files.
ASSERT_TRUE(info.UpdateProfileKeys(dex_files));
// Verify that we did not perform any update and that we cannot find anything with the new
// location.
for (const std::unique_ptr<const DexFile>& dex : dex_files) {
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi =
GetMethod(info, dex.get(), /* method_idx= */ 0);
ASSERT_TRUE(loaded_pmi == nullptr);
}
// Verify that we can find the original entry.
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi =
GetMethod(info, dex2, /* method_idx= */ 0);
ASSERT_TRUE(loaded_pmi != nullptr);
// Release the ownership as this is held by the test class;
for (std::unique_ptr<const DexFile>& dex : dex_files) {
UNUSED(dex.release());
}
}
TEST_F(ProfileCompilationInfoTest, UpdateProfileKeyFail) {
std::vector<std::unique_ptr<const DexFile>> dex_files;
dex_files.push_back(std::unique_ptr<const DexFile>(dex1_renamed));
ProfileCompilationInfo info;
AddMethod(&info, dex1, /* method_idx= */ 0);
// Add a method index using the location we want to rename to.
// This will cause the rename to fail because an existing entry would already have that name.
AddMethod(&info, dex1_renamed, /* method_idx= */ 0);
ASSERT_FALSE(info.UpdateProfileKeys(dex_files));
// Release the ownership as this is held by the test class;
for (std::unique_ptr<const DexFile>& dex : dex_files) {
UNUSED(dex.release());
}
}
TEST_F(ProfileCompilationInfoTest, FilteredLoading) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
std::vector<ProfileInlineCache> inline_caches = GetTestInlineCaches();
// Add methods with inline caches.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
// Add a method which is part of the same dex file as one of the class from the inline caches.
ASSERT_TRUE(AddMethod(&saved_info, dex1, method_idx, inline_caches));
ASSERT_TRUE(AddMethod(&saved_info, dex2, method_idx, inline_caches));
// Add a method which is outside the set of dex files.
ASSERT_TRUE(AddMethod(&saved_info, dex4, method_idx, inline_caches));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Filter out dex locations. Keep only dex_location1 and dex_location3.
ProfileCompilationInfo::ProfileLoadFilterFn filter_fn =
[&dex1 = dex1, &dex3 = dex3](const std::string& dex_location, uint32_t checksum) -> bool {
return (dex_location == dex1->GetLocation() && checksum == dex1->GetLocationChecksum())
|| (dex_location == dex3->GetLocation() && checksum == dex3->GetLocationChecksum());
};
ASSERT_TRUE(loaded_info.Load(GetFd(profile), true, filter_fn));
// Verify that we filtered out locations during load.
// Dex location 2 and 4 should have been filtered out
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
ASSERT_TRUE(nullptr == GetMethod(loaded_info, dex2, method_idx));
ASSERT_TRUE(nullptr == GetMethod(loaded_info, dex4, method_idx));
}
// Dex location 1 should have all all the inline caches referencing dex location 2 set to
// missing types.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
// The methods for dex location 1 should be in the profile data.
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi1 =
GetMethod(loaded_info, dex1, method_idx);
ASSERT_TRUE(loaded_pmi1 != nullptr);
// Verify the inline cache.
// Everything should be as constructed by GetTestInlineCaches with the exception
// of the inline caches referring types from dex_location2.
// These should be set to IsMissingType.
ProfileCompilationInfo::InlineCacheMap* ic_map = CreateInlineCacheMap();
// Monomorphic types should remain the same as dex_location1 was kept.
for (uint16_t dex_pc = 0; dex_pc < 11; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data(allocator_.get());
dex_pc_data.AddClass(0, dex::TypeIndex(0));
ic_map->Put(dex_pc, dex_pc_data);
}
// Polymorphic inline cache should have been transformed to IsMissingType due to
// the removal of dex_location2.
for (uint16_t dex_pc = 11; dex_pc < 22; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data(allocator_.get());
dex_pc_data.SetIsMissingTypes();
ic_map->Put(dex_pc, dex_pc_data);
}
// Megamorphic are not affected by removal of dex files.
