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review.shift-gmbh.com / SHIFTPHONES / android_art / 34067269b9493239e1fdbdd562eda1b0d2c9ec39 / . / profman / profile_assistant_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 "art_method-inl.h"
#include "base/unix_file/fd_file.h"
#include "common_runtime_test.h"
#include "exec_utils.h"
#include "jit/profile_compilation_info.h"
#include "mirror/class-inl.h"
#include "obj_ptr-inl.h"
#include "profile_assistant.h"
#include "scoped_thread_state_change-inl.h"
#include "utils.h"
namespace art {
class ProfileAssistantTest : public CommonRuntimeTest {
protected:
void SetupProfile(const std::string& id,
uint32_t checksum,
uint16_t number_of_methods,
uint16_t number_of_classes,
const ScratchFile& profile,
ProfileCompilationInfo* info,
uint16_t start_method_index = 0,
bool reverse_dex_write_order = false) {
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++) {
// reverse_dex_write_order controls the order in which the dex files will be added to
// the profile and thus written to disk.
ProfileCompilationInfo::OfflineProfileMethodInfo pmi =
GetOfflineProfileMethodInfo(dex_location1, dex_location_checksum1,
dex_location2, dex_location_checksum2);
if (reverse_dex_write_order) {
ASSERT_TRUE(info->AddMethod(dex_location2, dex_location_checksum2, i, pmi));
ASSERT_TRUE(info->AddMethod(dex_location1, dex_location_checksum1, i, pmi));
} else {
ASSERT_TRUE(info->AddMethod(dex_location1, dex_location_checksum1, i, pmi));
ASSERT_TRUE(info->AddMethod(dex_location2, dex_location_checksum2, i, pmi));
}
}
for (uint16_t i = 0; i < number_of_classes; i++) {
ASSERT_TRUE(info->AddClassIndex(dex_location1, dex_location_checksum1, dex::TypeIndex(i)));
}
ASSERT_TRUE(info->Save(GetFd(profile)));
ASSERT_EQ(0, profile.GetFile()->Flush());
ASSERT_TRUE(profile.GetFile()->ResetOffset());
}
ProfileCompilationInfo::OfflineProfileMethodInfo GetOfflineProfileMethodInfo(
const std::string& dex_location1, uint32_t dex_checksum1,
const std::string& dex_location2, uint32_t dex_checksum2) {
ProfileCompilationInfo::OfflineProfileMethodInfo pmi;
pmi.dex_references.emplace_back(dex_location1, dex_checksum1);
pmi.dex_references.emplace_back(dex_location2, dex_checksum2);
// Monomorphic
for (uint16_t dex_pc = 0; dex_pc < 11; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data;
dex_pc_data.AddClass(0, dex::TypeIndex(0));
pmi.inline_caches.Put(dex_pc, dex_pc_data);
}
// Polymorphic
for (uint16_t dex_pc = 11; dex_pc < 22; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data;
dex_pc_data.AddClass(0, dex::TypeIndex(0));
dex_pc_data.AddClass(1, dex::TypeIndex(1));
pmi.inline_caches.Put(dex_pc, dex_pc_data);
}
// Megamorphic
for (uint16_t dex_pc = 22; dex_pc < 33; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data;
dex_pc_data.SetIsMegamorphic();
pmi.inline_caches.Put(dex_pc, dex_pc_data);
}
// Missing types
for (uint16_t dex_pc = 33; dex_pc < 44; dex_pc++) {
ProfileCompilationInfo::DexPcData dex_pc_data;
dex_pc_data.SetIsMissingTypes();
pmi.inline_caches.Put(dex_pc, dex_pc_data);
}
return pmi;
}
int GetFd(const ScratchFile& file) const {
return static_cast<int>(file.GetFd());
}
void CheckProfileInfo(ScratchFile& file, const ProfileCompilationInfo& info) {
ProfileCompilationInfo file_info;
ASSERT_TRUE(file.GetFile()->ResetOffset());
ASSERT_TRUE(file_info.Load(GetFd(file)));
ASSERT_TRUE(file_info.Equals(info));
}
std::string GetProfmanCmd() {
std::string file_path = GetTestAndroidRoot();
file_path += "/bin/profman";
if (kIsDebugBuild) {
file_path += "d";
}
EXPECT_TRUE(OS::FileExists(file_path.c_str()))
<< file_path << " should be a valid file path";
return file_path;
}
// Runs test with given arguments.
