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/*
* Copyright (C) 2016 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.
*
* Implementation file of the dexlayout utility.
*
* This is a tool to read dex files into an internal representation,
* reorganize the representation, and emit dex files with a better
* file layout.
*/
#include "dex_ir.h"
#include "dex_instruction-inl.h"
#include "dex_ir_builder.h"
namespace art {
namespace dex_ir {
static uint64_t ReadVarWidth(const uint8_t** data, uint8_t length, bool sign_extend) {
uint64_t value = 0;
for (uint32_t i = 0; i <= length; i++) {
value |= static_cast<uint64_t>(*(*data)++) << (i * 8);
}
if (sign_extend) {
int shift = (7 - length) * 8;
return (static_cast<int64_t>(value) << shift) >> shift;
}
return value;
}
static bool GetPositionsCb(void* context, const DexFile::PositionInfo& entry) {
DebugInfoItem* debug_info = reinterpret_cast<DebugInfoItem*>(context);
PositionInfoVector& positions = debug_info->GetPositionInfo();
positions.push_back(std::unique_ptr<PositionInfo>(new PositionInfo(entry.address_, entry.line_)));
return false;
}
static void GetLocalsCb(void* context, const DexFile::LocalInfo& entry) {
DebugInfoItem* debug_info = reinterpret_cast<DebugInfoItem*>(context);
LocalInfoVector& locals = debug_info->GetLocalInfo();
const char* name = entry.name_ != nullptr ? entry.name_ : "(null)";
const char* signature = entry.signature_ != nullptr ? entry.signature_ : "";
locals.push_back(std::unique_ptr<LocalInfo>(
new LocalInfo(name, entry.descriptor_, signature, entry.start_address_,
entry.end_address_, entry.reg_)));
}
static uint32_t GetCodeItemSize(const DexFile& dex_file, const DexFile::CodeItem& disk_code_item) {
uintptr_t code_item_start = reinterpret_cast<uintptr_t>(&disk_code_item);
uint32_t insns_size = disk_code_item.insns_size_in_code_units_;
uint32_t tries_size = disk_code_item.tries_size_;
if (tries_size == 0) {
uintptr_t insns_end = reinterpret_cast<uintptr_t>(&disk_code_item.insns_[insns_size]);
return insns_end - code_item_start;
} else {
uint32_t last_handler_off = 0;
for (uint32_t i = 0; i < tries_size; ++i) {
// Iterate over the try items to find the last catch handler.
const DexFile::TryItem* disk_try_item = dex_file.GetTryItems(disk_code_item, i);
uint16_t handler_off = disk_try_item->handler_off_;
if (handler_off > last_handler_off) {
last_handler_off = handler_off;
}
}
// Decode the final handler to see where it ends.
const uint8_t* handler_data = DexFile::GetCatchHandlerData(disk_code_item, last_handler_off);
int32_t uleb128_count = DecodeSignedLeb128(&handler_data) * 2;
if (uleb128_count <= 0) {
uleb128_count = -uleb128_count + 1;
}
for (int32_t i = 0; i < uleb128_count; ++i) {
DecodeUnsignedLeb128(&handler_data);
}
return reinterpret_cast<uintptr_t>(handler_data) - code_item_start;
}
}
static uint32_t GetDebugInfoStreamSize(const uint8_t* debug_info_stream) {
const uint8_t* stream = debug_info_stream;
DecodeUnsignedLeb128(&stream); // line_start
uint32_t parameters_size = DecodeUnsignedLeb128(&stream);
for (uint32_t i = 0; i < parameters_size; ++i) {
DecodeUnsignedLeb128P1(&stream); // Parameter name.
}
for (;;) {
uint8_t opcode = *stream++;
switch (opcode) {
case DexFile::DBG_END_SEQUENCE:
return stream - debug_info_stream; // end of stream.
