Gitiles
Code Review Sign In
LeafOS / LeafOS-Project / android_art / d90291b46b808946ad99a94a2f2992431fbc8c83 / . / odrefresh / odrefresh.cc
blob: e0720ca3ad34b9bdbb3501cfe3741f8a504406ab [file] [log] [blame]
/*
* Copyright (C) 2020 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/odrefresh.h"
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <limits.h>
#include <stdio.h>
#include <string.h>
#include <sys/stat.h>
#include <sysexits.h>
#include <time.h>
#include <unistd.h>
#include <algorithm>
#include <cstdarg>
#include <cstdint>
#include <cstdlib>
#include <fstream>
#include <initializer_list>
#include <iosfwd>
#include <iostream>
#include <memory>
#include <optional>
#include <ostream>
#include <sstream>
#include <string>
#include <string_view>
#include <type_traits>
#include <utility>
#include <vector>
#include "android-base/file.h"
#include "android-base/logging.h"
#include "android-base/macros.h"
#include "android-base/properties.h"
#include "android-base/stringprintf.h"
#include "android-base/strings.h"
#include "android/log.h"
#include "arch/instruction_set.h"
#include "base/file_utils.h"
#include "base/globals.h"
#include "base/macros.h"
#include "base/os.h"
#include "base/string_view_cpp20.h"
#include "base/unix_file/fd_file.h"
#include "com_android_apex.h"
#include "com_android_art.h"
#include "dex/art_dex_file_loader.h"
#include "dexoptanalyzer.h"
#include "exec_utils.h"
#include "log/log.h"
#include "palette/palette.h"
#include "palette/palette_types.h"
#include "odr_artifacts.h"
#include "odr_config.h"
#include "odr_fs_utils.h"
#include "odr_metrics.h"
namespace art {
namespace odrefresh {
namespace apex = com::android::apex;
namespace art_apex = com::android::art;
namespace {
// Name of cache info file in the ART Apex artifact cache.
static constexpr const char* kCacheInfoFile = "cache-info.xml";
static void UsageErrorV(const char* fmt, va_list ap) {
std::string error;
android::base::StringAppendV(&error, fmt, ap);
if (isatty(fileno(stderr))) {
std::cerr << error << std::endl;
} else {
LOG(ERROR) << error;
}
}
static void UsageError(const char* fmt, ...) {
va_list ap;
va_start(ap, fmt);
UsageErrorV(fmt, ap);
va_end(ap);
}
NO_RETURN static void ArgumentError(const char* fmt, ...) {
va_list ap;
va_start(ap, fmt);
UsageErrorV(fmt, ap);
va_end(ap);
UsageError("Try '--help' for more information.");
exit(EX_USAGE);
}
NO_RETURN static void UsageHelp(const char* argv0) {
std::string name(android::base::Basename(argv0));
UsageError("Usage: %s ACTION", name.c_str());
UsageError("On-device refresh tool for boot class path extensions and system server");
UsageError("following an update of the ART APEX.");
UsageError("");
UsageError("Valid ACTION choices are:");
UsageError("");
UsageError(
"--check Check compilation artifacts are up-to-date based on metadata (fast).");
UsageError("--compile Compile boot class path extensions and system_server jars");
UsageError(" when necessary.");
UsageError("--force-compile Unconditionally compile the boot class path extensions and");
UsageError(" system_server jars.");
UsageError("--verify Verify artifacts are up-to-date with dexoptanalyzer (slow).");
UsageError("--help Display this help information.");
exit(EX_USAGE);
}
static std::string Concatenate(std::initializer_list<std::string_view> args) {
std::stringstream ss;
for (auto arg : args) {
ss << arg;
}
return ss.str();
}
static std::string GetEnvironmentVariableOrDie(const char* name) {
const char* value = getenv(name);
LOG_ALWAYS_FATAL_IF(value == nullptr, "%s is not defined.", name);
return value;
}
static std::string QuotePath(std::string_view path) {
return Concatenate({"'", path, "'"});
}
static void EraseFiles(const std::vector<std::unique_ptr<File>>& files) {
for (auto& file : files) {
file->Erase(/*unlink=*/true);
}
}
// Moves `files` to the directory `output_directory_path`.
//
// If any of the files cannot be moved, then all copies of the files are removed from both
// the original location and the output location.
//
// Returns true if all files are moved, false otherwise.
static bool MoveOrEraseFiles(const std::vector<std::unique_ptr<File>>& files,
std::string_view output_directory_path) {
std::vector<std::unique_ptr<File>> output_files;
for (auto& file : files) {
const std::string file_basename(android::base::Basename(file->GetPath()));
const std::string output_file_path = Concatenate({output_directory_path, "/", file_basename});
const std::string input_file_path = file->GetPath();
output_files.emplace_back(OS::CreateEmptyFileWriteOnly(output_file_path.c_str()));
if (output_files.back() == nullptr) {
PLOG(ERROR) << "Failed to open " << QuotePath(output_file_path);
output_files.pop_back();
EraseFiles(output_files);
EraseFiles(files);
return false;
}
static constexpr mode_t kFileMode = S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH;
if (fchmod(output_files.back()->Fd(), kFileMode) != 0) {
PLOG(ERROR) << "Could not set file mode on " << QuotePath(output_file_path);
EraseFiles(output_files);
EraseFiles(files);
return false;
}
const size_t file_bytes = file->GetLength();
if (!output_files.back()->Copy(file.get(), /*offset=*/0, file_bytes)) {
PLOG(ERROR) << "Failed to copy " << QuotePath(file->GetPath())
<< " to " << QuotePath(output_file_path);
EraseFiles(output_files);
EraseFiles(files);
return false;
}
if (!file->Erase(/*unlink=*/true)) {
PLOG(ERROR) << "Failed to erase " << QuotePath(file->GetPath());
EraseFiles(output_files);
EraseFiles(files);
return false;
}
if (output_files.back()->FlushCloseOrErase() != 0) {
PLOG(ERROR) << "Failed to flush and close file " << QuotePath(output_file_path);
EraseFiles(output_files);
EraseFiles(files);
return false;
}
}
return true;
}
} // namespace
bool ParseZygoteKind(const char* input, ZygoteKind* zygote_kind) {
std::string_view z(input);
if (z == "zygote32") {
*zygote_kind = ZygoteKind::kZygote32;
return true;
} else if (z == "zygote32_64") {
*zygote_kind = ZygoteKind::kZygote32_64;
return true;
} else if (z == "zygote64_32") {
*zygote_kind = ZygoteKind::kZygote64_32;
return true;
} else if (z == "zygote64") {
*zygote_kind = ZygoteKind::kZygote64;
return true;
}
return false;
}
class OnDeviceRefresh final {
private:
// Maximum execution time for odrefresh from start to end.
static constexpr time_t kMaximumExecutionSeconds = 300;
// Maximum execution time for any child process spawned.
static constexpr time_t kMaxChildProcessSeconds = 90;
// Configuration to use.
const OdrConfig& config_;
// Path to cache information file that is used to speed up artifact checking.
const std::string cache_info_filename_;
// List of boot extension components that should be compiled.
std::vector<std::string> boot_extension_compilable_jars_;
// List of system_server components that should be compiled.
