Gitiles
Code Review Sign In
LeafOS / LeafOS-Project / android_art / 465455f6538a4b624a8482e8927f5cbb929c2f5c / . / libdexfile / dex / dex_instruction.cc
blob: 11a2d97691e31707e47980b9382f1fa8c8299357 [file] [log] [blame]
/*
* 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 "dex_instruction-inl.h"
#include <inttypes.h>
#include <iomanip>
#include <sstream>
#include "android-base/stringprintf.h"
#include "dex_file-inl.h"
#include "utf.h"
namespace art {
using android::base::StringPrintf;
const char* const Instruction::kInstructionNames[] = {
#define INSTRUCTION_NAME(o, c, pname, f, i, a, e, v) pname,
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(INSTRUCTION_NAME)
#undef DEX_INSTRUCTION_LIST
#undef INSTRUCTION_NAME
};
static_assert(sizeof(Instruction::InstructionDescriptor) == 8u, "Unexpected descriptor size");
static constexpr int8_t InstructionSizeInCodeUnitsByOpcode(Instruction::Code opcode,
Instruction::Format format) {
if (opcode == Instruction::Code::NOP) {
return -1;
} else if ((format >= Instruction::Format::k10x) && (format <= Instruction::Format::k10t)) {
return 1;
} else if ((format >= Instruction::Format::k20t) && (format <= Instruction::Format::k22c)) {
return 2;
} else if ((format >= Instruction::Format::k32x) && (format <= Instruction::Format::k3rc)) {
return 3;
} else if ((format >= Instruction::Format::k45cc) && (format <= Instruction::Format::k4rcc)) {
return 4;
} else if (format == Instruction::Format::k51l) {
return 5;
} else {
return -1;
}
}
Instruction::InstructionDescriptor const Instruction::kInstructionDescriptors[] = {
#define INSTRUCTION_DESCR(opcode, c, p, format, index, flags, eflags, vflags) \
{ vflags, \
format, \
index, \
flags, \
InstructionSizeInCodeUnitsByOpcode((c), (format)), \
},
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(INSTRUCTION_DESCR)
#undef DEX_INSTRUCTION_LIST
#undef INSTRUCTION_DESCR
};
int32_t Instruction::GetTargetOffset() const {
switch (FormatOf(Opcode())) {
// Cases for conditional branches follow.
case k22t: return VRegC_22t();
case k21t: return VRegB_21t();
// Cases for unconditional branches follow.
case k10t: return VRegA_10t();
case k20t: return VRegA_20t();
case k30t: return VRegA_30t();
default: LOG(FATAL) << "Tried to access the branch offset of an instruction " << Name() <<
" which does not have a target operand.";
}
UNREACHABLE();
}
bool Instruction::CanFlowThrough() const {
const uint16_t* insns = reinterpret_cast<const uint16_t*>(this);
uint16_t insn = *insns;
Code opcode = static_cast<Code>(insn & 0xFF);
return FlagsOf(opcode) & Instruction::kContinue;
}
size_t Instruction::SizeInCodeUnitsComplexOpcode() const {
const uint16_t* insns = reinterpret_cast<const uint16_t*>(this);
// Handle special NOP encoded variable length sequences.
switch (*insns) {
case kPackedSwitchSignature:
return (4 + insns[1] * 2);
case kSparseSwitchSignature:
return (2 + insns[1] * 4);
case kArrayDataSignature: {
uint16_t element_size = insns[1];
uint32_t length = insns[2] | (((uint32_t)insns[3]) << 16);
// The plus 1 is to round up for odd size and width.
return (4 + (element_size * length + 1) / 2);
}
default:
if ((*insns & 0xFF) == 0) {
return 1; // NOP.
} else {
LOG(FATAL) << "Unreachable: " << DumpString(nullptr);
UNREACHABLE();
}
}
}
size_t Instruction::CodeUnitsRequiredForSizeOfComplexOpcode() const {
const uint16_t* insns = reinterpret_cast<const uint16_t*>(this);
// Handle special NOP encoded variable length sequences.
switch (*insns) {
case kPackedSwitchSignature:
FALLTHROUGH_INTENDED;
case kSparseSwitchSignature:
return 2;
case kArrayDataSignature:
return 4;
default:
if ((*insns & 0xFF) == 0) {
return 1; // NOP.