case DexFile::DBG_ADVANCE_PC:
DecodeUnsignedLeb128(&stream); // addr_diff
break;
case DexFile::DBG_ADVANCE_LINE:
DecodeSignedLeb128(&stream); // line_diff
break;
case DexFile::DBG_START_LOCAL:
DecodeUnsignedLeb128(&stream); // register_num
DecodeUnsignedLeb128P1(&stream); // name_idx
DecodeUnsignedLeb128P1(&stream); // type_idx
break;
case DexFile::DBG_START_LOCAL_EXTENDED:
DecodeUnsignedLeb128(&stream); // register_num
DecodeUnsignedLeb128P1(&stream); // name_idx
DecodeUnsignedLeb128P1(&stream); // type_idx
DecodeUnsignedLeb128P1(&stream); // sig_idx
break;
case DexFile::DBG_END_LOCAL:
case DexFile::DBG_RESTART_LOCAL:
DecodeUnsignedLeb128(&stream); // register_num
break;
case DexFile::DBG_SET_PROLOGUE_END:
case DexFile::DBG_SET_EPILOGUE_BEGIN:
break;
case DexFile::DBG_SET_FILE: {
DecodeUnsignedLeb128P1(&stream); // name_idx
break;
}
default: {
break;
}
}
}
}
static bool GetIdFromInstruction(Collections& collections,
const Instruction* dec_insn,
std::vector<TypeId*>* type_ids,
std::vector<StringId*>* string_ids,
std::vector<MethodId*>* method_ids,
std::vector<FieldId*>* field_ids) {
// Determine index and width of the string.
uint32_t index = 0;
switch (Instruction::FormatOf(dec_insn->Opcode())) {
// SOME NOT SUPPORTED:
// case Instruction::k20bc:
case Instruction::k21c:
case Instruction::k35c:
// case Instruction::k35ms:
case Instruction::k3rc:
// case Instruction::k3rms:
// case Instruction::k35mi:
// case Instruction::k3rmi:
case Instruction::k45cc:
case Instruction::k4rcc:
index = dec_insn->VRegB();
break;
case Instruction::k31c:
index = dec_insn->VRegB();
break;
case Instruction::k22c:
// case Instruction::k22cs:
index = dec_insn->VRegC();
break;
default:
break;
} // switch
// Determine index type, and add reference to the appropriate collection.
switch (Instruction::IndexTypeOf(dec_insn->Opcode())) {
case Instruction::kIndexTypeRef:
if (index < collections.TypeIdsSize()) {
type_ids->push_back(collections.GetTypeId(index));
return true;
}
break;
case Instruction::kIndexStringRef:
if (index < collections.StringIdsSize()) {
string_ids->push_back(collections.GetStringId(index));
return true;
}
break;
case Instruction::kIndexMethodRef:
case Instruction::kIndexMethodAndProtoRef:
if (index < collections.MethodIdsSize()) {
method_ids->push_back(collections.GetMethodId(index));
return true;
}
break;
case Instruction::kIndexFieldRef:
if (index < collections.FieldIdsSize()) {
field_ids->push_back(collections.GetFieldId(index));
return true;
}
break;
case Instruction::kIndexUnknown:
case Instruction::kIndexNone:
case Instruction::kIndexVtableOffset:
case Instruction::kIndexFieldOffset:
default:
break;
} // switch
return false;
}
/*
* Get all the types, strings, methods, and fields referred to from bytecode.
*/
static bool GetIdsFromByteCode(Collections& collections,
const CodeItem* code,
std::vector<TypeId*>* type_ids,
std::vector<StringId*>* string_ids,
std::vector<MethodId*>* method_ids,
std::vector<FieldId*>* field_ids) {
bool has_id = false;
// Iterate over all instructions.
const uint16_t* insns = code->Insns();
for (uint32_t insn_idx = 0; insn_idx < code->InsnsSize();) {
const Instruction* instruction = Instruction::At(&insns[insn_idx]);
const uint32_t insn_width = instruction->SizeInCodeUnits();
if (insn_width == 0) {
break;
}
has_id |= GetIdFromInstruction(collections,
instruction,
type_ids,
string_ids,
method_ids,
field_ids);
insn_idx += insn_width;
} // for
return has_id;
}
EncodedValue* Collections::ReadEncodedValue(const uint8_t** data) {
const uint8_t encoded_value = *(*data)++;
const uint8_t type = encoded_value & 0x1f;
EncodedValue* item = new EncodedValue(type);
ReadEncodedValue(data, type, encoded_value >> 5, item);
return item;
}
EncodedValue* Collections::ReadEncodedValue(const uint8_t** data, uint8_t type, uint8_t length) {
EncodedValue* item = new EncodedValue(type);
ReadEncodedValue(data, type, length, item);
return item;
}
void Collections::ReadEncodedValue(
const uint8_t** data, uint8_t type, uint8_t length, EncodedValue* item) {
switch (type) {
case DexFile::kDexAnnotationByte:
item->SetByte(static_cast<int8_t>(ReadVarWidth(data, length, false)));
break;
case DexFile::kDexAnnotationShort:
item->SetShort(static_cast<int16_t>(ReadVarWidth(data, length, true)));
break;
case DexFile::kDexAnnotationChar:
item->SetChar(static_cast<uint16_t>(ReadVarWidth(data, length, false)));
break;
case DexFile::kDexAnnotationInt:
item->SetInt(static_cast<int32_t>(ReadVarWidth(data, length, true)));
break;
case DexFile::kDexAnnotationLong:
item->SetLong(static_cast<int64_t>(ReadVarWidth(data, length, true)));
break;
case DexFile::kDexAnnotationFloat: {
// Fill on right.