std::vector<std::string> systemserver_compilable_jars_;
const time_t start_time_;
public:
explicit OnDeviceRefresh(const OdrConfig& config)
: config_{config},
cache_info_filename_{Concatenate({kOdrefreshArtifactDirectory, "/", kCacheInfoFile})},
start_time_{time(nullptr)} {
for (const std::string& jar : android::base::Split(config_.GetDex2oatBootClasspath(), ":")) {
// Boot class path extensions are those not in the ART APEX. Updatable APEXes should not
// have DEX files in the DEX2OATBOOTCLASSPATH. At the time of writing i18n is a non-updatable
// APEX and so does appear in the DEX2OATBOOTCLASSPATH.
if (!LocationIsOnArtModule(jar)) {
boot_extension_compilable_jars_.emplace_back(jar);
}
}
for (const std::string& jar : android::base::Split(config_.GetSystemServerClasspath(), ":")) {
// Only consider DEX files on the SYSTEMSERVERCLASSPATH for compilation that do not reside
// in APEX modules. Otherwise, we'll recompile on boot any time one of these APEXes updates.
if (!LocationIsOnApex(jar)) {
systemserver_compilable_jars_.emplace_back(jar);
}
}
}
time_t GetExecutionTimeUsed() const { return time(nullptr) - start_time_; }
time_t GetExecutionTimeRemaining() const {
return kMaximumExecutionSeconds - GetExecutionTimeUsed();
}
time_t GetSubprocessTimeout() const {
return std::max(GetExecutionTimeRemaining(), kMaxChildProcessSeconds);
}
// Gets the `ApexInfo` associated with the currently active ART APEX.
std::optional<apex::ApexInfo> GetArtApexInfo() const {
auto info_list = apex::readApexInfoList(config_.GetApexInfoListFile().c_str());
if (!info_list.has_value()) {
return {};
}
for (const apex::ApexInfo& info : info_list->getApexInfo()) {
if (info.getIsActive() && info.getModuleName() == "com.android.art") {
return info;
}
}
return {};
}
// Reads the ART APEX cache information (if any) found in `kOdrefreshArtifactDirectory`.
std::optional<art_apex::CacheInfo> ReadCacheInfo() {
return art_apex::read(cache_info_filename_.c_str());
}
// Write ART APEX cache information to `kOdrefreshArtifactDirectory`.
void WriteCacheInfo() const {
if (OS::FileExists(cache_info_filename_.c_str())) {
if (unlink(cache_info_filename_.c_str()) != 0) {
PLOG(ERROR) << "Failed to unlink() file " << QuotePath(cache_info_filename_);
}
}
const std::string dir_name = android::base::Dirname(cache_info_filename_);
if (!EnsureDirectoryExists(dir_name)) {
LOG(ERROR) << "Could not create directory: " << QuotePath(dir_name);
return;
}
std::optional<art_apex::ArtModuleInfo> art_module_info = GenerateArtModuleInfo();
if (!art_module_info.has_value()) {
LOG(ERROR) << "Unable to generate cache provenance";
return;
}
// There can be only one CacheProvence in the XML file, but `xsdc` does not have
// minOccurs/maxOccurs in the xsd schema.
const std::vector<art_apex::ArtModuleInfo> art_module_infos { art_module_info.value() };
std::optional<std::vector<art_apex::Component>> bcp_components =
GenerateBootExtensionComponents();
if (!bcp_components.has_value()) {
LOG(ERROR) << "No boot classpath extension components.";
return;
}
std::optional<std::vector<art_apex::Component>> system_server_components =
GenerateSystemServerComponents();
if (!system_server_components.has_value()) {
LOG(ERROR) << "No system_server extension components.";
return;
}
std::ofstream out(cache_info_filename_.c_str());
art_apex::CacheInfo info{art_module_infos,
{{art_apex::Dex2oatBootClasspath{bcp_components.value()}}},
{{art_apex::SystemServerClasspath{system_server_components.value()}}}};
art_apex::write(out, info);
}
// Returns cache provenance information based on the current ART APEX version and filesystem
// information.
std::optional<art_apex::ArtModuleInfo> GenerateArtModuleInfo() const {
auto info = GetArtApexInfo();
if (!info.has_value()) {
LOG(ERROR) << "Could not update " << QuotePath(cache_info_filename_) << " : no ART Apex info";
return {};
}
return art_apex::ArtModuleInfo{info->getVersionCode(), info->getVersionName()};
}
bool CheckComponents(const std::vector<art_apex::Component>& expected_components,
const std::vector<art_apex::Component>& actual_components,
std::string* error_msg) const {
if (expected_components.size() != actual_components.size()) {
return false;
}
for (size_t i = 0; i < expected_components.size(); ++i) {
const art_apex::Component& expected = expected_components[i];
const art_apex::Component& actual = actual_components[i];
if (expected.getFile() != actual.getFile()) {
*error_msg = android::base::StringPrintf("Component %zu file differs ('%s' != '%s')",
i,
expected.getFile().c_str(),
actual.getFile().c_str());
return false;
}
if (expected.getSize() != actual.getSize()) {
*error_msg = android::base::StringPrintf("Component %zu size differs (%" PRIu64
" != %" PRIu64 ")",
i,
expected.getSize(),
actual.getSize());
return false;
}
if (expected.getChecksums() != actual.getChecksums()) {
*error_msg = android::base::StringPrintf("Component %zu checksums differ ('%s' != '%s')",
i,
expected.getChecksums().c_str(),
actual.getChecksums().c_str());
return false;
}
}
return true;
}
std::vector<art_apex::Component> GenerateComponents(const std::vector<std::string>& jars) const {
std::vector<art_apex::Component> components;
ArtDexFileLoader loader;
for (const std::string& path : jars) {
struct stat sb;
if (stat(path.c_str(), &sb) == -1) {
PLOG(ERROR) << "Failed to get component: " << QuotePath(path);
return {};
}
std::vector<uint32_t> checksums;
std::vector<std::string> dex_locations;
std::string error_msg;
if (!loader.GetMultiDexChecksums(path.c_str(), &checksums, &dex_locations, &error_msg)) {
LOG(ERROR) << "Failed to get components: " << error_msg;
return {};
}
std::ostringstream oss;
for (size_t i = 0; i < checksums.size(); ++i) {
if (i != 0) {
oss << ';';
}
oss << android::base::StringPrintf("%08x", checksums[i]);
}
const std::string checksum = oss.str();
components.emplace_back(
art_apex::Component{path, static_cast<uint64_t>(sb.st_size), checksum});
}
return components;
}
std::vector<art_apex::Component> GenerateBootExtensionComponents() const {
return GenerateComponents(boot_extension_compilable_jars_);
}
std::vector<art_apex::Component> GenerateSystemServerComponents() const {
return GenerateComponents(systemserver_compilable_jars_);
}
// Checks whether a group of artifacts exists. Returns true if all are present, false otherwise.
static bool ArtifactsExist(const OdrArtifacts& artifacts, /*out*/ std::string* error_msg) {
const auto paths = {
artifacts.ImagePath().c_str(), artifacts.OatPath().c_str(), artifacts.VdexPath().c_str()};
for (const char* path : paths) {
if (!OS::FileExists(path)) {
if (errno == EACCES) {
PLOG(ERROR) << "Failed to stat() " << path;
}
*error_msg = "Missing file: " + QuotePath(path);
return false;
}
}
return true;
}
// Checks whether all boot extension artifacts are present on /data. Returns true if all are
// present, false otherwise.
WARN_UNUSED bool BootExtensionArtifactsExistOnData(const InstructionSet isa,
/*out*/ std::string* error_msg) const {
const std::string apexdata_image_location = GetBootImageExtensionImagePath(isa);
const OdrArtifacts artifacts = OdrArtifacts::ForBootImageExtension(apexdata_image_location);
return ArtifactsExist(artifacts, error_msg);
}
// Checks whether all system_server artifacts are present on /data. The artifacts are checked in
// their order of compilation. Returns true if all are present, false otherwise.