} else {
LOG(FATAL) << "Unreachable: " << DumpString(nullptr);
UNREACHABLE();
}
}
}
std::string Instruction::DumpHex(size_t code_units) const {
size_t inst_length = SizeInCodeUnits();
if (inst_length > code_units) {
inst_length = code_units;
}
std::ostringstream os;
const uint16_t* insn = reinterpret_cast<const uint16_t*>(this);
for (size_t i = 0; i < inst_length; i++) {
os << StringPrintf("0x%04x", insn[i]) << " ";
}
for (size_t i = inst_length; i < code_units; i++) {
os << " ";
}
return os.str();
}
std::string Instruction::DumpHexLE(size_t instr_code_units) const {
size_t inst_length = SizeInCodeUnits();
if (inst_length > instr_code_units) {
inst_length = instr_code_units;
}
std::ostringstream os;
const uint16_t* insn = reinterpret_cast<const uint16_t*>(this);
for (size_t i = 0; i < inst_length; i++) {
os << StringPrintf("%02x%02x", static_cast<uint8_t>(insn[i] & 0x00FF),
static_cast<uint8_t>((insn[i] & 0xFF00) >> 8)) << " ";
}
for (size_t i = inst_length; i < instr_code_units; i++) {
os << " ";
}
return os.str();
}
std::string Instruction::DumpString(const DexFile* file) const {
std::ostringstream os;
const char* opcode = kInstructionNames[Opcode()];
switch (FormatOf(Opcode())) {
case k10x: os << opcode; break;
case k12x: os << StringPrintf("%s v%d, v%d", opcode, VRegA_12x(), VRegB_12x()); break;
case k11n: os << StringPrintf("%s v%d, #%+d", opcode, VRegA_11n(), VRegB_11n()); break;
case k11x: os << StringPrintf("%s v%d", opcode, VRegA_11x()); break;
case k10t: os << StringPrintf("%s %+d", opcode, VRegA_10t()); break;
case k20t: os << StringPrintf("%s %+d", opcode, VRegA_20t()); break;
case k22x: os << StringPrintf("%s v%d, v%d", opcode, VRegA_22x(), VRegB_22x()); break;
case k21t: os << StringPrintf("%s v%d, %+d", opcode, VRegA_21t(), VRegB_21t()); break;
case k21s: os << StringPrintf("%s v%d, #%+d", opcode, VRegA_21s(), VRegB_21s()); break;
case k21h: {
// op vAA, #+BBBB0000[00000000]
if (Opcode() == CONST_HIGH16) {
uint32_t value = VRegB_21h() << 16;
os << StringPrintf("%s v%d, #int %+d // 0x%x", opcode, VRegA_21h(), value, value);
} else {
uint64_t value = static_cast<uint64_t>(VRegB_21h()) << 48;
os << StringPrintf("%s v%d, #long %+" PRId64 " // 0x%" PRIx64, opcode, VRegA_21h(),
value, value);
}
}
break;
case k21c: {
switch (Opcode()) {
case CONST_STRING:
if (file != nullptr) {
uint32_t string_idx = VRegB_21c();
if (string_idx < file->NumStringIds()) {
os << StringPrintf(
"const-string v%d, %s // string@%d",
VRegA_21c(),
PrintableString(file->StringDataByIdx(dex::StringIndex(string_idx))).c_str(),
string_idx);
} else {
os << StringPrintf("const-string v%d, <<invalid-string-idx-%d>> // string@%d",
VRegA_21c(),
string_idx,
string_idx);
}
break;
}
FALLTHROUGH_INTENDED;
case CHECK_CAST:
case CONST_CLASS:
case NEW_INSTANCE:
if (file != nullptr) {
dex::TypeIndex type_idx(VRegB_21c());
os << opcode << " v" << static_cast<int>(VRegA_21c()) << ", "
