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/*
* Copyright (C) 2014 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 "oat_file_assistant.h"
#include <sstream>
#include <sys/stat.h>
#include "android-base/stringprintf.h"
#include "android-base/strings.h"
#include "base/file_utils.h"
#include "base/logging.h" // For VLOG.
#include "base/macros.h"
#include "base/os.h"
#include "base/stl_util.h"
#include "base/utils.h"
#include "class_linker.h"
#include "compiler_filter.h"
#include "dex/art_dex_file_loader.h"
#include "dex/dex_file_loader.h"
#include "exec_utils.h"
#include "gc/heap.h"
#include "gc/space/image_space.h"
#include "image.h"
#include "oat.h"
#include "runtime.h"
#include "scoped_thread_state_change-inl.h"
#include "vdex_file.h"
#include "class_loader_context.h"
namespace art {
using android::base::StringPrintf;
std::ostream& operator << (std::ostream& stream, const OatFileAssistant::OatStatus status) {
switch (status) {
case OatFileAssistant::kOatCannotOpen:
stream << "kOatCannotOpen";
break;
case OatFileAssistant::kOatDexOutOfDate:
stream << "kOatDexOutOfDate";
break;
case OatFileAssistant::kOatBootImageOutOfDate:
stream << "kOatBootImageOutOfDate";
break;
case OatFileAssistant::kOatRelocationOutOfDate:
stream << "kOatRelocationOutOfDate";
break;
case OatFileAssistant::kOatUpToDate:
stream << "kOatUpToDate";
break;
default:
UNREACHABLE();
}
return stream;
}
OatFileAssistant::OatFileAssistant(const char* dex_location,
const InstructionSet isa,
bool load_executable,
bool only_load_system_executable)
: OatFileAssistant(dex_location,
isa,
load_executable,
only_load_system_executable,
-1 /* vdex_fd */,
-1 /* oat_fd */,
-1 /* zip_fd */) {}
OatFileAssistant::OatFileAssistant(const char* dex_location,
const InstructionSet isa,
bool load_executable,
bool only_load_system_executable,
int vdex_fd,
int oat_fd,
int zip_fd)
: isa_(isa),
load_executable_(load_executable),
only_load_system_executable_(only_load_system_executable),
odex_(this, /*is_oat_location*/ false),
oat_(this, /*is_oat_location*/ true),
zip_fd_(zip_fd) {
CHECK(dex_location != nullptr) << "OatFileAssistant: null dex location";
if (zip_fd < 0) {
CHECK_LE(oat_fd, 0) << "zip_fd must be provided with valid oat_fd. zip_fd=" << zip_fd
<< " oat_fd=" << oat_fd;
CHECK_LE(vdex_fd, 0) << "zip_fd must be provided with valid vdex_fd. zip_fd=" << zip_fd
<< " vdex_fd=" << vdex_fd;;
}
dex_location_.assign(dex_location);
if (load_executable_ && isa != kRuntimeISA) {
LOG(WARNING) << "OatFileAssistant: Load executable specified, "
<< "but isa is not kRuntimeISA. Will not attempt to load executable.";
load_executable_ = false;
}
// Get the odex filename.
std::string error_msg;
std::string odex_file_name;
if (DexLocationToOdexFilename(dex_location_, isa_, &odex_file_name, &error_msg)) {
odex_.Reset(odex_file_name, UseFdToReadFiles(), zip_fd, vdex_fd, oat_fd);
} else {
LOG(WARNING) << "Failed to determine odex file name: " << error_msg;
}
if (!UseFdToReadFiles()) {
// Get the oat filename.
std::string oat_file_name;
if (DexLocationToOatFilename(dex_location_, isa_, &oat_file_name, &error_msg)) {
oat_.Reset(oat_file_name, false /* use_fd */);
} else {
LOG(WARNING) << "Failed to determine oat file name for dex location "
<< dex_location_ << ": " << error_msg;
}
}
// Check if the dex directory is writable.
// This will be needed in most uses of OatFileAssistant and so it's OK to
// compute it eagerly. (the only use which will not make use of it is
// OatFileAssistant::GetStatusDump())
size_t pos = dex_location_.rfind('/');
if (pos == std::string::npos) {
LOG(WARNING) << "Failed to determine dex file parent directory: " << dex_location_;
} else if (!UseFdToReadFiles()) {
// We cannot test for parent access when using file descriptors. That's ok
// because in this case we will always pick the odex file anyway.
std::string parent = dex_location_.substr(0, pos);
if (access(parent.c_str(), W_OK) == 0) {
dex_parent_writable_ = true;
} else {
VLOG(oat) << "Dex parent of " << dex_location_ << " is not writable: " << strerror(errno);
}
}
}
OatFileAssistant::~OatFileAssistant() {
// Clean up the lock file.
if (flock_.get() != nullptr) {
unlink(flock_->GetPath().c_str());
}
}
bool OatFileAssistant::UseFdToReadFiles() {
return zip_fd_ >= 0;
}
bool OatFileAssistant::IsInBootClassPath() {
// Note: We check the current boot class path, regardless of the ISA
// specified by the user. This is okay, because the boot class path should
// be the same for all ISAs.
// TODO: Can we verify the boot class path is the same for all ISAs?
Runtime* runtime = Runtime::Current();
ClassLinker* class_linker = runtime->GetClassLinker();
const auto& boot_class_path = class_linker->GetBootClassPath();
for (size_t i = 0; i < boot_class_path.size(); i++) {
if (boot_class_path[i]->GetLocation() == dex_location_) {
VLOG(oat) << "Dex location " << dex_location_ << " is in boot class path";
return true;
}
}
return false;
}
bool OatFileAssistant::Lock(std::string* error_msg) {
CHECK(error_msg != nullptr);
CHECK(flock_.get() == nullptr) << "OatFileAssistant::Lock already acquired";
// Note the lock will only succeed for secondary dex files and in test
// environment.
//
// The lock *will fail* for all primary apks in a production environment.