WARN_UNUSED bool SystemServerArtifactsExistOnData(/*out*/ std::string* error_msg) const {
for (const std::string& jar_path : systemserver_compilable_jars_) {
const std::string image_location = GetSystemServerImagePath(/*on_system=*/false, jar_path);
const OdrArtifacts artifacts = OdrArtifacts::ForSystemServer(image_location);
if (!ArtifactsExist(artifacts, error_msg)) {
return false;
}
}
return true;
}
WARN_UNUSED ExitCode CheckArtifactsAreUpToDate(OdrMetrics& metrics) {
metrics.SetStage(OdrMetrics::Stage::kCheck);
// Clean-up helper used to simplify clean-ups and handling failures there.
auto cleanup_return = [this](ExitCode exit_code) {
return CleanApexdataDirectory() ? exit_code : ExitCode::kCleanupFailed;
};
const auto apex_info = GetArtApexInfo();
if (!apex_info.has_value()) {
// This should never happen, further up-to-date checks are not possible if it does.
LOG(ERROR) << "Could not get ART APEX info.";
metrics.SetTrigger(OdrMetrics::Trigger::kApexVersionMismatch);
return cleanup_return(ExitCode::kCompilationRequired);
}
if (apex_info->getIsFactory()) {
// Remove any artifacts on /data as they are not necessary and no compilation is necessary.
LOG(INFO) << "Factory APEX mounted.";
return cleanup_return(ExitCode::kOkay);
}
if (!OS::FileExists(cache_info_filename_.c_str())) {
// If the cache info file does not exist, assume compilation is required because the
// file is missing and because the current ART APEX is not factory installed.
PLOG(ERROR) << "No prior cache-info file: " << QuotePath(cache_info_filename_);
metrics.SetTrigger(OdrMetrics::Trigger::kApexVersionMismatch);
return cleanup_return(ExitCode::kCompilationRequired);
}
// Get and parse the ART APEX cache info file.
std::optional<art_apex::CacheInfo> cache_info = ReadCacheInfo();
if (!cache_info.has_value()) {
// This should never happen, further up-to-date checks are not possible if it does.
PLOG(ERROR) << "Failed to read cache-info file: " << QuotePath(cache_info_filename_);
metrics.SetTrigger(OdrMetrics::Trigger::kUnknown);
return cleanup_return(ExitCode::kCompilationRequired);
}
// Generate current module info for the current ART APEX.
const auto current_info = GenerateArtModuleInfo();
if (!current_info.has_value()) {
// This should never happen, further up-to-date checks are not possible if it does.
LOG(ERROR) << "Failed to generate cache provenance.";
metrics.SetTrigger(OdrMetrics::Trigger::kUnknown);
return cleanup_return(ExitCode::kCompilationRequired);
}
// Record ART Apex version for metrics reporting.
metrics.SetArtApexVersion(current_info->getVersionCode());
// Check whether the current cache ART module info differs from the current ART module info.
// Always check APEX version.
const auto cached_info = cache_info->getFirstArtModuleInfo();
if (cached_info->getVersionCode() != current_info->getVersionCode()) {
LOG(INFO) << "ART APEX version code mismatch ("
<< cached_info->getVersionCode()
<< " != " << current_info->getVersionCode() << ").";
metrics.SetTrigger(OdrMetrics::Trigger::kApexVersionMismatch);
return cleanup_return(ExitCode::kCompilationRequired);
}
if (cached_info->getVersionName() != current_info->getVersionName()) {
LOG(INFO) << "ART APEX version code mismatch ("
<< cached_info->getVersionName()
<< " != " << current_info->getVersionName() << ").";
metrics.SetTrigger(OdrMetrics::Trigger::kApexVersionMismatch);
return cleanup_return(ExitCode::kCompilationRequired);
}
// Check boot class components.
//
// This checks the size and checksums of odrefresh compilable files on the DEX2OATBOOTCLASSPATH
// (the Odrefresh constructor determines which files are compilable). If the number of files
// there changes, or their size or checksums change then compilation will be triggered.
//
// The boot class components may change unexpectedly, for example an OTA could update
// framework.jar.
const std::vector<art_apex::Component> expected_bcp_components =
GenerateBootExtensionComponents();
if (expected_bcp_components.size() != 0 &&
(!cache_info->hasDex2oatBootClasspath() ||
!cache_info->getFirstDex2oatBootClasspath()->hasComponent())) {
LOG(INFO) << "Missing Dex2oatBootClasspath components.";
metrics.SetTrigger(OdrMetrics::Trigger::kDexFilesChanged);
return cleanup_return(ExitCode::kCompilationRequired);
}
std::string error_msg;
const std::vector<art_apex::Component>& bcp_components =
cache_info->getFirstDex2oatBootClasspath()->getComponent();
if (!CheckComponents(expected_bcp_components, bcp_components, &error_msg)) {
LOG(INFO) << "Dex2OatClasspath components mismatch: " << error_msg;
metrics.SetTrigger(OdrMetrics::Trigger::kDexFilesChanged);
return cleanup_return(ExitCode::kCompilationRequired);
}
// Check system server components.
//
// This checks the size and checksums of odrefresh compilable files on the
// SYSTEMSERVERCLASSPATH (the Odrefresh constructor determines which files are compilable). If
// the number of files there changes, or their size or checksums change then compilation will be
// triggered.
//
// The system_server components may change unexpectedly, for example an OTA could update
// services.jar.
auto cleanup_system_server_return = [this](ExitCode exit_code) {
return RemoveSystemServerArtifactsFromData() ? exit_code : ExitCode::kCleanupFailed;
};
const std::vector<art_apex::Component> expected_system_server_components =
GenerateSystemServerComponents();
if (expected_system_server_components.size() != 0 &&
(!cache_info->hasSystemServerClasspath() ||
!cache_info->getFirstSystemServerClasspath()->hasComponent())) {
LOG(INFO) << "Missing SystemServerClasspath components.";
metrics.SetTrigger(OdrMetrics::Trigger::kDexFilesChanged);
return cleanup_system_server_return(ExitCode::kCompilationRequired);
}
const std::vector<art_apex::Component>& system_server_components =
cache_info->getFirstSystemServerClasspath()->getComponent();
if (!CheckComponents(expected_system_server_components, system_server_components, &error_msg)) {
LOG(INFO) << "SystemServerClasspath components mismatch: " << error_msg;
metrics.SetTrigger(OdrMetrics::Trigger::kDexFilesChanged);
return cleanup_system_server_return(ExitCode::kCompilationRequired);
}
// Cache info looks good, check all compilation artifacts exist.
auto cleanup_boot_extensions_return = [this](ExitCode exit_code, InstructionSet isa) {
return RemoveBootExtensionArtifactsFromData(isa) ? exit_code : ExitCode::kCleanupFailed;
};
for (const InstructionSet isa : config_.GetBootExtensionIsas()) {
if (!BootExtensionArtifactsExistOnData(isa, &error_msg)) {
LOG(INFO) << "Incomplete boot extension artifacts. " << error_msg;
metrics.SetTrigger(OdrMetrics::Trigger::kMissingArtifacts);
return cleanup_boot_extensions_return(ExitCode::kCompilationRequired, isa);
}
}
if (!SystemServerArtifactsExistOnData(&error_msg)) {
LOG(INFO) << "Incomplete system_server artifacts. " << error_msg;
// No clean-up is required here: we have boot extension artifacts. The method
// `SystemServerArtifactsExistOnData()` checks in compilation order so it is possible some of
// the artifacts are here. We likely ran out of space compiling the system_server artifacts.