<< file->PrettyType(type_idx) << " // type@" << type_idx;
break;
}
FALLTHROUGH_INTENDED;
case SGET:
case SGET_WIDE:
case SGET_OBJECT:
case SGET_BOOLEAN:
case SGET_BYTE:
case SGET_CHAR:
case SGET_SHORT:
if (file != nullptr) {
uint32_t field_idx = VRegB_21c();
os << opcode << " v" << static_cast<int>(VRegA_21c()) << ", " << file->PrettyField(field_idx, true)
<< " // field@" << field_idx;
break;
}
FALLTHROUGH_INTENDED;
case SPUT:
case SPUT_WIDE:
case SPUT_OBJECT:
case SPUT_BOOLEAN:
case SPUT_BYTE:
case SPUT_CHAR:
case SPUT_SHORT:
if (file != nullptr) {
uint32_t field_idx = VRegB_21c();
os << opcode << " v" << static_cast<int>(VRegA_21c()) << ", " << file->PrettyField(field_idx, true)
<< " // field@" << field_idx;
break;
}
FALLTHROUGH_INTENDED;
default:
os << StringPrintf("%s v%d, thing@%d", opcode, VRegA_21c(), VRegB_21c());
break;
}
break;
}
case k23x: os << StringPrintf("%s v%d, v%d, v%d", opcode, VRegA_23x(), VRegB_23x(), VRegC_23x()); break;
case k22b: os << StringPrintf("%s v%d, v%d, #%+d", opcode, VRegA_22b(), VRegB_22b(), VRegC_22b()); break;
case k22t: os << StringPrintf("%s v%d, v%d, %+d", opcode, VRegA_22t(), VRegB_22t(), VRegC_22t()); break;
case k22s: os << StringPrintf("%s v%d, v%d, #%+d", opcode, VRegA_22s(), VRegB_22s(), VRegC_22s()); break;
case k22c: {
switch (Opcode()) {
case IGET:
case IGET_WIDE:
case IGET_OBJECT:
case IGET_BOOLEAN:
case IGET_BYTE:
case IGET_CHAR:
case IGET_SHORT:
if (file != nullptr) {
uint32_t field_idx = VRegC_22c();
os << opcode << " v" << static_cast<int>(VRegA_22c()) << ", v" << static_cast<int>(VRegB_22c()) << ", "
<< file->PrettyField(field_idx, true) << " // field@" << field_idx;
break;
}
FALLTHROUGH_INTENDED;
case IPUT:
case IPUT_WIDE:
case IPUT_OBJECT:
case IPUT_BOOLEAN:
case IPUT_BYTE:
case IPUT_CHAR:
case IPUT_SHORT:
if (file != nullptr) {
uint32_t field_idx = VRegC_22c();
os << opcode << " v" << static_cast<int>(VRegA_22c()) << ", v" << static_cast<int>(VRegB_22c()) << ", "
<< file->PrettyField(field_idx, true) << " // field@" << field_idx;
break;
}
FALLTHROUGH_INTENDED;
case INSTANCE_OF:
if (file != nullptr) {
dex::TypeIndex type_idx(VRegC_22c());
os << opcode << " v" << static_cast<int>(VRegA_22c()) << ", v"
<< static_cast<int>(VRegB_22c()) << ", " << file->PrettyType(type_idx)
<< " // type@" << type_idx.index_;
break;
}
FALLTHROUGH_INTENDED;
case NEW_ARRAY:
if (file != nullptr) {
dex::TypeIndex type_idx(VRegC_22c());
os << opcode << " v" << static_cast<int>(VRegA_22c()) << ", v"
<< static_cast<int>(VRegB_22c()) << ", " << file->PrettyType(type_idx)
<< " // type@" << type_idx.index_;
break;
}
FALLTHROUGH_INTENDED;
default:
os << StringPrintf("%s v%d, v%d, thing@%d", opcode, VRegA_22c(), VRegB_22c(), VRegC_22c());
break;
}
break;
}
case k32x: os << StringPrintf("%s v%d, v%d", opcode, VRegA_32x(), VRegB_32x()); break;
case k30t: os << StringPrintf("%s %+d", opcode, VRegA_30t()); break;
