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android / platform / art / refs/heads/main / . / runtime / gc / space / image_space_test.cc
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/*
* Copyright (C) 2017 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 "android-base/logging.h"
#include "android-base/stringprintf.h"
#include "android-base/strings.h"
#include "base/globals.h"
#include "base/stl_util.h"
#include "class_linker.h"
#include "dex/utf.h"
#include "dexopt_test.h"
#include "intern_table-inl.h"
#include "noop_compiler_callbacks.h"
#include "oat/oat_file.h"
namespace art HIDDEN {
namespace gc {
namespace space {
class ImageSpaceTest : public CommonRuntimeTest {
protected:
void SetUpRuntimeOptions(RuntimeOptions* options) override {
// Disable relocation.
options->emplace_back("-Xnorelocate", nullptr);
}
std::string GetFilenameBase(const std::string& full_path) {
size_t slash_pos = full_path.rfind('/');
CHECK_NE(std::string::npos, slash_pos);
size_t dot_pos = full_path.rfind('.');
CHECK_NE(std::string::npos, dot_pos);
CHECK_GT(dot_pos, slash_pos + 1u);
return full_path.substr(slash_pos + 1u, dot_pos - (slash_pos + 1u));
}
};
TEST_F(ImageSpaceTest, StringDeduplication) {
const char* const kBaseNames[] = {"Extension1", "Extension2"};
ScratchDir scratch;
const std::string& scratch_dir = scratch.GetPath();
std::string image_dir = scratch_dir + GetInstructionSetString(kRuntimeISA);
int mkdir_result = mkdir(image_dir.c_str(), 0700);
ASSERT_EQ(0, mkdir_result);
// Prepare boot class path variables.
std::vector<std::string> bcp = GetLibCoreDexFileNames();
std::vector<std::string> bcp_locations = GetLibCoreDexLocations();
CHECK_EQ(bcp.size(), bcp_locations.size());
std::string base_bcp_string = android::base::Join(bcp, ':');
std::string base_bcp_locations_string = android::base::Join(bcp_locations, ':');
std::string base_image_location = GetImageLocation();
// Compile the two extensions independently.
std::vector<std::string> extension_image_locations;
for (const char* base_name : kBaseNames) {
std::string jar_name = GetTestDexFileName(base_name);
ArrayRef<const std::string> dex_files(&jar_name, /*size=*/1u);
ScratchFile profile_file;
GenerateBootProfile(dex_files, profile_file.GetFile());
std::vector<std::string> extra_args = {
"--profile-file=" + profile_file.GetFilename(),
"--runtime-arg",
ART_FORMAT("-Xbootclasspath:{}:{}", base_bcp_string, jar_name),
"--runtime-arg",
ART_FORMAT("-Xbootclasspath-locations:{}:{}", base_bcp_locations_string, jar_name),
"--boot-image=" + base_image_location,
};
std::string prefix = GetFilenameBase(base_image_location);
std::string error_msg;
bool success =
CompileBootImage(extra_args, ART_FORMAT("{}/{}", image_dir, prefix), dex_files, &error_msg);
ASSERT_TRUE(success) << error_msg;
bcp.push_back(jar_name);
bcp_locations.push_back(jar_name);
extension_image_locations.push_back(scratch_dir + prefix + '-' + GetFilenameBase(jar_name) +
".art");
}
// Also compile the second extension as an app with app image.
