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/*
* Copyright (C) 2021 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 "odrefresh.h"
#include <unistd.h>
#include <functional>
#include <memory>
#include <string_view>
#include <utility>
#include <vector>
#include "android-base/file.h"
#include "android-base/parseint.h"
#include "android-base/scopeguard.h"
#include "android-base/stringprintf.h"
#include "android-base/strings.h"
#include "arch/instruction_set.h"
#include "base/common_art_test.h"
#include "base/file_utils.h"
#include "base/stl_util.h"
#include "exec_utils.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "odr_artifacts.h"
#include "odr_common.h"
#include "odr_config.h"
#include "odr_fs_utils.h"
#include "odr_metrics.h"
#include "odrefresh/odrefresh.h"
namespace art {
namespace odrefresh {
using ::testing::_;
using ::testing::AllOf;
using ::testing::Contains;
using ::testing::HasSubstr;
using ::testing::Not;
using ::testing::Return;
constexpr int kReplace = 1;
void CreateEmptyFile(const std::string& name) {
File* file = OS::CreateEmptyFile(name.c_str());
ASSERT_TRUE(file != nullptr) << "Cannot create file " << name;
file->Release();
delete file;
}
android::base::ScopeGuard<std::function<void()>> ScopedCreateEmptyFile(const std::string& name) {
CreateEmptyFile(name);
return android::base::ScopeGuard([=]() { unlink(name.c_str()); });
}
class MockExecUtils : public ExecUtils {
public:
// A workaround to avoid MOCK_METHOD on a method with an `std::string*` parameter, which will lead
// to a conflict between gmock and android-base/logging.h (b/132668253).
int ExecAndReturnCode(std::vector<std::string>& arg_vector,
time_t,
bool*,
std::string*) const override {
return DoExecAndReturnCode(arg_vector);
}
MOCK_METHOD(int, DoExecAndReturnCode, (std::vector<std::string> & arg_vector), (const));
};
// Matches a flag that starts with `flag` and is a colon-separated list that contains an element
// that matches `matcher`.
MATCHER_P2(FlagContains, flag, matcher, "") {
std::string_view value = arg;
if (!android::base::ConsumePrefix(&value, flag)) {
return false;
}
for (std::string_view s : SplitString(value, ':')) {
if (ExplainMatchResult(matcher, s, result_listener)) {
return true;
}
}
return false;
}
// Matches an FD of a file whose path matches `matcher`.
MATCHER_P(FdOf, matcher, "") {
char path[PATH_MAX];
int fd;
if (!android::base::ParseInt(std::string{arg}, &fd)) {
return false;
}
std::string proc_path = android::base::StringPrintf("/proc/self/fd/%d", fd);
ssize_t len = readlink(proc_path.c_str(), path, sizeof(path));
if (len < 0) {
return false;
}
std::string path_str{path, static_cast<size_t>(len)};
return ExplainMatchResult(matcher, path_str, result_listener);
}
void WriteFakeApexInfoList(const std::string& filename) {
std::string content = R"xml(
<?xml version="1.0" encoding="utf-8"?>
<apex-info-list>
<apex-info
moduleName="com.android.art"
modulePath="/data/apex/active/com.android.art@319999900.apex"
preinstalledModulePath="/system/apex/com.android.art.capex"
versionCode="319999900"
versionName=""
isFactory="false"
isActive="true"
lastUpdateMillis="12345678">
</apex-info>
</apex-info-list>
)xml";
android::base::WriteStringToFile(content, filename);
}
class OdRefreshTest : public CommonArtTest {
public:
OdRefreshTest() : config_("odrefresh") {}
protected:
void SetUp() override {
CommonArtTest::SetUp();
temp_dir_ = std::make_unique<ScratchDir>();
std::string_view temp_dir_path = temp_dir_->GetPath();
android::base::ConsumeSuffix(&temp_dir_path, "/");
std::string android_root_path = Concatenate({temp_dir_path, "/system"});
ASSERT_TRUE(EnsureDirectoryExists(android_root_path));
android_root_env_ = std::make_unique<ScopedUnsetEnvironmentVariable>("ANDROID_ROOT");
setenv("ANDROID_ROOT", android_root_path.c_str(), kReplace);
std::string android_art_root_path = Concatenate({temp_dir_path, "/apex/com.android.art"});
ASSERT_TRUE(EnsureDirectoryExists(android_art_root_path));
android_art_root_env_ = std::make_unique<ScopedUnsetEnvironmentVariable>("ANDROID_ART_ROOT");