for (uint16_t dex_pc = 22; dex_pc < 33; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data(allocator_.get());
dex_pc_data.SetIsMegamorphic();
ic_map->Put(dex_pc, dex_pc_data);
}
// Missing types are not affected be removal of dex files.
for (uint16_t dex_pc = 33; dex_pc < 44; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data(allocator_.get());
dex_pc_data.SetIsMissingTypes();
ic_map->Put(dex_pc, dex_pc_data);
}
ProfileCompilationInfo::OfflineProfileMethodInfo expected_pmi(ic_map);
// The dex references should not have dex_location2 in the list.
expected_pmi.dex_references.emplace_back(
dex1->GetLocation(), dex1->GetLocationChecksum(), dex1->NumMethodIds());
expected_pmi.dex_references.emplace_back(
dex3->GetLocation(), dex3->GetLocationChecksum(), dex3->NumMethodIds());
// Now check that we get back what we expect.
ASSERT_TRUE(*loaded_pmi1 == expected_pmi);
}
}
TEST_F(ProfileCompilationInfoTest, FilteredLoadingRemoveAll) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
std::vector<ProfileInlineCache> inline_caches = GetTestInlineCaches();
// Add methods with inline caches.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
// Add a method which is part of the same dex file as one of the class from the inline caches.
ASSERT_TRUE(AddMethod(&saved_info, dex1, method_idx, inline_caches));
ASSERT_TRUE(AddMethod(&saved_info, dex2, method_idx, inline_caches));
// Add a method which is outside the set of dex files.
ASSERT_TRUE(AddMethod(&saved_info, dex4, method_idx, inline_caches));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Remove all elements.
ProfileCompilationInfo::ProfileLoadFilterFn filter_fn =
[](const std::string&, uint32_t) -> bool { return false; };
ASSERT_TRUE(loaded_info.Load(GetFd(profile), true, filter_fn));
// Verify that we filtered out everything.
ASSERT_TRUE(IsEmpty(loaded_info));
}
TEST_F(ProfileCompilationInfoTest, FilteredLoadingKeepAll) {
ScratchFile profile;
ProfileCompilationInfo saved_info;
std::vector<ProfileInlineCache> inline_caches = GetTestInlineCaches();
// Add methods with inline caches.
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
// Add a method which is part of the same dex file as one of the
// class from the inline caches.
ASSERT_TRUE(AddMethod(&saved_info, dex1, method_idx, inline_caches));
// Add a method which is outside the set of dex files.
ASSERT_TRUE(AddMethod(&saved_info, dex4, method_idx, inline_caches));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Keep all elements.
ProfileCompilationInfo::ProfileLoadFilterFn filter_fn =
[](const std::string&, uint32_t) -> bool { return true; };
ASSERT_TRUE(loaded_info.Load(GetFd(profile), true, filter_fn));
ASSERT_TRUE(loaded_info.Equals(saved_info));
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi1 =
GetMethod(loaded_info, dex1, method_idx);
ASSERT_TRUE(loaded_pmi1 != nullptr);
ASSERT_TRUE(*loaded_pmi1 == inline_caches);
}
for (uint16_t method_idx = 0; method_idx < 10; method_idx++) {
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> loaded_pmi2 =
GetMethod(loaded_info, dex4, method_idx);
ASSERT_TRUE(loaded_pmi2 != nullptr);
ASSERT_TRUE(*loaded_pmi2 == inline_caches);
}
}
// Regression test: we were failing to do a filtering loading when the filtered dex file
// contained profiled classes.
TEST_F(ProfileCompilationInfoTest, FilteredLoadingWithClasses) {
ScratchFile profile;
// Save a profile with 2 dex files containing just classes.
ProfileCompilationInfo saved_info;
uint16_t item_count = 1000;
for (uint16_t i = 0; i < item_count; i++) {
ASSERT_TRUE(AddClass(&saved_info, dex1, dex::TypeIndex(i)));
ASSERT_TRUE(AddClass(&saved_info, dex2, dex::TypeIndex(i)));
}
ASSERT_TRUE(saved_info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Filter out dex locations: kepp only dex_location2.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ProfileCompilationInfo::ProfileLoadFilterFn filter_fn =
[&dex2 = dex2](const std::string& dex_location, uint32_t checksum) -> bool {
return (dex_location == dex2->GetLocation() && checksum == dex2->GetLocationChecksum());
};
ASSERT_TRUE(loaded_info.Load(GetFd(profile), true, filter_fn));
// Compute the expectation.