// Any artifacts present are usable.
metrics.SetTrigger(OdrMetrics::Trigger::kMissingArtifacts);
return ExitCode::kCompilationRequired;
}
return ExitCode::kOkay;
}
static void AddDex2OatCommonOptions(/*inout*/ std::vector<std::string>& args) {
args.emplace_back("--android-root=out/empty");
args.emplace_back("--abort-on-hard-verifier-error");
args.emplace_back("--no-abort-on-soft-verifier-error");
args.emplace_back("--compilation-reason=boot");
args.emplace_back("--image-format=lz4");
args.emplace_back("--force-determinism");
args.emplace_back("--resolve-startup-const-strings=true");
}
static void AddDex2OatConcurrencyArguments(/*inout*/ std::vector<std::string>& args) {
static constexpr std::pair<const char*, const char*> kPropertyArgPairs[] = {
std::make_pair("dalvik.vm.boot-dex2oat-cpu-set", "--cpu-set="),
std::make_pair("dalvik.vm.boot-dex2oat-threads", "-j"),
};
for (auto property_arg_pair : kPropertyArgPairs) {
auto [property, arg] = property_arg_pair;
std::string value = android::base::GetProperty(property, {});
if (!value.empty()) {
args.push_back(arg + value);
}
}
}
static void AddDex2OatDebugInfo(/*inout*/ std::vector<std::string>& args) {
args.emplace_back("--generate-mini-debug-info");
args.emplace_back("--strip");
}
static void AddDex2OatInstructionSet(/*inout*/ std::vector<std::string> args,
InstructionSet isa) {
const char* isa_str = GetInstructionSetString(isa);
args.emplace_back(Concatenate({"--instruction-set=", isa_str}));
}
static std::unique_ptr<File> AddDex2OatProfileAndCompilerFilter(
/*inout*/ std::vector<std::string>& args,
const std::string& profile_path) {
std::unique_ptr<File> profile_file(OS::OpenFileForReading(profile_path.c_str()));
if (profile_file && profile_file->IsOpened()) {
args.emplace_back(android::base::StringPrintf("--profile-file-fd=%d", profile_file->Fd()));
args.emplace_back("--compiler-filter=speed-profile");
} else {
args.emplace_back("--compiler-filter=speed");
}
return profile_file;
}
WARN_UNUSED bool VerifySystemServerArtifactsAreUpToDate(bool on_system) const {
std::vector<std::string> classloader_context;
for (const std::string& jar_path : systemserver_compilable_jars_) {
std::vector<std::string> args;
args.emplace_back(config_.GetDexOptAnalyzer());
args.emplace_back("--dex-file=" + jar_path);
const std::string image_location = GetSystemServerImagePath(on_system, jar_path);
// odrefresh produces app-image files, but these are not guaranteed for those pre-installed
// on /system.
if (!on_system && !OS::FileExists(image_location.c_str(), true)) {
LOG(INFO) << "Missing image file: " << QuotePath(image_location);
return false;
}
// Generate set of artifacts that are output by compilation.
OdrArtifacts artifacts = OdrArtifacts::ForSystemServer(image_location);
if (!on_system) {
CHECK_EQ(artifacts.OatPath(),
GetApexDataOdexFilename(jar_path, config_.GetSystemServerIsa()));
CHECK_EQ(artifacts.ImagePath(),
GetApexDataDalvikCacheFilename(jar_path, config_.GetSystemServerIsa(), "art"));
CHECK_EQ(artifacts.OatPath(),
GetApexDataDalvikCacheFilename(jar_path, config_.GetSystemServerIsa(), "odex"));
CHECK_EQ(artifacts.VdexPath(),
GetApexDataDalvikCacheFilename(jar_path, config_.GetSystemServerIsa(), "vdex"));
}
// Associate inputs and outputs with dexoptanalyzer arguments.
std::pair<const std::string, const char*> location_args[] = {
std::make_pair(artifacts.OatPath(), "--oat-fd="),
std::make_pair(artifacts.VdexPath(), "--vdex-fd="),
std::make_pair(jar_path, "--zip-fd=")
};
// Open file descriptors for dexoptanalyzer file inputs and add to the command-line.
std::vector<std::unique_ptr<File>> files;
for (const auto& location_arg : location_args) {
auto& [location, arg] = location_arg;
std::unique_ptr<File> file(OS::OpenFileForReading(location.c_str()));
if (file == nullptr) {
PLOG(ERROR) << "Failed to open \"" << location << "\"";
return false;
}
args.emplace_back(android::base::StringPrintf("%s%d", arg, file->Fd()));
files.emplace_back(file.release());
}
const std::string basename(android::base::Basename(jar_path));
const std::string root = GetAndroidRoot();
const std::string profile_file = Concatenate({root, "/framework/", basename, ".prof"});
if (OS::FileExists(profile_file.c_str())) {
args.emplace_back("--compiler-filter=speed-profile");
} else {
args.emplace_back("--compiler-filter=speed");
}
args.emplace_back(
Concatenate({"--image=", GetBootImage(), ":", GetBootImageExtensionImage(on_system)}));
args.emplace_back(
Concatenate({"--isa=", GetInstructionSetString(config_.GetSystemServerIsa())}));
args.emplace_back("--runtime-arg");
args.emplace_back(Concatenate({"-Xbootclasspath:", config_.GetDex2oatBootClasspath()}));
args.emplace_back(Concatenate(
{"--class-loader-context=PCL[", android::base::Join(classloader_context, ':'), "]"}));
classloader_context.emplace_back(jar_path);
LOG(INFO) << "Checking " << jar_path << ": " << android::base::Join(args, ' ');
std::string error_msg;
bool timed_out = false;
const time_t timeout = GetSubprocessTimeout();
const int dexoptanalyzer_result = ExecAndReturnCode(args, timeout, &timed_out, &error_msg);
if (dexoptanalyzer_result == -1) {
LOG(ERROR) << "Unexpected exit from dexoptanalyzer: " << error_msg;
if (timed_out) {
// TODO(oth): record metric for timeout.
}
return false;
}
LOG(INFO) << "dexoptanalyzer returned " << dexoptanalyzer_result;
bool unexpected_result = true;
switch (static_cast<dexoptanalyzer::ReturnCode>(dexoptanalyzer_result)) {
case art::dexoptanalyzer::ReturnCode::kNoDexOptNeeded:
unexpected_result = false;
break;
// Recompile needed
case art::dexoptanalyzer::ReturnCode::kDex2OatFromScratch:
case art::dexoptanalyzer::ReturnCode::kDex2OatForBootImageOat:
case art::dexoptanalyzer::ReturnCode::kDex2OatForFilterOat:
case art::dexoptanalyzer::ReturnCode::kDex2OatForBootImageOdex:
case art::dexoptanalyzer::ReturnCode::kDex2OatForFilterOdex:
return false;
// Unexpected issues (note no default-case here to catch missing enum values, but the
// return code from dexoptanalyzer may also be outside expected values, such as a
// process crash.
case art::dexoptanalyzer::ReturnCode::kFlattenClassLoaderContextSuccess:
case art::dexoptanalyzer::ReturnCode::kErrorInvalidArguments:
case art::dexoptanalyzer::ReturnCode::kErrorCannotCreateRuntime:
case art::dexoptanalyzer::ReturnCode::kErrorUnknownDexOptNeeded:
break;
}
if (unexpected_result) {
LOG(ERROR) << "Unexpected result from dexoptanalyzer: " << dexoptanalyzer_result;
return false;
}
}
return true;
}
WARN_UNUSED bool RemoveSystemServerArtifactsFromData() const {
if (config_.GetDryRun()) {
LOG(INFO) << "Removal of system_server artifacts on /data skipped (dry-run).";
return true;
}
bool success = true;
for (const std::string& jar_path : systemserver_compilable_jars_) {
const std::string image_location =
GetSystemServerImagePath(/*on_system=*/false, jar_path);
const OdrArtifacts artifacts = OdrArtifacts::ForSystemServer(image_location);
LOG(INFO) << "Removing system_server artifacts on /data for " << QuotePath(jar_path);
success &= RemoveArtifacts(artifacts);
}
return success;
}
// Verify the validity of system server artifacts on both /system and /data.