union {
float f;
uint32_t data;
} conv;
conv.data = static_cast<uint32_t>(ReadVarWidth(data, length, false)) << (3 - length) * 8;
item->SetFloat(conv.f);
break;
}
case DexFile::kDexAnnotationDouble: {
// Fill on right.
union {
double d;
uint64_t data;
} conv;
conv.data = ReadVarWidth(data, length, false) << (7 - length) * 8;
item->SetDouble(conv.d);
break;
}
case DexFile::kDexAnnotationString: {
const uint32_t string_index = static_cast<uint32_t>(ReadVarWidth(data, length, false));
item->SetStringId(GetStringId(string_index));
break;
}
case DexFile::kDexAnnotationType: {
const uint32_t string_index = static_cast<uint32_t>(ReadVarWidth(data, length, false));
item->SetTypeId(GetTypeId(string_index));
break;
}
case DexFile::kDexAnnotationField:
case DexFile::kDexAnnotationEnum: {
const uint32_t field_index = static_cast<uint32_t>(ReadVarWidth(data, length, false));
item->SetFieldId(GetFieldId(field_index));
break;
}
case DexFile::kDexAnnotationMethod: {
const uint32_t method_index = static_cast<uint32_t>(ReadVarWidth(data, length, false));
item->SetMethodId(GetMethodId(method_index));
break;
}
case DexFile::kDexAnnotationArray: {
EncodedValueVector* values = new EncodedValueVector();
const uint32_t size = DecodeUnsignedLeb128(data);
// Decode all elements.
for (uint32_t i = 0; i < size; i++) {
values->push_back(std::unique_ptr<EncodedValue>(ReadEncodedValue(data)));
}
item->SetEncodedArray(new EncodedArrayItem(values));
break;
}
case DexFile::kDexAnnotationAnnotation: {
AnnotationElementVector* elements = new AnnotationElementVector();
const uint32_t type_idx = DecodeUnsignedLeb128(data);
const uint32_t size = DecodeUnsignedLeb128(data);
// Decode all name=value pairs.
for (uint32_t i = 0; i < size; i++) {
const uint32_t name_index = DecodeUnsignedLeb128(data);
elements->push_back(std::unique_ptr<AnnotationElement>(
new AnnotationElement(GetStringId(name_index), ReadEncodedValue(data))));
}
item->SetEncodedAnnotation(new EncodedAnnotation(GetTypeId(type_idx), elements));
break;
}
case DexFile::kDexAnnotationNull:
break;
case DexFile::kDexAnnotationBoolean:
item->SetBoolean(length != 0);
break;
default:
break;
}
}
void Collections::CreateStringId(const DexFile& dex_file, uint32_t i) {
const DexFile::StringId& disk_string_id = dex_file.GetStringId(dex::StringIndex(i));
StringData* string_data = new StringData(dex_file.GetStringData(disk_string_id));
string_datas_.AddItem(string_data, disk_string_id.string_data_off_);
StringId* string_id = new StringId(string_data);
string_ids_.AddIndexedItem(string_id, StringIdsOffset() + i * StringId::ItemSize(), i);
}
void Collections::CreateTypeId(const DexFile& dex_file, uint32_t i) {
const DexFile::TypeId& disk_type_id = dex_file.GetTypeId(dex::TypeIndex(i));
TypeId* type_id = new TypeId(GetStringId(disk_type_id.descriptor_idx_.index_));
type_ids_.AddIndexedItem(type_id, TypeIdsOffset() + i * TypeId::ItemSize(), i);
}
void Collections::CreateProtoId(const DexFile& dex_file, uint32_t i) {
const DexFile::ProtoId& disk_proto_id = dex_file.GetProtoId(i);
const DexFile::TypeList* type_list = dex_file.GetProtoParameters(disk_proto_id);
TypeList* parameter_type_list = CreateTypeList(type_list, disk_proto_id.parameters_off_);
ProtoId* proto_id = new ProtoId(GetStringId(disk_proto_id.shorty_idx_.index_),
GetTypeId(disk_proto_id.return_type_idx_.index_),
parameter_type_list);
proto_ids_.AddIndexedItem(proto_id, ProtoIdsOffset() + i * ProtoId::ItemSize(), i);
}
void Collections::CreateFieldId(const DexFile& dex_file, uint32_t i) {
