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/*
* Copyright (C) 2011 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_writer.h"
#include <unistd.h>
#include <zlib.h>
#include "arch/arm64/instruction_set_features_arm64.h"
#include "art_method-inl.h"
#include "base/allocator.h"
#include "base/bit_vector-inl.h"
#include "base/enums.h"
#include "base/file_magic.h"
#include "base/stl_util.h"
#include "base/unix_file/fd_file.h"
#include "class_linker.h"
#include "compiled_method.h"
#include "debug/method_debug_info.h"
#include "dex/verification_results.h"
#include "dex_file-inl.h"
#include "dexlayout.h"
#include "driver/compiler_driver-inl.h"
#include "driver/compiler_options.h"
#include "gc/space/image_space.h"
#include "gc/space/space.h"
#include "handle_scope-inl.h"
#include "image_writer.h"
#include "linker/buffered_output_stream.h"
#include "linker/file_output_stream.h"
#include "linker/method_bss_mapping_encoder.h"
#include "linker/multi_oat_relative_patcher.h"
#include "linker/output_stream.h"
#include "mirror/array.h"
#include "mirror/class_loader.h"
#include "mirror/dex_cache-inl.h"
#include "mirror/object-inl.h"
#include "oat_quick_method_header.h"
#include "os.h"
#include "safe_map.h"
#include "scoped_thread_state_change-inl.h"
#include "type_lookup_table.h"
#include "utils/dex_cache_arrays_layout-inl.h"
#include "vdex_file.h"
#include "verifier/verifier_deps.h"
#include "zip_archive.h"
namespace art {
namespace { // anonymous namespace
typedef DexFile::Header __attribute__((aligned(1))) UnalignedDexFileHeader;
const UnalignedDexFileHeader* AsUnalignedDexFileHeader(const uint8_t* raw_data) {
return reinterpret_cast<const UnalignedDexFileHeader*>(raw_data);
}
class ChecksumUpdatingOutputStream : public OutputStream {
public:
ChecksumUpdatingOutputStream(OutputStream* out, OatHeader* oat_header)
: OutputStream(out->GetLocation()), out_(out), oat_header_(oat_header) { }
bool WriteFully(const void* buffer, size_t byte_count) OVERRIDE {
oat_header_->UpdateChecksum(buffer, byte_count);
return out_->WriteFully(buffer, byte_count);
}
off_t Seek(off_t offset, Whence whence) OVERRIDE {
return out_->Seek(offset, whence);
}
bool Flush() OVERRIDE {
return out_->Flush();
}
private:
OutputStream* const out_;
OatHeader* const oat_header_;
};
inline uint32_t CodeAlignmentSize(uint32_t header_offset, const CompiledMethod& compiled_method) {
// We want to align the code rather than the preheader.
uint32_t unaligned_code_offset = header_offset + sizeof(OatQuickMethodHeader);
uint32_t aligned_code_offset = compiled_method.AlignCode(unaligned_code_offset);
return aligned_code_offset - unaligned_code_offset;
}
} // anonymous namespace
// Defines the location of the raw dex file to write.
class OatWriter::DexFileSource {
public:
enum Type {
kNone,
kZipEntry,
kRawFile,
kRawData,
};
explicit DexFileSource(ZipEntry* zip_entry)
: type_(kZipEntry), source_(zip_entry) {
DCHECK(source_ != nullptr);
}
explicit DexFileSource(File* raw_file)
: type_(kRawFile), source_(raw_file) {
DCHECK(source_ != nullptr);
}
explicit DexFileSource(const uint8_t* dex_file)
: type_(kRawData), source_(dex_file) {
DCHECK(source_ != nullptr);
}
Type GetType() const { return type_; }
bool IsZipEntry() const { return type_ == kZipEntry; }
bool IsRawFile() const { return type_ == kRawFile; }
bool IsRawData() const { return type_ == kRawData; }
ZipEntry* GetZipEntry() const {
DCHECK(IsZipEntry());
DCHECK(source_ != nullptr);
return static_cast<ZipEntry*>(const_cast<void*>(source_));
}
File* GetRawFile() const {
DCHECK(IsRawFile());
DCHECK(source_ != nullptr);
return static_cast<File*>(const_cast<void*>(source_));
}
const uint8_t* GetRawData() const {
DCHECK(IsRawData());
DCHECK(source_ != nullptr);
return static_cast<const uint8_t*>(source_);
}
void Clear() {
type_ = kNone;
source_ = nullptr;
}
private:
Type type_;
const void* source_;
};
class OatWriter::OatClass {
public:
OatClass(size_t offset,
const dchecked_vector<CompiledMethod*>& compiled_methods,
uint32_t num_non_null_compiled_methods,
mirror::Class::Status status);
OatClass(OatClass&& src) = default;
size_t GetOatMethodOffsetsOffsetFromOatHeader(size_t class_def_method_index_) const;
size_t GetOatMethodOffsetsOffsetFromOatClass(size_t class_def_method_index_) const;
size_t SizeOf() const;
bool Write(OatWriter* oat_writer, OutputStream* out, const size_t file_offset) const;
CompiledMethod* GetCompiledMethod(size_t class_def_method_index) const {
return compiled_methods_[class_def_method_index];
}
// Offset of start of OatClass from beginning of OatHeader. It is
// used to validate file position when writing.
size_t offset_;
// CompiledMethods for each class_def_method_index, or null if no method is available.
dchecked_vector<CompiledMethod*> compiled_methods_;
// Offset from OatClass::offset_ to the OatMethodOffsets for the
// class_def_method_index. If 0, it means the corresponding
// CompiledMethod entry in OatClass::compiled_methods_ should be
// null and that the OatClass::type_ should be kOatClassBitmap.
dchecked_vector<uint32_t> oat_method_offsets_offsets_from_oat_class_;
// Data to write.
static_assert(mirror::Class::Status::kStatusMax < (1 << 16), "class status won't fit in 16bits");
int16_t status_;
static_assert(OatClassType::kOatClassMax < (1 << 16), "oat_class type won't fit in 16bits");
uint16_t type_;
uint32_t method_bitmap_size_;
// bit vector indexed by ClassDef method index. When
// OatClassType::type_ is kOatClassBitmap, a set bit indicates the
// method has an OatMethodOffsets in methods_offsets_, otherwise
// the entry was ommited to save space. If OatClassType::type_ is
// not is kOatClassBitmap, the bitmap will be null.
std::unique_ptr<BitVector> method_bitmap_;
// OatMethodOffsets and OatMethodHeaders for each CompiledMethod
// present in the OatClass. Note that some may be missing if
// OatClass::compiled_methods_ contains null values (and
// oat_method_offsets_offsets_from_oat_class_ should contain 0
// values in this case).
dchecked_vector<OatMethodOffsets> method_offsets_;
dchecked_vector<OatQuickMethodHeader> method_headers_;
private:
size_t GetMethodOffsetsRawSize() const {
return method_offsets_.size() * sizeof(method_offsets_[0]);
}
DISALLOW_COPY_AND_ASSIGN(OatClass);
};
class OatWriter::OatDexFile {
public:
OatDexFile(const char* dex_file_location,
DexFileSource source,
CreateTypeLookupTable create_type_lookup_table);
OatDexFile(OatDexFile&& src) = default;
const char* GetLocation() const {
return dex_file_location_data_;
}
size_t SizeOf() const;
bool Write(OatWriter* oat_writer, OutputStream* out) const;
bool WriteClassOffsets(OatWriter* oat_writer, OutputStream* out);
size_t GetClassOffsetsRawSize() const {
return class_offsets_.size() * sizeof(class_offsets_[0]);
}
// The source of the dex file.
DexFileSource source_;
// Whether to create the type lookup table.
CreateTypeLookupTable create_type_lookup_table_;
// Dex file size. Initialized when writing the dex file.
size_t dex_file_size_;
// Offset of start of OatDexFile from beginning of OatHeader. It is
// used to validate file position when writing.
size_t offset_;
// Data to write.
uint32_t dex_file_location_size_;
const char* dex_file_location_data_;
uint32_t dex_file_location_checksum_;
uint32_t dex_file_offset_;
uint32_t class_offsets_offset_;
uint32_t lookup_table_offset_;
uint32_t method_bss_mapping_offset_;
// Data to write to a separate section.
dchecked_vector<uint32_t> class_offsets_;
private:
DISALLOW_COPY_AND_ASSIGN(OatDexFile);
};
#define DCHECK_OFFSET() \
DCHECK_EQ(static_cast<off_t>(file_offset + relative_offset), out->Seek(0, kSeekCurrent)) \
<< "file_offset=" << file_offset << " relative_offset=" << relative_offset
#define DCHECK_OFFSET_() \
DCHECK_EQ(static_cast<off_t>(file_offset + offset_), out->Seek(0, kSeekCurrent)) \
<< "file_offset=" << file_offset << " offset_=" << offset_
OatWriter::OatWriter(bool compiling_boot_image, TimingLogger* timings, ProfileCompilationInfo* info)
: write_state_(WriteState::kAddingDexFileSources),
timings_(timings),
raw_dex_files_(),
zip_archives_(),
zipped_dex_files_(),
zipped_dex_file_locations_(),
compiler_driver_(nullptr),
image_writer_(nullptr),
compiling_boot_image_(compiling_boot_image),
dex_files_(nullptr),
vdex_size_(0u),
vdex_dex_files_offset_(0u),
vdex_verifier_deps_offset_(0u),
vdex_quickening_info_offset_(0u),
oat_size_(0u),
bss_start_(0u),
bss_size_(0u),
bss_methods_offset_(0u),
bss_roots_offset_(0u),
bss_method_entry_references_(),
bss_method_entries_(),
bss_type_entries_(),
bss_string_entries_(),
oat_data_offset_(0u),
oat_header_(nullptr),
size_vdex_header_(0),
size_vdex_checksums_(0),
size_dex_file_alignment_(0),
size_executable_offset_alignment_(0),
size_oat_header_(0),
size_oat_header_key_value_store_(0),
size_dex_file_(0),
size_verifier_deps_(0),
size_verifier_deps_alignment_(0),
size_quickening_info_(0),
size_quickening_info_alignment_(0),
size_interpreter_to_interpreter_bridge_(0),
size_interpreter_to_compiled_code_bridge_(0),
size_jni_dlsym_lookup_(0),
size_quick_generic_jni_trampoline_(0),
size_quick_imt_conflict_trampoline_(0),
size_quick_resolution_trampoline_(0),
size_quick_to_interpreter_bridge_(0),
size_trampoline_alignment_(0),
size_method_header_(0),
size_code_(0),
size_code_alignment_(0),
size_relative_call_thunks_(0),
size_misc_thunks_(0),
size_vmap_table_(0),
size_method_info_(0),
size_oat_dex_file_location_size_(0),
size_oat_dex_file_location_data_(0),
size_oat_dex_file_location_checksum_(0),
size_oat_dex_file_offset_(0),
size_oat_dex_file_class_offsets_offset_(0),
size_oat_dex_file_lookup_table_offset_(0),
size_oat_dex_file_method_bss_mapping_offset_(0),
size_oat_lookup_table_alignment_(0),
size_oat_lookup_table_(0),
size_oat_class_offsets_alignment_(0),
size_oat_class_offsets_(0),
size_oat_class_type_(0),
size_oat_class_status_(0),
size_oat_class_method_bitmaps_(0),
size_oat_class_method_offsets_(0),
size_method_bss_mappings_(0u),
relative_patcher_(nullptr),
absolute_patch_locations_(),
profile_compilation_info_(info) {
}
bool OatWriter::AddDexFileSource(const char* filename,
const char* location,
CreateTypeLookupTable create_type_lookup_table) {
DCHECK(write_state_ == WriteState::kAddingDexFileSources);
uint32_t magic;
std::string error_msg;
File fd = OpenAndReadMagic(filename, &magic, &error_msg);
if (fd.Fd() == -1) {
PLOG(ERROR) << "Failed to read magic number from dex file: '" << filename << "'";
return false;
} else if (IsDexMagic(magic)) {
// The file is open for reading, not writing, so it's OK to let the File destructor
// close it without checking for explicit Close(), so pass checkUsage = false.
raw_dex_files_.emplace_back(new File(fd.Release(), location, /* checkUsage */ false));
oat_dex_files_.emplace_back(location,
DexFileSource(raw_dex_files_.back().get()),
create_type_lookup_table);
} else if (IsZipMagic(magic)) {
if (!AddZippedDexFilesSource(std::move(fd), location, create_type_lookup_table)) {
return false;
}
} else {
LOG(ERROR) << "Expected valid zip or dex file: '" << filename << "'";
return false;
}
return true;
}
// Add dex file source(s) from a zip file specified by a file handle.
bool OatWriter::AddZippedDexFilesSource(File&& zip_fd,
const char* location,
CreateTypeLookupTable create_type_lookup_table) {
DCHECK(write_state_ == WriteState::kAddingDexFileSources);
std::string error_msg;
zip_archives_.emplace_back(ZipArchive::OpenFromFd(zip_fd.Release(), location, &error_msg));
ZipArchive* zip_archive = zip_archives_.back().get();
if (zip_archive == nullptr) {
LOG(ERROR) << "Failed to open zip from file descriptor for '" << location << "': "
<< error_msg;
return false;
}
for (size_t i = 0; ; ++i) {
std::string entry_name = DexFile::GetMultiDexClassesDexName(i);
std::unique_ptr<ZipEntry> entry(zip_archive->Find(entry_name.c_str(), &error_msg));
if (entry == nullptr) {
break;
}
zipped_dex_files_.push_back(std::move(entry));
zipped_dex_file_locations_.push_back(DexFile::GetMultiDexLocation(i, location));
const char* full_location = zipped_dex_file_locations_.back().c_str();
oat_dex_files_.emplace_back(full_location,
DexFileSource(zipped_dex_files_.back().get()),
create_type_lookup_table);
}
if (zipped_dex_file_locations_.empty()) {
LOG(ERROR) << "No dex files in zip file '" << location << "': " << error_msg;
return false;
}
return true;
}
// Add dex file source(s) from a vdex file specified by a file handle.
bool OatWriter::AddVdexDexFilesSource(const VdexFile& vdex_file,
const char* location,
CreateTypeLookupTable create_type_lookup_table) {
DCHECK(write_state_ == WriteState::kAddingDexFileSources);
const uint8_t* current_dex_data = nullptr;
for (size_t i = 0; i < vdex_file.GetHeader().GetNumberOfDexFiles(); ++i) {
current_dex_data = vdex_file.GetNextDexFileData(current_dex_data);
if (current_dex_data == nullptr) {
LOG(ERROR) << "Unexpected number of dex files in vdex " << location;
return false;
}
if (!DexFile::IsMagicValid(current_dex_data)) {
LOG(ERROR) << "Invalid magic in vdex file created from " << location;
return false;
}
// We used `zipped_dex_file_locations_` to keep the strings in memory.
zipped_dex_file_locations_.push_back(DexFile::GetMultiDexLocation(i, location));
const char* full_location = zipped_dex_file_locations_.back().c_str();
oat_dex_files_.emplace_back(full_location,
DexFileSource(current_dex_data),
create_type_lookup_table);
oat_dex_files_.back().dex_file_location_checksum_ = vdex_file.GetLocationChecksum(i);
}
if (vdex_file.GetNextDexFileData(current_dex_data) != nullptr) {
LOG(ERROR) << "Unexpected number of dex files in vdex " << location;
return false;
}
if (oat_dex_files_.empty()) {
LOG(ERROR) << "No dex files in vdex file created from " << location;
return false;
}
return true;
}
// Add dex file source from raw memory.
