ImHex/source/views/view_disassembler.cpp

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#include "views/view_disassembler.hpp"
#include "providers/provider.hpp"
#include "utils.hpp"
#include <cstring>
using namespace std::literals::string_literals;
namespace hex {
ViewDisassembler::ViewDisassembler(prv::Provider* &dataProvider) : View(), m_dataProvider(dataProvider) {
View::subscribeEvent(Events::DataChanged, [this](const void*){
this->m_shouldInvalidate = true;
});
}
ViewDisassembler::~ViewDisassembler() {
View::unsubscribeEvent(Events::DataChanged);
}
void ViewDisassembler::createView() {
if (!this->m_windowOpen)
return;
if (this->m_shouldInvalidate) {
this->m_disassembly.clear();
csh capstoneHandle;
cs_insn *instructions = nullptr;
cs_mode mode = cs_mode(this->m_modeBasicARM | this->m_modeExtraARM | this->m_modeBasicMIPS | this->m_modeBasicX86 | this->m_modeBasicPPC);
if (this->m_littleEndianMode)
mode = cs_mode(mode | CS_MODE_LITTLE_ENDIAN);
else
mode = cs_mode(mode | CS_MODE_BIG_ENDIAN);
if (this->m_micoMode)
mode = cs_mode(mode | CS_MODE_MICRO);
if (this->m_sparcV9Mode)
mode = cs_mode(mode | CS_MODE_V9);
if (cs_open(this->m_architecture, mode, &capstoneHandle) == CS_ERR_OK) {
std::vector<u8> buffer(2048, 0x00);
for (u64 address = 0; address < this->m_codeSize; address += 2048) {
size_t bufferSize = std::min(u64(2048), this->m_codeSize - address);
this->m_dataProvider->read(this->m_codeOffset + address, buffer.data(), bufferSize);
size_t instructionCount = cs_disasm(capstoneHandle, buffer.data(), buffer.size(), this->m_baseAddress + address, 0, &instructions);
if (instructionCount == 0)
break;
u64 usedBytes = 0;
for (u32 instr = 0; instr < instructionCount; instr++) {
Disassembly disassembly = { 0 };
disassembly.address = instructions[instr].address;
disassembly.offset = this->m_codeOffset + address + usedBytes;
disassembly.size = instructions[instr].size;
disassembly.mnemonic = instructions[instr].mnemonic;
disassembly.operators = instructions[instr].op_str;
for (u8 i = 0; i < instructions[instr].size; i++)
disassembly.bytes += hex::format("%02X ", instructions[instr].bytes[i]);
disassembly.bytes.pop_back();
this->m_disassembly.push_back(disassembly);
usedBytes += instructions[instr].size;
}
if (instructionCount < bufferSize)
address -= (bufferSize - usedBytes);
cs_free(instructions, instructionCount);
}
cs_close(&capstoneHandle);
}
this->m_shouldInvalidate = false;
}
if (ImGui::Begin("Disassembler", &this->m_windowOpen, ImGuiWindowFlags_NoCollapse)) {
if (this->m_dataProvider != nullptr && this->m_dataProvider->isReadable()) {
constexpr static const char * const ArchitectureNames[] = { "ARM32", "ARM64", "MIPS", "x86", "PowerPC", "Sparc", "SystemZ", "XCore", "68K", "TMS320C64x", "680X", "Ethereum" };
ImGui::InputScalar("Base address", ImGuiDataType_U64, &this->m_baseAddress, nullptr, nullptr, "%llx", ImGuiInputTextFlags_CharsHexadecimal);
ImGui::NewLine();