const DexFile::FieldId& disk_field_id = dex_file.GetFieldId(i);
FieldId* field_id = new FieldId(GetTypeId(disk_field_id.class_idx_.index_),
GetTypeId(disk_field_id.type_idx_.index_),
GetStringId(disk_field_id.name_idx_.index_));
field_ids_.AddIndexedItem(field_id, FieldIdsOffset() + i * FieldId::ItemSize(), i);
}
void Collections::CreateMethodId(const DexFile& dex_file, uint32_t i) {
const DexFile::MethodId& disk_method_id = dex_file.GetMethodId(i);
MethodId* method_id = new MethodId(GetTypeId(disk_method_id.class_idx_.index_),
GetProtoId(disk_method_id.proto_idx_),
GetStringId(disk_method_id.name_idx_.index_));
method_ids_.AddIndexedItem(method_id, MethodIdsOffset() + i * MethodId::ItemSize(), i);
}
void Collections::CreateClassDef(const DexFile& dex_file, uint32_t i) {
const DexFile::ClassDef& disk_class_def = dex_file.GetClassDef(i);
const TypeId* class_type = GetTypeId(disk_class_def.class_idx_.index_);
uint32_t access_flags = disk_class_def.access_flags_;
const TypeId* superclass = GetTypeIdOrNullPtr(disk_class_def.superclass_idx_.index_);
const DexFile::TypeList* type_list = dex_file.GetInterfacesList(disk_class_def);
TypeList* interfaces_type_list = CreateTypeList(type_list, disk_class_def.interfaces_off_);
const StringId* source_file = GetStringIdOrNullPtr(disk_class_def.source_file_idx_.index_);
// Annotations.
AnnotationsDirectoryItem* annotations = nullptr;
const DexFile::AnnotationsDirectoryItem* disk_annotations_directory_item =
dex_file.GetAnnotationsDirectory(disk_class_def);
if (disk_annotations_directory_item != nullptr) {
annotations = CreateAnnotationsDirectoryItem(
dex_file, disk_annotations_directory_item, disk_class_def.annotations_off_);
}
// Static field initializers.
const uint8_t* static_data = dex_file.GetEncodedStaticFieldValuesArray(disk_class_def);
EncodedArrayItem* static_values =
CreateEncodedArrayItem(static_data, disk_class_def.static_values_off_);
ClassData* class_data = CreateClassData(
dex_file, dex_file.GetClassData(disk_class_def), disk_class_def.class_data_off_);
ClassDef* class_def = new ClassDef(class_type, access_flags, superclass, interfaces_type_list,
source_file, annotations, static_values, class_data);
class_defs_.AddIndexedItem(class_def, ClassDefsOffset() + i * ClassDef::ItemSize(), i);
}
TypeList* Collections::CreateTypeList(const DexFile::TypeList* dex_type_list, uint32_t offset) {
if (dex_type_list == nullptr) {
return nullptr;
}
auto found_type_list = TypeLists().find(offset);
if (found_type_list != TypeLists().end()) {
return found_type_list->second.get();
}
TypeIdVector* type_vector = new TypeIdVector();
uint32_t size = dex_type_list->Size();
for (uint32_t index = 0; index < size; ++index) {
type_vector->push_back(GetTypeId(dex_type_list->GetTypeItem(index).type_idx_.index_));
}
TypeList* new_type_list = new TypeList(type_vector);
type_lists_.AddItem(new_type_list, offset);
return new_type_list;
}
EncodedArrayItem* Collections::CreateEncodedArrayItem(const uint8_t* static_data, uint32_t offset) {
if (static_data == nullptr) {
return nullptr;
}
auto found_encoded_array_item = EncodedArrayItems().find(offset);
if (found_encoded_array_item != EncodedArrayItems().end()) {
return found_encoded_array_item->second.get();
}
uint32_t size = DecodeUnsignedLeb128(&static_data);
EncodedValueVector* values = new EncodedValueVector();
for (uint32_t i = 0; i < size; ++i) {
values->push_back(std::unique_ptr<EncodedValue>(ReadEncodedValue(&static_data)));
}
// TODO: Calculate the size of the encoded array.