case k31t: os << StringPrintf("%s v%d, %+d", opcode, VRegA_31t(), VRegB_31t()); break;
case k31i: os << StringPrintf("%s v%d, #%+d", opcode, VRegA_31i(), VRegB_31i()); break;
case k31c:
if (Opcode() == CONST_STRING_JUMBO) {
uint32_t string_idx = VRegB_31c();
if (file != nullptr) {
if (string_idx < file->NumStringIds()) {
os << StringPrintf(
"%s v%d, %s // string@%d",
opcode,
VRegA_31c(),
PrintableString(file->StringDataByIdx(dex::StringIndex(string_idx))).c_str(),
string_idx);
} else {
os << StringPrintf("%s v%d, <<invalid-string-idx-%d>> // string@%d",
opcode,
VRegA_31c(),
string_idx,
string_idx);
}
} else {
os << StringPrintf("%s v%d, string@%d", opcode, VRegA_31c(), string_idx);
}
} else {
os << StringPrintf("%s v%d, thing@%d", opcode, VRegA_31c(), VRegB_31c()); break;
}
break;
case k35c: {
uint32_t arg[kMaxVarArgRegs];
GetVarArgs(arg);
auto DumpArgs = [&](size_t count) {
for (size_t i = 0; i < count; ++i) {
if (i != 0) {
os << ", ";
}
os << "v" << arg[i];
}
};
switch (Opcode()) {
case FILLED_NEW_ARRAY:
{
os << opcode << " {";
DumpArgs(VRegA_35c());
os << "}, type@" << VRegB_35c();
}
break;
case INVOKE_VIRTUAL:
case INVOKE_SUPER:
case INVOKE_DIRECT:
case INVOKE_STATIC:
case INVOKE_INTERFACE:
if (file != nullptr) {
os << opcode << " {";
uint32_t method_idx = VRegB_35c();
DumpArgs(VRegA_35c());
os << "}, " << file->PrettyMethod(method_idx) << " // method@" << method_idx;
break;
}
FALLTHROUGH_INTENDED;
case INVOKE_CUSTOM:
if (file != nullptr) {
os << opcode << " {";
uint32_t call_site_idx = VRegB_35c();
DumpArgs(VRegA_35c());
os << "}, // call_site@" << call_site_idx;
break;
}
FALLTHROUGH_INTENDED;
default:
os << opcode << " {";
DumpArgs(VRegA_35c());
os << "}, thing@" << VRegB_35c();
break;
}
break;
}
case k3rc: {
uint16_t first_reg = VRegC_3rc();
uint16_t last_reg = VRegC_3rc() + VRegA_3rc() - 1;
switch (Opcode()) {
case INVOKE_VIRTUAL_RANGE:
case INVOKE_SUPER_RANGE:
case INVOKE_DIRECT_RANGE:
case INVOKE_STATIC_RANGE:
case INVOKE_INTERFACE_RANGE:
if (file != nullptr) {
uint32_t method_idx = VRegB_3rc();
os << StringPrintf("%s, {v%d .. v%d}, ", opcode, first_reg, last_reg)
<< file->PrettyMethod(method_idx) << " // method@" << method_idx;
break;
}
FALLTHROUGH_INTENDED;
case INVOKE_CUSTOM_RANGE:
if (file != nullptr) {
uint32_t call_site_idx = VRegB_3rc();
os << StringPrintf("%s, {v%d .. v%d}, ", opcode, first_reg, last_reg)
<< "// call_site@" << call_site_idx;
break;
}
FALLTHROUGH_INTENDED;
default:
os << StringPrintf("%s, {v%d .. v%d}, ", opcode, first_reg, last_reg)
<< "thing@" << VRegB_3rc();
break;
}
break;
}
case k45cc: {
uint32_t arg[kMaxVarArgRegs];
GetVarArgs(arg);
uint16_t method_idx = VRegB_45cc();
dex::ProtoIndex proto_idx(VRegH_45cc());
os << opcode << " {";
for (uint32_t i = 0; i < VRegA_45cc(); ++i) {
if (i != 0) {
os << ", ";
}
os << "v" << arg[i];
}
os << "}";
if (file != nullptr) {
os << ", " << file->PrettyMethod(method_idx)
<< ", " << file->GetShorty(proto_idx)
<< " // ";
} else {