bool OatWriter::AddRawDexFileSource(const ArrayRef<const uint8_t>& data,
const char* location,
uint32_t location_checksum,
CreateTypeLookupTable create_type_lookup_table) {
DCHECK(write_state_ == WriteState::kAddingDexFileSources);
if (data.size() < sizeof(DexFile::Header)) {
LOG(ERROR) << "Provided data is shorter than dex file header. size: "
<< data.size() << " File: " << location;
return false;
}
if (!ValidateDexFileHeader(data.data(), location)) {
return false;
}
const UnalignedDexFileHeader* header = AsUnalignedDexFileHeader(data.data());
if (data.size() < header->file_size_) {
LOG(ERROR) << "Truncated dex file data. Data size: " << data.size()
<< " file size from header: " << header->file_size_ << " File: " << location;
return false;
}
oat_dex_files_.emplace_back(location, DexFileSource(data.data()), create_type_lookup_table);
oat_dex_files_.back().dex_file_location_checksum_ = location_checksum;
return true;
}
dchecked_vector<const char*> OatWriter::GetSourceLocations() const {
dchecked_vector<const char*> locations;
locations.reserve(oat_dex_files_.size());
for (const OatDexFile& oat_dex_file : oat_dex_files_) {
locations.push_back(oat_dex_file.GetLocation());
}
return locations;
}
bool OatWriter::WriteAndOpenDexFiles(
File* vdex_file,
OutputStream* oat_rodata,
InstructionSet instruction_set,
const InstructionSetFeatures* instruction_set_features,
SafeMap<std::string, std::string>* key_value_store,
bool verify,
bool update_input_vdex,
/*out*/ std::unique_ptr<MemMap>* opened_dex_files_map,
/*out*/ std::vector<std::unique_ptr<const DexFile>>* opened_dex_files) {
CHECK(write_state_ == WriteState::kAddingDexFileSources);
// Record the ELF rodata section offset, i.e. the beginning of the OAT data.
if (!RecordOatDataOffset(oat_rodata)) {
return false;
}
std::unique_ptr<MemMap> dex_files_map;
std::vector<std::unique_ptr<const DexFile>> dex_files;
// Initialize VDEX and OAT headers.
if (kIsVdexEnabled) {
// Reserve space for Vdex header and checksums.
vdex_size_ = sizeof(VdexFile::Header) + oat_dex_files_.size() * sizeof(VdexFile::VdexChecksum);
}
oat_size_ = InitOatHeader(instruction_set,
instruction_set_features,
dchecked_integral_cast<uint32_t>(oat_dex_files_.size()),
key_value_store);
ChecksumUpdatingOutputStream checksum_updating_rodata(oat_rodata, oat_header_.get());
if (kIsVdexEnabled) {
std::unique_ptr<BufferedOutputStream> vdex_out(
MakeUnique<BufferedOutputStream>(MakeUnique<FileOutputStream>(vdex_file)));
// Write DEX files into VDEX, mmap and open them.
if (!WriteDexFiles(vdex_out.get(), vdex_file, update_input_vdex) ||
!OpenDexFiles(vdex_file, verify, &dex_files_map, &dex_files)) {
return false;
}
} else {
DCHECK(!update_input_vdex);
// Write DEX files into OAT, mmap and open them.
if (!WriteDexFiles(oat_rodata, vdex_file, update_input_vdex) ||
!OpenDexFiles(vdex_file, verify, &dex_files_map, &dex_files)) {
return false;
}
// Do a bulk checksum update for Dex[]. Doing it piece by piece would be
// difficult because we're not using the OutputStream directly.
if (!oat_dex_files_.empty()) {
size_t size = oat_size_ - oat_dex_files_[0].dex_file_offset_;
oat_header_->UpdateChecksum(dex_files_map->Begin(), size);
}
}
// Write TypeLookupTables into OAT.
if (!WriteTypeLookupTables(&checksum_updating_rodata, dex_files)) {
return false;
}
*opened_dex_files_map = std::move(dex_files_map);
*opened_dex_files = std::move(dex_files);
write_state_ = WriteState::kPrepareLayout;
return true;
}
void OatWriter::PrepareLayout(linker::MultiOatRelativePatcher* relative_patcher) {
CHECK(write_state_ == WriteState::kPrepareLayout);
relative_patcher_ = relative_patcher;
SetMultiOatRelativePatcherAdjustment();
if (compiling_boot_image_) {
CHECK(image_writer_ != nullptr);
}
InstructionSet instruction_set = compiler_driver_->GetInstructionSet();
CHECK_EQ(instruction_set, oat_header_->GetInstructionSet());
{
TimingLogger::ScopedTiming split("InitBssLayout", timings_);
InitBssLayout(instruction_set);
}
uint32_t offset = oat_size_;
{
TimingLogger::ScopedTiming split("InitClassOffsets", timings_);
offset = InitClassOffsets(offset);
}
{
TimingLogger::ScopedTiming split("InitOatClasses", timings_);
offset = InitOatClasses(offset);
}
{
TimingLogger::ScopedTiming split("InitMethodBssMappings", timings_);
offset = InitMethodBssMappings(offset);
}
{
TimingLogger::ScopedTiming split("InitOatMaps", timings_);
offset = InitOatMaps(offset);
}
{
TimingLogger::ScopedTiming split("InitOatDexFiles", timings_);
oat_header_->SetOatDexFilesOffset(offset);
offset = InitOatDexFiles(offset);
}
{
TimingLogger::ScopedTiming split("InitOatCode", timings_);
offset = InitOatCode(offset);
}
{
TimingLogger::ScopedTiming split("InitOatCodeDexFiles", timings_);
offset = InitOatCodeDexFiles(offset);
}
oat_size_ = offset;
bss_start_ = (bss_size_ != 0u) ? RoundUp(oat_size_, kPageSize) : 0u;
CHECK_EQ(dex_files_->size(), oat_dex_files_.size());
if (compiling_boot_image_) {
CHECK_EQ(image_writer_ != nullptr,
oat_header_->GetStoreValueByKey(OatHeader::kImageLocationKey) == nullptr);
}
write_state_ = WriteState::kWriteRoData;
}
OatWriter::~OatWriter() {
}
class OatWriter::DexMethodVisitor {
public:
DexMethodVisitor(OatWriter* writer, size_t offset)
: writer_(writer),
offset_(offset),
dex_file_(nullptr),
class_def_index_(DexFile::kDexNoIndex) {}
virtual bool StartClass(const DexFile* dex_file, size_t class_def_index) {
DCHECK(dex_file_ == nullptr);
DCHECK_EQ(class_def_index_, DexFile::kDexNoIndex);
dex_file_ = dex_file;
class_def_index_ = class_def_index;
return true;
}
virtual bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it) = 0;
virtual bool EndClass() {
if (kIsDebugBuild) {
dex_file_ = nullptr;
class_def_index_ = DexFile::kDexNoIndex;
}
return true;
}
size_t GetOffset() const {
return offset_;
}
protected:
virtual ~DexMethodVisitor() { }
OatWriter* const writer_;
// The offset is usually advanced for each visited method by the derived class.
size_t offset_;
// The dex file and class def index are set in StartClass().
const DexFile* dex_file_;
size_t class_def_index_;
};
class OatWriter::OatDexMethodVisitor : public DexMethodVisitor {
public:
OatDexMethodVisitor(OatWriter* writer, size_t offset)
: DexMethodVisitor(writer, offset),
oat_class_index_(0u),
method_offsets_index_(0u) {}
bool StartClass(const DexFile* dex_file, size_t class_def_index) OVERRIDE {
DexMethodVisitor::StartClass(dex_file, class_def_index);
DCHECK_LT(oat_class_index_, writer_->oat_classes_.size());
method_offsets_index_ = 0u;
return true;
}
bool EndClass() OVERRIDE {
++oat_class_index_;
return DexMethodVisitor::EndClass();
}
protected:
size_t oat_class_index_;
size_t method_offsets_index_;
};
class OatWriter::InitBssLayoutMethodVisitor : public DexMethodVisitor {
public:
explicit InitBssLayoutMethodVisitor(OatWriter* writer)
: DexMethodVisitor(writer, /* offset */ 0u) {}
bool VisitMethod(size_t class_def_method_index ATTRIBUTE_UNUSED,
const ClassDataItemIterator& it) OVERRIDE {
// Look for patches with .bss references and prepare maps with placeholders for their offsets.
CompiledMethod* compiled_method = writer_->compiler_driver_->GetCompiledMethod(
MethodReference(dex_file_, it.GetMemberIndex()));
if (compiled_method != nullptr) {
for (const LinkerPatch& patch : compiled_method->GetPatches()) {
if (patch.GetType() == LinkerPatch::Type::kMethodBssEntry) {
MethodReference target_method = patch.TargetMethod();
auto refs_it = writer_->bss_method_entry_references_.find(target_method.dex_file);
if (refs_it == writer_->bss_method_entry_references_.end()) {
refs_it = writer_->bss_method_entry_references_.Put(
target_method.dex_file,
BitVector(target_method.dex_file->NumMethodIds(),
/* expandable */ false,
Allocator::GetMallocAllocator()));
refs_it->second.ClearAllBits();
}
refs_it->second.SetBit(target_method.dex_method_index);
writer_->bss_method_entries_.Overwrite(target_method, /* placeholder */ 0u);
} else if (patch.GetType() == LinkerPatch::Type::kTypeBssEntry) {
TypeReference ref(patch.TargetTypeDexFile(), patch.TargetTypeIndex());
writer_->bss_type_entries_.Overwrite(ref, /* placeholder */ 0u);
} else if (patch.GetType() == LinkerPatch::Type::kStringBssEntry) {
StringReference ref(patch.TargetStringDexFile(), patch.TargetStringIndex());
writer_->bss_string_entries_.Overwrite(ref, /* placeholder */ 0u);
}
}
}
return true;
}
};
class OatWriter::InitOatClassesMethodVisitor : public DexMethodVisitor {
public:
InitOatClassesMethodVisitor(OatWriter* writer, size_t offset)
: DexMethodVisitor(writer, offset),
compiled_methods_(),
num_non_null_compiled_methods_(0u) {
size_t num_classes = 0u;
for (const OatDexFile& oat_dex_file : writer_->oat_dex_files_) {
num_classes += oat_dex_file.class_offsets_.size();
}
writer_->oat_classes_.reserve(num_classes);
compiled_methods_.reserve(256u);
// If there are any classes, the class offsets allocation aligns the offset.
DCHECK(num_classes == 0u || IsAligned<4u>(offset));
}
bool StartClass(const DexFile* dex_file, size_t class_def_index) OVERRIDE {
DexMethodVisitor::StartClass(dex_file, class_def_index);
compiled_methods_.clear();
num_non_null_compiled_methods_ = 0u;
return true;
}
bool VisitMethod(size_t class_def_method_index ATTRIBUTE_UNUSED,
const ClassDataItemIterator& it) OVERRIDE {
// Fill in the compiled_methods_ array for methods that have a
// CompiledMethod. We track the number of non-null entries in
// num_non_null_compiled_methods_ since we only want to allocate
// OatMethodOffsets for the compiled methods.
uint32_t method_idx = it.GetMemberIndex();
CompiledMethod* compiled_method =
writer_->compiler_driver_->GetCompiledMethod(MethodReference(dex_file_, method_idx));
compiled_methods_.push_back(compiled_method);
if (compiled_method != nullptr) {
++num_non_null_compiled_methods_;
}
return true;
}
bool EndClass() OVERRIDE {
ClassReference class_ref(dex_file_, class_def_index_);
mirror::Class::Status status;
bool found = writer_->compiler_driver_->GetCompiledClass(class_ref, &status);
if (!found) {
if (writer_->compiler_driver_->GetVerificationResults()->IsClassRejected(class_ref)) {
// The oat class status is used only for verification of resolved classes,
// so use kStatusErrorResolved whether the class was resolved or unresolved
// during compile-time verification.
status = mirror::Class::kStatusErrorResolved;
} else {
status = mirror::Class::kStatusNotReady;
}
}
writer_->oat_classes_.emplace_back(offset_,
compiled_methods_,
num_non_null_compiled_methods_,
status);
offset_ += writer_->oat_classes_.back().SizeOf();
return DexMethodVisitor::EndClass();
}
private:
dchecked_vector<CompiledMethod*> compiled_methods_;
size_t num_non_null_compiled_methods_;
};
class OatWriter::InitCodeMethodVisitor : public OatDexMethodVisitor {
public:
InitCodeMethodVisitor(OatWriter* writer, size_t offset, size_t quickening_info_offset)
: OatDexMethodVisitor(writer, offset),
debuggable_(writer->GetCompilerDriver()->GetCompilerOptions().GetDebuggable()),
current_quickening_info_offset_(quickening_info_offset) {
writer_->absolute_patch_locations_.reserve(
writer_->compiler_driver_->GetNonRelativeLinkerPatchCount());
}
bool EndClass() OVERRIDE {
OatDexMethodVisitor::EndClass();
if (oat_class_index_ == writer_->oat_classes_.size()) {
offset_ = writer_->relative_patcher_->ReserveSpaceEnd(offset_);
}
return true;
}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it) OVERRIDE
REQUIRES_SHARED(Locks::mutator_lock_) {
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
if (it.GetMethodCodeItem() != nullptr) {
current_quickening_info_offset_ += sizeof(uint32_t);
}
if (compiled_method != nullptr) {
// Derived from CompiledMethod.
uint32_t quick_code_offset = 0;
ArrayRef<const uint8_t> quick_code = compiled_method->GetQuickCode();
uint32_t code_size = quick_code.size() * sizeof(uint8_t);
uint32_t thumb_offset = compiled_method->CodeDelta();
// Deduplicate code arrays if we are not producing debuggable code.
bool deduped = true;
MethodReference method_ref(dex_file_, it.GetMemberIndex());
if (debuggable_) {
quick_code_offset = writer_->relative_patcher_->GetOffset(method_ref);
if (quick_code_offset != 0u) {
// Duplicate methods, we want the same code for both of them so that the oat writer puts
// the same code in both ArtMethods so that we do not get different oat code at runtime.
} else {
quick_code_offset = NewQuickCodeOffset(compiled_method, it, thumb_offset);
deduped = false;
}
} else {
quick_code_offset = dedupe_map_.GetOrCreate(
compiled_method,
[this, &deduped, compiled_method, &it, thumb_offset]() {
deduped = false;
return NewQuickCodeOffset(compiled_method, it, thumb_offset);
});
}
if (code_size != 0) {
if (writer_->relative_patcher_->GetOffset(method_ref) != 0u) {
// TODO: Should this be a hard failure?
LOG(WARNING) << "Multiple definitions of "
<< method_ref.dex_file->PrettyMethod(method_ref.dex_method_index)
<< " offsets " << writer_->relative_patcher_->GetOffset(method_ref)
<< " " << quick_code_offset;
} else {
writer_->relative_patcher_->SetOffset(method_ref, quick_code_offset);
}
}
// Update quick method header.
DCHECK_LT(method_offsets_index_, oat_class->method_headers_.size());
OatQuickMethodHeader* method_header = &oat_class->method_headers_[method_offsets_index_];
uint32_t vmap_table_offset = method_header->GetVmapTableOffset();
uint32_t method_info_offset = method_header->GetMethodInfoOffset();
// The code offset was 0 when the mapping/vmap table offset was set, so it's set
// to 0-offset and we need to adjust it by code_offset.
uint32_t code_offset = quick_code_offset - thumb_offset;
if (!compiled_method->GetQuickCode().empty()) {
// If the code is compiled, we write the offset of the stack map relative
// to the code,
if (vmap_table_offset != 0u) {
vmap_table_offset += code_offset;
DCHECK_LT(vmap_table_offset, code_offset);
}
if (method_info_offset != 0u) {
method_info_offset += code_offset;
DCHECK_LT(method_info_offset, code_offset);
}
} else {
CHECK(compiled_method->GetMethodInfo().empty());
if (kIsVdexEnabled) {
// We write the offset in the .vdex file.