const char* app_base_name = kBaseNames[std::size(kBaseNames) - 1u];
std::string app_jar_name = GetTestDexFileName(app_base_name);
std::string app_odex_name = scratch_dir + app_base_name + ".odex";
std::string app_image_name = scratch_dir + app_base_name + ".art";
{
ArrayRef<const std::string> dex_files(&app_jar_name, /*size=*/1u);
ScratchFile profile_file;
GenerateProfile(dex_files, profile_file.GetFile());
std::vector<std::string> argv;
std::string error_msg;
bool success = StartDex2OatCommandLine(&argv, &error_msg, /*use_runtime_bcp_and_image=*/false);
ASSERT_TRUE(success) << error_msg;
argv.insert(argv.end(),
{
"--profile-file=" + profile_file.GetFilename(),
"--runtime-arg",
"-Xbootclasspath:" + base_bcp_string,
"--runtime-arg",
"-Xbootclasspath-locations:" + base_bcp_locations_string,
"--boot-image=" + base_image_location,
"--dex-file=" + app_jar_name,
"--dex-location=" + app_jar_name,
"--oat-file=" + app_odex_name,
"--app-image-file=" + app_image_name,
"--initialize-app-image-classes=true",
});
success = RunDex2Oat(argv, &error_msg);
ASSERT_TRUE(success) << error_msg;
}
std::vector<std::string> full_image_locations;
std::vector<std::unique_ptr<gc::space::ImageSpace>> boot_image_spaces;
MemMap extra_reservation;
auto load_boot_image = [&]() REQUIRES_SHARED(Locks::mutator_lock_) {
boot_image_spaces.clear();
extra_reservation = MemMap::Invalid();
return ImageSpace::LoadBootImage(
bcp,
bcp_locations,
/*boot_class_path_files=*/{},
/*boot_class_path_image_files=*/{},
/*boot_class_path_vdex_files=*/{},
/*boot_class_path_oat_files=*/{},
full_image_locations,
kRuntimeISA,
/*relocate=*/false,
/*executable=*/true,
/*extra_reservation_size=*/0u,
/*allow_in_memory_compilation=*/false,
Runtime::GetApexVersions(ArrayRef<const std::string>(bcp_locations)),
&boot_image_spaces,
&extra_reservation);
};
const char test_string[] = "SharedBootImageExtensionTestString";
size_t test_string_length = std::size(test_string) - 1u; // Equals UTF-16 length.
uint32_t hash = InternTable::Utf8String::Hash(test_string_length, test_string);
InternTable::Utf8String utf8_test_string(test_string_length, test_string);
auto contains_test_string = [utf8_test_string,
hash](ImageSpace* space) REQUIRES_SHARED(Locks::mutator_lock_) {
const ImageHeader& image_header = space->GetImageHeader();
if (image_header.GetInternedStringsSection().Size() != 0u) {
const uint8_t* data = space->Begin() + image_header.GetInternedStringsSection().Offset();
size_t read_count;
InternTable::UnorderedSet temp_set(data, /*make_copy_of_data=*/false, &read_count);
return temp_set.FindWithHash(utf8_test_string, hash) != temp_set.end();
} else {
return false;
}
};
// Load extensions and test for the presence of the test string.
ScopedObjectAccess soa(Thread::Current());
ASSERT_EQ(2u, extension_image_locations.size());
full_image_locations = {
base_image_location, extension_image_locations[0], extension_image_locations[1]};
bool success = load_boot_image();
ASSERT_TRUE(success);
ASSERT_EQ(bcp.size(), boot_image_spaces.size());
EXPECT_TRUE(contains_test_string(boot_image_spaces[boot_image_spaces.size() - 2u].get()));
// The string in the second extension should be replaced and removed from interned string section.
EXPECT_FALSE(contains_test_string(boot_image_spaces[boot_image_spaces.size() - 1u].get()));
// Reload extensions in reverse order and test for the presence of the test string.
std::swap(bcp[bcp.size() - 2u], bcp[bcp.size() - 1u]);
std::swap(bcp_locations[bcp_locations.size() - 2u], bcp_locations[bcp_locations.size() - 1u]);
full_image_locations = {
base_image_location, extension_image_locations[1], extension_image_locations[0]};
success = load_boot_image();
ASSERT_TRUE(success);
ASSERT_EQ(bcp.size(), boot_image_spaces.size());
EXPECT_TRUE(contains_test_string(boot_image_spaces[boot_image_spaces.size() - 2u].get()));
// The string in the second extension should be replaced and removed from interned string section.