setenv("ANDROID_ART_ROOT", android_art_root_path.c_str(), kReplace);
std::string art_apex_data_path = Concatenate({temp_dir_path, kArtApexDataDefaultPath});
ASSERT_TRUE(EnsureDirectoryExists(art_apex_data_path));
art_apex_data_env_ = std::make_unique<ScopedUnsetEnvironmentVariable>("ART_APEX_DATA");
setenv("ART_APEX_DATA", art_apex_data_path.c_str(), kReplace);
dalvik_cache_dir_ = art_apex_data_path + "/dalvik-cache";
ASSERT_TRUE(EnsureDirectoryExists(dalvik_cache_dir_ + "/x86_64"));
std::string system_etc_dir = Concatenate({android_root_path, "/etc"});
ASSERT_TRUE(EnsureDirectoryExists(system_etc_dir));
framework_profile_ = system_etc_dir + "/boot-image.prof";
CreateEmptyFile(framework_profile_);
std::string art_etc_dir = Concatenate({android_art_root_path, "/etc"});
ASSERT_TRUE(EnsureDirectoryExists(art_etc_dir));
art_profile_ = art_etc_dir + "/boot-image.prof";
CreateEmptyFile(art_profile_);
framework_dir_ = android_root_path + "/framework";
framework_jar_ = framework_dir_ + "/framework.jar";
location_provider_jar_ = framework_dir_ + "/com.android.location.provider.jar";
services_jar_ = framework_dir_ + "/services.jar";
services_foo_jar_ = framework_dir_ + "/services-foo.jar";
services_bar_jar_ = framework_dir_ + "/services-bar.jar";
std::string services_jar_prof = framework_dir_ + "/services.jar.prof";
art_javalib_dir_ = android_art_root_path + "/javalib";
core_oj_jar_ = art_javalib_dir_ + "/core-oj.jar";
// Create placeholder files.
ASSERT_TRUE(EnsureDirectoryExists(framework_dir_ + "/x86_64"));
CreateEmptyFile(framework_jar_);
CreateEmptyFile(location_provider_jar_);
CreateEmptyFile(services_jar_);
CreateEmptyFile(services_foo_jar_);
CreateEmptyFile(services_bar_jar_);
CreateEmptyFile(services_jar_prof);
ASSERT_TRUE(EnsureDirectoryExists(art_javalib_dir_));
CreateEmptyFile(core_oj_jar_);
std::string apex_info_filename = Concatenate({temp_dir_path, "/apex-info-list.xml"});
WriteFakeApexInfoList(apex_info_filename);
config_.SetApexInfoListFile(apex_info_filename);
config_.SetArtBinDir(Concatenate({temp_dir_path, "/bin"}));
config_.SetBootClasspath(Concatenate({core_oj_jar_, ":", framework_jar_}));
config_.SetDex2oatBootclasspath(Concatenate({core_oj_jar_, ":", framework_jar_}));
config_.SetSystemServerClasspath(Concatenate({location_provider_jar_, ":", services_jar_}));
config_.SetStandaloneSystemServerJars(Concatenate({services_foo_jar_, ":", services_bar_jar_}));
config_.SetIsa(InstructionSet::kX86_64);
config_.SetZygoteKind(ZygoteKind::kZygote64_32);
config_.SetSystemServerCompilerFilter("speed"); // specify a default
config_.SetArtifactDirectory(dalvik_cache_dir_);
std::string staging_dir = dalvik_cache_dir_ + "/staging";
ASSERT_TRUE(EnsureDirectoryExists(staging_dir));
config_.SetStagingDir(staging_dir);
auto mock_exec_utils = std::make_unique<MockExecUtils>();
mock_exec_utils_ = mock_exec_utils.get();
metrics_ = std::make_unique<OdrMetrics>(dalvik_cache_dir_);
odrefresh_ = std::make_unique<OnDeviceRefresh>(
config_, dalvik_cache_dir_ + "/cache-info.xml", std::move(mock_exec_utils));
}
void TearDown() override {
metrics_.reset();
temp_dir_.reset();
android_root_env_.reset();
android_art_root_env_.reset();
art_apex_data_env_.reset();
CommonArtTest::TearDown();
}
std::unique_ptr<ScratchDir> temp_dir_;
std::unique_ptr<ScopedUnsetEnvironmentVariable> android_root_env_;
std::unique_ptr<ScopedUnsetEnvironmentVariable> android_art_root_env_;
std::unique_ptr<ScopedUnsetEnvironmentVariable> art_apex_data_env_;
OdrConfig config_;
MockExecUtils* mock_exec_utils_;
std::unique_ptr<OnDeviceRefresh> odrefresh_;
std::unique_ptr<OdrMetrics> metrics_;
std::string core_oj_jar_;
std::string framework_jar_;
std::string location_provider_jar_;
std::string services_jar_;
std::string services_foo_jar_;
std::string services_bar_jar_;
std::string dalvik_cache_dir_;
std::string framework_dir_;
std::string art_javalib_dir_;
std::string framework_profile_;
std::string art_profile_;
};
TEST_F(OdRefreshTest, BootClasspathJars) {
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", core_oj_jar_})),
Contains(Concatenate({"--dex-file=", framework_jar_})),