EncodedArrayItem* encoded_array_item = new EncodedArrayItem(values);
encoded_array_items_.AddItem(encoded_array_item, offset);
return encoded_array_item;
}
AnnotationItem* Collections::CreateAnnotationItem(const DexFile::AnnotationItem* annotation,
uint32_t offset) {
auto found_annotation_item = AnnotationItems().find(offset);
if (found_annotation_item != AnnotationItems().end()) {
return found_annotation_item->second.get();
}
uint8_t visibility = annotation->visibility_;
const uint8_t* annotation_data = annotation->annotation_;
EncodedValue* encoded_value =
ReadEncodedValue(&annotation_data, DexFile::kDexAnnotationAnnotation, 0);
// TODO: Calculate the size of the annotation.
AnnotationItem* annotation_item =
new AnnotationItem(visibility, encoded_value->ReleaseEncodedAnnotation());
annotation_items_.AddItem(annotation_item, offset);
return annotation_item;
}
AnnotationSetItem* Collections::CreateAnnotationSetItem(const DexFile& dex_file,
const DexFile::AnnotationSetItem* disk_annotations_item, uint32_t offset) {
if (disk_annotations_item == nullptr || (disk_annotations_item->size_ == 0 && offset == 0)) {
return nullptr;
}
auto found_anno_set_item = AnnotationSetItems().find(offset);
if (found_anno_set_item != AnnotationSetItems().end()) {
return found_anno_set_item->second.get();
}
std::vector<AnnotationItem*>* items = new std::vector<AnnotationItem*>();
for (uint32_t i = 0; i < disk_annotations_item->size_; ++i) {
const DexFile::AnnotationItem* annotation =
dex_file.GetAnnotationItem(disk_annotations_item, i);
if (annotation == nullptr) {
continue;
}
AnnotationItem* annotation_item =
CreateAnnotationItem(annotation, disk_annotations_item->entries_[i]);
items->push_back(annotation_item);
}
AnnotationSetItem* annotation_set_item = new AnnotationSetItem(items);
annotation_set_items_.AddItem(annotation_set_item, offset);
return annotation_set_item;
}
AnnotationsDirectoryItem* Collections::CreateAnnotationsDirectoryItem(const DexFile& dex_file,
const DexFile::AnnotationsDirectoryItem* disk_annotations_item, uint32_t offset) {
auto found_anno_dir_item = AnnotationsDirectoryItems().find(offset);
if (found_anno_dir_item != AnnotationsDirectoryItems().end()) {
return found_anno_dir_item->second.get();
}
const DexFile::AnnotationSetItem* class_set_item =
dex_file.GetClassAnnotationSet(disk_annotations_item);
AnnotationSetItem* class_annotation = nullptr;
if (class_set_item != nullptr) {
uint32_t offset = disk_annotations_item->class_annotations_off_;
class_annotation = CreateAnnotationSetItem(dex_file, class_set_item, offset);
}
const DexFile::FieldAnnotationsItem* fields =
dex_file.GetFieldAnnotations(disk_annotations_item);
FieldAnnotationVector* field_annotations = nullptr;
if (fields != nullptr) {
field_annotations = new FieldAnnotationVector();
for (uint32_t i = 0; i < disk_annotations_item->fields_size_; ++i) {
FieldId* field_id = GetFieldId(fields[i].field_idx_);
const DexFile::AnnotationSetItem* field_set_item =
dex_file.GetFieldAnnotationSetItem(fields[i]);
uint32_t annotation_set_offset = fields[i].annotations_off_;
AnnotationSetItem* annotation_set_item =
CreateAnnotationSetItem(dex_file, field_set_item, annotation_set_offset);
field_annotations->push_back(std::unique_ptr<FieldAnnotation>(