DCHECK_EQ(vmap_table_offset, 0u);
vmap_table_offset = current_quickening_info_offset_;
ArrayRef<const uint8_t> vmap_table = compiled_method->GetVmapTable();
current_quickening_info_offset_ += vmap_table.size() * sizeof(vmap_table.front());
} else {
// We write the offset of the quickening info relative to the code.
vmap_table_offset += code_offset;
DCHECK_LT(vmap_table_offset, code_offset);
}
}
uint32_t frame_size_in_bytes = compiled_method->GetFrameSizeInBytes();
uint32_t core_spill_mask = compiled_method->GetCoreSpillMask();
uint32_t fp_spill_mask = compiled_method->GetFpSpillMask();
*method_header = OatQuickMethodHeader(vmap_table_offset,
method_info_offset,
frame_size_in_bytes,
core_spill_mask,
fp_spill_mask,
code_size);
if (!deduped) {
// Update offsets. (Checksum is updated when writing.)
offset_ += sizeof(*method_header); // Method header is prepended before code.
offset_ += code_size;
// Record absolute patch locations.
if (!compiled_method->GetPatches().empty()) {
uintptr_t base_loc = offset_ - code_size - writer_->oat_header_->GetExecutableOffset();
for (const LinkerPatch& patch : compiled_method->GetPatches()) {
if (!patch.IsPcRelative()) {
writer_->absolute_patch_locations_.push_back(base_loc + patch.LiteralOffset());
}
}
}
}
const CompilerOptions& compiler_options = writer_->compiler_driver_->GetCompilerOptions();
// Exclude quickened dex methods (code_size == 0) since they have no native code.
if (compiler_options.GenerateAnyDebugInfo() && code_size != 0) {
bool has_code_info = method_header->IsOptimized();
// Record debug information for this function if we are doing that.
debug::MethodDebugInfo info = debug::MethodDebugInfo();
info.trampoline_name = nullptr;
info.dex_file = dex_file_;
info.class_def_index = class_def_index_;
info.dex_method_index = it.GetMemberIndex();
info.access_flags = it.GetMethodAccessFlags();
info.code_item = it.GetMethodCodeItem();
info.isa = compiled_method->GetInstructionSet();
info.deduped = deduped;
info.is_native_debuggable = compiler_options.GetNativeDebuggable();
info.is_optimized = method_header->IsOptimized();
info.is_code_address_text_relative = true;
info.code_address = code_offset - writer_->oat_header_->GetExecutableOffset();
info.code_size = code_size;
info.frame_size_in_bytes = compiled_method->GetFrameSizeInBytes();
info.code_info = has_code_info ? compiled_method->GetVmapTable().data() : nullptr;
info.cfi = compiled_method->GetCFIInfo();
writer_->method_info_.push_back(info);
}
DCHECK_LT(method_offsets_index_, oat_class->method_offsets_.size());
OatMethodOffsets* offsets = &oat_class->method_offsets_[method_offsets_index_];
offsets->code_offset_ = quick_code_offset;
++method_offsets_index_;
}
return true;
}
private:
struct CodeOffsetsKeyComparator {
bool operator()(const CompiledMethod* lhs, const CompiledMethod* rhs) const {
// Code is deduplicated by CompilerDriver, compare only data pointers.
if (lhs->GetQuickCode().data() != rhs->GetQuickCode().data()) {
return lhs->GetQuickCode().data() < rhs->GetQuickCode().data();
}
// If the code is the same, all other fields are likely to be the same as well.
if (UNLIKELY(lhs->GetVmapTable().data() != rhs->GetVmapTable().data())) {
return lhs->GetVmapTable().data() < rhs->GetVmapTable().data();
}
if (UNLIKELY(lhs->GetMethodInfo().data() != rhs->GetMethodInfo().data())) {
return lhs->GetMethodInfo().data() < rhs->GetMethodInfo().data();
}
if (UNLIKELY(lhs->GetPatches().data() != rhs->GetPatches().data())) {
return lhs->GetPatches().data() < rhs->GetPatches().data();
}
return false;
}
};
uint32_t NewQuickCodeOffset(CompiledMethod* compiled_method,
const ClassDataItemIterator& it,
uint32_t thumb_offset) {
offset_ = writer_->relative_patcher_->ReserveSpace(
offset_, compiled_method, MethodReference(dex_file_, it.GetMemberIndex()));
offset_ += CodeAlignmentSize(offset_, *compiled_method);
DCHECK_ALIGNED_PARAM(offset_ + sizeof(OatQuickMethodHeader),
GetInstructionSetAlignment(compiled_method->GetInstructionSet()));
return offset_ + sizeof(OatQuickMethodHeader) + thumb_offset;
}
// Deduplication is already done on a pointer basis by the compiler driver,
// so we can simply compare the pointers to find out if things are duplicated.
SafeMap<const CompiledMethod*, uint32_t, CodeOffsetsKeyComparator> dedupe_map_;
// Cache of compiler's --debuggable option.
const bool debuggable_;
// Offset in the vdex file for the quickening info.
uint32_t current_quickening_info_offset_;
};
class OatWriter::InitMapMethodVisitor : public OatDexMethodVisitor {
public:
InitMapMethodVisitor(OatWriter* writer, size_t offset)
: OatDexMethodVisitor(writer, offset) {}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it ATTRIBUTE_UNUSED)
OVERRIDE REQUIRES_SHARED(Locks::mutator_lock_) {
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
if (compiled_method != nullptr) {
DCHECK_LT(method_offsets_index_, oat_class->method_offsets_.size());
// If vdex is enabled, we only emit the stack map of compiled code. The quickening info will
// be in the vdex file.
if (!compiled_method->GetQuickCode().empty() || !kIsVdexEnabled) {
DCHECK_EQ(oat_class->method_headers_[method_offsets_index_].GetVmapTableOffset(), 0u);
ArrayRef<const uint8_t> map = compiled_method->GetVmapTable();
uint32_t map_size = map.size() * sizeof(map[0]);
if (map_size != 0u) {
size_t offset = dedupe_map_.GetOrCreate(
map.data(),
[this, map_size]() {
uint32_t new_offset = offset_;
offset_ += map_size;
return new_offset;
});
// Code offset is not initialized yet, so set the map offset to 0u-offset.
DCHECK_EQ(oat_class->method_offsets_[method_offsets_index_].code_offset_, 0u);
oat_class->method_headers_[method_offsets_index_].SetVmapTableOffset(0u - offset);
}
}
++method_offsets_index_;
}
return true;
}
private:
// Deduplication is already done on a pointer basis by the compiler driver,
// so we can simply compare the pointers to find out if things are duplicated.
SafeMap<const uint8_t*, uint32_t> dedupe_map_;
};
class OatWriter::InitMethodInfoVisitor : public OatDexMethodVisitor {
public:
InitMethodInfoVisitor(OatWriter* writer, size_t offset) : OatDexMethodVisitor(writer, offset) {}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it ATTRIBUTE_UNUSED)
OVERRIDE REQUIRES_SHARED(Locks::mutator_lock_) {
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
if (compiled_method != nullptr) {
DCHECK_LT(method_offsets_index_, oat_class->method_offsets_.size());
DCHECK_EQ(oat_class->method_headers_[method_offsets_index_].GetMethodInfoOffset(), 0u);
ArrayRef<const uint8_t> map = compiled_method->GetMethodInfo();
const uint32_t map_size = map.size() * sizeof(map[0]);
if (map_size != 0u) {
size_t offset = dedupe_map_.GetOrCreate(
map.data(),
[this, map_size]() {
uint32_t new_offset = offset_;
offset_ += map_size;
return new_offset;
});
// Code offset is not initialized yet, so set the map offset to 0u-offset.
DCHECK_EQ(oat_class->method_offsets_[method_offsets_index_].code_offset_, 0u);
oat_class->method_headers_[method_offsets_index_].SetMethodInfoOffset(0u - offset);
}
++method_offsets_index_;
}
return true;
}
private:
// Deduplication is already done on a pointer basis by the compiler driver,
// so we can simply compare the pointers to find out if things are duplicated.
SafeMap<const uint8_t*, uint32_t> dedupe_map_;
};
class OatWriter::InitImageMethodVisitor : public OatDexMethodVisitor {
public:
InitImageMethodVisitor(OatWriter* writer,
size_t offset,
const std::vector<const DexFile*>* dex_files)
: OatDexMethodVisitor(writer, offset),
pointer_size_(GetInstructionSetPointerSize(writer_->compiler_driver_->GetInstructionSet())),
dex_files_(dex_files),
class_linker_(Runtime::Current()->GetClassLinker()) {}
// Handle copied methods here. Copy pointer to quick code from
// an origin method to a copied method only if they are
// in the same oat file. If the origin and the copied methods are
// in different oat files don't touch the copied method.
// References to other oat files are not supported yet.
bool StartClass(const DexFile* dex_file, size_t class_def_index) OVERRIDE
REQUIRES_SHARED(Locks::mutator_lock_) {
OatDexMethodVisitor::StartClass(dex_file, class_def_index);
// Skip classes that are not in the image.
if (!IsImageClass()) {
return true;
}
ScopedObjectAccessUnchecked soa(Thread::Current());
StackHandleScope<1> hs(soa.Self());
Handle<mirror::DexCache> dex_cache = hs.NewHandle(
class_linker_->FindDexCache(Thread::Current(), *dex_file));
const DexFile::ClassDef& class_def = dex_file->GetClassDef(class_def_index);
mirror::Class* klass = dex_cache->GetResolvedType(class_def.class_idx_);
if (klass != nullptr) {
for (ArtMethod& method : klass->GetCopiedMethods(pointer_size_)) {
// Find origin method. Declaring class and dex_method_idx
// in the copied method should be the same as in the origin
// method.
mirror::Class* declaring_class = method.GetDeclaringClass();
ArtMethod* origin = declaring_class->FindDeclaredVirtualMethod(
declaring_class->GetDexCache(),
method.GetDexMethodIndex(),
pointer_size_);
CHECK(origin != nullptr);
if (IsInOatFile(&declaring_class->GetDexFile())) {
const void* code_ptr =
origin->GetEntryPointFromQuickCompiledCodePtrSize(pointer_size_);
if (code_ptr == nullptr) {
methods_to_process_.push_back(std::make_pair(&method, origin));
} else {
method.SetEntryPointFromQuickCompiledCodePtrSize(
code_ptr, pointer_size_);
}
}
}
}
return true;
}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it) OVERRIDE
REQUIRES_SHARED(Locks::mutator_lock_) {
// Skip methods that are not in the image.
if (!IsImageClass()) {
return true;
}
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
OatMethodOffsets offsets(0u);
if (compiled_method != nullptr) {
DCHECK_LT(method_offsets_index_, oat_class->method_offsets_.size());
offsets = oat_class->method_offsets_[method_offsets_index_];
++method_offsets_index_;
}
// Unchecked as we hold mutator_lock_ on entry.
ScopedObjectAccessUnchecked soa(Thread::Current());
StackHandleScope<1> hs(soa.Self());
Handle<mirror::DexCache> dex_cache(hs.NewHandle(class_linker_->FindDexCache(
Thread::Current(), *dex_file_)));
ArtMethod* method;
if (writer_->HasBootImage()) {
const InvokeType invoke_type = it.GetMethodInvokeType(
dex_file_->GetClassDef(class_def_index_));
method = class_linker_->ResolveMethod<ClassLinker::kNoICCECheckForCache>(
*dex_file_,
it.GetMemberIndex(),
dex_cache,
ScopedNullHandle<mirror::ClassLoader>(),
nullptr,
invoke_type);
if (method == nullptr) {
LOG(FATAL_WITHOUT_ABORT) << "Unexpected failure to resolve a method: "
<< dex_file_->PrettyMethod(it.GetMemberIndex(), true);
soa.Self()->AssertPendingException();
mirror::Throwable* exc = soa.Self()->GetException();
std::string dump = exc->Dump();
LOG(FATAL) << dump;
UNREACHABLE();
}
} else {
// Should already have been resolved by the compiler, just peek into the dex cache.
// It may not be resolved if the class failed to verify, in this case, don't set the
// entrypoint. This is not fatal since the dex cache will contain a resolution method.
method = dex_cache->GetResolvedMethod(it.GetMemberIndex(), pointer_size_);
}
if (method != nullptr &&
compiled_method != nullptr &&
compiled_method->GetQuickCode().size() != 0) {
method->SetEntryPointFromQuickCompiledCodePtrSize(
reinterpret_cast<void*>(offsets.code_offset_), pointer_size_);
}
return true;
}
// Check whether current class is image class
bool IsImageClass() {
const DexFile::TypeId& type_id =
dex_file_->GetTypeId(dex_file_->GetClassDef(class_def_index_).class_idx_);
const char* class_descriptor = dex_file_->GetTypeDescriptor(type_id);
return writer_->GetCompilerDriver()->IsImageClass(class_descriptor);
}
// Check whether specified dex file is in the compiled oat file.
bool IsInOatFile(const DexFile* dex_file) {
return ContainsElement(*dex_files_, dex_file);
}
// Assign a pointer to quick code for copied methods
// not handled in the method StartClass
void Postprocess() {
for (std::pair<ArtMethod*, ArtMethod*>& p : methods_to_process_) {
ArtMethod* method = p.first;
ArtMethod* origin = p.second;
const void* code_ptr =
origin->GetEntryPointFromQuickCompiledCodePtrSize(pointer_size_);
if (code_ptr != nullptr) {
method->SetEntryPointFromQuickCompiledCodePtrSize(code_ptr, pointer_size_);
}
}
}
private:
const PointerSize pointer_size_;
const std::vector<const DexFile*>* dex_files_;
ClassLinker* const class_linker_;
std::vector<std::pair<ArtMethod*, ArtMethod*>> methods_to_process_;
};
class OatWriter::WriteCodeMethodVisitor : public OatDexMethodVisitor {
public:
WriteCodeMethodVisitor(OatWriter* writer, OutputStream* out, const size_t file_offset,
size_t relative_offset) SHARED_LOCK_FUNCTION(Locks::mutator_lock_)
: OatDexMethodVisitor(writer, relative_offset),
pointer_size_(GetInstructionSetPointerSize(writer_->compiler_driver_->GetInstructionSet())),
class_loader_(writer->HasImage() ? writer->image_writer_->GetClassLoader() : nullptr),
out_(out),
file_offset_(file_offset),
soa_(Thread::Current()),
no_thread_suspension_("OatWriter patching"),
class_linker_(Runtime::Current()->GetClassLinker()),
dex_cache_(nullptr) {
patched_code_.reserve(16 * KB);
if (writer_->HasBootImage()) {
// If we're creating the image, the address space must be ready so that we can apply patches.
CHECK(writer_->image_writer_->IsImageAddressSpaceReady());
}
}
~WriteCodeMethodVisitor() UNLOCK_FUNCTION(Locks::mutator_lock_) {
}
bool StartClass(const DexFile* dex_file, size_t class_def_index) OVERRIDE
REQUIRES_SHARED(Locks::mutator_lock_) {
OatDexMethodVisitor::StartClass(dex_file, class_def_index);
if (dex_cache_ == nullptr || dex_cache_->GetDexFile() != dex_file) {
dex_cache_ = class_linker_->FindDexCache(Thread::Current(), *dex_file);
DCHECK(dex_cache_ != nullptr);
}
return true;
}
bool EndClass() OVERRIDE REQUIRES_SHARED(Locks::mutator_lock_) {
bool result = OatDexMethodVisitor::EndClass();
if (oat_class_index_ == writer_->oat_classes_.size()) {
DCHECK(result); // OatDexMethodVisitor::EndClass() never fails.
offset_ = writer_->relative_patcher_->WriteThunks(out_, offset_);
if (UNLIKELY(offset_ == 0u)) {
PLOG(ERROR) << "Failed to write final relative call thunks";
result = false;
}
}
return result;
}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it) OVERRIDE
REQUIRES_SHARED(Locks::mutator_lock_) {
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
const CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
// No thread suspension since dex_cache_ that may get invalidated if that occurs.
