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instruction.cc
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instruction.cc
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// Copyright 2011-2024 Google LLC
//
// 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
//
// https://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 "third_party/zynamics/binexport/instruction.h"
#include <algorithm>
#include <cstdint>
#include <iomanip>
#include <ios>
#include <iterator>
#include <list>
#include <memory>
#include <ostream>
#include <sstream>
#include <string>
#include <vector>
#include "third_party/absl/log/check.h"
#include "third_party/absl/log/log.h"
#include "third_party/zynamics/binexport/flow_graph.h"
#include "third_party/zynamics/binexport/operand.h"
#include "third_party/zynamics/binexport/virtual_memory.h"
namespace {
struct TreeNode {
using Children = std::list<TreeNode*>;
explicit TreeNode(const Expression* expression) : expression(expression) {}
const Expression* expression;
Children children; // Should be stored sorted by position.
};
using Tree = std::vector<std::shared_ptr<TreeNode>>;
// TODO(cblichmann): Immediate floats are rendered as hex and aren't properly
// checked for their sign.
void RenderExpression(std::ostream* stream, const TreeNode& node,
int substitution_id, const std::string& substitution) {
CHECK(node.expression != nullptr);
const auto& expression = *node.expression;
if (expression.GetId() == substitution_id) {
*stream << substitution;
return;
}
int8_t expression_type = expression.GetType();
const std::string& expression_symbol = expression.GetSymbol();
switch (expression_type) {
case Expression::TYPE_SIZEPREFIX: {
if ((expression_symbol != "b4" && Instruction::GetBitness() == 32) ||
(expression_symbol != "b8" && Instruction::GetBitness() == 64)) {
*stream << expression_symbol << " ";
}
for (auto* child : node.children) {
RenderExpression(stream, *child, substitution_id, substitution);
}
break;
}
case Expression::TYPE_REGISTER:
case Expression::TYPE_SYMBOL: {
*stream << expression_symbol;
break;
}
case Expression::TYPE_OPERATOR: {
if (node.children.size() > 1 && expression_symbol != "{") {
for (auto it = node.children.begin(), end = node.children.end();
it != end; ++it) {
RenderExpression(stream, **it, substitution_id, substitution);
TreeNode::Children::const_iterator j = it;
if (++j != node.children.end()) {
if (expression_symbol == "+" && (*j)->expression->IsImmediate()) {
if (Instruction::IsNegativeValue(
(*j)->expression->GetImmediate()) &&
(*j)->expression->GetSymbol().empty()) {
// Don't render anything or we'll get: eax+-12
} else if ((*j)->expression->GetImmediate() == 0) {
// Skip "+0".
it = j;
continue;
} else {
*stream << expression_symbol;
}
} else {
*stream << expression_symbol;
}
}
}
} else if (expression_symbol == "{") {
*stream << "{";
for (auto it = node.children.begin(), end = node.children.end();
it != end; ++it) {
RenderExpression(stream, **it, substitution_id, substitution);
TreeNode::Children::const_iterator j = it;
if (++j != node.children.end()) {
*stream << ",";
}
}
*stream << "}";
} else {
*stream << expression_symbol;
for (auto child : node.children) {
RenderExpression(stream, *child, substitution_id, substitution);
}
}
break;
}
case Expression::TYPE_DEREFERENCE: {
*stream << "[";
for (auto child : node.children) {
RenderExpression(stream, *child, substitution_id, substitution);
}
*stream << "]";
break;
}
case Expression::TYPE_IMMEDIATE_INT:
case Expression::TYPE_IMMEDIATE_FLOAT: {
if (expression_symbol.empty()) {
int64_t expression_immediate = expression.GetImmediate();
if ((Instruction::IsNegativeValue(expression_immediate) &&
expression.GetParent() &&
expression.GetParent()->GetSymbol() == "+") ||
expression.GetImmediate() <= 9) {
*stream << std::dec << std::setw(0)
<< (Instruction::GetBitness() == 32
? static_cast<int32_t>(expression_immediate)
: expression_immediate);
} else {
*stream << "0x" << std::hex << std::uppercase << expression_immediate;
}
} else {
// Output the expression substitution instead of the actual value.