new FieldAnnotation(field_id, annotation_set_item)));
}
}
const DexFile::MethodAnnotationsItem* methods =
dex_file.GetMethodAnnotations(disk_annotations_item);
MethodAnnotationVector* method_annotations = nullptr;
if (methods != nullptr) {
method_annotations = new MethodAnnotationVector();
for (uint32_t i = 0; i < disk_annotations_item->methods_size_; ++i) {
MethodId* method_id = GetMethodId(methods[i].method_idx_);
const DexFile::AnnotationSetItem* method_set_item =
dex_file.GetMethodAnnotationSetItem(methods[i]);
uint32_t annotation_set_offset = methods[i].annotations_off_;
AnnotationSetItem* annotation_set_item =
CreateAnnotationSetItem(dex_file, method_set_item, annotation_set_offset);
method_annotations->push_back(std::unique_ptr<MethodAnnotation>(
new MethodAnnotation(method_id, annotation_set_item)));
}
}
const DexFile::ParameterAnnotationsItem* parameters =
dex_file.GetParameterAnnotations(disk_annotations_item);
ParameterAnnotationVector* parameter_annotations = nullptr;
if (parameters != nullptr) {
parameter_annotations = new ParameterAnnotationVector();
for (uint32_t i = 0; i < disk_annotations_item->parameters_size_; ++i) {
MethodId* method_id = GetMethodId(parameters[i].method_idx_);
const DexFile::AnnotationSetRefList* list =
dex_file.GetParameterAnnotationSetRefList(&parameters[i]);
parameter_annotations->push_back(std::unique_ptr<ParameterAnnotation>(
GenerateParameterAnnotation(dex_file, method_id, list, parameters[i].annotations_off_)));
}
}
// TODO: Calculate the size of the annotations directory.
AnnotationsDirectoryItem* annotations_directory_item = new AnnotationsDirectoryItem(
class_annotation, field_annotations, method_annotations, parameter_annotations);
annotations_directory_items_.AddItem(annotations_directory_item, offset);
return annotations_directory_item;
}
ParameterAnnotation* Collections::GenerateParameterAnnotation(
const DexFile& dex_file, MethodId* method_id,
const DexFile::AnnotationSetRefList* annotation_set_ref_list, uint32_t offset) {
AnnotationSetRefList* set_ref_list = nullptr;
auto found_set_ref_list = AnnotationSetRefLists().find(offset);
if (found_set_ref_list != AnnotationSetRefLists().end()) {
set_ref_list = found_set_ref_list->second.get();
}
if (set_ref_list == nullptr) {
std::vector<AnnotationSetItem*>* annotations = new std::vector<AnnotationSetItem*>();
for (uint32_t i = 0; i < annotation_set_ref_list->size_; ++i) {
const DexFile::AnnotationSetItem* annotation_set_item =
dex_file.GetSetRefItemItem(&annotation_set_ref_list->list_[i]);
uint32_t set_offset = annotation_set_ref_list->list_[i].annotations_off_;
annotations->push_back(CreateAnnotationSetItem(dex_file, annotation_set_item, set_offset));
}
set_ref_list = new AnnotationSetRefList(annotations);
annotation_set_ref_lists_.AddItem(set_ref_list, offset);
}
return new ParameterAnnotation(method_id, set_ref_list);
}
CodeItem* Collections::CreateCodeItem(const DexFile& dex_file,
const DexFile::CodeItem& disk_code_item, uint32_t offset) {
uint16_t registers_size = disk_code_item.registers_size_;
uint16_t ins_size = disk_code_item.ins_size_;
uint16_t outs_size = disk_code_item.outs_size_;
uint32_t tries_size = disk_code_item.tries_size_;
// TODO: Calculate the size of the debug info.