os << ", ";
}
os << "method@" << method_idx << ", proto@" << proto_idx;
break;
}
case k4rcc:
switch (Opcode()) {
case INVOKE_POLYMORPHIC_RANGE: {
if (file != nullptr) {
uint16_t method_idx = VRegB_4rcc();
dex::ProtoIndex proto_idx(VRegH_4rcc());
os << opcode << ", {v" << VRegC_4rcc() << " .. v" << (VRegC_4rcc() + VRegA_4rcc())
<< "}, " << file->PrettyMethod(method_idx)
<< ", " << file->GetShorty(dex::ProtoIndex(proto_idx))
<< " // method@" << method_idx << ", proto@" << proto_idx;
break;
}
}
FALLTHROUGH_INTENDED;
default: {
uint16_t method_idx = VRegB_4rcc();
dex::ProtoIndex proto_idx(VRegH_4rcc());
os << opcode << ", {v" << VRegC_4rcc() << " .. v" << (VRegC_4rcc() + VRegA_4rcc())
<< "}, method@" << method_idx << ", proto@" << proto_idx;
}
}
break;
case k51l: os << StringPrintf("%s v%d, #%+" PRId64, opcode, VRegA_51l(), VRegB_51l()); break;
case kInvalidFormat: os << "<invalid-opcode-format>";
}
return os.str();
}
// Add some checks that ensure the flags make sense. We need a subclass to be in the context of
// Instruction. Otherwise the flags from the instruction list don't work.
struct InstructionStaticAsserts : private Instruction {
#define IMPLIES(a, b) (!(a) || (b))
#define VAR_ARGS_CHECK(o, c, pname, f, i, a, e, v) \
static_assert(IMPLIES((f) == k35c || (f) == k45cc, \
((v) & (kVerifyVarArg | kVerifyVarArgNonZero)) != 0), \
"Missing var-arg verification");
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(VAR_ARGS_CHECK)
#undef DEX_INSTRUCTION_LIST
#undef VAR_ARGS_CHECK
#define VAR_ARGS_RANGE_CHECK(o, c, pname, f, i, a, e, v) \
static_assert(IMPLIES((f) == k3rc || (f) == k4rcc, \
((v) & (kVerifyVarArgRange | kVerifyVarArgRangeNonZero)) != 0), \
"Missing var-arg verification");
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(VAR_ARGS_RANGE_CHECK)
#undef DEX_INSTRUCTION_LIST
#undef VAR_ARGS_RANGE_CHECK
#define EXPERIMENTAL_CHECK(o, c, pname, f, i, a, e, v) \
static_assert(kHaveExperimentalInstructions || (((a) & kExperimental) == 0), \
"Unexpected experimental instruction.");
#include "dex_instruction_list.h"
DEX_INSTRUCTION_LIST(EXPERIMENTAL_CHECK)
#undef DEX_INSTRUCTION_LIST
#undef EXPERIMENTAL_CHECK
};
std::ostream& operator<<(std::ostream& os, Instruction::Code code) {
return os << Instruction::Name(code);
}
uint32_t RangeInstructionOperands::GetOperand(size_t operand_index) const {
DCHECK_LT(operand_index, GetNumberOfOperands());
return first_operand_ + operand_index;
}
uint32_t VarArgsInstructionOperands::GetOperand(size_t operand_index) const {
DCHECK_LT(operand_index, GetNumberOfOperands());
return operands_[operand_index];
}
uint32_t NoReceiverInstructionOperands::GetOperand(size_t operand_index) const {
DCHECK_LT(GetNumberOfOperands(), inner_->GetNumberOfOperands());
// The receiver is the first operand and since we're skipping it, we need to
// add 1 to the operand_index.
return inner_->GetOperand(operand_index + 1);
}
} // namespace art