int ProcessProfiles(const std::vector<int>& profiles_fd, int reference_profile_fd) {
std::string profman_cmd = GetProfmanCmd();
std::vector<std::string> argv_str;
argv_str.push_back(profman_cmd);
for (size_t k = 0; k < profiles_fd.size(); k++) {
argv_str.push_back("--profile-file-fd=" + std::to_string(profiles_fd[k]));
}
argv_str.push_back("--reference-profile-file-fd=" + std::to_string(reference_profile_fd));
std::string error;
return ExecAndReturnCode(argv_str, &error);
}
bool GenerateTestProfile(const std::string& filename) {
std::string profman_cmd = GetProfmanCmd();
std::vector<std::string> argv_str;
argv_str.push_back(profman_cmd);
argv_str.push_back("--generate-test-profile=" + filename);
std::string error;
return ExecAndReturnCode(argv_str, &error);
}
bool GenerateTestProfileWithInputDex(const std::string& filename) {
std::string profman_cmd = GetProfmanCmd();
std::vector<std::string> argv_str;
argv_str.push_back(profman_cmd);
argv_str.push_back("--generate-test-profile=" + filename);
argv_str.push_back("--generate-test-profile-seed=0");
argv_str.push_back("--apk=" + GetLibCoreDexFileNames()[0]);
argv_str.push_back("--dex-location=" + GetLibCoreDexFileNames()[0]);
std::string error;
return ExecAndReturnCode(argv_str, &error);
}
bool CreateProfile(std::string profile_file_contents,
const std::string& filename,
const std::string& dex_location) {
ScratchFile class_names_file;
File* file = class_names_file.GetFile();
EXPECT_TRUE(file->WriteFully(profile_file_contents.c_str(), profile_file_contents.length()));
EXPECT_EQ(0, file->Flush());
EXPECT_TRUE(file->ResetOffset());
std::string profman_cmd = GetProfmanCmd();
std::vector<std::string> argv_str;
argv_str.push_back(profman_cmd);
argv_str.push_back("--create-profile-from=" + class_names_file.GetFilename());
argv_str.push_back("--reference-profile-file=" + filename);
argv_str.push_back("--apk=" + dex_location);
argv_str.push_back("--dex-location=" + dex_location);
std::string error;
EXPECT_EQ(ExecAndReturnCode(argv_str, &error), 0);
return true;
}
bool DumpClassesAndMethods(const std::string& filename, std::string* file_contents) {
ScratchFile class_names_file;
std::string profman_cmd = GetProfmanCmd();
std::vector<std::string> argv_str;
argv_str.push_back(profman_cmd);
argv_str.push_back("--dump-classes-and-methods");
argv_str.push_back("--profile-file=" + filename);
argv_str.push_back("--apk=" + GetLibCoreDexFileNames()[0]);
argv_str.push_back("--dex-location=" + GetLibCoreDexFileNames()[0]);
argv_str.push_back("--dump-output-to-fd=" + std::to_string(GetFd(class_names_file)));
std::string error;
EXPECT_EQ(ExecAndReturnCode(argv_str, &error), 0);
File* file = class_names_file.GetFile();
EXPECT_EQ(0, file->Flush());
EXPECT_TRUE(file->ResetOffset());
int64_t length = file->GetLength();
std::unique_ptr<char[]> buf(new char[length]);
EXPECT_EQ(file->Read(buf.get(), length, 0), length);
*file_contents = std::string(buf.get(), length);
return true;
}
bool CreateAndDump(const std::string& input_file_contents,
std::string* output_file_contents) {
ScratchFile profile_file;
EXPECT_TRUE(CreateProfile(input_file_contents,
profile_file.GetFilename(),
GetLibCoreDexFileNames()[0]));
profile_file.GetFile()->ResetOffset();
EXPECT_TRUE(DumpClassesAndMethods(profile_file.GetFilename(), output_file_contents));