ScopedAssertNoThreadSuspension tsc(__FUNCTION__);
if (compiled_method != nullptr) { // ie. not an abstract method
size_t file_offset = file_offset_;
OutputStream* out = out_;
ArrayRef<const uint8_t> quick_code = compiled_method->GetQuickCode();
uint32_t code_size = quick_code.size() * sizeof(uint8_t);
// Deduplicate code arrays.
const OatMethodOffsets& method_offsets = oat_class->method_offsets_[method_offsets_index_];
if (method_offsets.code_offset_ > offset_) {
offset_ = writer_->relative_patcher_->WriteThunks(out, offset_);
if (offset_ == 0u) {
ReportWriteFailure("relative call thunk", it);
return false;
}
uint32_t alignment_size = CodeAlignmentSize(offset_, *compiled_method);
if (alignment_size != 0) {
if (!writer_->WriteCodeAlignment(out, alignment_size)) {
ReportWriteFailure("code alignment padding", it);
return false;
}
offset_ += alignment_size;
DCHECK_OFFSET_();
}
DCHECK_ALIGNED_PARAM(offset_ + sizeof(OatQuickMethodHeader),
GetInstructionSetAlignment(compiled_method->GetInstructionSet()));
DCHECK_EQ(method_offsets.code_offset_,
offset_ + sizeof(OatQuickMethodHeader) + compiled_method->CodeDelta())
<< dex_file_->PrettyMethod(it.GetMemberIndex());
const OatQuickMethodHeader& method_header =
oat_class->method_headers_[method_offsets_index_];
if (!out->WriteFully(&method_header, sizeof(method_header))) {
ReportWriteFailure("method header", it);
return false;
}
writer_->size_method_header_ += sizeof(method_header);
offset_ += sizeof(method_header);
DCHECK_OFFSET_();
if (!compiled_method->GetPatches().empty()) {
patched_code_.assign(quick_code.begin(), quick_code.end());
quick_code = ArrayRef<const uint8_t>(patched_code_);
for (const LinkerPatch& patch : compiled_method->GetPatches()) {
uint32_t literal_offset = patch.LiteralOffset();
switch (patch.GetType()) {
case LinkerPatch::Type::kMethodBssEntry: {
uint32_t target_offset =
writer_->bss_start_ + writer_->bss_method_entries_.Get(patch.TargetMethod());
writer_->relative_patcher_->PatchPcRelativeReference(&patched_code_,
patch,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kCallRelative: {
// NOTE: Relative calls across oat files are not supported.
uint32_t target_offset = GetTargetOffset(patch);
writer_->relative_patcher_->PatchCall(&patched_code_,
literal_offset,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kStringRelative: {
uint32_t target_offset = GetTargetObjectOffset(GetTargetString(patch));
writer_->relative_patcher_->PatchPcRelativeReference(&patched_code_,
patch,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kStringBssEntry: {
StringReference ref(patch.TargetStringDexFile(), patch.TargetStringIndex());
uint32_t target_offset =
writer_->bss_start_ + writer_->bss_string_entries_.Get(ref);
writer_->relative_patcher_->PatchPcRelativeReference(&patched_code_,
patch,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kTypeRelative: {
uint32_t target_offset = GetTargetObjectOffset(GetTargetType(patch));
writer_->relative_patcher_->PatchPcRelativeReference(&patched_code_,
patch,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kTypeBssEntry: {
TypeReference ref(patch.TargetTypeDexFile(), patch.TargetTypeIndex());
uint32_t target_offset = writer_->bss_start_ + writer_->bss_type_entries_.Get(ref);
writer_->relative_patcher_->PatchPcRelativeReference(&patched_code_,
patch,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kCall: {
uint32_t target_offset = GetTargetOffset(patch);
PatchCodeAddress(&patched_code_, literal_offset, target_offset);
break;
}
case LinkerPatch::Type::kMethodRelative: {
uint32_t target_offset = GetTargetMethodOffset(GetTargetMethod(patch));
writer_->relative_patcher_->PatchPcRelativeReference(&patched_code_,
patch,
offset_ + literal_offset,
target_offset);
break;
}
case LinkerPatch::Type::kBakerReadBarrierBranch: {
writer_->relative_patcher_->PatchBakerReadBarrierBranch(&patched_code_,
patch,
offset_ + literal_offset);
break;
}
default: {
DCHECK(false) << "Unexpected linker patch type: " << patch.GetType();
break;
}
}
}
}
if (!out->WriteFully(quick_code.data(), code_size)) {
ReportWriteFailure("method code", it);
return false;
}
writer_->size_code_ += code_size;
offset_ += code_size;
}
DCHECK_OFFSET_();
++method_offsets_index_;
}
return true;
}
private:
const PointerSize pointer_size_;
ObjPtr<mirror::ClassLoader> class_loader_;
OutputStream* const out_;
const size_t file_offset_;
const ScopedObjectAccess soa_;
const ScopedAssertNoThreadSuspension no_thread_suspension_;
ClassLinker* const class_linker_;
ObjPtr<mirror::DexCache> dex_cache_;
std::vector<uint8_t> patched_code_;
void ReportWriteFailure(const char* what, const ClassDataItemIterator& it) {
PLOG(ERROR) << "Failed to write " << what << " for "
<< dex_file_->PrettyMethod(it.GetMemberIndex()) << " to " << out_->GetLocation();
}
ArtMethod* GetTargetMethod(const LinkerPatch& patch)
REQUIRES_SHARED(Locks::mutator_lock_) {
MethodReference ref = patch.TargetMethod();
ObjPtr<mirror::DexCache> dex_cache =
(dex_file_ == ref.dex_file) ? dex_cache_ : class_linker_->FindDexCache(
Thread::Current(), *ref.dex_file);
ArtMethod* method = dex_cache->GetResolvedMethod(ref.dex_method_index, pointer_size_);
CHECK(method != nullptr);
return method;
}
uint32_t GetTargetOffset(const LinkerPatch& patch) REQUIRES_SHARED(Locks::mutator_lock_) {
uint32_t target_offset = writer_->relative_patcher_->GetOffset(patch.TargetMethod());
// If there's no new compiled code, either we're compiling an app and the target method
// is in the boot image, or we need to point to the correct trampoline.
if (UNLIKELY(target_offset == 0)) {
ArtMethod* target = GetTargetMethod(patch);
DCHECK(target != nullptr);
const void* oat_code_offset =
target->GetEntryPointFromQuickCompiledCodePtrSize(pointer_size_);
if (oat_code_offset != 0) {
DCHECK(!writer_->HasBootImage());
DCHECK(!Runtime::Current()->GetClassLinker()->IsQuickResolutionStub(oat_code_offset));
DCHECK(!Runtime::Current()->GetClassLinker()->IsQuickToInterpreterBridge(oat_code_offset));
DCHECK(!Runtime::Current()->GetClassLinker()->IsQuickGenericJniStub(oat_code_offset));
target_offset = PointerToLowMemUInt32(oat_code_offset);
} else {
target_offset = target->IsNative()
? writer_->oat_header_->GetQuickGenericJniTrampolineOffset()
: writer_->oat_header_->GetQuickToInterpreterBridgeOffset();
}
}
return target_offset;
}
ObjPtr<mirror::DexCache> GetDexCache(const DexFile* target_dex_file)
REQUIRES_SHARED(Locks::mutator_lock_) {
return (target_dex_file == dex_file_)
? dex_cache_
: class_linker_->FindDexCache(Thread::Current(), *target_dex_file);
}
mirror::Class* GetTargetType(const LinkerPatch& patch) REQUIRES_SHARED(Locks::mutator_lock_) {
DCHECK(writer_->HasImage());
ObjPtr<mirror::DexCache> dex_cache = GetDexCache(patch.TargetTypeDexFile());
ObjPtr<mirror::Class> type =
ClassLinker::LookupResolvedType(patch.TargetTypeIndex(), dex_cache, class_loader_);
CHECK(type != nullptr);
return type.Ptr();
}
mirror::String* GetTargetString(const LinkerPatch& patch) REQUIRES_SHARED(Locks::mutator_lock_) {
ScopedObjectAccessUnchecked soa(Thread::Current());
ClassLinker* linker = Runtime::Current()->GetClassLinker();
mirror::String* string = linker->LookupString(*patch.TargetStringDexFile(),
patch.TargetStringIndex(),
GetDexCache(patch.TargetStringDexFile()));
DCHECK(string != nullptr);
DCHECK(writer_->HasBootImage() ||
Runtime::Current()->GetHeap()->ObjectIsInBootImageSpace(string));
return string;
}
uint32_t GetTargetMethodOffset(ArtMethod* method) REQUIRES_SHARED(Locks::mutator_lock_) {
DCHECK(writer_->HasBootImage());
method = writer_->image_writer_->GetImageMethodAddress(method);
size_t oat_index = writer_->image_writer_->GetOatIndexForDexFile(dex_file_);
uintptr_t oat_data_begin = writer_->image_writer_->GetOatDataBegin(oat_index);
// TODO: Clean up offset types. The target offset must be treated as signed.
return static_cast<uint32_t>(reinterpret_cast<uintptr_t>(method) - oat_data_begin);
}
uint32_t GetTargetObjectOffset(mirror::Object* object) REQUIRES_SHARED(Locks::mutator_lock_) {
DCHECK(writer_->HasBootImage());
object = writer_->image_writer_->GetImageAddress(object);
size_t oat_index = writer_->image_writer_->GetOatIndexForDexFile(dex_file_);
uintptr_t oat_data_begin = writer_->image_writer_->GetOatDataBegin(oat_index);
// TODO: Clean up offset types. The target offset must be treated as signed.
return static_cast<uint32_t>(reinterpret_cast<uintptr_t>(object) - oat_data_begin);
}
void PatchObjectAddress(std::vector<uint8_t>* code, uint32_t offset, mirror::Object* object)
REQUIRES_SHARED(Locks::mutator_lock_) {
if (writer_->HasBootImage()) {
object = writer_->image_writer_->GetImageAddress(object);
} else {
// NOTE: We're using linker patches for app->boot references when the image can
// be relocated and therefore we need to emit .oat_patches. We're not using this
// for app->app references, so check that the object is in the image space.
DCHECK(Runtime::Current()->GetHeap()->FindSpaceFromObject(object, false)->IsImageSpace());
}
// Note: We only patch targeting Objects in image which is in the low 4gb.
uint32_t address = PointerToLowMemUInt32(object);
DCHECK_LE(offset + 4, code->size());
uint8_t* data = &(*code)[offset];
data[0] = address & 0xffu;
data[1] = (address >> 8) & 0xffu;
data[2] = (address >> 16) & 0xffu;
data[3] = (address >> 24) & 0xffu;
}
void PatchCodeAddress(std::vector<uint8_t>* code, uint32_t offset, uint32_t target_offset)
REQUIRES_SHARED(Locks::mutator_lock_) {
uint32_t address = target_offset;
if (writer_->HasBootImage()) {
size_t oat_index = writer_->image_writer_->GetOatIndexForDexCache(dex_cache_);
// TODO: Clean up offset types.
// The target_offset must be treated as signed for cross-oat patching.
const void* target = reinterpret_cast<const void*>(
writer_->image_writer_->GetOatDataBegin(oat_index) +
static_cast<int32_t>(target_offset));
address = PointerToLowMemUInt32(target);
}
DCHECK_LE(offset + 4, code->size());
uint8_t* data = &(*code)[offset];
data[0] = address & 0xffu;
data[1] = (address >> 8) & 0xffu;
data[2] = (address >> 16) & 0xffu;
data[3] = (address >> 24) & 0xffu;
}
};
class OatWriter::WriteMapMethodVisitor : public OatDexMethodVisitor {
public:
WriteMapMethodVisitor(OatWriter* writer,
OutputStream* out,
const size_t file_offset,
size_t relative_offset)
: OatDexMethodVisitor(writer, relative_offset),
out_(out),
file_offset_(file_offset) {}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it) OVERRIDE {
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
const CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
if (compiled_method != nullptr) { // i.e. not an abstract method
size_t file_offset = file_offset_;
OutputStream* out = out_;
uint32_t map_offset = oat_class->method_headers_[method_offsets_index_].GetVmapTableOffset();
uint32_t code_offset = oat_class->method_offsets_[method_offsets_index_].code_offset_;
++method_offsets_index_;
DCHECK((compiled_method->GetVmapTable().size() == 0u && map_offset == 0u) ||
(compiled_method->GetVmapTable().size() != 0u && map_offset != 0u))
<< compiled_method->GetVmapTable().size() << " " << map_offset << " "
<< dex_file_->PrettyMethod(it.GetMemberIndex());
// If vdex is enabled, only emit the map for compiled code. The quickening info
// is emitted in the vdex already.
if (map_offset != 0u &&
!(kIsVdexEnabled && compiled_method->GetQuickCode().empty())) {
// Transform map_offset to actual oat data offset.
map_offset = (code_offset - compiled_method->CodeDelta()) - map_offset;
DCHECK_NE(map_offset, 0u);
DCHECK_LE(map_offset, offset_) << dex_file_->PrettyMethod(it.GetMemberIndex());
ArrayRef<const uint8_t> map = compiled_method->GetVmapTable();
size_t map_size = map.size() * sizeof(map[0]);
if (map_offset == offset_) {
// Write deduplicated map (code info for Optimizing or transformation info for dex2dex).
if (UNLIKELY(!out->WriteFully(map.data(), map_size))) {
ReportWriteFailure(it);
return false;
}
offset_ += map_size;
}
}
DCHECK_OFFSET_();
}
return true;
}
private:
OutputStream* const out_;
size_t const file_offset_;
void ReportWriteFailure(const ClassDataItemIterator& it) {
PLOG(ERROR) << "Failed to write map for "
<< dex_file_->PrettyMethod(it.GetMemberIndex()) << " to " << out_->GetLocation();
}
};
class OatWriter::WriteMethodInfoVisitor : public OatDexMethodVisitor {
public:
WriteMethodInfoVisitor(OatWriter* writer,
OutputStream* out,
const size_t file_offset,
size_t relative_offset)
: OatDexMethodVisitor(writer, relative_offset),
out_(out),
file_offset_(file_offset) {}
bool VisitMethod(size_t class_def_method_index, const ClassDataItemIterator& it) OVERRIDE {
OatClass* oat_class = &writer_->oat_classes_[oat_class_index_];
const CompiledMethod* compiled_method = oat_class->GetCompiledMethod(class_def_method_index);
if (compiled_method != nullptr) { // i.e. not an abstract method
size_t file_offset = file_offset_;
OutputStream* out = out_;
uint32_t map_offset = oat_class->method_headers_[method_offsets_index_].GetMethodInfoOffset();
uint32_t code_offset = oat_class->method_offsets_[method_offsets_index_].code_offset_;
++method_offsets_index_;
DCHECK((compiled_method->GetMethodInfo().size() == 0u && map_offset == 0u) ||
(compiled_method->GetMethodInfo().size() != 0u && map_offset != 0u))
<< compiled_method->GetMethodInfo().size() << " " << map_offset << " "
<< dex_file_->PrettyMethod(it.GetMemberIndex());
if (map_offset != 0u) {
// Transform map_offset to actual oat data offset.
map_offset = (code_offset - compiled_method->CodeDelta()) - map_offset;
DCHECK_NE(map_offset, 0u);
DCHECK_LE(map_offset, offset_) << dex_file_->PrettyMethod(it.GetMemberIndex());
ArrayRef<const uint8_t> map = compiled_method->GetMethodInfo();
size_t map_size = map.size() * sizeof(map[0]);
if (map_offset == offset_) {
// Write deduplicated map (code info for Optimizing or transformation info for dex2dex).
if (UNLIKELY(!out->WriteFully(map.data(), map_size))) {
ReportWriteFailure(it);
return false;
}
offset_ += map_size;
}
}
DCHECK_OFFSET_();
}
return true;
}
private:
OutputStream* const out_;
size_t const file_offset_;
void ReportWriteFailure(const ClassDataItemIterator& it) {
PLOG(ERROR) << "Failed to write map for "
<< dex_file_->PrettyMethod(it.GetMemberIndex()) << " to " << out_->GetLocation();
}
};
// Visit all methods from all classes in all dex files with the specified visitor.