Contains(FlagContains("--dex-fd=", FdOf(core_oj_jar_))),
Contains(FlagContains("--dex-fd=", FdOf(framework_jar_))),
Contains(FlagContains("--profile-file-fd=", FdOf(art_profile_))),
Contains(FlagContains("--profile-file-fd=", FdOf(framework_profile_))),
Contains(Concatenate({"--oat-location=", dalvik_cache_dir_, "/x86_64/boot.oat"})),
Contains(HasSubstr("--base=")),
Contains("--compiler-filter=speed-profile"))))
.WillOnce(Return(0));
EXPECT_EQ(odrefresh_->Compile(*metrics_,
CompilationOptions{
.compile_boot_classpath_for_isas = {InstructionSet::kX86_64},
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, BootClasspathJarsFallback) {
// Simulate the case where dex2oat fails when generating the full boot image.
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", core_oj_jar_})),
Contains(Concatenate({"--dex-file=", framework_jar_})))))
.Times(2)
.WillRepeatedly(Return(1));
// It should fall back to generating a minimal boot image.
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", core_oj_jar_})),
Not(Contains(Concatenate({"--dex-file=", framework_jar_}))))))
.Times(2)
.WillOnce(Return(0));
EXPECT_EQ(
odrefresh_->Compile(
*metrics_,
CompilationOptions{
.compile_boot_classpath_for_isas = {InstructionSet::kX86, InstructionSet::kX86_64},
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationFailed);
}
TEST_F(OdRefreshTest, AllSystemServerJars) {
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", location_provider_jar_})),
Contains("--class-loader-context=PCL[]"))))
.WillOnce(Return(0));
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", services_jar_})),
Contains(Concatenate({"--class-loader-context=PCL[", location_provider_jar_,
"]"})))))
.WillOnce(Return(0));
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", services_foo_jar_})),
Contains(Concatenate({"--class-loader-context=PCL[];PCL[", location_provider_jar_,
":", services_jar_, "]"})))))
.WillOnce(Return(0));
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", services_bar_jar_})),
Contains(Concatenate({"--class-loader-context=PCL[];PCL[", location_provider_jar_,
":", services_jar_, "]"})))))
.WillOnce(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, PartialSystemServerJars) {
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", services_jar_})),
Contains(Concatenate({"--class-loader-context=PCL[", location_provider_jar_, "]"})))))
.WillOnce(Return(0));
EXPECT_CALL(*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--dex-file=", services_bar_jar_})),
Contains(Concatenate({"--class-loader-context=PCL[];PCL[", location_provider_jar_,
":", services_jar_, "]"})))))
.WillOnce(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = {services_jar_, services_bar_jar_},
}),
ExitCode::kCompilationSuccess);
}
// Verifies that odrefresh can run properly when the STANDALONE_SYSTEM_SERVER_JARS variable is
// missing, which is expected on Android S.
TEST_F(OdRefreshTest, MissingStandaloneSystemServerJars) {
config_.SetStandaloneSystemServerJars("");
EXPECT_CALL(*mock_exec_utils_, DoExecAndReturnCode(_)).WillRepeatedly(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, CompileSetsCompilerFilterToSpeed) {
// Test setup: use "speed" compiler filter.
config_.SetSystemServerCompilerFilter("speed");
// Uninteresting calls.
EXPECT_CALL(
*mock_exec_utils_, DoExecAndReturnCode(_))
.Times(odrefresh_->AllSystemServerJars().size() - 2)
.WillRepeatedly(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", location_provider_jar_})),
Not(Contains(HasSubstr("--profile-file-fd="))),
Contains("--compiler-filter=speed"))))
.WillOnce(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", services_jar_})),
Not(Contains(HasSubstr("--profile-file-fd="))),
Contains("--compiler-filter=speed"))))
.WillOnce(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, CompileSetsCompilerFilterToSpeedProfile) {
// Test setup: with "speed-profile" compiler filter in the request, only apply if there is a
// profile, otherwise fallback to speed.
config_.SetSystemServerCompilerFilter("speed-profile");
// Uninteresting calls.