ProfileCompilationInfo expected_info;
for (uint16_t i = 0; i < item_count; i++) {
ASSERT_TRUE(AddClass(&expected_info, dex2, dex::TypeIndex(i)));
}
// Validate the expectation.
ASSERT_TRUE(loaded_info.Equals(expected_info));
}
TEST_F(ProfileCompilationInfoTest, ClearData) {
ProfileCompilationInfo info;
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i));
}
ASSERT_FALSE(IsEmpty(info));
info.ClearData();
ASSERT_TRUE(IsEmpty(info));
}
TEST_F(ProfileCompilationInfoTest, ClearDataAndSave) {
ProfileCompilationInfo info;
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i));
}
info.ClearData();
ScratchFile profile;
ASSERT_TRUE(info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(info));
}
TEST_F(ProfileCompilationInfoTest, InitProfiles) {
ProfileCompilationInfo info;
ASSERT_EQ(
memcmp(info.GetVersion(),
ProfileCompilationInfo::kProfileVersion,
ProfileCompilationInfo::kProfileVersionSize),
0);
ASSERT_FALSE(info.IsForBootImage());
ProfileCompilationInfo info1(/*for_boot_image=*/ true);
ASSERT_EQ(
memcmp(info1.GetVersion(),
ProfileCompilationInfo::kProfileVersionForBootImage,
ProfileCompilationInfo::kProfileVersionSize),
0);
ASSERT_TRUE(info1.IsForBootImage());
}
TEST_F(ProfileCompilationInfoTest, VersionEquality) {
ProfileCompilationInfo info(/*for_boot_image=*/ false);
ProfileCompilationInfo info1(/*for_boot_image=*/ true);
ASSERT_FALSE(info.Equals(info1));
}
TEST_F(ProfileCompilationInfoTest, AllMethodFlags) {
ProfileCompilationInfo info(/*for_boot_image*/ true);
for (uint32_t index = 0; index <= kMaxHotnessFlagBootIndex; index++) {
AddMethod(&info, dex1, index, static_cast<Hotness::Flag>(1 << index));
}
auto run_test = [&dex1 = dex1](const ProfileCompilationInfo& info) {
for (uint32_t index = 0; index <= kMaxHotnessFlagBootIndex; index++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, index)).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, index))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index))) << index << " "
<< info.GetMethodHotness(MethodReference(dex1, index)).GetFlags();
}
};
run_test(info);
// Save the profile.
ScratchFile profile;
ASSERT_TRUE(info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Load the profile and make sure we can read the data and it matches what we expect.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
run_test(loaded_info);
}
TEST_F(ProfileCompilationInfoTest, AllMethodFlagsOnOneMethod) {
ProfileCompilationInfo info(/*for_boot_image*/ true);
// Set all flags on a single method.
for (uint32_t index = 0; index <= kMaxHotnessFlagBootIndex; index++) {
AddMethod(&info, dex1, 0, static_cast<Hotness::Flag>(1 << index));
}
auto run_test = [&dex1 = dex1](const ProfileCompilationInfo& info) {
for (uint32_t index = 0; index <= kMaxHotnessFlagBootIndex; index++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 0)).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 0))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
}
};
run_test(info);
// Save the profile.
ScratchFile profile;
ASSERT_TRUE(info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Load the profile and make sure we can read the data and it matches what we expect.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
run_test(loaded_info);
}
TEST_F(ProfileCompilationInfoTest, MethodFlagsMerge) {
ProfileCompilationInfo info1(/*for_boot_image*/ true);
ProfileCompilationInfo info2(/*for_boot_image*/ true);
// Set a few flags on a 2 different methods in each of the profile.
for (uint32_t index = 0; index <= kMaxHotnessFlagBootIndex / 4; index++) {
AddMethod(&info1, dex1, 0, static_cast<Hotness::Flag>(1 << index));
AddMethod(&info2, dex1, 1, static_cast<Hotness::Flag>(1 << index));
}
// Set a few more flags on the method 1.