const uint8_t* debug_info_stream = dex_file.GetDebugInfoStream(&disk_code_item);
DebugInfoItem* debug_info = nullptr;
if (debug_info_stream != nullptr) {
debug_info = debug_info_items_.GetExistingObject(disk_code_item.debug_info_off_);
if (debug_info == nullptr) {
uint32_t debug_info_size = GetDebugInfoStreamSize(debug_info_stream);
uint8_t* debug_info_buffer = new uint8_t[debug_info_size];
memcpy(debug_info_buffer, debug_info_stream, debug_info_size);
debug_info = new DebugInfoItem(debug_info_size, debug_info_buffer);
debug_info_items_.AddItem(debug_info, disk_code_item.debug_info_off_);
}
}
uint32_t insns_size = disk_code_item.insns_size_in_code_units_;
uint16_t* insns = new uint16_t[insns_size];
memcpy(insns, disk_code_item.insns_, insns_size * sizeof(uint16_t));
TryItemVector* tries = nullptr;
CatchHandlerVector* handler_list = nullptr;
if (tries_size > 0) {
tries = new TryItemVector();
handler_list = new CatchHandlerVector();
for (uint32_t i = 0; i < tries_size; ++i) {
const DexFile::TryItem* disk_try_item = dex_file.GetTryItems(disk_code_item, i);
uint32_t start_addr = disk_try_item->start_addr_;
uint16_t insn_count = disk_try_item->insn_count_;
uint16_t handler_off = disk_try_item->handler_off_;
const CatchHandler* handlers = nullptr;
for (std::unique_ptr<const CatchHandler>& existing_handlers : *handler_list) {
if (handler_off == existing_handlers->GetListOffset()) {
handlers = existing_handlers.get();
break;
}
}
if (handlers == nullptr) {
bool catch_all = false;
TypeAddrPairVector* addr_pairs = new TypeAddrPairVector();
for (CatchHandlerIterator it(disk_code_item, *disk_try_item); it.HasNext(); it.Next()) {
const dex::TypeIndex type_index = it.GetHandlerTypeIndex();
const TypeId* type_id = GetTypeIdOrNullPtr(type_index.index_);
catch_all |= type_id == nullptr;
addr_pairs->push_back(std::unique_ptr<const TypeAddrPair>(
new TypeAddrPair(type_id, it.GetHandlerAddress())));
}
handlers = new CatchHandler(catch_all, handler_off, addr_pairs);
handler_list->push_back(std::unique_ptr<const CatchHandler>(handlers));
}
TryItem* try_item = new TryItem(start_addr, insn_count, handlers);
tries->push_back(std::unique_ptr<const TryItem>(try_item));
}
// Manually walk catch handlers list and add any missing handlers unreferenced by try items.
const uint8_t* handlers_base = DexFile::GetCatchHandlerData(disk_code_item, 0);
const uint8_t* handlers_data = handlers_base;
uint32_t handlers_size = DecodeUnsignedLeb128(&handlers_data);
while (handlers_size > handler_list->size()) {
bool already_added = false;
uint16_t handler_off = handlers_data - handlers_base;
for (std::unique_ptr<const CatchHandler>& existing_handlers : *handler_list) {
if (handler_off == existing_handlers->GetListOffset()) {
already_added = true;
break;
}
}
int32_t size = DecodeSignedLeb128(&handlers_data);
bool has_catch_all = size <= 0;
if (has_catch_all) {
size = -size;
}
if (already_added) {
for (int32_t i = 0; i < size; i++) {
DecodeUnsignedLeb128(&handlers_data);
DecodeUnsignedLeb128(&handlers_data);
}
if (has_catch_all) {
DecodeUnsignedLeb128(&handlers_data);
}
continue;
}
TypeAddrPairVector* addr_pairs = new TypeAddrPairVector();
for (int32_t i = 0; i < size; i++) {
const TypeId* type_id = GetTypeIdOrNullPtr(DecodeUnsignedLeb128(&handlers_data));
uint32_t addr = DecodeUnsignedLeb128(&handlers_data);
addr_pairs->push_back(
std::unique_ptr<const TypeAddrPair>(new TypeAddrPair(type_id, addr)));
}
if (has_catch_all) {
uint32_t addr = DecodeUnsignedLeb128(&handlers_data);
addr_pairs->push_back(
std::unique_ptr<const TypeAddrPair>(new TypeAddrPair(nullptr, addr)));
}
const CatchHandler* handler = new CatchHandler(has_catch_all, handler_off, addr_pairs);
handler_list->push_back(std::unique_ptr<const CatchHandler>(handler));
}
}
uint32_t size = GetCodeItemSize(dex_file, disk_code_item);
CodeItem* code_item = new CodeItem(
registers_size, ins_size, outs_size, debug_info, insns_size, insns, tries, handler_list);
code_item->SetSize(size);
code_items_.AddItem(code_item, offset);
// Add "fixup" references to types, strings, methods, and fields.