return true;
}
mirror::Class* GetClass(jobject class_loader, const std::string& clazz) {
ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
Thread* self = Thread::Current();
ScopedObjectAccess soa(self);
StackHandleScope<1> hs(self);
Handle<mirror::ClassLoader> h_loader(
hs.NewHandle(ObjPtr<mirror::ClassLoader>::DownCast(self->DecodeJObject(class_loader))));
return class_linker->FindClass(self, clazz.c_str(), h_loader);
}
ArtMethod* GetVirtualMethod(jobject class_loader,
const std::string& clazz,
const std::string& name) {
mirror::Class* klass = GetClass(class_loader, clazz);
ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
const auto pointer_size = class_linker->GetImagePointerSize();
ArtMethod* method = nullptr;
Thread* self = Thread::Current();
ScopedObjectAccess soa(self);
for (auto& m : klass->GetVirtualMethods(pointer_size)) {
if (name == m.GetName()) {
EXPECT_TRUE(method == nullptr);
method = &m;
}
}
return method;
}
// Verify that given method has the expected inline caches and nothing else.
void AssertInlineCaches(ArtMethod* method,
const std::set<mirror::Class*>& expected_clases,
const ProfileCompilationInfo& info,
bool is_megamorphic,
bool is_missing_types)
REQUIRES_SHARED(Locks::mutator_lock_) {
ProfileCompilationInfo::OfflineProfileMethodInfo pmi;
ASSERT_TRUE(info.GetMethod(method->GetDexFile()->GetLocation(),
method->GetDexFile()->GetLocationChecksum(),
method->GetDexMethodIndex(),
&pmi));
ASSERT_EQ(pmi.inline_caches.size(), 1u);
ProfileCompilationInfo::DexPcData dex_pc_data = pmi.inline_caches.begin()->second;
ASSERT_EQ(dex_pc_data.is_megamorphic, is_megamorphic);
ASSERT_EQ(dex_pc_data.is_missing_types, is_missing_types);
ASSERT_EQ(expected_clases.size(), dex_pc_data.classes.size());
size_t found = 0;
for (mirror::Class* it : expected_clases) {
for (const auto& class_ref : dex_pc_data.classes) {
ProfileCompilationInfo::DexReference dex_ref =
pmi.dex_references[class_ref.dex_profile_index];
if (dex_ref.MatchesDex(&(it->GetDexFile())) &&
class_ref.type_index == it->GetDexTypeIndex()) {
found++;
}
}
}
ASSERT_EQ(expected_clases.size(), found);
}
};
TEST_F(ProfileAssistantTest, AdviseCompilationEmptyReferences) {
ScratchFile profile1;
ScratchFile profile2;
ScratchFile reference_profile;
std::vector<int> profile_fds({
GetFd(profile1),
GetFd(profile2)});
int reference_profile_fd = GetFd(reference_profile);
const uint16_t kNumberOfMethodsToEnableCompilation = 100;
ProfileCompilationInfo info1;
SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, 0, profile1, &info1);
ProfileCompilationInfo info2;
SetupProfile("p2", 2, kNumberOfMethodsToEnableCompilation, 0, profile2, &info2);
// We should advise compilation.
ASSERT_EQ(ProfileAssistant::kCompile,
ProcessProfiles(profile_fds, reference_profile_fd));
// The resulting compilation info must be equal to the merge of the inputs.
ProfileCompilationInfo result;
ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
ASSERT_TRUE(result.Load(reference_profile_fd));
ProfileCompilationInfo expected;
ASSERT_TRUE(expected.MergeWith(info1));
ASSERT_TRUE(expected.MergeWith(info2));
ASSERT_TRUE(expected.Equals(result));
// The information from profiles must remain the same.
CheckProfileInfo(profile1, info1);
CheckProfileInfo(profile2, info2);
}
// TODO(calin): Add more tests for classes.