*stream << expression_symbol;
}
break;
}
case Expression::TYPE_GLOBALVARIABLE:
case Expression::TYPE_JUMPLABEL:
case Expression::TYPE_STACKVARIABLE:
case Expression::TYPE_FUNCTION: {
*stream << expression_symbol;
break;
}
default: {
std::string error("Unknown expression type in RenderExpression.");
*stream << error;
LOG(INFO) << error;
break;
}
}
}
FlowGraph::Substitutions::const_iterator GetSubstitution(
Address address, int operand_num,
FlowGraph::Substitutions::const_iterator subst_begin,
FlowGraph::Substitutions::const_iterator subst_end,
std::string* substitution, int* expression_id) {
auto it = subst_begin;
while (it != subst_end && std::get<0>(it->first) == address &&
std::get<1>(it->first) < operand_num) {
++it;
}
if (it != subst_end) {
const Address subst_address = std::get<0>(it->first);
const int subst_operand = std::get<1>(it->first);
if (subst_address == address && subst_operand == operand_num) {
*expression_id = std::get<2>(it->first);
*substitution = *it->second;
}
}
return it;
}
} // namespace
std::string RenderOperands(const Instruction& instruction,
const FlowGraph& flow_graph) {
if (!instruction.GetOperandCount()) {
return "";
}
auto subst_it = flow_graph.GetSubstitutions().lower_bound(
FlowGraph::Ref(instruction.GetAddress(), 0, 0));
const auto subst_end = flow_graph.GetSubstitutions().end();
while (subst_it != subst_end &&
std::get<0>(subst_it->first) < instruction.GetAddress()) {
++subst_it;
}
Tree tree;
std::stringstream stream;
int operand_index = 0;
for (const auto* operand : instruction) {
for (const auto* expression : *operand) {
tree.emplace_back(std::make_shared<TreeNode>(expression));
for (auto it = tree.rbegin(), tree_end = tree.rend(); it != tree_end;
++it) {
if ((*it)->expression == expression->GetParent()) {
(*it)->children.push_back(&**tree.rbegin());
break;
}
}
}
if (!tree.empty()) {
std::string substitution;
int expression_id = 0;
subst_it =
GetSubstitution(instruction.GetAddress(), operand_index, subst_it,
subst_end, &substitution, &expression_id);
RenderExpression(&stream, **tree.begin(), expression_id, substitution);
}
tree.clear();
if (operand_index != instruction.GetOperandCount() - 1) {
stream << ", ";
}
++operand_index;
}
return stream.str();
}
void SortInstructions(Instructions* instructions) {
std::sort(instructions->begin(), instructions->end(),
[](const Instruction& one, const Instruction& two) {
return one.GetAddress() < two.GetAddress();
});
}
Instructions::const_iterator GetInstructionFromRange(
const InstructionRange& range, Address address) {
auto it = std::lower_bound(
range.begin(), range.end(), address,
[](const Instruction& i, Address a) { return i.GetAddress() < a; });
return (it != range.end() && it->GetAddress() == address) ? it : range.end();
}
Instructions::iterator GetInstructionFromRange(InstructionRange* range,
Address address) {
auto it = std::lower_bound(
range->begin(), range->end(), address,
[](const Instruction& i, Address a) { return i.GetAddress() < a; });
return (it != range->end() && it->GetAddress() == address) ? it
: range->end();
}
Instructions::iterator GetInstruction(Instructions* instructions,
Address address) {
InstructionRange range(instructions);
return GetInstructionFromRange(&range, address);
}
Instructions::iterator GetNextInstruction(Instructions* instructions,
Instructions::iterator instruction) {
Address next_instruction_address = instruction->GetNextInstruction();
if (!next_instruction_address) {
return instructions->end();
}
// Try the cheap way: Simply check whether the next instruction
// is the one we need if it isn't: check the next.
Instructions::iterator next_instruction;
for (next_instruction = instruction + 1;
next_instruction != instructions->end() &&
next_instruction->GetAddress() < next_instruction_address;
++next_instruction) {
}
if (next_instruction != instructions->end() &&
next_instruction->GetAddress() == next_instruction_address) {
return next_instruction;
}
return instructions->end();
}
thread_local int Instruction::instance_count_ = 0;
thread_local Instruction::StringCache Instruction::string_cache_;
thread_local Operands Instruction::operands_;
thread_local int Instruction::bitness_ = 32;
thread_local Instruction::GetBytesCallback Instruction::get_bytes_callback_ = 0;
thread_local AddressSpace* Instruction::flags_ = nullptr;
thread_local AddressSpace* Instruction::virtual_memory_ = nullptr;
Instruction::Instruction(Address address, Address next_instruction,
uint16_t size, const std::string& mnemonic,
const Operands& operands)