// The app does not have permissions to create locks next to its dex location
// (be it system, data or vendor parition). We also cannot use the odex or
// oat location for the same reasoning.
//
// This is best effort and if it fails it's unlikely that we will be able
// to generate oat files anyway.
std::string lock_file_name = dex_location_ + "." + GetInstructionSetString(isa_) + ".flock";
flock_ = LockedFile::Open(lock_file_name.c_str(), error_msg);
if (flock_.get() == nullptr) {
unlink(lock_file_name.c_str());
return false;
}
return true;
}
int OatFileAssistant::GetDexOptNeeded(CompilerFilter::Filter target,
bool profile_changed,
bool downgrade,
ClassLoaderContext* class_loader_context) {
OatFileInfo& info = GetBestInfo();
DexOptNeeded dexopt_needed = info.GetDexOptNeeded(target,
profile_changed,
downgrade,
class_loader_context);
if (info.IsOatLocation() || dexopt_needed == kDex2OatFromScratch) {
return dexopt_needed;
}
return -dexopt_needed;
}
// Figure out the currently specified compile filter option in the runtime.
// Returns true on success, false if the compiler filter is invalid, in which
// case error_msg describes the problem.
static bool GetRuntimeCompilerFilterOption(CompilerFilter::Filter* filter,
std::string* error_msg) {
CHECK(filter != nullptr);
CHECK(error_msg != nullptr);
*filter = OatFileAssistant::kDefaultCompilerFilterForDexLoading;
for (StringPiece option : Runtime::Current()->GetCompilerOptions()) {
if (option.starts_with("--compiler-filter=")) {
const char* compiler_filter_string = option.substr(strlen("--compiler-filter=")).data();
if (!CompilerFilter::ParseCompilerFilter(compiler_filter_string, filter)) {
*error_msg = std::string("Unknown --compiler-filter value: ")
+ std::string(compiler_filter_string);
return false;
}
}
}
return true;
}
bool OatFileAssistant::IsUpToDate() {
return GetBestInfo().Status() == kOatUpToDate;
}
OatFileAssistant::ResultOfAttemptToUpdate
OatFileAssistant::MakeUpToDate(bool profile_changed,
ClassLoaderContext* class_loader_context,
std::string* error_msg) {
// The method doesn't use zip_fd_ and directly opens dex files at dex_locations_.
CHECK_EQ(-1, zip_fd_) << "MakeUpToDate should not be called with zip_fd";
CompilerFilter::Filter target;
if (!GetRuntimeCompilerFilterOption(&target, error_msg)) {
return kUpdateNotAttempted;
}
OatFileInfo& info = GetBestInfo();
// TODO(calin, jeffhao): the context should really be passed to GetDexOptNeeded: b/62269291.
// This is actually not trivial in the current logic as it will interact with the collision
// check:
// - currently, if the context does not match but we have no collisions we still accept the
// oat file.
// - if GetDexOptNeeded would return kDex2OatFromScratch for a context mismatch and we make
// the oat code up to date the collision check becomes useless.
// - however, MakeUpToDate will not always succeed (e.g. for primary apks, or for dex files
// loaded in other processes). So it boils down to how far do we want to complicate
// the logic in order to enable the use of oat files. Maybe its time to try simplify it.
switch (info.GetDexOptNeeded(
target, profile_changed, /*downgrade*/ false, class_loader_context)) {
case kNoDexOptNeeded:
return kUpdateSucceeded;
// TODO: For now, don't bother with all the different ways we can call
// dex2oat to generate the oat file. Always generate the oat file as if it
// were kDex2OatFromScratch.
case kDex2OatFromScratch:
case kDex2OatForBootImage:
case kDex2OatForRelocation:
case kDex2OatForFilter:
return GenerateOatFileNoChecks(info, target, class_loader_context, error_msg);
}
UNREACHABLE();
}
std::unique_ptr<OatFile> OatFileAssistant::GetBestOatFile() {
return GetBestInfo().ReleaseFileForUse();
}
std::string OatFileAssistant::GetStatusDump() {
std::ostringstream status;
bool oat_file_exists = false;
bool odex_file_exists = false;
if (oat_.Status() != kOatCannotOpen) {
// If we can open the file, Filename should not return null.
CHECK(oat_.Filename() != nullptr);
oat_file_exists = true;
status << *oat_.Filename() << "[status=" << oat_.Status() << ", ";
const OatFile* file = oat_.GetFile();
if (file == nullptr) {
// If the file is null even though the status is not kOatCannotOpen, it
// means we must have a vdex file with no corresponding oat file. In
// this case we cannot determine the compilation filter. Indicate that
// we have only the vdex file instead.
status << "vdex-only";
} else {
status << "compilation_filter=" << CompilerFilter::NameOfFilter(file->GetCompilerFilter());
}
}
if (odex_.Status() != kOatCannotOpen) {
// If we can open the file, Filename should not return null.
CHECK(odex_.Filename() != nullptr);
odex_file_exists = true;
if (oat_file_exists) {
status << "] ";
}
status << *odex_.Filename() << "[status=" << odex_.Status() << ", ";
const OatFile* file = odex_.GetFile();
if (file == nullptr) {
status << "vdex-only";
} else {
status << "compilation_filter=" << CompilerFilter::NameOfFilter(file->GetCompilerFilter());
}
}
if (!oat_file_exists && !odex_file_exists) {
status << "invalid[";
}
status << "]";
return status.str();
}
std::vector<std::unique_ptr<const DexFile>> OatFileAssistant::LoadDexFiles(
const OatFile &oat_file, const char *dex_location) {
std::vector<std::unique_ptr<const DexFile>> dex_files;
if (LoadDexFiles(oat_file, dex_location, &dex_files)) {
return dex_files;
} else {
return std::vector<std::unique_ptr<const DexFile>>();
}
}
bool OatFileAssistant::LoadDexFiles(
const OatFile &oat_file,
const std::string& dex_location,
std::vector<std::unique_ptr<const DexFile>>* out_dex_files) {
// Load the main dex file.