TEST_F(ProfileAssistantTest, AdviseCompilationEmptyReferencesBecauseOfClasses) {
ScratchFile profile1;
ScratchFile reference_profile;
std::vector<int> profile_fds({
GetFd(profile1)});
int reference_profile_fd = GetFd(reference_profile);
const uint16_t kNumberOfClassesToEnableCompilation = 100;
ProfileCompilationInfo info1;
SetupProfile("p1", 1, 0, kNumberOfClassesToEnableCompilation, profile1, &info1);
// We should advise compilation.
ASSERT_EQ(ProfileAssistant::kCompile,
ProcessProfiles(profile_fds, reference_profile_fd));
// The resulting compilation info must be equal to the merge of the inputs.
ProfileCompilationInfo result;
ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
ASSERT_TRUE(result.Load(reference_profile_fd));
ProfileCompilationInfo expected;
ASSERT_TRUE(expected.MergeWith(info1));
ASSERT_TRUE(expected.Equals(result));
// The information from profiles must remain the same.
CheckProfileInfo(profile1, info1);
}
TEST_F(ProfileAssistantTest, AdviseCompilationNonEmptyReferences) {
ScratchFile profile1;
ScratchFile profile2;
ScratchFile reference_profile;
std::vector<int> profile_fds({
GetFd(profile1),
GetFd(profile2)});
int reference_profile_fd = GetFd(reference_profile);
// The new profile info will contain the methods with indices 0-100.
const uint16_t kNumberOfMethodsToEnableCompilation = 100;
ProfileCompilationInfo info1;
SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, 0, profile1, &info1);
ProfileCompilationInfo info2;
SetupProfile("p2", 2, kNumberOfMethodsToEnableCompilation, 0, profile2, &info2);
// The reference profile info will contain the methods with indices 50-150.
const uint16_t kNumberOfMethodsAlreadyCompiled = 100;
ProfileCompilationInfo reference_info;
SetupProfile("p1", 1, kNumberOfMethodsAlreadyCompiled, 0, reference_profile,
&reference_info, kNumberOfMethodsToEnableCompilation / 2);
// We should advise compilation.
ASSERT_EQ(ProfileAssistant::kCompile,
ProcessProfiles(profile_fds, reference_profile_fd));
// The resulting compilation info must be equal to the merge of the inputs
ProfileCompilationInfo result;
ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
ASSERT_TRUE(result.Load(reference_profile_fd));
ProfileCompilationInfo expected;
ASSERT_TRUE(expected.MergeWith(info1));
ASSERT_TRUE(expected.MergeWith(info2));
ASSERT_TRUE(expected.MergeWith(reference_info));
ASSERT_TRUE(expected.Equals(result));
// The information from profiles must remain the same.
CheckProfileInfo(profile1, info1);
CheckProfileInfo(profile2, info2);
}
TEST_F(ProfileAssistantTest, DoNotAdviseCompilation) {
ScratchFile profile1;
ScratchFile profile2;
ScratchFile reference_profile;
std::vector<int> profile_fds({
GetFd(profile1),
GetFd(profile2)});
int reference_profile_fd = GetFd(reference_profile);
const uint16_t kNumberOfMethodsToSkipCompilation = 1;
ProfileCompilationInfo info1;
SetupProfile("p1", 1, kNumberOfMethodsToSkipCompilation, 0, profile1, &info1);
ProfileCompilationInfo info2;
SetupProfile("p2", 2, kNumberOfMethodsToSkipCompilation, 0, profile2, &info2);
// We should not advise compilation.
ASSERT_EQ(ProfileAssistant::kSkipCompilation,
ProcessProfiles(profile_fds, reference_profile_fd));
// 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_profile.GetFile()->GetLength());
// The information from profiles must remain the same.
CheckProfileInfo(profile1, info1);
CheckProfileInfo(profile2, info2);
}
TEST_F(ProfileAssistantTest, FailProcessingBecauseOfProfiles) {
ScratchFile profile1;
ScratchFile profile2;
ScratchFile reference_profile;
std::vector<int> profile_fds({
GetFd(profile1),
GetFd(profile2)});
int reference_profile_fd = 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, 0, profile1, &info1);
ProfileCompilationInfo info2;
SetupProfile("p1", 2, kNumberOfMethodsToEnableCompilation, 0, profile2, &info2);
// We should fail processing.