for (uint32_t index = kMaxHotnessFlagBootIndex / 4 + 1;
index <= kMaxHotnessFlagBootIndex / 2;
index++) {
AddMethod(&info2, dex1, 1, static_cast<Hotness::Flag>(1 << index));
}
ASSERT_TRUE(info1.MergeWith(info2));
auto run_test = [&dex1 = dex1](const ProfileCompilationInfo& info) {
// Assert that the flags were merged correctly for both methods.
for (uint32_t index = 0; index <= kMaxHotnessFlagBootIndex / 4; index++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 0)).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 0))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 1)).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 1))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
}
// Assert that no flags were merged unnecessary.
for (uint32_t index = kMaxHotnessFlagBootIndex / 4 + 1;
index <= kMaxHotnessFlagBootIndex / 2;
index++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 0)).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 0))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 1)).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, 1))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
}
// Assert that no extra flags were added.
for (uint32_t index = kMaxHotnessFlagBootIndex / 2 + 1;
index <= kMaxHotnessFlagBootIndex;
index++) {
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 0))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, 1))
.HasFlagSet(static_cast<Hotness::Flag>(1 << index)));
}
};
run_test(info1);
// Save the profile.
ScratchFile profile;
ASSERT_TRUE(info1.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ASSERT_TRUE(profile.GetFile()->ResetOffset());
// Load the profile and make sure we can read the data and it matches what we expect.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
run_test(loaded_info);
}
TEST_F(ProfileCompilationInfoTest, SizeStressTestAllIn) {
SizeStressTest(/*random=*/ false);
}
TEST_F(ProfileCompilationInfoTest, SizeStressTestAllInRandom) {
SizeStressTest(/*random=*/ true);
}
// Verifies that we correctly add methods to the profile according to their flags.
TEST_F(ProfileCompilationInfoTest, AddMethodsProfileMethodInfoBasic) {
std::unique_ptr<const DexFile> dex(OpenTestDexFile("ManyMethods"));
ProfileCompilationInfo info;
MethodReference hot(dex.get(), 0);
MethodReference hot_startup(dex.get(), 1);
MethodReference startup(dex.get(), 2);
// Add methods
ASSERT_TRUE(info.AddMethod(ProfileMethodInfo(hot), Hotness::kFlagHot));
ASSERT_TRUE(info.AddMethod(
ProfileMethodInfo(hot_startup),
static_cast<Hotness::Flag>(Hotness::kFlagHot | Hotness::kFlagStartup)));
ASSERT_TRUE(info.AddMethod(ProfileMethodInfo(startup), Hotness::kFlagStartup));
// Verify the profile recorded them correctly.
EXPECT_TRUE(info.GetMethodHotness(hot).IsInProfile());
EXPECT_EQ(info.GetMethodHotness(hot).GetFlags(), Hotness::kFlagHot);
EXPECT_TRUE(info.GetMethodHotness(hot_startup).IsInProfile());
EXPECT_EQ(info.GetMethodHotness(hot_startup).GetFlags(),
static_cast<uint32_t>(Hotness::kFlagHot | Hotness::kFlagStartup));
EXPECT_TRUE(info.GetMethodHotness(startup).IsInProfile());
EXPECT_EQ(info.GetMethodHotness(startup).GetFlags(), Hotness::kFlagStartup);
}
// Verifies that we correctly add inline caches to the profile only for hot methods.
TEST_F(ProfileCompilationInfoTest, AddMethodsProfileMethodInfoInlineCaches) {
ProfileCompilationInfo info;
MethodReference hot(dex1, 0);
MethodReference startup(dex1, 2);
// Add inline caches with the methods. The profile should record only the one for the hot method.
std::vector<TypeReference> types = {};
ProfileMethodInfo::ProfileInlineCache ic(/*dex_pc*/ 0, /*missing_types*/true, types);
std::vector<ProfileMethodInfo::ProfileInlineCache> inline_caches = {ic};
info.AddMethod(ProfileMethodInfo(hot, inline_caches), Hotness::kFlagHot);
info.AddMethod(ProfileMethodInfo(startup, inline_caches), Hotness::kFlagStartup);
// Check the hot method's inline cache.
std::unique_ptr<ProfileCompilationInfo::OfflineProfileMethodInfo> hot_pmi =
GetMethod(info, dex1, hot.index);
ASSERT_TRUE(hot_pmi != nullptr);
ASSERT_EQ(hot_pmi->inline_caches->size(), 1u);
ASSERT_TRUE(hot_pmi->inline_caches->Get(0).is_missing_types);
// Check there's no inline caches for the startup method.