// This method has the side-effect of removing system server artifacts on /data, if there are
// valid artifacts on /system, or if the artifacts on /data are not valid.
// Returns true if valid artifacts are found.
WARN_UNUSED bool VerifySystemServerArtifactsAreUpToDate() const {
bool system_ok = VerifySystemServerArtifactsAreUpToDate(/*on_system=*/true);
LOG(INFO) << "system_server artifacts on /system are " << (system_ok ? "ok" : "stale");
bool data_ok = VerifySystemServerArtifactsAreUpToDate(/*on_system=*/false);
LOG(INFO) << "system_server artifacts on /data are " << (data_ok ? "ok" : "stale");
return system_ok || data_ok;
}
// Check the validity of boot class path extension artifacts.
//
// Returns true if artifacts exist and are valid according to dexoptanalyzer.
WARN_UNUSED bool VerifyBootExtensionArtifactsAreUpToDate(const InstructionSet isa,
bool on_system) const {
const std::string dex_file = boot_extension_compilable_jars_.front();
const std::string image_location = GetBootImageExtensionImage(on_system);
std::vector<std::string> args;
args.emplace_back(config_.GetDexOptAnalyzer());
args.emplace_back("--validate-bcp");
args.emplace_back(Concatenate({"--image=", GetBootImage(), ":", image_location}));
args.emplace_back(Concatenate({"--isa=", GetInstructionSetString(isa)}));
args.emplace_back("--runtime-arg");
args.emplace_back(Concatenate({"-Xbootclasspath:", config_.GetDex2oatBootClasspath()}));
LOG(INFO) << "Checking " << dex_file << ": " << android::base::Join(args, ' ');
std::string error_msg;
bool timed_out = false;
const time_t timeout = GetSubprocessTimeout();
const int dexoptanalyzer_result = ExecAndReturnCode(args, timeout, &timed_out, &error_msg);
if (dexoptanalyzer_result == -1) {
LOG(ERROR) << "Unexpected exit from dexoptanalyzer: " << error_msg;
if (timed_out) {
// TODO(oth): record metric for timeout.
}
return false;
}
auto rc = static_cast<dexoptanalyzer::ReturnCode>(dexoptanalyzer_result);
if (rc == dexoptanalyzer::ReturnCode::kNoDexOptNeeded) {
return true;
}
return false;
}
// Remove boot extension artifacts from /data.
WARN_UNUSED bool RemoveBootExtensionArtifactsFromData(InstructionSet isa) const {
if (config_.GetDryRun()) {
LOG(INFO) << "Removal of bcp extension artifacts on /data skipped (dry-run).";
return true;
}
bool success = true;
if (isa == config_.GetSystemServerIsa()) {
// system_server artifacts are invalid without boot extension artifacts.
success &= RemoveSystemServerArtifactsFromData();
}
const std::string apexdata_image_location = GetBootImageExtensionImagePath(isa);
LOG(INFO) << "Removing boot class path artifacts on /data for "
<< QuotePath(apexdata_image_location);
success &= RemoveArtifacts(OdrArtifacts::ForBootImageExtension(apexdata_image_location));
return success;
}
// Verify whether boot extension artifacts for `isa` are valid on system partition or in apexdata.
// This method has the side-effect of removing boot classpath extension artifacts on /data,
// if there are valid artifacts on /system, or if the artifacts on /data are not valid.
// Returns true if valid boot externsion artifacts are valid.
WARN_UNUSED bool VerifyBootExtensionArtifactsAreUpToDate(InstructionSet isa) const {
bool system_ok = VerifyBootExtensionArtifactsAreUpToDate(isa, /*on_system=*/true);
LOG(INFO) << "Boot extension artifacts on /system are " << (system_ok ? "ok" : "stale");
bool data_ok = VerifyBootExtensionArtifactsAreUpToDate(isa, /*on_system=*/false);
LOG(INFO) << "Boot extension artifacts on /data are " << (data_ok ? "ok" : "stale");
return system_ok || data_ok;
}
// Verify all artifacts are up-to-date.
//
// This method checks artifacts can be loaded by the runtime.
//
// Returns ExitCode::kOkay if artifacts are up-to-date, ExitCode::kCompilationRequired otherwise.
//
// NB This is the main function used by the --check command-line option. When invoked with
// --compile, we only recompile the out-of-date artifacts, not all (see `Odrefresh::Compile`).
WARN_UNUSED ExitCode VerifyArtifactsAreUpToDate() {
ExitCode exit_code = ExitCode::kOkay;
for (const InstructionSet isa : config_.GetBootExtensionIsas()) {
if (!VerifyBootExtensionArtifactsAreUpToDate(isa)) {
if (!RemoveBootExtensionArtifactsFromData(isa)) {
return ExitCode::kCleanupFailed;
}
exit_code = ExitCode::kCompilationRequired;
}
}
if (!VerifySystemServerArtifactsAreUpToDate()) {
if (!RemoveSystemServerArtifactsFromData()) {
return ExitCode::kCleanupFailed;
}
exit_code = ExitCode::kCompilationRequired;
}
return exit_code;
}
WARN_UNUSED bool CleanApexdataDirectory() const {
const std::string& apex_data_path = GetArtApexData();
if (config_.GetDryRun()) {
LOG(INFO) << "Files under `" << QuotePath(apex_data_path) << " would be removed (dry-run).";
return true;
}
return CleanDirectory(apex_data_path);
}
WARN_UNUSED bool RemoveArtifacts(const OdrArtifacts& artifacts) const {
bool success = true;
for (const auto& location :
{artifacts.ImagePath(), artifacts.OatPath(), artifacts.VdexPath()}) {
if (config_.GetDryRun()) {
LOG(INFO) << "Removing " << QuotePath(location) << " (dry-run).";
continue;
}
if (OS::FileExists(location.c_str()) && unlink(location.c_str()) != 0) {
PLOG(ERROR) << "Failed to remove: " << QuotePath(location);
success = false;
}
}
return success;
}
static std::string GetBootImage() {
// Typically "/apex/com.android.art/javalib/boot.art".
return GetArtRoot() + "/javalib/boot.art";
}
std::string GetBootImageExtensionImage(bool on_system) const {
CHECK(!boot_extension_compilable_jars_.empty());
const std::string leading_jar = boot_extension_compilable_jars_[0];
if (on_system) {
const std::string jar_name = android::base::Basename(leading_jar);
const std::string image_name = ReplaceFileExtension(jar_name, "art");
// Typically "/system/framework/boot-framework.art".
return Concatenate({GetAndroidRoot(), "/framework/boot-", image_name});
} else {
// Typically "/data/misc/apexdata/com.android.art/dalvik-cache/boot-framework.art".