ASSERT_EQ(ProfileAssistant::kErrorBadProfiles,
ProcessProfiles(profile_fds, reference_profile_fd));
// The information from profiles must remain the same.
CheckProfileInfo(profile1, info1);
CheckProfileInfo(profile2, info2);
// Reference profile files must still remain empty.
ASSERT_EQ(0, reference_profile.GetFile()->GetLength());
}
TEST_F(ProfileAssistantTest, FailProcessingBecauseOfReferenceProfiles) {
ScratchFile profile1;
ScratchFile reference_profile;
std::vector<int> profile_fds({
GetFd(profile1)});
int reference_profile_fd = 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, 0, profile1, &info1);
ProfileCompilationInfo reference_info;
SetupProfile("p1", 2, kNumberOfMethodsToEnableCompilation, 0, reference_profile, &reference_info);
// We should not advise compilation.
ASSERT_TRUE(profile1.GetFile()->ResetOffset());
ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
ASSERT_EQ(ProfileAssistant::kErrorBadProfiles,
ProcessProfiles(profile_fds, reference_profile_fd));
// The information from profiles must remain the same.
CheckProfileInfo(profile1, info1);
}
TEST_F(ProfileAssistantTest, TestProfileGeneration) {
ScratchFile profile;
// Generate a test profile.
GenerateTestProfile(profile.GetFilename());
// Verify that the generated profile is valid and can be loaded.
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ProfileCompilationInfo info;
ASSERT_TRUE(info.Load(GetFd(profile)));
}
TEST_F(ProfileAssistantTest, TestProfileGenerationWithIndexDex) {
ScratchFile profile;
// Generate a test profile passing in a dex file as reference.
GenerateTestProfileWithInputDex(profile.GetFilename());
// Verify that the generated profile is valid and can be loaded.
ASSERT_TRUE(profile.GetFile()->ResetOffset());
ProfileCompilationInfo info;
ASSERT_TRUE(info.Load(GetFd(profile)));
}
TEST_F(ProfileAssistantTest, TestProfileCreationAllMatch) {
// Class names put here need to be in sorted order.
std::vector<std::string> class_names = {
"Ljava/lang/Comparable;",
"Ljava/lang/Math;",
"Ljava/lang/Object;",
"Ljava/lang/Object;-><init>()V"
};
std::string file_contents;
for (std::string& class_name : class_names) {
file_contents += class_name + std::string("\n");
}
std::string output_file_contents;
ASSERT_TRUE(CreateAndDump(file_contents, &output_file_contents));
ASSERT_EQ(output_file_contents, file_contents);
}
TEST_F(ProfileAssistantTest, TestProfileCreationGenerateMethods) {
// Class names put here need to be in sorted order.
std::vector<std::string> class_names = {
"Ljava/lang/Math;->*",
};
std::string input_file_contents;
std::string expected_contents;
for (std::string& class_name : class_names) {
input_file_contents += class_name + std::string("\n");
expected_contents += DescriptorToDot(class_name.c_str()) +
std::string("\n");
}
std::string output_file_contents;
ScratchFile profile_file;
EXPECT_TRUE(CreateProfile(input_file_contents,
profile_file.GetFilename(),
GetLibCoreDexFileNames()[0]));
ProfileCompilationInfo info;
profile_file.GetFile()->ResetOffset();
ASSERT_TRUE(info.Load(GetFd(profile_file)));
// Verify that the profile has matching methods.