bool OatWriter::VisitDexMethods(DexMethodVisitor* visitor) {
for (const DexFile* dex_file : *dex_files_) {
const size_t class_def_count = dex_file->NumClassDefs();
for (size_t class_def_index = 0; class_def_index != class_def_count; ++class_def_index) {
if (UNLIKELY(!visitor->StartClass(dex_file, class_def_index))) {
return false;
}
if (compiler_driver_->GetCompilerOptions().IsAnyCompilationEnabled()) {
const DexFile::ClassDef& class_def = dex_file->GetClassDef(class_def_index);
const uint8_t* class_data = dex_file->GetClassData(class_def);
if (class_data != nullptr) { // ie not an empty class, such as a marker interface
ClassDataItemIterator it(*dex_file, class_data);
while (it.HasNextStaticField()) {
it.Next();
}
while (it.HasNextInstanceField()) {
it.Next();
}
size_t class_def_method_index = 0u;
while (it.HasNextDirectMethod()) {
if (!visitor->VisitMethod(class_def_method_index, it)) {
return false;
}
++class_def_method_index;
it.Next();
}
while (it.HasNextVirtualMethod()) {
if (UNLIKELY(!visitor->VisitMethod(class_def_method_index, it))) {
return false;
}
++class_def_method_index;
it.Next();
}
}
}
if (UNLIKELY(!visitor->EndClass())) {
return false;
}
}
}
return true;
}
size_t OatWriter::InitOatHeader(InstructionSet instruction_set,
const InstructionSetFeatures* instruction_set_features,
uint32_t num_dex_files,
SafeMap<std::string, std::string>* key_value_store) {
TimingLogger::ScopedTiming split("InitOatHeader", timings_);
oat_header_.reset(OatHeader::Create(instruction_set,
instruction_set_features,
num_dex_files,
key_value_store));
size_oat_header_ += sizeof(OatHeader);
size_oat_header_key_value_store_ += oat_header_->GetHeaderSize() - sizeof(OatHeader);
return oat_header_->GetHeaderSize();
}
size_t OatWriter::InitClassOffsets(size_t offset) {
// Reserve space for class offsets in OAT and update class_offsets_offset_.
for (OatDexFile& oat_dex_file : oat_dex_files_) {
DCHECK_EQ(oat_dex_file.class_offsets_offset_, 0u);
if (!oat_dex_file.class_offsets_.empty()) {
// Class offsets are required to be 4 byte aligned.
offset = RoundUp(offset, 4u);
oat_dex_file.class_offsets_offset_ = offset;
offset += oat_dex_file.GetClassOffsetsRawSize();
DCHECK_ALIGNED(offset, 4u);
}
}
return offset;
}
size_t OatWriter::InitOatClasses(size_t offset) {
// calculate the offsets within OatDexFiles to OatClasses
InitOatClassesMethodVisitor visitor(this, offset);
bool success = VisitDexMethods(&visitor);
CHECK(success);
offset = visitor.GetOffset();
// Update oat_dex_files_.
auto oat_class_it = oat_classes_.begin();
for (OatDexFile& oat_dex_file : oat_dex_files_) {
for (uint32_t& class_offset : oat_dex_file.class_offsets_) {
DCHECK(oat_class_it != oat_classes_.end());
class_offset = oat_class_it->offset_;
++oat_class_it;
}
}
CHECK(oat_class_it == oat_classes_.end());
return offset;
}
size_t OatWriter::InitOatMaps(size_t offset) {
if (!compiler_driver_->GetCompilerOptions().IsAnyCompilationEnabled()) {
return offset;
}
{
InitMapMethodVisitor visitor(this, offset);
bool success = VisitDexMethods(&visitor);
DCHECK(success);
offset = visitor.GetOffset();
}
{
InitMethodInfoVisitor visitor(this, offset);
bool success = VisitDexMethods(&visitor);
DCHECK(success);
offset = visitor.GetOffset();
}
return offset;
}
size_t OatWriter::InitMethodBssMappings(size_t offset) {
size_t number_of_dex_files = 0u;
for (size_t i = 0, size = dex_files_->size(); i != size; ++i) {
const DexFile* dex_file = (*dex_files_)[i];
auto it = bss_method_entry_references_.find(dex_file);
if (it != bss_method_entry_references_.end()) {
const BitVector& method_indexes = it->second;
++number_of_dex_files;
// If there are any classes, the class offsets allocation aligns the offset
// and we cannot have method bss mappings without class offsets.
static_assert(alignof(MethodBssMapping) == 4u, "MethodBssMapping alignment check.");
DCHECK_ALIGNED(offset, 4u);
oat_dex_files_[i].method_bss_mapping_offset_ = offset;
linker::MethodBssMappingEncoder encoder(
GetInstructionSetPointerSize(oat_header_->GetInstructionSet()));
size_t number_of_entries = 0u;
bool first_index = true;
for (uint32_t method_index : method_indexes.Indexes()) {
uint32_t bss_offset = bss_method_entries_.Get(MethodReference(dex_file, method_index));
if (first_index || !encoder.TryMerge(method_index, bss_offset)) {
encoder.Reset(method_index, bss_offset);
++number_of_entries;
first_index = false;
}
}
DCHECK_NE(number_of_entries, 0u);
offset += MethodBssMapping::ComputeSize(number_of_entries);
}
}
// Check that all dex files targeted by method bss entries are in `*dex_files_`.
CHECK_EQ(number_of_dex_files, bss_method_entry_references_.size());
return offset;
}
size_t OatWriter::InitOatDexFiles(size_t offset) {
// Initialize offsets of oat dex files.
for (OatDexFile& oat_dex_file : oat_dex_files_) {
oat_dex_file.offset_ = offset;
offset += oat_dex_file.SizeOf();
}
return offset;
}
size_t OatWriter::InitOatCode(size_t offset) {
// calculate the offsets within OatHeader to executable code
size_t old_offset = offset;
size_t adjusted_offset = offset;
// required to be on a new page boundary
offset = RoundUp(offset, kPageSize);
oat_header_->SetExecutableOffset(offset);
size_executable_offset_alignment_ = offset - old_offset;
if (compiler_driver_->GetCompilerOptions().IsBootImage()) {
InstructionSet instruction_set = compiler_driver_->GetInstructionSet();
#define DO_TRAMPOLINE(field, fn_name) \
offset = CompiledCode::AlignCode(offset, instruction_set); \
adjusted_offset = offset + CompiledCode::CodeDelta(instruction_set); \
oat_header_->Set ## fn_name ## Offset(adjusted_offset); \
(field) = compiler_driver_->Create ## fn_name(); \
offset += (field)->size();
DO_TRAMPOLINE(jni_dlsym_lookup_, JniDlsymLookup);
DO_TRAMPOLINE(quick_generic_jni_trampoline_, QuickGenericJniTrampoline);
DO_TRAMPOLINE(quick_imt_conflict_trampoline_, QuickImtConflictTrampoline);
DO_TRAMPOLINE(quick_resolution_trampoline_, QuickResolutionTrampoline);
DO_TRAMPOLINE(quick_to_interpreter_bridge_, QuickToInterpreterBridge);
#undef DO_TRAMPOLINE
} else {
oat_header_->SetInterpreterToInterpreterBridgeOffset(0);
oat_header_->SetInterpreterToCompiledCodeBridgeOffset(0);
oat_header_->SetJniDlsymLookupOffset(0);
oat_header_->SetQuickGenericJniTrampolineOffset(0);
oat_header_->SetQuickImtConflictTrampolineOffset(0);
oat_header_->SetQuickResolutionTrampolineOffset(0);
oat_header_->SetQuickToInterpreterBridgeOffset(0);
}
return offset;
}
size_t OatWriter::InitOatCodeDexFiles(size_t offset) {
if (!compiler_driver_->GetCompilerOptions().IsAnyCompilationEnabled()) {
return offset;
}
InitCodeMethodVisitor code_visitor(this, offset, vdex_quickening_info_offset_);
bool success = VisitDexMethods(&code_visitor);
DCHECK(success);
offset = code_visitor.GetOffset();
if (HasImage()) {
InitImageMethodVisitor image_visitor(this, offset, dex_files_);
success = VisitDexMethods(&image_visitor);
image_visitor.Postprocess();
DCHECK(success);
offset = image_visitor.GetOffset();
}
return offset;
}
void OatWriter::InitBssLayout(InstructionSet instruction_set) {
{
InitBssLayoutMethodVisitor visitor(this);
bool success = VisitDexMethods(&visitor);
DCHECK(success);
}
DCHECK_EQ(bss_size_, 0u);
if (HasBootImage()) {
DCHECK(bss_string_entries_.empty());
if (bss_method_entries_.empty() && bss_type_entries_.empty()) {
// Nothing to put to the .bss section.
return;
}
}
// Allocate space for app dex cache arrays in the .bss section.
PointerSize pointer_size = GetInstructionSetPointerSize(instruction_set);
if (!HasBootImage()) {
for (const DexFile* dex_file : *dex_files_) {
DexCacheArraysLayout layout(pointer_size, dex_file);
bss_size_ += layout.Size();
}
}
bss_methods_offset_ = bss_size_;
// Prepare offsets for .bss ArtMethod entries.
for (auto& entry : bss_method_entries_) {
DCHECK_EQ(entry.second, 0u);
entry.second = bss_size_;
bss_size_ += static_cast<size_t>(pointer_size);
}
bss_roots_offset_ = bss_size_;
// Prepare offsets for .bss Class entries.
for (auto& entry : bss_type_entries_) {
DCHECK_EQ(entry.second, 0u);
entry.second = bss_size_;
bss_size_ += sizeof(GcRoot<mirror::Class>);
}
// Prepare offsets for .bss String entries.
for (auto& entry : bss_string_entries_) {
DCHECK_EQ(entry.second, 0u);
entry.second = bss_size_;
bss_size_ += sizeof(GcRoot<mirror::String>);
}
}
bool OatWriter::WriteRodata(OutputStream* out) {
CHECK(write_state_ == WriteState::kWriteRoData);
size_t file_offset = oat_data_offset_;
off_t current_offset = out->Seek(0, kSeekCurrent);
if (current_offset == static_cast<off_t>(-1)) {
PLOG(ERROR) << "Failed to retrieve current position in " << out->GetLocation();
}
DCHECK_GE(static_cast<size_t>(current_offset), file_offset + oat_header_->GetHeaderSize());
size_t relative_offset = current_offset - file_offset;
// Wrap out to update checksum with each write.
ChecksumUpdatingOutputStream checksum_updating_out(out, oat_header_.get());
out = &checksum_updating_out;
relative_offset = WriteClassOffsets(out, file_offset, relative_offset);
if (relative_offset == 0) {
PLOG(ERROR) << "Failed to write class offsets to " << out->GetLocation();
return false;
}
relative_offset = WriteClasses(out, file_offset, relative_offset);
if (relative_offset == 0) {
PLOG(ERROR) << "Failed to write classes to " << out->GetLocation();
return false;
}
relative_offset = WriteMethodBssMappings(out, file_offset, relative_offset);
if (relative_offset == 0) {
PLOG(ERROR) << "Failed to write method bss mappings to " << out->GetLocation();
return false;
}
relative_offset = WriteMaps(out, file_offset, relative_offset);
if (relative_offset == 0) {
PLOG(ERROR) << "Failed to write oat code to " << out->GetLocation();
return false;
}
relative_offset = WriteOatDexFiles(out, file_offset, relative_offset);
if (relative_offset == 0) {
PLOG(ERROR) << "Failed to write oat dex information to " << out->GetLocation();
return false;
}
// Write padding.
off_t new_offset = out->Seek(size_executable_offset_alignment_, kSeekCurrent);
relative_offset += size_executable_offset_alignment_;
DCHECK_EQ(relative_offset, oat_header_->GetExecutableOffset());
size_t expected_file_offset = file_offset + relative_offset;
if (static_cast<uint32_t>(new_offset) != expected_file_offset) {
PLOG(ERROR) << "Failed to seek to oat code section. Actual: " << new_offset
<< " Expected: " << expected_file_offset << " File: " << out->GetLocation();
return 0;
}
DCHECK_OFFSET();
write_state_ = WriteState::kWriteText;
return true;
}
class OatWriter::WriteQuickeningInfoMethodVisitor : public DexMethodVisitor {
public:
WriteQuickeningInfoMethodVisitor(OatWriter* writer, OutputStream* out, uint32_t offset)
: DexMethodVisitor(writer, offset),
out_(out),
written_bytes_(0u) {}
bool VisitMethod(size_t class_def_method_index ATTRIBUTE_UNUSED,
const ClassDataItemIterator& it) OVERRIDE {
if (it.GetMethodCodeItem() == nullptr) {
// No CodeItem. Native or abstract method.
return true;
}
uint32_t method_idx = it.GetMemberIndex();
CompiledMethod* compiled_method =
writer_->compiler_driver_->GetCompiledMethod(MethodReference(dex_file_, method_idx));
uint32_t length = 0;
const uint8_t* data = nullptr;
// VMap only contains quickening info if this method is not compiled.
if (compiled_method != nullptr && compiled_method->GetQuickCode().empty()) {
ArrayRef<const uint8_t> map = compiled_method->GetVmapTable();
data = map.data();
length = map.size() * sizeof(map.front());
}
if (!out_->WriteFully(&length, sizeof(length)) ||
!out_->WriteFully(data, length)) {
PLOG(ERROR) << "Failed to write quickening info for "
<< dex_file_->PrettyMethod(it.GetMemberIndex()) << " to " << out_->GetLocation();
return false;
}
offset_ += sizeof(length) + length;
written_bytes_ += sizeof(length) + length;
return true;
}
size_t GetNumberOfWrittenBytes() const {
return written_bytes_;
}
private:
OutputStream* const out_;
size_t written_bytes_;
};
bool OatWriter::WriteQuickeningInfo(OutputStream* vdex_out) {
if (!kIsVdexEnabled) {
return true;
}
size_t initial_offset = vdex_size_;
size_t start_offset = RoundUp(initial_offset, 4u);
vdex_size_ = start_offset;
vdex_quickening_info_offset_ = vdex_size_;
size_quickening_info_alignment_ = start_offset - initial_offset;
off_t actual_offset = vdex_out->Seek(start_offset, kSeekSet);
if (actual_offset != static_cast<off_t>(start_offset)) {
PLOG(ERROR) << "Failed to seek to quickening info section. Actual: " << actual_offset
<< " Expected: " << start_offset
<< " Output: " << vdex_out->GetLocation();
return false;
}
if (compiler_driver_->GetCompilerOptions().IsAnyCompilationEnabled()) {
WriteQuickeningInfoMethodVisitor visitor(this, vdex_out, start_offset);
if (!VisitDexMethods(&visitor)) {
PLOG(ERROR) << "Failed to write the vdex quickening info. File: " << vdex_out->GetLocation();
return false;
}
if (!vdex_out->Flush()) {
PLOG(ERROR) << "Failed to flush stream after writing quickening info."
<< " File: " << vdex_out->GetLocation();
return false;
}
size_quickening_info_ = visitor.GetNumberOfWrittenBytes();
} else {
// We know we did not quicken.
size_quickening_info_ = 0;
}
vdex_size_ += size_quickening_info_;
return true;
}
bool OatWriter::WriteVerifierDeps(OutputStream* vdex_out, verifier::VerifierDeps* verifier_deps) {
if (!kIsVdexEnabled) {
return true;
}
if (verifier_deps == nullptr) {
// Nothing to write. Record the offset, but no need
// for alignment.
vdex_verifier_deps_offset_ = vdex_size_;
return true;
}
size_t initial_offset = vdex_size_;
size_t start_offset = RoundUp(initial_offset, 4u);
vdex_size_ = start_offset;
vdex_verifier_deps_offset_ = vdex_size_;
size_verifier_deps_alignment_ = start_offset - initial_offset;
off_t actual_offset = vdex_out->Seek(start_offset, kSeekSet);
if (actual_offset != static_cast<off_t>(start_offset)) {
PLOG(ERROR) << "Failed to seek to verifier deps section. Actual: " << actual_offset
<< " Expected: " << start_offset
<< " Output: " << vdex_out->GetLocation();
return false;
}
std::vector<uint8_t> buffer;
verifier_deps->Encode(*dex_files_, &buffer);
if (!vdex_out->WriteFully(buffer.data(), buffer.size())) {
PLOG(ERROR) << "Failed to write verifier deps."