: mnemonic_(CacheString(mnemonic)),
address_(address),
operand_index_(operands_.size()),
operand_count_(operands.size()),
in_degree_(0),
size_(size) {
std::copy(operands.begin(), operands.end(), std::back_inserter(operands_));
++instance_count_;
assert(flags_);
if (flags_->IsValidAddress(address_)) {
if (next_instruction && next_instruction > address) {
SetFlag(FLAG_FLOW, true);
}
if (mnemonic_->empty()) {
SetFlag(FLAG_INVALID, true);
}
}
}
Instruction& Instruction::operator=(const Instruction& one) {
mnemonic_ = one.mnemonic_;
address_ = one.address_;
operand_index_ = one.operand_index_;
operand_count_ = one.operand_count_;
in_degree_ = one.in_degree_;
size_ = one.size_;
return *this;
}
Instruction::Instruction(const Instruction& one)
: mnemonic_(one.mnemonic_),
address_(one.address_),
operand_index_(one.operand_index_),
operand_count_(one.operand_count_),
in_degree_(one.in_degree_),
size_(one.size_) {
++instance_count_;
}
Instruction::~Instruction() {
if (--instance_count_ == 0) {
StringCache().swap(string_cache_);
Operands().swap(operands_);
}
}
void Instruction::SetBitness(int bitness) { bitness_ = bitness; }
int Instruction::GetBitness() { return bitness_; }
void Instruction::SetGetBytesCallback(GetBytesCallback callback) {
get_bytes_callback_ = callback;
}
void Instruction::SetMemoryFlags(AddressSpace* flags) { flags_ = flags; }
void Instruction::SetVirtualMemory(AddressSpace* virtual_memory) {
virtual_memory_ = virtual_memory;
}
void Instruction::Render(std::ostream* stream,
const FlowGraph& flow_graph) const {
*stream << GetMnemonic() << " ";
*stream << RenderOperands(*this, flow_graph);
}
Address Instruction::GetAddress() const { return address_; }
int Instruction::GetSize() const { return size_; }
const std::string& Instruction::GetMnemonic() const {
assert(mnemonic_);
return *mnemonic_;
}
std::string Instruction::GetBytes() const {
if (!get_bytes_callback_ && virtual_memory_) {
// TODO(soerenme) Optimize this so we don't need a call to GetMemoryBlock
// for each instruction.
const auto memory_block = virtual_memory_->GetMemoryBlock(address_);
return std::string(
reinterpret_cast<const char*>(&*memory_block->second.begin() +
address_ - memory_block->first),
size_);
}
assert(get_bytes_callback_);
return get_bytes_callback_(*this);
}
void Instruction::SetNextInstruction(Address) {
(*flags_)[address_] |= FLAG_FLOW;
}
Address Instruction::GetNextInstruction() const {
Byte* flags = &(*flags_)[address_];
if (!(*flags & FLAG_FLOW)) {
return 0;
}
return address_ + size_;
}
const std::string* Instruction::CacheString(const std::string& value) {
return &*string_cache_.insert(value).first;
}
uint16_t Instruction::GetInDegree() const { return in_degree_; }
void Instruction::AddInEdge() {
if (in_degree_ < std::numeric_limits<uint16_t>::max()) {
in_degree_++;
#ifdef _DEBUG
} else {
assert(false && "instruction has too many in edges!");
#endif
}
}
uint8_t Instruction::GetOperandCount() const { return operand_count_; }
Operands::const_iterator Instruction::cbegin() const {
return operands_.begin() + operand_index_;
}
Operands::const_iterator Instruction::cend() const {
return begin() + GetOperandCount();
}
Operands::iterator Instruction::begin() const {
return operands_.begin() + operand_index_;
}
Operands::iterator Instruction::end() const {
return begin() + GetOperandCount();
}
const Operand& Instruction::GetOperand(int index) const {
CHECK(index >= 0 && index < GetOperandCount());
return *operands_[operand_index_ + index];
}
const Operand& Instruction::GetFirstOperand() const { return GetOperand(0); }
const Operand& Instruction::GetSecondOperand() const { return GetOperand(1); }
const Operand& Instruction::GetThirdOperand() const { return GetOperand(2); }
bool Instruction::IsFlow() const {
return ((*flags_)[address_] & FLAG_FLOW) != 0;
}
bool Instruction::IsExported(Address address) {
return ((*flags_)[address] & FLAG_EXPORTED) != 0;
}
bool Instruction::IsExported() const { return IsExported(address_); }
void Instruction::SetExported(bool exported) {
if (exported) {
(*flags_)[address_] |= FLAG_EXPORTED;
} else {
(*flags_)[address_] &= ~FLAG_EXPORTED;
}
}
void Instruction::SetFlag(uint8_t flag, bool value) {
if (value) {
(*flags_)[address_] |= flag;
} else {
(*flags_)[address_] &= ~flag;
}
}
bool Instruction::HasFlag(uint8_t flag) const {
return ((*flags_)[address_] & flag) != 0;
}
bool Instruction::IsNegativeValue(int64_t value) {
return Instruction::GetBitness() == 32 ? static_cast<int32_t>(value) < 0
: static_cast<int64_t>(value) < 0;
}