EXPECT_FALSE(contains_test_string(boot_image_spaces[boot_image_spaces.size() - 1u].get()));
// Reload the image without the second extension.
bcp.erase(bcp.end() - 2u);
bcp_locations.erase(bcp_locations.end() - 2u);
full_image_locations = {base_image_location, extension_image_locations[0]};
success = load_boot_image();
ASSERT_TRUE(success);
ASSERT_EQ(bcp.size(), boot_image_spaces.size());
ASSERT_TRUE(contains_test_string(boot_image_spaces[boot_image_spaces.size() - 1u].get()));
// Load the app odex file and app image.
std::string error_msg;
std::unique_ptr<OatFile> odex_file(OatFile::Open(/*zip_fd=*/-1,
app_odex_name,
app_odex_name,
/*executable=*/false,
/*low_4gb=*/false,
app_jar_name,
&error_msg));
ASSERT_TRUE(odex_file != nullptr) << error_msg;
std::vector<ImageSpace*> non_owning_boot_image_spaces =
MakeNonOwningPointerVector(boot_image_spaces);
std::unique_ptr<ImageSpace> app_image_space =
ImageSpace::CreateFromAppImage(app_image_name.c_str(),
odex_file.get(),
ArrayRef<ImageSpace* const>(non_owning_boot_image_spaces),
&error_msg);
ASSERT_TRUE(app_image_space != nullptr) << error_msg;
// The string in the app image should be replaced and removed from interned string section.
EXPECT_FALSE(contains_test_string(app_image_space.get()));
}
TEST_F(DexoptTest, ValidateOatFile) {
std::string dex1 = GetScratchDir() + "/Dex1.jar";
std::string multidex1 = GetScratchDir() + "/MultiDex1.jar";
std::string dex2 = GetScratchDir() + "/Dex2.jar";
std::string oat_location = GetScratchDir() + "/Oat.oat";
Copy(GetDexSrc1(), dex1);
Copy(GetMultiDexSrc1(), multidex1);
Copy(GetDexSrc2(), dex2);
std::string error_msg;
std::vector<std::string> args;
args.push_back("--dex-file=" + dex1);
args.push_back("--dex-file=" + multidex1);
args.push_back("--dex-file=" + dex2);
args.push_back("--oat-file=" + oat_location);
ASSERT_TRUE(Dex2Oat(args, &error_msg)) << error_msg;
std::unique_ptr<OatFile> oat(OatFile::Open(/*zip_fd=*/-1,
oat_location,
oat_location,
/*executable=*/false,
/*low_4gb=*/false,
&error_msg));
ASSERT_TRUE(oat != nullptr) << error_msg;
{
// Test opening the oat file also with explicit dex filenames.
std::vector<std::string> dex_filenames{dex1, multidex1, dex2};
std::unique_ptr<OatFile> oat2(OatFile::Open(/*zip_fd=*/-1,
oat_location,
oat_location,
/*executable=*/false,
/*low_4gb=*/false,
ArrayRef<const std::string>(dex_filenames),
/*dex_files=*/{},
/*reservation=*/nullptr,
&error_msg));
ASSERT_TRUE(oat2 != nullptr) << error_msg;
}
// Originally all the dex checksums should be up to date.
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Invalidate the dex1 checksum.
Copy(GetDexSrc2(), dex1);
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
// Restore the dex1 checksum.
Copy(GetDexSrc1(), dex1);
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Invalidate the non-main multidex checksum.
Copy(GetMultiDexSrc2(), multidex1);
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
// Restore the multidex checksum.
Copy(GetMultiDexSrc1(), multidex1);
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Invalidate the dex2 checksum.
Copy(GetDexSrc1(), dex2);
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
// restore the dex2 checksum.
Copy(GetDexSrc2(), dex2);
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Replace the multidex file with a non-multidex file.
Copy(GetDexSrc1(), multidex1);
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
// Restore the multidex file
Copy(GetMultiDexSrc1(), multidex1);
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Replace dex1 with a multidex file.
Copy(GetMultiDexSrc1(), dex1);
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
// Restore the dex1 file.
Copy(GetDexSrc1(), dex1);
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Remove the dex2 file.