return GetApexDataBootImage(leading_jar);
}
}
std::string GetBootImageExtensionImagePath(const InstructionSet isa) const {
// Typically "/data/misc/apexdata/com.android.art/dalvik-cache/<isa>/boot-framework.art".
return GetSystemImageFilename(GetBootImageExtensionImage(/*on_system=*/false).c_str(), isa);
}
std::string GetSystemServerImagePath(bool on_system, const std::string& jar_path) const {
if (on_system) {
const std::string jar_name = android::base::Basename(jar_path);
const std::string image_name = ReplaceFileExtension(jar_name, "art");
const char* isa_str = GetInstructionSetString(config_.GetSystemServerIsa());
// Typically "/system/framework/oat/<isa>/services.art".
return Concatenate({GetAndroidRoot(), "/framework/oat/", isa_str, "/", image_name});
} else {
// Typically
// "/data/misc/apexdata/.../dalvik-cache/<isa>/system@framework@services.jar@classes.art".
const std::string image = GetApexDataImage(jar_path.c_str());
return GetSystemImageFilename(image.c_str(), config_.GetSystemServerIsa());
}
}
std::string GetStagingLocation(const std::string& staging_dir, const std::string& path) const {
return Concatenate({staging_dir, "/", android::base::Basename(path)});
}
WARN_UNUSED bool CompileBootExtensionArtifacts(const InstructionSet isa,
const std::string& staging_dir,
OdrMetrics& metrics,
uint32_t* dex2oat_invocation_count,
std::string* error_msg) const {
ScopedOdrCompilationTimer compilation_timer(metrics);
std::vector<std::string> args;
args.push_back(config_.GetDex2Oat());
AddDex2OatCommonOptions(args);
AddDex2OatConcurrencyArguments(args);
AddDex2OatDebugInfo(args);
AddDex2OatInstructionSet(args, isa);
std::vector<std::unique_ptr<File>> readonly_files_raii;
const std::string boot_profile_file(GetAndroidRoot() + "/etc/boot-image.prof");
readonly_files_raii.emplace_back(AddDex2OatProfileAndCompilerFilter(args, boot_profile_file));
// Compile as a single image for fewer files and slightly less memory overhead.
args.emplace_back("--single-image");
// Set boot-image and expectation of compiling boot classpath extensions.
args.emplace_back("--boot-image=" + GetBootImage());
const std::string dirty_image_objects_file(GetAndroidRoot() + "/etc/dirty-image-objects");
if (OS::FileExists(dirty_image_objects_file.c_str())) {
args.emplace_back(Concatenate({"--dirty-image-objects=", dirty_image_objects_file}));
} else {
LOG(WARNING) << "Missing dirty objects file : " << QuotePath(dirty_image_objects_file);
}
// Add boot extensions to compile.
for (const std::string& component : boot_extension_compilable_jars_) {
args.emplace_back("--dex-file=" + component);
std::unique_ptr<File> file(OS::OpenFileForReading(component.c_str()));
args.emplace_back(android::base::StringPrintf("--dex-fd=%d", file->Fd()));
readonly_files_raii.push_back(std::move(file));
}
args.emplace_back("--runtime-arg");
args.emplace_back(Concatenate({"-Xbootclasspath:", config_.GetDex2oatBootClasspath()}));
const std::string image_location = GetBootImageExtensionImagePath(isa);
const OdrArtifacts artifacts = OdrArtifacts::ForBootImageExtension(image_location);
CHECK_EQ(GetApexDataOatFilename(boot_extension_compilable_jars_.front().c_str(), isa),
artifacts.OatPath());
args.emplace_back("--oat-location=" + artifacts.OatPath());
const std::pair<const std::string, const char*> location_kind_pairs[] = {
std::make_pair(artifacts.ImagePath(), "image"),
std::make_pair(artifacts.OatPath(), "oat"),
std::make_pair(artifacts.VdexPath(), "output-vdex")
};
std::vector<std::unique_ptr<File>> staging_files;
for (const auto& location_kind_pair : location_kind_pairs) {
auto& [location, kind] = location_kind_pair;
const std::string staging_location = GetStagingLocation(staging_dir, location);
std::unique_ptr<File> staging_file(OS::CreateEmptyFile(staging_location.c_str()));
if (staging_file == nullptr) {
PLOG(ERROR) << "Failed to create " << kind << " file: " << staging_location;
metrics.SetStatus(OdrMetrics::Status::kIoError);
EraseFiles(staging_files);
return false;
}
if (fchmod(staging_file->Fd(), S_IRUSR | S_IWUSR) != 0) {
PLOG(ERROR) << "Could not set file mode on " << QuotePath(staging_location);
metrics.SetStatus(OdrMetrics::Status::kIoError);
EraseFiles(staging_files);
return false;
}
args.emplace_back(android::base::StringPrintf("--%s-fd=%d", kind, staging_file->Fd()));
staging_files.emplace_back(std::move(staging_file));
}
const std::string install_location = android::base::Dirname(image_location);
if (!EnsureDirectoryExists(install_location)) {
metrics.SetStatus(OdrMetrics::Status::kIoError);
return false;
}
const time_t timeout = GetSubprocessTimeout();
const std::string cmd_line = android::base::Join(args, ' ');
LOG(INFO) << "Compiling boot extensions (" << isa << "): " << cmd_line
<< " [timeout " << timeout << "s]";
if (config_.GetDryRun()) {
LOG(INFO) << "Compilation skipped (dry-run).";
return true;
}
bool timed_out = false;
int dex2oat_exit_code = ExecAndReturnCode(args, timeout, &timed_out, error_msg);
if (dex2oat_exit_code != 0) {
if (timed_out) {
metrics.SetStatus(OdrMetrics::Status::kTimeLimitExceeded);
} else {
metrics.SetStatus(OdrMetrics::Status::kDex2OatError);
}
EraseFiles(staging_files);
return false;
}
if (!MoveOrEraseFiles(staging_files, install_location)) {
metrics.SetStatus(OdrMetrics::Status::kInstallFailed);
return false;
}
*dex2oat_invocation_count = *dex2oat_invocation_count + 1;
ReportNextBootAnimationProgress(*dex2oat_invocation_count);
return true;
}
WARN_UNUSED bool CompileSystemServerArtifacts(const std::string& staging_dir,
OdrMetrics& metrics,
uint32_t* dex2oat_invocation_count,
std::string* error_msg) const {
ScopedOdrCompilationTimer compilation_timer(metrics);
std::vector<std::string> classloader_context;
const std::string dex2oat = config_.GetDex2Oat();
const InstructionSet isa = config_.GetSystemServerIsa();
for (const std::string& jar : systemserver_compilable_jars_) {
std::vector<std::unique_ptr<File>> readonly_files_raii;
std::vector<std::string> args;
args.emplace_back(dex2oat);
args.emplace_back("--dex-file=" + jar);
std::unique_ptr<File> dex_file(OS::OpenFileForReading(jar.c_str()));
args.emplace_back(android::base::StringPrintf("--dex-fd=%d", dex_file->Fd()));
readonly_files_raii.push_back(std::move(dex_file));
AddDex2OatCommonOptions(args);
AddDex2OatConcurrencyArguments(args);
AddDex2OatDebugInfo(args);
AddDex2OatInstructionSet(args, isa);
const std::string jar_name(android::base::Basename(jar));
const std::string profile = Concatenate({GetAndroidRoot(), "/framework/", jar_name, ".prof"});
readonly_files_raii.emplace_back(AddDex2OatProfileAndCompilerFilter(args, profile));
const std::string image_location = GetSystemServerImagePath(/*on_system=*/false, jar);
const std::string install_location = android::base::Dirname(image_location);
if (classloader_context.empty()) {
// All images are in the same directory, we only need to check on the first iteration.