ASSERT_TRUE(GetMethod(info, dex1, startup.index) == nullptr);
}
// Verifies that we correctly add methods to the profile according to their flags.
TEST_F(ProfileCompilationInfoTest, AddMethodsProfileMethodInfoFail) {
ProfileCompilationInfo info;
MethodReference hot(dex1, 0);
MethodReference bad_ref(dex1, kMaxMethodIds);
std::vector<ProfileMethodInfo> pmis = {ProfileMethodInfo(hot), ProfileMethodInfo(bad_ref)};
ASSERT_FALSE(info.AddMethods(pmis, Hotness::kFlagHot));
}
// Verify that we can add methods with annotations.
TEST_F(ProfileCompilationInfoTest, AddAnnotationsToMethods) {
ProfileCompilationInfo info;
ProfileSampleAnnotation psa1("test1");
ProfileSampleAnnotation psa2("test2");
// Save a few methods using different annotations, some overlapping, some not.
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa1));
}
for (uint16_t i = 5; i < 15; i++) {
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa2));
}
auto run_test = [&dex1 = dex1, &psa1 = psa1, &psa2 = psa2](const ProfileCompilationInfo& info) {
// Check that all methods are in.
for (uint16_t i = 0; i < 10; i++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, i), psa1).IsInProfile());
EXPECT_TRUE(info.GetHotMethodInfo(MethodReference(dex1, i), psa1) != nullptr);
}
for (uint16_t i = 5; i < 15; i++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, i), psa2).IsInProfile());
EXPECT_TRUE(info.GetHotMethodInfo(MethodReference(dex1, i), psa2) != nullptr);
}
// Check that the non-overlapping methods are not added with a wrong annotation.
for (uint16_t i = 10; i < 15; i++) {
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, i), psa1).IsInProfile());
EXPECT_FALSE(info.GetHotMethodInfo(MethodReference(dex1, i), psa1) != nullptr);
}
for (uint16_t i = 0; i < 5; i++) {
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, i), psa2).IsInProfile());
EXPECT_FALSE(info.GetHotMethodInfo(MethodReference(dex1, i), psa2) != nullptr);
}
// Check that when querying without an annotation only the first one is searched.
for (uint16_t i = 0; i < 10; i++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, i)).IsInProfile());
EXPECT_TRUE(info.GetHotMethodInfo(MethodReference(dex1, i)) != nullptr);
}
// ... this should be false because they belong the second appearance of dex1.
for (uint16_t i = 10; i < 15; i++) {
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, i)).IsInProfile());
EXPECT_FALSE(info.GetHotMethodInfo(MethodReference(dex1, i)) != nullptr);
}
// Sanity check that methods cannot be found with a non existing annotation.
MethodReference ref(dex1, 0);
ProfileSampleAnnotation not_exisiting("A");
EXPECT_FALSE(info.GetMethodHotness(ref, not_exisiting).IsInProfile());
EXPECT_FALSE(info.GetHotMethodInfo(ref, not_exisiting) != nullptr);
};
// Run the test before save.
run_test(info);
ScratchFile profile;
ASSERT_TRUE(info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(info));
// Run the test after save and load.
run_test(loaded_info);
}
// Verify that we can add classes with annotations.
TEST_F(ProfileCompilationInfoTest, AddAnnotationsToClasses) {
ProfileCompilationInfo info;
ProfileSampleAnnotation psa1("test1");
ProfileSampleAnnotation psa2("test2");
// Save a few classes using different annotations, some overlapping, some not.