ScopedObjectAccess soa(Thread::Current());
ObjPtr<mirror::Class> klass = GetClass(nullptr, "Ljava/lang/Math;");
ASSERT_TRUE(klass != nullptr);
size_t method_count = 0;
for (ArtMethod& method : klass->GetMethods(kRuntimePointerSize)) {
if (!method.IsCopied() && method.GetCodeItem() != nullptr) {
++method_count;
ProfileCompilationInfo::OfflineProfileMethodInfo pmi;
ASSERT_TRUE(info.GetMethod(method.GetDexFile()->GetLocation(),
method.GetDexFile()->GetLocationChecksum(),
method.GetDexMethodIndex(),
&pmi));
}
}
EXPECT_GT(method_count, 0u);
}
TEST_F(ProfileAssistantTest, TestProfileCreationOneNotMatched) {
// Class names put here need to be in sorted order.
std::vector<std::string> class_names = {
"Ldoesnt/match/this/one;",
"Ljava/lang/Comparable;",
"Ljava/lang/Object;"
};
std::string input_file_contents;
for (std::string& class_name : class_names) {
input_file_contents += class_name + std::string("\n");
}
std::string output_file_contents;
ASSERT_TRUE(CreateAndDump(input_file_contents, &output_file_contents));
std::string expected_contents =
class_names[1] + std::string("\n") +
class_names[2] + std::string("\n");
ASSERT_EQ(output_file_contents, expected_contents);
}
TEST_F(ProfileAssistantTest, TestProfileCreationNoneMatched) {
// Class names put here need to be in sorted order.
std::vector<std::string> class_names = {
"Ldoesnt/match/this/one;",
"Ldoesnt/match/this/one/either;",
"Lnor/this/one;"
};
std::string input_file_contents;
for (std::string& class_name : class_names) {
input_file_contents += class_name + std::string("\n");
}
std::string output_file_contents;
ASSERT_TRUE(CreateAndDump(input_file_contents, &output_file_contents));
std::string expected_contents("");
ASSERT_EQ(output_file_contents, expected_contents);
}
TEST_F(ProfileAssistantTest, TestProfileCreateInlineCache) {
// Create the profile content.
std::vector<std::string> methods = {
"LTestInline;->inlineMonomorphic(LSuper;)I+LSubA;",
"LTestInline;->inlinePolymorphic(LSuper;)I+LSubA;,LSubB;,LSubC;",
"LTestInline;->inlineMegamorphic(LSuper;)I+LSubA;,LSubB;,LSubC;,LSubD;,LSubE;",
"LTestInline;->inlineMissingTypes(LSuper;)I+missing_types",
"LTestInline;->noInlineCache(LSuper;)I"
};
std::string input_file_contents;
for (std::string& m : methods) {
input_file_contents += m + std::string("\n");
}
// Create the profile and save it to disk.
ScratchFile profile_file;
ASSERT_TRUE(CreateProfile(input_file_contents,
profile_file.GetFilename(),
GetTestDexFileName("ProfileTestMultiDex")));
// Load the profile from disk.
ProfileCompilationInfo info;
profile_file.GetFile()->ResetOffset();
ASSERT_TRUE(info.Load(GetFd(profile_file)));
// Load the dex files and verify that the profile contains the expected methods info.
ScopedObjectAccess soa(Thread::Current());
jobject class_loader = LoadDex("ProfileTestMultiDex");
ASSERT_NE(class_loader, nullptr);
mirror::Class* sub_a = GetClass(class_loader, "LSubA;");
mirror::Class* sub_b = GetClass(class_loader, "LSubB;");
mirror::Class* sub_c = GetClass(class_loader, "LSubC;");
ASSERT_TRUE(sub_a != nullptr);
ASSERT_TRUE(sub_b != nullptr);
ASSERT_TRUE(sub_c != nullptr);
{
// Verify that method inlineMonomorphic has the expected inline caches and nothing else.
ArtMethod* inline_monomorphic = GetVirtualMethod(class_loader,
"LTestInline;",
"inlineMonomorphic");
ASSERT_TRUE(inline_monomorphic != nullptr);
std::set<mirror::Class*> expected_monomorphic;
expected_monomorphic.insert(sub_a);
AssertInlineCaches(inline_monomorphic,
expected_monomorphic,
info,
/*megamorphic*/false,
/*missing_types*/false);
}
{
// Verify that method inlinePolymorphic has the expected inline caches and nothing else.