<< " File: " << vdex_out->GetLocation();
return false;
}
if (!vdex_out->Flush()) {
PLOG(ERROR) << "Failed to flush stream after writing verifier deps."
<< " File: " << vdex_out->GetLocation();
return false;
}
size_verifier_deps_ = buffer.size();
vdex_size_ += size_verifier_deps_;
return true;
}
bool OatWriter::WriteCode(OutputStream* out) {
CHECK(write_state_ == WriteState::kWriteText);
// Wrap out to update checksum with each write.
ChecksumUpdatingOutputStream checksum_updating_out(out, oat_header_.get());
out = &checksum_updating_out;
SetMultiOatRelativePatcherAdjustment();
const size_t file_offset = oat_data_offset_;
size_t relative_offset = oat_header_->GetExecutableOffset();
DCHECK_OFFSET();
relative_offset = WriteCode(out, file_offset, relative_offset);
if (relative_offset == 0) {
LOG(ERROR) << "Failed to write oat code to " << out->GetLocation();
return false;
}
relative_offset = WriteCodeDexFiles(out, file_offset, relative_offset);
if (relative_offset == 0) {
LOG(ERROR) << "Failed to write oat code for dex files to " << out->GetLocation();
return false;
}
const off_t oat_end_file_offset = out->Seek(0, kSeekCurrent);
if (oat_end_file_offset == static_cast<off_t>(-1)) {
LOG(ERROR) << "Failed to get oat end file offset in " << out->GetLocation();
return false;
}
if (kIsDebugBuild) {
uint32_t size_total = 0;
#define DO_STAT(x) \
VLOG(compiler) << #x "=" << PrettySize(x) << " (" << (x) << "B)"; \
size_total += (x);
DO_STAT(size_vdex_header_);
DO_STAT(size_vdex_checksums_);
DO_STAT(size_dex_file_alignment_);
DO_STAT(size_executable_offset_alignment_);
DO_STAT(size_oat_header_);
DO_STAT(size_oat_header_key_value_store_);
DO_STAT(size_dex_file_);
DO_STAT(size_verifier_deps_);
DO_STAT(size_verifier_deps_alignment_);
DO_STAT(size_quickening_info_);
DO_STAT(size_quickening_info_alignment_);
DO_STAT(size_interpreter_to_interpreter_bridge_);
DO_STAT(size_interpreter_to_compiled_code_bridge_);
DO_STAT(size_jni_dlsym_lookup_);
DO_STAT(size_quick_generic_jni_trampoline_);
DO_STAT(size_quick_imt_conflict_trampoline_);
DO_STAT(size_quick_resolution_trampoline_);
DO_STAT(size_quick_to_interpreter_bridge_);
DO_STAT(size_trampoline_alignment_);
DO_STAT(size_method_header_);
DO_STAT(size_code_);
DO_STAT(size_code_alignment_);
DO_STAT(size_relative_call_thunks_);
DO_STAT(size_misc_thunks_);
DO_STAT(size_vmap_table_);
DO_STAT(size_method_info_);
DO_STAT(size_oat_dex_file_location_size_);
DO_STAT(size_oat_dex_file_location_data_);
DO_STAT(size_oat_dex_file_location_checksum_);
DO_STAT(size_oat_dex_file_offset_);
DO_STAT(size_oat_dex_file_class_offsets_offset_);
DO_STAT(size_oat_dex_file_lookup_table_offset_);
DO_STAT(size_oat_dex_file_method_bss_mapping_offset_);
DO_STAT(size_oat_lookup_table_alignment_);
DO_STAT(size_oat_lookup_table_);
DO_STAT(size_oat_class_offsets_alignment_);
DO_STAT(size_oat_class_offsets_);
DO_STAT(size_oat_class_type_);
DO_STAT(size_oat_class_status_);
DO_STAT(size_oat_class_method_bitmaps_);
DO_STAT(size_oat_class_method_offsets_);
DO_STAT(size_method_bss_mappings_);
#undef DO_STAT
VLOG(compiler) << "size_total=" << PrettySize(size_total) << " (" << size_total << "B)";
CHECK_EQ(vdex_size_ + oat_size_, size_total);
CHECK_EQ(file_offset + size_total - vdex_size_, static_cast<size_t>(oat_end_file_offset));
}
CHECK_EQ(file_offset + oat_size_, static_cast<size_t>(oat_end_file_offset));
CHECK_EQ(oat_size_, relative_offset);
write_state_ = WriteState::kWriteHeader;
return true;
}
bool OatWriter::WriteHeader(OutputStream* out,
uint32_t image_file_location_oat_checksum,
uintptr_t image_file_location_oat_begin,
int32_t image_patch_delta) {
CHECK(write_state_ == WriteState::kWriteHeader);
oat_header_->SetImageFileLocationOatChecksum(image_file_location_oat_checksum);
oat_header_->SetImageFileLocationOatDataBegin(image_file_location_oat_begin);
if (compiler_driver_->GetCompilerOptions().IsBootImage()) {
CHECK_EQ(image_patch_delta, 0);
CHECK_EQ(oat_header_->GetImagePatchDelta(), 0);
} else {
CHECK_ALIGNED(image_patch_delta, kPageSize);
oat_header_->SetImagePatchDelta(image_patch_delta);
}
oat_header_->UpdateChecksumWithHeaderData();
const size_t file_offset = oat_data_offset_;
off_t current_offset = out->Seek(0, kSeekCurrent);
if (current_offset == static_cast<off_t>(-1)) {
PLOG(ERROR) << "Failed to get current offset from " << out->GetLocation();
return false;
}
if (out->Seek(file_offset, kSeekSet) == static_cast<off_t>(-1)) {
PLOG(ERROR) << "Failed to seek to oat header position in " << out->GetLocation();
return false;
}
DCHECK_EQ(file_offset, static_cast<size_t>(out->Seek(0, kSeekCurrent)));
// Flush all other data before writing the header.
if (!out->Flush()) {
PLOG(ERROR) << "Failed to flush before writing oat header to " << out->GetLocation();
return false;
}
// Write the header.
size_t header_size = oat_header_->GetHeaderSize();
if (!out->WriteFully(oat_header_.get(), header_size)) {
PLOG(ERROR) << "Failed to write oat header to " << out->GetLocation();
return false;
}
// Flush the header data.
if (!out->Flush()) {
PLOG(ERROR) << "Failed to flush after writing oat header to " << out->GetLocation();
return false;
}
if (out->Seek(current_offset, kSeekSet) == static_cast<off_t>(-1)) {
PLOG(ERROR) << "Failed to seek back after writing oat header to " << out->GetLocation();
return false;
}
DCHECK_EQ(current_offset, out->Seek(0, kSeekCurrent));
write_state_ = WriteState::kDone;
return true;
}
size_t OatWriter::WriteClassOffsets(OutputStream* out, size_t file_offset, size_t relative_offset) {
for (OatDexFile& oat_dex_file : oat_dex_files_) {
if (oat_dex_file.class_offsets_offset_ != 0u) {
// Class offsets are required to be 4 byte aligned.
if (UNLIKELY(!IsAligned<4u>(relative_offset))) {
size_t padding_size = RoundUp(relative_offset, 4u) - relative_offset;
if (!WriteUpTo16BytesAlignment(out, padding_size, &size_oat_class_offsets_alignment_)) {
return 0u;
}
relative_offset += padding_size;
}
DCHECK_OFFSET();
if (!oat_dex_file.WriteClassOffsets(this, out)) {
return 0u;
}
relative_offset += oat_dex_file.GetClassOffsetsRawSize();
}
}
return relative_offset;
}
size_t OatWriter::WriteClasses(OutputStream* out, size_t file_offset, size_t relative_offset) {
for (OatClass& oat_class : oat_classes_) {
// If there are any classes, the class offsets allocation aligns the offset.
DCHECK_ALIGNED(relative_offset, 4u);
DCHECK_OFFSET();
if (!oat_class.Write(this, out, oat_data_offset_)) {
return 0u;
}
relative_offset += oat_class.SizeOf();
}
return relative_offset;
}
size_t OatWriter::WriteMaps(OutputStream* out, size_t file_offset, size_t relative_offset) {
{
size_t vmap_tables_offset = relative_offset;
WriteMapMethodVisitor visitor(this, out, file_offset, relative_offset);
if (UNLIKELY(!VisitDexMethods(&visitor))) {
return 0;
}
relative_offset = visitor.GetOffset();
size_vmap_table_ = relative_offset - vmap_tables_offset;
}
{
size_t method_infos_offset = relative_offset;
WriteMethodInfoVisitor visitor(this, out, file_offset, relative_offset);
if (UNLIKELY(!VisitDexMethods(&visitor))) {
return 0;
}
relative_offset = visitor.GetOffset();
size_method_info_ = relative_offset - method_infos_offset;
}
return relative_offset;
}
size_t OatWriter::WriteMethodBssMappings(OutputStream* out,
size_t file_offset,
size_t relative_offset) {
TimingLogger::ScopedTiming split("WriteMethodBssMappings", timings_);
for (size_t i = 0, size = dex_files_->size(); i != size; ++i) {
const DexFile* dex_file = (*dex_files_)[i];
OatDexFile* oat_dex_file = &oat_dex_files_[i];
auto it = bss_method_entry_references_.find(dex_file);
if (it != bss_method_entry_references_.end()) {
const BitVector& method_indexes = it->second;
// If there are any classes, the class offsets allocation aligns the offset
// and we cannot have method bss mappings without class offsets.
static_assert(alignof(MethodBssMapping) == sizeof(uint32_t),
"MethodBssMapping alignment check.");
DCHECK_ALIGNED(relative_offset, sizeof(uint32_t));
linker::MethodBssMappingEncoder encoder(
GetInstructionSetPointerSize(oat_header_->GetInstructionSet()));
// Allocate a sufficiently large MethodBssMapping.
size_t number_of_method_indexes = method_indexes.NumSetBits();
DCHECK_NE(number_of_method_indexes, 0u);
size_t max_mappings_size = MethodBssMapping::ComputeSize(number_of_method_indexes);
DCHECK_ALIGNED(max_mappings_size, sizeof(uint32_t));
std::unique_ptr<uint32_t[]> storage(new uint32_t[max_mappings_size / sizeof(uint32_t)]);
MethodBssMapping* mappings = new(storage.get()) MethodBssMapping(number_of_method_indexes);
mappings->ClearPadding();
// Encode the MethodBssMapping.
auto init_it = mappings->begin();
bool first_index = true;
for (uint32_t method_index : method_indexes.Indexes()) {
size_t bss_offset = bss_method_entries_.Get(MethodReference(dex_file, method_index));
if (first_index) {
first_index = false;
encoder.Reset(method_index, bss_offset);
} else if (!encoder.TryMerge(method_index, bss_offset)) {
*init_it = encoder.GetEntry();
++init_it;
encoder.Reset(method_index, bss_offset);
}
}
// Store the last entry and shrink the mapping to the actual size.
*init_it = encoder.GetEntry();
++init_it;
DCHECK(init_it <= mappings->end());
mappings->SetSize(std::distance(mappings->begin(), init_it));
size_t mappings_size = MethodBssMapping::ComputeSize(mappings->size());
DCHECK_EQ(relative_offset, oat_dex_file->method_bss_mapping_offset_);
DCHECK_OFFSET();
if (!out->WriteFully(storage.get(), mappings_size)) {
return 0u;
}
size_method_bss_mappings_ += mappings_size;
relative_offset += mappings_size;
} else {
DCHECK_EQ(0u, oat_dex_file->method_bss_mapping_offset_);
}
}
return relative_offset;
}
size_t OatWriter::WriteOatDexFiles(OutputStream* out, size_t file_offset, size_t relative_offset) {
TimingLogger::ScopedTiming split("WriteOatDexFiles", timings_);
for (size_t i = 0, size = oat_dex_files_.size(); i != size; ++i) {
OatDexFile* oat_dex_file = &oat_dex_files_[i];
DCHECK_EQ(relative_offset, oat_dex_file->offset_);
DCHECK_OFFSET();
// Write OatDexFile.
if (!oat_dex_file->Write(this, out)) {
return 0u;
}
relative_offset += oat_dex_file->SizeOf();
}
return relative_offset;
}
size_t OatWriter::WriteCode(OutputStream* out, size_t file_offset, size_t relative_offset) {
if (compiler_driver_->GetCompilerOptions().IsBootImage()) {
InstructionSet instruction_set = compiler_driver_->GetInstructionSet();
#define DO_TRAMPOLINE(field) \
do { \
uint32_t aligned_offset = CompiledCode::AlignCode(relative_offset, instruction_set); \
uint32_t alignment_padding = aligned_offset - relative_offset; \
out->Seek(alignment_padding, kSeekCurrent); \
size_trampoline_alignment_ += alignment_padding; \
if (!out->WriteFully((field)->data(), (field)->size())) { \
PLOG(ERROR) << "Failed to write " # field " to " << out->GetLocation(); \
return false; \
} \
size_ ## field += (field)->size(); \
relative_offset += alignment_padding + (field)->size(); \
DCHECK_OFFSET(); \
} while (false)
DO_TRAMPOLINE(jni_dlsym_lookup_);
DO_TRAMPOLINE(quick_generic_jni_trampoline_);
DO_TRAMPOLINE(quick_imt_conflict_trampoline_);
DO_TRAMPOLINE(quick_resolution_trampoline_);
DO_TRAMPOLINE(quick_to_interpreter_bridge_);
#undef DO_TRAMPOLINE
}
return relative_offset;
}
size_t OatWriter::WriteCodeDexFiles(OutputStream* out,
size_t file_offset,
size_t relative_offset) {
#define VISIT(VisitorType) \
do { \
VisitorType visitor(this, out, file_offset, relative_offset); \
if (UNLIKELY(!VisitDexMethods(&visitor))) { \
return 0; \
} \
relative_offset = visitor.GetOffset(); \
} while (false)
VISIT(WriteCodeMethodVisitor);
#undef VISIT
size_code_alignment_ += relative_patcher_->CodeAlignmentSize();
size_relative_call_thunks_ += relative_patcher_->RelativeCallThunksSize();
size_misc_thunks_ += relative_patcher_->MiscThunksSize();
return relative_offset;
}
bool OatWriter::RecordOatDataOffset(OutputStream* out) {
// Get the elf file offset of the oat file.
const off_t raw_file_offset = out->Seek(0, kSeekCurrent);
if (raw_file_offset == static_cast<off_t>(-1)) {
LOG(ERROR) << "Failed to get file offset in " << out->GetLocation();
return false;
}
oat_data_offset_ = static_cast<size_t>(raw_file_offset);
return true;
}
bool OatWriter::ReadDexFileHeader(File* file, OatDexFile* oat_dex_file) {
// Read the dex file header and perform minimal verification.
uint8_t raw_header[sizeof(DexFile::Header)];
if (!file->ReadFully(&raw_header, sizeof(DexFile::Header))) {
PLOG(ERROR) << "Failed to read dex file header. Actual: "
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (!ValidateDexFileHeader(raw_header, oat_dex_file->GetLocation())) {
return false;
}
const UnalignedDexFileHeader* header = AsUnalignedDexFileHeader(raw_header);
oat_dex_file->dex_file_size_ = header->file_size_;
oat_dex_file->dex_file_location_checksum_ = header->checksum_;
oat_dex_file->class_offsets_.resize(header->class_defs_size_);
return true;
}
bool OatWriter::ValidateDexFileHeader(const uint8_t* raw_header, const char* location) {
if (!DexFile::IsMagicValid(raw_header)) {
LOG(ERROR) << "Invalid magic number in dex file header. " << " File: " << location;
return false;
}
if (!DexFile::IsVersionValid(raw_header)) {
LOG(ERROR) << "Invalid version number in dex file header. " << " File: " << location;
return false;
}
const UnalignedDexFileHeader* header = AsUnalignedDexFileHeader(raw_header);
if (header->file_size_ < sizeof(DexFile::Header)) {
LOG(ERROR) << "Dex file header specifies file size insufficient to contain the header."