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddClass(&info, dex1, dex::TypeIndex(i), psa1));
}
for (uint16_t i = 5; i < 15; i++) {
ASSERT_TRUE(AddClass(&info, dex1, dex::TypeIndex(i), psa2));
}
auto run_test = [&dex1 = dex1, &psa1 = psa1, &psa2 = psa2](const ProfileCompilationInfo& info) {
// Check that all classes are in.
for (uint16_t i = 0; i < 10; i++) {
EXPECT_TRUE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa1));
}
for (uint16_t i = 5; i < 15; i++) {
EXPECT_TRUE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa2));
}
// Check that the non-overlapping classes are not added with a wrong annotation.
for (uint16_t i = 10; i < 15; i++) {
EXPECT_FALSE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa1));
}
for (uint16_t i = 0; i < 5; i++) {
EXPECT_FALSE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa2));
}
// Check that when querying without an annotation only the first one is searched.
for (uint16_t i = 0; i < 10; i++) {
EXPECT_TRUE(info.ContainsClass(*dex1, dex::TypeIndex(i)));
}
// ... this should be false because they belong the second appearance of dex1.
for (uint16_t i = 10; i < 15; i++) {
EXPECT_FALSE(info.ContainsClass(*dex1, dex::TypeIndex(i)));
}
// Sanity check that classes cannot be found with a non existing annotation.
EXPECT_FALSE(info.ContainsClass(*dex1, dex::TypeIndex(0), ProfileSampleAnnotation("new_test")));
};
// Run the test before save.
run_test(info);
ScratchFile profile;
ASSERT_TRUE(info.Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
// Check that we get back what we saved.
ProfileCompilationInfo loaded_info;
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ASSERT_TRUE(loaded_info.Load(GetFd(profile)));
ASSERT_TRUE(loaded_info.Equals(info));
// Run the test after save and load.
run_test(loaded_info);
}
// Verify we can merge samples with annotations.
TEST_F(ProfileCompilationInfoTest, MergeWithAnnotations) {
ProfileCompilationInfo info1;
ProfileCompilationInfo info2;
ProfileSampleAnnotation psa1("test1");
ProfileSampleAnnotation psa2("test2");
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&info1, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa1));
ASSERT_TRUE(AddClass(&info1, dex1, dex::TypeIndex(i), psa1));
}
for (uint16_t i = 5; i < 15; i++) {
ASSERT_TRUE(AddMethod(&info2, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa1));
ASSERT_TRUE(AddMethod(&info2, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa2));
ASSERT_TRUE(AddMethod(&info2, dex2, /* method_idx= */ i, Hotness::kFlagHot, psa2));
ASSERT_TRUE(AddClass(&info2, dex1, dex::TypeIndex(i), psa1));
ASSERT_TRUE(AddClass(&info2, dex1, dex::TypeIndex(i), psa2));
}
ProfileCompilationInfo info;
ASSERT_TRUE(info.MergeWith(info1));
ASSERT_TRUE(info.MergeWith(info2));
// Check that all items are in.
for (uint16_t i = 0; i < 15; i++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, i), psa1).IsInProfile());
EXPECT_TRUE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa1));
}
for (uint16_t i = 5; i < 15; i++) {
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex1, i), psa2).IsInProfile());
EXPECT_TRUE(info.GetMethodHotness(MethodReference(dex2, i), psa2).IsInProfile());
EXPECT_TRUE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa2));
}
// Check that the non-overlapping items are not added with a wrong annotation.
for (uint16_t i = 0; i < 5; i++) {
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex1, i), psa2).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(MethodReference(dex2, i), psa2).IsInProfile());
EXPECT_FALSE(info.ContainsClass(*dex1, dex::TypeIndex(i), psa2));
}
}
// Verify the bulk extraction API.