if (!EnsureDirectoryExists(install_location)) {
metrics.SetStatus(OdrMetrics::Status::kIoError);
return false;
}
}
OdrArtifacts artifacts = OdrArtifacts::ForSystemServer(image_location);
CHECK_EQ(artifacts.OatPath(), GetApexDataOdexFilename(jar.c_str(), isa));
const std::pair<const std::string, const char*> location_kind_pairs[] = {
std::make_pair(artifacts.ImagePath(), "app-image"),
std::make_pair(artifacts.OatPath(), "oat"),
std::make_pair(artifacts.VdexPath(), "output-vdex")
};
std::vector<std::unique_ptr<File>> staging_files;
for (const auto& location_kind_pair : location_kind_pairs) {
auto& [location, kind] = location_kind_pair;
const std::string staging_location = GetStagingLocation(staging_dir, location);
std::unique_ptr<File> staging_file(OS::CreateEmptyFile(staging_location.c_str()));
if (staging_file == nullptr) {
PLOG(ERROR) << "Failed to create " << kind << " file: " << staging_location;
metrics.SetStatus(OdrMetrics::Status::kIoError);
EraseFiles(staging_files);
return false;
}
args.emplace_back(android::base::StringPrintf("--%s-fd=%d", kind, staging_file->Fd()));
staging_files.emplace_back(std::move(staging_file));
}
args.emplace_back("--oat-location=" + artifacts.OatPath());
if (!config_.GetUpdatableBcpPackagesFile().empty()) {
const std::string& bcp_packages = config_.GetUpdatableBcpPackagesFile();
if (!OS::FileExists(bcp_packages.c_str())) {
*error_msg = "Cannot compile system_server JARs: missing " + QuotePath(bcp_packages);
metrics.SetStatus(OdrMetrics::Status::kIoError);
EraseFiles(staging_files);
return false;
}
args.emplace_back("--updatable-bcp-packages-file=" + bcp_packages);
}
args.emplace_back("--runtime-arg");
args.emplace_back(Concatenate({"-Xbootclasspath:", config_.GetDex2oatBootClasspath()}));
const std::string context_path = android::base::Join(classloader_context, ':');
args.emplace_back(Concatenate({"--class-loader-context=PCL[", context_path, "]"}));
if (!classloader_context.empty()) {
std::vector<int> fds;
for (const std::string& path : classloader_context) {
std::unique_ptr<File> file(OS::OpenFileForReading(path.c_str()));
if (!file->IsValid()) {
PLOG(ERROR) << "Failed to open classloader context " << path;
metrics.SetStatus(OdrMetrics::Status::kIoError);
return false;
}
fds.emplace_back(file->Fd());
readonly_files_raii.emplace_back(std::move(file));
}
const std::string context_fds = android::base::Join(fds, ':');
args.emplace_back(Concatenate({"--class-loader-context-fds=", context_fds}));
}
const std::string extension_image = GetBootImageExtensionImage(/*on_system=*/false);
args.emplace_back(Concatenate({"--boot-image=", GetBootImage(), ":", extension_image}));
const time_t timeout = GetSubprocessTimeout();
const std::string cmd_line = android::base::Join(args, ' ');
LOG(INFO) << "Compiling " << jar << ": " << cmd_line << " [timeout " << timeout << "s]";
if (config_.GetDryRun()) {
LOG(INFO) << "Compilation skipped (dry-run).";
return true;
}
bool timed_out = false;
int dex2oat_exit_code = ExecAndReturnCode(args, timeout, &timed_out, error_msg);
if (dex2oat_exit_code != 0) {
if (timed_out) {
metrics.SetStatus(OdrMetrics::Status::kTimeLimitExceeded);
} else {
metrics.SetStatus(OdrMetrics::Status::kDex2OatError);
}
EraseFiles(staging_files);
return false;
}
if (!MoveOrEraseFiles(staging_files, install_location)) {
metrics.SetStatus(OdrMetrics::Status::kInstallFailed);
return false;
}
*dex2oat_invocation_count = *dex2oat_invocation_count + 1;
ReportNextBootAnimationProgress(*dex2oat_invocation_count);
classloader_context.emplace_back(jar);
}
return true;
}
void ReportNextBootAnimationProgress(uint32_t current_compilation) const {
uint32_t number_of_compilations =
config_.GetBootExtensionIsas().size() + systemserver_compilable_jars_.size();
// We arbitrarily show progress until 90%, expecting that our compilations
// take a large chunk of boot time.
uint32_t value = (90 * current_compilation) / number_of_compilations;
android::base::SetProperty("service.bootanim.progress", std::to_string(value));
}
WARN_UNUSED bool CheckCompilationSpace() const {
// Check the available storage space against an arbitrary threshold because dex2oat does not
// report when it runs out of storage space and we do not want to completely fill
// the users data partition.
//
// We do not have a good way of pre-computing the required space for a compilation step, but
// typically observe 16MB as the largest size of an AOT artifact. Since there are three
// AOT artifacts per compilation step - an image file, executable file, and a verification
// data file - the threshold is three times 16MB.
static constexpr uint64_t kMinimumSpaceForCompilation = 3 * 16 * 1024 * 1024;
uint64_t bytes_available;
const std::string& art_apex_data_path = GetArtApexData();
if (!GetFreeSpace(art_apex_data_path, &bytes_available)) {
return false;
}
if (bytes_available < kMinimumSpaceForCompilation) {
LOG(WARNING) << "Low space for " << QuotePath(art_apex_data_path) << " (" << bytes_available
<< " bytes)";
return false;
}
return true;
}
WARN_UNUSED ExitCode Compile(OdrMetrics& metrics, bool force_compile) const {
const char* staging_dir = nullptr;
metrics.SetStage(OdrMetrics::Stage::kPreparation);
// Clean-up existing files.
if (force_compile && !CleanApexdataDirectory()) {
metrics.SetStatus(OdrMetrics::Status::kIoError);
return ExitCode::kCleanupFailed;
}
// Create staging area and assign label for generating compilation artifacts.
if (PaletteCreateOdrefreshStagingDirectory(&staging_dir) != PALETTE_STATUS_OK) {
metrics.SetStatus(OdrMetrics::Status::kStagingFailed);
return ExitCode::kCleanupFailed;
}
// Emit cache info before compiling. This can be used to throttle compilation attempts later.
WriteCacheInfo();
std::string error_msg;
uint32_t dex2oat_invocation_count = 0;
ReportNextBootAnimationProgress(dex2oat_invocation_count);
const auto& bcp_instruction_sets = config_.GetBootExtensionIsas();
DCHECK(!bcp_instruction_sets.empty() && bcp_instruction_sets.size() <= 2);
for (const InstructionSet isa : bcp_instruction_sets) {
auto stage = (isa == bcp_instruction_sets.front()) ?