<< " File: " << location;
return false;
}
return true;
}
bool OatWriter::WriteDexFiles(OutputStream* out, File* file, bool update_input_vdex) {
TimingLogger::ScopedTiming split("Write Dex files", timings_);
vdex_dex_files_offset_ = vdex_size_;
// Write dex files.
for (OatDexFile& oat_dex_file : oat_dex_files_) {
if (!WriteDexFile(out, file, &oat_dex_file, update_input_vdex)) {
return false;
}
}
CloseSources();
return true;
}
void OatWriter::CloseSources() {
for (OatDexFile& oat_dex_file : oat_dex_files_) {
oat_dex_file.source_.Clear(); // Get rid of the reference, it's about to be invalidated.
}
zipped_dex_files_.clear();
zip_archives_.clear();
raw_dex_files_.clear();
}
bool OatWriter::WriteDexFile(OutputStream* out,
File* file,
OatDexFile* oat_dex_file,
bool update_input_vdex) {
if (!SeekToDexFile(out, file, oat_dex_file)) {
return false;
}
if (profile_compilation_info_ != nullptr) {
DCHECK(!update_input_vdex);
if (!LayoutAndWriteDexFile(out, oat_dex_file)) {
return false;
}
} else if (oat_dex_file->source_.IsZipEntry()) {
DCHECK(!update_input_vdex);
if (!WriteDexFile(out, file, oat_dex_file, oat_dex_file->source_.GetZipEntry())) {
return false;
}
} else if (oat_dex_file->source_.IsRawFile()) {
DCHECK(!update_input_vdex);
if (!WriteDexFile(out, file, oat_dex_file, oat_dex_file->source_.GetRawFile())) {
return false;
}
} else {
DCHECK(oat_dex_file->source_.IsRawData());
if (!WriteDexFile(out, oat_dex_file, oat_dex_file->source_.GetRawData(), update_input_vdex)) {
return false;
}
}
// Update current size and account for the written data.
if (kIsVdexEnabled) {
DCHECK_EQ(vdex_size_, oat_dex_file->dex_file_offset_);
vdex_size_ += oat_dex_file->dex_file_size_;
} else {
DCHECK(!update_input_vdex);
DCHECK_EQ(oat_size_, oat_dex_file->dex_file_offset_);
oat_size_ += oat_dex_file->dex_file_size_;
}
size_dex_file_ += oat_dex_file->dex_file_size_;
return true;
}
bool OatWriter::SeekToDexFile(OutputStream* out, File* file, OatDexFile* oat_dex_file) {
// Dex files are required to be 4 byte aligned.
size_t initial_offset = kIsVdexEnabled ? vdex_size_ : oat_size_;
size_t start_offset = RoundUp(initial_offset, 4);
size_t file_offset = kIsVdexEnabled ? start_offset : (oat_data_offset_ + start_offset);
size_dex_file_alignment_ += start_offset - initial_offset;
// Seek to the start of the dex file and flush any pending operations in the stream.
// Verify that, after flushing the stream, the file is at the same offset as the stream.
off_t actual_offset = out->Seek(file_offset, kSeekSet);
if (actual_offset != static_cast<off_t>(file_offset)) {
PLOG(ERROR) << "Failed to seek to dex file section. Actual: " << actual_offset
<< " Expected: " << file_offset
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (!out->Flush()) {
PLOG(ERROR) << "Failed to flush before writing dex file."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
actual_offset = lseek(file->Fd(), 0, SEEK_CUR);
if (actual_offset != static_cast<off_t>(file_offset)) {
PLOG(ERROR) << "Stream/file position mismatch! Actual: " << actual_offset
<< " Expected: " << file_offset
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (kIsVdexEnabled) {
vdex_size_ = start_offset;
} else {
oat_size_ = start_offset;
}
oat_dex_file->dex_file_offset_ = start_offset;
return true;
}
bool OatWriter::LayoutAndWriteDexFile(OutputStream* out, OatDexFile* oat_dex_file) {
TimingLogger::ScopedTiming split("Dex Layout", timings_);
std::string error_msg;
std::string location(oat_dex_file->GetLocation());
std::unique_ptr<const DexFile> dex_file;
if (oat_dex_file->source_.IsZipEntry()) {
ZipEntry* zip_entry = oat_dex_file->source_.GetZipEntry();
std::unique_ptr<MemMap> mem_map(
zip_entry->ExtractToMemMap(location.c_str(), "classes.dex", &error_msg));
if (mem_map == nullptr) {
LOG(ERROR) << "Failed to extract dex file to mem map for layout: " << error_msg;
return false;
}
dex_file = DexFile::Open(location,
zip_entry->GetCrc32(),
std::move(mem_map),
/* verify */ true,
/* verify_checksum */ true,
&error_msg);
} else if (oat_dex_file->source_.IsRawFile()) {
File* raw_file = oat_dex_file->source_.GetRawFile();
dex_file = DexFile::OpenDex(raw_file->Fd(), location, /* verify_checksum */ true, &error_msg);
} else {
// The source data is a vdex file.
CHECK(oat_dex_file->source_.IsRawData())
<< static_cast<size_t>(oat_dex_file->source_.GetType());
const uint8_t* raw_dex_file = oat_dex_file->source_.GetRawData();
// Note: The raw data has already been checked to contain the header
// and all the data that the header specifies as the file size.
DCHECK(raw_dex_file != nullptr);
DCHECK(ValidateDexFileHeader(raw_dex_file, oat_dex_file->GetLocation()));
const UnalignedDexFileHeader* header = AsUnalignedDexFileHeader(raw_dex_file);
// Since the source may have had its layout changed, or may be quickened, don't verify it.
dex_file = DexFile::Open(raw_dex_file,
header->file_size_,
location,
oat_dex_file->dex_file_location_checksum_,
nullptr,
/* verify */ false,
/* verify_checksum */ false,
&error_msg);
}
if (dex_file == nullptr) {
LOG(ERROR) << "Failed to open dex file for layout: " << error_msg;
return false;
}
Options options;
options.output_to_memmap_ = true;
DexLayout dex_layout(options, profile_compilation_info_, nullptr);
dex_layout.ProcessDexFile(location.c_str(), dex_file.get(), 0);
std::unique_ptr<MemMap> mem_map(dex_layout.GetAndReleaseMemMap());
if (!WriteDexFile(out, oat_dex_file, mem_map->Begin(), /* update_input_vdex */ false)) {
return false;
}
// Set the checksum of the new oat dex file to be the original file's checksum.
oat_dex_file->dex_file_location_checksum_ = dex_file->GetLocationChecksum();
return true;
}
bool OatWriter::WriteDexFile(OutputStream* out,
File* file,
OatDexFile* oat_dex_file,
ZipEntry* dex_file) {
size_t start_offset = kIsVdexEnabled ? vdex_size_ : oat_data_offset_ + oat_size_;
DCHECK_EQ(static_cast<off_t>(start_offset), out->Seek(0, kSeekCurrent));
// Extract the dex file and get the extracted size.
std::string error_msg;
if (!dex_file->ExtractToFile(*file, &error_msg)) {
LOG(ERROR) << "Failed to extract dex file from ZIP entry: " << error_msg
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (file->Flush() != 0) {
PLOG(ERROR) << "Failed to flush dex file from ZIP entry."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
off_t extracted_end = lseek(file->Fd(), 0, SEEK_CUR);
if (extracted_end == static_cast<off_t>(-1)) {
PLOG(ERROR) << "Failed get end offset after writing dex file from ZIP entry."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (extracted_end < static_cast<off_t>(start_offset)) {
LOG(ERROR) << "Dex file end position is before start position! End: " << extracted_end
<< " Start: " << start_offset
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
uint64_t extracted_size = static_cast<uint64_t>(extracted_end - start_offset);
if (extracted_size < sizeof(DexFile::Header)) {
LOG(ERROR) << "Extracted dex file is shorter than dex file header. size: "
<< extracted_size << " File: " << oat_dex_file->GetLocation();
return false;
}
// Read the dex file header and extract required data to OatDexFile.
off_t actual_offset = lseek(file->Fd(), start_offset, SEEK_SET);
if (actual_offset != static_cast<off_t>(start_offset)) {
PLOG(ERROR) << "Failed to seek back to dex file header. Actual: " << actual_offset
<< " Expected: " << start_offset
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (!ReadDexFileHeader(file, oat_dex_file)) {
return false;
}
if (extracted_size < oat_dex_file->dex_file_size_) {
LOG(ERROR) << "Extracted truncated dex file. Extracted size: " << extracted_size
<< " file size from header: " << oat_dex_file->dex_file_size_
<< " File: " << oat_dex_file->GetLocation();
return false;
}
// Override the checksum from header with the CRC from ZIP entry.
oat_dex_file->dex_file_location_checksum_ = dex_file->GetCrc32();
// Seek both file and stream to the end offset.
size_t end_offset = start_offset + oat_dex_file->dex_file_size_;
actual_offset = lseek(file->Fd(), end_offset, SEEK_SET);
if (actual_offset != static_cast<off_t>(end_offset)) {
PLOG(ERROR) << "Failed to seek to end of dex file. Actual: " << actual_offset
<< " Expected: " << end_offset
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
actual_offset = out->Seek(end_offset, kSeekSet);
if (actual_offset != static_cast<off_t>(end_offset)) {
PLOG(ERROR) << "Failed to seek stream to end of dex file. Actual: " << actual_offset
<< " Expected: " << end_offset << " File: " << oat_dex_file->GetLocation();
return false;
}
if (!out->Flush()) {
PLOG(ERROR) << "Failed to flush stream after seeking over dex file."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
// If we extracted more than the size specified in the header, truncate the file.
if (extracted_size > oat_dex_file->dex_file_size_) {
if (file->SetLength(end_offset) != 0) {
PLOG(ERROR) << "Failed to truncate excessive dex file length."
<< " File: " << oat_dex_file->GetLocation()
<< " Output: " << file->GetPath();
return false;
}
}
return true;
}
bool OatWriter::WriteDexFile(OutputStream* out,
File* file,
OatDexFile* oat_dex_file,
File* dex_file) {
size_t start_offset = kIsVdexEnabled ? vdex_size_ : oat_data_offset_ + oat_size_;
DCHECK_EQ(static_cast<off_t>(start_offset), out->Seek(0, kSeekCurrent));
off_t input_offset = lseek(dex_file->Fd(), 0, SEEK_SET);
if (input_offset != static_cast<off_t>(0)) {
PLOG(ERROR) << "Failed to seek to dex file header. Actual: " << input_offset
<< " Expected: 0"
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (!ReadDexFileHeader(dex_file, oat_dex_file)) {
return false;
}
// Copy the input dex file using sendfile().
if (!file->Copy(dex_file, 0, oat_dex_file->dex_file_size_)) {
PLOG(ERROR) << "Failed to copy dex file to oat file."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
if (file->Flush() != 0) {
PLOG(ERROR) << "Failed to flush dex file."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
// Check file position and seek the stream to the end offset.
size_t end_offset = start_offset + oat_dex_file->dex_file_size_;
off_t actual_offset = lseek(file->Fd(), 0, SEEK_CUR);
if (actual_offset != static_cast<off_t>(end_offset)) {
PLOG(ERROR) << "Unexpected file position after copying dex file. Actual: " << actual_offset
<< " Expected: " << end_offset
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
actual_offset = out->Seek(end_offset, kSeekSet);
if (actual_offset != static_cast<off_t>(end_offset)) {
PLOG(ERROR) << "Failed to seek stream to end of dex file. Actual: " << actual_offset
<< " Expected: " << end_offset << " File: " << oat_dex_file->GetLocation();
return false;
}
if (!out->Flush()) {
PLOG(ERROR) << "Failed to flush stream after seeking over dex file."
<< " File: " << oat_dex_file->GetLocation() << " Output: " << file->GetPath();
return false;
}
return true;
}
bool OatWriter::WriteDexFile(OutputStream* out,
OatDexFile* oat_dex_file,
const uint8_t* dex_file,
bool update_input_vdex) {
// Note: The raw data has already been checked to contain the header
// and all the data that the header specifies as the file size.
DCHECK(dex_file != nullptr);
DCHECK(ValidateDexFileHeader(dex_file, oat_dex_file->GetLocation()));
const UnalignedDexFileHeader* header = AsUnalignedDexFileHeader(dex_file);
if (update_input_vdex) {
// The vdex already contains the dex code, no need to write it again.
} else {
if (!out->WriteFully(dex_file, header->file_size_)) {
PLOG(ERROR) << "Failed to write dex file " << oat_dex_file->GetLocation()
<< " to " << out->GetLocation();
return false;
}
if (!out->Flush()) {
PLOG(ERROR) << "Failed to flush stream after writing dex file."
<< " File: " << oat_dex_file->GetLocation();
return false;
}
}
// Update dex file size and resize class offsets in the OatDexFile.
// Note: For raw data, the checksum is passed directly to AddRawDexFileSource().
// Note: For vdex, the checksum is copied from the existing vdex file.
oat_dex_file->dex_file_size_ = header->file_size_;
oat_dex_file->class_offsets_.resize(header->class_defs_size_);
return true;
}
bool OatWriter::OpenDexFiles(
File* file,
bool verify,
/*out*/ std::unique_ptr<MemMap>* opened_dex_files_map,
/*out*/ std::vector<std::unique_ptr<const DexFile>>* opened_dex_files) {
TimingLogger::ScopedTiming split("OpenDexFiles", timings_);
if (oat_dex_files_.empty()) {
// Nothing to do.
return true;
}
size_t map_offset = oat_dex_files_[0].dex_file_offset_;
size_t length = kIsVdexEnabled ? (vdex_size_ - map_offset) : (oat_size_ - map_offset);
std::string error_msg;
std::unique_ptr<MemMap> dex_files_map(MemMap::MapFile(
length,
PROT_READ | PROT_WRITE,
MAP_SHARED,
file->Fd(),
kIsVdexEnabled ? map_offset : (oat_data_offset_ + map_offset),
/* low_4gb */ false,
file->GetPath().c_str(),
&error_msg));
if (dex_files_map == nullptr) {
LOG(ERROR) << "Failed to mmap() dex files from oat file. File: " << file->GetPath()
<< " error: " << error_msg;
return false;
}
std::vector<std::unique_ptr<const DexFile>> dex_files;
for (OatDexFile& oat_dex_file : oat_dex_files_) {
// Make sure no one messed with input files while we were copying data.
// At the very least we need consistent file size and number of class definitions.
const uint8_t* raw_dex_file =
dex_files_map->Begin() + oat_dex_file.dex_file_offset_ - map_offset;
if (!ValidateDexFileHeader(raw_dex_file, oat_dex_file.GetLocation())) {
// Note: ValidateDexFileHeader() already logged an error message.
LOG(ERROR) << "Failed to verify written dex file header!"