TEST_F(ProfileCompilationInfoTest, ExtractInfoWithAnnations) {
ProfileCompilationInfo info;
ProfileSampleAnnotation psa1("test1");
ProfileSampleAnnotation psa2("test2");
std::set<dex::TypeIndex> expected_classes;
std::set<uint16_t> expected_hot_methods;
std::set<uint16_t> expected_startup_methods;
std::set<uint16_t> expected_post_startup_methods;
for (uint16_t i = 0; i < 10; i++) {
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa1));
ASSERT_TRUE(AddClass(&info, dex1, dex::TypeIndex(i), psa1));
expected_hot_methods.insert(i);
expected_classes.insert(dex::TypeIndex(i));
}
for (uint16_t i = 5; i < 15; i++) {
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i, Hotness::kFlagHot, psa2));
ASSERT_TRUE(AddMethod(&info, dex1, /* method_idx= */ i, Hotness::kFlagStartup, psa1));
expected_startup_methods.insert(i);
}
std::set<dex::TypeIndex> classes;
std::set<uint16_t> hot_methods;
std::set<uint16_t> startup_methods;
std::set<uint16_t> post_startup_methods;
EXPECT_TRUE(info.GetClassesAndMethods(
*dex1, &classes, &hot_methods, &startup_methods, &post_startup_methods, psa1));
EXPECT_EQ(expected_classes, classes);
EXPECT_EQ(expected_hot_methods, hot_methods);
EXPECT_EQ(expected_startup_methods, startup_methods);
EXPECT_EQ(expected_post_startup_methods, post_startup_methods);
EXPECT_FALSE(info.GetClassesAndMethods(
*dex1,
&classes,
&hot_methods,
&startup_methods,
&post_startup_methods,
ProfileSampleAnnotation("new_test")));
}
// Verify the behavior for adding methods with annotations and different dex checksums.
TEST_F(ProfileCompilationInfoTest, AddMethodsWithAnnotationAndDifferentChecksum) {
ProfileCompilationInfo info;
ProfileSampleAnnotation psa1("test1");
ProfileSampleAnnotation psa2("test2");
MethodReference ref(dex1, 0);
MethodReference ref_checksum_missmatch(dex1_checksum_missmatch, 1);
ASSERT_TRUE(info.AddMethod(ProfileMethodInfo(ref), Hotness::kFlagHot, psa1));
// Adding a method with a different dex checksum and the same annotation should fail.
ASSERT_FALSE(info.AddMethod(ProfileMethodInfo(ref_checksum_missmatch), Hotness::kFlagHot, psa1));
// However, a method with a different dex checksum and a different annotation should be ok.
ASSERT_TRUE(info.AddMethod(ProfileMethodInfo(ref_checksum_missmatch), Hotness::kFlagHot, psa2));
}
// Verify the behavior for searching method with annotations and different dex checksums.
TEST_F(ProfileCompilationInfoTest, FindMethodsWithAnnotationAndDifferentChecksum) {
ProfileCompilationInfo info;
ProfileSampleAnnotation psa1("test1");
MethodReference ref(dex1, 0);
MethodReference ref_checksum_missmatch(dex1_checksum_missmatch, 0);
ASSERT_TRUE(info.AddMethod(ProfileMethodInfo(ref), Hotness::kFlagHot, psa1));
// The method should be in the profile when searched with the correct data.
EXPECT_TRUE(info.GetMethodHotness(ref, psa1).IsInProfile());
// We should get a negative result if the dex checksum does not match.
EXPECT_FALSE(info.GetMethodHotness(ref_checksum_missmatch, psa1).IsInProfile());
// If we search without annotation we should have the same behaviour.
EXPECT_TRUE(info.GetMethodHotness(ref).IsInProfile());
EXPECT_FALSE(info.GetMethodHotness(ref_checksum_missmatch).IsInProfile());
}
TEST_F(ProfileCompilationInfoTest, ClearDataAndAdjustVersionRegularToBoot) {
ProfileCompilationInfo info;
AddMethod(&info, dex1, /* method_idx= */ 0, Hotness::kFlagHot);
info.ClearDataAndAdjustVersion(/*for_boot_image=*/true);
ASSERT_TRUE(info.IsEmpty());
ASSERT_TRUE(info.IsForBootImage());
}
TEST_F(ProfileCompilationInfoTest, ClearDataAndAdjustVersionBootToRegular) {
ProfileCompilationInfo info(/*for_boot_image=*/true);
AddMethod(&info, dex1, /* method_idx= */ 0, Hotness::kFlagHot);
info.ClearDataAndAdjustVersion(/*for_boot_image=*/false);
ASSERT_TRUE(info.IsEmpty());
ASSERT_FALSE(info.IsForBootImage());
}
} // namespace art