EXPECT_CALL(
*mock_exec_utils_, DoExecAndReturnCode(_))
.Times(odrefresh_->AllSystemServerJars().size() - 2)
.WillRepeatedly(Return(0));
// services.jar has a profile, while location.provider.jar does not.
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", location_provider_jar_})),
Not(Contains(HasSubstr("--profile-file-fd="))),
Contains("--compiler-filter=speed"))))
.WillOnce(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", services_jar_})),
Contains(HasSubstr("--profile-file-fd=")),
Contains("--compiler-filter=speed-profile"))))
.WillOnce(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, CompileSetsCompilerFilterToVerify) {
// Test setup: use "speed" compiler filter.
config_.SetSystemServerCompilerFilter("verify");
// Uninteresting calls.
EXPECT_CALL(
*mock_exec_utils_, DoExecAndReturnCode(_))
.Times(odrefresh_->AllSystemServerJars().size() - 2)
.WillRepeatedly(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", location_provider_jar_})),
Not(Contains(HasSubstr("--profile-file-fd="))),
Contains("--compiler-filter=verify"))))
.WillOnce(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains(Concatenate({"--dex-file=", services_jar_})),
Not(Contains(HasSubstr("--profile-file-fd="))),
Contains("--compiler-filter=verify"))))
.WillOnce(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, OutputFilesAndIsa) {
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains("--instruction-set=x86_64"),
Contains(HasSubstr("--image-fd=")),
Contains(HasSubstr("--output-vdex-fd=")),
Contains(HasSubstr("--oat-fd=")))))
.WillOnce(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(Contains("--instruction-set=x86_64"),
Contains(HasSubstr("--app-image-fd=")),
Contains(HasSubstr("--output-vdex-fd=")),
Contains(HasSubstr("--oat-fd=")))))
.Times(odrefresh_->AllSystemServerJars().size())
.WillRepeatedly(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.compile_boot_classpath_for_isas = {InstructionSet::kX86_64},
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, CompileChoosesBootImage_OnData) {
// Boot image is on /data.
OdrArtifacts artifacts = OdrArtifacts::ForBootImage(dalvik_cache_dir_ + "/x86_64/boot.art");
auto file1 = ScopedCreateEmptyFile(artifacts.ImagePath());
auto file2 = ScopedCreateEmptyFile(artifacts.VdexPath());
auto file3 = ScopedCreateEmptyFile(artifacts.OatPath());
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--boot-image=", dalvik_cache_dir_, "/boot.art"})),
Contains(FlagContains("-Xbootclasspathimagefds:", FdOf(artifacts.ImagePath()))),
Contains(FlagContains("-Xbootclasspathvdexfds:", FdOf(artifacts.VdexPath()))),
Contains(FlagContains("-Xbootclasspathoatfds:", FdOf(artifacts.OatPath()))))))
.Times(odrefresh_->AllSystemServerJars().size())
.WillRepeatedly(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
TEST_F(OdRefreshTest, CompileChoosesBootImage_OnSystem) {
// Boot image is on /system.
OdrArtifacts artifacts =
OdrArtifacts::ForBootImage(framework_dir_ + "/x86_64/boot-framework.art");
auto file1 = ScopedCreateEmptyFile(artifacts.ImagePath());
auto file2 = ScopedCreateEmptyFile(artifacts.VdexPath());
auto file3 = ScopedCreateEmptyFile(artifacts.OatPath());
// Ignore the execution for compiling the boot classpath.
EXPECT_CALL(
*mock_exec_utils_, DoExecAndReturnCode(Contains(HasSubstr("--image-fd="))))
.WillRepeatedly(Return(0));
EXPECT_CALL(
*mock_exec_utils_,
DoExecAndReturnCode(AllOf(
Contains(Concatenate({"--boot-image=",
GetPrebuiltPrimaryBootImageDir(), "/boot.art:",
framework_dir_, "/boot-framework.art"})),
Contains(FlagContains("-Xbootclasspathimagefds:", FdOf(artifacts.ImagePath()))),
Contains(FlagContains("-Xbootclasspathvdexfds:", FdOf(artifacts.VdexPath()))),
Contains(FlagContains("-Xbootclasspathoatfds:", FdOf(artifacts.OatPath()))))))
.Times(odrefresh_->AllSystemServerJars().size())
.WillRepeatedly(Return(0));
EXPECT_EQ(
odrefresh_->Compile(*metrics_,
CompilationOptions{
.system_server_jars_to_compile = odrefresh_->AllSystemServerJars(),
}),
ExitCode::kCompilationSuccess);
}
} // namespace odrefresh
} // namespace art