std::string error_msg;
const OatFile::OatDexFile* oat_dex_file = oat_file.GetOatDexFile(
dex_location.c_str(), nullptr, &error_msg);
if (oat_dex_file == nullptr) {
LOG(WARNING) << error_msg;
return false;
}
std::unique_ptr<const DexFile> dex_file = oat_dex_file->OpenDexFile(&error_msg);
if (dex_file.get() == nullptr) {
LOG(WARNING) << "Failed to open dex file from oat dex file: " << error_msg;
return false;
}
out_dex_files->push_back(std::move(dex_file));
// Load the rest of the multidex entries
for (size_t i = 1;; i++) {
std::string multidex_dex_location = DexFileLoader::GetMultiDexLocation(i, dex_location.c_str());
oat_dex_file = oat_file.GetOatDexFile(multidex_dex_location.c_str(), nullptr);
if (oat_dex_file == nullptr) {
// There are no more multidex entries to load.
break;
}
dex_file = oat_dex_file->OpenDexFile(&error_msg);
if (dex_file.get() == nullptr) {
LOG(WARNING) << "Failed to open dex file from oat dex file: " << error_msg;
return false;
}
out_dex_files->push_back(std::move(dex_file));
}
return true;
}
bool OatFileAssistant::HasOriginalDexFiles() {
// Ensure GetRequiredDexChecksums has been run so that
// has_original_dex_files_ is initialized. We don't care about the result of
// GetRequiredDexChecksums.
GetRequiredDexChecksums();
return has_original_dex_files_;
}
OatFileAssistant::OatStatus OatFileAssistant::OdexFileStatus() {
return odex_.Status();
}
OatFileAssistant::OatStatus OatFileAssistant::OatFileStatus() {
return oat_.Status();
}
bool OatFileAssistant::DexChecksumUpToDate(const VdexFile& file, std::string* error_msg) {
const std::vector<uint32_t>* required_dex_checksums = GetRequiredDexChecksums();
if (required_dex_checksums == nullptr) {
LOG(WARNING) << "Required dex checksums not found. Assuming dex checksums are up to date.";
return true;
}
uint32_t number_of_dex_files = file.GetVerifierDepsHeader().GetNumberOfDexFiles();
if (required_dex_checksums->size() != number_of_dex_files) {
*error_msg = StringPrintf("expected %zu dex files but found %u",
required_dex_checksums->size(),
number_of_dex_files);
return false;
}
for (uint32_t i = 0; i < number_of_dex_files; i++) {
uint32_t expected_checksum = (*required_dex_checksums)[i];
uint32_t actual_checksum = file.GetLocationChecksum(i);
if (expected_checksum != actual_checksum) {
std::string dex = DexFileLoader::GetMultiDexLocation(i, dex_location_.c_str());
*error_msg = StringPrintf("Dex checksum does not match for dex: %s."
"Expected: %u, actual: %u",
dex.c_str(),
expected_checksum,
actual_checksum);
return false;
}
}
return true;
}
bool OatFileAssistant::DexChecksumUpToDate(const OatFile& file, std::string* error_msg) {
const std::vector<uint32_t>* required_dex_checksums = GetRequiredDexChecksums();
if (required_dex_checksums == nullptr) {
LOG(WARNING) << "Required dex checksums not found. Assuming dex checksums are up to date.";
return true;
}
uint32_t number_of_dex_files = file.GetOatHeader().GetDexFileCount();
if (required_dex_checksums->size() != number_of_dex_files) {
*error_msg = StringPrintf("expected %zu dex files but found %u",
required_dex_checksums->size(),
number_of_dex_files);
return false;
}
for (uint32_t i = 0; i < number_of_dex_files; i++) {
std::string dex = DexFileLoader::GetMultiDexLocation(i, dex_location_.c_str());
uint32_t expected_checksum = (*required_dex_checksums)[i];
const OatFile::OatDexFile* oat_dex_file = file.GetOatDexFile(dex.c_str(), nullptr);
if (oat_dex_file == nullptr) {
*error_msg = StringPrintf("failed to find %s in %s", dex.c_str(), file.GetLocation().c_str());
return false;
}
uint32_t actual_checksum = oat_dex_file->GetDexFileLocationChecksum();
if (expected_checksum != actual_checksum) {
VLOG(oat) << "Dex checksum does not match for dex: " << dex
<< ". Expected: " << expected_checksum
<< ", Actual: " << actual_checksum;
return false;
}
}
return true;
}
OatFileAssistant::OatStatus OatFileAssistant::GivenOatFileStatus(const OatFile& file) {
// Verify the ART_USE_READ_BARRIER state.
// TODO: Don't fully reject files due to read barrier state. If they contain
// compiled code and are otherwise okay, we should return something like
// kOatRelocationOutOfDate. If they don't contain compiled code, the read
// barrier state doesn't matter.
const bool is_cc = file.GetOatHeader().IsConcurrentCopying();
constexpr bool kRuntimeIsCC = kUseReadBarrier;
if (is_cc != kRuntimeIsCC) {
return kOatCannotOpen;
}
// Verify the dex checksum.
std::string error_msg;
VdexFile* vdex = file.GetVdexFile();
if (!DexChecksumUpToDate(*vdex, &error_msg)) {
LOG(ERROR) << error_msg;
return kOatDexOutOfDate;
}
CompilerFilter::Filter current_compiler_filter = file.GetCompilerFilter();
// Verify the image checksum
if (CompilerFilter::DependsOnImageChecksum(current_compiler_filter)) {
const ImageInfo* image_info = GetImageInfo();
if (image_info == nullptr) {
VLOG(oat) << "No image for oat image checksum to match against.";
if (HasOriginalDexFiles()) {
return kOatBootImageOutOfDate;
}
// If there is no original dex file to fall back to, grudgingly accept
// the oat file. This could technically lead to crashes, but there's no
// way we could find a better oat file to use for this dex location,
// and it's better than being stuck in a boot loop with no way out.