// This is temporary, as we will probably want more detailed parsing of the
// instructions here.
std::unique_ptr<std::vector<TypeId*>> type_ids(new std::vector<TypeId*>());
std::unique_ptr<std::vector<StringId*>> string_ids(new std::vector<StringId*>());
std::unique_ptr<std::vector<MethodId*>> method_ids(new std::vector<MethodId*>());
std::unique_ptr<std::vector<FieldId*>> field_ids(new std::vector<FieldId*>());
if (GetIdsFromByteCode(*this,
code_item,
type_ids.get(),
string_ids.get(),
method_ids.get(),
field_ids.get())) {
CodeFixups* fixups = new CodeFixups(type_ids.release(),
string_ids.release(),
method_ids.release(),
field_ids.release());
code_item->SetCodeFixups(fixups);
}
return code_item;
}
MethodItem* Collections::GenerateMethodItem(const DexFile& dex_file, ClassDataItemIterator& cdii) {
MethodId* method_item = GetMethodId(cdii.GetMemberIndex());
uint32_t access_flags = cdii.GetRawMemberAccessFlags();
const DexFile::CodeItem* disk_code_item = cdii.GetMethodCodeItem();
CodeItem* code_item = nullptr;
DebugInfoItem* debug_info = nullptr;
if (disk_code_item != nullptr) {
code_item = CreateCodeItem(dex_file, *disk_code_item, cdii.GetMethodCodeItemOffset());
debug_info = code_item->DebugInfo();
}
if (debug_info != nullptr) {
bool is_static = (access_flags & kAccStatic) != 0;
dex_file.DecodeDebugLocalInfo(
disk_code_item, is_static, cdii.GetMemberIndex(), GetLocalsCb, debug_info);
dex_file.DecodeDebugPositionInfo(disk_code_item, GetPositionsCb, debug_info);
}
return new MethodItem(access_flags, method_item, code_item);
}
ClassData* Collections::CreateClassData(
const DexFile& dex_file, const uint8_t* encoded_data, uint32_t offset) {
// Read the fields and methods defined by the class, resolving the circular reference from those
// to classes by setting class at the same time.
ClassData* class_data = class_datas_.GetExistingObject(offset);
if (class_data == nullptr && encoded_data != nullptr) {
ClassDataItemIterator cdii(dex_file, encoded_data);
// Static fields.
FieldItemVector* static_fields = new FieldItemVector();
for (uint32_t i = 0; cdii.HasNextStaticField(); i++, cdii.Next()) {
FieldId* field_item = GetFieldId(cdii.GetMemberIndex());
uint32_t access_flags = cdii.GetRawMemberAccessFlags();
static_fields->push_back(std::unique_ptr<FieldItem>(new FieldItem(access_flags, field_item)));
}
// Instance fields.
FieldItemVector* instance_fields = new FieldItemVector();
for (uint32_t i = 0; cdii.HasNextInstanceField(); i++, cdii.Next()) {
FieldId* field_item = GetFieldId(cdii.GetMemberIndex());
uint32_t access_flags = cdii.GetRawMemberAccessFlags();
instance_fields->push_back(
std::unique_ptr<FieldItem>(new FieldItem(access_flags, field_item)));
}
// Direct methods.
MethodItemVector* direct_methods = new MethodItemVector();
for (uint32_t i = 0; cdii.HasNextDirectMethod(); i++, cdii.Next()) {
direct_methods->push_back(
std::unique_ptr<MethodItem>(GenerateMethodItem(dex_file, cdii)));
}
// Virtual methods.
MethodItemVector* virtual_methods = new MethodItemVector();
for (uint32_t i = 0; cdii.HasNextVirtualMethod(); i++, cdii.Next()) {
virtual_methods->push_back(
std::unique_ptr<MethodItem>(GenerateMethodItem(dex_file, cdii)));
}
class_data = new ClassData(static_fields, instance_fields, direct_methods, virtual_methods);
class_data->SetSize(cdii.EndDataPointer() - encoded_data);
class_datas_.AddItem(class_data, offset);
}
return class_data;
}
} // namespace dex_ir
} // namespace art