ImGui::InputScalar("Code start offset", ImGuiDataType_U64, &this->m_codeOffset, nullptr, nullptr, "%llx", ImGuiInputTextFlags_CharsHexadecimal);
ImGui::InputScalar("Code size", ImGuiDataType_U64, &this->m_codeSize, nullptr, nullptr, "%llx", ImGuiInputTextFlags_CharsHexadecimal);
ImGui::NewLine();
ImGui::Separator();
ImGui::NewLine();
ImGui::Combo("Architecture", reinterpret_cast<int*>(&this->m_architecture), ArchitectureNames, 12);
if (ImGui::BeginChild("modes", ImVec2(0, 100), true)) {
if (ImGui::RadioButton("Little Endian", this->m_littleEndianMode))
this->m_littleEndianMode = true;
ImGui::SameLine();
if (ImGui::RadioButton("Big Endian", !this->m_littleEndianMode))
this->m_littleEndianMode = false;
ImGui::NewLine();
switch (this->m_architecture) {
case CS_ARCH_ARM:
this->m_modeBasicMIPS = cs_mode(0);
this->m_modeBasicX86 = cs_mode(0);
this->m_modeBasicPPC = cs_mode(0);
this->m_micoMode = false;
this->m_sparcV9Mode = false;
if (this->m_modeBasicARM == cs_mode(0))
this->m_modeBasicARM = CS_MODE_ARM;
if (ImGui::RadioButton("ARM mode", this->m_modeBasicARM == CS_MODE_ARM))
this->m_modeBasicARM = CS_MODE_ARM;
ImGui::SameLine();
if (ImGui::RadioButton("Thumb mode", this->m_modeBasicARM == CS_MODE_THUMB))
this->m_modeBasicARM = CS_MODE_THUMB;
if (ImGui::RadioButton("Default mode", (this->m_modeExtraARM & (CS_MODE_MCLASS | CS_MODE_V8)) == 0))
this->m_modeExtraARM = cs_mode(0);
ImGui::SameLine();
if (ImGui::RadioButton("Cortex-M mode", (this->m_modeExtraARM & (CS_MODE_MCLASS | CS_MODE_V8)) == CS_MODE_MCLASS))
this->m_modeExtraARM = CS_MODE_MCLASS;
ImGui::SameLine();
if (ImGui::RadioButton("ARMv8 mode", (this->m_modeExtraARM & (CS_MODE_MCLASS | CS_MODE_V8)) == CS_MODE_V8))
this->m_modeExtraARM = CS_MODE_V8;
break;
case CS_ARCH_MIPS:
this->m_modeBasicARM = cs_mode(0);
this->m_modeExtraARM = cs_mode(0);
this->m_modeBasicX86 = cs_mode(0);
this->m_modeBasicPPC = cs_mode(0);
this->m_sparcV9Mode = false;
if (this->m_modeBasicMIPS == cs_mode(0))
this->m_modeBasicMIPS = CS_MODE_MIPS32;
if (ImGui::RadioButton("MIPS32 mode", this->m_modeBasicMIPS == CS_MODE_MIPS32))
this->m_modeBasicMIPS = CS_MODE_MIPS32;
ImGui::SameLine();
if (ImGui::RadioButton("MIPS64 mode", this->m_modeBasicMIPS == CS_MODE_MIPS64))
this->m_modeBasicMIPS = CS_MODE_MIPS64;
ImGui::SameLine();
if (ImGui::RadioButton("MIPS32R6 mode", this->m_modeBasicMIPS == CS_MODE_MIPS32R6))
this->m_modeBasicMIPS = CS_MODE_MIPS32R6;
ImGui::Checkbox("Micro Mode", &this->m_micoMode);
break;
case CS_ARCH_X86:
this->m_modeBasicARM = cs_mode(0);
this->m_modeExtraARM = cs_mode(0);
this->m_modeBasicMIPS = cs_mode(0);
this->m_modeBasicPPC = cs_mode(0);
this->m_micoMode = false;
this->m_sparcV9Mode = false;
if (this->m_modeBasicX86 == cs_mode(0))
this->m_modeBasicX86 = CS_MODE_16;
if (ImGui::RadioButton("16-bit mode", this->m_modeBasicX86 == CS_MODE_16))
this->m_modeBasicX86 = CS_MODE_16;
ImGui::SameLine();
if (ImGui::RadioButton("32-bit mode", this->m_modeBasicX86 == CS_MODE_32))
this->m_modeBasicX86 = CS_MODE_32;
ImGui::SameLine();