// The problem will hopefully resolve itself the next time the runtime
// starts up.
LOG(WARNING) << "Dex location " << dex_location_ << " does not seem to include dex file. "
<< "Allow oat file use. This is potentially dangerous.";
} else if (file.GetOatHeader().GetImageFileLocationOatChecksum() != image_info->oat_checksum) {
VLOG(oat) << "Oat image checksum does not match image checksum.";
return kOatBootImageOutOfDate;
}
} else {
VLOG(oat) << "Image checksum test skipped for compiler filter " << current_compiler_filter;
}
// zip_file_only_contains_uncompressed_dex_ is only set during fetching the dex checksums.
DCHECK(required_dex_checksums_attempted_);
if (only_load_system_executable_ &&
!LocationIsOnSystem(file.GetLocation().c_str()) &&
file.ContainsDexCode() &&
zip_file_only_contains_uncompressed_dex_) {
LOG(ERROR) << "Not loading "
<< dex_location_
<< ": oat file has dex code, but APK has uncompressed dex code";
return kOatDexOutOfDate;
}
if (CompilerFilter::IsAotCompilationEnabled(current_compiler_filter)) {
if (!file.IsPic()) {
const ImageInfo* image_info = GetImageInfo();
if (image_info == nullptr) {
VLOG(oat) << "No image to check oat relocation against.";
return kOatRelocationOutOfDate;
}
// Verify the oat_data_begin recorded for the image in the oat file matches
// the actual oat_data_begin for boot.oat in the image.
const OatHeader& oat_header = file.GetOatHeader();
uintptr_t oat_data_begin = oat_header.GetImageFileLocationOatDataBegin();
if (oat_data_begin != image_info->oat_data_begin) {
VLOG(oat) << file.GetLocation() <<
": Oat file image oat_data_begin (" << oat_data_begin << ")"
<< " does not match actual image oat_data_begin ("
<< image_info->oat_data_begin << ")";
return kOatRelocationOutOfDate;
}
// Verify the oat_patch_delta recorded for the image in the oat file matches
// the actual oat_patch_delta for the image.
int32_t oat_patch_delta = oat_header.GetImagePatchDelta();
if (oat_patch_delta != image_info->patch_delta) {
VLOG(oat) << file.GetLocation() <<
": Oat file image patch delta (" << oat_patch_delta << ")"
<< " does not match actual image patch delta ("
<< image_info->patch_delta << ")";
return kOatRelocationOutOfDate;
}
} else {
// Oat files compiled in PIC mode do not require relocation.
VLOG(oat) << "Oat relocation test skipped for PIC oat file";
}
} else {
VLOG(oat) << "Oat relocation test skipped for compiler filter " << current_compiler_filter;
}
return kOatUpToDate;
}
static bool DexLocationToOdexNames(const std::string& location,
InstructionSet isa,
std::string* odex_filename,
std::string* oat_dir,
std::string* isa_dir,
std::string* error_msg) {
CHECK(odex_filename != nullptr);
CHECK(error_msg != nullptr);
// The odex file name is formed by replacing the dex_location extension with
// .odex and inserting an oat/<isa> directory. For example:
// location = /foo/bar/baz.jar
// odex_location = /foo/bar/oat/<isa>/baz.odex
// Find the directory portion of the dex location and add the oat/<isa>
// directory.
size_t pos = location.rfind('/');
if (pos == std::string::npos) {
*error_msg = "Dex location " + location + " has no directory.";
return false;
}
std::string dir = location.substr(0, pos+1);
// Add the oat directory.
dir += "oat";
if (oat_dir != nullptr) {
*oat_dir = dir;
}
// Add the isa directory
dir += "/" + std::string(GetInstructionSetString(isa));
if (isa_dir != nullptr) {
*isa_dir = dir;
}
// Get the base part of the file without the extension.
std::string file = location.substr(pos+1);
pos = file.rfind('.');
if (pos == std::string::npos) {
*error_msg = "Dex location " + location + " has no extension.";
return false;
}
std::string base = file.substr(0, pos);
*odex_filename = dir + "/" + base + ".odex";
return true;
}
// Prepare a subcomponent of the odex directory.
// (i.e. create and set the expected permissions on the path `dir`).
static bool PrepareDirectory(const std::string& dir, std::string* error_msg) {
struct stat dir_stat;
if (TEMP_FAILURE_RETRY(stat(dir.c_str(), &dir_stat)) == 0) {
// The directory exists. Check if it is indeed a directory.
if (!S_ISDIR(dir_stat.st_mode)) {
*error_msg = dir + " is not a dir";
return false;
} else {
// The dir is already on disk.
return true;
}
}
// Failed to stat. We need to create the directory.
if (errno != ENOENT) {
*error_msg = "Could not stat isa dir " + dir + ":" + strerror(errno);
return false;
}
mode_t mode = S_IRWXU | S_IXGRP | S_IXOTH;
if (mkdir(dir.c_str(), mode) != 0) {
*error_msg = "Could not create dir " + dir + ":" + strerror(errno);
return false;
}
if (chmod(dir.c_str(), mode) != 0) {
*error_msg = "Could not create the oat dir " + dir + ":" + strerror(errno);
return false;
}
return true;
}
// Prepares the odex directory for the given dex location.