EXPECT_EQ(0, unlink(dex2.c_str()));
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
// Restore the dex2 file.
Copy(GetDexSrc2(), dex2);
EXPECT_TRUE(ImageSpace::ValidateOatFile(*oat, &error_msg)) << error_msg;
// Remove the multidex file.
EXPECT_EQ(0, unlink(multidex1.c_str()));
EXPECT_FALSE(ImageSpace::ValidateOatFile(*oat, &error_msg));
}
template <bool kImage, bool kRelocate>
class ImageSpaceLoadingTest : public CommonRuntimeTest {
protected:
void SetUpRuntimeOptions(RuntimeOptions* options) override {
missing_image_base_ = std::make_unique<ScratchFile>();
std::string image_location = PrepareImageLocation();
options->emplace_back(android::base::StringPrintf("-Ximage:%s", image_location.c_str()),
nullptr);
options->emplace_back(kRelocate ? "-Xrelocate" : "-Xnorelocate", nullptr);
options->emplace_back("-Xallowinmemorycompilation", nullptr);
// We want to test the relocation behavior of ImageSpace. As such, don't pretend we're a
// compiler.
callbacks_.reset();
// Clear DEX2OATBOOTCLASSPATH environment variable used for boot image compilation.
// We don't want that environment variable to affect the behavior of this test.
CHECK(old_dex2oat_bcp_ == nullptr);
const char* old_dex2oat_bcp = getenv("DEX2OATBOOTCLASSPATH");
if (old_dex2oat_bcp != nullptr) {
old_dex2oat_bcp_.reset(strdup(old_dex2oat_bcp));
CHECK(old_dex2oat_bcp_ != nullptr);
unsetenv("DEX2OATBOOTCLASSPATH");
}
}
void TearDown() override {
if (old_dex2oat_bcp_ != nullptr) {
int result = setenv("DEX2OATBOOTCLASSPATH", old_dex2oat_bcp_.get(), /* replace */ 0);
CHECK_EQ(result, 0);
old_dex2oat_bcp_.reset();
}
missing_image_base_.reset();
}
virtual std::string PrepareImageLocation() {
std::string image_location = GetCoreArtLocation();
if (!kImage) {
image_location = missing_image_base_->GetFilename() + ".art";
}
return image_location;
}
void CheckImageSpaceAndOatFile(size_t space_count) {
const std::vector<ImageSpace*>& image_spaces =
Runtime::Current()->GetHeap()->GetBootImageSpaces();
ASSERT_EQ(image_spaces.size(), space_count);
for (size_t i = 0; i < space_count; i++) {
// This test does not support multi-image compilation.
ASSERT_NE(image_spaces[i]->GetImageHeader().GetImageReservationSize(), 0u);
const OatFile* oat_file = image_spaces[i]->GetOatFile();
ASSERT_TRUE(oat_file != nullptr);
// Compiled by JIT Zygote.
EXPECT_EQ(oat_file->GetCompilerFilter(), CompilerFilter::Filter::kVerify);
}
}
std::unique_ptr<ScratchFile> missing_image_base_;
private:
UniqueCPtr<const char[]> old_dex2oat_bcp_;
};
using ImageSpaceNoDex2oatTest = ImageSpaceLoadingTest</*kImage=*/true, /*kRelocate=*/true>;
TEST_F(ImageSpaceNoDex2oatTest, Test) {
EXPECT_FALSE(Runtime::Current()->GetHeap()->GetBootImageSpaces().empty());
}
using ImageSpaceNoRelocateNoDex2oatTest =
ImageSpaceLoadingTest</*kImage=*/true, /*kRelocate=*/false>;
TEST_F(ImageSpaceNoRelocateNoDex2oatTest, Test) {
EXPECT_FALSE(Runtime::Current()->GetHeap()->GetBootImageSpaces().empty());
}
using ImageSpaceNoImageNoProfileTest = ImageSpaceLoadingTest</*kImage=*/false, /*kRelocate=*/true>;
TEST_F(ImageSpaceNoImageNoProfileTest, Test) {
// Imageless mode.