if (ImGui::RadioButton("64-bit mode", this->m_modeBasicX86 == CS_MODE_64))
this->m_modeBasicX86 = CS_MODE_64;
break;
case CS_ARCH_PPC:
this->m_modeBasicARM = cs_mode(0);
this->m_modeExtraARM = cs_mode(0);
this->m_modeBasicMIPS = cs_mode(0);
this->m_modeBasicX86 = cs_mode(0);
this->m_micoMode = false;
this->m_sparcV9Mode = false;
if (m_modeBasicPPC == cs_mode(0))
this->m_modeBasicPPC = CS_MODE_32;
if (ImGui::RadioButton("32-bit mode", this->m_modeBasicPPC == CS_MODE_32))
this->m_modeBasicPPC = CS_MODE_32;
ImGui::SameLine();
if (ImGui::RadioButton("64-bit mode", this->m_modeBasicPPC == CS_MODE_64))
this->m_modeBasicPPC = CS_MODE_64;
break;
case CS_ARCH_SPARC:
this->m_modeBasicARM = cs_mode(0);
this->m_modeExtraARM = cs_mode(0);
this->m_modeBasicMIPS = cs_mode(0);
this->m_modeBasicX86 = cs_mode(0);
this->m_modeBasicPPC = cs_mode(0);
this->m_micoMode = false;
ImGui::Checkbox("Sparc V9 mode", &this->m_sparcV9Mode);
break;
case CS_ARCH_ARM64:
case CS_ARCH_SYSZ:
case CS_ARCH_XCORE:
case CS_ARCH_M68K:
case CS_ARCH_TMS320C64X:
case CS_ARCH_M680X:
case CS_ARCH_EVM:
this->m_modeBasicARM = cs_mode(0);
this->m_modeExtraARM = cs_mode(0);
this->m_modeBasicMIPS = cs_mode(0);
this->m_modeBasicX86 = cs_mode(0);
this->m_modeBasicPPC = cs_mode(0);
this->m_micoMode = false;
this->m_sparcV9Mode = false;
break;
}
}
ImGui::EndChild();
ImGui::NewLine();
if (ImGui::Button("Disassemble"))
this->m_shouldInvalidate = true;
ImGui::NewLine();
ImGui::Separator();
ImGui::NewLine();
if (ImGui::BeginTable("##disassembly", 4, ImGuiTableFlags_ScrollY | ImGuiTableFlags_Borders | ImGuiTableFlags_Resizable | ImGuiTableFlags_RowBg | ImGuiTableFlags_Reorderable)) {
ImGui::TableSetupScrollFreeze(0, 1);
ImGui::TableSetupColumn("Address");
ImGui::TableSetupColumn("Offset");
ImGui::TableSetupColumn("Bytes");
ImGui::TableSetupColumn("Disassembly");
ImGuiListClipper clipper;
clipper.Begin(this->m_disassembly.size());
ImGui::TableHeadersRow();
while (clipper.Step()) {
for (u64 i = clipper.DisplayStart; i < clipper.DisplayEnd; i++) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
if (ImGui::Selectable(("##DisassemblyLine"s + std::to_string(i)).c_str(), false, ImGuiSelectableFlags_SpanAllColumns)) {
Region selectRegion = { this->m_disassembly[i].offset, this->m_disassembly[i].size };
View::postEvent(Events::SelectionChangeRequest, &selectRegion);
}
ImGui::SameLine();
ImGui::Text("0x%llx", this->m_disassembly[i].address);
ImGui::TableNextColumn();
ImGui::Text("0x%llx", this->m_disassembly[i].offset);
ImGui::TableNextColumn();
ImGui::TextUnformatted(this->m_disassembly[i].bytes.c_str());
ImGui::TableNextColumn();
ImGui::TextColored(ImColor(0xFFD69C56), "%s", this->m_disassembly[i].mnemonic.c_str());
ImGui::SameLine();
ImGui::TextUnformatted(this->m_disassembly[i].operators.c_str());
}
}
clipper.End();
ImGui::EndTable();
}
}
}
ImGui::End();
}
void ViewDisassembler::createMenu() {
if (ImGui::BeginMenu("View")) {
ImGui::MenuItem("Disassembler View", "", &this->m_windowOpen);
ImGui::EndMenu();
}
}
}