static bool PrepareOdexDirectories(const std::string& dex_location,
const std::string& expected_odex_location,
InstructionSet isa,
std::string* error_msg) {
std::string actual_odex_location;
std::string oat_dir;
std::string isa_dir;
if (!DexLocationToOdexNames(
dex_location, isa, &actual_odex_location, &oat_dir, &isa_dir, error_msg)) {
return false;
}
DCHECK_EQ(expected_odex_location, actual_odex_location);
if (!PrepareDirectory(oat_dir, error_msg)) {
return false;
}
if (!PrepareDirectory(isa_dir, error_msg)) {
return false;
}
return true;
}
class Dex2oatFileWrapper {
public:
explicit Dex2oatFileWrapper(File* file)
: file_(file),
unlink_file_at_destruction_(true) {
}
~Dex2oatFileWrapper() {
if (unlink_file_at_destruction_ && (file_ != nullptr)) {
file_->Erase(/*unlink*/ true);
}
}
File* GetFile() { return file_.get(); }
void DisableUnlinkAtDestruction() {
unlink_file_at_destruction_ = false;
}
private:
std::unique_ptr<File> file_;
bool unlink_file_at_destruction_;
};
OatFileAssistant::ResultOfAttemptToUpdate OatFileAssistant::GenerateOatFileNoChecks(
OatFileAssistant::OatFileInfo& info,
CompilerFilter::Filter filter,
const ClassLoaderContext* class_loader_context,
std::string* error_msg) {
CHECK(error_msg != nullptr);
Runtime* runtime = Runtime::Current();
if (!runtime->IsDex2OatEnabled()) {
*error_msg = "Generation of oat file for dex location " + dex_location_
+ " not attempted because dex2oat is disabled.";
return kUpdateNotAttempted;
}
if (info.Filename() == nullptr) {
*error_msg = "Generation of oat file for dex location " + dex_location_
+ " not attempted because the oat file name could not be determined.";
return kUpdateNotAttempted;
}
const std::string& oat_file_name = *info.Filename();
const std::string& vdex_file_name = GetVdexFilename(oat_file_name);
// dex2oat ignores missing dex files and doesn't report an error.
// Check explicitly here so we can detect the error properly.
// TODO: Why does dex2oat behave that way?
struct stat dex_path_stat;
if (TEMP_FAILURE_RETRY(stat(dex_location_.c_str(), &dex_path_stat)) != 0) {
*error_msg = "Could not access dex location " + dex_location_ + ":" + strerror(errno);
return kUpdateNotAttempted;
}
// If this is the odex location, we need to create the odex file layout (../oat/isa/..)
if (!info.IsOatLocation()) {
if (!PrepareOdexDirectories(dex_location_, oat_file_name, isa_, error_msg)) {
return kUpdateNotAttempted;
}
}
// Set the permissions for the oat and the vdex files.
// The user always gets read and write while the group and others propagate
// the reading access of the original dex file.
mode_t file_mode = S_IRUSR | S_IWUSR |
(dex_path_stat.st_mode & S_IRGRP) |
(dex_path_stat.st_mode & S_IROTH);
Dex2oatFileWrapper vdex_file_wrapper(OS::CreateEmptyFile(vdex_file_name.c_str()));
File* vdex_file = vdex_file_wrapper.GetFile();
if (vdex_file == nullptr) {
*error_msg = "Generation of oat file " + oat_file_name
+ " not attempted because the vdex file " + vdex_file_name
+ " could not be opened.";
return kUpdateNotAttempted;
}
if (fchmod(vdex_file->Fd(), file_mode) != 0) {
*error_msg = "Generation of oat file " + oat_file_name
+ " not attempted because the vdex file " + vdex_file_name
+ " could not be made world readable.";
return kUpdateNotAttempted;
}
Dex2oatFileWrapper oat_file_wrapper(OS::CreateEmptyFile(oat_file_name.c_str()));
File* oat_file = oat_file_wrapper.GetFile();
if (oat_file == nullptr) {
*error_msg = "Generation of oat file " + oat_file_name
+ " not attempted because the oat file could not be created.";
return kUpdateNotAttempted;
}
if (fchmod(oat_file->Fd(), file_mode) != 0) {
*error_msg = "Generation of oat file " + oat_file_name
+ " not attempted because the oat file could not be made world readable.";
return kUpdateNotAttempted;
}
std::vector<std::string> args;
args.push_back("--dex-file=" + dex_location_);
args.push_back("--output-vdex-fd=" + std::to_string(vdex_file->Fd()));
args.push_back("--oat-fd=" + std::to_string(oat_file->Fd()));
args.push_back("--oat-location=" + oat_file_name);
args.push_back("--compiler-filter=" + CompilerFilter::NameOfFilter(filter));
const std::string dex2oat_context = class_loader_context == nullptr
? OatFile::kSpecialSharedLibrary
: class_loader_context->EncodeContextForDex2oat(/*base_dir*/ "");
args.push_back("--class-loader-context=" + dex2oat_context);
if (!Dex2Oat(args, error_msg)) {
return kUpdateFailed;
}
if (vdex_file->FlushCloseOrErase() != 0) {
*error_msg = "Unable to close vdex file " + vdex_file_name;
return kUpdateFailed;
}
if (oat_file->FlushCloseOrErase() != 0) {
*error_msg = "Unable to close oat file " + oat_file_name;
return kUpdateFailed;
}
// Mark that the odex file has changed and we should try to reload.
info.Reset();
// We have compiled successfully. Disable the auto-unlink.
vdex_file_wrapper.DisableUnlinkAtDestruction();
oat_file_wrapper.DisableUnlinkAtDestruction();
return kUpdateSucceeded;
}
bool OatFileAssistant::Dex2Oat(const std::vector<std::string>& args,
std::string* error_msg) {
Runtime* runtime = Runtime::Current();
std::string image_location = ImageLocation();
if (image_location.empty()) {
*error_msg = "No image location found for Dex2Oat.";
return false;
}
std::vector<std::string> argv;
argv.push_back(runtime->GetCompilerExecutable());
if (runtime->IsJavaDebuggable()) {
argv.push_back("--debuggable");
}
runtime->AddCurrentRuntimeFeaturesAsDex2OatArguments(&argv);
if (!runtime->IsVerificationEnabled()) {
argv.push_back("--compiler-filter=verify-none");
}
if (runtime->MustRelocateIfPossible()) {
argv.push_back("--runtime-arg");
argv.push_back("-Xrelocate");
} else {
argv.push_back("--runtime-arg");
argv.push_back("-Xnorelocate");
}
if (!kIsTargetBuild) {
argv.push_back("--host");
}
argv.push_back("--boot-image=" + image_location);
std::vector<std::string> compiler_options = runtime->GetCompilerOptions();
argv.insert(argv.end(), compiler_options.begin(), compiler_options.end());
argv.insert(argv.end(), args.begin(), args.end());
std::string command_line(android::base::Join(argv, ' '));
return Exec(argv, error_msg);
}
bool OatFileAssistant::DexLocationToOdexFilename(const std::string& location,
InstructionSet isa,
std::string* odex_filename,
std::string* error_msg) {
return DexLocationToOdexNames(location, isa, odex_filename, nullptr, nullptr, error_msg);
}
bool OatFileAssistant::DexLocationToOatFilename(const std::string& location,
InstructionSet isa,
std::string* oat_filename,
std::string* error_msg) {
CHECK(oat_filename != nullptr);
CHECK(error_msg != nullptr);
std::string cache_dir = GetDalvikCache(GetInstructionSetString(isa));
if (cache_dir.empty()) {
*error_msg = "Dalvik cache directory does not exist";
return false;
}
// TODO: The oat file assistant should be the definitive place for
// determining the oat file name from the dex location, not
// GetDalvikCacheFilename.