<< " Output: " << file->GetPath() << " ~ " << std::hex << map_offset
<< " ~ " << static_cast<const void*>(raw_dex_file);
return false;
}
const UnalignedDexFileHeader* header = AsUnalignedDexFileHeader(raw_dex_file);
if (header->file_size_ != oat_dex_file.dex_file_size_) {
LOG(ERROR) << "File size mismatch in written dex file header! Expected: "
<< oat_dex_file.dex_file_size_ << " Actual: " << header->file_size_
<< " Output: " << file->GetPath();
return false;
}
if (header->class_defs_size_ != oat_dex_file.class_offsets_.size()) {
LOG(ERROR) << "Class defs size mismatch in written dex file header! Expected: "
<< oat_dex_file.class_offsets_.size() << " Actual: " << header->class_defs_size_
<< " Output: " << file->GetPath();
return false;
}
// Now, open the dex file.
dex_files.emplace_back(DexFile::Open(raw_dex_file,
oat_dex_file.dex_file_size_,
oat_dex_file.GetLocation(),
oat_dex_file.dex_file_location_checksum_,
/* oat_dex_file */ nullptr,
verify,
verify,
&error_msg));
if (dex_files.back() == nullptr) {
LOG(ERROR) << "Failed to open dex file from oat file. File: " << oat_dex_file.GetLocation()
<< " Error: " << error_msg;
return false;
}
}
*opened_dex_files_map = std::move(dex_files_map);
*opened_dex_files = std::move(dex_files);
return true;
}
bool OatWriter::WriteTypeLookupTables(
OutputStream* oat_rodata,
const std::vector<std::unique_ptr<const DexFile>>& opened_dex_files) {
TimingLogger::ScopedTiming split("WriteTypeLookupTables", timings_);
uint32_t expected_offset = oat_data_offset_ + oat_size_;
off_t actual_offset = oat_rodata->Seek(expected_offset, kSeekSet);
if (static_cast<uint32_t>(actual_offset) != expected_offset) {
PLOG(ERROR) << "Failed to seek to TypeLookupTable section. Actual: " << actual_offset
<< " Expected: " << expected_offset << " File: " << oat_rodata->GetLocation();
return false;
}
DCHECK_EQ(opened_dex_files.size(), oat_dex_files_.size());
for (size_t i = 0, size = opened_dex_files.size(); i != size; ++i) {
OatDexFile* oat_dex_file = &oat_dex_files_[i];
DCHECK_EQ(oat_dex_file->lookup_table_offset_, 0u);
if (oat_dex_file->create_type_lookup_table_ != CreateTypeLookupTable::kCreate ||
oat_dex_file->class_offsets_.empty()) {
continue;
}
size_t table_size = TypeLookupTable::RawDataLength(oat_dex_file->class_offsets_.size());
if (table_size == 0u) {
continue;
}
// Create the lookup table. When `nullptr` is given as the storage buffer,
// TypeLookupTable allocates its own and OatDexFile takes ownership.
const DexFile& dex_file = *opened_dex_files[i];
{
std::unique_ptr<TypeLookupTable> type_lookup_table =
TypeLookupTable::Create(dex_file, /* storage */ nullptr);
type_lookup_table_oat_dex_files_.push_back(
std::make_unique<art::OatDexFile>(std::move(type_lookup_table)));
dex_file.SetOatDexFile(type_lookup_table_oat_dex_files_.back().get());
}
TypeLookupTable* const table = type_lookup_table_oat_dex_files_.back()->GetTypeLookupTable();
// Type tables are required to be 4 byte aligned.
size_t initial_offset = oat_size_;
size_t rodata_offset = RoundUp(initial_offset, 4);
size_t padding_size = rodata_offset - initial_offset;
if (padding_size != 0u) {
std::vector<uint8_t> buffer(padding_size, 0u);
if (!oat_rodata->WriteFully(buffer.data(), padding_size)) {
PLOG(ERROR) << "Failed to write lookup table alignment padding."
<< " File: " << oat_dex_file->GetLocation()
<< " Output: " << oat_rodata->GetLocation();
return false;
}
}
DCHECK_EQ(oat_data_offset_ + rodata_offset,
static_cast<size_t>(oat_rodata->Seek(0u, kSeekCurrent)));
DCHECK_EQ(table_size, table->RawDataLength());
if (!oat_rodata->WriteFully(table->RawData(), table_size)) {
PLOG(ERROR) << "Failed to write lookup table."
<< " File: " << oat_dex_file->GetLocation()
<< " Output: " << oat_rodata->GetLocation();
return false;
}
oat_dex_file->lookup_table_offset_ = rodata_offset;
oat_size_ += padding_size + table_size;
size_oat_lookup_table_ += table_size;
size_oat_lookup_table_alignment_ += padding_size;
}
if (!oat_rodata->Flush()) {
PLOG(ERROR) << "Failed to flush stream after writing type lookup tables."
<< " File: " << oat_rodata->GetLocation();
return false;
}
return true;
}
bool OatWriter::WriteChecksumsAndVdexHeader(OutputStream* vdex_out) {
if (!kIsVdexEnabled) {
return true;
}
// Write checksums
off_t actual_offset = vdex_out->Seek(sizeof(VdexFile::Header), kSeekSet);
if (actual_offset != sizeof(VdexFile::Header)) {
PLOG(ERROR) << "Failed to seek to the checksum location of vdex file. Actual: " << actual_offset
<< " File: " << vdex_out->GetLocation();
return false;
}
for (size_t i = 0, size = oat_dex_files_.size(); i != size; ++i) {
OatDexFile* oat_dex_file = &oat_dex_files_[i];
if (!vdex_out->WriteFully(
&oat_dex_file->dex_file_location_checksum_, sizeof(VdexFile::VdexChecksum))) {
PLOG(ERROR) << "Failed to write dex file location checksum. File: "
<< vdex_out->GetLocation();
return false;
}
size_vdex_checksums_ += sizeof(VdexFile::VdexChecksum);
}
// Write header.
actual_offset = vdex_out->Seek(0, kSeekSet);
if (actual_offset != 0) {
PLOG(ERROR) << "Failed to seek to the beginning of vdex file. Actual: " << actual_offset
<< " File: " << vdex_out->GetLocation();
return false;
}
DCHECK_NE(vdex_dex_files_offset_, 0u);
DCHECK_NE(vdex_verifier_deps_offset_, 0u);
size_t dex_section_size = vdex_verifier_deps_offset_ - vdex_dex_files_offset_;
size_t verifier_deps_section_size = vdex_quickening_info_offset_ - vdex_verifier_deps_offset_;
size_t quickening_info_section_size = vdex_size_ - vdex_quickening_info_offset_;
VdexFile::Header vdex_header(oat_dex_files_.size(),
dex_section_size,
verifier_deps_section_size,
quickening_info_section_size);
if (!vdex_out->WriteFully(&vdex_header, sizeof(VdexFile::Header))) {
PLOG(ERROR) << "Failed to write vdex header. File: " << vdex_out->GetLocation();
return false;
}
size_vdex_header_ = sizeof(VdexFile::Header);
if (!vdex_out->Flush()) {
PLOG(ERROR) << "Failed to flush stream after writing to vdex file."
<< " File: " << vdex_out->GetLocation();
return false;
}
return true;
}
bool OatWriter::WriteCodeAlignment(OutputStream* out, uint32_t aligned_code_delta) {
return WriteUpTo16BytesAlignment(out, aligned_code_delta, &size_code_alignment_);
}
bool OatWriter::WriteUpTo16BytesAlignment(OutputStream* out, uint32_t size, uint32_t* stat) {
static const uint8_t kPadding[] = {
0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u, 0u
};
DCHECK_LE(size, sizeof(kPadding));
if (UNLIKELY(!out->WriteFully(kPadding, size))) {
return false;
}
*stat += size;
return true;
}
void OatWriter::SetMultiOatRelativePatcherAdjustment() {
DCHECK(dex_files_ != nullptr);
DCHECK(relative_patcher_ != nullptr);
DCHECK_NE(oat_data_offset_, 0u);
if (image_writer_ != nullptr && !dex_files_->empty()) {
// The oat data begin may not be initialized yet but the oat file offset is ready.
size_t oat_index = image_writer_->GetOatIndexForDexFile(dex_files_->front());
size_t elf_file_offset = image_writer_->GetOatFileOffset(oat_index);
relative_patcher_->StartOatFile(elf_file_offset + oat_data_offset_);
}
}
OatWriter::OatDexFile::OatDexFile(const char* dex_file_location,
DexFileSource source,
CreateTypeLookupTable create_type_lookup_table)
: source_(source),
create_type_lookup_table_(create_type_lookup_table),
dex_file_size_(0),
offset_(0),
dex_file_location_size_(strlen(dex_file_location)),
dex_file_location_data_(dex_file_location),
dex_file_location_checksum_(0u),
dex_file_offset_(0u),
class_offsets_offset_(0u),
lookup_table_offset_(0u),
method_bss_mapping_offset_(0u),
class_offsets_() {
}
size_t OatWriter::OatDexFile::SizeOf() const {
return sizeof(dex_file_location_size_)
+ dex_file_location_size_
+ sizeof(dex_file_location_checksum_)
+ sizeof(dex_file_offset_)
+ sizeof(class_offsets_offset_)
+ sizeof(lookup_table_offset_)
+ sizeof(method_bss_mapping_offset_);
}
bool OatWriter::OatDexFile::Write(OatWriter* oat_writer, OutputStream* out) const {
const size_t file_offset = oat_writer->oat_data_offset_;
DCHECK_OFFSET_();
if (!out->WriteFully(&dex_file_location_size_, sizeof(dex_file_location_size_))) {
PLOG(ERROR) << "Failed to write dex file location length to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_location_size_ += sizeof(dex_file_location_size_);
if (!out->WriteFully(dex_file_location_data_, dex_file_location_size_)) {
PLOG(ERROR) << "Failed to write dex file location data to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_location_data_ += dex_file_location_size_;
if (!out->WriteFully(&dex_file_location_checksum_, sizeof(dex_file_location_checksum_))) {
PLOG(ERROR) << "Failed to write dex file location checksum to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_location_checksum_ += sizeof(dex_file_location_checksum_);
if (!out->WriteFully(&dex_file_offset_, sizeof(dex_file_offset_))) {
PLOG(ERROR) << "Failed to write dex file offset to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_offset_ += sizeof(dex_file_offset_);
if (!out->WriteFully(&class_offsets_offset_, sizeof(class_offsets_offset_))) {
PLOG(ERROR) << "Failed to write class offsets offset to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_class_offsets_offset_ += sizeof(class_offsets_offset_);
if (!out->WriteFully(&lookup_table_offset_, sizeof(lookup_table_offset_))) {
PLOG(ERROR) << "Failed to write lookup table offset to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_lookup_table_offset_ += sizeof(lookup_table_offset_);
if (!out->WriteFully(&method_bss_mapping_offset_, sizeof(method_bss_mapping_offset_))) {
PLOG(ERROR) << "Failed to write method bss mapping offset to " << out->GetLocation();
return false;
}
oat_writer->size_oat_dex_file_method_bss_mapping_offset_ += sizeof(method_bss_mapping_offset_);
return true;
}
bool OatWriter::OatDexFile::WriteClassOffsets(OatWriter* oat_writer, OutputStream* out) {
if (!out->WriteFully(class_offsets_.data(), GetClassOffsetsRawSize())) {
PLOG(ERROR) << "Failed to write oat class offsets for " << GetLocation()
<< " to " << out->GetLocation();
return false;
}
oat_writer->size_oat_class_offsets_ += GetClassOffsetsRawSize();
return true;
}
OatWriter::OatClass::OatClass(size_t offset,
const dchecked_vector<CompiledMethod*>& compiled_methods,
uint32_t num_non_null_compiled_methods,
mirror::Class::Status status)
: compiled_methods_(compiled_methods) {
uint32_t num_methods = compiled_methods.size();
CHECK_LE(num_non_null_compiled_methods, num_methods);
offset_ = offset;
oat_method_offsets_offsets_from_oat_class_.resize(num_methods);
// Since both kOatClassNoneCompiled and kOatClassAllCompiled could
// apply when there are 0 methods, we just arbitrarily say that 0
// methods means kOatClassNoneCompiled and that we won't use
// kOatClassAllCompiled unless there is at least one compiled
// method. This means in an interpretter only system, we can assert
// that all classes are kOatClassNoneCompiled.
if (num_non_null_compiled_methods == 0) {
type_ = kOatClassNoneCompiled;
} else if (num_non_null_compiled_methods == num_methods) {
type_ = kOatClassAllCompiled;
} else {
type_ = kOatClassSomeCompiled;
}
status_ = status;
method_offsets_.resize(num_non_null_compiled_methods);
method_headers_.resize(num_non_null_compiled_methods);
uint32_t oat_method_offsets_offset_from_oat_class = sizeof(type_) + sizeof(status_);
if (type_ == kOatClassSomeCompiled) {
method_bitmap_.reset(new BitVector(num_methods, false, Allocator::GetMallocAllocator()));
method_bitmap_size_ = method_bitmap_->GetSizeOf();
oat_method_offsets_offset_from_oat_class += sizeof(method_bitmap_size_);
oat_method_offsets_offset_from_oat_class += method_bitmap_size_;
} else {
method_bitmap_ = nullptr;
method_bitmap_size_ = 0;
}
for (size_t i = 0; i < num_methods; i++) {
CompiledMethod* compiled_method = compiled_methods_[i];
if (compiled_method == nullptr) {
oat_method_offsets_offsets_from_oat_class_[i] = 0;
} else {
oat_method_offsets_offsets_from_oat_class_[i] = oat_method_offsets_offset_from_oat_class;
oat_method_offsets_offset_from_oat_class += sizeof(OatMethodOffsets);
if (type_ == kOatClassSomeCompiled) {
method_bitmap_->SetBit(i);
}
}
}
}
size_t OatWriter::OatClass::GetOatMethodOffsetsOffsetFromOatHeader(
size_t class_def_method_index_) const {
uint32_t method_offset = GetOatMethodOffsetsOffsetFromOatClass(class_def_method_index_);
if (method_offset == 0) {
return 0;
}
return offset_ + method_offset;
}
size_t OatWriter::OatClass::GetOatMethodOffsetsOffsetFromOatClass(
size_t class_def_method_index_) const {
return oat_method_offsets_offsets_from_oat_class_[class_def_method_index_];
}
size_t OatWriter::OatClass::SizeOf() const {
return sizeof(status_)
+ sizeof(type_)
+ ((method_bitmap_size_ == 0) ? 0 : sizeof(method_bitmap_size_))
+ method_bitmap_size_
+ (sizeof(method_offsets_[0]) * method_offsets_.size());
}
bool OatWriter::OatClass::Write(OatWriter* oat_writer,
OutputStream* out,
const size_t file_offset) const {
DCHECK_OFFSET_();
if (!out->WriteFully(&status_, sizeof(status_))) {
PLOG(ERROR) << "Failed to write class status to " << out->GetLocation();
return false;
}
oat_writer->size_oat_class_status_ += sizeof(status_);
if (!out->WriteFully(&type_, sizeof(type_))) {
PLOG(ERROR) << "Failed to write oat class type to " << out->GetLocation();
return false;
}
oat_writer->size_oat_class_type_ += sizeof(type_);
if (method_bitmap_size_ != 0) {
CHECK_EQ(kOatClassSomeCompiled, type_);
if (!out->WriteFully(&method_bitmap_size_, sizeof(method_bitmap_size_))) {
PLOG(ERROR) << "Failed to write method bitmap size to " << out->GetLocation();
return false;
}
oat_writer->size_oat_class_method_bitmaps_ += sizeof(method_bitmap_size_);
if (!out->WriteFully(method_bitmap_->GetRawStorage(), method_bitmap_size_)) {
PLOG(ERROR) << "Failed to write method bitmap to " << out->GetLocation();
return false;
}
oat_writer->size_oat_class_method_bitmaps_ += method_bitmap_size_;
}
if (!out->WriteFully(method_offsets_.data(), GetMethodOffsetsRawSize())) {
PLOG(ERROR) << "Failed to write method offsets to " << out->GetLocation();
return false;
}
oat_writer->size_oat_class_method_offsets_ += GetMethodOffsetsRawSize();
return true;
}
} // namespace art