EXPECT_TRUE(Runtime::Current()->GetHeap()->GetBootImageSpaces().empty());
}
class ImageSpaceLoadingSingleComponentWithProfilesTest
: public ImageSpaceLoadingTest</*kImage=*/false, /*kRelocate=*/true> {
protected:
std::string PrepareImageLocation() override {
std::string image_location = missing_image_base_->GetFilename() + ".art";
// Compiling the primary boot image into a single image is not allowed on host.
if (kIsTargetBuild) {
std::vector<std::string> dex_files(GetLibCoreDexFileNames());
profile1_ = std::make_unique<ScratchFile>();
GenerateBootProfile(ArrayRef<const std::string>(dex_files),
profile1_->GetFile(),
/*method_frequency=*/6,
/*type_frequency=*/6);
profile2_ = std::make_unique<ScratchFile>();
GenerateBootProfile(ArrayRef<const std::string>(dex_files),
profile2_->GetFile(),
/*method_frequency=*/8,
/*type_frequency=*/8);
image_location += "!" + profile1_->GetFilename() + "!" + profile2_->GetFilename();
}
// "/path/to/image.art!/path/to/profile1!/path/to/profile2"
return image_location;
}
private:
std::unique_ptr<ScratchFile> profile1_;
std::unique_ptr<ScratchFile> profile2_;
};
TEST_F(ImageSpaceLoadingSingleComponentWithProfilesTest, Test) {
// Compiling the primary boot image into a single image is not allowed on host.
TEST_DISABLED_FOR_HOST();
CheckImageSpaceAndOatFile(/*space_count=*/1);
}
class ImageSpaceLoadingMultipleComponentsWithProfilesTest
: public ImageSpaceLoadingTest</*kImage=*/false, /*kRelocate=*/true> {
protected:
std::string PrepareImageLocation() override {
std::vector<std::string> dex_files(GetLibCoreDexFileNames());
CHECK_GE(dex_files.size(), 2);
std::string image_location_1 = missing_image_base_->GetFilename() + ".art";
std::string image_location_2 =
missing_image_base_->GetFilename() + "-" + Stem(dex_files[dex_files.size() - 1]) + ".art";
// Compiling the primary boot image into a single image is not allowed on host.
if (kIsTargetBuild) {
profile1_ = std::make_unique<ScratchFile>();
GenerateBootProfile(ArrayRef<const std::string>(dex_files).SubArray(
/*pos=*/0, /*length=*/dex_files.size() - 1),
profile1_->GetFile(),
/*method_frequency=*/6,
/*type_frequency=*/6);
image_location_1 += "!" + profile1_->GetFilename();
profile2_ = std::make_unique<ScratchFile>();
GenerateBootProfile(ArrayRef<const std::string>(dex_files).SubArray(
/*pos=*/dex_files.size() - 1, /*length=*/1),
profile2_->GetFile(),
/*method_frequency=*/8,
/*type_frequency=*/8);
image_location_2 += "!" + profile2_->GetFilename();
}
// "/path/to/image.art!/path/to/profile1:/path/to/image-lastdex.art!/path/to/profile2"
return image_location_1 + ":" + image_location_2;
}
std::string Stem(std::string filename) {
size_t last_slash = filename.rfind('/');
if (last_slash != std::string::npos) {
filename = filename.substr(last_slash + 1);
}
size_t last_dot = filename.rfind('.');
if (last_dot != std::string::npos) {
filename.resize(last_dot);
}
return filename;
}
private:
std::unique_ptr<ScratchFile> profile1_;
std::unique_ptr<ScratchFile> profile2_;
};
TEST_F(ImageSpaceLoadingMultipleComponentsWithProfilesTest, Test) {
// Compiling the primary boot image into a single image is not allowed on host.
TEST_DISABLED_FOR_HOST();
CheckImageSpaceAndOatFile(/*space_count=*/1);
}
} // namespace space
} // namespace gc
} // namespace art