return GetDalvikCacheFilename(location.c_str(), cache_dir.c_str(), oat_filename, error_msg);
}
std::string OatFileAssistant::ImageLocation() {
Runtime* runtime = Runtime::Current();
const std::vector<gc::space::ImageSpace*>& image_spaces =
runtime->GetHeap()->GetBootImageSpaces();
if (image_spaces.empty()) {
return "";
}
return image_spaces[0]->GetImageLocation();
}
const std::vector<uint32_t>* OatFileAssistant::GetRequiredDexChecksums() {
if (!required_dex_checksums_attempted_) {
required_dex_checksums_attempted_ = true;
required_dex_checksums_found_ = false;
cached_required_dex_checksums_.clear();
std::string error_msg;
const ArtDexFileLoader dex_file_loader;
if (dex_file_loader.GetMultiDexChecksums(dex_location_.c_str(),
&cached_required_dex_checksums_,
&error_msg,
zip_fd_,
&zip_file_only_contains_uncompressed_dex_)) {
required_dex_checksums_found_ = true;
has_original_dex_files_ = true;
} else {
// This can happen if the original dex file has been stripped from the
// apk.
VLOG(oat) << "OatFileAssistant: " << error_msg;
has_original_dex_files_ = false;
// Get the checksums from the odex if we can.
const OatFile* odex_file = odex_.GetFile();
if (odex_file != nullptr) {
required_dex_checksums_found_ = true;
for (size_t i = 0; i < odex_file->GetOatHeader().GetDexFileCount(); i++) {
std::string dex = DexFileLoader::GetMultiDexLocation(i, dex_location_.c_str());
const OatFile::OatDexFile* odex_dex_file = odex_file->GetOatDexFile(dex.c_str(), nullptr);
if (odex_dex_file == nullptr) {
required_dex_checksums_found_ = false;
break;
}
cached_required_dex_checksums_.push_back(odex_dex_file->GetDexFileLocationChecksum());
}
}
}
}
return required_dex_checksums_found_ ? &cached_required_dex_checksums_ : nullptr;
}
std::unique_ptr<OatFileAssistant::ImageInfo>
OatFileAssistant::ImageInfo::GetRuntimeImageInfo(InstructionSet isa, std::string* error_msg) {
CHECK(error_msg != nullptr);
Runtime* runtime = Runtime::Current();
std::unique_ptr<ImageInfo> info(new ImageInfo());
info->location = runtime->GetImageLocation();
std::unique_ptr<ImageHeader> image_header(
gc::space::ImageSpace::ReadImageHeader(info->location.c_str(), isa, error_msg));
if (image_header == nullptr) {
return nullptr;
}
info->oat_checksum = image_header->GetOatChecksum();
info->oat_data_begin = reinterpret_cast<uintptr_t>(image_header->GetOatDataBegin());
info->patch_delta = image_header->GetPatchDelta();
return info;
}
const OatFileAssistant::ImageInfo* OatFileAssistant::GetImageInfo() {
if (!image_info_load_attempted_) {
image_info_load_attempted_ = true;
std::string error_msg;
cached_image_info_ = ImageInfo::GetRuntimeImageInfo(isa_, &error_msg);
if (cached_image_info_ == nullptr) {
LOG(WARNING) << "Unable to get runtime image info: " << error_msg;
}
}
return cached_image_info_.get();
}
OatFileAssistant::OatFileInfo& OatFileAssistant::GetBestInfo() {
// TODO(calin): Document the side effects of class loading when
// running dalvikvm command line.
if (dex_parent_writable_ || UseFdToReadFiles()) {
// If the parent of the dex file is writable it means that we can
// create the odex file. In this case we unconditionally pick the odex
// as the best oat file. This corresponds to the regular use case when
// apps gets installed or when they load private, secondary dex file.
// For apps on the system partition the odex location will not be
// writable and thus the oat location might be more up to date.
return odex_;
}
// We cannot write to the odex location. This must be a system app.
// If the oat location is usable take it.
if (oat_.IsUseable()) {
return oat_;
}
// The oat file is not usable but the odex file might be up to date.
// This is an indication that we are dealing with an up to date prebuilt
// (that doesn't need relocation).
if (odex_.Status() == kOatUpToDate) {
return odex_;
}
// The oat file is not usable and the odex file is not up to date.
// However we have access to the original dex file which means we can make
// the oat location up to date.
if (HasOriginalDexFiles()) {
return oat_;
}
// We got into the worst situation here:
// - the oat location is not usable
// - the prebuild odex location is not up to date
// - and we don't have the original dex file anymore (stripped).