OdrMetrics::Stage::kPrimaryBootClasspath :
OdrMetrics::Stage::kSecondaryBootClasspath;
metrics.SetStage(stage);
if (force_compile || !BootExtensionArtifactsExistOnData(isa, &error_msg)) {
// Remove artifacts we are about to generate. Ordinarily these are removed in the checking
// step, but this is not always run (e.g. during manual testing).
if (!RemoveBootExtensionArtifactsFromData(isa)) {
return ExitCode::kCleanupFailed;
}
if (!CheckCompilationSpace()) {
metrics.SetStatus(OdrMetrics::Status::kNoSpace);
// Return kOkay so odsign will keep and sign whatever we have been able to compile.
return ExitCode::kOkay;
}
if (!CompileBootExtensionArtifacts(
isa, staging_dir, metrics, &dex2oat_invocation_count, &error_msg)) {
LOG(ERROR) << "Compilation of BCP failed: " << error_msg;
if (!config_.GetDryRun() && !CleanDirectory(staging_dir)) {
return ExitCode::kCleanupFailed;
}
return ExitCode::kCompilationFailed;
}
}
}
if (force_compile || !SystemServerArtifactsExistOnData(&error_msg)) {
metrics.SetStage(OdrMetrics::Stage::kSystemServerClasspath);
if (!CheckCompilationSpace()) {
metrics.SetStatus(OdrMetrics::Status::kNoSpace);
// Return kOkay so odsign will keep and sign whatever we have been able to compile.
return ExitCode::kOkay;
}
if (!CompileSystemServerArtifacts(
staging_dir, metrics, &dex2oat_invocation_count, &error_msg)) {
LOG(ERROR) << "Compilation of system_server failed: " << error_msg;
if (!config_.GetDryRun() && !CleanDirectory(staging_dir)) {
return ExitCode::kCleanupFailed;
}
return ExitCode::kCompilationFailed;
}
}
metrics.SetStage(OdrMetrics::Stage::kComplete);
return ExitCode::kCompilationSuccess;
}
static bool ArgumentMatches(std::string_view argument,
std::string_view prefix,
std::string* value) {
if (StartsWith(argument, prefix)) {
*value = std::string(argument.substr(prefix.size()));
return true;
}
return false;
}
static bool ArgumentEquals(std::string_view argument, std::string_view expected) {
return argument == expected;
}
static bool InitializeCommonConfig(std::string_view argument, OdrConfig* config) {
static constexpr std::string_view kDryRunArgument{"--dry-run"};
if (ArgumentEquals(argument, kDryRunArgument)) {
config->SetDryRun();
return true;
}
return false;
}
static int InitializeHostConfig(int argc, const char** argv, OdrConfig* config) {
__android_log_set_logger(__android_log_stderr_logger);
std::string current_binary;
if (argv[0][0] == '/') {
current_binary = argv[0];
} else {
std::vector<char> buf(PATH_MAX);
if (getcwd(buf.data(), buf.size()) == nullptr) {
PLOG(FATAL) << "Failed getwd()";
}
current_binary = Concatenate({buf.data(), "/", argv[0]});
}
config->SetArtBinDir(android::base::Dirname(current_binary));
int n = 1;
for (; n < argc - 1; ++n) {
const char* arg = argv[n];
std::string value;
if (ArgumentMatches(arg, "--android-root=", &value)) {
setenv("ANDROID_ROOT", value.c_str(), 1);
} else if (ArgumentMatches(arg, "--android-art-root=", &value)) {
setenv("ANDROID_ART_ROOT", value.c_str(), 1);
} else if (ArgumentMatches(arg, "--apex-info-list=", &value)) {
config->SetApexInfoListFile(value);
} else if (ArgumentMatches(arg, "--art-apex-data=", &value)) {
setenv("ART_APEX_DATA", value.c_str(), 1);
} else if (ArgumentMatches(arg, "--dex2oat-bootclasspath=", &value)) {
config->SetDex2oatBootclasspath(value);
} else if (ArgumentMatches(arg, "--isa=", &value)) {
config->SetIsa(GetInstructionSetFromString(value.c_str()));
} else if (ArgumentMatches(arg, "--system-server-classpath=", &value)) {
config->SetSystemServerClasspath(arg);
} else if (ArgumentMatches(arg, "--updatable-bcp-packages-file=", &value)) {
config->SetUpdatableBcpPackagesFile(value);
} else if (ArgumentMatches(arg, "--zygote-arch=", &value)) {
ZygoteKind zygote_kind;
if (!ParseZygoteKind(value.c_str(), &zygote_kind)) {
ArgumentError("Unrecognized zygote kind: '%s'", value.c_str());
}
config->SetZygoteKind(zygote_kind);
} else if (!InitializeCommonConfig(arg, config)) {
UsageError("Unrecognized argument: '%s'", arg);
}
}
return n;
}
static int InitializeTargetConfig(int argc, const char** argv, OdrConfig* config) {
config->SetApexInfoListFile("/apex/apex-info-list.xml");
config->SetArtBinDir(GetArtBinDir());
config->SetDex2oatBootclasspath(GetEnvironmentVariableOrDie("DEX2OATBOOTCLASSPATH"));
config->SetSystemServerClasspath(GetEnvironmentVariableOrDie("SYSTEMSERVERCLASSPATH"));
config->SetIsa(kRuntimeISA);
const std::string zygote = android::base::GetProperty("ro.zygote", {});
ZygoteKind zygote_kind;
if (!ParseZygoteKind(zygote.c_str(), &zygote_kind)) {
LOG(FATAL) << "Unknown zygote: " << QuotePath(zygote);
}
config->SetZygoteKind(zygote_kind);
const std::string updatable_packages =
android::base::GetProperty("dalvik.vm.dex2oat-updatable-bcp-packages-file", {});
config->SetUpdatableBcpPackagesFile(updatable_packages);
int n = 1;
for (; n < argc - 1; ++n) {
if (!InitializeCommonConfig(argv[n], config)) {
UsageError("Unrecognized argument: '%s'", argv[n]);
}
}
return n;
}
static int InitializeConfig(int argc, const char** argv, OdrConfig* config) {
if (kIsTargetBuild) {
return InitializeTargetConfig(argc, argv, config);
} else {
return InitializeHostConfig(argc, argv, config);
}
}
static int main(int argc, const char** argv) {
OdrConfig config(argv[0]);
int n = InitializeConfig(argc, argv, &config);
argv += n;
argc -= n;
if (argc != 1) {
UsageError("Expected 1 argument, but have %d.", argc);
}
OdrMetrics metrics(kOdrefreshArtifactDirectory);
OnDeviceRefresh odr(config);
for (int i = 0; i < argc; ++i) {
std::string_view action(argv[i]);
if (action == "--check") {
// Fast determination of whether artifacts are up to date.
return odr.CheckArtifactsAreUpToDate(metrics);
} else if (action == "--compile") {
const ExitCode exit_code = odr.CheckArtifactsAreUpToDate(metrics);
if (exit_code == ExitCode::kCompilationRequired) {
return odr.Compile(metrics, /*force_compile=*/false);
}
return exit_code;
} else if (action == "--force-compile") {
return odr.Compile(metrics, /*force_compile=*/true);
} else if (action == "--verify") {
// Slow determination of whether artifacts are up to date. These are too slow for checking
// during boot (b/181689036).
return odr.VerifyArtifactsAreUpToDate();
} else if (action == "--help") {
UsageHelp(argv[0]);
} else {
UsageError("Unknown argument: ", argv[i]);
}
}
return ExitCode::kOkay;
}
DISALLOW_COPY_AND_ASSIGN(OnDeviceRefresh);
};
} // namespace odrefresh
} // namespace art
int main(int argc, const char** argv) {
// odrefresh is launched by `init` which sets the umask of forked processed to
// 077 (S_IRWXG | S_IRWXO). This blocks the ability to make files and directories readable
// by others and prevents system_server from loading generated artifacts.
umask(S_IWGRP | S_IWOTH);
return art::odrefresh::OnDeviceRefresh::main(argc, argv);
}