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58fb3ebf66
MappedFile is strictly a userspace thing, so it doesn't belong in AK (which is supposed to be user/kernel agnostic.)
134 lines
5.8 KiB
C++
134 lines
5.8 KiB
C++
/*
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* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Debug.h>
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#include <AK/OwnPtr.h>
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#include <AK/QuickSort.h>
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#include <AK/Vector.h>
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#include <LibCore/ArgsParser.h>
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#include <LibCore/MappedFile.h>
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#include <LibELF/Image.h>
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#include <LibX86/Disassembler.h>
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#include <LibX86/ELFSymbolProvider.h>
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#include <string.h>
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int main(int argc, char** argv)
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{
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const char* path = nullptr;
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Core::ArgsParser args_parser;
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args_parser.set_general_help(
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"Disassemble an executable, and show human-readable "
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"assembly code for each function.");
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args_parser.add_positional_argument(path, "Path to i386 binary file", "path");
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args_parser.parse(argc, argv);
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auto file_or_error = Core::MappedFile::map(path);
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if (file_or_error.is_error()) {
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warnln("Could not map file: {}", file_or_error.error());
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return 1;
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}
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auto& file = *file_or_error.value();
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struct Symbol {
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size_t value;
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size_t size;
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StringView name;
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size_t address() const { return value; }
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size_t address_end() const { return value + size; }
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bool contains(size_t virtual_address) { return address() <= virtual_address && virtual_address < address_end(); }
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};
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Vector<Symbol> symbols;
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const u8* asm_data = (const u8*)file.data();
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size_t asm_size = file.size();
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size_t file_offset = 0;
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Vector<Symbol>::Iterator current_symbol = symbols.begin();
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OwnPtr<X86::ELFSymbolProvider> symbol_provider; // nullptr for non-ELF disassembly.
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OwnPtr<ELF::Image> elf;
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if (asm_size >= 4 && strncmp((const char*)asm_data, "\u007fELF", 4) == 0) {
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elf = make<ELF::Image>(asm_data, asm_size);
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if (elf->is_valid()) {
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symbol_provider = make<X86::ELFSymbolProvider>(*elf);
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elf->for_each_section_of_type(SHT_PROGBITS, [&](const ELF::Image::Section& section) {
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// FIXME: Disassemble all SHT_PROGBITS sections, not just .text.
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if (section.name() != ".text")
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return IterationDecision::Continue;
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asm_data = (const u8*)section.raw_data();
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asm_size = section.size();
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file_offset = section.address();
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return IterationDecision::Break;
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});
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symbols.ensure_capacity(elf->symbol_count() + 1);
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symbols.append({ 0, 0, StringView() }); // Sentinel.
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elf->for_each_symbol([&](const ELF::Image::Symbol& symbol) {
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symbols.append({ symbol.value(), symbol.size(), symbol.name() });
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return IterationDecision::Continue;
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});
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quick_sort(symbols, [](auto& a, auto& b) {
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if (a.value != b.value)
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return a.value < b.value;
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if (a.size != b.size)
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return a.size < b.size;
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return a.name < b.name;
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});
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if constexpr (DISASM_DUMP_DEBUG) {
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for (size_t i = 0; i < symbols.size(); ++i)
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dbgln("{}: {:p}, {}", symbols[i].name, symbols[i].value, symbols[i].size);
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}
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}
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}
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X86::SimpleInstructionStream stream(asm_data, asm_size);
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X86::Disassembler disassembler(stream);
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bool is_first_symbol = true;
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bool current_instruction_is_in_symbol = false;
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for (;;) {
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auto offset = stream.offset();
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auto insn = disassembler.next();
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if (!insn.has_value())
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break;
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// Prefix regions of instructions belonging to a symbol with the symbol's name.
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// Separate regions of instructions belonging to distinct symbols with newlines,
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// and separate regions of instructions not belonging to symbols from regions belonging to symbols with newlines.
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// Interesting cases:
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// - More than 1 symbol covering a region of instructions (ICF, D1/D2)
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// - Symbols of size 0 that don't cover any instructions but are at an address (want to print them, separated from instructions both before and after)
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// Invariant: current_symbol is the largest instruction containing insn, or it is the largest instruction that has an address less than the instruction's address.
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size_t virtual_offset = file_offset + offset;
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if (current_symbol < symbols.end() && !current_symbol->contains(virtual_offset)) {
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if (!is_first_symbol && current_instruction_is_in_symbol) {
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// The previous instruction was part of a symbol that doesn't cover the current instruction, so separate it from the current instruction with a newline.
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outln();
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current_instruction_is_in_symbol = (current_symbol + 1 < symbols.end() && (current_symbol + 1)->contains(virtual_offset));
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}
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// Try to find symbol covering current instruction, if one exists.
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while (current_symbol + 1 < symbols.end() && !(current_symbol + 1)->contains(virtual_offset) && (current_symbol + 1)->address() <= virtual_offset) {
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++current_symbol;
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if (!is_first_symbol)
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outln("\n({} ({:p}-{:p}))\n", current_symbol->name, current_symbol->address(), current_symbol->address_end());
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}
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while (current_symbol + 1 < symbols.end() && (current_symbol + 1)->contains(virtual_offset)) {
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if (!is_first_symbol && !current_instruction_is_in_symbol)
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outln();
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++current_symbol;
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current_instruction_is_in_symbol = true;
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outln("{} ({:p}-{:p}):", current_symbol->name, current_symbol->address(), current_symbol->address_end());
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}
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is_first_symbol = false;
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}
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outln("{:p} {}", virtual_offset, insn.value().to_string(virtual_offset, symbol_provider));
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}
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}
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