// Pick the odex if it exists, or the oat if not.
return (odex_.Status() == kOatCannotOpen) ? oat_ : odex_;
}
std::unique_ptr<gc::space::ImageSpace> OatFileAssistant::OpenImageSpace(const OatFile* oat_file) {
DCHECK(oat_file != nullptr);
std::string art_file = ReplaceFileExtension(oat_file->GetLocation(), "art");
if (art_file.empty()) {
return nullptr;
}
std::string error_msg;
ScopedObjectAccess soa(Thread::Current());
std::unique_ptr<gc::space::ImageSpace> ret =
gc::space::ImageSpace::CreateFromAppImage(art_file.c_str(), oat_file, &error_msg);
if (ret == nullptr && (VLOG_IS_ON(image) || OS::FileExists(art_file.c_str()))) {
LOG(INFO) << "Failed to open app image " << art_file.c_str() << " " << error_msg;
}
return ret;
}
OatFileAssistant::OatFileInfo::OatFileInfo(OatFileAssistant* oat_file_assistant,
bool is_oat_location)
: oat_file_assistant_(oat_file_assistant), is_oat_location_(is_oat_location)
{}
bool OatFileAssistant::OatFileInfo::IsOatLocation() {
return is_oat_location_;
}
const std::string* OatFileAssistant::OatFileInfo::Filename() {
return filename_provided_ ? &filename_ : nullptr;
}
bool OatFileAssistant::OatFileInfo::IsUseable() {
switch (Status()) {
case kOatCannotOpen:
case kOatDexOutOfDate:
case kOatBootImageOutOfDate: return false;
case kOatRelocationOutOfDate:
case kOatUpToDate: return true;
}
UNREACHABLE();
}
OatFileAssistant::OatStatus OatFileAssistant::OatFileInfo::Status() {
if (!status_attempted_) {
status_attempted_ = true;
const OatFile* file = GetFile();
if (file == nullptr) {
// Check to see if there is a vdex file we can make use of.
std::string error_msg;
std::string vdex_filename = GetVdexFilename(filename_);
std::unique_ptr<VdexFile> vdex;
if (use_fd_) {
if (vdex_fd_ >= 0) {
struct stat s;
int rc = TEMP_FAILURE_RETRY(fstat(vdex_fd_, &s));
if (rc == -1) {
error_msg = StringPrintf("Failed getting length of the vdex file %s.", strerror(errno));
} else {
vdex = VdexFile::Open(vdex_fd_,
s.st_size,
vdex_filename,
false /*writable*/,
false /*low_4gb*/,
false /* unquicken */,
&error_msg);
}
}
} else {
vdex = VdexFile::Open(vdex_filename,
false /*writeable*/,
false /*low_4gb*/,
false /*unquicken*/,
&error_msg);
}
if (vdex == nullptr) {
status_ = kOatCannotOpen;
VLOG(oat) << "unable to open vdex file " << vdex_filename << ": " << error_msg;
} else {
if (oat_file_assistant_->DexChecksumUpToDate(*vdex, &error_msg)) {
// The vdex file does not contain enough information to determine
// whether it is up to date with respect to the boot image, so we
// assume it is out of date.
VLOG(oat) << error_msg;
status_ = kOatBootImageOutOfDate;
} else {
status_ = kOatDexOutOfDate;
}
}
} else {
status_ = oat_file_assistant_->GivenOatFileStatus(*file);
VLOG(oat) << file->GetLocation() << " is " << status_
<< " with filter " << file->GetCompilerFilter();
}
}
return status_;
}
OatFileAssistant::DexOptNeeded OatFileAssistant::OatFileInfo::GetDexOptNeeded(
CompilerFilter::Filter target,
bool profile_changed,
bool downgrade,
ClassLoaderContext* context) {
bool compilation_desired = CompilerFilter::IsAotCompilationEnabled(target);
bool filter_okay = CompilerFilterIsOkay(target, profile_changed, downgrade);
bool class_loader_context_okay = ClassLoaderContextIsOkay(context);
// Only check the filter and relocation if the class loader context is ok.
// If it is not, we will return kDex2OatFromScratch as the compilation needs to be redone.
if (class_loader_context_okay) {
if (filter_okay && Status() == kOatUpToDate) {
// The oat file is in good shape as is.
return kNoDexOptNeeded;
}
if (filter_okay && !compilation_desired && Status() == kOatRelocationOutOfDate) {
// If no compilation is desired, then it doesn't matter if the oat
// file needs relocation. It's in good shape as is.
return kNoDexOptNeeded;
}
if (filter_okay && Status() == kOatRelocationOutOfDate) {
return kDex2OatForRelocation;
}
if (IsUseable()) {
return kDex2OatForFilter;
}
if (Status() == kOatBootImageOutOfDate) {
return kDex2OatForBootImage;
}
}
if (oat_file_assistant_->HasOriginalDexFiles()) {
return kDex2OatFromScratch;
} else {
// Otherwise there is nothing we can do, even if we want to.
return kNoDexOptNeeded;
}
}
const OatFile* OatFileAssistant::OatFileInfo::GetFile() {
CHECK(!file_released_) << "GetFile called after oat file released.";
if (!load_attempted_) {
load_attempted_ = true;
if (filename_provided_) {
bool executable = oat_file_assistant_->load_executable_;
if (executable && oat_file_assistant_->only_load_system_executable_) {
executable = LocationIsOnSystem(filename_.c_str());
}
std::string error_msg;
if (use_fd_) {
if (oat_fd_ >= 0 && vdex_fd_ >= 0) {
file_.reset(OatFile::Open(zip_fd_,
vdex_fd_,
oat_fd_,
filename_.c_str(),
nullptr,
nullptr,
executable,
false /* low_4gb */,
oat_file_assistant_->dex_location_.c_str(),
&error_msg));
}
} else {
file_.reset(OatFile::Open(/* zip_fd */ -1,
filename_.c_str(),
filename_.c_str(),
nullptr,
nullptr,
executable,
false /* low_4gb */,
oat_file_assistant_->dex_location_.c_str(),
&error_msg));
}
if (file_.get() == nullptr) {
VLOG(oat) << "OatFileAssistant test for existing oat file "
<< filename_ << ": " << error_msg;
}
}
}
return file_.get();
}
bool OatFileAssistant::OatFileInfo::CompilerFilterIsOkay(
CompilerFilter::Filter target, bool profile_changed, bool downgrade) {
const OatFile* file = GetFile();
if (file == nullptr) {
return false;
}
CompilerFilter::Filter current = file->GetCompilerFilter();
if (profile_changed && CompilerFilter::DependsOnProfile(current)) {
VLOG(oat) << "Compiler filter not okay because Profile changed";
return false;
}
return downgrade ? !CompilerFilter::IsBetter(current, target) :
CompilerFilter::IsAsGoodAs(current, target);
}
bool OatFileAssistant::OatFileInfo::ClassLoaderContextIsOkay(ClassLoaderContext* context) {
if (context == nullptr) {
VLOG(oat) << "ClassLoaderContext check ignored: null context";
return true;
}
const OatFile* file = GetFile();
if (file == nullptr) {
// No oat file means we have nothing to verify.