ArtMethod* inline_polymorhic = GetVirtualMethod(class_loader,
"LTestInline;",
"inlinePolymorphic");
ASSERT_TRUE(inline_polymorhic != nullptr);
std::set<mirror::Class*> expected_polymorphic;
expected_polymorphic.insert(sub_a);
expected_polymorphic.insert(sub_b);
expected_polymorphic.insert(sub_c);
AssertInlineCaches(inline_polymorhic,
expected_polymorphic,
info,
/*megamorphic*/false,
/*missing_types*/false);
}
{
// Verify that method inlineMegamorphic has the expected inline caches and nothing else.
ArtMethod* inline_megamorphic = GetVirtualMethod(class_loader,
"LTestInline;",
"inlineMegamorphic");
ASSERT_TRUE(inline_megamorphic != nullptr);
std::set<mirror::Class*> expected_megamorphic;
AssertInlineCaches(inline_megamorphic,
expected_megamorphic,
info,
/*megamorphic*/true,
/*missing_types*/false);
}
{
// Verify that method inlineMegamorphic has the expected inline caches and nothing else.
ArtMethod* inline_missing_types = GetVirtualMethod(class_loader,
"LTestInline;",
"inlineMissingTypes");
ASSERT_TRUE(inline_missing_types != nullptr);
std::set<mirror::Class*> expected_missing_Types;
AssertInlineCaches(inline_missing_types,
expected_missing_Types,
info,
/*megamorphic*/false,
/*missing_types*/true);
}
{
// Verify that method noInlineCache has no inline caches in the profile.
ArtMethod* no_inline_cache = GetVirtualMethod(class_loader, "LTestInline;", "noInlineCache");
ASSERT_TRUE(no_inline_cache != nullptr);
ProfileCompilationInfo::OfflineProfileMethodInfo pmi_no_inline_cache;
ASSERT_TRUE(info.GetMethod(no_inline_cache->GetDexFile()->GetLocation(),
no_inline_cache->GetDexFile()->GetLocationChecksum(),
no_inline_cache->GetDexMethodIndex(),
&pmi_no_inline_cache));
ASSERT_TRUE(pmi_no_inline_cache.inline_caches.empty());
}
}
TEST_F(ProfileAssistantTest, MergeProfilesWithDifferentDexOrder) {
ScratchFile profile1;
ScratchFile reference_profile;
std::vector<int> profile_fds({GetFd(profile1)});
int reference_profile_fd = GetFd(reference_profile);
// The new profile info will contain the methods with indices 0-100.
const uint16_t kNumberOfMethodsToEnableCompilation = 100;
ProfileCompilationInfo info1;
SetupProfile("p1", 1, kNumberOfMethodsToEnableCompilation, 0, profile1, &info1,
/*start_method_index*/0, /*reverse_dex_write_order*/false);
// The reference profile info will contain the methods with indices 50-150.
// When setting up the profile reverse the order in which the dex files
// are added to the profile. This will verify that profman merges profiles
// with a different dex order correctly.
const uint16_t kNumberOfMethodsAlreadyCompiled = 100;
ProfileCompilationInfo reference_info;
SetupProfile("p1", 1, kNumberOfMethodsAlreadyCompiled, 0, reference_profile,
&reference_info, kNumberOfMethodsToEnableCompilation / 2, /*reverse_dex_write_order*/true);
// We should advise compilation.
ASSERT_EQ(ProfileAssistant::kCompile,
ProcessProfiles(profile_fds, reference_profile_fd));
// The resulting compilation info must be equal to the merge of the inputs.
ProfileCompilationInfo result;
ASSERT_TRUE(reference_profile.GetFile()->ResetOffset());
ASSERT_TRUE(result.Load(reference_profile_fd));
ProfileCompilationInfo expected;
ASSERT_TRUE(expected.MergeWith(reference_info));
ASSERT_TRUE(expected.MergeWith(info1));
ASSERT_TRUE(expected.Equals(result));
// The information from profile must remain the same.
CheckProfileInfo(profile1, info1);
}
} // namespace art