return true;
}
size_t dir_index = oat_file_assistant_->dex_location_.rfind('/');
std::string classpath_dir = (dir_index != std::string::npos)
? oat_file_assistant_->dex_location_.substr(0, dir_index)
: "";
if (!context->OpenDexFiles(oat_file_assistant_->isa_, classpath_dir)) {
VLOG(oat) << "ClassLoaderContext check failed: dex files from the context could not be opened";
return false;
}
const bool result = context->VerifyClassLoaderContextMatch(file->GetClassLoaderContext()) !=
ClassLoaderContext::VerificationResult::kMismatch;
if (!result) {
VLOG(oat) << "ClassLoaderContext check failed. Context was "
<< file->GetClassLoaderContext()
<< ". The expected context is " << context->EncodeContextForOatFile(classpath_dir);
}
return result;
}
bool OatFileAssistant::OatFileInfo::IsExecutable() {
const OatFile* file = GetFile();
return (file != nullptr && file->IsExecutable());
}
void OatFileAssistant::OatFileInfo::Reset() {
load_attempted_ = false;
file_.reset();
status_attempted_ = false;
}
void OatFileAssistant::OatFileInfo::Reset(const std::string& filename,
bool use_fd,
int zip_fd,
int vdex_fd,
int oat_fd) {
filename_provided_ = true;
filename_ = filename;
use_fd_ = use_fd;
zip_fd_ = zip_fd;
vdex_fd_ = vdex_fd;
oat_fd_ = oat_fd;
Reset();
}
std::unique_ptr<OatFile> OatFileAssistant::OatFileInfo::ReleaseFile() {
file_released_ = true;
return std::move(file_);
}
std::unique_ptr<OatFile> OatFileAssistant::OatFileInfo::ReleaseFileForUse() {
if (Status() == kOatUpToDate) {
return ReleaseFile();
}
VLOG(oat) << "Oat File Assistant: No relocated oat file found,"
<< " attempting to fall back to interpreting oat file instead.";
if (Status() == kOatRelocationOutOfDate && !IsExecutable()) {
return ReleaseFile();
}
switch (Status()) {
case kOatBootImageOutOfDate:
// OutOfDate may be either a mismatched image, or a missing image.
if (oat_file_assistant_->HasOriginalDexFiles()) {
// If there are original dex files, it is better to use them (to avoid a potential
// quickening mismatch because the boot image changed).
break;
}
// If we do not accept the oat file, we may not have access to dex bytecode at all. Grudgingly
// go forward.
FALLTHROUGH_INTENDED;
case kOatRelocationOutOfDate:
// We are loading an oat file for runtime use that needs relocation.
// Reload the file non-executable to ensure that we interpret out of the
// dex code in the oat file rather than trying to execute the unrelocated
// compiled code.
oat_file_assistant_->load_executable_ = false;
Reset();
if (IsUseable()) {
CHECK(!IsExecutable());
return ReleaseFile();
}
break;
case kOatUpToDate:
case kOatCannotOpen:
case kOatDexOutOfDate:
break;
}
return std::unique_ptr<OatFile>();
}
// TODO(calin): we could provide a more refined status here
// (e.g. run from uncompressed apk, run with vdex but not oat etc). It will allow us to
// track more experiments but adds extra complexity.
void OatFileAssistant::GetOptimizationStatus(
const std::string& filename,
InstructionSet isa,
std::string* out_compilation_filter,
std::string* out_compilation_reason) {
// It may not be possible to load an oat file executable (e.g., selinux restrictions). Load
// non-executable and check the status manually.
OatFileAssistant oat_file_assistant(filename.c_str(), isa, false /* load_executable */);
std::unique_ptr<OatFile> oat_file = oat_file_assistant.GetBestOatFile();
if (oat_file == nullptr) {
*out_compilation_filter = "run-from-apk";
*out_compilation_reason = "unknown";
return;
}
OatStatus status = oat_file_assistant.GivenOatFileStatus(*oat_file);
const char* reason = oat_file->GetCompilationReason();
*out_compilation_reason = reason == nullptr ? "unknown" : reason;
switch (status) {
case OatStatus::kOatUpToDate:
*out_compilation_filter = CompilerFilter::NameOfFilter(oat_file->GetCompilerFilter());
return;
case kOatCannotOpen: // This should never happen, but be robust.
*out_compilation_filter = "error";
*out_compilation_reason = "error";
return;
// kOatBootImageOutOfDate - The oat file is up to date with respect to the
// dex file, but is out of date with respect to the boot image.
case kOatBootImageOutOfDate:
FALLTHROUGH_INTENDED;
case kOatDexOutOfDate:
if (oat_file_assistant.HasOriginalDexFiles()) {
*out_compilation_filter = "run-from-apk-fallback";
} else {
*out_compilation_filter = "run-from-vdex-fallback";
}
return;
case kOatRelocationOutOfDate:
// On relocation-out-of-date, we'd run the dex code.
*out_compilation_filter = "run-from-vdex-fallback";
return;
}
LOG(FATAL) << "Unreachable";
UNREACHABLE();
}
} // namespace art